Product Description
Product Description
Modulo | Above 0.8 |
Numero di Denti | Above 9teeth |
Angolo d’Elica Helix Angle | Up to 45 |
bore diameter | Above 6mm |
axial length | Above 9mm |
Gear model | Customized gear accoding to customers sample or drawing |
Processing machine | CNC machine |
Material | 20CrMnTi/ 20CrMnMo/ 42CrMo/ 45#steel/ 40Cr/ 20CrNi2MoA/304 stainless steel |
Heat treattment | Carburizing and quenching/ Tempering/ Nitriding/ Carbonitriding/ Induction hardening |
Hardness | 35-64HRC |
Qaulity standerd | GB/ DIN/ JIS/ AGMA |
Accuracy class | 5-8 class |
Shipping | Sea shipping/ Air shipping/ Express |
Company Profile
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Application: | Motor, Electric Cars, Motorcycle, Machinery, Car |
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Hardness: | Soft Tooth Surface |
Gear Position: | Internal Gear |
Manufacturing Method: | Rolling Gear |
Toothed Portion Shape: | Spur Gear |
Material: | Stainless Steel |
Samples: |
US$ 500/Piece
1 Piece(Min.Order) | |
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Can spiral gears be used in heavy-duty industrial machinery?
Yes, spiral gears can be effectively used in heavy-duty industrial machinery. They offer several advantages that make them suitable for such applications. Here’s why spiral gears are well-suited for heavy-duty industrial machinery:
- High Load Capacity: Spiral gears have a high load-carrying capacity, allowing them to handle heavy loads encountered in industrial machinery. The helical tooth profile distributes the load across multiple teeth, reducing stress concentration and enhancing overall load-bearing capability.
- Smooth Operation: The helical tooth arrangement of spiral gears ensures smooth and precise gear operation. The gradual tooth engagement minimizes impact and vibrations, resulting in smoother gear meshing and reduced noise levels. This smooth operation is crucial in heavy-duty machinery to ensure reliable performance and minimize wear and tear.
- Efficient Power Transmission: Spiral gears offer efficient power transmission, making them suitable for heavy-duty applications. The helical tooth profile reduces sliding friction, resulting in improved power transmission efficiency and reduced energy losses. This efficiency is particularly important in industrial machinery where high power transmission and energy conservation are critical.
- Durability and Reliability: Spiral gears are known for their durability and reliability. The gradual tooth engagement, load distribution, and reduced sliding friction contribute to their long-term performance under demanding conditions. Heavy-duty industrial machinery requires gears that can withstand continuous use and maintain high reliability, making spiral gears a suitable choice.
- Axial Thrust Compensation: Spiral gears can be designed with opposite helix angles on mating gears to cancel out axial thrust. This axial thrust compensation simplifies gear design and reduces the need for additional components such as thrust bearings. It is particularly advantageous in heavy-duty machinery, where minimizing axial forces and ensuring smooth operation are critical.
Considering their high load capacity, smooth operation, efficient power transmission, durability, and axial thrust compensation, spiral gears are well-suited for heavy-duty industrial machinery. They can handle the demanding requirements and provide reliable performance, making them a preferred choice in many heavy-duty applications.
What are the benefits of using spiral gears in high-torque applications?
Spiral gears, also known as helical gears, offer several benefits when used in high-torque applications. These advantages make them well-suited for transmitting large amounts of torque efficiently and reliably. Here are the key benefits of using spiral gears in high-torque applications:
- High Load Capacity: Spiral gears are designed to handle high loads and transmit significant amounts of torque. The helical tooth arrangement allows for load distribution across multiple teeth, reducing stress concentration on individual teeth. This design feature enables spiral gears to withstand the heavy forces encountered in high-torque applications.
- Smooth and Efficient Power Transmission: The helical shape of the teeth in spiral gears enables smooth and continuous contact between the mating gears. This gradual tooth engagement results in reduced impact and vibration during gear meshing. Additionally, the helical tooth profile minimizes sliding friction, leading to efficient power transmission and reduced energy losses, which is particularly important in high-torque applications where power efficiency is crucial.
- Reduced Noise and Vibration: The gradual tooth engagement and improved contact pattern in spiral gears contribute to reduced noise and vibration during operation. The helical tooth arrangement helps to distribute the load more evenly, minimizing dynamic forces and resulting in quieter gear operation. This is especially beneficial in high-torque applications where noise reduction is desired, such as precision machinery or noise-sensitive environments.
- Axial Thrust Compensation: Spiral gears can be designed with opposite helix angles on mating gears, which helps cancel out the axial thrust generated during gear meshing. This feature is particularly advantageous in high-torque applications where managing axial forces is critical. By eliminating or reducing the axial thrust, spiral gears simplify the gear design and reduce the need for additional components, such as thrust bearings.
- Reliability and Durability: The robust design of spiral gears, combined with their ability to handle high loads and transmit torque efficiently, contributes to their overall reliability and durability in high-torque applications. The gradual tooth engagement, load distribution, and reduced friction help minimize wear and extend the service life of the gears, ensuring long-term performance under demanding conditions.
These benefits make spiral gears an excellent choice for high-torque applications where reliable and efficient power transmission, smooth operation, reduced noise, and durability are essential requirements.
Can you describe the unique tooth profile of spiral gears?
The unique tooth profile of spiral gears, also known as helical gears, sets them apart from other gear types. Here is a description of the key characteristics of the tooth profile:
- Helical Shape: The teeth of spiral gears are helically shaped, meaning they have a curved or slanted form. This helical shape is a result of the helix angle, which is the angle between the tooth surface and the gear axis. The helical shape allows for gradual tooth engagement and smooth gear operation.
- Curved Tooth Surface: The tooth surface of spiral gears is curved or oblique due to the helical shape. This curved profile enables the teeth to engage gradually and smoothly as the gears rotate, reducing impact and noise during gear meshing.
- Lead: The lead of a spiral gear refers to the distance the gear advances axially in one complete revolution. The lead is determined by the helix angle and the number of teeth on the gear. The lead affects the contact pattern and gear meshing characteristics.
- Contact Pattern: When spiral gears mesh, the contact pattern between the teeth changes as the gears rotate. Initially, the contact starts near the smaller end of the tooth and gradually moves across the tooth face as the gears rotate. This shifting contact pattern helps distribute the load over multiple teeth and reduces localized stresses.
- Helix Angle: The helix angle is the angle between the tooth surface and the gear axis. It determines the amount of helical shape in the tooth profile. A larger helix angle results in a more pronounced helical shape, while a smaller angle produces a shallower helix. The helix angle affects the load-carrying capacity, smoothness of operation, and axial thrust characteristics of the spiral gears.
These unique characteristics of the tooth profile in spiral gears, such as the helical shape, curved tooth surface, lead, contact pattern, and helix angle, contribute to their smooth operation, efficient power transmission, and ability to handle high loads. The tooth profile design of spiral gears is crucial in achieving reliable and effective gear meshing in various mechanical systems and applications.
editor by Dream 2024-04-30