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TPU Silicone Industrial Wire Harness Cable Assembly Overmoulding

Product Details

Place of Origin: China

Brand Name: BEXKOM

Certification: UL/CE/ROHS/REACH/ISO9001/ISO13485/MSDS/COC

Model Number: BK-Cab-XXX

Payment & Shipping Terms

Minimum Order Quantity: 5pcs

Price: USD1.5~9.9/pc

Packaging Details: PE bag + Carton Box

Delivery Time: 7 ~15 days

Payment Terms: L/C, T/T

Supply Ability: 100000pairs/month

Get Best Price
Product Details
Highlight:

TPU Silicone industrial wire harness

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Overmoulding industrial wire harness

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TPU Silicone cabling harnesses

Cable Jacket:
TPU/Silicon
Connector:
1P Medical Series
Overmoulding:
Yes
Application:
Medical
Cable Jacket:
TPU/Silicon
Connector:
1P Medical Series
Overmoulding:
Yes
Application:
Medical
Product Description

Creating a wire harness cable assembly for a medical device that uses TPU (Thermoplastic Polyurethane) or silicone wire with overmolding involves several key considerations to ensure reliability, biocompatibility, and durability. Here’s a detailed guide on how to design and produce such an assembly:

Key Components and Materials

  1. Wire and Cable Selection:

    • TPU (Thermoplastic Polyurethane) Wire:

      • Durability: TPU is known for its abrasion resistance, flexibility, and mechanical strength.
      • Chemical Resistance: Resistant to oils, chemicals, and other harsh substances, making it suitable for medical environments.
      • Biocompatibility: Safe for use in medical devices, particularly in applications where the cable may come into contact with skin.
    • Silicone Wire:

      • Flexibility: Extremely flexible, making it ideal for applications requiring frequent bending or movement.
      • Temperature Resistance: Can withstand a wide range of temperatures, often from -60°C to +200°C.
      • Biocompatibility: Silicone is highly biocompatible and is commonly used in medical devices that have direct contact with the human body.
  2. Overmolding:

    • Purpose: Overmolding is used to encapsulate the cable assembly, providing strain relief, protection against environmental factors, and enhanced durability.
    • Material Options:
      • TPU Overmolding: Provides a seamless bond with TPU wire, offering flexibility and robustness. It’s ideal for applications requiring high mechanical stress and chemical resistance.
      • Silicone Overmolding: Offers excellent flexibility and a soft-touch finish, making it suitable for applications involving patient comfort or where the assembly needs to be soft and pliable.
  3. Connectors:

    • Medical-Grade Connectors: Select connectors that are specifically designed for medical devices, with appropriate certifications for safety and reliability.
    • Overmolded Connectors: Integrate connectors with overmolding to ensure a seamless, waterproof connection that can withstand repeated use and sterilization.

Design Considerations

  1. Biocompatibility:

    • Ensure that all materials used (wires, overmolding compounds, and connectors) are biocompatible and compliant with medical standards such as ISO 10993.
  2. Sterilization Compatibility:

    • Materials: Both TPU and silicone are compatible with various sterilization methods, including autoclaving, gamma radiation, and ETO (ethylene oxide).
    • Design: The assembly should be designed to withstand repeated sterilization without degrading or losing functionality.
  3. Strain Relief:

    • Overmolding: The overmold should provide effective strain relief to prevent wire fatigue or breakage at the connection points, especially where the wire enters the connector.
    • Flexible Sections: Design the cable to have flexible sections where needed, with reinforced areas to handle mechanical stress.
  4. Environmental Sealing:

    • Waterproofing: Ensure the overmolding provides an IP67 or higher rating, protecting the assembly from water, fluids, and particulate ingress.
    • Chemical Resistance: The assembly should resist cleaning agents, disinfectants, and other chemicals commonly used in medical environments.
  5. Electrical Performance:

    • Shielding: If the cable assembly is for sensitive electronic equipment, consider using shielding to prevent electromagnetic interference (EMI).
    • Signal Integrity: Ensure that the wire gauge and insulation are adequate for maintaining signal integrity and power delivery as required by the medical device.

Manufacturing Process

  1. Prototyping:

    • Develop prototypes to test the assembly’s performance, flexibility, and durability. Prototyping allows for early detection of design flaws and ensures that the final product meets all requirements.
  2. Overmolding:

    • Tooling: Design and create molds that precisely fit the cable assembly and connectors.
    • Injection Molding Process: Use controlled temperature and pressure to overmold the TPU or silicone onto the assembly, ensuring a secure and durable bond.
  3. Testing:

    • Mechanical Testing: Test the assembly for tensile strength, flexibility, and durability under simulated usage conditions.
    • Electrical Testing: Ensure that the assembly maintains proper electrical continuity and insulation resistance.
  4. Quality Control:

    • Implement stringent quality control measures to ensure that every assembly meets the required medical standards and performance specifications.

Applications

  • Patient Monitoring Systems: Where flexible, biocompatible cables are required for patient connectivity.
  • Surgical Instruments: In tools that require durable, sterilizable connections.
  • Imaging Devices: For devices needing high-quality signal transmission with minimal interference.
  • Wearable Medical Devices: In applications where comfort, flexibility, and biocompatibility are paramount.

Conclusion

A wire harness cable assembly for medical devices using TPU or silicone wire with overmolding offers a robust, flexible, and biocompatible solution that can withstand the demanding requirements of medical environments. By carefully selecting materials, designing for durability, and ensuring compatibility with medical standards, you can create a reliable and effective product for various medical applications.

 

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