China best Gear Rack Great Quality Best Price Manufacturer Stainless Steel Helical Spur POM Plastic and Pinion Steering Metric Ground Linear Flexible Industrial Gear Rack cycle gear

Product Description

Gear Rack Great quality stainless steel helical Spur POM Plastic and pinion steering metric Ground linear flexible best price manufacturer industrial Gear Rack 

Our spur and helical gear racks are welcomed by many customers for its stable high quality and competitive price.

 

The producing character of EP gear racks.

1. Gear rack length: the longest is 4000mm without joint. It can be jointed to any length.

2. Material: steel C45, stainless steel, high strength steel, copper, aluminium, nylon, plastic, POM etc;

3. Module: 0.3-8 (pitch from 0.942-25.12mm, DP 3.175-85);

4. Quality: stable and high: accumulated tolerance 0.1mm per 1000mm for normal quality;

 Accumulated tolerance 0.02mm per 1000mm for 4 sides ground.

Prices for above quality are very competitive for us.

 

The quality character of EP gear racks:

1. Stable transmission and low noise;

2. Effectively avoid normal tolerance based on high precision;

3. The surfaces can be ground to grade 7 quality, and teeth can be ground to grade 6 quality;

4. The mounting holes can be made as request;

5. The price is competitive even the quality is high.

 

Facilities

Machining center;  

CNC gear hobbing machine;

CNC gear shaper;

CNC gear grinding machine;

CNC turning machine;

CNC milling machine.

Y58200 CNC large gear rack shaper,

Y58125A gear rack shaper,

England gear rack shaper

and Russia gear rack shaper,

Gleason machine.

Material

 

More: PA6, PA66, POM, ABS etc.

Teeth type

Spur teeth gear rack;

Helical teeth gear rack;

Round gear rack;

Tube gear rack;

Curved gear rack.

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Type: Gear Rack
Certification: CE, ISO9001: 2000
Condition: New
Warranty: 1.5 Years
Processing: Hobbing
Color: White or as Request
Samples:
US$ 9999/Piece
1 Piece(Min.Order)

|
Request Sample

metric gear rack

How do metric gear racks handle different gear ratios?

Metric gear racks are not directly involved in handling different gear ratios. Gear ratios are determined by the combination of gear racks with other gears, such as spur gears, helical gears, or bevel gears. However, metric gear racks play a crucial role in the overall gear system and contribute to achieving the desired gear ratio. Here’s a detailed explanation of how metric gear racks interact with other gears to handle different gear ratios:

1. Gear Rack Basics: A gear rack is a linear toothed component with straight teeth that meshes with a gear. Unlike traditional gears that rotate, gear racks provide linear motion. They are often used in conjunction with other gears to convert rotational motion into linear motion or vice versa. Gear racks typically have teeth cut along one edge, and these teeth engage with the teeth of the mating gear to transmit power and motion.

2. Spur Gear Systems: One common configuration is to use a spur gear in combination with a gear rack to achieve a specific gear ratio. A spur gear is a cylindrical gear with straight teeth that mesh with the teeth of the gear rack. The gear ratio in this system is determined by the number of teeth on the gear and the length of the gear rack. By selecting gears with different numbers of teeth or using gear racks of varying lengths, different gear ratios can be achieved. The gear ratio is calculated as the ratio of the number of teeth on the gear to the length of the gear rack.

3. Helical Gear Systems: In helical gear systems, helical gears with angled teeth are often used in conjunction with gear racks. Helical gears offer advantages such as smoother operation and increased load-carrying capacity compared to spur gears. The gear ratio in a helical gear system is determined by the number of teeth on the gear and the pitch of the helical gear. The gear rack meshes with the helical gear at a specific angle, and as the gear rotates, it translates the rotational motion into linear motion along the gear rack.

4. Bevel Gear Systems: Bevel gear systems involve the use of bevel gears, which have conical-shaped teeth, to transmit motion between non-parallel shafts. While gear racks are not typically used directly in bevel gear systems, they can be incorporated in conjunction with other gears to achieve specific motion requirements. For example, a bevel gear system may use a combination of bevel gears and gear racks to transmit motion and adjust the gear ratio between intersecting or perpendicular shafts.

It is important to note that the gear ratio achieved in a gear system is not solely determined by the gear rack itself but by the combination of gears and their respective sizes, tooth counts, and profiles. The gear rack’s length or the number of teeth on the rack may influence the overall gear ratio, but it is the interaction between the gear rack and the mating gear that determines the specific ratio achieved.

In summary, metric gear racks are integral components in gear systems that involve the conversion of rotational motion to linear motion or vice versa. They work in conjunction with other gears, such as spur gears, helical gears, or bevel gears, to achieve the desired gear ratio. By selecting gears with different tooth counts and combining them with appropriate gear racks, engineers can design gear systems that handle different gear ratios to meet specific application requirements.

metric gear rack

Can metric gear racks be integrated into robotic and automation equipment?

Yes, metric gear racks can be readily integrated into robotic and automation equipment to enable precise motion control and efficient power transmission. Here’s a detailed explanation of how metric gear racks can be used in robotic and automation applications:

1. Precision Motion Control: Robotic and automation equipment often require precise and controlled motion. Metric gear racks, when combined with compatible mating gears, offer a reliable method for converting rotary motion into linear motion or vice versa. This enables precise positioning, linear actuation, and synchronized movement in robotic arms, linear stages, pick-and-place systems, and other automation equipment. The toothed engagement between the gear rack and the mating gear ensures accurate and repeatable motion control, contributing to the overall precision of the system.

2. Load Handling: Robotic and automation equipment may need to handle varying loads and forces. Metric gear racks are designed to handle high loads, making them suitable for applications where heavy payloads or dynamic forces are involved. The robust construction of gear racks, combined with their ability to distribute loads along the entire length of the rack, ensures efficient transmission of power and reliable load handling capabilities in robotic and automation systems.

3. Compact Design: Space efficiency is often a crucial consideration in robotic and automation equipment design. Metric gear racks offer a compact and efficient solution for linear motion transmission. By utilizing gear racks, linear motion can be achieved without the need for additional components, such as belts, pulleys, or screw mechanisms. This compact design allows for more streamlined and space-saving robotic and automation systems, making gear racks an attractive choice for applications with limited space constraints.

4. Customizability and Versatility: Metric gear racks are available in various sizes, modules, and materials, providing flexibility and customization options for robotic and automation equipment. Engineers can select gear racks with specific dimensions, tooth profiles, and load capacities to match the requirements of the application. This versatility allows for the optimization of gear rack selection based on factors such as load, speed, precision, and environmental conditions, resulting in efficient integration into robotic and automation systems.

5. Compatibility with Other Components: Metric gear racks can be easily integrated with other components commonly used in robotic and automation equipment. They can be combined with motors, encoders, sensors, and control systems to create a comprehensive motion control solution. The compatibility of gear racks with these components facilitates seamless integration and enables precise and coordinated motion control in robotic and automation applications.

6. Reliability and Durability: Robotic and automation systems often operate in demanding and continuous production environments. Metric gear racks are designed to offer high reliability and durability, ensuring long service life and minimal downtime. The use of high-quality materials, precision manufacturing processes, and proper lubrication contribute to the gear racks’ ability to withstand heavy loads, repetitive motion, and challenging operating conditions, making them well-suited for integration into robust robotic and automation equipment.

In summary, metric gear racks can be effectively integrated into robotic and automation equipment to enable precise motion control, efficient power transmission, and reliable operation. Their compatibility with other components, compact design, customizability, and durability make gear racks a suitable choice for a wide range of robotic and automation applications, including pick-and-place systems, assembly lines, CNC machines, material handling systems, and more.

metric gear rack

What advantages do metric gear racks offer for precise linear motion?

Metric gear racks offer several advantages for achieving precise linear motion. Here’s a detailed explanation of the advantages they provide:

1. High Accuracy: Metric gear racks are designed with teeth that mesh with compatible gears or pinions. This toothed engagement ensures accurate and repeatable linear motion. The teeth on the gear rack and the mating gear or pinion create a positive drive system, eliminating backlash and minimizing positioning errors. This high level of accuracy allows for precise movement and positioning in applications where precision is critical.

2. Precise Positioning: Gear racks enable precise positioning of components or objects along a linear path. By meshing with gears or pinions that convert rotary motion into linear motion, gear racks provide a reliable means of achieving controlled and accurate displacement. This precise positioning capability is essential in applications such as CNC machines, robotic arms, and automated assembly systems, where components need to be placed or moved with high accuracy.

3. Smooth and Stable Motion: Metric gear racks ensure smooth and stable linear motion. The teeth on the gear rack engage with the mating gears or pinions, providing a constant and controlled transfer of motion. This results in consistent and uniform movement without jerks or sudden changes in speed. The smooth and stable motion facilitated by gear racks is crucial for applications that require controlled and reliable movement, such as conveyor systems and linear actuators.

4. Load Capacity: Gear racks offer high load-carrying capacity, making them suitable for applications that involve moving heavy objects or exerting significant forces. The toothed engagement between the gear rack and mating gears or pinions distributes the load evenly along the length of the rack. This load distribution capability allows gear racks to handle substantial loads without compromising the accuracy of linear motion. It is particularly advantageous in industries such as material handling, robotics, and automotive manufacturing.

5. Long Life and Durability: Metric gear racks are designed to withstand continuous use and offer long service life. They are typically made from high-quality materials such as steel or other robust alloys, providing excellent durability and resistance to wear and fatigue. The tooth profile and surface finish of gear racks are engineered to minimize friction and wear during operation. This durability ensures reliable and consistent performance over extended periods, even in demanding environments.

6. Versatility and Compatibility: Metric gear racks offer versatility and compatibility with a wide range of gear systems. They can be used with various types of gears or pinions, allowing for flexibility in system design and integration. Gear racks are available in different sizes, modules, and tooth profiles, making them suitable for diverse applications and requirements. Their compatibility with different gear systems enhances their versatility and ease of implementation in machinery and equipment.

7. Cost-Effective Solution: Metric gear racks offer a cost-effective solution for achieving precise linear motion. Compared to other linear motion mechanisms, such as linear guides or ball screws, gear racks are often more affordable while providing comparable levels of accuracy. Gear racks also have a simpler design and require minimal maintenance, resulting in cost savings over the product’s lifetime. This cost-effectiveness makes gear racks an attractive choice for applications that require precise linear motion within budget constraints.

These advantages make metric gear racks highly suitable for applications that demand precise linear motion, such as CNC machines, robotics, automation systems, and material handling equipment. The combination of accuracy, positioning capability, load capacity, durability, and cost-effectiveness makes gear racks a reliable and efficient solution for achieving precise linear motion in various industries.

China best Gear Rack Great Quality Best Price Manufacturer Stainless Steel Helical Spur POM Plastic and Pinion Steering Metric Ground Linear Flexible Industrial Gear Rack cycle gearChina best Gear Rack Great Quality Best Price Manufacturer Stainless Steel Helical Spur POM Plastic and Pinion Steering Metric Ground Linear Flexible Industrial Gear Rack cycle gear
editor by CX 2024-03-26