CN214767519U - Cleaning and drying pipeline system of endoscope decontamination machine - Google Patents

Abstract

The utility model relates to a clean pipeline field of scope discloses a dry pipe-line system of washing of scope decontamination machine, including the feed liquor pipe, the fluid-discharge tube, the water pipe, disinfectant pipe, cleaner pipe and drying tube, feed liquor pipe intercommunication has the feed liquor house steward, installs three-way valve I on the feed liquor pipe, three-way valve II and three-way valve III, and the drying tube passes through three-way valve I and feed liquor pipe intercommunication, and the water pipe passes through three-way valve II and feed liquor pipe intercommunication, and the cleaner pipe passes through three-way valve III and feed liquor pipe intercommunication, installs the check valve that is used for leading the cleaner to the feed liquor pipe on the cleaner pipe. The utility model discloses in, utilize three-way valve I, three-way valve II and the III switching-over that realize the flow path of three-way valve on the feed liquor pipe to realize the switching of drying tube, water pipe, disinfectant pipe and feed liquor house steward intercommunication, and then realize prewashing, washing, disinfection, rinsing and the drying to the scope, avoid the transportation work after scope cleaning and disinfecting, reduce work load, improve work efficiency.

Description

Cleaning and drying pipeline system of endoscope decontamination machine

Technical Field

The utility model relates to a clean pipeline field of scope, concretely relates to washing and drying pipeline system of machine that disappears is washed to scope.

Background

Endoscopes are optical instruments that can enter the body through natural or invasive cavities of the body for diagnosis and treatment, such as gastroscopes, enteroscopes, laparoscopes, etc. After the endoscope is used, operations such as cleaning, disinfection and the like are needed, so that the endoscope is convenient to reuse, and cross infection is avoided. Therefore, endoscope decontamination machines appear in the market and are specially used for cleaning and disinfecting endoscopes.

However, the endoscope decontamination machine on the market at present usually has cleaning, disinfection function, but the drying process of endoscope need take out the endoscope from the endoscope decontamination machine in the back transfer to drying equipment and go on, and the operation is comparatively troublesome, and work efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The utility model provides a washing drying pipe-line system of scope decontamination machine to solve and need wash the problem that the machine transported to drying equipment carries out the drying with the scope from the scope among the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme: dry pipe-line system of washing of scope machine that disappears, including the feed liquor pipe, the fluid-discharge tube, the water pipe with feed liquor pipe intercommunication, disinfectant pipe and cleaner pipe, still include the drying tube with feed liquor pipe intercommunication, feed liquor pipe intercommunication has the feed liquor house steward, install three-way valve I on the feed liquor pipe, three-way valve II and three-way valve III, the drying tube passes through three-way valve I and feed liquor pipe intercommunication, the water pipe passes through three-way valve II and feed liquor pipe intercommunication, the cleaner pipe passes through three-way valve III and feed liquor pipe intercommunication, install fan and air cleaner on the drying tube, install power pump one on the water pipe, install power pump two on the cleaner pipe, install power pump three on the cleaner pipe and be used for the check valve with cleaner direction feed liquor pipe.

The principle and the advantages of the scheme are as follows: in this scheme, utilize three-way valve I on the feed liquor pipe, the switching-over of flow path is realized to three-way valve II and three-way valve III, thereby realize the drying tube through feed liquor pipe and feed liquor house steward intercommunication, the water pipe is through feed liquor pipe and feed liquor house steward intercommunication, disinfectant pipe is through feed liquor pipe and feed liquor house steward intercommunication, the switching of cleaner pipe through feed liquor pipe and feed liquor house steward intercommunication, and then the realization is to the prewashing of scope, wash, disinfection and drying, avoid washing the scope from the scope and decontaminating the built-in back of taking out and transport to drying equipment in and carry out the drying, avoid the transportation work after the scope washs the disinfection promptly, reduce staff's work load, and the work efficiency is improved.

In addition, in the scheme, the three-way valve I, the three-way valve II and the three-way valve III are used for reversing the flow path, the reversing of the flow path is avoided by using a plurality of valves, the number of the valves is reduced, and the valve installation space is saved.

Preferably, as an improvement, one end of the liquid inlet main pipe, which is far away from the liquid inlet pipe, is communicated with a liquid inlet branch pipe I and a liquid inlet branch pipe II.

In this scheme, the one end that feed liquor pipe was kept away from to feed liquor house steward has linked together feed liquor branch pipe I and feed liquor branch pipe II, then, feed liquor house steward keeps away from the one end of feed liquor pipe and the inlet intercommunication on the tray (be used for the splendid attire scope), feed liquor branch pipe I and feed liquor branch pipe II respectively with two connectors on the tray (two connectors respectively with the biopsy pipeline interface of scope and water injection gas injection pipeline interface connection) intercommunication to realize the washing of the inside and outside surface of scope, disinfection and drying.

Preferably, as an improvement, a circulating pump and a three-way valve IV are installed on the liquid discharge pipe, the liquid inlet pipe is communicated with a circulating pipe, and the circulating pipe is communicated with the liquid discharge pipe through the three-way valve IV.

In the scheme, the reversing of the flow path is realized by utilizing the three-way valve IV, so that liquid discharged from the cleaning cabin (the cleaning cabin is arranged in the endoscope decontamination machine, and the tray is positioned in the cleaning cabin) through the liquid discharge pipe can flow back into the liquid inlet pipe through the circulating pipe, and flow back into the cleaning cabin along the liquid inlet pipe and the liquid inlet header pipe, and the circular cleaning, the disinfection and the drying are realized.

Preferably, as an improvement, the liquid discharge pipe is communicated with a disinfectant recovery pipe, a three-way valve V is mounted on the liquid discharge pipe, and the disinfectant recovery pipe is communicated with the liquid discharge pipe through the three-way valve V.

In this scheme, utilize three-way valve V to realize the switching-over of flow path for disinfectant through drain pipe discharge cleaning chamber can be retrieved and used repeatedly (to repeatedly usable disinfectant), practices thrift the cost through disinfectant recovery tube.

Preferably, as a modification, a pipe heater is mounted on the circulation pipe.

In this scheme, the pipe heater on the circulating pipe can the heating liquid to the scope is washd under the realization certain temperature, and then improves the cleaning performance.

Preferably, as an improvement, the drying pipe is communicated with a drying branch pipe, and the drying branch pipe is communicated with the drying pipe through a three-way valve I.

In this scheme, utilize three-way valve I to realize the switching-over of flow path for the air can flow to dry branch pipe through the drying duct, and the one end that the drying duct was kept away from to dry branch pipe communicates with the washing cabin, thereby realizes the drying to the tray surface.

Preferably, as an improvement, a flow meter is installed on the cleaning agent pipe, and the flow meter is located between the third power pump and the one-way valve.

In this scheme, through the volume of the intraductal cleaner that flows through of flowmeter feedback cleaner to the control is to the volume of the cleaner that adds in the washing cabin, and then realizes the accurate control of cleaner addition amount.

Preferably, as an improvement, install the manometer on the feed liquor pipe, the manometer is located between three-way valve III and the pipe heater.

In the scheme, the pressure of gas and liquid in the pipeline is fed back through the pressure gauge, so that damage to the endoscope caused by high pressure and influence on the cleaning effect caused by low pressure are avoided; and when the smoothness of the endoscope cavity is tested before the endoscope is cleaned, the test result is directly fed back to test whether the cavity of the endoscope is smooth or not.

Drawings

Fig. 1 is a schematic pipeline diagram of a cleaning and drying pipeline system of an endoscope decontamination machine according to an embodiment of the present invention;

FIG. 2 is an enlarged view of A in FIG. 1;

fig. 3 is a schematic view of a pipeline of a cleaning and drying pipeline system of an endoscope decontamination machine in an embodiment of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the liquid level detection device comprises a liquid inlet pipe 1, a liquid discharge pipe 2, a water pipe 3, a disinfectant pipe 4, a cleaning agent pipe 5, a drying pipe 6, a liquid inlet main pipe 7, a liquid inlet branch pipe I701, a liquid inlet branch pipe II 702, a three-way valve I8, a three-way valve II 9, a three-way valve III 10, a fan 11, an air filter 12, a power pump I13, a power pump II 14, a power pump III 15, a flow meter 16, a one-way valve 17, a circulating pump 18, a three-way valve IV 19, a three-way valve V20, a circulating pipe 21, a pipe heater 22, a disinfectant recovery pipe 23, a pressure gauge 24, a tray 25, a connector I251, a connector II 252, a cleaning cabin 26, a liquid level detection pipe 27, a liquid level gauge I28, a liquid level gauge II 29 and a drying branch pipe 30.

Example one

This embodiment is substantially as shown in fig. 1: dry pipe-line system of washing of scope machine that disappears, including feed liquor pipe 1, fluid-discharge tube 2, water pipe 3, disinfectant pipe 4, cleaner pipe 5, drying tube 6 and liquid level detection pipe 27, the left end intercommunication of feed liquor pipe 1 has feed liquor house steward 7, combine and show in fig. 2, the left end intercommunication of feed liquor house steward 7 has feed liquor branch pipe I701 and feed liquor branch pipe II 702, therefore, on the left end of feed liquor house steward 7 and the tray 25 (tray 25 is used for holding the scope, tray 25 after holding the scope is placed in washing cabin 26, and washing cabin 26 locates the inside of scope machine that disappears) the inlet intercommunication, feed liquor branch pipe I701 and feed liquor branch pipe II 702 communicate with connector I251 on tray 25 respectively, connector II 252 (connector I251, connector II 252 can respectively with the biopsy pipeline interface of scope and water injection gas pipeline interface connection).

The drying pipe 6 is communicated with the liquid inlet pipe 1 through the three-way valve I8, the water pipe 3 is communicated with the liquid inlet pipe 1 through the three-way valve II 9, and the disinfectant pipe 4 is communicated with the liquid inlet pipe 1 through the three-way valve III 10; the drying pipe 6 is provided with a fan 11 and an air filter 12, the water pipe 3 is provided with a power pump I13, the disinfectant pipe 4 is provided with a power pump II 14, the cleaning agent pipe 5 is provided with a power pump III 15, a flow meter 16 and a one-way valve 17 for guiding the cleaning agent to the liquid inlet pipe 1, and the flow meter 16 is positioned between the power pump III 15 and the one-way valve 17.

The drain pipe 2 is communicated with the bottom of the cleaning cabin 26, the interior of the tray 25 is communicated with the cleaning cabin 26 through a drain passage, and the circulating pump 18, the three-way valve IV 19 and the three-way valve V20 are installed on the drain pipe 2. The liquid inlet pipe 1 is communicated with a circulating pipe 21, specifically, the bottom end of the liquid inlet pipe 1 is communicated with the circulating pipe 21, the circulating pipe 21 is communicated with the liquid discharge pipe 2 through a three-way valve IV 19, and a pipeline heater 22 is arranged on the circulating pipe 21; the liquid discharge pipe 2 is communicated with a disinfectant recovery pipe 23, and the disinfectant recovery pipe 23 is communicated with the liquid discharge pipe 2 through a three-way valve V20. And a pressure gauge 24 is arranged on the liquid inlet pipe 1, and the pressure gauge 24 is positioned between the three-way valve III 10 and the pipeline heater 22.

The top of liquid level detection pipe 27 and the top intercommunication of wasing cabin 26, liquid level detection pipe 27's bottom and the bottom intercommunication of wasing cabin 26, level gauge I28 is installed on liquid level detection pipe 27's top, and level gauge II 29 is installed to liquid level detection pipe 27's bottom, and level gauge I28 flushes mutually with the top of wasing cabin 26, and level gauge II 29 flushes mutually with the bottom of wasing cabin 26.

In this embodiment, the three-way valve i 8 is an L-shaped three-way ball valve in the prior art, the three-way valve ii 9, the three-way valve iii 10, the three-way valve iv 19, and the three-way valve v 20 are T-shaped three-way ball valves in the prior art, and the cleaning agent and the disinfectant are all liquids.

The specific implementation process is as follows: firstly, the staff has put into tray 25 the scope of treating clean to make the biopsy pipeline interface of scope and the I251 intercommunication of the connector on tray 25, the water injection gas injection pipeline interface of scope and the II 252 intercommunication of the connector on tray 25, then, put into the washing cabin 26 in the scope decontamination machine with tray 25 behind the staff lid tray 25.

Then, the endoscope in the tray 25 is pre-washed, specifically as follows: adjusting the three-way valve I8 to disconnect the liquid inlet pipe 1 from the drying pipe 6; adjusting the three-way valve III 10 to disconnect the disinfectant pipe 4 from the liquid inlet pipe 1; three-way valve IV 19 is adjusted so that drain pipe 2 is in communication with circulation pipe 21 and drain pipe 2 is disconnected, where "drain pipe 2 is disconnected" means: the three-way valve IV 19 is disconnected from the liquid discharge pipe 2 below the three-way valve IV 19 by the left liquid discharge pipe 2; adjusting the three-way valve V20 to disconnect the disinfectant recovery pipe 23 from the liquid discharge pipe 2; and adjusting the three-way valve II 9 to communicate the water pipe 3 with the liquid inlet pipe 1.

Then, a power pump 13 starts, and pure water flows into feed liquor pipe 1 through water pipe 3 in, and in pure water inflow feed liquor house steward 7 afterwards, because the inlet intercommunication on feed liquor house steward 7 and the tray 25, and I701 of feed liquor branch pipe and II 702 of feed liquor branch pipe communicate with I251 of connector on the tray 25, II 252 of connector respectively, consequently, the pure water gets into the tray 25 inside and in the chamber way of scope to the surface and the internal surface of scope carry out the prewashing. Meanwhile, the pure water entered into the tray 25 flows into the cleaning compartment 26 through the passage and then flows into the drain pipe 2. Since the liquid discharge pipe 2 is connected to the circulation pipe 21 at this time, pure water flows back into the liquid inlet pipe 1 through the circulation pipe 21 and flows back into the liquid inlet header pipe 7. In the process, the water level in the cleaning cabin 26 gradually rises, when the liquid level meter I28 detects the water level, the power pump I13 stops working, and the circulating pump 18 is started, so that pure water circularly flows in the liquid inlet pipe 1, the liquid inlet header pipe 7, the cleaning cabin 26, the liquid discharge pipe 2 and the circulating pipe 21, and the endoscope is pre-cleaned. In addition, in the above process, the pipe heater 22 on the circulation pipe 21 can heat the pure water, so that the pure water is heated to the preset temperature, thereby realizing the prewashing of the endoscope at the preset temperature and improving the prewashing effect.

After the prewashing is finished, the three-way valve IV 19 is adjusted, so that the circulating pipe 21 is communicated with the liquid discharge pipe 2, the three-way valve IV 19 is communicated with the liquid discharge pipe 2 below the three-way valve IV 19 through the left liquid discharge pipe 2, and sewage can be discharged through the liquid discharge pipe 2. In the process, when the liquid level meter II 29 does not detect the water level any more, the sewage in the cleaning cabin 26 is completely discharged, and the liquid level meter II 29 can feed back whether the pipe is smooth in liquid discharge.

After the sewage is drained, the circulating pump 18 is closed, and the three-way valve IV 19 is adjusted, so that the three-way valve IV 19 is disconnected from the liquid discharge pipe 2 below the three-way valve IV 19 by the left liquid discharge pipe 2; the first power pump 13 is started again, pure water flows into the tray 25 and the cleaning cabin 26 through the liquid inlet pipe 1 and the liquid inlet header pipe 7, and meanwhile, the third power pump 15 is started to pump the cleaning agent into the liquid inlet pipe 1, the flow of the cleaning agent is fed back by the flowmeter 16 in the process, so that the adding amount of the cleaning agent is controlled, the cleaning agent is prevented from being added too much or too little, and the third power pump 15 is closed after the cleaning agent is added in a certain amount. Similarly, when the liquid level meter I28 detects the water level, the first power pump 13 is turned off, and the circulating pump 18 is started, so that the outer surface and the inner surface of the endoscope can be cleaned circularly. In the same way, in the circulating cleaning process, the pipe heater 22 on the circulating pipe 21 heats the cleaning liquid (the mixed liquid of pure water and the cleaning agent) to raise the temperature of the cleaning liquid to the preset temperature, so that the endoscope is cleaned at the preset temperature, and the cleaning effect is improved.

After the cleaning is finished, the three-way valve IV 19 is adjusted to enable the circulation pipe 21 to be communicated with the liquid discharge pipe 2, the three-way valve IV 19 is communicated with the liquid discharge pipe 2 below the three-way valve IV 19 through the left liquid discharge pipe 2, and the cleaning liquid after the cleaning is finished is discharged through the liquid discharge pipe 2.

After the cleaning solution is drained, the circulating pump 18 is closed, the three-way valve IV 19 is adjusted, the left liquid discharge pipe 2 of the three-way valve IV 19 is disconnected from the liquid discharge pipes 2 below the three-way valve IV 19, the outer surface and the inner surface of the endoscope are circularly rinsed by pure water, the endoscope, the tray 25 and the cleaning agent remained in the cleaning cabin 26 are completely cleaned, and the operation is the same as the operation in the prewashing stage.

After rinsing, the disinfection stage is carried out, the three-way valve IV 19 is adjusted, so that the liquid discharge pipe 2 is communicated with the circulating pipe 21, and meanwhile, the three-way valve IV 19 is disconnected from the liquid discharge pipe 2 below the three-way valve IV 19 through the left liquid discharge pipe 2; adjusting the three-way valve II 9 to disconnect the water inlet pipe 3 from the liquid inlet pipe 1; adjusting the three-way valve III 10 to enable the disinfectant pipe 4 to be communicated with the liquid inlet pipe 1, wherein the liquid inlet pipe 1 above the three-way valve III 10 is communicated with the liquid inlet pipe 1 below the three-way valve III 10; the three-way valve v 20 is adjusted so that the disinfectant recovery line 23 communicates with the discharge line 2 and the discharge line 2 above the three-way valve v 20 is disconnected from the discharge line 2 below the three-way valve v 20. And then, the second power pump 14 is started, and the disinfectant flows into the liquid inlet pipe 1, flows into the liquid inlet header pipe 7 and then flows into the tray 25, the cleaning cabin 26 and the cavity channel of the endoscope, so that the disinfection of the outer surface and the inner surface of the endoscope is realized. Then, disinfectant flows into in the fluid-discharge tube 2, because fluid-discharge tube 2 communicates with circulating pipe 21 at this moment, therefore, disinfectant flows back to in the feed liquor pipe 1 through circulating pipe 21 to by the liquid pressure in the feed liquor pipe 1 of manometer 24 real-time supervision, avoid the pressure in the feed liquor pipe 1 too high or low. When the liquid level meter I28 detects the liquid level, the second power pump 14 is switched off, the circulating pump 18 is started, and the disinfectant circularly flows, so that the circular disinfection of the outer surface and the inner surface of the endoscope is realized.

After disinfection, the circulating pump 18 is closed, the three-way valve IV 19 is adjusted, the three-way valve IV 19 is communicated with the liquid discharge pipe 2 below the three-way valve IV 19 through the left liquid discharge pipe 2, and then the disinfectant flows into the disinfectant recovery pipe 23 through the liquid discharge pipe 2, so that the disinfectant is recovered, the disinfectant can be repeatedly used, and cost is saved.

And finally rinsing after the disinfection is finished, wherein the operation is the same as that in the prewashing stage.

Finally, a drying stage is carried out, at the moment, the three-way valve III 10 is adjusted to disconnect the disinfectant pipe 4 from the liquid inlet pipe 1, and the three-way valve I8 is adjusted to communicate the drying pipe 6 with the liquid inlet pipe 1; adjusting the three-way valve II 9 to disconnect the liquid inlet pipe 1 from the water pipe 3; adjusting the three-way valve IV 19 to disconnect the liquid discharge pipe 2 from the circulating pipe 21, and enabling the three-way valve IV 19 to communicate the left liquid discharge pipe 2 with the liquid discharge pipe 2 below the three-way valve IV 19; the three-way valve v 20 is adjusted so that the disinfectant recovery line 23 is disconnected from the drain 2. Then, fan 11 starts, inhales the drying tube 6 with the air in the external world in, and at this moment, the air that is inhaled in drying tube 6 is in clean state after air cleaner 12 filters, avoids the scope to receive outside air's pollution. The air that gets into in the drying tube 6 gets into feed liquor pipe 1, and in reentrant feed liquor house steward 7, the surface and the internal surface to the scope are dried, and the air that carries steam leaves through fluid-discharge tube 2 and washs cabin 26 to the realization is to the drying of scope, and can dry the surface and the internal surface of scope, and is good to the drying effect of scope.

After the drying is completed, the fan 11 is turned off. In conclusion, in this embodiment, can carry out prewashing, washing, disinfection and drying to the surface and the internal surface of scope, avoid transporting to drying equipment and drying after taking out the scope from the endoscope washer disinfector, reduce work load, improve work efficiency to eliminated the scope and received the risk of pollution because of transporting.

Example two

The difference between the present embodiment and the first embodiment is: in the embodiment, as shown in fig. 3, the drying pipe 6 is communicated with a branch drying pipe 30, the branch drying pipe 30 is communicated with the drying pipe 6 through a three-way valve i 8, and one end of the branch drying pipe 30 away from the drying pipe 6 is communicated with the top of the cleaning chamber 26.

In this embodiment, after the drying of the outer surface and the inner surface of the endoscope is completed, the three-way valve i 8 is adjusted to connect the drying pipe 6 with the drying branch pipe 30, and at this time, the drying branch pipe 30 is disconnected from the liquid inlet pipe 1, so that the air enters the drying branch pipe 30 through the drying pipe 6 and enters the cleaning cabin 26 to dry the outer surface of the tray 25.

The above description is only an example of the present invention, and the detailed technical solutions and/or characteristics known in the solutions are not described too much here. It should be noted that, for those skilled in the art, without departing from the technical solution of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. The dry pipeline system that washs of machine that disappears of scope includes feed liquor pipe, fluid-discharge tube, with water pipe, disinfectant pipe and the cleaner pipe of feed liquor pipe intercommunication, its characterized in that: still include the drying tube with feed liquor pipe intercommunication, feed liquor pipe intercommunication has the feed liquor house steward, install three-way valve I on the feed liquor pipe, three-way valve II and three-way valve III, the drying tube passes through three-way valve I and feed liquor pipe intercommunication, the water pipe passes through three-way valve II and feed liquor pipe intercommunication, disinfectant pipe passes through three-way valve III and feed liquor pipe intercommunication, install fan and air cleaner on the drying tube, install power pump one on the water pipe, install power pump two on the disinfectant pipe, install power pump three on the detergent pipe and be used for the check valve with detergent direction feed liquor pipe.

2. The cleaning and drying pipeline system of the endoscope decontamination machine according to claim 1, wherein: one end of the liquid inlet main pipe, which is far away from the liquid inlet pipe, is communicated with a liquid inlet branch pipe I and a liquid inlet branch pipe II.

3. The cleaning and drying pipeline system of the endoscope decontamination machine according to claim 2, wherein: and the liquid discharge pipe is provided with a circulating pump and a three-way valve IV, the liquid inlet pipe is communicated with a circulating pipe, and the circulating pipe is communicated with the liquid discharge pipe through the three-way valve IV.

4. The cleaning and drying pipeline system of the endoscope decontamination machine according to claim 3, wherein: the liquid discharge pipe is communicated with a disinfectant recovery pipe, a three-way valve V is mounted on the liquid discharge pipe, and the disinfectant recovery pipe is communicated with the liquid discharge pipe through the three-way valve V.

5. The washing and drying pipeline system of the endoscope decontamination machine according to claim 4, wherein: and the circulating pipe is provided with a pipe heater.

6. The cleaning and drying pipeline system of the endoscope decontamination machine according to claim 5, wherein: the drying pipe is communicated with a drying branch pipe, and the drying branch pipe is communicated with the drying pipe through a three-way valve I.

7. The cleaning and drying pipeline system of the endoscope decontamination machine according to claim 6, wherein: and a flowmeter is arranged on the cleaning agent pipe and is positioned between the third power pump and the one-way valve.

8. The cleaning and drying pipeline system of the endoscope decontamination machine according to claim 7, wherein: and a pressure gauge is arranged on the liquid inlet pipe and is positioned between the three-way valve III and the pipeline heater.

9. The washing and drying pipeline system of the endoscope decontamination machine according to claim 1 or 8, wherein: still include the liquid level detection pipe with the washing cabin intercommunication of scope decontamination machine, level gauge I is installed on the top of liquid level detection pipe, and level gauge I flushes mutually with the top in washing cabin.

10. The cleaning and drying pipeline system of the endoscope decontamination machine according to claim 9, wherein: and a liquid level meter II is installed at the bottom end of the liquid level detection pipe and is level with the bottom end of the cleaning cabin.

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