China supplier Heavy Truck Bevel Gear CZPT Wheel and Pinion CZPT gear patrol

Product Description

Heavy Truck Bevel Gear CHINAMFG Wheel And Pinion Isuzu

 

Mechanical Equipment parts Bevel Gears

Bevel gears are useful when the direction of a shaft’s rotation needs to be changed. They are usually mounted on shafts that are 90 degrees apart, but can be designed to work at other angles as well.The teeth on bevel gears can be straight, spiral or hypoid. Straight bevel gear teeth actually have the same problem as straight spur gear teeth — as each tooth engages, it impacts the corresponding tooth all at once

High quality gear supplier

1.precise manufacturing processes and strict quality control, our factory can create excellent quality.
2.We have standard product supply and rich experience in producing non-standard products.
3.The more you order, the cheaper the price would be. 
4.we are honored to offer you samples for approval.
5.manufactures all series of spur gears, helical gears, bevel gears, gear racks, and some other similar transmission parts. All the products are designed according to international standard, in accordance with ANSI and ISO standards. 

Tolerance

0.003mm-0.01mm

Surface finish

Based on customer requirements, we can do Plating(Zinc plated, Nickel plated, Chrome plated,etc), polishing(precision can reach +/-0.005mm), knurling, anodizing, Black Oxide, heat treatment, sandblasting, powder coating, etc.

Precision processing

turning, milling, drilling, grinding, wire-EDM cutting etc

 

Material range

Metal: Stainless Steel, Brass,Copper, Brozone, Aluminum, Steel, Carbon Steel etc.

Plastic : PU, PVC, POM, PMMA, Nylon ,HDPE etc.

 

 

QC(inspection everywhere)

 

– Technicians self-check in production

– Engineer spot check in production.

– QC inspect after products finished

– International sales who were trained the technical know-how spot check before shipping to ensure the quality.

MOQ

1-100pcs

Payment

30% in advance, 70% before shipment

Industry application

Appliance/ Automotive/ Agricultural

Electronics/ Industrial/ Marine

Mining/ Hydraulics/ Valves

Oil and Gas/ Electrical/ Construction

 

Model Gear ratio  Module No. of teeth Diraction of spiral Shape Bore Hub dia. Pitch dia. Outside Dia. Mounting distance Total lemgth crown to back length 
AH7 B C D E F G
TBGG2-3571R 1.5 m2 30 R B4 12 35 60 61.06 40 26.60 21.20
TBGG2-2030L 20 L B3 10 30 40 43.55 45 24.91 16.18
TBGG2.5-3571R m2.5 30 R B4 15 45 75 77.09 50 33.86 26.56
TBGG2.5-2030L 20 L B3 12 40 50 54.43 55 30.88 18.98
TBGG3-3571R m3 30 R B4 16 50 90 92.21 50 35.34 26.66
TBGG3-2030L 20 L B3 16 40 60 65.58 70 40.17 26.86
TBGG4-3571R m4 30 R B4 20 70 120 122.85 75 47.48 37.14
TBGG4-2030L 20 L B3 20 60 80 87.34 90 48.17 32.45
TBGG2-4571R 2 m2 40 R B4 12 40 80 80.99 40 32.26 25.99
TBGG2-2040L 20 L B3 12 32 40 40.10 60 34.04 21.02
TBGG2.5-4571R m2.5 40 R B4 15 50 100 101.27 55 39.65 31.27
TBGG2.5-2040L 20 L B3 12 40 50 55.21 75 43.61 26.30
TBGG3-4571R m3 40 R B4 20 60 120 121.48 65 45.76 36.48
TBGG3-2040L 20 L B3 16 50 60 66.06 90 50.63 31.52
TBGG4-4571R m4 40 R B4 20 70 160 162.07 80 53.69 42.07
TBGG4-2040L 20 L B3 20 60 80 88.55 120 66.24 42.12
TBGG2-4515R 3 m2 45 R B4 12 40 90 96.67 40 30.29 26.01
TBGG2-1545L 15 L B3 10 24 30 34.78 60 29.66 15.80
TBGG2.5-4515R m2.5 45 R B4 15 50 112.7 113.32 50 28.25 32.47
TBGG2.5-1545L 15 L B3 12 30 37.5 43.36 75 38.27 19.73
TBGG3-4515R m3 45 R B4 20 60 135 135.99 55 40.59 33.98
TBGG3-1545L 15 L B3 15 38 45 52.08 90 44.98 23.68

HangZhou HUANBALL Professional custom and design precision machined parts. We provide custom complete turnkey precision machining solutions to thousands of customers in diverse markets throughout the world, including medical, automotive, marine, aerospace, defense, precision instrument, home appliance, electronics, machinery, oil & gas, sensors and more. 

We offer customized precision machining service and solutions that help customers meet strict operational demands.Serving a CHINAMFG customer base, we do this with:
    1*Over 100 full time engineers & workers on staff to optimize efficiency and cost saving
    2*Extensive testing to get the sample and mass production right the first time
    3*Comprehensive in-house capabilities to meet all customer needs
    4*Over 30,000 square CHINAMFG of manufacturing plant
    5*Expert design and development for all custom precision machining parts
    6*To better control the quality of the customized parts, we’ve invested substantially in equipment, facilities, and training. Our investments enable us to deliver every order according to specification – on time and on budget.

====================================  FAQ ======================================

1) Q: I haven’t done business with you before, how can i trust your company? 
A: Our company are made-in-china CHINAMFG supplier and passed Field certification by made-in-china. What’s more,we’ve got authority certificates for ISO9001.

2) Q: How is quality ensured?
A:  All our processes strictly adhere to ISO9001:2008 procedures, we have strict quality control from producing to delivery,100% inspection by professional testing centre. Small samples could be provided to you for testing.

3) Q: Can i get 1 or more samples?
A: Yes, sample orders welcomed. 

4) Q: Do you give any discounts?
A: Yes, we’ll surely try my best to help you get the best price and best service at the same time.

5) Q: How to Custom-made(OEM/ODM)?
A: Please send you product drawings or samples to us if you have, and we can custom-made as you requirements.We will also provide professional advices of the products to make the design to be maximize the performance.
  /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Motor, Electric Cars, Motorcycle, Machinery, Marine, Toy, Agricultural Machinery, Car, Printing Machine,Cooling Tower,Power Plant
Hardness: Hardened Tooth Surface
Gear Position: Bevel Gear
Manufacturing Method: Cut Gear
Toothed Portion Shape: Bevel Gear
Material: Stainless Steel, Brass,Copper, Brozone, Aluminum,
Samples:
US$ 50/Piece
1 Piece(Min.Order)

|
Request Sample

Customization:
Available

|

Customized Request

crown gear

How does a crown gear contribute to the overall efficiency of a system?

A crown gear plays a significant role in enhancing the overall efficiency of a system. Let’s explore how a crown gear contributes to system efficiency:

  • Power Transmission:

Crown gears efficiently transmit power between two intersecting shafts. By meshing with other gears in the system, the crown gear transfers rotational energy from the input shaft to the output shaft. The precise design and tooth profile of the crown gear ensure minimal energy losses during power transmission, resulting in high overall system efficiency.

  • Reduced Friction and Wear:

Crown gears are designed to minimize friction and wear. The tooth engagement between crown gears and other meshing gears is smooth due to their curved tooth profile. This reduces frictional losses and wear on the gear teeth, resulting in improved efficiency and longevity of the gear system. Additionally, crown gears distribute the load evenly across the gear teeth, minimizing localized stress concentrations and reducing the risk of premature failure.

  • Backlash Reduction:

Crown gears are effective in reducing or eliminating backlash, which is the slight clearance between the teeth of meshing gears. Backlash can cause inefficient power transmission and affect the accuracy of motion in a system. The tooth orientation and engagement properties of crown gears help minimize backlash, ensuring a tighter meshing with other gears. This reduces energy losses and improves the overall efficiency and precision of the system.

  • High Gear Ratios:

Crown gears can achieve high gear ratios due to their larger diameter and the increased number of teeth engaged with other gears. High gear ratios allow for precise speed reduction or torque multiplication, enabling the system to operate more efficiently. By optimizing the gear ratio, a crown gear contributes to the efficient conversion of input power into the desired output performance.

  • Versatility:

Crown gears offer versatility in different applications and system configurations. Their bidirectional capability allows them to handle variations in rotational direction without compromising efficiency. The ability to accommodate changes in rotational direction makes crown gears adaptable to a wide range of systems, contributing to overall system efficiency.

In summary, a crown gear enhances the overall efficiency of a system through efficient power transmission, reduced friction and wear, backlash reduction, high gear ratios, and versatility. By minimizing energy losses, optimizing gear engagement, and ensuring reliable power transfer, a crown gear plays a vital role in maximizing the efficiency and performance of the system it is employed in.

crown gear

Can you describe the advantages of using crown gears in gear systems?

Using crown gears in gear systems offers several advantages due to their unique design and characteristics. Let’s explore the advantages of using crown gears:

  • Directional Flexibility:

Crown gears provide the ability to change the direction of motion within a gear system. Their meshing arrangement allows for a 90-degree redirection of rotational motion. This directional flexibility enables engineers to design complex gear systems with versatile movement capabilities, making them suitable for various applications.

  • Smooth and Reliable Meshing:

The tooth profile of crown gears, along with their perpendicular orientation, ensures smooth and reliable meshing with other gears. The curved teeth of crown gears provide a gradual engagement, reducing noise, vibration, and wear. This results in efficient power transmission, improved gear life, and enhanced overall system performance.

  • Force Distribution:

Crown gears distribute forces more evenly across their teeth compared to other gear types. The flat gear face and perpendicular tooth orientation allow for a larger contact area during meshing, spreading the load and minimizing stress concentrations. This force distribution contributes to improved gear durability, reduced wear, and enhanced efficiency in power transmission.

  • Compatibility with Different Gear Types:

Crown gears are compatible with various gear configurations, including gears with parallel or intersecting axes. This compatibility enables engineers to incorporate crown gears into different gear systems, allowing for seamless integration and transmission of motion and power between different components. The versatility of crown gears makes them adaptable to diverse mechanical setups.

  • Precision and Control:

Crown gears offer precise motion control due to their accurate tooth engagement and minimal backlash. This precision is especially valuable in applications requiring precise positioning, such as robotics, automation, and manufacturing equipment. The controlled motion provided by crown gears ensures accurate and repeatable movements, enhancing the overall performance and efficiency of the gear system.

  • Customization Possibilities:

Crown gears can be customized to suit specific application requirements. Modifications in tooth profile, tooth size, and gear dimensions can be made to optimize performance in different systems. This adaptability allows engineers to tailor crown gears for specific applications, further enhancing their advantages in gear systems.

In summary, the advantages of using crown gears in gear systems include directional flexibility, smooth and reliable meshing, force distribution, compatibility with different gear types, precision and control, and customization possibilities. These advantages make crown gears a valuable choice for engineers when designing gear systems for a wide range of industries and applications.

crown gear

Can you explain the unique design and shape of crown gears?

The design and shape of crown gears are indeed unique and distinguishable from other types of gears. Let’s delve into the characteristics that define the unique design and shape of crown gears:

  • Tooth Orientation:

One of the key features of crown gears is their tooth orientation. Unlike other gears such as spur gears or bevel gears, where the teeth are parallel or at an angle to the gear’s axis, crown gears have teeth perpendicular to the gear’s face. This perpendicular tooth orientation allows for specific functionalities in mechanical systems.

  • Teeth Shape:

The teeth of a crown gear are shaped like segments of a cylinder. They have a curved profile that matches the circumference of the gear. This unique tooth shape ensures smooth engagement and meshing with other gears, facilitating reliable torque transmission and rotational motion transfer.

  • Gear Face:

Crown gears have a flat gear face where the teeth are positioned. The gear face is perpendicular to the gear’s axis and provides a stable surface for the meshing of other gears. The flat gear face allows for effective contact and force distribution when the crown gear engages with other gears in a mechanical system.

  • Meshing with Other Gears:

The design of crown gears enables them to mesh with other gears in a unique manner. Crown gears can mesh with gears that have parallel axes or bevel gears with intersecting axes. The perpendicular tooth orientation and the curved tooth shape facilitate smooth and efficient meshing, allowing the transfer of torque and rotational motion between different gear types.

  • Application-Specific Modifications:

While the basic design and shape of crown gears are consistent, they can be modified or customized for specific applications. This may include alterations in the tooth profile, tooth size, or gear dimensions to suit the requirements of the machinery or system in which they are used.

In summary, crown gears possess a unique design and shape characterized by perpendicular tooth orientation, curved tooth profile, a flat gear face, and compatibility with different gear types. These features contribute to the effective engagement, smooth meshing, and reliable transmission of torque and motion in mechanical systems.

China supplier Heavy Truck Bevel Gear CZPT Wheel and Pinion CZPT gear patrolChina supplier Heavy Truck Bevel Gear CZPT Wheel and Pinion CZPT gear patrol
editor by CX 2024-04-09

China manufacturer OEM High Quality Plastic Bevel/Crown/Worm/Helical Sprocket/Spur Gear for Shaft bevel gear set

Product Description


Excellent powder metallurgy parts metallic sintered parts
We could offer various powder metallurgy parts including iron based and copper based with top quality and cheapest price, please only send the drawing or sample to us, we will according to customer’s requirement to make it. if you are interested in our product, please do not hesitate to contact us, we would like to offer the top quality and best service for you. thank you!

How do We Work with Our Clients
1. For a design expert or a big company with your own engineering team: we prefer to receive a fully RFQ pack from you including drawing, 3D model, quantity, pictures;

2. For a start-up company owner or green hand for engineering: just send an idea that you want to try, you don’t even need to know what casting is;

3. Our sales will reply you within 24 hours to confirm further details and give the estimated quote time;

4. Our engineering team will evaluate your inquiry and provide our offer within next 1~3 working days.

5. We can arrange a technical communication meeting with you and our engineers together anytime if required.

Place of origin: Jangsu,China
Type: Powder metallurgy sintering
Spare parts type: Powder metallurgy parts
Machinery Test report: Provided
Material: Iron,stainless,steel,copper
Key selling points: Quality assurance
Mould type: Tungsten steel
Material standard: MPIF 35,DIN 3571,JIS Z 2550
Application: Small home appliances,Lockset,Electric tool, automobile,
Brand Name: OEM SERVICE
Plating: Customized
After-sales Service: Online support
Processing: Powder Metallurgr,CNC Machining
Powder Metallurgr: High frequency quenching, oil immersion
Quality Control: 100% inspection

The Advantage of Powder Metallurgy Process

1. Cost effective
The final products can be compacted with powder metallurgy method ,and no need or can shorten the processing of machine .It can save material greatly and reduce the production cost .

2. Complex shapes
Powder metallurgy allows to obtain complex shapes directly from the compacting tooling ,without any machining operation ,like teeth ,splines ,profiles ,frontal geometries etc.

3. High precision
Achievable tolerances in the perpendicular direction of compacting are typically IT 8-9 as sintered,improvable up to IT 5-7 after sizing .Additional machining operations can improve the precision .

4. Self-lubrication
The interconnected porosity of the material can be filled with oils ,obtaining then a self-lubricating bearing :the oil provides constant lubrication between bearing and shaft ,and the system does not need any additional external lubricant .

5. Green technology
The manufacturing process of sintered components is certified as ecological ,because the material waste is very low ,the product is recyclable ,and the energy efficiency is good because the material is not molten. 

FAQ
Q1: What is the type of payment?
A: Usually you should prepay 50% of the total amount. The balance should be pay off before shipment.

Q2: How to guarantee the high quality?
A: 100% inspection. We have Carl Zeiss high-precision testing equipment and testing department to make sure every product of size,appearance and pressure test are good. 

Q3: How long will you give me the reply?
A: we will contact you in 12 hours as soon as we can.

Q4. How about your delivery time?
A: Generally, it will take 25 to 35 days after receiving your advance payment. The specific delivery time depends on the items and the quantity of your order. and if the item was non standard, we have to consider extra 10-15days for tooling/mould made.

Q5. Can you produce according to the samples or drawings?
A: Yes, we can produce by your samples or technical drawings. We can build the molds and fixtures.

Q6: How about tooling Charge?
A: Tooling charge only charge once when first order, all future orders would not charge again even tooling repair or under maintance.

Q7: What is your sample policy?
A: We can supply the sample if we have ready parts in stock, but the customers have to pay the sample cost and the courier cost.

Q8: How do you make our business long-term and good relationship?
A: 1. We keep good quality and competitive price to ensure our customers benefit ;
    2. We respect every customer as our friend and we sincerely do business and make friends with them, no matter where they come from.
  /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Motor, Electric Cars, Motorcycle, Machinery, Marine, Toy, Agricultural Machinery, Car, as Required
Hardness: Hardened Tooth Surface
Gear Position: External Gear
Samples:
US$ 20/Piece
1 Piece(Min.Order)

|

Order Sample

Customization:
Available

|

Customized Request

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Shipping Cost:

Estimated freight per unit.







about shipping cost and estimated delivery time.
Payment Method:







 

Initial Payment



Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

crown gear

What are the safety considerations when working with crown gear systems?

Working with crown gear systems requires attention to safety to prevent accidents and ensure the well-being of individuals involved. Here are some important safety considerations when working with crown gear systems:

  • Training and Knowledge:

Ensure that individuals working with crown gear systems have received proper training and possess the necessary knowledge and expertise. They should understand the gear system’s operation, potential hazards, safety protocols, and emergency procedures. Adequate training helps minimize the risk of accidents and promotes safe working practices.

  • Protective Equipment:

Provide appropriate personal protective equipment (PPE) to individuals working with crown gear systems. This may include safety glasses, gloves, ear protection, and any other necessary equipment based on the specific hazards associated with the system. PPE helps safeguard against potential injuries from flying debris, noise, or contact with moving parts.

  • Machine Guarding:

Ensure that crown gear systems are properly guarded to prevent accidental contact with the moving gears. Install protective barriers, covers, or interlocking mechanisms to restrict access to hazardous areas. Machine guarding helps prevent injuries and keeps personnel safe from potential pinch points, entanglement, or crushing hazards.

  • Lockout/Tagout Procedures:

Follow lockout/tagout procedures when performing maintenance or repair tasks on crown gear systems. Lockout/tagout involves isolating the equipment from its power source and affixing lockout/tagout devices to prevent unintended energization. This procedure protects workers from the unexpected startup of machinery and ensures their safety during maintenance activities.

  • Routine Inspections:

Regularly inspect the crown gear system for any signs of wear, damage, or abnormalities. Look for loose or missing bolts, excessive vibrations, unusual noise, or leaks. Detecting and addressing potential issues through routine inspections helps prevent accidents and maintain the safe functioning of the gear system.

  • Proper Lifting and Handling:

When moving or lifting crown gear components, adhere to proper lifting techniques and use appropriate lifting equipment. Crown gears can be heavy, and incorrect lifting or handling can lead to strains, sprains, or dropped objects. Follow ergonomic guidelines and use mechanical aids such as cranes, hoists, or lifting slings to ensure safe lifting practices.

  • Emergency Preparedness:

Establish emergency preparedness protocols specific to crown gear systems. This includes clear communication channels, knowledge of emergency shutdown procedures, and access to first aid supplies. Train personnel on how to respond to emergencies, such as gear system malfunctions, injuries, or unexpected incidents.

Promoting a safety-conscious culture, providing ongoing safety training, and ensuring the implementation of appropriate safety measures are critical when working with crown gear systems. It is important to adhere to local safety regulations, follow manufacturer guidelines, and prioritize the well-being of individuals involved in operating, maintaining, or repairing crown gear systems.

crown gear

What are the challenges in designing and manufacturing crown gears?

The design and manufacturing of crown gears come with certain challenges that engineers and manufacturers need to address. Let’s explore the challenges involved in designing and manufacturing crown gears:

  • Complex Tooth Geometry:

Crown gears have a complex tooth geometry compared to other gear types. The curved shape of the teeth requires precise calculations and design considerations to ensure proper meshing and optimal performance. Designing and modeling these intricate tooth profiles can be challenging, requiring advanced software tools and expertise.

  • Manufacturing Tolerances:

Manufacturing crown gears with tight tolerances is crucial to achieve smooth and accurate meshing with other gears. The curved tooth profile and perpendicular orientation require precise machining or gear cutting processes. Maintaining the necessary tolerances throughout the manufacturing process can be challenging and may require specialized equipment or techniques.

  • Noise and Vibration:

Due to the complex tooth geometry and meshing characteristics, crown gears can generate noise and vibration during operation. Ensuring quiet and vibration-free performance is essential, especially in applications where noise reduction is critical. Designing and manufacturing crown gears with appropriate tooth profiles, surface finishes, and gear materials can help mitigate noise and vibration issues.

  • Stress Concentrations:

Crown gears are susceptible to stress concentrations at the tooth root and fillet areas. The high contact stresses occurring during meshing can lead to premature tooth failure or wear. Designing proper fillet radii, optimizing tooth profiles, and selecting suitable materials and heat treatments are important considerations to minimize stress concentrations and enhance gear strength and durability.

  • Heat Treatment and Surface Hardening:

Achieving the desired surface hardness and wear resistance of crown gears can be challenging. Heat treatment processes, such as carburizing or induction hardening, need to be carefully controlled to ensure uniform hardness distribution and avoid distortion. Balancing the gear’s core toughness with the surface hardness is critical to maintain gear integrity and performance.

  • Lubrication and Maintenance:

Crown gears require proper lubrication to reduce friction, wear, and heat generation during operation. Designing gear systems with adequate lubrication mechanisms, such as oil baths or forced lubrication, is crucial. Additionally, considering maintenance requirements, such as accessibility for lubrication and gear inspection, is important to ensure the long-term performance and reliability of crown gears.

In summary, designing and manufacturing crown gears present challenges related to complex tooth geometry, manufacturing tolerances, noise and vibration, stress concentrations, heat treatment, surface hardening, lubrication, and maintenance. Overcoming these challenges requires careful design considerations, precise manufacturing processes, and suitable material selection to ensure the optimal performance, durability, and reliability of crown gears in gear systems.

crown gear

How do crown gears contribute to transmitting motion and power?

Crown gears play a significant role in the transmission of motion and power in mechanical systems. Let’s explore how crown gears contribute to these essential functions:

  • Directional Change:

One of the primary contributions of crown gears is facilitating a change in motion direction. By meshing a crown gear with other gears, the rotational motion can be redirected by 90 degrees. This directional change capability enables the transmission of motion in different directions within a mechanical system, allowing for the desired movement and positioning of components.

  • Meshing and Torque Transfer:

Crown gears engage and mesh with other gears to transmit torque and rotational motion. The teeth of a crown gear interlock with the teeth of the meshing gear, creating a mechanical connection. As power is applied to the crown gear, the interlocking teeth transfer torque to the meshing gear, enabling the transmission of rotational motion and power from one gear to another.

  • Force Distribution:

Crown gears contribute to the distribution of forces in a gear system. When a crown gear meshes with other gears, the load and forces acting on the gear teeth are distributed across a larger contact area. This distribution helps reduce stress and wear on individual gear teeth, ensuring smoother operation, improved durability, and efficient power transmission within the system.

  • Compatibility with Different Gears:

Crown gears are designed to be compatible with various gear types, including gears with parallel axes or bevel gears with intersecting axes. This compatibility allows crown gears to mesh smoothly with different gear configurations, enabling the transmission of motion and power between different components of a machinery setup. Crown gears serve as a critical link in transferring power and rotational motion within complex gear systems.

  • Precision and Control:

Due to their unique design and meshing characteristics, crown gears offer precise control over motion and power transmission. The interlocking teeth of crown gears ensure a firm and accurate engagement, minimizing backlash and providing reliable and controlled movement. This precision is particularly crucial in applications that require accurate positioning, such as robotics, automation, and manufacturing processes.

In summary, crown gears contribute to the transmission of motion and power by enabling directional changes, meshing and torque transfer, distributing forces, ensuring compatibility with different gear types, and providing precision and control. These contributions make crown gears vital components in various mechanical systems, allowing for efficient power transmission, accurate motion control, and reliable operation.

China manufacturer OEM High Quality Plastic Bevel/Crown/Worm/Helical Sprocket/Spur Gear for Shaft bevel gear setChina manufacturer OEM High Quality Plastic Bevel/Crown/Worm/Helical Sprocket/Spur Gear for Shaft bevel gear set
editor by CX 2024-04-09

China wholesaler Wholesale Bevel and CZPT Gears for Precision Automotive Parts bevel spiral gear

Product Description

1) According to the different strength and performance, we choose the steel with strong compression;
2) Using Germany professional software and our professional engineers to design products with more reasonable size and better performance; 3) We can customize our products according to the needs of our customers,Therefore, the optimal performance of the gear can be exerted under different working conditions;
4) Quality assurance in every step to ensure product quality is controllable.

Product Paramenters

DRIVEN GEAR

NUMBER OF TEETH

18

MODULE

11.1111

LENTH

307

OUTER DIAMETER

ø212

DIRECTION OF SPIRAL

R

ACCURACY OF SPLINE

M55*1.5-6h

NUMBER OF SPLINE

31

DRIVEN GEAR

NUMBER OF TEETH

27

OUTER DIAMETER

ø3 square meter, with building area of 72,000 square meters. More than 500 employees work in our company.
 We own more than 560 high-precise machining equipments, 10 Klingelnberg Oerlikon gear production lines, 36 Gleason gear production lines, 5 forging production lines 2 german Aichilin and 5 CHINAMFG CHINAMFG advanced automatic continuous heat treatment production lines. With the introducing the advanced Oerlikon C50 and P65 measuring center, we enhence our technology level and improve our product quality a lot. We offer better quality  and good after-sale service with low price, which insure the good reputation. With the concept of “for the people, by technology, creativity, for the society, transfering friendship, honest”, we are trying to provice the world-top level product.
Our aim is: CHINAMFG Gear,world class, Drive the world.
According to the different strength and performance, we choose the steel with strong compression;Using Germany professional software and our professional engineers to design products with more reasonable size and better performance;We can customize our products according to the needs of our customers,Therefore, the optimal performance of the gear can be exerted under different working conditions;Quality assurance in every step to ensure product quality is controllable.
Our company had full quality management system and had been certified by ISO9001:2000, QS-9000:1998, ISO/TS16949 , which insure the entrance of international market.

Certification & honors

Packaging & Shipping

Packaging Detail:standard package(carton ,wooden pallet).
Shipping:Support Sea freight. Accept FOB,EXW,FAS,DES. 

 

Cooperative customers

HangZhou CHINAMFG Gear Co., Ltd. adheres to the concept of “people-oriented, prosper with science and technology; create high-quality products, contribute to the society; turn friendship, and contribute sincerely”, and will strive to create world automotive axle spiral bevel gear products.


1.Do you provide samples?
Yes,we can offer free sample but not pay the cost of freight.
2.What about OEM?
Yes,we can do OEM according to your requirements.
3.How about after-sales service?
We have excellent after-sales service if you have any quanlity problem,you can contact us anytime.
4.What about package?
Stardard package or customized package as requirements.
5.How to ensure the quanlity of the products?
We can provide raw meterial report,metallographic examination and the accuracy testing etc.
6.How long is your delivery time?
Genarally it is 4-7 days.If customized it will be take 20 days according to your quantity. /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Motor, Electric Cars, Motorcycle, Machinery, Marine, Agricultural Machinery, Car
Hardness: Hardened Tooth Surface
Gear Position: External Gear
Manufacturing Method: Cast Gear
Toothed Portion Shape: Herringbone Gear
Material: Cast Steel
Samples:
US$ 100/Set
1 Set(Min.Order)

|
Request Sample

Customization:
Available

|

Customized Request

crown gear

Can crown gears be used in automotive applications?

Yes, crown gears can be used in automotive applications, and they serve various purposes within the automotive systems. Let’s explore how crown gears are utilized in the automotive industry:

  • Differential Gear Systems:

Crown gears are commonly employed in differential gear systems. The differential is a critical component in vehicles that enables the wheels to rotate at different speeds while maintaining power distribution. Crown gears, along with bevel gears, form the gear set within the differential, allowing the power from the engine to be split and distributed to the wheels effectively. The use of crown gears in differentials ensures smooth power transmission and enables improved handling, traction, and stability of the vehicle.

  • Power Steering Systems:

Crown gears can also be found in power steering systems, particularly in rack-and-pinion setups. In such systems, the crown gear is an integral part of the rack, and it meshes with the pinion gear to convert the rotational motion of the steering wheel into linear motion. The use of crown gears in power steering systems allows for precise and responsive steering control, enhancing the overall driving experience.

  • Timing Gear Systems:

Crown gears are utilized in timing gear systems of internal combustion engines. These systems synchronize the opening and closing of engine valves with the movement of the crankshaft. Crown gears, along with other gears like spur gears or helical gears, are employed to transfer rotational motion from the crankshaft to the camshaft(s). The accurate timing and synchronization provided by crown gears ensure efficient engine performance and optimal combustion.

  • Other Applications:

Besides the specific automotive systems mentioned above, crown gears can also find use in other applications within vehicles. They may be employed in speedometers, odometers, and various instrument clusters to transfer and display speed or distance information accurately. Additionally, crown gears can be utilized in adjustable seating mechanisms, convertible tops, or other motorized components in vehicles.

In summary, crown gears have diverse applications in the automotive industry. Whether in differential gear systems, power steering systems, timing gear systems, or other vehicle components, crown gears contribute to improved power distribution, precise steering control, efficient engine performance, and accurate information display. Their reliability, durability, and ability to handle high loads make them suitable for fulfilling the demanding requirements of automotive applications.

crown gear

How do crown gears contribute to power distribution in gear arrangements?

Crown gears play a significant role in power distribution within gear arrangements, ensuring efficient and balanced transmission of power. Let’s explore how crown gears contribute to power distribution:

  • Load Sharing:

Crown gears are often used in gear arrangements where multiple gears are present. In such arrangements, crown gears help distribute the power load among the gears. By sharing the load, each gear experiences a reduced load compared to if it were to carry the entire power load alone. This load sharing capability helps prevent overloading and excessive stress on individual gears, promoting more reliable and efficient power distribution.

  • Equal Torque Transfer:

Crown gears facilitate equal torque transfer among interconnected gears. When a crown gear meshes with another gear, the torque applied to the crown gear is transmitted to the meshing gear. Due to their tooth orientation and large contact area, crown gears enable a more uniform distribution of torque, ensuring that the torque is evenly transferred from one gear to another. This balanced torque distribution helps maintain smooth operation and prevent gear failures due to torque overload.

  • Elimination of Backlash:

Crown gears help reduce or eliminate backlash in gear arrangements. Backlash refers to the slight clearance or play between the teeth of meshing gears. It can cause inaccuracies, vibrations, and noise in the system. Crown gears, with their perpendicular tooth orientation and optimized meshing characteristics, minimize backlash and ensure a tight and precise engagement between gears. This tight meshing eliminates power losses associated with backlash and contributes to more efficient power distribution.

  • Better Load Distribution:

Due to their curved tooth profile and larger contact area, crown gears provide improved load distribution across the gear teeth. When power is transmitted through crown gears, the load is distributed over a greater number of teeth compared to other gear types. This even load distribution results in reduced stress concentrations on individual teeth, enhancing the gear’s load-carrying capacity and promoting uniform power distribution throughout the gear arrangement.

  • Enhanced System Efficiency:

By facilitating load sharing, equal torque transfer, backlash elimination, and improved load distribution, crown gears contribute to enhanced system efficiency. The balanced power distribution achieved through crown gears helps minimize power losses, reduce energy wastage, and optimize the overall efficiency of the gear arrangement. This improved efficiency translates into better performance, reduced energy consumption, and increased productivity in various mechanical systems.

In summary, crown gears contribute to power distribution in gear arrangements through load sharing, equal torque transfer, elimination of backlash, better load distribution, and enhanced system efficiency. These characteristics make crown gears an integral part of gear systems, ensuring reliable and efficient power transmission in a wide range of applications.

crown gear

How do crown gears contribute to transmitting motion and power?

Crown gears play a significant role in the transmission of motion and power in mechanical systems. Let’s explore how crown gears contribute to these essential functions:

  • Directional Change:

One of the primary contributions of crown gears is facilitating a change in motion direction. By meshing a crown gear with other gears, the rotational motion can be redirected by 90 degrees. This directional change capability enables the transmission of motion in different directions within a mechanical system, allowing for the desired movement and positioning of components.

  • Meshing and Torque Transfer:

Crown gears engage and mesh with other gears to transmit torque and rotational motion. The teeth of a crown gear interlock with the teeth of the meshing gear, creating a mechanical connection. As power is applied to the crown gear, the interlocking teeth transfer torque to the meshing gear, enabling the transmission of rotational motion and power from one gear to another.

  • Force Distribution:

Crown gears contribute to the distribution of forces in a gear system. When a crown gear meshes with other gears, the load and forces acting on the gear teeth are distributed across a larger contact area. This distribution helps reduce stress and wear on individual gear teeth, ensuring smoother operation, improved durability, and efficient power transmission within the system.

  • Compatibility with Different Gears:

Crown gears are designed to be compatible with various gear types, including gears with parallel axes or bevel gears with intersecting axes. This compatibility allows crown gears to mesh smoothly with different gear configurations, enabling the transmission of motion and power between different components of a machinery setup. Crown gears serve as a critical link in transferring power and rotational motion within complex gear systems.

  • Precision and Control:

Due to their unique design and meshing characteristics, crown gears offer precise control over motion and power transmission. The interlocking teeth of crown gears ensure a firm and accurate engagement, minimizing backlash and providing reliable and controlled movement. This precision is particularly crucial in applications that require accurate positioning, such as robotics, automation, and manufacturing processes.

In summary, crown gears contribute to the transmission of motion and power by enabling directional changes, meshing and torque transfer, distributing forces, ensuring compatibility with different gear types, and providing precision and control. These contributions make crown gears vital components in various mechanical systems, allowing for efficient power transmission, accurate motion control, and reliable operation.

China wholesaler Wholesale Bevel and CZPT Gears for Precision Automotive Parts bevel spiral gearChina wholesaler Wholesale Bevel and CZPT Gears for Precision Automotive Parts bevel spiral gear
editor by CX 2024-04-08

China manufacturer 18spline Teeth CZPT Wheel Pinion Gear Set Bevel Gear raw gear

Product Description

Product Description

Product introduction

Gear processing modules 0.5-20
Max. machining diamete for gear milling 1720mm
Max. main shaft through-hole diameter for gear grinding 180mm
Max, main shaft through-hole diameter for gear milling 320mm
Max. machining diameter for gear grinding 850mm
Highest precision GB11365-89   4 grade
Transmission ratio 1:1-1:10

My advantages:
1. High quality materials, professional production, high-precision equipment. Customized design and processing;
2. Strong and durable, strong strength, large torque and good comprehensive mechanical properties;
3. High rotation efficiency, stable and smooth transmission, long service life, noise reduction and shock absorption;
4. Focus on gear processing for 20 years.
5. Carburizing and quenching of tooth surface, strong wear resistance, reliable operation and high bearing capacity;
6. The tooth surface can be ground, and the precision is higher after grinding.

 

 

The company is a manufacturer of high-quality leather wheel transmission components and mechanical transmission equipment. Its products are widely used in various fields such as aviation, aerospace, shipbuilding, rail transit, engineering vehicles, and industrial automation equipment. The company was founded in December 2002, and its factory is located in Xihu (West Lake) Dis.ng Industrial Zone, Jiangfu City, ZheJiang Province. The existing factory building covers an area of 38000 square meters, with a registered capital of 20 million yuan and a total asset of about 180 million yuan. It has passed the CCs ship inspection and recognition by China’s classification society, and has been rated as a high-tech enterprise in ZheJiang Province and the ZheJiang High Precision Gear Transmission Key Component Engineering Technology Research Center.

The company has the most advanced manufacturing and testing equipment for bright precision gear transmission components in the world, with manufacturing accuracy CHINAMFG national standard 3-4 levels. It has 275G and 800G CNC Yawei gear grinding machines from Grissom Phoenix, Germany, Capa vX55 and VX59 CNC gear grinding centers from Germany, ZE400 and ZE8OO shaped gear grinding machines from Capa Niles, worm gear grinding machines from Germany, Graub 5-extraction linkage machining center from Germany, KS42 high-precision straight bevel gear grinding machine from Switzerland, Teng gear grinding machine from Switzerland, S33 high-precision CNC universal domestic and foreign grinding machine from Stuttgart, Switzerland, and GMM1500 gear measuring center from Grissom GMM1500, Zeiss Santang, Germany.

After years of testing, exploration, and improvement, the company’s research and development team has mastered key technologies such as high-precision gear CNC grinding technology, inspection technology, heat treatment technology for thin-walled parts, independent design and manufacturing technology for special cutters, fixtures, and special measuring tools. At present, the company’s manufacturing capacity and technical development level rank among the leading levels of domestic peers.
 

 

 

 

FAQ

Main Markets? North America, South America, Eastern Europe , West Europe , North Europe, South Europe, Asia
How to order? * You send us drawing or sample
* We carry through project assessment
* We give you our design for your confirmation
* We make the sample and send it to you after you confirmed our design
* You confirm the sample then place an order and pay us 30% deposit
* We start producing
* When the goods is done, you pay us the balance after you confirmed pictures or tracking numbers.
* Trade is done, thank you!!

  /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Motor, Electric Cars, Motorcycle, Machinery, Marine, Toy, Agricultural Machinery, Car
Hardness: Hardened Tooth Surface
Gear Position: Internal Gear
Manufacturing Method: Cast Gear
Toothed Portion Shape: Spur Gear
Material: Stainless Steel
Samples:
US$ 60/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

crown gear

Can crown gears be used in automotive applications?

Yes, crown gears can be used in automotive applications, and they serve various purposes within the automotive systems. Let’s explore how crown gears are utilized in the automotive industry:

  • Differential Gear Systems:

Crown gears are commonly employed in differential gear systems. The differential is a critical component in vehicles that enables the wheels to rotate at different speeds while maintaining power distribution. Crown gears, along with bevel gears, form the gear set within the differential, allowing the power from the engine to be split and distributed to the wheels effectively. The use of crown gears in differentials ensures smooth power transmission and enables improved handling, traction, and stability of the vehicle.

  • Power Steering Systems:

Crown gears can also be found in power steering systems, particularly in rack-and-pinion setups. In such systems, the crown gear is an integral part of the rack, and it meshes with the pinion gear to convert the rotational motion of the steering wheel into linear motion. The use of crown gears in power steering systems allows for precise and responsive steering control, enhancing the overall driving experience.

  • Timing Gear Systems:

Crown gears are utilized in timing gear systems of internal combustion engines. These systems synchronize the opening and closing of engine valves with the movement of the crankshaft. Crown gears, along with other gears like spur gears or helical gears, are employed to transfer rotational motion from the crankshaft to the camshaft(s). The accurate timing and synchronization provided by crown gears ensure efficient engine performance and optimal combustion.

  • Other Applications:

Besides the specific automotive systems mentioned above, crown gears can also find use in other applications within vehicles. They may be employed in speedometers, odometers, and various instrument clusters to transfer and display speed or distance information accurately. Additionally, crown gears can be utilized in adjustable seating mechanisms, convertible tops, or other motorized components in vehicles.

In summary, crown gears have diverse applications in the automotive industry. Whether in differential gear systems, power steering systems, timing gear systems, or other vehicle components, crown gears contribute to improved power distribution, precise steering control, efficient engine performance, and accurate information display. Their reliability, durability, and ability to handle high loads make them suitable for fulfilling the demanding requirements of automotive applications.

crown gear

Can crown gears be used in high-torque applications?

Crown gears can indeed be used in high-torque applications, thanks to their unique design and capabilities. Let’s explore the factors that make crown gears suitable for high-torque applications:

  • Large Contact Area:

Crown gears have a relatively larger contact area compared to other gear types. This increased contact area allows for better load distribution and can handle higher torque loads. The larger contact area spreads the torque across more teeth, reducing stress concentrations and minimizing the risk of tooth failure under high-torque conditions.

  • Perpendicular Tooth Orientation:

The perpendicular tooth orientation of crown gears enhances their ability to withstand high-torque applications. When the gear meshes with another gear, the perpendicular alignment allows for a greater number of teeth in contact, distributing the torque load over a larger area. This perpendicular tooth arrangement helps to minimize tooth deflection and tooth-to-tooth interference, improving the gear’s ability to handle high torque loads.

  • Strength and Durability:

Crown gears are typically manufactured using materials with high strength and durability, such as hardened steel or alloy steels. These materials provide the necessary mechanical properties to withstand high torque loads without deformation or failure. By selecting appropriate materials and employing suitable heat treatment processes, crown gears can withstand the demanding conditions of high-torque applications.

  • Load Sharing in Gear Systems:

In high-torque applications, it is common to use multiple gears to distribute the torque load and reduce the stress on individual gears. Crown gears play a role in load sharing within the gear system, distributing the torque load between multiple gears. This load sharing capability allows each gear to handle a fraction of the total torque, reducing the torque load on each individual crown gear and enhancing their ability to operate in high-torque conditions.

  • Optimized Tooth Profile:

The tooth profile of crown gears can be optimized for high-torque applications. Engineers can design crown gears with appropriate tooth profiles, such as modified involute profiles or special tooth forms, to enhance their load-carrying capacity and minimize tooth stress under high-torque conditions. These optimized tooth profiles help to improve the gear’s performance and reliability in high-torque applications.

In summary, crown gears can be successfully used in high-torque applications due to their large contact area, perpendicular tooth orientation, strength and durability, load-sharing capabilities, and the ability to optimize tooth profiles. These features make crown gears capable of handling the demanding torque loads encountered in various industries, including heavy machinery, automotive applications, industrial equipment, and more.

crown gear

How do crown gears contribute to transmitting motion and power?

Crown gears play a significant role in the transmission of motion and power in mechanical systems. Let’s explore how crown gears contribute to these essential functions:

  • Directional Change:

One of the primary contributions of crown gears is facilitating a change in motion direction. By meshing a crown gear with other gears, the rotational motion can be redirected by 90 degrees. This directional change capability enables the transmission of motion in different directions within a mechanical system, allowing for the desired movement and positioning of components.

  • Meshing and Torque Transfer:

Crown gears engage and mesh with other gears to transmit torque and rotational motion. The teeth of a crown gear interlock with the teeth of the meshing gear, creating a mechanical connection. As power is applied to the crown gear, the interlocking teeth transfer torque to the meshing gear, enabling the transmission of rotational motion and power from one gear to another.

  • Force Distribution:

Crown gears contribute to the distribution of forces in a gear system. When a crown gear meshes with other gears, the load and forces acting on the gear teeth are distributed across a larger contact area. This distribution helps reduce stress and wear on individual gear teeth, ensuring smoother operation, improved durability, and efficient power transmission within the system.

  • Compatibility with Different Gears:

Crown gears are designed to be compatible with various gear types, including gears with parallel axes or bevel gears with intersecting axes. This compatibility allows crown gears to mesh smoothly with different gear configurations, enabling the transmission of motion and power between different components of a machinery setup. Crown gears serve as a critical link in transferring power and rotational motion within complex gear systems.

  • Precision and Control:

Due to their unique design and meshing characteristics, crown gears offer precise control over motion and power transmission. The interlocking teeth of crown gears ensure a firm and accurate engagement, minimizing backlash and providing reliable and controlled movement. This precision is particularly crucial in applications that require accurate positioning, such as robotics, automation, and manufacturing processes.

In summary, crown gears contribute to the transmission of motion and power by enabling directional changes, meshing and torque transfer, distributing forces, ensuring compatibility with different gear types, and providing precision and control. These contributions make crown gears vital components in various mechanical systems, allowing for efficient power transmission, accurate motion control, and reliable operation.

China manufacturer 18spline Teeth CZPT Wheel Pinion Gear Set Bevel Gear raw gearChina manufacturer 18spline Teeth CZPT Wheel Pinion Gear Set Bevel Gear raw gear
editor by CX 2024-04-08

China Standard CZPTWheel Pinion Gear for Landcruiser Fzj79 Fzj100 Grj200 Urj200 41201-80493 straight bevel gear

Product Description

Product Description

Product name

Crown wheel Pinion

Brand SVD
Sample Available
Color Customize color
Packaging Neutral Plastic Bag and Neutral Outer Carton, or according to client’s request
Port HangZhou
Lead time 10-20days, if in stock ,7-10 days
After-service 1 YEAR

 

Detailed Photos

Packaging & Shipping

Company Profile

HangZhou CHINAMFG Auto Parts Co., Ltd (HangZhou Shengda Auto Parts Company is in HangZhou Xihu (West Lake) Dis.li Auto Parts Market and estaablished in 2003.)specializes in developing and exporting the chassis parts and engine parts of Japanese and Korean automobiles. It is the persistence of 2 generation and always implement the company philosophy”The customer is first, the quality is best”. We have been committed to providing high efficiency, quality guaranteed, long durability auto parts to our customers. Our main products include suspension system, drive system, steering system,brake system, engine system and others. Like bushing, Engine Mounting, Stabilizer Link,Shock absorber,brake pads,filters,spark plugs, injectors, ignition coils and so on for Toyota, Honda, Nissan, Mitsubishi, Mazda and Hyundai. we are expanding some European and American cars. Until now,we have business with more than 80 countries in Africa, the South America,the Mid-East and Southeast Asia. We will keep trying to service customers and welcome to cooperate with our company.

 

Customer photos

FAQ

/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

After-sales Service: 1 Year
Warranty: 1 Year
Type: Crown Wheel Pinion
Samples:
US$ 35/Piece
1 Piece(Min.Order)

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about shipping cost and estimated delivery time.
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Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

crown gear

Can crown gears be used in automotive applications?

Yes, crown gears can be used in automotive applications, and they serve various purposes within the automotive systems. Let’s explore how crown gears are utilized in the automotive industry:

  • Differential Gear Systems:

Crown gears are commonly employed in differential gear systems. The differential is a critical component in vehicles that enables the wheels to rotate at different speeds while maintaining power distribution. Crown gears, along with bevel gears, form the gear set within the differential, allowing the power from the engine to be split and distributed to the wheels effectively. The use of crown gears in differentials ensures smooth power transmission and enables improved handling, traction, and stability of the vehicle.

  • Power Steering Systems:

Crown gears can also be found in power steering systems, particularly in rack-and-pinion setups. In such systems, the crown gear is an integral part of the rack, and it meshes with the pinion gear to convert the rotational motion of the steering wheel into linear motion. The use of crown gears in power steering systems allows for precise and responsive steering control, enhancing the overall driving experience.

  • Timing Gear Systems:

Crown gears are utilized in timing gear systems of internal combustion engines. These systems synchronize the opening and closing of engine valves with the movement of the crankshaft. Crown gears, along with other gears like spur gears or helical gears, are employed to transfer rotational motion from the crankshaft to the camshaft(s). The accurate timing and synchronization provided by crown gears ensure efficient engine performance and optimal combustion.

  • Other Applications:

Besides the specific automotive systems mentioned above, crown gears can also find use in other applications within vehicles. They may be employed in speedometers, odometers, and various instrument clusters to transfer and display speed or distance information accurately. Additionally, crown gears can be utilized in adjustable seating mechanisms, convertible tops, or other motorized components in vehicles.

In summary, crown gears have diverse applications in the automotive industry. Whether in differential gear systems, power steering systems, timing gear systems, or other vehicle components, crown gears contribute to improved power distribution, precise steering control, efficient engine performance, and accurate information display. Their reliability, durability, and ability to handle high loads make them suitable for fulfilling the demanding requirements of automotive applications.

crown gear

Can crown gears be used in high-torque applications?

Crown gears can indeed be used in high-torque applications, thanks to their unique design and capabilities. Let’s explore the factors that make crown gears suitable for high-torque applications:

  • Large Contact Area:

Crown gears have a relatively larger contact area compared to other gear types. This increased contact area allows for better load distribution and can handle higher torque loads. The larger contact area spreads the torque across more teeth, reducing stress concentrations and minimizing the risk of tooth failure under high-torque conditions.

  • Perpendicular Tooth Orientation:

The perpendicular tooth orientation of crown gears enhances their ability to withstand high-torque applications. When the gear meshes with another gear, the perpendicular alignment allows for a greater number of teeth in contact, distributing the torque load over a larger area. This perpendicular tooth arrangement helps to minimize tooth deflection and tooth-to-tooth interference, improving the gear’s ability to handle high torque loads.

  • Strength and Durability:

Crown gears are typically manufactured using materials with high strength and durability, such as hardened steel or alloy steels. These materials provide the necessary mechanical properties to withstand high torque loads without deformation or failure. By selecting appropriate materials and employing suitable heat treatment processes, crown gears can withstand the demanding conditions of high-torque applications.

  • Load Sharing in Gear Systems:

In high-torque applications, it is common to use multiple gears to distribute the torque load and reduce the stress on individual gears. Crown gears play a role in load sharing within the gear system, distributing the torque load between multiple gears. This load sharing capability allows each gear to handle a fraction of the total torque, reducing the torque load on each individual crown gear and enhancing their ability to operate in high-torque conditions.

  • Optimized Tooth Profile:

The tooth profile of crown gears can be optimized for high-torque applications. Engineers can design crown gears with appropriate tooth profiles, such as modified involute profiles or special tooth forms, to enhance their load-carrying capacity and minimize tooth stress under high-torque conditions. These optimized tooth profiles help to improve the gear’s performance and reliability in high-torque applications.

In summary, crown gears can be successfully used in high-torque applications due to their large contact area, perpendicular tooth orientation, strength and durability, load-sharing capabilities, and the ability to optimize tooth profiles. These features make crown gears capable of handling the demanding torque loads encountered in various industries, including heavy machinery, automotive applications, industrial equipment, and more.

crown gear

Can you explain the unique design and shape of crown gears?

The design and shape of crown gears are indeed unique and distinguishable from other types of gears. Let’s delve into the characteristics that define the unique design and shape of crown gears:

  • Tooth Orientation:

One of the key features of crown gears is their tooth orientation. Unlike other gears such as spur gears or bevel gears, where the teeth are parallel or at an angle to the gear’s axis, crown gears have teeth perpendicular to the gear’s face. This perpendicular tooth orientation allows for specific functionalities in mechanical systems.

  • Teeth Shape:

The teeth of a crown gear are shaped like segments of a cylinder. They have a curved profile that matches the circumference of the gear. This unique tooth shape ensures smooth engagement and meshing with other gears, facilitating reliable torque transmission and rotational motion transfer.

  • Gear Face:

Crown gears have a flat gear face where the teeth are positioned. The gear face is perpendicular to the gear’s axis and provides a stable surface for the meshing of other gears. The flat gear face allows for effective contact and force distribution when the crown gear engages with other gears in a mechanical system.

  • Meshing with Other Gears:

The design of crown gears enables them to mesh with other gears in a unique manner. Crown gears can mesh with gears that have parallel axes or bevel gears with intersecting axes. The perpendicular tooth orientation and the curved tooth shape facilitate smooth and efficient meshing, allowing the transfer of torque and rotational motion between different gear types.

  • Application-Specific Modifications:

While the basic design and shape of crown gears are consistent, they can be modified or customized for specific applications. This may include alterations in the tooth profile, tooth size, or gear dimensions to suit the requirements of the machinery or system in which they are used.

In summary, crown gears possess a unique design and shape characterized by perpendicular tooth orientation, curved tooth profile, a flat gear face, and compatibility with different gear types. These features contribute to the effective engagement, smooth meshing, and reliable transmission of torque and motion in mechanical systems.

China Standard CZPTWheel Pinion Gear for Landcruiser Fzj79 Fzj100 Grj200 Urj200 41201-80493 straight bevel gearChina Standard CZPTWheel Pinion Gear for Landcruiser Fzj79 Fzj100 Grj200 Urj200 41201-80493 straight bevel gear
editor by CX 2024-04-04

China Professional 500K/Q8: 37/H7: 37 Differential Wheel CZPT and Pinion Gears for Truck gear ratio calculator

Product Description

 

Product Description

We has been providing genuine and high quality starters at the lowest possible cost in China, and got a high reputation from our clients due to the reliable quality, competitive price and on-time delivery. 
1.Durable and high Quality.
2.Nice-looking packing.
3.Prompt delivery. 
4.Wide range of parts for more models available.
5.Most competitive wholesale prices.
6.One stop buying service provided.

 

car brand made in China
engine type Diesel engines
car model universal
Material casting
type Machinery
installation method direct installation
Scope of application standard
effect internal combustion engine
trademark OEM
ordering method customized
order cycle 2-5day
ignition method Compression ignition
product quality high quality
main market africa asia
Main models universal

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Company Profile

Packaging & Shipping

FAQ

1. Is this product new?
All our products are brand new and original, so each product can be strictly tested, please rest assured to buy.

2. Do you offer custom designs?
Custom design is support for customization. We have very rich experience in product customization.

3. Delivery time?
It can be shipped on the same day, special models need to be customized by the factory, we will ship within 15-30 days, without affecting the delivery time. If you have any questions or concerns, please contact us directly for assistance.

4. How to clean the injector?
(1) Remove the injector from the engine;
(2) Connect the carburetor to clean the fuel tank and the fuel injector with a special connector;
(3) Inject the carburetor cleaner into the fuel injector, and check whether the fuel injector leaks when it is not powered on;
(4) Intermittently energize the electromagnetic coil of the fuel injector, let the carburetor cleaner clean the fuel injector, and observe its spray atomization at the same time.

5. How to test the injector?
Detect dripping water from the injector. Select the connector of the tester according to the fuel injector model and connect it well, then check the sealing O-ring group (replace if found damaged), install the fuel injector on the test stand, press the fuel pump button, and adjust the pressure to the vehicle under test Factory specified pressure (preferably higher than 10%), observe whether the injector drips oil. If the leakage is more than 1 drop within 1min (or according to the technical standard), replace the fuel injector.

 
  /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Motor, Electric Cars, Motorcycle, Machinery, Marine, Agricultural Machinery, Car
Function: Distribution Power, Clutch, Change Drive Torque, Change Drive Direction, Speed Changing, Speed Reduction, Speed Increase
Layout: Three-Ring
Hardness: Soft Tooth Surface
Installation: Torque Arm Type
Step: Stepless

crown gear

How does a crown gear contribute to the overall efficiency of a system?

A crown gear plays a significant role in enhancing the overall efficiency of a system. Let’s explore how a crown gear contributes to system efficiency:

  • Power Transmission:

Crown gears efficiently transmit power between two intersecting shafts. By meshing with other gears in the system, the crown gear transfers rotational energy from the input shaft to the output shaft. The precise design and tooth profile of the crown gear ensure minimal energy losses during power transmission, resulting in high overall system efficiency.

  • Reduced Friction and Wear:

Crown gears are designed to minimize friction and wear. The tooth engagement between crown gears and other meshing gears is smooth due to their curved tooth profile. This reduces frictional losses and wear on the gear teeth, resulting in improved efficiency and longevity of the gear system. Additionally, crown gears distribute the load evenly across the gear teeth, minimizing localized stress concentrations and reducing the risk of premature failure.

  • Backlash Reduction:

Crown gears are effective in reducing or eliminating backlash, which is the slight clearance between the teeth of meshing gears. Backlash can cause inefficient power transmission and affect the accuracy of motion in a system. The tooth orientation and engagement properties of crown gears help minimize backlash, ensuring a tighter meshing with other gears. This reduces energy losses and improves the overall efficiency and precision of the system.

  • High Gear Ratios:

Crown gears can achieve high gear ratios due to their larger diameter and the increased number of teeth engaged with other gears. High gear ratios allow for precise speed reduction or torque multiplication, enabling the system to operate more efficiently. By optimizing the gear ratio, a crown gear contributes to the efficient conversion of input power into the desired output performance.

  • Versatility:

Crown gears offer versatility in different applications and system configurations. Their bidirectional capability allows them to handle variations in rotational direction without compromising efficiency. The ability to accommodate changes in rotational direction makes crown gears adaptable to a wide range of systems, contributing to overall system efficiency.

In summary, a crown gear enhances the overall efficiency of a system through efficient power transmission, reduced friction and wear, backlash reduction, high gear ratios, and versatility. By minimizing energy losses, optimizing gear engagement, and ensuring reliable power transfer, a crown gear plays a vital role in maximizing the efficiency and performance of the system it is employed in.

crown gear

Can you explain the process of gear engagement involving crown gears?

The process of gear engagement involving crown gears follows a specific sequence to ensure proper meshing and efficient power transmission. Let’s explore the steps involved in the gear engagement process with crown gears:

  1. Approach:

During the gear engagement process, the gear teeth of the mating gears approach each other. As the crown gear and the mating gear come closer, the teeth start to interact and prepare for engagement.

  1. Tooth Contact:

Once the teeth of the crown gear and the mating gear make contact, they begin to mesh together. The curved tooth profiles of crown gears allow for gradual contact between the teeth, reducing impact forces and ensuring smoother engagement.

  1. Alignment:

As the tooth contact progresses, the crown gear and the mating gear align themselves to achieve proper meshing. The teeth of the crown gear and the mating gear should align accurately to ensure optimal power transmission and minimize noise and wear. Proper alignment also helps distribute the load evenly across the gear teeth.

  1. Meshing:

Once the teeth are in contact and properly aligned, the crown gear and the mating gear mesh together. The teeth of the crown gear fit into the spaces between the teeth of the mating gear, creating a mechanical interlock. This meshing allows for the transfer of torque and rotation between the gears.

  1. Power Transmission:

With the gears meshed, power transmission occurs as the torque from the driving gear (such as a motor) is transferred to the driven gear through the crown gear. The crown gear, with its larger contact area and perpendicular tooth orientation, facilitates efficient torque transfer and power distribution within the gear system.

  1. Disengagement:

When the engagement process is complete or when the power transmission needs to be stopped, the gears disengage. The disengagement process involves the reverse sequence of the engagement steps. The teeth gradually separate, and the gears move away from each other, ceasing the meshing and interrupting the power transmission.

The gear engagement process involving crown gears is crucial for ensuring smooth and efficient power transmission. Proper alignment, gradual tooth contact, accurate meshing, and reliable disengagement are essential for minimizing wear, reducing noise, and maximizing the overall performance and longevity of the gear system.

crown gear

What is a crown gear and how is it used in mechanical systems?

A crown gear, also known as a contrate gear or a contrate wheel, is a type of gear that has teeth positioned perpendicular to the gear’s face. It is primarily used in mechanical systems for specific applications. Let’s explore the characteristics and uses of crown gears:

  • Gear Geometry:

A crown gear has teeth that are shaped like segments of a cylinder. Unlike other gears, such as spur gears or bevel gears, the teeth of a crown gear are not parallel to the gear’s axis but lie perpendicular to its face. This unique geometry allows for specific functionality in mechanical systems.

  • Meshing with Other Gears:

Crown gears are often used in conjunction with other gears in mechanical systems. They can mesh with gears that have parallel axes or bevel gears with intersecting axes. The crown gear’s perpendicular tooth orientation enables it to mesh smoothly with these different gear types, transferring torque and rotational motion between them.

  • Directional Change:

One of the primary uses of crown gears is to change the direction of rotation in a mechanical system. By meshing a crown gear with other gears, the rotational motion can be redirected by 90 degrees. This directional change is useful in various applications where a change in motion direction is required, such as in conveyors, cranes, and other machinery.

  • Force Distribution:

Crown gears can also be used to distribute forces and torques in mechanical systems. By meshing a crown gear with other gears, the load can be spread across a larger contact area. This distribution of forces helps to reduce stress and wear on individual gear teeth, promoting smoother operation and improved durability of the gear system.

  • Steering Mechanisms:

Crown gears are commonly employed in steering mechanisms, particularly in automotive applications. They are used in rack and pinion systems, where the crown gear meshes with a rack (a linear toothed component) to convert rotational motion into linear motion. This arrangement allows for precise control and smooth movement in steering systems.

  • Automation and Robotics:

Crown gears can also be found in automation and robotics, where they are utilized in various motion control mechanisms. They enable changes in motion direction, force distribution, and precise control in robotic arms, gantry systems, and other automated equipment.

In summary, a crown gear is a specialized type of gear with teeth perpendicular to its face. It is used in mechanical systems to change the direction of rotation, distribute forces, and enable precise motion control. Crown gears find applications in a wide range of industries, including automotive, manufacturing, automation, and robotics.

China Professional 500K/Q8: 37/H7: 37 Differential Wheel CZPT and Pinion Gears for Truck gear ratio calculatorChina Professional 500K/Q8: 37/H7: 37 Differential Wheel CZPT and Pinion Gears for Truck gear ratio calculator
editor by CX 2024-04-04

China factory OEM Forged Casting CZPT Bevel Pinion Differential Straight Spiral Gear top gear

Product Description

Product Description

Spur Gear/ Helical Gear/ Straight Bevel Gear/ Spiral Bevel Gear/ Worm Gear
 
With more than 10yeas experience in the field of gear manufacturing, CHINAMFG can supply various kinds of gears, such like Spur Gear/ Helical Gear/ Straight Bevel Gear/ Spiral Bevel Gear/ Worm Gear. It’s equipped with CNC gear hobbing machines, CNC helical gear broaching machines, gear grinding machines and so on, and also equipped with testing equipment, such like gear profile measuring instrument, and hardness testing instrument. It has strong manufacturing ability and quality control ability, enable to supply good quality gears for customer.
 

Modulus M0.5-M12
Processing machine Forging, Machining, Hobbing teeth, Milling teeth, Shaving teeth, Grinding teeth….…
Material 20CrMnTi/ 20CrMnMo/ 42CrMo/ C45/ 40Cr/ SS304/Brass……
Heat treattment Carburizing and quenching/ Tempering/ Nitriding/ Carbonitriding/ Induction hardening
Hardness 58-62HRC
Qaulity standerd GB/ DIN/ JIS/ AGMA
Accuracy class 5-8 class

                      Spur gear                                                           Helical gear                                                        Spiral gear 
 

                        Bevel gear                                                  Internal gear ring                                  Small module gear made of brass
 

Workshop

Equipped with CNC lathe, CNC hobbing teeth machines, CNC broaching teeth machines, CNC grinding teeth machines, Carburizing and Quenchin euqipments, Teeth profile measuring instruments……
                                     

                         Workshop                                                                                                     CNC grinding teeth machines   

 

                  CNC grinding teeth machine                                                                           CNC Hobbing teeth machine
 

                   Teeth profile measuring instrument                                                                       Carburizing and Quenching 
 

                                                       

 

FAQ

Q1: Are you trading company or manufacturer ?
A: We are factory.
 

Q2: How long is your delivery time and shipment?
1.Sample Lead-times: 10-20 days.
2.Production Lead-times: 30-45 days after order confirmed.
 

Q3: What is your advantages?
1. The most competitive price and good quality.
2. Perfect technical engineers give you the best support.
3. OEM is available.

 

                                                   

  /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Motor, Motorcycle, Machinery, Marine, Toy, Agricultural Machinery
Hardness: Hardened Tooth Surface
Gear Position: External Gear
Manufacturing Method: Machining
Toothed Portion Shape: Spur Gear
Material: 42CrMo/20crmnti/C45/ 40cr
Samples:
US$ 5/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

crown gear

How does a crown gear contribute to the overall efficiency of a system?

A crown gear plays a significant role in enhancing the overall efficiency of a system. Let’s explore how a crown gear contributes to system efficiency:

  • Power Transmission:

Crown gears efficiently transmit power between two intersecting shafts. By meshing with other gears in the system, the crown gear transfers rotational energy from the input shaft to the output shaft. The precise design and tooth profile of the crown gear ensure minimal energy losses during power transmission, resulting in high overall system efficiency.

  • Reduced Friction and Wear:

Crown gears are designed to minimize friction and wear. The tooth engagement between crown gears and other meshing gears is smooth due to their curved tooth profile. This reduces frictional losses and wear on the gear teeth, resulting in improved efficiency and longevity of the gear system. Additionally, crown gears distribute the load evenly across the gear teeth, minimizing localized stress concentrations and reducing the risk of premature failure.

  • Backlash Reduction:

Crown gears are effective in reducing or eliminating backlash, which is the slight clearance between the teeth of meshing gears. Backlash can cause inefficient power transmission and affect the accuracy of motion in a system. The tooth orientation and engagement properties of crown gears help minimize backlash, ensuring a tighter meshing with other gears. This reduces energy losses and improves the overall efficiency and precision of the system.

  • High Gear Ratios:

Crown gears can achieve high gear ratios due to their larger diameter and the increased number of teeth engaged with other gears. High gear ratios allow for precise speed reduction or torque multiplication, enabling the system to operate more efficiently. By optimizing the gear ratio, a crown gear contributes to the efficient conversion of input power into the desired output performance.

  • Versatility:

Crown gears offer versatility in different applications and system configurations. Their bidirectional capability allows them to handle variations in rotational direction without compromising efficiency. The ability to accommodate changes in rotational direction makes crown gears adaptable to a wide range of systems, contributing to overall system efficiency.

In summary, a crown gear enhances the overall efficiency of a system through efficient power transmission, reduced friction and wear, backlash reduction, high gear ratios, and versatility. By minimizing energy losses, optimizing gear engagement, and ensuring reliable power transfer, a crown gear plays a vital role in maximizing the efficiency and performance of the system it is employed in.

crown gear

How does a crown gear handle variations in load and stress conditions?

A crown gear is designed to handle variations in load and stress conditions by employing specific features and characteristics. Let’s explore how a crown gear handles these variations:

  • Large Contact Area:

Crown gears have a relatively large contact area compared to other gear types. This increased contact area allows for better load distribution across the gear teeth during meshing. As a result, the load on each tooth is reduced, minimizing localized stress concentrations and enhancing the overall load-carrying capacity of the gear.

  • Perpendicular Tooth Orientation:

Crown gears have teeth that are oriented perpendicular to the gear axis. This orientation helps distribute the load more evenly across the gear teeth. When the gear meshes with another gear, the perpendicular tooth alignment allows for a greater number of teeth in contact at any given moment, spreading the load and reducing the stress on individual teeth.

  • Curved Tooth Profile:

The curved tooth profile of a crown gear contributes to its ability to handle variations in load and stress conditions. The curved shape allows for gradual contact and engagement with other gears, reducing sudden impacts and minimizing stress concentrations. This design feature helps absorb and distribute the load more evenly, enhancing the gear’s resistance to variations in load and stress.

  • High Strength and Durability:

Crown gears are typically manufactured using materials with high strength and durability, such as hardened steel or alloy steels. These materials provide the necessary mechanical properties to withstand varying loads and stress conditions. With proper material selection and heat treatment, crown gears can resist wear, fatigue, and deformation, ensuring reliable performance under different operating conditions.

  • Load Sharing in Gear Systems:

In gear systems, multiple gears work together to transmit power and handle the applied loads. Crown gears play a role in load sharing within the system, distributing the load between multiple gears. By distributing the load across several gears, each gear experiences a reduced load, minimizing the stress on individual gears and enhancing the overall system’s ability to handle variations in load and stress conditions.

In summary, crown gears handle variations in load and stress conditions through their large contact area, perpendicular tooth orientation, curved tooth profile, high strength and durability, and load-sharing capabilities in gear systems. These design features and characteristics enable crown gears to distribute loads more evenly, reduce stress concentrations, and enhance the gear’s ability to handle varying operating conditions, ensuring reliable and efficient power transmission in a wide range of applications.

crown gear

Can you explain the unique design and shape of crown gears?

The design and shape of crown gears are indeed unique and distinguishable from other types of gears. Let’s delve into the characteristics that define the unique design and shape of crown gears:

  • Tooth Orientation:

One of the key features of crown gears is their tooth orientation. Unlike other gears such as spur gears or bevel gears, where the teeth are parallel or at an angle to the gear’s axis, crown gears have teeth perpendicular to the gear’s face. This perpendicular tooth orientation allows for specific functionalities in mechanical systems.

  • Teeth Shape:

The teeth of a crown gear are shaped like segments of a cylinder. They have a curved profile that matches the circumference of the gear. This unique tooth shape ensures smooth engagement and meshing with other gears, facilitating reliable torque transmission and rotational motion transfer.

  • Gear Face:

Crown gears have a flat gear face where the teeth are positioned. The gear face is perpendicular to the gear’s axis and provides a stable surface for the meshing of other gears. The flat gear face allows for effective contact and force distribution when the crown gear engages with other gears in a mechanical system.

  • Meshing with Other Gears:

The design of crown gears enables them to mesh with other gears in a unique manner. Crown gears can mesh with gears that have parallel axes or bevel gears with intersecting axes. The perpendicular tooth orientation and the curved tooth shape facilitate smooth and efficient meshing, allowing the transfer of torque and rotational motion between different gear types.

  • Application-Specific Modifications:

While the basic design and shape of crown gears are consistent, they can be modified or customized for specific applications. This may include alterations in the tooth profile, tooth size, or gear dimensions to suit the requirements of the machinery or system in which they are used.

In summary, crown gears possess a unique design and shape characterized by perpendicular tooth orientation, curved tooth profile, a flat gear face, and compatibility with different gear types. These features contribute to the effective engagement, smooth meshing, and reliable transmission of torque and motion in mechanical systems.

China factory OEM Forged Casting CZPT Bevel Pinion Differential Straight Spiral Gear top gearChina factory OEM Forged Casting CZPT Bevel Pinion Differential Straight Spiral Gear top gear
editor by CX 2024-03-26

China Hot selling OEM China CZPT Wheel Pinion Gear for Isu Txd50 41211-081 spiral bevel gear

Product Description

Product Parameters

PRODUCT NAME: Rear Axle Drive Pinion and Gear

NO. APPLICABLE VEHICLE GEAR RATIO PART NO. REFERENCE WEIGHT(KG)
1 MITSUBISHI 4D30 6/37 MB005252            12.4
2 MITSUBISHI 4D41 7/37 MB161193  
3 MITSUBISHI 4D32 6/37    
4 MITSUBISHI 4D34 6/37 MC835191            14
5 MITSUBISHI L300F 7/37 MB57164             4.18
6 MITSUBISHI L300P 7/37 MB185457             4
7 MITSUBISHI L300D 7/37 MB241981             6.3
8 MITSUBISHI 8DC9 6/40    
9 MITSUBISHI 6D22 6/45               34.50
10 MITSUBISHI 6D15 6/40               29
11 TOYOTA 14B 6/39 41201-37499             11.4
12 TOYOTA 2400 9/41               5
13 TOYOTA CHINAMFG HT 7/45               18.8
14 TOYOTA LAND CRUISER 9/37                7
15 TOYOTA COASTER 7/39                8.60
16 isu TXD40 6/39 41211-080              19.50
17 isu TXD50 7/39 41211-081              19
18 isu BF-40 6/39 41210-149               20
19 isu NKR 6/41                 16
20 isu NPR 7/41                 10.20
21 isu 10PC1 6/41                  34.50
22 HINO 7/46 41201-1080               24.40
23 HINO KR 7/46                 24.50
24 HINO AKBUS/FF 7/43                 24.50
25 HINO J08C 7/45                 35.00
26 BEDFORD J6-330 6/35 7078107               14.40
27 BEDFORD J5-330 5/34 7167277               15.50
28 BEDFORD 6/35 7167278               14.80
29 BEDFORD 7/37 7165710               14.50
30 BEDFORD 6/35 9157101                21.50  
31 BEDFORD 6/35 716571                14.20
32 U.S.A TRACTOR P7102 7/43    
33 U.S.A TRACTOR P7112 7/47    
34 FORD 6600 C5NN-4610E 7/37 1839118/127                13.50
35 FORD 5000 DONN-4610B 6/37 3571152/136                14.20
36 TRACTOR MF-240 6/37                  15.20
37 TRACTOR MF-135 6/37                  14.60
38 TRACTOR MF-265 11/38    
39 FAIT 12/47                  7.40
40 FAIT 14/47                  7.60
41 MAZDA/W015 7/46                  9.70
42 SUZUKI ST90 7/36                  2.20
43 SUZUKI GAZ 8/41                  7.60

Features

1.Competitive and reasonable price
2.Long lasting and reliable working life time
3.Premium quality standard guaranteed
4.Standard packing or according customers’ specification required.
5.Short production cycle
6.Quickly delivery and wide varieties
7.Large stock,quick shipment
8.Short production cycle,large stock,quick shipment
9.Able to produce according customers’ specification with technical drawing and sample.
10. Material: carbon steel such as C45, 20CrMnTi, 40Cr, 42CrMo or stainless steel or copper or nylon etc.

 

Our Advantages

ADVANCED EQUIPMENT

America Gleason CHINAMFG Bevel Gear Cutting Machine
America A Group of Gleason
Germany Ipsen Gas-tight Multi-purpose Chamber Furnace
Germany Zeiss Three-coordinate Measuring Machine
America Gleason Bevel Gear Cutting Machine
America Gleason Bevel Gear Lapping Machine
America Gleason Bevel Gear Roll Testing Machine

We can supply more than 2 hundred type of Spiral Taper Gear and pinion which are sold well in both domestic and abroad markets for automobile,tractor,engineering and construction machinery, coal mine machinery,chemical and petroleum machinery.

1.Supply for OEM 
2.High quality and reasonable price
3.Material 20Cr MnTi
4.We have quality control system to guarantee best product quality
5.We have professional inspectors.All these inspectors are qualified.

Certifications

 

/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

After-sales Service: 12 Months
Warranty: 12 Months
Type: Diesel&Gasoline
Material: Steel
Certification: ISO, GB
Automatic: Automatic
Samples:
US$ 50/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

crown gear

How does a crown gear contribute to the overall efficiency of a system?

A crown gear plays a significant role in enhancing the overall efficiency of a system. Let’s explore how a crown gear contributes to system efficiency:

  • Power Transmission:

Crown gears efficiently transmit power between two intersecting shafts. By meshing with other gears in the system, the crown gear transfers rotational energy from the input shaft to the output shaft. The precise design and tooth profile of the crown gear ensure minimal energy losses during power transmission, resulting in high overall system efficiency.

  • Reduced Friction and Wear:

Crown gears are designed to minimize friction and wear. The tooth engagement between crown gears and other meshing gears is smooth due to their curved tooth profile. This reduces frictional losses and wear on the gear teeth, resulting in improved efficiency and longevity of the gear system. Additionally, crown gears distribute the load evenly across the gear teeth, minimizing localized stress concentrations and reducing the risk of premature failure.

  • Backlash Reduction:

Crown gears are effective in reducing or eliminating backlash, which is the slight clearance between the teeth of meshing gears. Backlash can cause inefficient power transmission and affect the accuracy of motion in a system. The tooth orientation and engagement properties of crown gears help minimize backlash, ensuring a tighter meshing with other gears. This reduces energy losses and improves the overall efficiency and precision of the system.

  • High Gear Ratios:

Crown gears can achieve high gear ratios due to their larger diameter and the increased number of teeth engaged with other gears. High gear ratios allow for precise speed reduction or torque multiplication, enabling the system to operate more efficiently. By optimizing the gear ratio, a crown gear contributes to the efficient conversion of input power into the desired output performance.

  • Versatility:

Crown gears offer versatility in different applications and system configurations. Their bidirectional capability allows them to handle variations in rotational direction without compromising efficiency. The ability to accommodate changes in rotational direction makes crown gears adaptable to a wide range of systems, contributing to overall system efficiency.

In summary, a crown gear enhances the overall efficiency of a system through efficient power transmission, reduced friction and wear, backlash reduction, high gear ratios, and versatility. By minimizing energy losses, optimizing gear engagement, and ensuring reliable power transfer, a crown gear plays a vital role in maximizing the efficiency and performance of the system it is employed in.

crown gear

Can crown gears be used in high-torque applications?

Crown gears can indeed be used in high-torque applications, thanks to their unique design and capabilities. Let’s explore the factors that make crown gears suitable for high-torque applications:

  • Large Contact Area:

Crown gears have a relatively larger contact area compared to other gear types. This increased contact area allows for better load distribution and can handle higher torque loads. The larger contact area spreads the torque across more teeth, reducing stress concentrations and minimizing the risk of tooth failure under high-torque conditions.

  • Perpendicular Tooth Orientation:

The perpendicular tooth orientation of crown gears enhances their ability to withstand high-torque applications. When the gear meshes with another gear, the perpendicular alignment allows for a greater number of teeth in contact, distributing the torque load over a larger area. This perpendicular tooth arrangement helps to minimize tooth deflection and tooth-to-tooth interference, improving the gear’s ability to handle high torque loads.

  • Strength and Durability:

Crown gears are typically manufactured using materials with high strength and durability, such as hardened steel or alloy steels. These materials provide the necessary mechanical properties to withstand high torque loads without deformation or failure. By selecting appropriate materials and employing suitable heat treatment processes, crown gears can withstand the demanding conditions of high-torque applications.

  • Load Sharing in Gear Systems:

In high-torque applications, it is common to use multiple gears to distribute the torque load and reduce the stress on individual gears. Crown gears play a role in load sharing within the gear system, distributing the torque load between multiple gears. This load sharing capability allows each gear to handle a fraction of the total torque, reducing the torque load on each individual crown gear and enhancing their ability to operate in high-torque conditions.

  • Optimized Tooth Profile:

The tooth profile of crown gears can be optimized for high-torque applications. Engineers can design crown gears with appropriate tooth profiles, such as modified involute profiles or special tooth forms, to enhance their load-carrying capacity and minimize tooth stress under high-torque conditions. These optimized tooth profiles help to improve the gear’s performance and reliability in high-torque applications.

In summary, crown gears can be successfully used in high-torque applications due to their large contact area, perpendicular tooth orientation, strength and durability, load-sharing capabilities, and the ability to optimize tooth profiles. These features make crown gears capable of handling the demanding torque loads encountered in various industries, including heavy machinery, automotive applications, industrial equipment, and more.

crown gear

What is a crown gear and how is it used in mechanical systems?

A crown gear, also known as a contrate gear or a contrate wheel, is a type of gear that has teeth positioned perpendicular to the gear’s face. It is primarily used in mechanical systems for specific applications. Let’s explore the characteristics and uses of crown gears:

  • Gear Geometry:

A crown gear has teeth that are shaped like segments of a cylinder. Unlike other gears, such as spur gears or bevel gears, the teeth of a crown gear are not parallel to the gear’s axis but lie perpendicular to its face. This unique geometry allows for specific functionality in mechanical systems.

  • Meshing with Other Gears:

Crown gears are often used in conjunction with other gears in mechanical systems. They can mesh with gears that have parallel axes or bevel gears with intersecting axes. The crown gear’s perpendicular tooth orientation enables it to mesh smoothly with these different gear types, transferring torque and rotational motion between them.

  • Directional Change:

One of the primary uses of crown gears is to change the direction of rotation in a mechanical system. By meshing a crown gear with other gears, the rotational motion can be redirected by 90 degrees. This directional change is useful in various applications where a change in motion direction is required, such as in conveyors, cranes, and other machinery.

  • Force Distribution:

Crown gears can also be used to distribute forces and torques in mechanical systems. By meshing a crown gear with other gears, the load can be spread across a larger contact area. This distribution of forces helps to reduce stress and wear on individual gear teeth, promoting smoother operation and improved durability of the gear system.

  • Steering Mechanisms:

Crown gears are commonly employed in steering mechanisms, particularly in automotive applications. They are used in rack and pinion systems, where the crown gear meshes with a rack (a linear toothed component) to convert rotational motion into linear motion. This arrangement allows for precise control and smooth movement in steering systems.

  • Automation and Robotics:

Crown gears can also be found in automation and robotics, where they are utilized in various motion control mechanisms. They enable changes in motion direction, force distribution, and precise control in robotic arms, gantry systems, and other automated equipment.

In summary, a crown gear is a specialized type of gear with teeth perpendicular to its face. It is used in mechanical systems to change the direction of rotation, distribute forces, and enable precise motion control. Crown gears find applications in a wide range of industries, including automotive, manufacturing, automation, and robotics.

China Hot selling OEM China CZPT Wheel Pinion Gear for Isu Txd50 41211-081 spiral bevel gearChina Hot selling OEM China CZPT Wheel Pinion Gear for Isu Txd50 41211-081 spiral bevel gear
editor by CX 2024-03-26

China OEM Suzhou Agricultural Machinery OEM Wooden Case 20 Teeth 30 40 60 Girth Motorcycle Gear cycle gear

Product Description

My advantages:
1. High quality materials, professional production, high-precision equipment. Customized design and processing;
2. Strong and durable, strong strength, large torque and good comprehensive mechanical properties;
3. High rotation efficiency, stable and smooth transmission, long service life, noise reduction and shock absorption;
4. Focus on gear processing for 20 years.
5. Carburizing and quenching of tooth surface, strong wear resistance, reliable operation and high bearing capacity;
6. The tooth surface can be ground, and the precision is higher after grinding.

  /* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Motor, Motorcycle, Machinery, Agricultural Machinery, Car
Hardness: Hardened Tooth Surface
Gear Position: External Gear
Manufacturing Method: Cut Gear
Toothed Portion Shape: Spur Gear
Material: Cast Steel
Samples:
US$ 10/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

crown gear

Can crown gears be used in precision machinery and equipment?

Yes, crown gears can be used in precision machinery and equipment, and they offer several advantages in such applications. Let’s explore why crown gears are suitable for precision machinery:

  • Smooth and Quiet Operation:

Crown gears are known for their smooth and quiet operation. The curved tooth profile of crown gears allows for gradual tooth engagement, reducing impact forces and minimizing noise generation. This smooth and quiet operation is crucial for precision machinery, where noise reduction and smooth motion are highly desirable.

  • Precise Positioning:

Due to their symmetrical tooth profile and bidirectional capability, crown gears enable precise positioning in precision machinery. The symmetrical design ensures consistent tooth engagement and meshing, resulting in accurate and repeatable positioning. This precise positioning capability is vital for applications that require high accuracy and repeatability, such as CNC machines, robotics, and optical equipment.

  • High Load Capacity:

Crown gears have a larger contact area compared to other gear types, which enhances their load-carrying capacity. This characteristic makes crown gears suitable for precision machinery that may experience high loads or torque requirements. The ability to handle higher loads ensures the gear system’s durability and reliability, even under demanding operating conditions.

  • Backlash Elimination:

Backlash, which is the clearance or play between the teeth of meshing gears, can negatively affect the precision of machinery. Crown gears are capable of minimizing or eliminating backlash due to their tooth orientation and engagement properties. This feature helps maintain accurate motion and positioning in precision equipment, contributing to improved overall performance.

  • High Gear Ratios:

Crown gears can achieve high gear ratios, making them suitable for precision machinery that requires precise speed reduction or torque multiplication. The larger diameter of crown gears allows for a greater number of teeth engagement, enabling the gear system to achieve higher gear ratios without compromising performance.

In summary, crown gears can indeed be used in precision machinery and equipment. Their smooth and quiet operation, precise positioning capability, high load capacity, backlash elimination, and ability to achieve high gear ratios make them well-suited for applications that demand precision, accuracy, and reliable performance.

crown gear

How do crown gears contribute to power distribution in gear arrangements?

Crown gears play a significant role in power distribution within gear arrangements, ensuring efficient and balanced transmission of power. Let’s explore how crown gears contribute to power distribution:

  • Load Sharing:

Crown gears are often used in gear arrangements where multiple gears are present. In such arrangements, crown gears help distribute the power load among the gears. By sharing the load, each gear experiences a reduced load compared to if it were to carry the entire power load alone. This load sharing capability helps prevent overloading and excessive stress on individual gears, promoting more reliable and efficient power distribution.

  • Equal Torque Transfer:

Crown gears facilitate equal torque transfer among interconnected gears. When a crown gear meshes with another gear, the torque applied to the crown gear is transmitted to the meshing gear. Due to their tooth orientation and large contact area, crown gears enable a more uniform distribution of torque, ensuring that the torque is evenly transferred from one gear to another. This balanced torque distribution helps maintain smooth operation and prevent gear failures due to torque overload.

  • Elimination of Backlash:

Crown gears help reduce or eliminate backlash in gear arrangements. Backlash refers to the slight clearance or play between the teeth of meshing gears. It can cause inaccuracies, vibrations, and noise in the system. Crown gears, with their perpendicular tooth orientation and optimized meshing characteristics, minimize backlash and ensure a tight and precise engagement between gears. This tight meshing eliminates power losses associated with backlash and contributes to more efficient power distribution.

  • Better Load Distribution:

Due to their curved tooth profile and larger contact area, crown gears provide improved load distribution across the gear teeth. When power is transmitted through crown gears, the load is distributed over a greater number of teeth compared to other gear types. This even load distribution results in reduced stress concentrations on individual teeth, enhancing the gear’s load-carrying capacity and promoting uniform power distribution throughout the gear arrangement.

  • Enhanced System Efficiency:

By facilitating load sharing, equal torque transfer, backlash elimination, and improved load distribution, crown gears contribute to enhanced system efficiency. The balanced power distribution achieved through crown gears helps minimize power losses, reduce energy wastage, and optimize the overall efficiency of the gear arrangement. This improved efficiency translates into better performance, reduced energy consumption, and increased productivity in various mechanical systems.

In summary, crown gears contribute to power distribution in gear arrangements through load sharing, equal torque transfer, elimination of backlash, better load distribution, and enhanced system efficiency. These characteristics make crown gears an integral part of gear systems, ensuring reliable and efficient power transmission in a wide range of applications.

crown gear

What industries commonly use crown gears in their applications?

Crown gears, with their unique characteristics and functionalities, find application in various industries. Let’s explore some of the industries that commonly use crown gears in their applications:

  • Automotive Industry:

The automotive industry extensively utilizes crown gears, especially in steering mechanisms. Crown gears are a crucial component in rack and pinion systems, where they mesh with a rack (a linear toothed component) to convert rotational motion into linear motion. This arrangement enables precise and smooth steering control in vehicles.

  • Industrial Machinery and Equipment:

Crown gears are commonly employed in industrial machinery and equipment. They find application in conveyors, cranes, and other machinery that require a change in motion direction. Crown gears allow for a 90-degree redirection of rotational motion, facilitating the efficient transfer of power and control in such systems.

  • Automation and Robotics:

In the field of automation and robotics, crown gears play a vital role in motion control mechanisms. They enable changes in motion direction and force distribution in robotic arms, gantry systems, and other automated equipment. Crown gears ensure precise and accurate movements necessary for manufacturing, assembly, and material handling processes.

  • Mining and Construction:

Crown gears are utilized in mining and construction equipment for various purposes. They can be found in machinery involved in excavation, material handling, and heavy-duty applications. Crown gears facilitate the efficient transfer of power and torque, ensuring reliable and robust operation in demanding environments.

  • Power Generation:

The power generation industry also utilizes crown gears in certain applications. They may be employed in turbines, generators, and other power transmission systems where the redirection of rotational motion is necessary.

  • Manufacturing and Industrial Processes:

Various manufacturing and industrial processes benefit from the use of crown gears. They are integrated into machinery and equipment for tasks such as material cutting, shaping, and precision positioning. Crown gears enable the transmission of torque, motion control, and direction changes critical in these processes.

  • Other Industries:

Additionally, crown gears may find application in a range of other industries, including aerospace, marine, medical equipment, and more. The specific needs of each industry and the requirements of their machinery or systems determine the utilization of crown gears.

In summary, crown gears are commonly used in industries such as automotive, industrial machinery, automation and robotics, mining and construction, power generation, manufacturing, and various other sectors. Their unique capabilities make them essential components for achieving precise motion control, directional changes, and power transmission in a wide range of applications.

China OEM Suzhou Agricultural Machinery OEM Wooden Case 20 Teeth 30 40 60 Girth Motorcycle Gear cycle gearChina OEM Suzhou Agricultural Machinery OEM Wooden Case 20 Teeth 30 40 60 Girth Motorcycle Gear cycle gear
editor by CX 2024-01-11

China wholesaler API Oil Drilling Rotary Table Gear/Gear Ring (OD2000) for Gear Kit Commercial Vehicles Parts bevel spiral gear

Product Description

 

Product Description

Oil drilling rotary table gear features:

1) Max. OD2000mm
2) Max. Mould 36
3) Material: 42CrMo, 20CrMnMo, 20Cr2Ni4, 35CrMo, 20CrMnTi and other high intensity alloy steel
4) Tooth flank carburization and nitrification, with rigidity of HRC58-62
5) Gear precision: Grade VI
6)Precise measurement and surface finishes are available
7)High dense alloy or other materials is also available
8)custormer’s drawing and samples are welcome

It is used in automobile, oil drilling rig, and so on

 

 

Detailed Photos

 

Production Profile

 

About Us

About Us
As a company of industries and trading integration with ISO 9001-2008 Certificate, HangZhou CHINAMFG Metallurgy Equipment Manufacturing Co., Ltd. Has been in manufacturing material handling equipment parts for many years, with professional experience.

Our Service:
If you are interested in any of our products, please contact me freely! Warmly Welcomed your visit to our factory in China, OEM service will be ok.

 

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Certifications

 

Packaging & Shipping

 

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Certification: ISO 9001:2008
Spiral Bevel Gear: Use for Oil Drilling Rig
Crown Wheel and Pinion: Use for Heavy Truck
Bevel Gear: Gearbox
Transport Package: Special Wooden Boxes
Specification: OD2000
Customization:
Available

|

Customized Request

crown gear

How does a crown gear contribute to the overall efficiency of a system?

A crown gear plays a significant role in enhancing the overall efficiency of a system. Let’s explore how a crown gear contributes to system efficiency:

  • Power Transmission:

Crown gears efficiently transmit power between two intersecting shafts. By meshing with other gears in the system, the crown gear transfers rotational energy from the input shaft to the output shaft. The precise design and tooth profile of the crown gear ensure minimal energy losses during power transmission, resulting in high overall system efficiency.

  • Reduced Friction and Wear:

Crown gears are designed to minimize friction and wear. The tooth engagement between crown gears and other meshing gears is smooth due to their curved tooth profile. This reduces frictional losses and wear on the gear teeth, resulting in improved efficiency and longevity of the gear system. Additionally, crown gears distribute the load evenly across the gear teeth, minimizing localized stress concentrations and reducing the risk of premature failure.

  • Backlash Reduction:

Crown gears are effective in reducing or eliminating backlash, which is the slight clearance between the teeth of meshing gears. Backlash can cause inefficient power transmission and affect the accuracy of motion in a system. The tooth orientation and engagement properties of crown gears help minimize backlash, ensuring a tighter meshing with other gears. This reduces energy losses and improves the overall efficiency and precision of the system.

  • High Gear Ratios:

Crown gears can achieve high gear ratios due to their larger diameter and the increased number of teeth engaged with other gears. High gear ratios allow for precise speed reduction or torque multiplication, enabling the system to operate more efficiently. By optimizing the gear ratio, a crown gear contributes to the efficient conversion of input power into the desired output performance.

  • Versatility:

Crown gears offer versatility in different applications and system configurations. Their bidirectional capability allows them to handle variations in rotational direction without compromising efficiency. The ability to accommodate changes in rotational direction makes crown gears adaptable to a wide range of systems, contributing to overall system efficiency.

In summary, a crown gear enhances the overall efficiency of a system through efficient power transmission, reduced friction and wear, backlash reduction, high gear ratios, and versatility. By minimizing energy losses, optimizing gear engagement, and ensuring reliable power transfer, a crown gear plays a vital role in maximizing the efficiency and performance of the system it is employed in.

crown gear

How do crown gears contribute to power distribution in gear arrangements?

Crown gears play a significant role in power distribution within gear arrangements, ensuring efficient and balanced transmission of power. Let’s explore how crown gears contribute to power distribution:

  • Load Sharing:

Crown gears are often used in gear arrangements where multiple gears are present. In such arrangements, crown gears help distribute the power load among the gears. By sharing the load, each gear experiences a reduced load compared to if it were to carry the entire power load alone. This load sharing capability helps prevent overloading and excessive stress on individual gears, promoting more reliable and efficient power distribution.

  • Equal Torque Transfer:

Crown gears facilitate equal torque transfer among interconnected gears. When a crown gear meshes with another gear, the torque applied to the crown gear is transmitted to the meshing gear. Due to their tooth orientation and large contact area, crown gears enable a more uniform distribution of torque, ensuring that the torque is evenly transferred from one gear to another. This balanced torque distribution helps maintain smooth operation and prevent gear failures due to torque overload.

  • Elimination of Backlash:

Crown gears help reduce or eliminate backlash in gear arrangements. Backlash refers to the slight clearance or play between the teeth of meshing gears. It can cause inaccuracies, vibrations, and noise in the system. Crown gears, with their perpendicular tooth orientation and optimized meshing characteristics, minimize backlash and ensure a tight and precise engagement between gears. This tight meshing eliminates power losses associated with backlash and contributes to more efficient power distribution.

  • Better Load Distribution:

Due to their curved tooth profile and larger contact area, crown gears provide improved load distribution across the gear teeth. When power is transmitted through crown gears, the load is distributed over a greater number of teeth compared to other gear types. This even load distribution results in reduced stress concentrations on individual teeth, enhancing the gear’s load-carrying capacity and promoting uniform power distribution throughout the gear arrangement.

  • Enhanced System Efficiency:

By facilitating load sharing, equal torque transfer, backlash elimination, and improved load distribution, crown gears contribute to enhanced system efficiency. The balanced power distribution achieved through crown gears helps minimize power losses, reduce energy wastage, and optimize the overall efficiency of the gear arrangement. This improved efficiency translates into better performance, reduced energy consumption, and increased productivity in various mechanical systems.

In summary, crown gears contribute to power distribution in gear arrangements through load sharing, equal torque transfer, elimination of backlash, better load distribution, and enhanced system efficiency. These characteristics make crown gears an integral part of gear systems, ensuring reliable and efficient power transmission in a wide range of applications.

crown gear

Can you explain the unique design and shape of crown gears?

The design and shape of crown gears are indeed unique and distinguishable from other types of gears. Let’s delve into the characteristics that define the unique design and shape of crown gears:

  • Tooth Orientation:

One of the key features of crown gears is their tooth orientation. Unlike other gears such as spur gears or bevel gears, where the teeth are parallel or at an angle to the gear’s axis, crown gears have teeth perpendicular to the gear’s face. This perpendicular tooth orientation allows for specific functionalities in mechanical systems.

  • Teeth Shape:

The teeth of a crown gear are shaped like segments of a cylinder. They have a curved profile that matches the circumference of the gear. This unique tooth shape ensures smooth engagement and meshing with other gears, facilitating reliable torque transmission and rotational motion transfer.

  • Gear Face:

Crown gears have a flat gear face where the teeth are positioned. The gear face is perpendicular to the gear’s axis and provides a stable surface for the meshing of other gears. The flat gear face allows for effective contact and force distribution when the crown gear engages with other gears in a mechanical system.

  • Meshing with Other Gears:

The design of crown gears enables them to mesh with other gears in a unique manner. Crown gears can mesh with gears that have parallel axes or bevel gears with intersecting axes. The perpendicular tooth orientation and the curved tooth shape facilitate smooth and efficient meshing, allowing the transfer of torque and rotational motion between different gear types.

  • Application-Specific Modifications:

While the basic design and shape of crown gears are consistent, they can be modified or customized for specific applications. This may include alterations in the tooth profile, tooth size, or gear dimensions to suit the requirements of the machinery or system in which they are used.

In summary, crown gears possess a unique design and shape characterized by perpendicular tooth orientation, curved tooth profile, a flat gear face, and compatibility with different gear types. These features contribute to the effective engagement, smooth meshing, and reliable transmission of torque and motion in mechanical systems.

China wholesaler API Oil Drilling Rotary Table Gear/Gear Ring (OD2000) for Gear Kit Commercial Vehicles Parts bevel spiral gearChina wholesaler API Oil Drilling Rotary Table Gear/Gear Ring (OD2000) for Gear Kit Commercial Vehicles Parts bevel spiral gear
editor by CX 2024-01-11