Product Description

Product Description

Nylon Gear Rack 
made of nylon and has steel bar inside,used for sliding gate. 
It normally works with Gate Motor.
We have 2 Eyes Light, 2 Eyes Heavy,4 Eyes Light and 6 Eyes Heavy.
Each piece of nylon gear rack has screws as pictures show below,
Our products are exported to Southeast Asia, Europe, South America, etc. Reliable quality
You are warmly welcome to send us an inquiry for detailed information.

 

Product Name Specification Modulus Material
Nylon Rack 2 Eyes Light M4 PA66
Nylon Rack 2 Eyes Heavy M4 PA66
Nylon Rack 4 Eyes Light M4 PA66
Nylon Rack 6 Eyes Heavy M4 PA66
Iron Rack 8*30*1005 M4 Q235
Iron Rack 8*30*1998 M4 Q235
Iron Rack 9*30*1005 M4 Q235
Iron Rack 10*30*1005 M4 Q235
Iron Rack 10*30*1998 M4 Q235
Iron Rack 11*30*1005 M4 Q235
Iron Rack 11*30*1998 M4 Q235
Iron Rack 12*30*1005 M4 Q235
Iron Rack 12*30*1998 M4 Q235
Iron Rack 22*22*1005 M4 Q235
Iron Rack 22*22*1998 M4 Q235
Iron Rack 30*30*998 M6 Q235
Iron Rack 30*30*1998 M6 Q235

Company Profile

Main Products

Production Process

 

Packaging & Shipping

 

FAQ

Customization: Customizable
Color: Black
Use: Sliding Gate
Standard: International Standard
Delivery: 2~7 Days for Stock, 15~45 Days for Without Stock
Feature: Oil-Resistant, Corrosion-Resistant, Heat-Resistant
Samples:
US$ 0/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

plastic gear rack

Can plastic gear racks be customized for specific machinery and equipment?

Yes, plastic gear racks can be customized to meet the specific requirements of different machinery and equipment. Customization allows gear racks to be tailored to the unique needs of a particular application, ensuring optimal performance and compatibility. Here’s a detailed explanation of how plastic gear racks can be customized for specific machinery and equipment:

  • Size and Dimensions: Plastic gear racks can be customized in terms of size and dimensions to fit specific machinery and equipment. The length, width, and thickness of the gear rack can be adjusted to match the available space and mating components. Custom sizing ensures proper integration and alignment with other gears, pulleys, or transmission components, optimizing the overall functionality of the machinery.
  • Tooth Profile and Pitch: The tooth profile and pitch of plastic gear racks can be customized to suit the requirements of the machinery. Different tooth profiles, such as straight, helical, or modified profiles, can be selected based on factors like load distribution, noise reduction, or specific motion requirements. The pitch, or the distance between teeth, can also be adjusted to achieve the desired gear ratio or to match with the mating gear or pinion.
  • Material Selection: Depending on the application and operating conditions, different plastic materials can be chosen for the custom gear rack. The selection of the plastic material will consider factors such as strength, wear resistance, temperature resistance, and chemical compatibility. By selecting the most suitable plastic material for the specific machinery and equipment, the performance and longevity of the gear rack can be optimized.
  • Mounting and Fixing Options: Plastic gear racks can be customized with specific mounting and fixing options to ensure proper installation and alignment. Mounting holes, slots, or other attachment features can be incorporated into the design, facilitating easy and secure mounting of the gear rack onto the machinery or equipment. Customized mounting options help simplify the assembly process and enhance the overall reliability of the system.
  • Additional Features: Depending on the application requirements, plastic gear racks can be customized with additional features or modifications. This may include adding keyways, grooves, or specific surface treatments to enhance performance, improve load distribution, or enable compatibility with other components. Customized features can be designed to address specific challenges or to optimize the gear rack’s functionality within the machinery or equipment.

Customization of plastic gear racks is typically carried out in collaboration with manufacturers or suppliers who specialize in gear rack production. Working closely with experts allows for the development of tailored solutions that meet the unique needs of the machinery or equipment. It is important to provide detailed specifications and requirements to ensure accurate customization and the successful integration of the gear rack into the specific application.

plastic gear rack

Can plastic gear racks be integrated into medical equipment for linear motion?

Yes, plastic gear racks can be successfully integrated into medical equipment for linear motion applications, offering several advantages in this specific context. Here’s a detailed explanation of why plastic gear racks are suitable for use in medical equipment:

  • Biocompatibility: Plastic gear racks can be manufactured using biocompatible materials that are safe for use in medical applications. These materials are specifically formulated to be compatible with the human body and do not cause adverse reactions or toxicity. Biocompatible plastic gear racks ensure the highest level of patient safety when integrated into medical equipment.
  • Low Friction and Smooth Operation: Plastic gear racks exhibit low friction characteristics, resulting in smooth and precise linear motion in medical equipment. The smooth operation is crucial in applications where accuracy and precision are required, such as in medical imaging devices, robotic surgery systems, or patient positioning equipment.
  • Noise Reduction: Plastic gear racks offer quieter operation compared to metal gear racks. The non-metallic construction of plastic gear racks helps dampen vibrations and noise transmission, contributing to a quieter working environment in medical settings where noise reduction is essential for patient comfort and the concentration of medical professionals.
  • Chemical Resistance: Plastic gear racks can be manufactured from materials that offer excellent resistance to a wide range of chemicals and disinfectants. In medical equipment where frequent cleaning and sterilization are necessary, plastic gear racks can withstand exposure to cleaning agents and disinfectants without degrading or suffering from corrosion. This chemical resistance ensures the longevity and reliability of the gear rack in medical environments.
  • Lightweight: Plastic gear racks are generally lighter in weight compared to metal gear racks. The lightweight nature of plastic gear racks simplifies the design and construction of medical equipment, reduces the load on support structures, and allows for easier handling and maneuverability. It is particularly advantageous in portable medical devices or equipment that requires frequent repositioning or transportation.
  • Design Flexibility: Plastic gear racks can be molded into various shapes and sizes, offering design flexibility for integration into different types of medical equipment. They can be customized to meet specific application requirements, including load capacity, dimensional constraints, and compatibility with other components. Plastic gear racks can be designed to fit seamlessly into the overall system, optimizing performance and functionality.

When integrating plastic gear racks into medical equipment, it’s important to select materials that meet the necessary regulatory standards and have been tested for biocompatibility. Consulting with gear rack manufacturers or suppliers who specialize in medical-grade plastics can ensure the appropriate selection of plastic gear racks that meet the specific requirements of medical equipment for linear motion.

plastic gear rack

How does the choice of plastic material affect the performance of gear racks?

The choice of plastic material significantly impacts the performance of gear racks. Different plastic materials offer distinct properties and characteristics that can affect various aspects of gear rack performance. Here’s a detailed explanation of how the choice of plastic material affects the performance of gear racks:

  • Strength and Durability: The selected plastic material determines the strength and durability of the gear rack. Plastics like nylon and polyacetal (POM) are known for their high strength and toughness, enabling gear racks to withstand heavy loads and repetitive motion without deformation or failure. The choice of a suitable plastic with adequate strength is crucial to ensure the gear rack can handle the intended application requirements and operating conditions.
  • Wear Resistance: Different plastics exhibit varying levels of wear resistance. Nylon and polyacetal gear racks have excellent wear resistance, making them suitable for applications with high contact forces and frequent sliding motion. The wear resistance of the plastic material affects the longevity and reliability of the gear rack, reducing the need for frequent replacements or maintenance.
  • Friction and Lubrication: The choice of plastic material can influence the friction characteristics of the gear rack. Certain plastics, such as nylon, have inherent low friction properties, reducing the power loss and heat generation during operation. Some plastics, like nylon and polyacetal, also exhibit self-lubricating properties, minimizing the need for external lubrication and ensuring smooth and efficient motion.
  • Chemical Resistance: Different plastics offer varying levels of chemical resistance. Some plastics, like polyethylene (PE) and polypropylene (PP), have good chemical resistance, making them suitable for environments where exposure to chemicals or solvents is common. The choice of a chemically resistant plastic ensures that the gear rack remains unaffected by corrosive substances, maintaining its structural integrity and performance over time.
  • Temperature Resistance: Plastics have different temperature resistance capabilities. High-performance plastics like polycarbonate (PC) and polyphenylene sulfide (PPS) offer excellent heat resistance, making them suitable for applications where elevated temperatures are present. Choosing a plastic material that can withstand the anticipated temperature range ensures that the gear rack maintains its dimensional stability and mechanical properties under varying thermal conditions.
  • Weight and Inertia: The choice of plastic material affects the weight and inertia of the gear rack. Plastics like nylon and polyacetal have low density, resulting in lightweight gear racks. Reduced weight minimizes the inertia and allows for faster acceleration, deceleration, and overall improved dynamic performance. Lighter gear racks also contribute to energy efficiency and ease of handling during installation or maintenance.
  • Noise and Vibration: The selection of plastic material can influence the noise and vibration levels of the gear rack during operation. Certain plastics, such as nylon, have inherent damping properties that help reduce noise and vibration. By choosing a plastic material with good vibration absorption characteristics, gear racks can operate more quietly, minimizing disturbances and improving user comfort.

It’s important to consider the specific requirements of the application and the intended operating conditions when selecting the plastic material for gear racks. Understanding the performance implications of different plastic materials allows for the optimal choice that aligns with the desired functionality, durability, and overall performance of the gear rack.

China Standard 2 Eyes Heavy Plastic Automatic Door Gear Rack gear patrolChina Standard 2 Eyes Heavy Plastic Automatic Door Gear Rack gear patrol
editor by CX 2023-10-07