Custom Medical Imaging Endoscope Wire Harness Assembly

Product performance: Meets multiple transmission performance of images and signals. The manufacturer selects high-quality insulating and environmentally friendly PVC, which has strong insulation performance, wear resistance and corrosion resistance, long service life, real materials, anti-aging, anti-UV (ultraviolet), and strong transmission effect.

Customize medical imaging endoscope wiring harness according to your drawing or sample requirements.
Customer case: TATA| XP| iRay;
Wire: Medical 22-core composite flexible communication cable;
Connector: JST original VH connector, CJT2509 series;
Shielding (EMI/EMC): 85% braided shielding;
Processing technology: riveting, welding, forming, assembly;
Product certification: UL, IPC620, REACH, ROHS2.0, ISO10993;
Product application: internal/external wiring of medical equipment;
Name: Internal wiring harness of endoscopic equipment;
Application: internal/external wiring of medical equipment;

Whether to customize: The length, specifications, colors, etc. of the wire harness can be customized according to customer requirements;
Shielding (EMI): 85% braided shielding;

Wire: 20AWG+26AWG tinned copper multi-shielded flexible transmission cable;
Rated voltage: 24V DC;

Connector: JST original VH connector, CJT2509 series;
Insulation resistance: Min100M ohm;

Processing technology: welding, forming, dispensing, riveting;
Working temperature: -20℃~+80℃;

Product certification: UL, IPC620, REACH, ROHS2.0, ISO10993;
Others: permanent traceability labels;

Product performance: Meets multiple transmission performance of images and signals. The manufacturer selects high-quality insulating and environmentally friendly PVC, which has strong insulation performance, wear resistance and corrosion resistance, long service life, real materials, anti-aging, anti-UV (ultraviolet), and strong transmission effect. The product has strong flexibility, acid and alkali resistance, oil resistance, moisture resistance, mildew resistance and other properties. Precision combination, stable connection, high temperature resistance; high-quality wire core, high temperature resistance, fire retardant VW-1, the wire body is strong and not easy to break, quality assurance.
Company honors and qualifications: National high-tech enterprise, UL certificate, IPC620C, ISO9001, ISO14000, ISO13485, IATF16949, etc.

The invention discloses an endoscope wire harness pre-processing device. The main points of its technical solution include mobile assembly, laser assembly, ultraviolet cutting assembly and processing system. A wire harness clamp for holding the medical wire harness is provided on the mobile assembly. The laser assembly is used to laser mark the medical wiring harness on the fixture. The UV cutting assembly is used to cut and strip the laser-marked positions of medical wire harnesses. The processing system is used to control the cooperation between the moving assembly, the laser assembly and the ultraviolet cutting assembly. In this way, the position of the medical wire harness can be accurately laser marked and the stripping and cutting process can be accurately performed according to the laser mark position. Achieve fast and accurate pre-processing of medical endoscope wire harnesses.

The utility model relates to an endoscope imaging device with a wire harness collection mechanism, which includes an operating part and an endoscope tube. A detachable storage tray is provided at one end of the operating part close to the endoscopic tube. The circumferential surface of the storage disk is used for winding the endoscopic tube, and the surface of the storage disk is provided with a ring for guiding the winding of the endoscopic tube. The surface of the storage tray is also provided with a buckle for catching the root of the endoscopic tube. The utility model cooperates with each other by providing a storage tray, an opening and closing ring, and an inclined L-shaped rod, so that the sterilized endoscopic tubes can be collected and plated to prevent them from swinging at will and touching unsterilized areas. And the layout makes the bending radius of the endoscope tube larger when coiled, preventing the optical fiber inside the endoscope tube from breaking. By setting up a removable storage tray, the storage tray can be easily disinfected. During use, the endoscopic tube is gradually released as needed, effectively preventing the longer endoscopic tube from contacting the outside and causing contamination.

 

Internal wiring harness for endoscopic equipment

Internal wiring harness for endoscopic equipment

Medical Imaging Endoscope Wire Harness

Medical Imaging Endoscope Wire Harness

Application of wire harness in endoscopic equipment

Application of wire harness in endoscopic equipment

Summary:
The invention discloses an OCT endoscope imaging device, which includes an endoscope with an OCT imaging system. The OCT imaging system includes a light source I, a mixer, a detector, a reference arm and a sample arm. The input end of the mixer is connected to the output end of the light source I through an optical fiber or a spatial optical path. Its output end is connected to the reference arm and sample arm respectively through optical fiber or spatial optical path. The input end of the detector is connected to the output end of the mixer through an optical fiber or a spatial optical path, and its output end and the other output end of the light source I are respectively connected to the input end of the calculation control unit. The output of the calculation control unit is connected to the input of the sample arm. With the help of the endoscope device of the present invention, non-destructive detection of living tissues in the human body can be performed, with micron-level high resolution and real-time imaging, helping doctors to diagnose pathology in a timely manner. It can also be used in the field of industrial endoscopy.

Sovereignty items:
1. An OCT endoscopic imaging device is characterized by including an endoscope with an OCT imaging system, and the OCT imaging system includes a light source I, a mixer, a detector, a reference arm and a sample arm. The input end of the mixer is connected to the output end of the light source I through an optical fiber or a spatial optical path. Its output end is connected to the reference arm and sample arm respectively through optical fiber or spatial optical path. The input end of the detector is connected to the output end of the mixer through an optical fiber or a spatial optical path, and its output end and the other output end of the light source I are respectively connected to the input end of the calculation control unit. The output of the calculation control unit is connected to the input of the sample arm.

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