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China high quality Customized Big Forging Gear Shaft, Herringbone Gear Shaft for Gearbox & Reducer bevel gearbox

Product Description

1.Product Description
 

This Gear shaft, Herringbone Gear Shaft, Bevel Gear, Eccentric Shaft mainly used on vessel engine, fan internal gear
2.1. Gear Shaft Processing
Gear Shaft drawing CHECK, Make Forging Mold, Forging Mold Quality Inspection Check, Machine Processing, Check Size\Hardness\Surface Finish and other technical parameters on drawing. 
2.2. Herringbone Gear Shaft Package
Spray anti-rust oil on Herringbone Gear Shaft, Wrap waterproof cloth around Gear Shaft for reducer, Prepare package by shaft shape&weight to choose steel frame, steel support or wooden box etc.
2.3. OEM Customized Gear Shaft
We supply OEM SERVICE, customized herringbone gear shaft with big module, more than 1tons big weight, more than 3m length, 42CrMo/35CrMo or your specified required material gear shaft. 

2.Product Technical info.

Module m Range: 5~70
Gear Teeth Number z OEM by drawing’s technical parameters
Teeth Height H OEM by drawing’s technical parameters
Teeth Thickness S OEM by drawing’s technical parameters
Tooth pitch P OEM by drawing’s technical parameters
Tooth addendum Ha OEM by drawing’s technical parameters
Tooth dedendum Hf OEM by drawing’s technical parameters
Working height h’ OEM by drawing’s technical parameters
Bottom clearance C OEM by drawing’s technical parameters
Pressure Angle α OEM by drawing’s technical parameters
Helix Angle,    OEM by drawing’s technical parameters
Surface hardness HRC Range: HRC 50~HRC63(Quenching)
Hardness: HB Range: HB150~HB280; Hardening Tempering/ Hardened Tooth Surface 
Surface finish   Range: Ra1.6~Ra3.2
Tooth surface roughness Ra Range: ≥0.4
Gear Accuracy Grade   Grade Range: 5-6-7-8-9 (ISO 1328)
Length L Range: 0.8m~10m
Weight Kg Range: Min. 100kg~Max. 80tons Single Piece
Gear Position   Internal/External Gear
Toothed Portion Shape   Spur Gear/Bevel/Spiral/Helical/Straight
Shaft shape   Herringbone Gear Shaft / Gear Shaft / Eccentric Shaft / Spur Gear / Girth Gear / Gear Wheel
Material Forging/
Casting
Forging/ Casting 45/42CrMo/40Cr or OEM
Manufacturing Method   Cut Gear
Gear Teeth Milling  
Gear Teeth Grinding  
Heat Treatment   Quenching /Carburizing
Sand Blasting   Null
Testing   UT\MT
Trademark   TOTEM/OEM
Application   Gearbox, Reducer,
Petroleum,Cement,Mining,Metallurgy etc.
Wind driven generator,vertical mill reducer,oil rig helical gear,petroleum slurry pump gear shaft
Transport Package   Export package (wooden box, steel frame etc.)
Origin   China
HS Code   8483409000

Material Comparison List

 STEEL CODE GRADES COMPARISON
CHINA/GB ISO ГΟСТ ASTM JIS DIN
45 C45E4 45 1045 S45C CK45
40Cr 41Cr4 40X 5140 SCr440 41Cr4
20CrMo 18CrMo4 20ХМ 4118 SCM22 25CrMo4
42CrMo 42CrMo4 38XM 4140 SCM440 42CrMo4
20CrMnTi   18XГT   SMK22  
20Cr2Ni4   20X2H4A      
20CrNiMo 20CrNiMo2 20XHM 8720 SNCM220 21NiCrMo2
40CrNiMoA   40XH2MA/
40XHMA
4340 SNCM439 40NiCrMo6/
36NiCrMo4
20CrNi2Mo 20NiCrMo7 20XH2MA 4320 SNCM420  

3.Totem Service

TOTEM Machinery focus on supplying GEAR SHAFT, ECCENTRIC SHAFT, HERRINGBONE GEAR, BEVEL GEAR, INTERNAL GEAR and other parts for transmission devices & equipments(large industrial reducers & drivers). Which were mainly used in the fields of port facilities, cement, mining, metallurgical industry etc. We invested in several machine processing factories,forging factories and casting factories,relies on these strong reliable and high-quality supplier network, to let our customers worry free. 

TOTEM Philosophy: Quality-No.1, Integrity- No.1, Service- No.1 

24hrs Salesman on-line, guarantee quick and positive feedback. Experienced and Professional Forwarder Guarantee Log. transportation.

4.About TOTEM

1. Workshop & Processing Strength

2. Testing Facilities

3. Customer Inspection & Shipping

5. Contact Us

ZheJiang CHINAMFG Machinery Co.,Ltd
 
Facebook: ZheJiang Totem

 

Material: Alloy Steel
Load: Drive Shaft
Stiffness & Flexibility: Forging
Journal Diameter Dimensional Accuracy: It5-It9
Axis Shape: Straight Shaft
Shaft Shape: Customized
Customization:
Available

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Customized Request

gear shaft

Can gear shafts be used in precision machinery and equipment?

Yes, gear shafts are commonly used in precision machinery and equipment. Precision machinery requires high accuracy, reliability, and smooth operation, and gear shafts play a critical role in achieving these requirements. Let’s explore the reasons why gear shafts are suitable for precision machinery:

  • Power Transmission:

Gear shafts are essential components for transmitting power between various components in precision machinery. They enable the transfer of rotational motion and torque from the input source to the desired output, allowing the machinery to perform its intended function precisely and efficiently.

  • Precise Positioning and Control:

Gear shafts, along with gears and other related components, enable precise positioning and control in precision machinery. By utilizing carefully designed gear ratios and configurations, gear shafts can accurately control the speed, direction, and timing of movements within the machinery. This precision is crucial in applications such as robotics, CNC machines, and other automated systems.

  • Load Distribution:

In precision machinery, gear shafts help distribute loads evenly across various components. By utilizing multiple gears and shafts, the transmitted load can be distributed over a larger surface area, reducing stress concentrations and minimizing the risk of premature wear or failure. This load distribution capability is vital in maintaining the integrity and longevity of precision machinery.

  • Backlash Control:

Backlash refers to the slight clearance or play between meshing gears. In precision machinery, it is crucial to minimize or control backlash to ensure accurate and repeatable movements. Gear shafts, when properly designed and manufactured, can contribute to minimizing backlash by maintaining precise gear meshing and reducing any unwanted movement or play between the gears.

  • High Torque Transmission:

Precision machinery often requires the transmission of high torque while maintaining accuracy and reliability. Gear shafts are capable of handling high torque loads and transmitting power efficiently. They are designed to withstand the forces and stresses associated with high torque applications, ensuring reliable operation and minimizing power losses.

  • Customization and Adaptability:

Gear shafts can be customized and adapted to meet the specific requirements of precision machinery. They can be manufactured with various materials, such as steel or specialized alloys, to achieve the desired strength, durability, and dimensional accuracy. The gear profiles, shaft dimensions, and other parameters can be tailored to suit the particular application, allowing for optimal performance and compatibility within precision machinery.

  • Reliability and Longevity:

Gear shafts are known for their reliability and long service life when properly designed, manufactured, and maintained. They are subjected to rigorous quality control measures to ensure dimensional accuracy, surface finish, and appropriate hardness. This focus on quality and precision results in gear shafts that can withstand demanding operating conditions and provide consistent performance over an extended period.

In summary, gear shafts are indeed suitable for use in precision machinery and equipment. Their ability to transmit power, enable precise positioning and control, distribute loads, control backlash, handle high torque transmission, offer customization options, and provide reliability and longevity make them essential components in achieving the accuracy and performance required by precision machinery.

gear shaft

How do you select the appropriate material for constructing a gear shaft?

Selecting the appropriate material for constructing a gear shaft is crucial for ensuring its durability, strength, and overall performance within a mechanical system. Several factors need to be considered when choosing the material for a gear shaft. Let’s explore the process of selecting the appropriate material:

  • Load and Torque Requirements:

The first step in material selection is assessing the load and torque requirements of the gear shaft. Consider the maximum load the gear shaft will experience during operation, as well as the torque it needs to transmit. These factors determine the material’s strength and fatigue resistance needed to withstand the applied forces without deformation or failure.

  • Wear Resistance:

Gears undergo constant contact and sliding motion, which can lead to wear over time. Therefore, it is important to consider the wear resistance of the material for the gear shaft. Materials with high hardness, such as hardened steels or specific alloys, are often preferred due to their ability to resist wear and withstand the repetitive contact between gear teeth.

  • Fatigue Resistance:

Gear shafts are subjected to cyclic loading, which can cause fatigue failure if the material is not able to withstand these repeated stress cycles. It is essential to choose a material with good fatigue resistance to ensure that the gear shaft can withstand the expected number of load cycles without premature failure. Steels with appropriate alloying elements or specialized alloys like nickel-chromium-molybdenum alloys are commonly used for their high fatigue resistance.

  • Torsional Strength:

Torsional strength refers to a material’s ability to resist twisting or torsional forces. Gear shafts transmit torque, and therefore, the selected material should have sufficient torsional strength to handle the applied torque without excessive deformation or failure. Steels, particularly those with high carbon content, are often chosen for their excellent torsional strength.

  • Heat Treatment Capability:

The ability to heat treat the material is an important consideration in gear shaft selection. Heat treatment processes like quenching and tempering can significantly enhance the mechanical properties of certain materials, such as steels. Heat treatment can improve hardness, strength, and toughness, allowing the gear shaft to withstand higher loads and provide better performance.

  • Corrosion Resistance:

In applications where the gear shaft may be exposed to corrosive environments, selecting a material with good corrosion resistance is essential. Stainless steels or corrosion-resistant alloys like bronze or brass are often used to prevent degradation due to moisture, chemicals, or other corrosive agents.

  • Manufacturability and Cost:

Considerations of manufacturability and cost are also important in material selection. The chosen material should be readily available, easily machinable, and cost-effective for the specific application. Balancing the desired material properties with manufacturing feasibility and cost constraints is crucial to achieve an optimal solution.

In summary, selecting the appropriate material for constructing a gear shaft involves considering factors such as load and torque requirements, wear resistance, fatigue resistance, torsional strength, heat treatment capability, corrosion resistance, manufacturability, and cost. Evaluating these factors enables the identification of a material that can provide the necessary strength, durability, and overall performance for the gear shaft within the specific mechanical 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 Customized Big Forging Gear Shaft, Herringbone Gear Shaft for Gearbox & Reducer bevel gearboxChina high quality Customized Big Forging Gear Shaft, Herringbone Gear Shaft for Gearbox & Reducer bevel gearbox
editor by CX 2023-11-10

gear shaft

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