China supplier Rotary Table Zp49.5 Spiral Bevel Gear (OD1950mm) with high quality

Product Description

Product Description

 

Material : 42CrMo, 20CrMnMo, 20Cr2Ni4, 35CrMo, 20CrMnTi and Other high intensity alloy steel
Tooth Flank : Tooth flank carburization and nitrification, with rigidity of HRC58-62
Gear precision : Grade V
Precise measurement : Precise measurement and surface finishes are available
Material : High dense alloy or other materials is also available
Customization : Customer drawing and samples are welcome

 

Detailed Photos

 

Gear Features

Rotary Table Zp49.5 Spiral Bevel Gear features:

1) Max. OD2000mm
2) Max. Mould 36
3) Material: 42CrMo, 20CrMnMo, 20Cr2Ni4, 35CrMo, 20CrMnTi and other high intensity alloy steel
4) Tooth flank carburization and nitrification, with rigidity of HRC58-62
5) Gear precision: Grade VI
6)Precise measurement and surface finishes are available
7)High dense alloy or other materials is also available
8)custormer’s drawing and samples are welcome

It is used in automobile, oil drilling rig, and so on 
 

Company Profile

For 12 years, Mr. Zhou has stood for innovative products, a passion for technology, responsibility.

As a globally technology manufacture company, we put all of energy to promise quality and excellence. We’ve organized resources into new and established markets and developed gears, sheaves and so on.
Our results announcement is over USD 10, 000, 000 per fiscal year. Last but not least, we’ve doing hard work to perfect ourselves, tapping business opportunities.

Note: For special order, please write and provide drawing sample!

Customer Visiting

 

Packaging & Shipping

 

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Application: Motor, Machinery, Marine
Hardness: Soft Tooth Surface
Gear Position: External Gear
Manufacturing Method: Cut Gear
Toothed Portion Shape: Bevel Wheel
Material: Stainless Steel
Customization:
Available

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Customized Request

crown gear

What are the safety considerations when working with crown gear systems?

Working with crown gear systems requires attention to safety to prevent accidents and ensure the well-being of individuals involved. Here are some important safety considerations when working with crown gear systems:

  • Training and Knowledge:

Ensure that individuals working with crown gear systems have received proper training and possess the necessary knowledge and expertise. They should understand the gear system’s operation, potential hazards, safety protocols, and emergency procedures. Adequate training helps minimize the risk of accidents and promotes safe working practices.

  • Protective Equipment:

Provide appropriate personal protective equipment (PPE) to individuals working with crown gear systems. This may include safety glasses, gloves, ear protection, and any other necessary equipment based on the specific hazards associated with the system. PPE helps safeguard against potential injuries from flying debris, noise, or contact with moving parts.

  • Machine Guarding:

Ensure that crown gear systems are properly guarded to prevent accidental contact with the moving gears. Install protective barriers, covers, or interlocking mechanisms to restrict access to hazardous areas. Machine guarding helps prevent injuries and keeps personnel safe from potential pinch points, entanglement, or crushing hazards.

  • Lockout/Tagout Procedures:

Follow lockout/tagout procedures when performing maintenance or repair tasks on crown gear systems. Lockout/tagout involves isolating the equipment from its power source and affixing lockout/tagout devices to prevent unintended energization. This procedure protects workers from the unexpected startup of machinery and ensures their safety during maintenance activities.

  • Routine Inspections:

Regularly inspect the crown gear system for any signs of wear, damage, or abnormalities. Look for loose or missing bolts, excessive vibrations, unusual noise, or leaks. Detecting and addressing potential issues through routine inspections helps prevent accidents and maintain the safe functioning of the gear system.

  • Proper Lifting and Handling:

When moving or lifting crown gear components, adhere to proper lifting techniques and use appropriate lifting equipment. Crown gears can be heavy, and incorrect lifting or handling can lead to strains, sprains, or dropped objects. Follow ergonomic guidelines and use mechanical aids such as cranes, hoists, or lifting slings to ensure safe lifting practices.

  • Emergency Preparedness:

Establish emergency preparedness protocols specific to crown gear systems. This includes clear communication channels, knowledge of emergency shutdown procedures, and access to first aid supplies. Train personnel on how to respond to emergencies, such as gear system malfunctions, injuries, or unexpected incidents.

Promoting a safety-conscious culture, providing ongoing safety training, and ensuring the implementation of appropriate safety measures are critical when working with crown gear systems. It is important to adhere to local safety regulations, follow manufacturer guidelines, and prioritize the well-being of individuals involved in operating, maintaining, or repairing crown gear systems.

crown gear

How do crown gears contribute to power distribution in gear arrangements?

Crown gears play a significant role in power distribution within gear arrangements, ensuring efficient and balanced transmission of power. Let’s explore how crown gears contribute to power distribution:

  • Load Sharing:

Crown gears are often used in gear arrangements where multiple gears are present. In such arrangements, crown gears help distribute the power load among the gears. By sharing the load, each gear experiences a reduced load compared to if it were to carry the entire power load alone. This load sharing capability helps prevent overloading and excessive stress on individual gears, promoting more reliable and efficient power distribution.

  • Equal Torque Transfer:

Crown gears facilitate equal torque transfer among interconnected gears. When a crown gear meshes with another gear, the torque applied to the crown gear is transmitted to the meshing gear. Due to their tooth orientation and large contact area, crown gears enable a more uniform distribution of torque, ensuring that the torque is evenly transferred from one gear to another. This balanced torque distribution helps maintain smooth operation and prevent gear failures due to torque overload.

  • Elimination of Backlash:

Crown gears help reduce or eliminate backlash in gear arrangements. Backlash refers to the slight clearance or play between the teeth of meshing gears. It can cause inaccuracies, vibrations, and noise in the system. Crown gears, with their perpendicular tooth orientation and optimized meshing characteristics, minimize backlash and ensure a tight and precise engagement between gears. This tight meshing eliminates power losses associated with backlash and contributes to more efficient power distribution.

  • Better Load Distribution:

Due to their curved tooth profile and larger contact area, crown gears provide improved load distribution across the gear teeth. When power is transmitted through crown gears, the load is distributed over a greater number of teeth compared to other gear types. This even load distribution results in reduced stress concentrations on individual teeth, enhancing the gear’s load-carrying capacity and promoting uniform power distribution throughout the gear arrangement.

  • Enhanced System Efficiency:

By facilitating load sharing, equal torque transfer, backlash elimination, and improved load distribution, crown gears contribute to enhanced system efficiency. The balanced power distribution achieved through crown gears helps minimize power losses, reduce energy wastage, and optimize the overall efficiency of the gear arrangement. This improved efficiency translates into better performance, reduced energy consumption, and increased productivity in various mechanical systems.

In summary, crown gears contribute to power distribution in gear arrangements through load sharing, equal torque transfer, elimination of backlash, better load distribution, and enhanced system efficiency. These characteristics make crown gears an integral part of gear systems, ensuring reliable and efficient power transmission in a wide range of applications.

crown gear

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

A crown gear, also known as a contrate gear or a contrate wheel, serves several important purposes in machinery. Let’s explore the key purposes and advantages of using a crown gear:

  • Directional Change:

One of the primary purposes of a crown gear is to change the direction of rotation in a mechanical system. By meshing a crown gear with other gears, the rotational motion can be redirected by 90 degrees. This directional change capability is particularly useful in applications where a change in motion direction is required, such as conveyors, cranes, and other machinery.

  • Force Distribution:

Crown gears are also used to distribute forces and torques in machinery. By meshing a crown gear with other gears, the load can be spread across a larger contact area. This distribution of forces helps reduce stress and wear on individual gear teeth, promoting smoother operation and improved durability of the gear system.

  • Steering Mechanisms:

Crown gears find significant application in steering mechanisms, especially in automotive systems. They are commonly used in rack and pinion setups, where the crown gear meshes with a rack (a linear toothed component) to convert rotational motion into linear motion. This arrangement enables precise control and smooth movement in steering systems, ensuring reliable and accurate vehicle maneuvering.

  • Motion Control Systems:

Crown gears play a crucial role in motion control systems, particularly in automation and robotics. They allow for changes in motion direction, force distribution, and precise control of movement. By utilizing crown gears, robotic arms, gantry systems, and other automated equipment can achieve complex and accurate motions essential for various industrial processes.

  • Compatibility with Different Gear Types:

Crown gears have the advantage of being compatible with gears that have parallel axes or bevel gears with intersecting axes. This versatility allows them to mesh smoothly with different gear configurations, enabling torque and rotational motion transfer between various components in a machinery setup.

  • Application-Specific Uses:

The specific purposes of using a crown gear in machinery ultimately depend on the application requirements. Crown gears can be customized and integrated into machinery to fulfill specific needs, such as changing motion direction, distributing forces, enabling precise control, and ensuring compatibility with other gear systems.

In summary, the purpose of using a crown gear in machinery includes directional change, force distribution, steering mechanisms, motion control systems, compatibility with different gear types, and application-specific uses. Crown gears offer unique advantages that contribute to the smooth operation, durability, and efficiency of machinery in various industries.

China supplier Rotary Table Zp49.5 Spiral Bevel Gear (OD1950mm) with high qualityChina supplier Rotary Table Zp49.5 Spiral Bevel Gear (OD1950mm) with high quality
editor by CX 2024-01-11

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