China high quality Steel Spur Gear Shaft for Industrial Transmission Gearbox straight bevel gear

Product Description

Steel Spur Gear for Industrial Transmission Gearbox

Spur Gear
1. Produce strictly in accordance with ANSI or DIN standard dimension
2. Material: Stainless Steel, Carbon Steel, Brass,  Bronze, Iron, Aluminum Alloy etc
3. Bore: Finished bore
4. Precision grade: DIN 5 to DIN 7
5. Surface treatment: Carburizing and Quenching
6. Module: From 1 to 8
7. Tooth: From Z15 to Z70

Product name  Spur Gear
Materials Available  Stainless Steel, Carbon Steel, Brass,  Bronze, Iron, Aluminum Alloy etc
BORE Finished bore, Pilot Bore, Special request
Processing Method Molding, Shaving, Hobbing, Drilling, Tapping, Reaming, Manual Chamfering, Grinding etc
Pressure Angle 20 Degree
Hardness 55- 60HRC
Size Customer Drawings & ISO standard 
Package Wooden Case/Container and pallet, or made-to-order
Certificate ISO9001:2008 

 

Production process: Molding Cutting, Gear Hobbing, Gear Milling, Gear Shaping, Gear Broaching,Gear Shaving, Gear Grinding and Gear Lapping.

Inspection:
CHINAMFG Gear Machinery dedicated to strict quality control.” Focus and Professional on the Development of Conveyor Field”  this is CHINAMFG Gear Machinery target. Work step by step, CHINAMFG always provide success solution in precise conveyor field. Offering best price, super service and regular delivery are always our priorities.

Application:

Applications Toy, Automotive, instrument, electrical equipment, household appliances, furniture, mechanical equipment,daily living equipment, electronic sports equipment, , sanitation machinery, market/ hotel equipment supplies, etc.

Our Company:
HangZhou CHINAMFG Gear Machinery Co.,LTD established in 2009, is a professional manufacture engaged in development, production, sales and service of timing pulley, precise spur gears, helical gears, bevel gear, worm& worm gear and so on. We located in HangZhou with convenient transposition excite. CHINAMFG Gear Machinery dedicated to strict quality control and thoughtful customer service. Our experienced staffs are always available to discuss your requirements, and fulfill your satisfaction.
Production process: Molding Cutting, Gear Hobbing, Gear Milling, Gear Shaping, Gear Broaching,Gear Shaving, Gear Grinding and Gear Lapping.

Packaging, Stock and Delivery:

Packaging Polyethylene bag or oil paper for each item;
Pile on carton or as customer’s demand
Delivery of Samples By DHL, Fedex, UPS,  TNT, EMS
Lead time 10-15 working days as usual, 30days in busy season, it will based on the detailed order quantity.

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!!

If you are interested in our products, please tell us which materials, type, width, length u want. 

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Application: Motor, Electric Cars, Motorcycle, Machinery, Marine, Toy, Agricultural Machinery, Car
Hardness: Hardened Tooth Surface
Gear Position: External Gear
Manufacturing Method: Rolling Gear
Toothed Portion Shape: Spur Gear
Material: S45c
Customization:
Available

|

Customized Request

gear shaft

Can you explain the impact of gear shaft misalignment on gear performance?

Gear shaft misalignment can have a significant impact on the performance of gears within a system. When gear shafts are not properly aligned, several issues can arise, affecting the overall functionality and reliability of the gears. Let’s explore the impact of gear shaft misalignment in detail:

  • Reduced Efficiency:

Misalignment causes a loss of efficiency in gear systems. When gear shafts are misaligned, the teeth of the gears do not mesh correctly, leading to increased friction and energy losses. This results in reduced power transmission efficiency, as a portion of the input power is dissipated as heat instead of being effectively transferred through the gears.

  • Increased Wear and Fatigue:

Misalignment can lead to uneven contact and loading between gear teeth. This uneven distribution of forces causes localized high-stress areas on the gear teeth, leading to accelerated wear and fatigue. The concentrated stress on specific areas of the teeth can result in pitting, wear, and even tooth breakage over time. Increased wear and fatigue significantly reduce the lifespan of gears and can lead to unexpected failures.

  • Noise and Vibration:

Gear shaft misalignment often results in increased noise and vibration levels within the gear system. As the misaligned teeth engage, they generate excessive noise due to impact and increased friction. The vibrations caused by the misalignment can propagate through the gear assembly and the surrounding components, causing additional noise and potentially affecting the performance and lifespan of the entire system.

  • Loss of Tooth Contact:

Misalignment can cause a loss of proper tooth contact between the gears. Insufficient tooth contact reduces the load-carrying capacity of the gears and compromises the transmission of torque. The reduced contact area also increases the likelihood of localized stress concentrations, leading to premature wear and failure.

  • Overloading and Unbalanced Loads:

Gear shaft misalignment can result in overloading and unbalanced loads on the gears. Misalignment can cause uneven distribution of forces, with some teeth bearing a higher load than others. This can lead to excessive stress on specific gear teeth, potentially exceeding their load-carrying capacity. Over time, the overloading of certain teeth can result in accelerated wear, tooth breakage, and even catastrophic gear failure.

  • Seal and Bearing Issues:

Misalignment can also affect the performance of seals and bearings within the gear system. Misaligned gear shafts can create additional radial or axial loads on the bearings, reducing their lifespan and causing premature failure. Seal integrity can also be compromised, leading to leaks and contamination of the gear system, further exacerbating the issues associated with misalignment.

In summary, gear shaft misalignment has a detrimental impact on gear performance. It reduces efficiency, increases wear and fatigue, generates noise and vibration, causes loss of tooth contact, leads to overloading and unbalanced loads, and affects the performance of seals and bearings. Proper alignment of gear shafts is crucial to ensure optimal gear performance, longevity, and reliable power transmission within the gear system.

gear shaft

What are the factors to consider when designing gear shafts for specific applications?

Designing gear shafts for specific applications requires careful consideration of various factors to ensure optimal performance and reliability. Let’s explore the key factors that should be taken into account during the design process:

  • Load and Torque Requirements:

The load and torque requirements of the specific application are crucial considerations. Understanding the maximum load the gear shaft will experience and the torque it needs to transmit is essential for selecting appropriate materials, determining the required dimensions, and ensuring the gear shaft can handle the anticipated forces effectively.

  • Gear Type and Configuration:

The gear type and configuration directly influence the design of the gear shaft. Different gear types, such as spur gears, helical gears, bevel gears, or worm gears, have unique characteristics that impact the design considerations for the gear shaft. Factors such as gear tooth profile, pitch, pressure angle, and gear ratio need to be taken into account during the design process to ensure proper alignment, engagement, and efficient power transmission.

  • Material Selection:

Selecting the appropriate material for the gear shaft is crucial for its strength, durability, and performance. Factors such as the required strength, wear resistance, fatigue resistance, and corrosion resistance should be considered when choosing the material. Common materials for gear shafts include various steels, alloys, and sometimes specialized materials like bronze or brass, depending on the specific application requirements.

  • Shaft Dimensions and Geometry:

The dimensions and geometry of the gear shaft need to be carefully determined. Factors such as shaft diameter, length, keyways, chamfers, and fillets are important considerations. Proper shaft dimensions and geometry ensure sufficient strength, proper fit within the gear assembly, and compatibility with other components within the system.

  • Bearing Support and Lubrication:

The gear shaft design should incorporate provisions for bearing support and lubrication. Bearings placed along the gear shaft help reduce friction, support the shaft under load, and ensure smooth rotation. Adequate lubrication, such as oil or grease, is necessary to minimize wear between the gear shaft and bearings, as well as to reduce heat generation and promote efficient operation.

  • Heat Treatment and Surface Finish:

Depending on the application requirements, heat treatment processes like quenching and tempering may be applied to enhance the mechanical properties of the gear shaft. Heat treatment can improve hardness, strength, and toughness, increasing the gear shaft’s ability to withstand high loads and resist wear. Additionally, considering the surface finish of the gear shaft can help reduce friction, improve gear meshing, and minimize the risk of surface damage.

  • Manufacturability and Cost:

Designing gear shafts should also take into account manufacturability and cost considerations. The design should be feasible for manufacturing processes such as machining, forging, or casting, depending on the chosen material and complexity of the design. The design should also aim to optimize material usage and minimize manufacturing costs while meeting the required performance criteria.

In summary, when designing gear shafts for specific applications, factors such as load and torque requirements, gear type and configuration, material selection, shaft dimensions and geometry, bearing support and lubrication, heat treatment and surface finish, as well as manufacturability and cost considerations, should all be carefully evaluated. By considering these factors, a well-designed gear shaft can be developed to meet the specific needs of the application, ensuring reliable and efficient power transmission within the gear system.

gear shaft

What is the purpose of using a gear shaft in machinery?

A gear shaft serves several essential purposes in machinery. It plays a crucial role in the efficient operation and transmission of power within mechanical systems. Here are the main purposes of using a gear shaft:

  • Power Transmission:

A primary purpose of a gear shaft is to transmit power between different components in a machinery. When rotational force or torque is applied to the gear shaft, it transfers this power to connected gears or mechanisms. This power transmission allows for the controlled and synchronized movement of various parts, enabling the machinery to perform its intended function.

  • Torque Conversion and Adjustment:

By utilizing different sizes and arrangements of gears on the shaft, the gear shaft enables torque conversion and adjustment. Gears with varying numbers of teeth can be connected to the gear shaft, allowing for torque multiplication or reduction. This capability is crucial for adapting the power output of the machinery to match specific requirements, such as increasing torque for heavy-duty operations or reducing torque for precision tasks.

  • Speed Control:

Another purpose of a gear shaft is to control the speed of rotational motion in machinery. By using gears of different sizes or gear ratios on the shaft, the rotational speed can be adjusted. For instance, a smaller gear connected to the gear shaft will rotate faster, while a larger gear will rotate slower. This speed control allows for the optimization of machinery performance, ensuring that the rotational speed matches the desired application requirements.

  • Directional Change:

A gear shaft also facilitates the change in rotational direction within machinery. By incorporating appropriately designed gears on the shaft, the rotational motion can be redirected by 90 degrees or any desired angle. This directional change ability is vital in machinery that requires motion to be transmitted in different directions or orientations, allowing for complex operations and versatile applications.

  • Load Distribution:

Many machinery applications involve the distribution of load or force between multiple components. A gear shaft helps evenly distribute the load among connected gears and mechanisms. As torque is transmitted through the gear shaft, it ensures that the force is distributed across the teeth of the gears, minimizing stress concentration and promoting smooth operation. This load distribution enhances the overall durability and longevity of the machinery.

  • Mechanical Redundancy:

In certain machinery designs, gear shafts can provide mechanical redundancy. By incorporating multiple gear shafts that operate in parallel, the machinery can maintain functionality even if one of the gear shafts fails. This redundancy ensures that the machinery continues to operate with minimal disruption, reducing downtime and improving overall reliability.

In summary, the purpose of using a gear shaft in machinery is to enable power transmission, torque conversion and adjustment, speed control, directional change, load distribution, and mechanical redundancy. Gear shafts are essential components that contribute to the efficient and effective operation of various mechanical systems.

China high quality Steel Spur Gear Shaft for Industrial Transmission Gearbox straight bevel gearChina high quality Steel Spur Gear Shaft for Industrial Transmission Gearbox straight bevel gear
editor by Dream 2024-04-19