China factory Industrial Usage Spur Worm Helical Hypoid Bevel Pinion Gear From China Professional Factory hypoid bevel gear

Product Description

  

Company Profile

 

  HangZhou Xihu (West Lake) Dis. Mechanical Transmission Parts Co., Ltd. is a professional manufacturer of mechanical transmission parts, founded in 1987. Our company is committed to standard roller sprocket, single row and multi-row sprocket, non-standard sprocket, gear, rack, bevel gear, sprocket, shaft, gear shaft and other products. We have passed ISO 9001  .Xihu (West Lake) Dis.  company has a number of experienced engineers, involved in plHangZhou, testing, heat treatment, inspection, the use of strict and accurate testing methods. Our sprockets are widely used in agricultural machinery, stereoscopic garage, mining equipment, woodworking machinery, petroleum machinery and other industries. Implementation standards such as ANSI.BS, DIN.KANA, etc., can also be customized according to the drawing processing
   Our products have won wide praise and trust from customers for their excellent quality. HangZhou Xihu (West Lake) Dis. mechanical transmission Parts Co., Ltd. adhere to the quality of survival, innovation and development, customer first business philosophy, dedicated to domestic and foreign customers service. We warmly welcome you to negotiate business with us. 
 

Product Description

 

Standard or Nonstandard Standard   Application  Maqchinery 
Hardness Hardened Tooth Surface   Material C45
Specification Various Sprockets   Pitch(PCD) 1-10M
Toothed Portion Shape Spur Gear   Teeth 10-60Z
HS Code  84839000   Production Capacity  100000 Pcs/Year

 

Detailed Photos

Certifications

 

FAQ

1. Are you manufacturer or trade company ?
    We are a manufacturing factory founded in 1987 ,with trade team for international service.
2. What terms of payment you usually use ?
    T/T . 30%  deposit ,and 70% before finish production .Price :FOB ZheJiang .
3. Can you make products according to customer”s design ?
    Yes , we can make according to customer”s drawing and samples .OED and ODM are acceptable.
4.How long is your delivery time ?
   Genarally it is 5-15 days afte rthe deposit .It will take more days customized.
5. What do I need for offering a quote ?
   Please offer us 2D or 3d drawing (with material ,dimension,surface treatment and other technical  datas etc.), quantity ,or samples .
   Then we will quote the best price .
 
 
 

Shipping Cost:

Estimated freight per unit.



To be negotiated
Application: Machinery, Agricultural Machinery
Hardness: Hardened Tooth Surface
Gear Position: External Gear
Samples:
US$ 0.1/Piece
1 Piece(Min.Order)

|

Order Sample

free sample
Customization:
Available

|

Customized Request

helical gear

How do you prevent backlash and gear play in a helical gear mechanism?

In a helical gear mechanism, preventing backlash and gear play is crucial to ensure accurate motion control, minimize vibration, and maintain the overall efficiency of the system. Here’s a detailed explanation of how to prevent backlash and gear play in a helical gear mechanism:

  1. Proper Gear Pair Alignment: Ensuring proper alignment of the gear pairs is essential to minimize backlash and gear play. Precise alignment helps to achieve optimal contact between the helical gear teeth, reducing gaps and potential for play. Proper alignment can be achieved through accurate positioning of the gear shafts and the use of alignment tools, such as dial indicators or laser alignment systems.
  2. Preload or Axial Play Adjustment: Applying a preload to the helical gears can help eliminate backlash and gear play. Preload refers to the intentional application of a force that compresses the gear mesh, ensuring a tight fit between the gear teeth. This can be achieved by using adjustable bearings, shims, or axial play adjustment mechanisms to control the axial position of the gears. By applying an appropriate preload, the gear teeth are kept in constant contact, minimizing any play or backlash.
  3. Accurate Gear Tooth Profile: High-quality manufacturing and accurate tooth profile design are essential to minimize backlash and gear play. The tooth profile should be precisely calculated to ensure proper engagement and minimal clearance between the gear teeth. This includes considerations such as the helix angle, tooth thickness, and tooth contact pattern. By using well-designed gear teeth with tight tolerances, backlash and gear play can be significantly reduced.
  4. Proper Gear Mesh Lubrication: Adequate lubrication is critical to reduce friction, wear, and the potential for backlash in helical gears. The lubricant helps to create a thin film between the mating gear surfaces, ensuring smooth and consistent gear meshing. Proper lubrication also helps to dissipate heat generated during operation, preventing gear tooth damage. The selection of a suitable lubricant and regular maintenance of the lubrication system are essential to prevent backlash and ensure optimal gear performance.
  5. Stiff Gearbox Design: A stiff and rigid gearbox design can help minimize gear play and backlash. The gearbox housing and supporting structures should be designed to withstand the forces and loads generated during operation. This prevents any flexing or movement of the gear components, ensuring stable gear meshing and minimizing the potential for backlash. Stiffening measures can include using robust materials, adequate bracing, and reinforcing the gearbox housing.
  6. Regular Maintenance and Inspection: Regular maintenance and inspection of the helical gear mechanism are essential to prevent backlash and gear play. This includes checking for any signs of wear, misalignment, or damage in the gear teeth, bearings, and housing. Any worn or damaged components should be promptly replaced to maintain the integrity of the gear system. Regular lubrication and cleanliness of the gears also contribute to minimizing backlash and ensuring smooth operation.

By implementing these preventive measures, engineers can effectively minimize backlash and gear play in a helical gear mechanism. This results in improved precision, reduced vibration, and enhanced overall efficiency of the gear system.

helical gear

How do you address thermal expansion and contraction in a helical gear system?

Addressing thermal expansion and contraction in a helical gear system is crucial to ensure proper operation and prevent potential issues such as misalignment, increased backlash, or premature wear. Thermal expansion and contraction occur when temperature changes cause the gear components to expand or contract, affecting the gear meshing and overall performance. Here is a detailed explanation of how to address thermal expansion and contraction in a helical gear system:

  1. Material Selection: Choose materials for the gear components that have a similar coefficient of thermal expansion. Matching the coefficients of thermal expansion helps minimize the differential expansion and contraction between the gears, reducing the potential for misalignment or excessive clearance. Consult material suppliers or engineering references for guidance on selecting compatible materials.
  2. Design Considerations: Incorporate design features that account for thermal expansion and contraction. For example, provide adequate clearance between gear components to accommodate expansion without causing interference. Use proper tolerances and fits to allow for thermal variations. Consider incorporating expansion joints or flexible couplings in the system to absorb thermal movements and prevent stress concentrations.
  3. Operating Temperature Range: Determine the expected operating temperature range for the helical gear system. Consider the ambient temperature as well as any temperature fluctuations that may occur during operation. Understanding the temperature range helps in selecting appropriate materials and designing for thermal expansion and contraction effects.
  4. Lubrication: Proper lubrication is essential to address thermal expansion and contraction. Select lubricants that have good thermal stability and can maintain their viscosity within the expected temperature range. Lubricants with high thermal stability can help minimize the risk of viscosity changes, which can affect gear meshing characteristics and increase friction and wear.
  5. Preheating or Precooling: In some cases, preheating or precooling the gear components before assembly can help minimize the effects of thermal expansion and contraction. By bringing the components to a uniform temperature, the differential expansion can be reduced, resulting in better gear meshing alignment. However, this approach may not be suitable for all applications and should be evaluated based on the specific system requirements.
  6. Thermal Analysis and Simulation: Conduct thermal analysis and simulation of the helical gear system to evaluate the effects of temperature changes on gear performance. Finite element analysis (FEA) or specialized gear design software can be used to model the gear system and simulate thermal expansion and contraction. This analysis can provide insights into potential issues and guide design modifications or material selection.
  7. Monitoring and Maintenance: Regularly monitor the helical gear system for any signs of abnormal wear, noise, or misalignment. Implement a maintenance program that includes periodic inspections, lubricant analysis, and gear condition monitoring. Detecting early signs of thermal expansion- or contraction-related issues allows for timely corrective actions to be taken, minimizing the risk of equipment failure or reduced performance.

By considering these measures, it is possible to address thermal expansion and contraction in a helical gear system and ensure its reliable and efficient operation. Proper material selection, design considerations, lubrication, and monitoring contribute to minimizing the potential adverse effects of temperature variations on gear performance and extending the system’s lifespan.

helical gear

How do you choose the right size helical gear for your application?

Choosing the right size helical gear for your application involves considering several factors to ensure optimal performance and reliability. Here’s a detailed explanation of the steps involved in selecting the right size helical gear:

  1. Determine the Application Requirements: Start by understanding the specific requirements of your application. Consider factors such as the desired speed ratio, torque requirements, power transmission capacity, operating conditions (including temperature, lubrication, and environment), and any special considerations unique to your application.
  2. Calculate the Gear Parameters: Based on the application requirements, calculate the necessary gear parameters. These parameters include the pitch diameter, number of teeth, module or pitch, pressure angle, helix angle, face width, and center distance. These calculations can be performed using gear design formulas or software tools specifically designed for gear selection.
  3. Consider Load and Strength: Evaluate the load conditions that the helical gear will experience. Take into account factors such as the transmitted torque, radial loads, axial loads, and dynamic forces. Ensure that the selected gear can withstand the anticipated loads and provide sufficient strength and durability. Consider factors such as gear material, heat treatment, and tooth geometry to ensure adequate load-carrying capacity and resistance to wear and fatigue.
  4. Check Gear Meshing and Alignment: Proper gear meshing and alignment are crucial for smooth operation and efficient power transmission. Ensure that the selected gear size and tooth profile allow for proper meshing with the mating gear. Consider factors such as backlash, tooth contact pattern, and alignment tolerances to minimize noise, vibration, and wear. Proper alignment of shafts and bearings is also important for optimal gear performance.
  5. Consider Space Limitations: Evaluate the available space in your application for gear installation. Consider factors such as the gear diameter, length, and clearance requirements. Ensure that the selected gear size can fit within the available space without interfering with other components or causing installation challenges.
  6. Consult Manufacturer’s Guidelines: Refer to the manufacturer’s guidelines, catalogs, and technical documentation for the specific type and brand of helical gear you are considering. Manufacturers often provide recommendations, selection charts, and engineering support to assist in choosing the right size gear for different applications. It’s beneficial to leverage their expertise and knowledge.
  7. Consider Cost and Availability: Evaluate the cost and availability of the selected helical gear. Consider factors such as the gear’s price, lead time, availability of spare parts, and any additional costs associated with installation or maintenance. Balance your requirements with the available budget and ensure that the chosen gear offers a cost-effective solution without compromising performance or quality.

By following these steps and considering the application requirements, load conditions, gear parameters, meshing characteristics, space limitations, manufacturer’s guidelines, and cost factors, you can choose the right size helical gear that meets your specific application needs.

It’s important to note that gear selection can be a complex process, and it may be beneficial to consult with an experienced engineer or gear specialist to ensure an accurate and optimized gear sizing for your specific application.

China factory Industrial Usage Spur Worm Helical Hypoid Bevel Pinion Gear From China Professional Factory hypoid bevel gearChina factory Industrial Usage Spur Worm Helical Hypoid Bevel Pinion Gear From China Professional Factory hypoid bevel gear
editor by CX 2023-09-06