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CN-224215776-U - Intelligent drying device of soft endoscope lumen

CN224215776UCN 224215776 UCN224215776 UCN 224215776UCN-224215776-U

Abstract

The utility model discloses an intelligent drying device for a soft endoscope lumen, which comprises a bracket, wherein a drying table surface is arranged on the bracket, a plurality of parallel drying areas are arranged on the drying table surface, an air blowing connector and a detection frame are arranged in the drying areas, the air blowing structure and the detection frame are respectively positioned at two ends of the drying areas, the air blowing connector and the detection frame are both in lifting connection with the bracket, temperature and humidity sensors are arranged on the air blowing connector and in the detection frame, a clean air source device is arranged below the drying table surface on the bracket, and the air blowing connector is connected with the clean air source device through a pipeline, so that the temperature and humidity of air inlet and air outlet of the soft endoscope can be detected by the temperature and humidity sensors, whether the inner cavity of the soft endoscope is dry or not can be judged, a hand-held high-pressure air gun is not needed during drying, the drying efficiency is improved, and the labor intensity of operators is reduced.

Inventors

  • XU JIANPING
  • WANG YUJIE
  • LUO YE

Assignees

  • 嘉兴市妇幼保健院

Dates

Publication Date
20260508
Application Date
20250609

Claims (5)

  1. 1. The intelligent drying device for the soft endoscope lumen is characterized by comprising a support, wherein a drying table surface is arranged on the support, a plurality of parallel drying areas are arranged on the drying table surface, an air blowing connector and a detection frame are arranged in the drying areas, the air blowing structure and the detection frame are respectively positioned at two ends of the drying areas, the air blowing connector and the detection frame are both connected with the support in a lifting manner, temperature and humidity sensors are arranged on the air blowing connector and in the detection frame, a clean air source device is arranged below the drying table surface on the support, and the air blowing connector is connected with the clean air source device through a pipeline.
  2. 2. The intelligent drying device for the lumen of the soft endoscope of claim 1, wherein a plurality of supporting blocks are arranged on the drying table surface, the supporting blocks are positioned between the detection frame and the blowing structure, and the supporting height of the supporting blocks is gradually reduced from the blowing structure to the detection frame.
  3. 3. The intelligent drying device for the lumen of the soft endoscope of claim 2, wherein the supporting block is provided with an elastic buckle.
  4. 4. The intelligent drying device for the lumen of the soft endoscope of claim 1, wherein the clean air source device comprises a compressor, an air storage tank and a gas filtering device, a plurality of layers of filter layers are arranged in the gas filtering device, and the air blowing connector is connected with the gas filtering device through a pipeline.
  5. 5. The intelligent drying device for the lumen of the soft endoscope of claim 1, wherein the support is connected with a lifting frame in a lifting manner, the air blowing connector is positioned in the lifting frame, and the support is provided with an air cylinder respectively connected with the lifting frame and the detection frame.

Description

Intelligent drying device of soft endoscope lumen Technical Field The utility model belongs to the technical field of drying equipment, and particularly relates to an intelligent drying device for a soft endoscope lumen. Background The soft endoscope after the examination or diagnosis and treatment of the patient is required to be strictly cleaned, disinfected and dried according to the specification, so that the risk of cross infection among patients is effectively reduced, and the lumen of the soft endoscope is required to be thoroughly dried after the cleaning and the disinfection are finished, so that the breeding of bacteria is reduced. The common drying method at present is to blow compressed air into the lumen to realize blow-drying, and the specific operation is that an operator holds the high-pressure air gun and aligns the nozzle of the high-pressure air gun with the reserved cavity opening, and the lumen can be manually blow-dried after the high-pressure air gun is started. In order to ensure the drying effect, a special detection endoscope is generally required to extend into the cavity from the cavity opening and observe the cavity with naked eyes along the cavity after a certain time of high-pressure drying operation, so as to observe whether water stains or watermarks are left on the inner wall of the cavity, namely, the final drying result is also required to be checked and judged manually by an operator, and if the final drying result is not completely dried, the high-pressure drying operation is required to be performed again and the detection is performed until the final drying operation is completed. Obviously, the drying process of the soft endoscope is complicated, the efficiency is low, and the labor intensity of operators is high. Disclosure of utility model Aiming at the defects of the prior art, the utility model provides the intelligent drying device for the soft endoscope lumen, which improves the drying efficiency and reduces the labor intensity of operators. The intelligent drying device for the soft endoscope lumen comprises a support, wherein a drying table top is arranged on the support, a plurality of parallel drying areas are arranged on the drying table top, an air blowing connector and a detection frame are arranged in the drying areas, the air blowing structure and the detection frame are respectively positioned at two ends of the drying areas, the air blowing connector and the detection frame are both connected with the support in a lifting manner, temperature and humidity sensors are respectively arranged on the air blowing connector and in the detection frame, a clean air source device is arranged under the drying table top on the support, and the air blowing connector is connected with the clean air source device through a pipeline. Further, be provided with a plurality of supporting shoes on the drying mesa, a plurality of supporting shoes are located between detection frame and the structure of blowing, and the supporting height of supporting shoe is reduced gradually by the structure of blowing to detection frame direction. Further, the supporting block is provided with an elastic buckle. Further, the clean air source device comprises a compressor, an air storage tank and a gas filtering device, wherein a plurality of layers of filter layers are arranged in the gas filtering device, and the air blowing connector is connected with the gas filtering device through a pipeline. Further, the lifting frame is connected to the support in a lifting manner, the blowing connector is located in the lifting frame, and the support is provided with air cylinders respectively connected with the lifting frame and the detection frame. Compared with the prior art, the method has the beneficial effects that when the method is used for drying, the air blowing connector and the detection frame are lifted, then the end part of the soft endoscope is connected with the air outlet connector, the other end of the soft endoscope is placed in the detection frame, after air blowing is started, the temperature and humidity of air inlet and outlet of the soft endoscope are detected by the air blowing structure and the temperature and humidity sensors in the detection frame, so that whether the inner cavity of the soft endoscope is dried or not is judged, a hand-held high-pressure air gun is not needed during drying, and the drying of the soft endoscope is more conveniently judged after the temperature and humidity sensors are arranged, so that the drying efficiency is improved, and the labor intensity of operators is reduced. Drawings Fig. 1 is a schematic structural view of an intelligent drying device for a soft endoscope lumen of the present utility model. The air-drying device comprises a bracket 1, a drying table top 2, an air blowing connector 3, a detection frame 4, a temperature and humidity sensor 5, a clean air source device 6, a supporting block 7, a buckle 8, a compressor 9, an air