Tag Archives: cnc machine

China supplier CNC Horizontal Gear Hobbing Machine CHINAMFG Cutting Machine with Good Price

Product Description

2571 Hot Sales

CNC High Efficient Horizontal Spline Shaft Milling Machine

Our company specializes in producing CNC screw milling machines with over 10 years of experience. Our main products: various plastic machinery, such as extrusion machines, granulators, injection molding machines, film blowing machines, and other dedicated 3-4 axis screw CNC milling machines, 5-axis vacuum pump dedicated screw CNC milling machines, compressor screw dedicated CNC milling machines, CNC spline milling machines, and so on. In addition, our company also produces multi-position dedicated CNC screw machines, mainly used for the processing of multi-process workpieces such as pump bodies and valve bodies. One clamping can complete the processing of multiple end faces (flanges, drilling, etc.). High processing efficiency can effectively save costs and improve processing efficiency.

CNC spline milling machine is developed by our company, specially designed for processing all kinds of screw shaft end spline and special machine

Maximum milling diameter ф 450

Maximum machining modulus 10

Overall high strength casting bed, 3 guide rail layout, guide rail surface high-frequency quenching, good rigidity, high precision.

The milling head is driven by servo spindle motor, which can make the hob achieve infinitely variable speed and wide speed range. The Angle of milling head is adjusted by worm gear transmission with variable tooth thickness.

Feed axis [Z axis, X axis] adopts precision ball screw through servo motor direct drive, high transmission accuracy, good positioning accuracy.

Headstock spindle adopts servo motor directly connected precise wear-resistant worm gear and worm

The tailstock is mechanical, flexible and reliable.

The machine is equipped with a wide range of 218 control system.

the machine is equipped with a chip discharging machine, the iron filings generated in the milling process directly into the chip discharging machine, to ensure the clean working environment.

2571 Hot Sales

CNC High Efficient Horizontal Spline Shaft Milling Machine

/* 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

Model No.:	Lgxm350X6000
Condition:	Condition
No. of Spindles:	1
No. of Guide Rails:	3-4
No. of Axis:	3-5
Spindle:	C Axis

Customization:	Available \|

How do electronic or computer-controlled components integrate with worm wheels in modern applications?

In modern applications, electronic or computer-controlled components play a vital role in integrating with worm wheels. Here’s a detailed explanation of how these components integrate:

Sensor Feedback: Electronic sensors can be integrated with worm wheels to provide feedback on various parameters such as position, speed, torque, and temperature. These sensors can detect the rotational position of the worm wheel, monitor the speed of rotation, measure the torque applied, and monitor the temperature of the system. The sensor data can be processed by a computer-controlled system to optimize performance, ensure safety, and enable precise control of the worm wheel system.
Control Algorithms: Computer-controlled components allow for precise control algorithms to be implemented in worm wheel systems. These algorithms can optimize the operation of the worm wheel by adjusting parameters such as speed, torque, or position based on real-time sensor feedback. By analyzing the sensor data and applying control algorithms, the computer-controlled components can ensure efficient and accurate operation of the worm wheel system in accordance with the desired performance requirements.
Positioning and Motion Control: Computer-controlled components can enable advanced positioning and motion control capabilities in worm wheel systems. By integrating with the worm wheel, electronic components can precisely control the position and movement of the system. This is particularly useful in applications where precise positioning or synchronized motion is required, such as robotics, CNC machines, or automated systems. The computer-controlled components receive input commands, process them, and generate appropriate signals to control the worm wheel’s rotation and positioning.
Monitoring and Diagnostics: Electronic components can facilitate real-time monitoring and diagnostics of worm wheel systems. By continuously monitoring parameters such as temperature, vibration, or load, the computer-controlled components can detect any abnormalities or potential issues in the system. This allows for proactive maintenance or troubleshooting actions to be taken, minimizing downtime and optimizing the performance and lifespan of the worm wheel. Additionally, the computer-controlled components can generate diagnostic reports, log data, and provide visual or remote alerts for timely intervention.
Integration with Human-Machine Interfaces: Computer-controlled components can integrate with human-machine interfaces (HMIs) to provide a user-friendly and intuitive interface for interacting with the worm wheel systems. HMIs can include touchscreens, control panels, or software applications that allow operators or users to input commands, monitor system status, adjust parameters, and receive feedback. This integration enhances the usability, flexibility, and accessibility of worm wheel systems in various applications.
Networking and Communication: Computer-controlled components can be integrated into networked systems, allowing for communication and coordination with other devices or systems. This integration enables seamless integration of the worm wheel into larger automated systems, production lines, or interconnected machinery. Networking and communication capabilities facilitate data exchange, synchronization, and coordination, enhancing overall system performance and enabling advanced functionalities.

By integrating electronic or computer-controlled components with worm wheels, modern applications can benefit from enhanced control, precision, monitoring, and communication capabilities. These advancements enable optimized performance, improved efficiency, and increased reliability in various industries and sectors.

What role do worm wheels play in controlling speed and torque in mechanical assemblies?

Worm wheels play a crucial role in controlling speed and torque in mechanical assemblies. Here’s a detailed explanation of how worm wheels contribute to speed and torque control:

Gear Reduction: One of the primary functions of worm wheels is to provide gear reduction. The helical teeth of the worm gear engage with the teeth of the worm wheel, resulting in a rotational output that is slower than the input speed. The gear reduction ratio is determined by the number of threads on the worm wheel and the pitch diameter of the gear. By controlling the gear reduction ratio, worm wheels enable precise speed control in mechanical assemblies.
Speed Control: Worm wheels allow for fine control of rotational speed in mechanical assemblies. The high gear reduction ratio achievable with worm wheels enables slower output speeds, making them suitable for applications that require precise speed regulation. By adjusting the number of threads on the worm wheel or the pitch diameter of the gear, the speed output can be precisely controlled to match the requirements of the application.
Torque Amplification: Worm wheels are capable of amplifying torque in mechanical assemblies. The helical tooth engagement between the worm gear and the worm wheel creates a mechanical advantage, resulting in increased torque at the output. This torque amplification allows worm wheels to transmit higher torque levels while maintaining a compact design. The ability to control torque amplification makes worm wheels suitable for applications that require high torque output, such as lifting mechanisms, conveyors, or heavy machinery.
Torque Limiting: Worm wheels also provide torque limiting capabilities in mechanical assemblies. The self-locking nature of the worm wheel prevents reverse motion or backdriving from the output side to the input side. This self-locking property acts as a torque limiter, restricting excessive torque transmission and protecting the system from overload or damage. The torque limiting feature of worm wheels ensures safe and controlled operation in applications where torque limitation is critical, such as safety mechanisms or overload protection devices.
Directional Control: Worm wheels offer precise directional control in mechanical assemblies. The helical tooth engagement between the worm gear and the worm wheel allows for power transmission in a single direction. The self-locking property of the worm wheel prevents reverse motion, ensuring that the output shaft remains stationary when the input is not actively driving it. This directional control is beneficial in applications that require precise positioning or unidirectional motion, such as indexing mechanisms or robotic systems.
Load Distribution: Worm wheels play a role in distributing the load in mechanical assemblies. The sliding action between the worm gear and the worm wheel creates a larger contact area compared to other gear types. This increased contact area allows for better load distribution, minimizing stress concentration and ensuring even distribution of forces. By distributing the load effectively, worm wheels contribute to the longevity and reliability of mechanical assemblies.

Overall, worm wheels provide precise speed control, torque amplification, torque limiting, directional control, and load distribution capabilities in mechanical assemblies. These features make worm wheels versatile components that are widely used in various applications where precise control, torque management, and reliable performance are essential.

Can you describe the various types and configurations of worm wheels available?

There are several types and configurations of worm wheels available to suit different applications and requirements. Here’s a description of the various types and configurations:

Single-Threaded Worm Wheel: This is the most common type of worm wheel configuration. It has a single thread on its circumference that meshes with the worm gear. Single-threaded worm wheels provide a high gear reduction ratio and are used in applications where high torque and low-speed operation are required.
Double-Threaded Worm Wheel: Double-threaded worm wheels have two threads on their circumference, which results in increased contact area and improved load distribution. This configuration allows for higher torque transmission capacity and smoother operation. Double-threaded worm wheels are utilized in applications that require even higher torque output and improved efficiency.
Non-Cylindrical Worm Wheel: In some cases, the worm wheel may have a non-cylindrical shape. For example, it can have a concave or convex profile. Non-cylindrical worm wheels are used in specific applications where the shape is designed to accommodate unique requirements such as increased contact area, improved load distribution, or specialized motion control.
Enveloping Worm Wheel: Enveloping worm wheels have specialized tooth profiles that provide increased contact area and improved load-carrying capacity. The teeth of the worm wheel wrap around the helical threads of the worm gear, resulting in enhanced meshing and load distribution. Enveloping worm wheels are typically used in high-load applications that require superior torque transmission and durability.
Hypoid Worm Wheel: Hypoid worm wheels are designed with a hypoid offset, meaning that the centerline of the worm gear is offset from the centerline of the worm wheel. This configuration allows for smoother meshing and increased contact area, leading to improved load distribution and reduced wear. Hypoid worm wheels are often utilized in applications that require high torque, compact design, and smooth operation.
Materials: Worm wheels can be made from a variety of materials depending on the application requirements. Common materials include steel, bronze, brass, and specialized alloys. Steel worm wheels offer high strength and durability, while bronze and brass worm wheels provide excellent wear resistance and self-lubricating properties. The choice of material depends on factors such as load capacity, operating conditions, and cost considerations.

These are some of the types and configurations of worm wheels available. The selection of a particular type depends on the specific application requirements, including torque, speed, load capacity, space constraints, and desired efficiency. It’s important to consider factors such as tooth profile, material selection, and manufacturing precision to ensure the reliable and efficient operation of the worm wheel in a given application.

China supplier CNC Horizontal Gear Hobbing Machine CHINAMFG Cutting Machine with Good Price
editor by Dream 2024-05-16

China Hot selling CNC Spline Shaft Milling Machine Gear Hobbing Machine for Hot Sale

Product Description

2571 Hot Sales

CNC High Efficient Horizontal Spline Shaft Milling Machine

CNC spline milling machine is developed by our company, specially designed for processing all kinds of screw shaft end spline and special machine

Maximum milling diameter ф 450

Maximum machining modulus 10

Overall high strength casting bed, 3 guide rail layout, guide rail surface high-frequency quenching, good rigidity, high precision.

Feed axis [Z axis, X axis] adopts precision ball screw through servo motor direct drive, high transmission accuracy, good positioning accuracy.

Headstock spindle adopts servo motor directly connected precise wear-resistant worm gear and worm

The tailstock is mechanical, flexible and reliable.

The machine is equipped with a wide range of 218 control system.

the machine is equipped with a chip discharging machine, the iron filings generated in the milling process directly into the chip discharging machine, to ensure the clean working environment.

2571 Hot Sales

CNC High Efficient Horizontal Spline Shaft Milling Machine

For more detailed information , please add my ID .

/* 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

Model No.:	Lgxm350X6000
Condition:	Condition
No. of Spindles:	1
No. of Guide Rails:	3-4
No. of Axis:	3-5
Spindle:	C Axis

Customization:	Available \|

What maintenance practices are recommended for worm wheels to ensure optimal functionality?

Maintaining worm wheels is crucial for ensuring their optimal functionality and longevity. Here are some recommended maintenance practices for worm wheels:

Regular Inspection: Perform regular visual inspections of the worm wheels to check for any signs of wear, damage, or abnormal operating conditions. Look for indications such as pitting, chipping, excessive tooth wear, or misalignment. Early detection of issues allows for timely intervention and prevents further damage.
Cleaning: Keep the worm wheels clean from dirt, dust, and debris that may accumulate on the gear surfaces. Use a soft brush or compressed air to remove any contaminants that could potentially affect the gear’s performance or lead to premature wear. Avoid using harsh cleaning agents that may damage the gear material or lubrication.
Lubrication: Ensure proper lubrication of the worm wheels according to the manufacturer’s recommendations. Lubrication reduces friction, minimizes wear, and helps dissipate heat. Follow the specified lubrication intervals and use the appropriate lubricant type and viscosity for the specific application. Monitor the lubricant level regularly and replenish or replace it as needed.
Alignment and Adjustments: Check the alignment of the worm wheel with the worm gear to ensure proper meshing and load distribution. Misalignment can result in increased wear, reduced efficiency, and potential damage. If misalignment is detected, consult the manufacturer’s guidelines for proper alignment procedures and make necessary adjustments.
Torque Monitoring: Periodically monitor the torque levels in the system to ensure they are within the recommended range. Excessive torque can lead to increased wear and potential gear failure. Use appropriate torque monitoring devices or methods to measure and verify that the torque values are within the specified limits.
Temperature Monitoring: Keep an eye on the operating temperature of the worm wheels. Excessive heat can indicate issues such as inadequate lubrication, overloading, or misalignment. Monitor the temperature using appropriate temperature measurement devices and take corrective actions if abnormal temperatures are observed.
Replacement of Worn Parts: If any components of the worm wheel assembly, such as the gear or bearings, show significant wear or damage that cannot be rectified through maintenance, consider replacing those worn parts. Using worn components can compromise the performance and reliability of the worm wheel system.
Training and Documentation: Ensure that maintenance personnel are properly trained on the specific maintenance requirements and procedures for worm wheels. Maintain accurate documentation of maintenance activities, including inspection records, lubrication schedules, and any repairs or replacements performed. This documentation helps track the maintenance history and assists in identifying any recurring issues or trends.

By following these maintenance practices, worm wheels can be kept in optimal condition, ensuring their functionality, reliability, and longevity. Regular inspections, proper cleaning, lubrication, alignment, torque and temperature monitoring, timely replacement of worn parts, and well-documented maintenance activities are essential for the effective maintenance of worm wheels.

How do worm wheels contribute to the precision and accuracy of motion in machinery?

Worm wheels play a significant role in achieving precision and accuracy of motion in machinery. Here’s a detailed explanation of how worm wheels contribute to precision and accuracy:

Reduced Backlash: Backlash refers to the amount of clearance or play between meshing gears, which can result in undesired movement or positioning errors. Worm wheels have a self-locking mechanism that minimizes or eliminates backlash. The helical teeth of the worm wheel engage with the worm gear at an angle, creating a wedging effect that prevents reverse motion. This inherent self-locking property ensures precise positioning and eliminates backlash, contributing to the overall precision of motion.
High Gear Reduction Ratio: Worm wheels offer high gear reduction ratios, allowing for fine control and precise motion. The helical shape of the worm gear teeth and the interaction with the worm wheel enable gear ratios ranging from 5:1 to 100:1 or even higher. This high reduction ratio allows for slower rotational output and finer increments of motion, enhancing precision in applications that require precise positioning or control.
Single Directional Control: Worm wheels provide excellent directional control, allowing power transmission in a single direction only. The self-locking nature of the worm wheel prevents any reverse motion from the output side to the input side. This property is particularly beneficial in applications where precise and accurate motion in a specific direction is required, such as in robotics or CNC machinery.
Smooth Operation: The helical tooth profile of the worm wheel contributes to smooth and quiet operation. The helical teeth engage gradually, resulting in a smooth transfer of power and reduced noise and vibration. This smooth operation is crucial for applications that require precise and accurate motion, as it helps minimize disturbances and ensure consistent movement without jarring or jerking.
Increased Contact Area: The sliding action between the worm gear and the worm wheel creates a larger contact area compared to other gear types. The increased contact area allows for better load distribution and improved torque transmission. This helps to minimize tooth wear, enhance durability, and maintain the accuracy of motion over an extended period of operation.
Compact Design: Worm wheels offer a compact design due to their perpendicular arrangement. The compactness allows for efficient use of space and integration into machinery with limited space constraints. The reduced size and weight contribute to improved stability and accuracy by minimizing flexing or bending that can occur in larger gear systems.

By incorporating worm wheels into machinery, engineers can achieve precise and accurate motion control, ensuring the desired positioning, repeatability, and overall performance of the system. These characteristics make worm wheels suitable for a wide range of applications that require high precision and accuracy, such as robotics, machine tools, positioning systems, and automation equipment.

Can you provide examples of products or machinery that use worm wheels in their systems?

Yes, there are numerous products and machinery that utilize worm wheels as integral components in their systems. Here are some examples:

Elevators: Worm wheels are commonly used in elevator systems to control the vertical movement of the elevator car. The high gear reduction ratio of the worm wheel allows for precise and controlled lifting and lowering of the elevator. The self-locking property of the worm wheel ensures that the elevator remains stationary at each floor, enhancing safety and stability.
Conveyors: Conveyors, such as belt conveyors or screw conveyors, often incorporate worm wheels to drive the movement of the conveyor belt or screw. The gear reduction provided by the worm wheel allows for controlled and synchronized material handling in industries such as manufacturing, mining, and logistics.
Automotive Applications: Worm wheels are utilized in various automotive applications. For example, power steering systems use worm wheels to convert the rotational motion of the steering wheel into the linear motion required for steering the vehicle. Additionally, some automotive seat adjustment mechanisms and convertible roof systems use worm wheels for precise positioning and control.
Machine Tools: Worm wheels are found in machine tools like milling machines, lathes, and grinders. They are often used in the feed mechanisms to control the movement of the workpiece or cutting tool with high precision and accuracy. The high gear reduction ratio of the worm wheel enables fine adjustments of the feed rate and ensures stable and controlled machining operations.
Robotics: Worm wheels are employed in various robotic systems for precise motion control. They can be found in robotic arms, grippers, and joints, allowing for accurate positioning and movement. The self-locking property of the worm wheel ensures that the robot maintains its position when not actively driven, providing stability and safety in robotic applications.
Positioning Systems: Precision positioning systems, such as linear stages or rotary stages, utilize worm wheels to achieve accurate and repeatable motion. These systems are commonly used in semiconductor manufacturing, optics, microscopy, and other industries where precise positioning is critical. Worm wheels provide the necessary gear reduction and precise control required for precise positioning applications.
Gate Operators: Worm wheels are employed in gate operator systems to control the opening and closing of gates, such as in residential or commercial gate automation. The gear reduction provided by the worm wheel allows for controlled and smooth operation of the gate, ensuring security and convenience.
Industrial Mixers: Worm wheels are used in industrial mixers and agitators to control the rotational speed and torque applied to the mixing blades. The gear reduction ratio of the worm wheel enables precise control of the mixing process, ensuring efficient and consistent mixing of various substances in industries like chemical processing and food production.

These examples illustrate the wide range of applications where worm wheels are utilized to provide precise motion control, torque management, and reliable performance. Their versatility and ability to control speed, torque, and direction make them valuable components in various products and machinery.

China Hot selling CNC Spline Shaft Milling Machine Gear Hobbing Machine for Hot Sale
editor by Dream 2024-05-16

China wholesaler CNC Machine High Speed Cutting Metal Involute Gear Hobbing Price Rod/Hole Type

Product Description

Δ The optimization of the design and qualified coatings allow the GOLP hobs to have a longer service life within higher cutting speed;

Δ GOLP hob is particularly suitable for dry cutting, high speed cutting and hardened cutting;

Δ We choose the material in the whole world, but they only will be selected after a rigorous evaluation of the quality of hard alloy and test;

Δ They play well in various processing environment;

Δ Experienced technical staff and full range of world class CNC machines and testing equipment give the hobs from GOLP very high precision and a stable quality. Our fast delivery, high quality, technical support and our after-sales service helps you to take the lead in your industry.

Hob type	Involute gear hob, Rectangular spline hob, Cycloidal gear hob, Pulley hob, Worm hob, Involute spline hob, Straight side spline hob, Long worm roll, Special hob, Sprocket hob;
Accuracy Grade	A, AA or higher accuracy standard(AAA, AAAA), Issued by the KLINGELNBERG tool and ZOLLER tool testing center;
Hob materials	Hard alloy Powder, high-speed steel;
The processing environment	High speed cutting, Wet cutting, Dry cutting, Hardened cutting
The scope of application	Before grinding, Before shaving, Before shaving, Scraping, Roll finishing
Technical support	Processing method, Special gear hob design and manufacturing, Processing parameters, Special hob tooling design and manufacturing
The hobbing precision	Each of the GOLP hobs will be delivered after careful processing and strict detection; If the equipment is in good condition, the user can process GB6 grade, JIS2 grade or higher precision gear.

Diameter	Φ10-200mm
Length	6-200mm
Modul	0.1-8
No.Of Starts	1-7
Bore Designs	Φ6-60mm
Shaft Designs	For all common machines and special housing
Warranty	2 years

HangZhou GOLP CNC MACHINERY CO.,Ltd is located in HangZhou–the core location of the HangZhouang CHINAMFG which is the most dynamic economy area in China. We are a new brand company specializing in the CNC machine tool industry. The company is mainly engaged in Die-casting machine, CNC Punching machines, Powder compacting machine and other new intelligent machine and related supporting products. The company adheres to the business philosophy –Professional quality, Credibility first, Customer first, and is committed to the development goal of becoming an important member of the global market in the field of intelligent machines.

Q:What’s your payment terms?
A:T/T,L/C,Paypal,Western Union etc.

Q: Are you a trading company or a manufacturer?
A: We are a professional manufacturer. Our products have been exported to Asia, South America, Africa, and have developed a good world wide reputation.

Q: What kind of product certification do you have?
A: All our products have passed ISO9001 and CE certifications. We have strict quality inspection process before leaving our factory in order to offer the best quality machines to our customers.

Q: Do you have after sales service?
A: Yes, we have special service team which will offer you professional guidance, or On-site installation in customer Factory.

Q: Do you test all your goods before delivery?
A: Yes, we have strict quality inspection process including a load test for every machine before leaving our factory.

/* 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

Standard:	Standard
Coating:	Coating
Worm:	Involute Worm
Head Number:	Multi-Head
Precision:	A
Material:	High Speed Steel

Customization:	Available \|

What maintenance practices are recommended for worm wheels to ensure optimal functionality?

Maintaining worm wheels is crucial for ensuring their optimal functionality and longevity. Here are some recommended maintenance practices for worm wheels:

Regular Inspection: Perform regular visual inspections of the worm wheels to check for any signs of wear, damage, or abnormal operating conditions. Look for indications such as pitting, chipping, excessive tooth wear, or misalignment. Early detection of issues allows for timely intervention and prevents further damage.
Cleaning: Keep the worm wheels clean from dirt, dust, and debris that may accumulate on the gear surfaces. Use a soft brush or compressed air to remove any contaminants that could potentially affect the gear’s performance or lead to premature wear. Avoid using harsh cleaning agents that may damage the gear material or lubrication.
Lubrication: Ensure proper lubrication of the worm wheels according to the manufacturer’s recommendations. Lubrication reduces friction, minimizes wear, and helps dissipate heat. Follow the specified lubrication intervals and use the appropriate lubricant type and viscosity for the specific application. Monitor the lubricant level regularly and replenish or replace it as needed.
Alignment and Adjustments: Check the alignment of the worm wheel with the worm gear to ensure proper meshing and load distribution. Misalignment can result in increased wear, reduced efficiency, and potential damage. If misalignment is detected, consult the manufacturer’s guidelines for proper alignment procedures and make necessary adjustments.
Torque Monitoring: Periodically monitor the torque levels in the system to ensure they are within the recommended range. Excessive torque can lead to increased wear and potential gear failure. Use appropriate torque monitoring devices or methods to measure and verify that the torque values are within the specified limits.
Temperature Monitoring: Keep an eye on the operating temperature of the worm wheels. Excessive heat can indicate issues such as inadequate lubrication, overloading, or misalignment. Monitor the temperature using appropriate temperature measurement devices and take corrective actions if abnormal temperatures are observed.
Replacement of Worn Parts: If any components of the worm wheel assembly, such as the gear or bearings, show significant wear or damage that cannot be rectified through maintenance, consider replacing those worn parts. Using worn components can compromise the performance and reliability of the worm wheel system.
Training and Documentation: Ensure that maintenance personnel are properly trained on the specific maintenance requirements and procedures for worm wheels. Maintain accurate documentation of maintenance activities, including inspection records, lubrication schedules, and any repairs or replacements performed. This documentation helps track the maintenance history and assists in identifying any recurring issues or trends.

What are the advantages of using a worm wheel in gearing systems?

Using a worm wheel in gearing systems offers several advantages, making it a popular choice for various applications. Here’s a detailed explanation of the advantages of using a worm wheel:

High Gear Reduction: Worm wheels provide significant gear reduction ratios, allowing for large speed reductions and high torque output. The helical shape of the worm gear teeth and the interaction with the worm enable gear ratios ranging from 5:1 to 100:1 or even higher. This makes worm wheels suitable for applications that require high torque and low-speed operation.
Compact Design: The perpendicular arrangement of the worm gear and the worm wheel allows for a compact design, making efficient use of space. This is especially beneficial in applications where space is limited or where a compact and lightweight design is desired.
Self-Locking: One of the unique properties of a worm wheel system is its inherent self-locking ability. Due to the sliding action and the angle of the helical teeth, the worm wheel can hold its position and prevent backdriving. This means that even when the driving force is removed, the worm wheel remains locked in place, enhancing safety and stability in applications where position holding is critical.
High Torque Capability: The sliding action and increased tooth engagement of the worm wheel design allow for a larger contact area between the worm gear and the worm wheel. This results in higher torque transmission capacity compared to other gear types, making worm wheels suitable for applications requiring high torque output.
Quiet Operation: The sliding action between the worm gear and the worm wheel results in smoother and quieter operation compared to other gear types. The helical teeth of the worm wheel help distribute the load over multiple teeth, reducing noise and vibration, and providing a smoother transmission of power.
Directional Control: Worm wheels offer excellent directional control, allowing power transmission in a single direction only. The self-locking nature of the worm wheel prevents any reverse motion from the output side to the input side. This property is advantageous in applications where precise motion control and prevention of backward movement are required.
Efficient Power Transmission: The sliding action, larger contact area, and self-locking nature of the worm wheel design contribute to efficient power transmission. The reduced friction and wear, along with the optimized tooth engagement, help minimize energy losses, improve overall system efficiency, and reduce the need for frequent maintenance.
Versatility: Worm wheels can be manufactured in various sizes, materials, and configurations to suit different application requirements. They can be customized to meet specific torque, speed, and space constraints, making them versatile for a wide range of applications across industries.

These advantages make worm wheels suitable for a variety of applications, including automotive, industrial machinery, elevators, robotics, and more. However, it’s important to consider factors such as lubrication, proper gear meshing, and maintenance to ensure the reliable and efficient operation of worm wheel systems.

Can you provide examples of products or machinery that use worm wheels in their systems?

Yes, there are numerous products and machinery that utilize worm wheels as integral components in their systems. Here are some examples:

Elevators: Worm wheels are commonly used in elevator systems to control the vertical movement of the elevator car. The high gear reduction ratio of the worm wheel allows for precise and controlled lifting and lowering of the elevator. The self-locking property of the worm wheel ensures that the elevator remains stationary at each floor, enhancing safety and stability.
Conveyors: Conveyors, such as belt conveyors or screw conveyors, often incorporate worm wheels to drive the movement of the conveyor belt or screw. The gear reduction provided by the worm wheel allows for controlled and synchronized material handling in industries such as manufacturing, mining, and logistics.
Automotive Applications: Worm wheels are utilized in various automotive applications. For example, power steering systems use worm wheels to convert the rotational motion of the steering wheel into the linear motion required for steering the vehicle. Additionally, some automotive seat adjustment mechanisms and convertible roof systems use worm wheels for precise positioning and control.
Machine Tools: Worm wheels are found in machine tools like milling machines, lathes, and grinders. They are often used in the feed mechanisms to control the movement of the workpiece or cutting tool with high precision and accuracy. The high gear reduction ratio of the worm wheel enables fine adjustments of the feed rate and ensures stable and controlled machining operations.
Robotics: Worm wheels are employed in various robotic systems for precise motion control. They can be found in robotic arms, grippers, and joints, allowing for accurate positioning and movement. The self-locking property of the worm wheel ensures that the robot maintains its position when not actively driven, providing stability and safety in robotic applications.
Positioning Systems: Precision positioning systems, such as linear stages or rotary stages, utilize worm wheels to achieve accurate and repeatable motion. These systems are commonly used in semiconductor manufacturing, optics, microscopy, and other industries where precise positioning is critical. Worm wheels provide the necessary gear reduction and precise control required for precise positioning applications.
Gate Operators: Worm wheels are employed in gate operator systems to control the opening and closing of gates, such as in residential or commercial gate automation. The gear reduction provided by the worm wheel allows for controlled and smooth operation of the gate, ensuring security and convenience.
Industrial Mixers: Worm wheels are used in industrial mixers and agitators to control the rotational speed and torque applied to the mixing blades. The gear reduction ratio of the worm wheel enables precise control of the mixing process, ensuring efficient and consistent mixing of various substances in industries like chemical processing and food production.

China wholesaler CNC Machine High Speed Cutting Metal Involute Gear Hobbing Price Rod/Hole Type
editor by Dream 2024-04-30

China Standard CNC Gear Hobbing Worm Machining Machine Customized Gear Cutting Machine

Product Description

2571 Hot Sales

CNC High Efficient Horizontal Spline Shaft Milling Machine

CNC spline milling machine is developed by our company, specially designed for processing all kinds of screw shaft end spline and special machine

Maximum milling diameter ф 450

Maximum machining modulus 10

Overall high strength casting bed, 3 guide rail layout, guide rail surface high-frequency quenching, good rigidity, high precision.

Feed axis [Z axis, X axis] adopts precision ball screw through servo motor direct drive, high transmission accuracy, good positioning accuracy.

Headstock spindle adopts servo motor directly connected precise wear-resistant worm gear and worm

The tailstock is mechanical, flexible and reliable.

The machine is equipped with a wide range of 218 control system.

the machine is equipped with a chip discharging machine, the iron filings generated in the milling process directly into the chip discharging machine, to ensure the clean working environment.

2571 Hot Sales

CNC High Efficient Horizontal Spline Shaft Milling Machine

/* 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

Model No.:	Lgxm350X6000
Condition:	Condition
No. of Spindles:	1
No. of Guide Rails:	3-4
No. of Axis:	3-5
Spindle:	C Axis

Customization:	Available \|

What are the advantages of using a worm wheel in gearing systems?

Using a worm wheel in gearing systems offers several advantages, making it a popular choice for various applications. Here’s a detailed explanation of the advantages of using a worm wheel:

High Gear Reduction: Worm wheels provide significant gear reduction ratios, allowing for large speed reductions and high torque output. The helical shape of the worm gear teeth and the interaction with the worm enable gear ratios ranging from 5:1 to 100:1 or even higher. This makes worm wheels suitable for applications that require high torque and low-speed operation.
Compact Design: The perpendicular arrangement of the worm gear and the worm wheel allows for a compact design, making efficient use of space. This is especially beneficial in applications where space is limited or where a compact and lightweight design is desired.
Self-Locking: One of the unique properties of a worm wheel system is its inherent self-locking ability. Due to the sliding action and the angle of the helical teeth, the worm wheel can hold its position and prevent backdriving. This means that even when the driving force is removed, the worm wheel remains locked in place, enhancing safety and stability in applications where position holding is critical.
High Torque Capability: The sliding action and increased tooth engagement of the worm wheel design allow for a larger contact area between the worm gear and the worm wheel. This results in higher torque transmission capacity compared to other gear types, making worm wheels suitable for applications requiring high torque output.
Quiet Operation: The sliding action between the worm gear and the worm wheel results in smoother and quieter operation compared to other gear types. The helical teeth of the worm wheel help distribute the load over multiple teeth, reducing noise and vibration, and providing a smoother transmission of power.
Directional Control: Worm wheels offer excellent directional control, allowing power transmission in a single direction only. The self-locking nature of the worm wheel prevents any reverse motion from the output side to the input side. This property is advantageous in applications where precise motion control and prevention of backward movement are required.
Efficient Power Transmission: The sliding action, larger contact area, and self-locking nature of the worm wheel design contribute to efficient power transmission. The reduced friction and wear, along with the optimized tooth engagement, help minimize energy losses, improve overall system efficiency, and reduce the need for frequent maintenance.
Versatility: Worm wheels can be manufactured in various sizes, materials, and configurations to suit different application requirements. They can be customized to meet specific torque, speed, and space constraints, making them versatile for a wide range of applications across industries.

Are there innovations or advancements in worm wheel technology that have emerged in recent years?

Yes, there have been significant innovations and advancements in worm wheel technology in recent years. Here’s a detailed explanation of some notable developments:

Improved Materials: The development of new materials and advanced manufacturing techniques has contributed to improved performance and durability of worm wheels. High-performance materials such as hardened steels, alloys, and composite materials are being used to enhance the strength, wear resistance, and load-carrying capacity of worm wheels. These materials offer better fatigue resistance, reduced friction, and increased efficiency, leading to longer service life and improved overall performance.
Enhanced Tooth Profile Design: Innovations in tooth profile design have focused on optimizing the contact pattern, load distribution, and efficiency of worm wheels. Advanced computer-aided design (CAD) and simulation tools enable the modeling and analysis of complex tooth profiles, resulting in improved gear meshing and reduced losses. Modified tooth profiles, such as helical or curved teeth, are being employed to minimize sliding friction, increase tooth engagement, and enhance overall efficiency.
Surface Treatments and Coatings: Surface treatments and coatings are being used to improve the wear resistance, reduce friction, and enhance the performance of worm wheels. Technologies such as nitriding, carburizing, and diamond-like carbon (DLC) coatings are applied to the gear surfaces to increase hardness, reduce friction, and minimize wear. These treatments and coatings improve the efficiency and extend the lifespan of worm wheels, particularly in demanding applications with high loads or harsh operating conditions.
Advanced Manufacturing Techniques: Innovations in manufacturing techniques have enabled the production of worm wheels with higher precision, tighter tolerances, and improved surface finishes. Technologies such as computer numerical control (CNC) machining, 3D printing, and advanced grinding methods allow for the production of complex geometries and accurate tooth profiles. These advancements result in better gear meshing, reduced noise, improved efficiency, and enhanced overall performance of worm wheel systems.
Integrated Lubrication Systems: Integrated lubrication systems have been developed to optimize the lubrication process and improve the efficiency of worm wheels. These systems use precise oil delivery mechanisms, such as micro-pumps or spray nozzles, to deliver lubricant directly to the meshing surfaces. The controlled and targeted lubrication ensures proper lubricant film formation, reduces frictional losses, and minimizes wear. Integrated lubrication systems also help to maintain consistent lubricant quality and reduce the need for manual lubrication maintenance.
Smart Monitoring and Predictive Maintenance: Advancements in sensor technology, data analytics, and connectivity have facilitated the implementation of smart monitoring and predictive maintenance strategies for worm wheel systems. Sensors embedded in the gear assembly can collect real-time data on parameters such as temperature, vibration, or load. This data is then analyzed using machine learning algorithms to detect anomalies, predict potential failures, and optimize maintenance schedules. Smart monitoring and predictive maintenance help to maximize uptime, reduce downtime, and improve the overall reliability and efficiency of worm wheel systems.

These recent innovations and advancements in worm wheel technology have resulted in improved performance, efficiency, durability, and reliability of worm wheel systems. Continued research and development in this field are expected to drive further advancements and expand the capabilities of worm wheel technology in various applications.

Can you provide insights into the importance of proper installation and alignment of worm wheels?

Proper installation and alignment of worm wheels are crucial for ensuring optimal performance, longevity, and efficiency of the gearing system. Here’s a detailed explanation of their importance:

Load Distribution: Proper installation and alignment help in achieving the correct meshing and contact pattern between the worm and the worm wheel. This ensures that the load is distributed evenly across the teeth, minimizing localized stress concentrations. Misalignment or incorrect installation can lead to uneven load distribution, causing premature wear, tooth breakage, and reduced gear life.
Reduced Friction and Wear: Correct alignment of the worm wheel is essential for minimizing sliding friction between the worm and the worm wheel. Improper alignment can result in increased friction, leading to higher energy losses, heat generation, and accelerated wear of the gear surfaces. Proper installation and alignment help to reduce friction and wear, improving the efficiency and longevity of the worm wheel system.
Backlash and Efficiency: Backlash refers to the clearance between the teeth of the worm and the worm wheel. Proper installation and alignment help in minimizing backlash, ensuring tight and accurate meshing between the gear teeth. Excessive backlash can lead to reduced efficiency, decreased positional accuracy, and increased vibration or noise. By achieving proper alignment, backlash can be controlled within acceptable limits, optimizing the efficiency and performance of the worm wheel system.
Stability and Noise: Correct installation and alignment contribute to the stability and smooth operation of the worm wheel system. Misalignment can introduce vibrations, noise, and undesirable oscillations during operation. Proper alignment minimizes these issues, promoting stable and quiet operation. This is particularly important in applications where noise reduction, precision, and smooth motion are critical, such as robotics, machine tools, or motion control systems.
Mechanical Integrity: Proper installation and alignment help to maintain the overall mechanical integrity of the worm wheel system. Misalignment or incorrect installation can result in excessive forces, stresses, or deflections within the components, leading to structural failures or reduced system performance. By ensuring proper alignment, the mechanical integrity of the system is preserved, ensuring reliable and safe operation.
System Performance: The overall performance of the worm wheel system is directly influenced by proper installation and alignment. Correct alignment ensures accurate transmission of motion, precise positioning, and reliable torque transfer. It helps to achieve the desired speed ratios, torque ratios, and positional accuracy required for the specific application. Proper installation and alignment contribute to the overall efficiency, reliability, and performance of the worm wheel system.

In summary, proper installation and alignment of worm wheels are vital for achieving optimal performance, longevity, and efficiency of the gearing system. They help to distribute the load evenly, reduce friction and wear, minimize backlash, promote stability and smooth operation, preserve mechanical integrity, and ensure desired system performance. Adhering to recommended installation procedures and alignment tolerances is crucial to maximize the benefits and capabilities of worm wheel systems.

China Standard CNC Gear Hobbing Worm Machining Machine Customized Gear Cutting Machine
editor by Dream 2024-04-24

China Professional Indexable Worm Hob Carbide Gear Shaper Tool CNC Cutting Milling Machine Tool Cutter

Product Description

GEAR CUTTER
HSS And Tungsten Carbide

Product Parameters

Parameters Of Gear Cutter
Customized Support:	Tungsten Carbide	Heat treatment	64 – 67HRC
Flute	Straight And Helical Flute	Material:	HSS, GES, TGS, Customize
Precision:	High Precision	Coating	TiN, TiAlN, TiCN, AlCrN and so on
Customize	OEM ODM Availabe	Certification	ISO9001(2008)

Regular Size Of Gear Cutter (Customize)
Module(mm)	Outside Diameter(mm)	Overall Diameter(mm)	Hole Diameter(mm)
0.15	25	10	8
0.30	25	15	8
0.60	25	15	8
0.80	25	25	8
0.9	32	32	13
1.0	32	32	13

Support customization. Welcome to consult.

Detailed Photos

Product Details
Not afraid of high temperature
Tungsten steel alloy serration
Sharp serrations and better milling
Smooth surface without burrs

Product Display

Support customization. Welcome to consult.
Customized content:
Number of blades, coating, length, LOGO, etc.

Company Profile

Company Profile
HangZhou Easy Joint Import&Export CO.,LTD. is a company integrating industry and trade, its factory was established in 1999,specializing in the production of carbide rotary cutting tools, our products are widely used in automotive, machining, aerospace and some other fields. We have Germany,American,Japanese axis CNC tool grinder, axis CNC thread grinding machines and testing equipment, with strong R&D and testing capabilities, we have passed ISO9001-2000 quality system certification standards.

Our factory topped the China Aviation Industry Corporation Tool centralized procurement list,our products are not only famous in domestic market, but also exported to dozens contries in the world.HangZhou Easy Joint Import&Export CO.,LTD. is a company integrating industry and trade, its factory was established in 1999, specializing in the production of carbide rotary cutting tools, our products are widely used in automotive, machining, aerospace and some other fields.
We are factory, support OEM, ODM, OBM customization.

Our Advantages

High quality, Professional R&D center, Fast dispatch, Small order accepted, Global Export Expertise

Certifications

FAQ

Q1: Are you a factory or trading company?
A1: We are a factory and trading company, owned 2 different factories with 400 workers in total.

Q2: How about the Shipping Method?
A2: DHL/UPS/TNT/Fedex and other air shipments and sea shipments are all workable. In 1 words, we could do any shipments you wanted.

Q3: How about the delivery date?
A3: In General, the delivery date will be 3-5 working days for normal buy quantity. But if bigger order, please check us further.HSS And Tungsten Carbide

Q4: How about the label and the logo?HSS And Tungsten Carbide
A4: Customize label and logo is workable.

Q5: How about the MOQ ?HSS And Tungsten Carbide
A5: Lower MOQ of 5PCS per style.HSS And Tungsten Carbide

/* 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

Standard:	Standard
Coating:	Coating
Worm:	Involute Worm
Head Number:	Multi-Head
Precision:	AA
Material:	High Speed Steel

Samples:	US$ 15/Piece 1 Piece(Min.Order) \|

Customization:	Available \|

What are the advantages of using a worm wheel in gearing systems?

Using a worm wheel in gearing systems offers several advantages, making it a popular choice for various applications. Here’s a detailed explanation of the advantages of using a worm wheel:

High Gear Reduction: Worm wheels provide significant gear reduction ratios, allowing for large speed reductions and high torque output. The helical shape of the worm gear teeth and the interaction with the worm enable gear ratios ranging from 5:1 to 100:1 or even higher. This makes worm wheels suitable for applications that require high torque and low-speed operation.
Compact Design: The perpendicular arrangement of the worm gear and the worm wheel allows for a compact design, making efficient use of space. This is especially beneficial in applications where space is limited or where a compact and lightweight design is desired.
Self-Locking: One of the unique properties of a worm wheel system is its inherent self-locking ability. Due to the sliding action and the angle of the helical teeth, the worm wheel can hold its position and prevent backdriving. This means that even when the driving force is removed, the worm wheel remains locked in place, enhancing safety and stability in applications where position holding is critical.
High Torque Capability: The sliding action and increased tooth engagement of the worm wheel design allow for a larger contact area between the worm gear and the worm wheel. This results in higher torque transmission capacity compared to other gear types, making worm wheels suitable for applications requiring high torque output.
Quiet Operation: The sliding action between the worm gear and the worm wheel results in smoother and quieter operation compared to other gear types. The helical teeth of the worm wheel help distribute the load over multiple teeth, reducing noise and vibration, and providing a smoother transmission of power.
Directional Control: Worm wheels offer excellent directional control, allowing power transmission in a single direction only. The self-locking nature of the worm wheel prevents any reverse motion from the output side to the input side. This property is advantageous in applications where precise motion control and prevention of backward movement are required.
Efficient Power Transmission: The sliding action, larger contact area, and self-locking nature of the worm wheel design contribute to efficient power transmission. The reduced friction and wear, along with the optimized tooth engagement, help minimize energy losses, improve overall system efficiency, and reduce the need for frequent maintenance.
Versatility: Worm wheels can be manufactured in various sizes, materials, and configurations to suit different application requirements. They can be customized to meet specific torque, speed, and space constraints, making them versatile for a wide range of applications across industries.

How do worm wheels contribute to the adaptability and versatility of mechanical systems in different settings?

Worm wheels play a significant role in enhancing the adaptability and versatility of mechanical systems across various settings. Here’s a detailed explanation of how worm wheels contribute to these aspects:

Variable Speed Ratios: Worm wheels allow for the transmission of motion between the worm and the wheel with variable speed ratios. By changing the number of teeth on the worm wheel or the pitch diameter of the worm, different speed ratios can be achieved. This flexibility in speed control enables mechanical systems to adapt to different operating conditions, accommodate varying load requirements, and provide the desired output speeds for specific applications.
Directional Reversibility: One of the key advantages of worm wheels is their ability to transmit motion in both clockwise and counterclockwise directions. By reversing the direction of the worm’s rotation, the motion can be transmitted in the opposite direction through the worm wheel. This feature contributes to the adaptability of mechanical systems, allowing for bidirectional operation and versatility in various applications where reversible motion is required.
Compact Design: Worm wheels offer a compact and space-efficient design due to their high gear ratio capabilities. The worm’s helical shape allows for a large reduction in speed within a relatively small package size. This compact design is advantageous in applications where space is limited or where a high gear reduction is required without occupying excessive space. The compactness of worm wheels enhances the adaptability of mechanical systems in diverse settings, including compact machinery, automotive applications, or tight spaces.
High Torque Transmission: Worm wheels are known for their ability to transmit high torque. The sliding action between the worm and the worm wheel creates a large contact area, enabling efficient torque transfer. This high torque transmission capability makes worm wheels suitable for applications requiring high torque output, such as lifting mechanisms, conveyor systems, or heavy-duty machinery. The ability to handle high torque contributes to the versatility and adaptability of mechanical systems in different settings.
Mechanical Advantage: Worm wheels provide a mechanical advantage by converting a small rotational input force into a larger rotational output force. This mechanical advantage is a result of the gear ratio between the worm and the worm wheel. It allows mechanical systems to generate higher output forces or torques than what is applied at the input. This feature is valuable in applications where increased force or torque amplification is required, enabling systems to adapt to varying load demands and perform tasks that would otherwise be challenging or impractical.
Noise Reduction: Worm wheels are known for their quiet operation due to the sliding contact between the worm and the worm wheel teeth. This sliding action reduces the impact and noise associated with gear meshing compared to other types of gears, such as spur gears or bevel gears. The noise reduction capability of worm wheels makes them suitable for applications where noise control is important, such as in precision equipment, office machinery, or noise-sensitive environments. This contributes to the adaptability of mechanical systems in different settings that require low noise levels.

Overall, worm wheels contribute significantly to the adaptability and versatility of mechanical systems in diverse settings. Their variable speed ratios, directional reversibility, compact design, high torque transmission, mechanical advantage, and noise reduction capabilities enable them to meet specific requirements and perform a wide range of tasks in different applications.

How does the design of worm wheels impact their performance in different environments?

The design of worm wheels plays a significant role in determining their performance in different environments. Here’s a detailed explanation of how the design of worm wheels impacts their performance:

Tooth Profile: The tooth profile of a worm wheel can significantly affect its performance. Different tooth profiles, such as involute, cycloidal, or modified profiles, offer varying characteristics in terms of contact area, load distribution, and efficiency. The selection of the appropriate tooth profile depends on factors such as the application requirements, load capacity, and desired efficiency. For example, in applications where high load capacity is crucial, a modified tooth profile may be preferred to enhance the gear’s strength and durability.
Material Selection: The choice of material for worm wheels is crucial for their performance in different environments. Worm wheels can be made from various materials, including steel, bronze, brass, or specialized alloys. Each material offers different properties such as strength, wear resistance, corrosion resistance, and self-lubrication. The selection of the appropriate material depends on factors such as the operating conditions, anticipated loads, and environmental factors. For example, in applications where corrosion resistance is essential, a stainless steel or corrosion-resistant alloy may be chosen to ensure long-term performance in harsh environments.
Lubrication and Sealing: Proper lubrication and sealing are vital for the performance of worm wheels, especially in challenging environments. The design of worm wheels should consider factors such as lubrication requirements, sealing mechanisms, and the ability to prevent contamination ingress. Lubrication ensures smooth operation, reduces friction, and minimizes wear between the worm gear and the worm wheel. Effective sealing prevents the entry of contaminants such as dust, dirt, or moisture, which can adversely affect the gear’s performance and lifespan. The design should incorporate appropriate lubrication and sealing provisions based on the specific environmental conditions.
Heat Dissipation: In environments where high temperatures are present, the design of worm wheels should consider heat dissipation mechanisms. Excessive heat can lead to premature wear, reduced efficiency, and potential damage to the gear system. The design may include features such as cooling fins, heat sinks, or ventilation channels to facilitate heat dissipation and maintain optimal operating temperatures. Proper heat dissipation design ensures the longevity and reliability of worm wheels in high-temperature environments.
Noise and Vibration Control: The design of worm wheels can incorporate features to control noise and vibration, which are particularly important in certain environments. Modifications to the tooth profile, manufacturing tolerances, or the addition of damping elements can help reduce noise and vibration generation. In noise-sensitive environments or applications where excessive vibration can affect precision or stability, the design should prioritize noise and vibration control measures to ensure smooth and quiet operation.
Environmental Factors: The design of worm wheels should consider specific environmental factors that can impact their performance. These factors may include temperature extremes, humidity, corrosive substances, abrasive particles, or even exposure to outdoor elements. The design may incorporate protective coatings, specialized materials, or enhanced sealing mechanisms to mitigate the effects of these environmental factors. Considering and addressing the specific environmental challenges helps ensure optimal performance and longevity of worm wheels in different environments.

By carefully considering the design aspects mentioned above, worm wheels can be tailored to perform reliably and efficiently in different environments. The design choices made for tooth profile, material selection, lubrication, heat dissipation, noise and vibration control, and addressing environmental factors are essential for optimizing the performance and durability of worm wheels in their intended applications.

China Professional Indexable Worm Hob Carbide Gear Shaper Tool CNC Cutting Milling Machine Tool Cutter
editor by CX 2024-03-25

china near me CNC Vertical Gear Grinding Machine for Cutting 0.5-4module Dia 10-300mm manufacturers

Solution Description

Germany CNC Equipment Grinding CZPT for reducing .5-4Module Dia ten-300mm

Quick CZPT TIME FOR 2-3MONTHS.

Cost-free SAMPLES GRINDING Tests Support.

Main Requirements.

Machining parameters		Speed	Be Synchronous with B axis
Exterior dia	Φ10~Φ400mm	Radial feed of grinding wheel mm
Module	One start .5~6mm	270
NO. of teeth	eight~358	Tangential shift of operate piece mm
Pressure angle	10°~35°	one hundred twenty
Max. encounter width ( spur equipment)	170mm	Vertical shift of operate piece mm
Max. CZPT x angle	±35°	a hundred ninety
Equipment parameter		Longitudinal feed of diamond dresser mm
Length from perform spindle centre to grinding wheel axis	one hundred eighty~420	135
Dimensions of grinding wheel		Transverse feed of diamond dresser mm
Φ350xΦ160(one hundred sixty)x84mm		one hundred sixty five
Speed of grinding wheel		Other people
Grinding	1100~3440rpm	Spindle taper		Morse No 3
Max. linear velocity	63m/s	Inside taper of tailstock centre		Morse No 3
Profiling	forty~200rpm,	Complete CZPT of motors		50kw
Pace of function piece		Bodyweight of function piece		60Kg

Primary parameters and configuration listing:

Machining parameter				Workpiece rotation speed (Axis C) Synchronize with axis B
Outer diameter		Φ10~Φ550mm		length amongst factors	280-480(580) mm
Module		1-8mm		X-radial feed of grinding wheel	410(480)mm
Tooth No.		eight~510		Y-tangential movement of workpiece	140mm
Strain angle		fourteen.5°~35°		Z-axial motion of	270mm
Max. tooth width		200(260)mm		V-movable feed of dressing roller		165mm
Max. CZPT x angle		±45°		W-go of upper position	300mm
Workpiece excess weight		100Kg		U-move of grinding oil nozzle	60mm
Device tool parameter				Other folks parameter
Center distance amongst grinding wheel and workpiece			160~640mm	taper of inner gap for workpiece spindle	No four
Grinding wheel dimensions	Φ350×Φ160×104mm			Inner hole taper of upper	No 4/five
Grindingwheel	Φ320mm			Overall CZPT of motor	60kw
Min. root diameter of grinding wheel	Φ240mm			Diameter of Mushroom head	Φ50/63mm
Speed of griand wheel:(axis B)grindingrpm			1100-3580mm	Overall dimensions (LxWxH)	3050x2215x2677mm
Max. linear speed	30-63m/s			Fat of primary equipment	14T
Dressing	40~200rpm

Standard configuration listing:

Product	Title	Description	Model	QTY
one	Principal device		CHINA	1 set
2	Electric powered cupboard	With air conditioner	CHINA	one established
three	Drinking water cooling maching		China	1 set
four	Cooling oil tank		China	one set
five	Cooling oil machine		China	1 established
six	Oil mist dust remover		china	1 established
seven	Hydreaulic station		CHINA	1 established
8	Dynamic stability of grinding wheel		HVS	one established
9	grinding wheel dresser	With a diamond pen	CHINA	one established
9	Diamond roller	m=According to the CZPT er grinding equipment establish	CHINA	two pairs
ten	Flange of grinding wheel		CHINA	three set
ten	Grinding wheel	According to the customer’s gear	China	three parts
11	points	Upper and lower points(alloy upper stage)	CHINA	one for each and every
12	Controlling technique		Germany	one established
thirteen	Tools			1 established
fourteen	Techniccal details	instruction handbook	CHINA	one established
15	Grinding software	Electrical power gear-C400	CHINA	1 set
sixteen	certification	Merchandise qualification certification	CHINA	one established

Listing of imported elements

Item	Axis utilized	Qty	Model	Spot of Origin	Remarks
Servomotor	X,Y,Z,V,B,C,A	7 pcs	Siemens	Germany	4 linear and three rotating axes
Servodriver	X,Y,Z,V,B,C,A	seven groups	Siemens	Germany	3 linear and 4 rotating axes
Grating ruler	X,Y,Z,V,B,C,A	7 groups	Imports	Imports	4 linear and 3 rotating axes
Guide screw	X,Y,Z,V	4 groups	NSK	Japan	four linear axes
Xihu (West CZPT ) Dis. rail	X,Y,Z,V,W	5 groups	NSK	Japan	5 linear axes
Bearing		Different	NSK	Japan
Controller		1 set	MORA	Germany	10 axis

Specialized description
Very first :The coordinate method illustration
X: feeding movement of grinding wheel along gear radial route Y: workpiece tangential motion
Z:workpiece vertical and reciprocating motion P: grinding oil nozzle motion
V: tangential movement of wheel dressing roller
W: vertical and reciprocating motion of upper middle Q: Telescopic movement of instrument setting sensor
A: rotation motion of CZPT x angle B:rotation movement of grinding wheel
B1 , B2:rotation movement of dressing roller B3:rotation movement of automated topping axis B4:computerized rotation motion of wheel safety cover C:rotation motion of workpiece

The recommended resources for the worm are hardened steel and bronze for the worm gear. However, based on the software, unhardened steel worms can operate adequately and much more economically on forged iron worm gears rated at 50%. In addition to metal and hardened steel, worms are offered in stainless metal, aluminum, bronze, and nylon worm gears are obtainable in steel, hardened metal, stainless steel, aluminum, nylon, and non-metallic (phenolic).
china near me CNC Vertical Gear Grinding Machine for Cutting 0.5-4module Dia ten-300mm companies

china near me Germany Mora CNC Gear Grinding Machine for Cutting 0.5-6module Dia 10-400mm manufacturers

Item Description

Germany CNC Gear Grinding CZPT for chopping .5-6Module Dia ten-400mm

Rapid CZPT TIME FOR 2-3MONTHS.

Free SAMPLES GRINDING Screening Support.

Main Requirements.

Machining parameters		Velocity	Be Synchronous with B axis
Exterior dia	Φ10~Φ400mm	Radial feed of grinding wheel mm
Module	Single start .5~6mm	270
NO. of tooth	8~358	Tangential change of operate piece mm
Force angle	10°~35°	120
Max. experience width ( spur gear)	170mm	Vertical change of function piece mm
Max. CZPT x angle	±35°	190
Device parameter		Longitudinal feed of diamond dresser mm
Length from work spindle middle to grinding wheel axis	one hundred eighty~420	135
Dimension of grinding wheel		Transverse feed of diamond dresser mm
Φ350xΦ160(a hundred and sixty)x84mm		165
Speed of grinding wheel		Others
Grinding	1100~3440rpm	Spindle taper		Morse No 3
Max. linear velocity	63m/s	Interior taper of tailstock center		Morse No 3
Profiling	forty~200rpm,	Total CZPT of motors		50kw
Speed of perform piece		Excess weight of work piece		60Kg

Major parameters and configuration listing:

Machining parameter				Workpiece rotation speed (Axis C) Synchronize with axis B
Outer diameter		Φ10~Φ550mm		distance among points	280-480(580) mm
Module		one-8mm		X-radial feed of grinding wheel	410(480)mm
Tooth No.		eight~510		Y-tangential movement of workpiece	140mm
Force angle		14.5°~35°		Z-axial motion of	270mm
Max. tooth width		200(260)mm		V-movable feed of dressing roller		165mm
Max. CZPT x angle		±45°		W-go of higher stage	300mm
Workpiece bodyweight		100Kg		U-transfer of grinding oil nozzle	60mm
Equipment resource parameter				Other folks parameter
Center distance among grinding wheel and workpiece			a hundred and sixty~640mm	taper of inner gap for workpiece spindle	No 4
Grinding wheel measurement	Φ350×Φ160×104mm			Interior gap taper of upper	No 4/5
Grindingwheel	Φ320mm			Overall CZPT of motor	60kw
Min. root diameter of grinding wheel	Φ240mm			Diameter of Mushroom head	Φ50/63mm
Speed of griand wheel:(axis B)grindingrpm			1100-3580mm	Overall dimensions (LxWxH)	3050x2215x2677mm
Max. linear speed	30-63m/s			Bodyweight of principal machine	14T
Dressing	40~200rpm

Normal configuration record:

Merchandise	Identify	Description	Manufacturer	QTY
1	Principal device		CHINA	1 set
2	Electrical cabinet	With air conditioner	CHINA	one established
3	Water cooling maching		China	1 set
four	Cooling oil tank		China	1 set
five	Cooling oil equipment		China	one established
six	Oil mist dust remover		china	one established
7	Hydreaulic station		CHINA	one established
8	Dynamic equilibrium of grinding wheel		HVS	1 established
nine	grinding wheel dresser	With a diamond pen	CHINA	one established
nine	Diamond roller	m=According to the CZPT er grinding gear establish	CHINA	2 pairs
ten	Flange of grinding wheel		CHINA	three set
ten	Grinding wheel	According to the customer’s gear	China	three parts
11	factors	Upper and reduced factors(alloy upper stage)	CHINA	one for every
twelve	Managing technique		Germany	one established
thirteen	Resources			1 set
fourteen	Techniccal info	instruction handbook	CHINA	1 set
fifteen	Grinding software program	Electricity gear-C400	CHINA	1 set
sixteen	certification	Product qualification certificate	CHINA	1 set

List of imported components

Item	Axis employed	Qty	Model	Place of Origin	Remarks
Servomotor	X,Y,Z,V,B,C,A	seven pcs	Siemens	Germany	4 linear and three rotating axes
Servodriver	X,Y,Z,V,B,C,A	seven teams	Siemens	Germany	3 linear and 4 rotating axes
Grating ruler	X,Y,Z,V,B,C,A	7 groups	Imports	Imports	4 linear and 3 rotating axes
Guide screw	X,Y,Z,V	four groups	NSK	Japan	4 linear axes
Xihu (West CZPT ) Dis. rail	X,Y,Z,V,W	5 groups	NSK	Japan	five linear axes
Bearing		Different	NSK	Japan
Controller		1 established	MORA	Germany	ten axis

Technological description
Very first :The coordinate program illustration
X: feeding motion of grinding wheel alongside equipment radial direction Y: workpiece tangential motion
Z:workpiece vertical and reciprocating movement P: grinding oil nozzle movement
V: tangential movement of wheel dressing roller
W: vertical and reciprocating movement of higher middle Q: Telescopic motion of device setting sensor
A: rotation motion of CZPT x angle B:rotation motion of grinding wheel
B1 , B2:rotation movement of dressing roller B3:rotation motion of automatic topping axis B4:computerized rotation motion of wheel security go over C:rotation motion of workpiece

Ep’s item range only includes bronze worm gears. The purpose is straightforward, bronze guarantees the greatest sliding and dry working qualities compared to other materials. The aluminium content material also ensures large chemical resistance. Worm gears are best for continuous procedure at large velocity and torque.
china near me Germany Mora CNC Gear Grinding Machine for Cutting 0.5-6module Dia ten-400mm companies

china Custom Small Type CNC High Speed Gear Hobbing Machine (GHS-180CNC5) manufacturers

Product Description

Little Variety CNC CZPT CZPT Gear Hobbing CZPT
GHS-180CNC5 GHS-80CCN6 GHS-125CNC6 GHS-200CNC6 GHS-320CNC6

Device Summary:
Based on the basic principle of henerating method, and with carrying out index and differential payment motions by electronic CZPT (EGB), the machine is created to cut cylindrical spur & CZPT cal gears, crowning or a bit tapered gears, worm wheels, splines, and so forth. This machine is specifically suited for the industries this sort of as motorcycle, mini-bus, auto, etc. to produce gears in mass creation.

Performance and Attribute:
GHS-80CNC6 GHS-125CNC6 GHS-200CNC6 GHS-320CNC6
one. The device is of 6 axes with 4 axes coordinated manage. CNC axes
A-axis–hob head swivel
B-axis–spindle ratation
C-axis–worktable rotation
X-axis–radial feed motion
Y-axis–tangential feed motion(hob shifting)
Z-axis–axial feed motion
4 coordinated management axes: B, C, X and Z(or B, C, Y and Z)
2. In circumstance of CZPT off or fault happened, the column will swiftly retract. The fault quantity will immediately show on the display screen.
3. With vertical layout, the column can go in radial course as feed motion.
4. With symmetric and double wall development of equipment mattress, circulating coolant can make sure secure thermal distribution of the device.
five. The spindle is driven by a huge CZPT servo motor via 2 stage super precision CZPT cal gearing, and a one tooth big difference clearance-eliminating system at the terminal. The swift-adjust hob and automatic hob holder clamping products are outfitted with. CZPT . spindle overload checking & alarm gadget is CZPT .
six. New CZPT ful pulling hob system is designed to tremendously increase rigidity of the spindle.
seven. CZPT precision CZPT cal gearing is adopted for the worktable to carry out large velocity and tremendous precision inHangZhou. The machine is geared up with clearance-eliminating and damp changing mechanism.
8. CZPT ful enter of circulating lubricant and compressed air make sure excellent cutting overall performance of the machine, tool and fixture, and so on.
9. Separated hydraulic and lubrication methods.
10. Equipped with hob, fixture and system swift change in excess of program to carry out different varieties of the workpieces quick-modify.

GHS-180CNC5
one. The machine is of 5 axes with 4 axes coordinated management. Its CNC axes:
B-axis–hob spindle rotary motion
C-axis–worktable rotary motion
X-axis–radial feed movement
Y-axis–tangential feed motion(or hob shifting motion)
Z-axis–axial feed motion
2. Four coordinated control axes: B,C,X and Z.
three. Carry out index and differential compensation motions by electronic CZPT (EGB)
four. Lower the workpiece by multi-start & higher pace hob
5. Fault diagnostics capabilities
six. Rapid retraction defense: in circumstance of CZPT off or failure transpired, synchronously and speedily retract hob to keep away from collision
seven. With operate of monitoring spindle overload and alarm, The qucik- modify hob and automated hob holder clamping devices are geared up.
eight. Compact layout, tiny ground location, guy welcoming building and simple procedure
9. With double-wall, rib-strengthened and symmetric development design and style for bed and column, it can increase rigidity of the equipment and fulfill the needs of equipment at high pace and successful chopping and make sure steady thermal distribution. Undertake massive CZPT AC spindle motor, CZPT is transferred to cutter spindle by high precision CZPT cal gearing. Adopt a one-tooth variation clearance-removing system to boost transmission accuracy and rigidity
ten. CZPT precision CZPT cal gearing for worktable to carry out high speed and super precision index
eleven. CZPT ful enter of lubricating oil and compressed air make sure very good chopping performance of the device, resource and fixture, and many others
twelve. Parameter programming
thirteen. End machining precision is up to quality 7 of the Chinese common GB/T10095.1-2008.

Specialized Parameters

Specifications	Units	GH-80CNC6	GHS-125CNC6	GHS-200CNC6	GHS-320CNC6	GHS-180CNC5
Max. workpiece dia.	mm	80	one hundred twenty five	200	320	a hundred and eighty
Max. module	mm	three	4	six	8	4
Max. axial travel	mm	350	350	350	350	285
No. of teeth		four-800	4-800	four-one thousand	four-one thousand	four-1000
Max. hob dimension(diameter*length)	mm	90*200	ninety*two hundred	a hundred and sixty*230	160*230	110*one hundred sixty
Spindle taper bore		ISO30	ISO30	7:24	seven:24	ISO40
Worktable surface diameter	mm	a hundred twenty five	145	200	305	one hundred ninety
Max. hob head swivel angle	deg	±45	±45	±45	±45	±45
Center distance between hob and worktable	mm	10-a hundred and sixty	ten-160	thirty-three hundred	30-300	twenty five-195
Distance between hob axis and worktable surface	mm	ninety-440	90-440	100-450	seventy five-425	two hundred*485
Distance between workstay center end face and worktable surface	mm	200-five hundred	two hundred-five hundred	360-810	335-785	350-740
Max. hob tangential travel	mm	one hundred eighty	one hundred eighty	200	two hundred	120
Max. spindle speed	rpm	1500	1500	1200	800	a thousand
Max. worktable speed	rpm	two hundred	two hundred	two hundred	a hundred	200
Radial rapid travel	mm/min	3000	3000	3000	3000	1500
Tangential rapid travel	mm/min	3000	3000	2000	2000	three hundred
Axial rapid travel	mm/min	5000	3000	3000	3000	1500
Linear coordinate resolution of CNC axes	mm	.001	.001	.001	.001	.001
Rotary coordinate resolution of CNC axes	deg	.001	.001	.001	.001	.001
Main motor power	kw	nine	nine	nine	nine	seven.5
Total power	Kva	35	35	38	40	25
Main machine weight	kg	10500	11000	12300	12900	8600/9000

Notes: Because diverse specifications of different equipment, some attachments are difference.

Regular Attachments:
SIEMENS 840DSL CNC method
Hob arbor assembly
Washer for hob arbor
Totally-enclosed guards
Oil mist collector
Oil chiller
Cylinder for clamping workpiece
Hand maintain device
RS232 interface
Machine information storage disc
ten.4″ colour display
Twin-hand operation system
Equipment for installation
Instruments adjustment
Chip conveyor
Manual air and oil guns
Vibration isolating pads
Car. hob arbor clamping system
Automated lubricating program
Workstay
Hydraulic technique
Cooling method
Lubricating technique
electrical cupboard with air conditioner
Spare parts for 1 year’s routine maintenance
interlock protection switch
multi-shade tower gentle for indicating machine standing
Chip cart

Optional Attachments:
Car. loading & unloading system
Auto. workpiece storage system
Deburring system
Impartial hob changing unit
Hob arbor
Workpiece fixture
Workpiece positioning system
Workpiece auxiliary assistance
Oil pan
Separated workpiece counter
Auto. door
Tool, fixture and system rapid-change more than techniques
Computer software for 4 axes coordinated management(B, C, X and Z axis)
Parameterized programming
Male-machine discussion programming
Machining wormwheel with tangential strategy
Operate of slicing cone root spline
Vehicle. tooth alignment

Industrial Parts:
Japan FANUC 31i or Germany CZPT 840DSL CNC method
Germany linear guideways
ZheJiang HIWIN ball screw
Germany spindle bearing and other crucial bearings
Germany and United states hydraulic parts
Germany sealing components
ZheJiang HABOR oil chillers for coolant and lubricant

china Custom Small Type CNC High Speed Gear Hobbing Machine (GHS-180CNC5) manufacturers

china Cheap Custom Gear Manufacturers CNC Machine Tools Cast Steel Stainless Steel Cylindrical Gear manufacturers

Product Description

My positive aspects:
1. CZPT quality components, specialist creation, higher-precision gear. CZPT ized design and processing
2. CZPT and sturdy, powerful strength, huge torque and excellent thorough mechanical properties
three. CZPT rotation performance, secure and sleek transmission, CZPT support existence, sounds reduction and shock absorption
4. CZPT on equipment processing for 20 a long time.
five. Carburizing and quenching of tooth area, powerful put on resistance, trustworthy operation and high bearing ability
6. The tooth surface area can be ground, and the precision is larger right after grinding.

Lubrication is an crucial issue to increase the effectiveness of worm equipment transmission. The worm gear motion generates a whole lot of heat, which reduces performance. The electricity delivered at a presented temperature will increase with the transmission efficiency. Correct lubrication reduces friction and heat, which increases effectiveness.
china Cheap Custom Gear Manufacturers CNC Machine Tools Cast Steel Stainless Steel Cylindrical Gear manufacturers

china manufacturer manufacturer supplier High Precision CNC Gear Hobbing Machine (CNC Gear Hobber Machine) manufacturers

Product Description

High CZPT CNC Gear Hobbing CZPT
GHKA-800 GHKC-800 GHKMA-800

Machine Summary:
Dependent on the creating approach, the model GHKA-800, GHKC-800, and GHKMA-800 CNC gear hobbing devices are able of making cylindrical Spur & CZPT cal gears, crowing or slightly tapered gears, involute conical splines, gears with massive gelical angle they also have the purpose of tooth finish rounding, as effectively as making wormwheels with automated radial feed. They are utilized in the industries, this kind of as CZPT equipment, weighty automative, tractor, mining machinery, large speed gearboxes, equipment tool & common equipment, etc.
The design GHKC-800 machine is specially utilised for slicing hardened spur & CZPT cal as properly as hardened crowing or a bit tapered gears. It can be used for slicing shaping cutter, conical splines and gears with big CZPT cal angle.

Performance and Attribute:
one. The design GHKA-800/GHKC-800/GHKMA-800 machines are of 2-axis CNC one. Their CNC axes involves: X-axis–radial feed, Z-axis–vertical feed, X and Z-axis either function independently, or work coordinately to produce tapered and crowing gears.
2. A variety of operating cycle modes, multi-square and axial working cycle are CZPT .
3. Climb, conventional, climb-standard and traditional-climb hobbing strategies are CZPT .
four. CZPT precision CZPT ing are utilised for the worktable inHangZhou system of the model GHKA-800 to have out a higher inHangZhou accuracy.
five. Our double enveloping CZPT ing, which has won the chinese patent, are utilized for the worktable inHangZhou technique of the product GHKC-800. This device is equipped with a clearance removing mechanism.
six. CZPT precision CZPT ing are utilized for the worktable inHangZhou method of the product GHKMA-800 to carry out a large inHangZhou accuracy.
seven. Principal motor is of AC frequency variable 1, and allow a stepless speed management for the spindle.
8. CZPT matic hob shifting.
nine. Separated hydraulic, lubrication and cooling methods.
10. Parameter programming.
11. Normal RS232C interface makes certain conveniently contacting software from exterior pc.
12. CZPT ball screws are utilized for CNC axes. CZPT efficiency encoders are utilized for suggestions inspecting for the movement of CNC axes to guarantee higher shifting and positioning accuracy of them.
13. Working accuracy of the product GHKA-800/GHKC-800 is up to grade 7.

Specialized Parameters

Specifications	Untis	GHKA-800 GHKC-800 GHKMA-800
Max. workpiece dia.	mm	800
Max. workpiece module	mm	10
Max. axial travel	mm	four hundred
Min. No. of teath on workpiece		eight
Max. hob dimensions(diameter*size)	mm	two hundred*200
Hob spindle taper bore		Morse 5#
Max. hobhead swivel angle	deg	±60
Worktable dia.	mm	690
Worktable bore dia.	mm	one hundred thirty
Center distance between hob and worktable	mm	fifty-520
Distance between hob axis and worktable surface	mm	280-680
Distance between tailstock end face and worktable surface	mm	520-800
Max. hob shifting travel	mm	90
Hob spindle speed(Stepless)	rpm	70-three hundred
Max. worktable rotary speed	rpm	eight/8/six
Rapid radial travel	mm/min	600
Rapid axial travel	mm/min	600
Coordinate resolution of X and Z-axis	mm	.001
Main motor power	kw	11
Total power	Kva	32
N.W	kg	8500
No. of cases		2 cases in total

Normal Attachments:
Φ32 and Φ40 hob arbor assemblines
Φ40 and Φ50 hob arbor assemblies
Magnetic chip conveyor
Chip cart
8.4″ shade Liquid crystal display display
Workstay
Fully enclosed guards
Basic safety change
Hydraulic, lubrication and cooling systems
Special tools for set up and adjustment
Modify gears
FANUC 0i CNC program
Electrical cabinet with air conditioner
CD with device info, parameters and programs
Regular RS232C interface
3-color lamp for indicating the status of the machine
Operating lamp

Optional Attachments:
SIEMENS 802D CNC method
Φ27,Φ32, Φ50 and Φ60 hob arbor assemblies
Mechanical cutter alignment system
Oil mist
Vibration isolating pads
Workpiece fixtures

Business Parts:
CNC program: FANUC 0i or CZPT 802D
Imported frequency transformer
Major hydraulic components: KOMPASS
Spindle bearings: Japan NSK,etc.
Xihu (West CZPT ) Dis. ball screw

The advised materials for the worm are hardened steel and bronze for the worm equipment. Nevertheless, dependent on the software, unhardened steel worms can run sufficiently and more economically on solid iron worm gears rated at 50%. In addition to metal and hardened metal, worms are accessible in stainless metal, aluminum, bronze, and nylon worm gears are obtainable in metal, hardened steel, stainless steel, aluminum, nylon, and non-metallic (phenolic).
china manufacturer manufacturer supplier High Precision CNC Gear Hobbing Machine (CNC Gear Hobber Machine) manufacturers

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