Product Description
High Precision Long Shaft Gear Heat Treatment Carbon Steel Material Kiln Rotating Roller Shaft
A large gear shaft is a robust, cylindrical component with gears mounted on it, used to transmit rotational motion and power in machinery and mechanical systems. It plays a vital role in transferring power efficiently and is commonly found in various industrial applications. These shafts are typically made from durable materials like steel and come in different sizes and designs based on the specific application’s needs.
A gear shaft is a mechanical component used to transmit power between rotating parts. It consists of a cylindrical shaft with 1 or more gears mounted on it. The gears are designed to mesh with other gears or a rack to transmit torque and rotation to other parts of a machine or device.Gear shafts are used in a wide variety of applications, such as in automobiles, industrial machinery, and power generation equipment. They can be made from a range of materials, including steel, stainless steel, and titanium, and can be designed with different types of gears, such as spur gears, helical gears, bevel gears, and worm gears, depending on the specific application and requirements.
|
Product name |
Spur Gear & Helical Gear & Gear Shaft |
|
Materials Available |
Stainless Steel, Carbon Steel, Brass, Bronze, Iron, Aluminum Alloy etc |
|
Heat Treatment |
Quenching & Tempering, Carburizing & Quenching, High-frequency Hardening, Carbonitriding…… |
|
Surface Treatment |
Carburizing and Quenching,Tempering ,Tooth suface high quenching Hardening,Tempering |
|
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 |
|
Machining Process |
Gear Hobbing, Gear Milling, Gear Shaping, Gear Broaching, Gear Shaving, Gear Grinding and Gear Lapping |
|
Applications |
Toy, Automotive, instrument, electrical equipment, household appliances, furniture, mechanical equipment,daily living equipment, |
|
Advantages |
1. Produce strictly in accordance with ANSI or DIN standard dimension |
Other Products:
Product Process:
Application:
Gear Products:
About Us:
HangZhou MC Bearing Technology Co.,Ltd (LYMC),who is manufacture located in bearing zone, focus on Slewing bearing, cross roller bearing ,Gear and pinion,Dia from 50mm-8000mm, Our team with technical and full experience in the bearing industry.
*Professional in researching, developing, producing & marketing high precision bearings for 16 years;
*Many series bearings are on stock; Factory directly provide, most competitive price;
*Advanced CNC equipment, guarantee product accuracy & stability;
*One stop purchasing, product include cross roller bearing, rotary table bearing, robotic bearing, slewing bearing, angular contact ball bearing, large and extra large custom made bearing, diameter from 50~9000mm;
*Excellent pre-sale & after sale service. We can go to customers’ project site if needed.
*Professional technical & exporting team ensure excellent product design, quotation, delivering, documentation & custom clearance.
Our Service:
FAQ:
1.Q: Are you trading company or manufacturer ?
A: We are professional slewing bearing manufacturer with 20 years’ experience.
2.Q: How long is your delivery time?
A: Generally it is 4-5 days if the goods are in stock. or it is 45 days if the goods are not in
stock, Also it is according to quantity.
3.Q: Do you provide samples ? is it free or extra ?
A: Yes, we could offer the sample, it is extra.
4.Q: What is your terms of payment ?
A: Payment=1000USD, 30% T/T in advance, balance before shipment.
5.Q: Can you provide special customization according to the working conditions?
A: Sure, we can design and produce the slewing bearings for different working conditions.
6.Q: How about your guarantee?
A: We provide lifelong after-sales technical service.
/* 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, Machinery, Marine, Agricultural Machinery, Mining, Petroleum, Automatic,Excavator,Crane, |
|---|---|
| Hardness: | Hardened Tooth Surface |
| Gear Position: | External Gear |
| Toothed Portion Shape: | Spur Gear |
| Material: | Iron |
| Type: | Non-Circular Gear |
| Customization: |
Available
| Customized Request |
|---|
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.
What is the significance of gear shaft alignment in mechanical systems?
Gear shaft alignment holds great significance in mechanical systems where gears are employed. Proper alignment of gear shafts is crucial for ensuring optimal performance and longevity of the system. Let’s explore the significance of gear shaft alignment:
- Efficient Power Transmission:
Accurate alignment of gear shafts facilitates efficient power transmission within the mechanical system. When gear shafts are properly aligned, the gear teeth mesh smoothly and engage without unnecessary friction or resistance. This minimizes power losses due to misalignment, reducing energy wastage and maximizing power transfer efficiency. Efficient power transmission ensures that the mechanical system operates at its intended performance level.
- Reduced Wear and Damage:
Proper gear shaft alignment helps in reducing wear and damage to the gears and other components within the mechanical system. Misalignment can cause excessive stress on the gear teeth, resulting in accelerated wear and premature failure. By aligning the gear shafts correctly, the load is evenly distributed, preventing concentrated stress points. This leads to reduced wear, improved gear life, and decreased chances of unexpected breakdowns or malfunctions.
- Noise and Vibration Reduction:
Misalignment of gear shafts can lead to increased noise and vibration levels within the mechanical system. When gears are not properly aligned, they may generate excessive vibration and noise during operation. This can be detrimental to the overall performance and user experience. Proper gear shaft alignment ensures that the gears mesh accurately, reducing vibration and noise. It contributes to a quieter and smoother operation of the mechanical system.
- Optimal Load Distribution:
Alignment of gear shafts enables optimal load distribution among the gears. When gear shafts are aligned correctly, the load is evenly shared across the gear teeth and their supporting components. This prevents overloading of specific gears, minimizing the risk of premature wear or failure. Proper load distribution enhances the overall reliability and efficiency of the mechanical system, as each gear operates within its intended design parameters.
- Improved Efficiency:
Gear shaft alignment directly impacts the overall efficiency of the mechanical system. Proper alignment reduces energy losses due to friction, misalignment, or inefficient gear engagement. It allows for smooth and efficient power transmission throughout the system, optimizing the utilization of available energy. Improved efficiency translates into reduced operating costs, increased productivity, and enhanced performance of the mechanical system.
- Longer Service Life:
Correct gear shaft alignment contributes to a longer service life for the mechanical system. By minimizing wear, reducing stress concentrations, and preventing excessive vibration, proper alignment helps to preserve the integrity of the gears and other related components. This leads to extended service intervals, reduced maintenance requirements, and increased reliability. A mechanical system with aligned gear shafts is more likely to operate smoothly and consistently over an extended period.
In summary, gear shaft alignment is of significant importance in mechanical systems. It ensures efficient power transmission, reduces wear and damage, minimizes noise and vibration, enables optimal load distribution, improves overall efficiency, and extends the service life of the system. Proper alignment of gear shafts is essential for achieving reliable and high-performance operation in gear-based mechanical systems.
What industries commonly use gear shafts in their applications?
Gear shafts find applications in various industries where the transmission of motion and power is necessary. They are widely utilized in numerous sectors that rely on machinery and mechanical systems. Here are some industries that commonly use gear shafts in their applications:
- Automotive Industry:
The automotive industry extensively uses gear shafts in vehicles. Gear shafts are present in the transmission systems, where they transmit power and torque between the engine and the wheels. They enable gear shifting, torque conversion, and speed control, contributing to the overall performance and drivability of automobiles.
- Industrial Manufacturing:
Industrial manufacturing sectors, such as machinery manufacturing, rely heavily on gear shafts. They are used in various types of machinery, including lathes, milling machines, conveyor systems, and assembly lines. Gear shafts enable power transmission, motion control, and torque conversion in these machines, facilitating the production and processing of goods.
- Aerospace and Defense:
In the aerospace and defense industries, gear shafts are crucial components in aircraft engines, helicopters, and military vehicles. They play a vital role in transmitting power and torque between the engines and propellers or rotors, providing the necessary thrust and control. Gear shafts in these applications must meet stringent performance and reliability requirements.
- Power Generation:
Gear shafts are utilized in power generation industries, including thermal power plants, hydroelectric plants, and wind turbines. They facilitate the transfer of rotational motion and torque from turbines or generators to power transmission systems. Gear shafts in these applications often handle high-power outputs and must be designed to withstand demanding operating conditions.
- Construction and Mining:
The construction and mining industries commonly employ gear shafts in heavy machinery and equipment. Gear shafts are found in excavators, bulldozers, cranes, and drilling rigs, among others. They enable power transmission and torque conversion, allowing these machines to perform tasks such as digging, lifting, and drilling with precision and efficiency.
- Marine and Shipbuilding:
Gear shafts are essential components in marine applications, including ships, boats, and marine propulsion systems. They are utilized in marine engines, propellers, and thrusters, enabling the transmission of power and torque for propulsion and maneuvering. Gear shafts in marine environments must be corrosion-resistant and capable of withstanding the harsh conditions of saltwater and vibrations.
- Renewable Energy:
In the renewable energy sector, gear shafts are used in wind turbines and solar tracking systems. They facilitate the transfer of rotational motion and torque from wind or solar power sources to generators or energy storage systems. Gear shafts play a vital role in converting and optimizing the energy generated from renewable sources.
These are just a few examples of industries that commonly use gear shafts in their applications. Gear shafts are versatile components that are integral to the functioning of machinery and mechanical systems across various sectors.
editor by Dream 2024-05-07