China manufacturer OEM High Precision Large Double Helical Herringbone Bull Gear spiral bevel gear

Product Description

Product Description

 

A herringbone gear is a specific type of double helical gear. Each helical groove of this gear looks like the letter V, and many together form a herringbone pattern.

 

Kingrail Parts can produce all kinds of herringbone gear for mining machinery, mills, kilns and other equipment.

 

Specifications:

Material

Carbon steel,Alloy steel

Structure

Forging,casting

Type of gear

Herringbone gear

Heat treatment

Quenching and tempering

Process 

Forging, rough machining, QT, finish machining

Main equipments

Hobbing,CNC machine

Module

Up to 200

Precision of gear

Grinding ISO Grade 5-7 & Hobbing ISO Grade 8-9

Inspection

Raw material inspection, UT,physical property test,dimension inspect

 

Kingrail Parts can customize herringbone gear according to customer’s specifications and requirements

 

Manufacturing process:
Rraw matrial — Forging testing– Turning — Drilling — Heat Treatment — Milling– Grinding — Shaping and hobbing Process — Packing — Shipping

 

After Sales Service

 

1. OEM and customized service.
2. Full machining, primer coating, surface treatment.
3. Complete material testing process.
4. Quality control

Contact us

 

If you have any questions, pls feel free to contact us
 

Application: Motor, Electric Cars, Motorcycle, Machinery, Marine, Toy, Agricultural Machinery, Car
Hardness: Hardened Tooth Surface
Gear Position: External Gear
Customization:
Available

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Customized Request

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Shipping Cost:

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Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

herringbone gear

What are the benefits of using a herringbone gear mechanism?

Using a herringbone gear mechanism offers several benefits due to its unique design and characteristics. Here’s a detailed explanation of the advantages of using a herringbone gear mechanism:

  • High Load Capacity: Herringbone gears are capable of handling high torque loads due to their double helical tooth design. The opposing helix angles of the two sides of the gear create a balanced load distribution, allowing for increased load-carrying capacity compared to other gear types. This makes herringbone gears suitable for applications that involve heavy loads and high power transmission requirements.
  • Bidirectional Power Transmission: Herringbone gears are capable of transmitting power in both directions. The double helical tooth profile cancels out axial thrust forces that would occur in single helical gears, allowing for bidirectional power transfer without the need for additional thrust bearings or special mechanisms. This feature is particularly advantageous in applications where reversible power transmission is required.
  • Smooth and Quiet Operation: The double helical tooth design of herringbone gears helps to cancel out axial and radial forces, resulting in smooth and quiet operation. The opposing helix angles of the two sides of the gear minimize gear vibrations and reduce noise levels during engagement. This makes herringbone gears suitable for applications where low noise and vibration are desired, such as precision machinery, printing presses, and automotive transmissions.
  • Improved Gear Tooth Strength: The double helical tooth design of herringbone gears provides enhanced tooth strength compared to single helical gears. The opposing helix angles create a self-centering effect that reduces tooth deflection and improves load distribution along the tooth surfaces. This results in increased tooth strength, reduced wear, and improved overall gear durability, making herringbone gears suitable for high-load and high-speed applications.
  • Efficient Torque Transfer: Herringbone gears offer efficient torque transfer due to their large contact area and overlapping tooth engagement. The double helical tooth profile provides a larger contact ratio compared to spur gears, resulting in improved power transmission efficiency and reduced stress concentrations on the gear teeth. This efficient torque transfer contributes to the overall performance and energy efficiency of the gear system.
  • Axial Thrust Elimination: The double helical tooth profile of herringbone gears allows for the cancellation of axial thrust forces. The opposing helix angles create equal and opposite axial forces, effectively eliminating the net axial thrust on the gear shaft. This eliminates the need for additional thrust bearings or special provisions to counteract axial loads, simplifying the gear system design and reducing complexity and cost.

These are some of the key benefits of using a herringbone gear mechanism. Their high load capacity, bidirectional power transmission capability, smooth and quiet operation, improved tooth strength, efficient torque transfer, and axial thrust elimination make them advantageous in a wide range of applications across various industries.

herringbone gear

What lubrication is required for herringbone gears?

Proper lubrication is essential for the smooth and efficient operation of herringbone gears. The lubricant used in herringbone gear systems plays a crucial role in reducing friction, minimizing wear, dissipating heat, and protecting the gear surfaces. Here’s a detailed explanation of the lubrication requirements for herringbone gears:

  • Lubricant Selection: When selecting a lubricant for herringbone gears, it is important to consider factors such as load, speed, operating temperature, and environmental conditions. The lubricant should have suitable viscosity and additives to provide adequate film thickness and maintain lubrication under the anticipated operating conditions. Commonly used lubricants for herringbone gears include mineral oils, synthetic oils, and specialty lubricants formulated for gear applications.
  • Viscosity: The viscosity of the lubricant is crucial for ensuring proper lubrication and film formation between the gear teeth. The lubricant should have sufficient viscosity to create an effective lubricating film that separates the gear surfaces and reduces friction. It should be able to maintain this film under the operating conditions, ensuring smooth gear engagement and minimizing wear. The appropriate viscosity grade is typically specified by the gear system manufacturer based on the gear design, load, and speed.
  • Lubricant Application: The lubricant should be applied to the gear system in the appropriate manner to ensure uniform coverage and distribution. In most cases, herringbone gears are lubricated by immersion or splash lubrication, where the gears partially or fully submerge in the lubricant or have the lubricant splashed onto their surfaces. The lubricant should be directed towards the gear meshing area to ensure proper lubrication of the gear teeth and contact surfaces.
  • Lubricant Maintenance: Regular lubricant maintenance is essential to ensure the continued performance and longevity of herringbone gears. This includes monitoring the lubricant condition, checking for contamination, and replenishing or replacing the lubricant as necessary. Over time, the lubricant may degrade, become contaminated with particles or moisture, or lose its effectiveness. Regular inspections and lubricant analysis can help identify any issues and determine the appropriate maintenance intervals for lubricant replacement or replenishment.
  • Sealing and Contamination Prevention: Proper sealing of the gear housing or enclosure is important to prevent the ingress of contaminants, such as dust, dirt, or moisture, into the gear system. Contaminants can degrade the lubricant and lead to increased wear and damage to the gear surfaces. Seals, gaskets, or other appropriate sealing mechanisms should be employed to minimize the risk of contamination and maintain the integrity of the lubricant.

It is important to consult the gear system manufacturer’s recommendations and specifications regarding lubrication requirements. The manufacturer may provide specific guidelines regarding lubricant type, viscosity, application methods, and maintenance procedures based on the gear design and intended operating conditions. Adhering to these guidelines will help ensure optimal lubrication and maximize the performance and service life of herringbone gears.

herringbone gear

Can you explain the unique shape of herringbone gear teeth?

The unique shape of herringbone gear teeth is a defining characteristic of herringbone gears, also known as double helical gears. Here’s a detailed explanation of the unique shape of herringbone gear teeth:

Herringbone gears have a V-shaped or herringbone-shaped tooth profile, which is formed by two helical gear sections that are mirror images of each other. This tooth profile is distinct from the straight or helical tooth profiles found in other types of gears such as spur gears or helical gears.

When viewed from the end, the teeth of a herringbone gear resemble the letter “V”. This shape is created by the combination of two opposing helix angles, one on each side of the gear. The helix angle refers to the angle at which the teeth are inclined relative to the gear’s axis.

In a herringbone gear, the helix angle of one helical section is opposite in direction to the helix angle of the other helical section. This means that as the gear rotates, the teeth on one side lean in one direction, while the teeth on the other side lean in the opposite direction.

The opposing helix angles of the two gear sections in herringbone gears serve several important purposes:

  • Axial Thrust Elimination: One of the main advantages of the herringbone gear design is the elimination of axial thrust or end thrust forces. In helical gears, the helix angle of the teeth generates an axial force along the gear’s axis during rotation. However, in herringbone gears, the opposing helix angles cancel out these axial forces, resulting in a balanced gear that does not experience significant axial movement or require thrust bearings.
  • Smooth Engagement: The opposing helix angles of herringbone gears facilitate smooth and gradual tooth engagement. As the gear rotates, the teeth on one side gradually come into contact with the teeth on the other side. This gradual meshing reduces sliding friction, minimizes backlash, and ensures a continuous and smooth transfer of power between the gear sections.
  • Increased Load Capacity: The V-shaped tooth profile of herringbone gears provides increased tooth contact area compared to gears with straight or helical teeth. This increased contact area improves load distribution and allows herringbone gears to handle higher torque loads, resulting in an increased load-carrying capacity.

The unique shape of herringbone gear teeth requires precise manufacturing techniques to ensure proper meshing and alignment of the gear sections. The teeth must be accurately machined to achieve the correct helix angles and tooth profiles, ensuring smooth operation and efficient power transmission.

In summary, the unique shape of herringbone gear teeth, with their V-shaped or herringbone-shaped profile formed by opposing helix angles, enables axial thrust elimination, smooth engagement, and increased load capacity. These characteristics make herringbone gears well-suited for applications where efficient torque transmission, balanced operation, and high load-carrying capacity are essential.

China manufacturer OEM High Precision Large Double Helical Herringbone Bull Gear spiral bevel gearChina manufacturer OEM High Precision Large Double Helical Herringbone Bull Gear spiral bevel gear
editor by CX 2023-12-06

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