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CN-122004721-A - Portable detachable multi-angle detection endoscope

CN122004721ACN 122004721 ACN122004721 ACN 122004721ACN-122004721-A

Abstract

The application relates to a portable detachable multi-angle detection endoscope, which belongs to the technical field of medical appliances and comprises an operation handle, wherein a display mechanism and a flexible tube are arranged on the operation handle, an omnidirectional detection mechanism is arranged at one end of the flexible tube, and an omnidirectional operation mechanism for controlling the omnidirectional detection mechanism is arranged on the operation handle. According to the application, the display mechanism and the flexible tube are arranged on the operating handle, the omnidirectional detection mechanism is arranged at one end of the flexible tube, and the omnidirectional operation mechanism for controlling the omnidirectional detection mechanism is arranged on the operating handle, so that the omnidirectional operation mechanism can drive the omnidirectional detection mechanism to rotate in all directions without dead angle detection, missing focus caused by a visual field blind area is avoided, the display mechanism and the operating handle are of a split structure, and after the display mechanism and the operating handle are used, other components of the display mechanism with high value can be detached and discarded, so that the medical cost is reduced, incomplete disinfection caused by a complex structure is avoided, and the risk of cross infection is reduced.

Inventors

  • HOU JUNQING
  • LI SONG
  • LIU RUOXUAN
  • MA YUJIE
  • CHEN JIAJIA
  • ZONG XU
  • LI WENBIN
  • WANG LAN

Assignees

  • 开封一五五医院

Dates

Publication Date
20260512
Application Date
20260327

Claims (9)

  1. 1. The portable detachable multi-angle detection endoscope is characterized by comprising an operation handle (1), wherein a display mechanism (2) and a flexible tube (3) are arranged on the operation handle (1), an omnidirectional detection mechanism (4) is arranged at one end of the flexible tube (3), and an omnidirectional operation mechanism (5) for controlling the omnidirectional detection mechanism (4) is arranged on the operation handle (1).
  2. 2. The portable detachable multi-angle detection endoscope according to claim 1, wherein the omnidirectional operation mechanism (5) comprises a spherical groove block (51), the spherical groove block (51) is arranged in the operation handle (1), an operation rod (52) is nested in the spherical groove block (51) in a rotating mode, a plurality of guide pipes (53) are arranged in the operation handle (1) around a circumferential array of the operation rod (52), a plurality of pull wires (54) are connected in the guide pipes (53) in a sliding mode, one ends of the plurality of pull wires (54) are connected with the operation rod (52), a plurality of guide grooves (55) are formed in an inner circumferential array of the flexible pipe (3), and the other ends of the plurality of pull wires (54) are connected with the omnidirectional detection mechanism (4) through the guide grooves (55).
  3. 3. The portable detachable multi-angle detection endoscope of claim 2, wherein the omnidirectional detection mechanism (4) comprises a connecting seat (41), the connecting seat (41) is arranged at one end of the flexible tube (3), a high-flexibility outer sleeve (42) is arranged on the connecting seat (41), a probe (43) is arranged on the high-flexibility outer sleeve (42), a plurality of snake bone rings (44) are arranged in the high-flexibility outer sleeve (42), every two of the snake bone rings (44) are arranged in a group of intersecting way, and a plurality of stay wires (54) are connected with the probe (43) through a plurality of the snake bone rings (44) in a circumferential array.
  4. 4. A portable detachable multi-angle detecting endoscope according to claim 3, characterized in that the display mechanism (2) comprises a transmission joint (21), the transmission joint (21) is arranged on the operation handle (1), a connecting component (22) is arranged on the transmission joint (21), a display component (23) is arranged on the connecting component (22), a transmission component (24) is arranged on the transmission joint (21), a camera (25) and a light source (26) are arranged on the probe (43), and the transmission component (24) passes through the operation handle (1), the flexible tube (3), the connecting seat (41) and the high-flexibility outer sleeve (42) to be connected with the camera (25) and the light source (26).
  5. 5. A portable detachable multi-angle detection endoscope according to claim 3, characterized in that an instrument channel (6) is provided on the handle (1), an instrument outlet (7) is provided on the probe (43), and the instrument channel (6) is communicated with the instrument outlet (7) through the flexible tube (3), the connection seat (41) and the high-flexibility outer sleeve (42).
  6. 6. A portable detachable multi-angle probing endoscope according to claim 3, characterized in that said probe (43) is arranged as a semi-ellipsoid.
  7. 7. A portable detachable multi-angle detection endoscope according to claim 3, characterized in that a flexible cover (8) is provided between said lever (52) and the handle (1).
  8. 8. A portable detachable multi-angle probing endoscope according to claim 4, characterized in that a data interface is provided on said display assembly (23).
  9. 9. A portable detachable multi-angle probing endoscope according to claim 5, characterized in that the entrance of said instrument channel (6) is provided in a horn shape.

Description

Portable detachable multi-angle detection endoscope Technical Field The invention belongs to the technical field of medical appliances, and particularly relates to a portable detachable multi-angle detection endoscope. Background In the medical field, endoscopes are used as core tools for diagnosing and treating diseases of multiple departments such as the urinary system (ureteroscope, cystoscope, nephroscope), hepatobiliary surgery (choledochoscope), respiratory department (bronchoscope), gastroenterology (digestive endoscope) and gynecology (colposcope), and the performance of the endoscopes is critical to diagnosis and treatment effects. However, the existing endoscope has the obvious limitations that firstly, the angle adjustment of the probe depends on the integral rotation of the handle, the operation is complicated, the 360-degree dead angle-free exploration is difficult to realize, focus omission is easy to occur due to a visual field dead zone, secondly, the endoscope body and the operating handle are designed integrally, if repeated disinfection is adopted, the complex structure is easy to cause incomplete disinfection, the risk of cross infection is increased, if the integral disposable use is adopted, the waste of high-price core components such as the handle and the like greatly increases the medical cost, thirdly, the equipment integration level is low, the size of a display and a host is huge, portability and multifunctional integration (such as storage and charging) are lacked, and the requirements of scenes such as bedside diagnosis and treatment, basic medical treatment, emergency treatment and the like are difficult to adapt. Therefore, the novel endoscope with flexible operation, detachable structure and portability is developed, and the novel endoscope becomes an urgent need for breaking through the bottleneck of the prior art and expanding the clinical application boundary. Disclosure of Invention The invention aims to solve the technical problems, and further provides a portable detachable multi-angle detection endoscope. The portable detachable multi-angle detection endoscope comprises an operation handle, wherein a display mechanism and a flexible tube are arranged on the operation handle, an omni-directional detection mechanism is arranged at one end of the flexible tube, and an omni-directional operation mechanism for controlling the omni-directional detection mechanism is arranged on the operation handle. Further, the omnidirectional operating mechanism comprises a spherical groove block, the spherical groove block is arranged in the operating handle, an operating rod is nested on the spherical groove block in a rotating mode, a plurality of wire conduits are arranged in the operating handle around the circumferential array of the operating rod, a pull wire is connected in a sliding mode in the wire conduits, one ends of the plurality of pull wires are connected with the operating rod, a plurality of wire grooves are arranged in the circumferential array of the flexible tube, and the other ends of the plurality of pull wires are connected with the omnidirectional detecting mechanism through the wire grooves respectively. Further, the omnidirectional detection mechanism comprises a connecting seat, wherein the connecting seat is arranged at one end of the flexible pipe, a high-flexibility outer sleeve is arranged on the connecting seat, a probe is arranged on the high-flexibility outer sleeve, a plurality of snake bone rings are arranged in the high-flexibility outer sleeve, every two snake bone rings are arranged in a group in a crossing way, and a plurality of stay wires penetrate through the snake bone rings in a circumferential array mode and are connected with the probe. Further, the display mechanism comprises a transmission joint, wherein the transmission joint is arranged on the operating handle, the connecting component is arranged on the transmission joint, the display component is arranged on the connecting component, the transmission component is arranged on the transmission joint, the camera and the light source are arranged on the probe, and the transmission component passes through the operating handle, the flexible pipe, the connecting seat and the high-flexibility outer sleeve and is connected with the camera and the light source. Further, an instrument channel is arranged on the operating handle, an instrument outlet is arranged on the probe, and the instrument channel passes through the flexible pipe, the connecting seat and the high-flexibility outer sleeve pipe to be communicated with the instrument outlet. Further, the probe is arranged in a semi-ellipsoidal shape. Further, a flexible cover is arranged between the operating rod and the operating handle. Further, a data interface is arranged on the display component. Further, the instrument channel inlet is arranged in a horn shape. The beneficial effects are that: According to the application, the display mec