Medical instrument flushing device

By introducing three sets of amplitude-graded transmission components and a precision spray design into the rinsing device, the problem of insufficient adaptability of existing devices when cleaning different medical instruments is solved, enabling effective cleaning of precision and large instruments without damage and improving the cleaning effect.

CN224372236UActive Publication Date: 2026-06-19FUNING COUNTY PEOPLES HOSPITAL

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FUNING COUNTY PEOPLES HOSPITAL
Filing Date
2025-07-03
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing rinsing devices cannot be adjusted according to the structural characteristics of different types of medical devices and cleaning needs. This results in the problem that precision instruments are damaged due to excessive vibration, while large instruments are not thoroughly cleaned due to insufficient vibration.

Method used

A medical device rinsing device was designed, employing three sets of amplitude-graded transmission components. The placement box driven by a vibration motor generates differentiated vibration amplitudes, including steel micro-amplitude, aluminum medium-amplitude, and titanium large-amplitude transmission components. Combined with the precise spray design of foam pads and shower heads, it achieves adaptive cleaning for different instruments.

Benefits of technology

It enables adaptive cleaning of different types of medical devices, avoiding device damage and cleaning blind spots, and improving the stability and reliability of the cleaning effect.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the technical field of medical device rinsing equipment, specifically, to a medical device rinsing device. It includes a rinsing cabinet with several spray nozzles for spraying ozone water at the upper part of the cabinet, a vibration motor on the outer wall, and three mounting boxes corresponding to the spray nozzles. The output end of the vibration motor is connected to a flange, on which three sets of differentiated amplitude transmission components are distributed at 120° intervals. These components consist of a steel telescopic rod with a built-in rigid spring forming a micro-amplitude transmission component, an aluminum telescopic rod with a built-in medium-stiffness spring forming a medium-amplitude transmission component, and a titanium telescopic rod with a built-in flexible spring forming a large-amplitude transmission component. Each component achieves a gradient distribution of vibration energy through a combination of different materials and spring characteristics. This utility model, through a graded vibration transmission system and optimized fluid coverage design, solves the problems of insufficient cleaning of precision instruments and overload of heavy instruments caused by single vibration parameters in traditional devices.
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