Product Description
45C Steel 2m 20T Small Bevel Gears 1:1 Speed Ratio
| 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 |
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High quality gear supplier 1.precise manufacturing processes and strict quality control, our factory can create excellent quality. |
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Tolerance |
0.003mm-0.01mm |
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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. |
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Precision processing |
turning, milling, drilling, grinding, wire-EDM cutting etc |
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Material range |
Metal: Stainless Steel, Brass,Copper, Brozone, Aluminum, Steel, Carbon Steel etc. |
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Plastic : PU, PVC, POM, PMMA, Nylon ,HDPE etc. |
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QC(inspection everywhere)
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– Technicians self-check in production |
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– Engineer spot check in production. |
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– QC inspect after products finished |
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– International sales who were trained the technical know-how spot check before shipping to ensure the quality. |
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MOQ |
1-100pcs |
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Payment |
30% in advance, 70% before shipment |
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| Industry application |
Appliance/ Automotive/ Agricultural Electronics/ Industrial/ Marine Mining/ Hydraulics/ Valves Oil and Gas/ Electrical/ Construction |
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| 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.
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| Application: | Motor, Electric Cars, Motorcycle, Machinery, Marine, Toy, Agricultural Machinery, Car, Printing Machine,Cooling Tower,Power Plant |
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| 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) | |
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| Customization: |
Available
| Customized Request |
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How does a bevel gear impact the overall efficiency of a system?
A bevel gear plays a significant role in determining the overall efficiency of a system. Its design, quality, and operating conditions can impact the efficiency of power transmission and the system as a whole. Here’s a detailed explanation of how a bevel gear can impact overall efficiency:
- Power Transmission Efficiency: The primary function of a bevel gear is to transmit power between intersecting shafts at different angles. The efficiency of power transmission through a bevel gear depends on factors such as gear geometry, tooth profile, material quality, lubrication, and operating conditions. In an ideally designed and well-maintained system, bevel gears can achieve high power transmission efficiency, typically above 95%. However, factors such as friction, misalignment, inadequate lubrication, and gear tooth wear can reduce efficiency and result in power losses.
- Friction and Mechanical Losses: Bevel gears experience friction between their mating teeth during operation. This friction generates heat and causes mechanical losses, reducing the overall efficiency of the system. Factors that affect friction and mechanical losses include the gear tooth profile, surface finish, lubrication quality, and operating conditions. High-quality gears with well-designed tooth profiles, proper lubrication, and optimized operating conditions can minimize friction and mechanical losses, improving the overall efficiency.
- Gear Tooth Design: The design of the bevel gear tooth profile influences its efficiency. Factors such as tooth shape, size, pressure angle, and tooth contact pattern affect the load distribution, friction, and efficiency. Proper tooth design, including optimized tooth profiles and contact patterns, help distribute the load evenly and minimize sliding between the teeth. Well-designed bevel gears with accurate tooth profiles can achieve higher efficiency by reducing friction and wear.
- Material Quality and Manufacturing Precision: The material quality and manufacturing precision of bevel gears impact their durability, smooth operation, and efficiency. High-quality materials with suitable hardness, strength, and wear resistance can minimize friction, wear, and power losses. Additionally, precise manufacturing processes ensure accurate gear geometry, tooth engagement, and alignment, optimizing the efficiency of power transmission and reducing losses due to misalignment or backlash.
- Lubrication and Wear: Proper lubrication is crucial for reducing friction, wear, and power losses in bevel gears. Insufficient or degraded lubrication can lead to metal-to-metal contact, increased friction, and accelerated wear, resulting in reduced efficiency. Adequate lubrication with the recommended lubricant type, viscosity, and replenishment schedule ensures a sufficient lubricating film between the gear teeth, minimizing friction and wear and improving overall efficiency.
- Misalignment and Backlash: Misalignment and excessive backlash in bevel gears can negatively impact efficiency. Misalignment causes uneven loading, increased friction, and accelerated wear. Excessive backlash results in power losses during direction changes and can lead to impact loads and vibration. Proper alignment and control of backlash within acceptable limits are crucial for maintaining high efficiency in a bevel gear system.
Overall, a well-designed bevel gear system with high-quality materials, accurate manufacturing, proper lubrication, and minimal losses due to friction, misalignment, or wear can achieve high efficiency in power transmission. Regular maintenance, monitoring, and optimization of operating conditions are essential to preserve the efficiency of the system over time.
What are the potential challenges in designing and manufacturing bevel gears?
Designing and manufacturing bevel gears can present several challenges due to their complex geometry, load requirements, and manufacturing processes. Here’s a detailed explanation of the potential challenges:
When it comes to designing and manufacturing bevel gears, the following challenges may arise:
- Complex Geometry: Bevel gears have intricate geometry with non-parallel and intersecting tooth profiles. Designing bevel gears requires a thorough understanding of gear theory, tooth engagement, and load distribution. The complex geometry poses challenges in determining the optimal tooth profile, tooth contact pattern, and gear ratios for the specific application.
- Load Analysis and Distribution: Determining the correct load analysis and distribution is crucial to ensure the gears can handle the anticipated forces and torques. Bevel gears often encounter varying loads, including radial loads, axial loads, and bending moments. Accurately predicting and distributing these loads across the gear teeth is essential for achieving proper gear strength, minimizing wear, and preventing premature failure.
- Manufacturing Precision: Bevel gears require high manufacturing precision to ensure smooth operation, minimal backlash, and efficient power transmission. Achieving the required precision in gear manufacturing involves precise machining, grinding, and heat treatment processes. The complex geometry of bevel gears adds to the manufacturing complexity, necessitating specialized equipment and skilled operators.
- Alignment Challenges: Proper alignment of bevel gears is critical for optimal performance and longevity. Achieving accurate alignment can be challenging due to the non-parallel shafts and intricate tooth profiles. Misalignment can lead to increased noise, vibration, and premature wear. Design considerations for alignment, as well as careful assembly and alignment procedures during manufacturing, are necessary to address this challenge.
- Lubrication and Cooling: Bevel gears require effective lubrication to minimize friction, wear, and heat generation. Ensuring proper lubrication and cooling can be challenging due to the unique shape of bevel gears and the limited space available for lubricant circulation. Designing appropriate lubrication systems, selecting suitable lubricants, and considering heat dissipation methods are essential for maintaining optimal gear performance and preventing overheating.
- Quality Control: Maintaining consistent quality during the manufacturing process is crucial for reliable bevel gears. Implementing robust quality control measures, including dimensional inspections, surface quality assessments, and gear testing, helps ensure that the manufactured gears meet the specified requirements. Consistency in gear quality is essential to minimize variations in performance and to ensure accurate gear meshing and load distribution.
Addressing these challenges requires a combination of engineering expertise, advanced manufacturing techniques, and quality control processes. Collaborating with experienced gear designers, employing state-of-the-art manufacturing technologies, and conducting thorough testing and analysis can help overcome these challenges and produce high-quality bevel gears that meet the performance and durability requirements of the intended application.
What are the benefits of using a bevel gear mechanism?
Using a bevel gear mechanism offers several benefits in various applications. Here’s a detailed explanation of the advantages of using a bevel gear mechanism:
- Change in Direction: Bevel gears are designed to transmit rotational motion between intersecting or non-parallel shafts. They enable a change in direction of motion, allowing the rotary power to be transmitted efficiently at different angles, such as 90 degrees or more. This capability is particularly useful in applications where space constraints or specific mechanical arrangements require a change in direction.
- Speed Reduction or Increase: Bevel gears can be used to achieve speed reduction or increase between the input and output shafts. By selecting bevel gears with different tooth counts, the rotational speed can be adjusted according to the desired output requirements. This feature is beneficial in applications where different speeds are needed for specific operations or to match the requirements of the driven equipment.
- Compact Design: Bevel gears offer a compact design that allows for efficient power transmission in applications with limited space. The intersecting shafts and compact arrangement of the gear teeth enable the transmission of torque and motion in a more confined area compared to other types of gear mechanisms.
- High Torque Transmission: Bevel gears are capable of transmitting high torque loads. The meshing of the gear teeth provides a strong and reliable connection, allowing for the efficient transfer of power even in heavy-duty applications. This makes bevel gears suitable for applications that require the transmission of substantial torque, such as in automotive differentials, industrial machinery, and mining equipment.
- Versatility: Bevel gears are versatile and can be designed to accommodate various operating conditions and requirements. They can be manufactured with different tooth profiles, such as straight-cut, spiral, or zerol, to optimize performance based on factors like noise reduction, load capacity, and efficiency. Additionally, bevel gears can be made from different materials, allowing them to withstand different environmental conditions and requirements.
- Smooth and Quiet Operation: The tooth geometry of spiral bevel gears provides smoother and quieter operation compared to straight-cut gears. The gradual engagement of the curved teeth reduces noise, vibration, and shock during gear meshing, resulting in quieter operation and improved overall system performance. This makes bevel gears suitable for applications where noise reduction is a critical consideration.
- Wide Range of Applications: Bevel gears find applications in various industries and systems where changes in direction, speed, and torque transmission are required. They are used in automotive differentials, marine propulsion systems, industrial machinery, robotics, aerospace systems, and more. The versatility and adaptability of bevel gears make them suitable for a wide range of applications across different sectors.
In summary, using a bevel gear mechanism provides benefits such as change in direction, speed adjustment, compact design, high torque transmission, versatility, smooth and quiet operation, and suitability for a wide range of applications. These advantages make bevel gears a preferred choice in numerous industries and systems that require efficient and reliable power transmission.
editor by Dream 2024-04-24