CN211484987U - Double-door endoscope cleaning workstation - Google Patents

Abstract

The utility model discloses a two-door scope cleaning workstation belongs to scope disinfection technical field. The device comprises a shell, and a leakage detection inflator pump module, an internal circulation peristaltic pump, an endoscope cavity perfusion peristaltic pump, a disinfectant peristaltic pump, a cleaning tank, a disinfectant barrel and a faucet which are respectively arranged in the shell. The device can effectively realize the wall-through use of equipment by utilizing two glass plates arranged oppositely; potential harm to a disinfector in an endoscope disinfection process can be effectively reduced by utilizing the hydrogen optical module arranged at the gas outlet end and the cleaning tank cover covered on the cleaning tank body; meanwhile, the dynamic spraying and the full-lens soaking can be combined in a disinfection mode, so that the disinfection efficiency and safety are effectively improved.

Description

Double-door endoscope cleaning workstation

Technical Field

The utility model relates to a scope disinfection technical field, concretely relates to two door scope cleaning workstation.

Background

At present, the scope disinfection room is the important place at scope center, and mainly used disinfects the scope after the use, nevertheless still has following several problems to the disinfection of scope among the prior art:

1. the arrangement sequence of the endoscope cleaning equipment in the endoscope disinfection chamber needs to follow the sequence from dirt to cleaning, and if the dirt needs to be thoroughly cleaned, through-wall type cleaning equipment is needed;

2. although many hospitals are equipped with full-automatic endoscope cleaning and disinfecting machines, due to the heat of valve pipelines, disinfectant gas still volatilizes, which is a potential injury to disinfectors;

3. the single cylinder of the full-automatic endoscope disinfector can only clean and disinfect one endoscope at a time, the use cost of the quick disinfectant is expensive, and the use cost of the disinfectant can be properly reduced by simultaneously disinfecting two endoscopes in a single groove;

4. most of the full-automatic endoscope disinfectors adopt a full-lens soaking or dynamic spraying mode, and the two modes have advantages and disadvantages and need a cleaning mode combining the two modes;

5. endoscopes can not be soaked, cleaned and disinfected in a full-lens mode in the market.

In view of the above-mentioned prior art, the applicant of the present invention has made a lot of repeated and beneficial researches, and the final product has obtained effective results and formed the technical solutions to be described below.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a two-door scope cleaning work station to the scope disinfecting equipment who solves among the prior art can't wear the wall use, inefficiency, produces potential injury, disinfection cost too high and the single problem of disinfection mode to the disinfection person easily.

In order to achieve the above object, the present invention provides the following technical solutions:

a double-door endoscope cleaning workstation comprises a casing, and a leakage detection inflator pump module, an internal circulation peristaltic pump, an endoscope channel perfusion peristaltic pump, a disinfectant peristaltic pump, a cleaning tank body, a disinfectant barrel and a water faucet which are respectively arranged in the casing; wherein the content of the first and second substances,

the outer wall of the shell is respectively provided with two glass doors, an exhaust filtering group and an air inlet grille, the two glass doors are respectively and correspondingly arranged on the front side and the rear side of the shell in a rotating manner, and the air inlet grille is communicated with the exhaust filtering group;

a low-noise fan and a light-hydrogen module are respectively arranged in the shell, and are positioned on a communication passage between the air inlet grille and the exhaust filtering group;

the output end of the leakage detection inflator pump module is used for being connected with a leakage detection interface of an external endoscope through a pipeline;

a spraying nozzle is arranged inside the cleaning tank body, the input end of the internal circulation peristaltic pump is communicated with the inside of the cleaning tank body, and the output end of the internal circulation peristaltic pump is communicated with the spraying nozzle;

the input end of the endoscope cavity perfusion peristaltic pump is provided with an internal circulation liquid inlet, the internal circulation liquid inlet is arranged inside the cleaning groove body, and the output end of the endoscope cavity perfusion peristaltic pump is used for being connected with an endoscope interface of an external endoscope through a pipeline;

the input end of the disinfectant peristaltic pump is communicated with the disinfectant barrel, and the output end of the disinfectant peristaltic pump is communicated with the inside of the cleaning tank body;

a water outlet is arranged at the bottom end of the cleaning tank body and is communicated with an external container through a pipeline, and a water discharge valve is arranged on a communication pipeline between the water outlet and the external container;

the inner wall of the cleaning groove body is provided with a water inlet which is communicated with a water inlet valve through a pipeline;

the cleaning tank is characterized in that a liquid level sensor group is arranged on the cleaning tank body, and a cleaning tank cover is arranged on the cleaning tank body.

On the basis of the technical scheme, the utility model discloses can also do as follows the improvement:

furthermore, the bottom of the shell body is respectively provided with a universal caster and an adjusting foot.

Furthermore, an active carbon net is arranged on the air inlet grille.

Furthermore, the shell is arranged in the shell and positioned on the outer side of the disinfectant barrel, one end of a pipeline is communicated with the shell, and the other end of the pipeline corresponds to the activated carbon net at the air inlet grille.

Further, a door motor is arranged between the shell and the glass door, and the door motor is electrically connected with a foot switch arranged outside the shell.

Furthermore, an ultraviolet lamp tube is arranged on the side of the light-hydrogen module.

Furthermore, a water faucet is further arranged inside the shell, the input end of the water faucet is communicated with external water, and the output end of the water faucet corresponds to the cleaning groove body.

Furthermore, the outer wall of the shell is also provided with a placing frame for placing a cleaning groove cover at the side part of the air inlet grille.

Furthermore, a placing rack for hanging an endoscope is further arranged on the outer wall of the shell body and positioned on the side portion of the air inlet grille.

Furthermore, the exhaust filtering group is provided with a check valve for preventing other equipment from returning air to the equipment which does not work through the pipeline during work.

The utility model has the advantages of as follows:

the device can effectively realize the wall-through use of equipment by utilizing two glass plates arranged oppositely; potential harm to a disinfector in an endoscope disinfection process can be effectively reduced by utilizing the hydrogen optical module arranged at the gas outlet end and the cleaning tank cover covered on the cleaning tank body; meanwhile, the dynamic spraying and the full-lens soaking can be combined in a disinfection mode, so that the disinfection efficiency and safety are effectively improved.

Drawings

In order to clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and the structures, proportions, sizes, etc. shown in the present specification are only used to match the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and any modifications of the structures, changes of the proportion relations, or adjustments of the sizes, should still fall within the scope of the technical contents disclosed in the present invention without affecting the functions and the achievable objects of the present invention.

Fig. 1 is one of the overall external structural diagrams of the embodiment of the present invention;

fig. 2 is a second overall external structural diagram of the embodiment of the present invention;

fig. 3 is one of the schematic internal structural diagrams of the embodiment of the present invention;

fig. 4 is a second schematic diagram of the internal structure of the embodiment of the present invention;

fig. 5 is a third schematic view of the overall external structure of the embodiment of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

the device comprises a shell body 1, a glass door 2, a foot switch 3, a door motor 4, a sealing plate 5, universal wheel feet 6, an adjusting foot 7, a control module 8, a leakage detection control module 9, a scanning module 10, a low-noise fan 11, a light-hydrogen module 12, an exhaust filtering group 13, an air supply filtering group 14, an air inlet grille 15, a water tap 16, a leakage detection air pump module 17, a liquid level sensor group 18, an internal circulation peristaltic pump 19, an endoscope cavity perfusion peristaltic pump module 20, an internal circulation liquid inlet 21, a water discharge valve 22, a disinfectant peristaltic pump 23, a disinfectant barrel 24, a water inlet valve 25, a cleaning tank body 26, a spray nozzle 27, a cleaning tank cover 28 and a working state indicator lamp 29.

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-5, an embodiment of the present invention provides a dual-door endoscope cleaning workstation, which includes a housing 1, a glass door 2, a foot switch 3, a door motor 4, a sealing plate 5, a universal wheel foot 6, an adjusting foot 7, a control module 8, a leak detection control module 9, a scanning module 10, a low noise fan 11, a light-hydrogen module 12, an exhaust filter group 13, an air supply filter group 14, an air inlet grille 15, a faucet 16, a leak detection inflator pump module 17, a liquid level sensor group 18, an internal circulation peristaltic pump 19, an endoscope channel perfusion peristaltic pump 20, an internal circulation inlet 21, a drain valve 22, a peristaltic disinfectant pump 23, a disinfectant tank 24, an inlet valve 25, a cleaning tank 26, a spray nozzle 27, a cleaning tank cover 28, and a working status indicator lamp 29, for effectively realizing wall-through use of the device and reducing potential harm to a disinfection staff during endoscope disinfection, meanwhile, the dynamic spraying and the full-lens soaking can be combined, so that the disinfection efficiency and degree are greatly improved. The specific settings are as follows:

the bottom of the shell body 1 is respectively provided with four universal caster wheels 6 and four adjusting feet 7, so that the universal caster wheels 6 are used for realizing convenient movement of the device, and the adjusting feet 7 are used for realizing height and stable adjustment of the device.

Be equipped with glass door 2, shrouding 5, the filter bank of airing exhaust 13 and air-inlet grille 15 on the outer wall of casing 1 respectively, wherein glass door 2 is equipped with two, two glass door 2 rotates respectively and sets up both sides around the casing 1 for realize putting into and taking out of scope respectively in the wall both sides, shrouding 5 sets up the top of casing 1 just corresponds and is located two the top of glass door 2, the filter bank of airing exhaust 13 sets up on the shrouding 5, is used for realizing the air outflow, air-inlet grille 15 sets up lie in the below position of glass door 2 on the casing 1, be used for realizing the inflow of air.

Preferably, the glass door 2 can be provided with different color markings to more clearly distinguish the access side.

Preferably, the air intake grille 15 is provided with an activated carbon net for effectively improving the air purification effect.

Preferably, the exhaust air filtering set 13 may be provided with a check valve to prevent other devices from returning air to the non-operating devices through the pipeline during operation.

The inside of casing 1 is equipped with control module 8 and division board respectively, be equipped with air supply filter group 14 on the division board for utilize air supply filter group 14 to make the air that gets into from air-intake grille 15 can circulate smoothly to exhaust filter group 13, the inside of casing 1 still is equipped with low noise fan 11 and light hydrogen module 12 respectively in the top that is located the division board, wherein light hydrogen module 12 is equipped with two sets ofly, two sets ofly light hydrogen module 12 all corresponds air supply filter group 14 for utilize low noise fan 11 to accelerate circulation of air circulation, utilize light hydrogen module 12 to realize the ion purification to the outflow air simultaneously, low noise fan 11 and light hydrogen module 12 respectively with control module 8's output looks electricity is connected.

Preferably, an ultraviolet lamp tube is arranged on the side of the light and hydrogen module 12, and the ultraviolet lamp tube is electrically connected with the output end of the control module 8, so as to improve the gas purification effect and further effectively reduce the potential damage to a disinfectant in the endoscope disinfection process.

It should be noted that the air inlet grille 15 adopts a louver group with a 100-mesh filter screen, the exhaust air filtering group 13 and the air supply filtering group 14 both adopt a louver group, the low-noise fan 11 adopts an axial-flow fan with a model of 130FLJ0, the photo-hydrogen module 12 adopts a photo-hydrogen ion purifier with a model of ANS-GCHKJ, the control module 8 comprises a microcontroller with a model of STM32, a relay module with a model of JRC-5M, and a control button plate with a model of TKD-K5, the control button plate is arranged on the outer wall of the machine shell 1, the input end of the microcontroller is electrically connected with the output end of the control button plate, and the output end of the microcontroller is electrically connected with the input end of the relay module.

Be equipped with a motor 4 between casing 1 and the glass door 2 respectively for the opening and close of electric control glass door 2, foot switch 3 sets up casing 1's outside, just foot switch 3 with control module 8's input looks electricity is connected, door motor 4 with control module 8's output looks electricity is connected for make medical personnel can pass through foot switch 3 to control module 8 input control signal of telecommunication, and further control a motor 4 by control module 8 and start, thereby drive the automatic switching of glass door 2.

It should be noted that the door motor 4 is a servo motor with model YZ-ACSD608, and the foot switch 3 is a foot-operated switch with model TFS-201-2M.

The inner part of the shell body 1 is respectively provided with a leakage detection control module 9 and a leakage detection inflator pump module 17, the leakage detection inflator pump module 17 is used for being connected with a leakage detection interface of an endoscope for inflation, and the leakage detection control module 9 is connected with the leakage detection inflator pump module 17 and used for controlling pressure, pressure protection and pressure relief after side leakage.

The inner part of the shell body 1 is also respectively provided with a water tap 16, an internal circulation peristaltic pump 19, an endoscope cavity perfusion peristaltic pump 20, a drain valve 22, a disinfectant peristaltic pump 23, a disinfectant barrel 24, a water inlet valve 25 and a cleaning tank body 26, wherein the cleaning tank body 26 is internally provided with a spray nozzle 27, the input end of the internal circulation peristaltic pump 19 is communicated with the interior of the cleaning tank body 26, the output end of the internal circulation peristaltic pump 19 is communicated with the spray nozzle 27, and the internal circulation peristaltic pump is used for achieving the spray effect in the cleaning tank body 26 after the liquid level in the cleaning tank body 26 reaches the height of the input end of the internal circulation peristaltic pump 19; the input end of the endoscope channel perfusion peristaltic pump 20 is provided with an internal circulation liquid inlet 21, the output end of the endoscope channel perfusion peristaltic pump 20 is used for being connected with an external endoscope interface through a pipeline, the cleaning effect on the endoscope channel can be effectively realized after the liquid level in the cleaning tank body 26 reaches the height of the input end of the endoscope channel perfusion peristaltic pump 20, and when the liquid level after drainage is lowered to be below the input end of the endoscope channel perfusion peristaltic pump 20, the gas can be injected into the endoscope channel by using the blowing function of the endoscope channel perfusion peristaltic pump 20 for endoscope drying, and meanwhile, the flow of the endoscope channel perfusion peristaltic pump 20 is adjustable, so that the requirement for cleaning two endoscopes can be simultaneously met; one end of the drain valve 22 is communicated with the inside of the cleaning tank body 26 through a pipeline, and the other end of the drain valve 22 is communicated with an external container and used for draining water in the cleaning tank body 26; the input end of the disinfectant peristaltic pump 23 is communicated with the disinfectant barrel 24, the output end of the disinfectant peristaltic pump 23 is communicated with the interior of the cleaning tank body 26, and the disinfectant peristaltic pump 23 is used for injecting disinfectant into the cleaning tank body 26 when rotating forwards, and after the disinfection time is up, a reverse rotation signal can be transmitted to the disinfectant peristaltic pump 23 through the control device 8, so that the disinfectant peristaltic pump 23 rotates reversely, and disinfectant is sent back to the disinfectant barrel 24 again; the input end of the water tap 16 is communicated with external water inlet, and the output end of the water tap 16 corresponds to the cleaning tank body 26; the inner wall of the cleaning tank body 26 is also provided with a water inlet, and the water inlet valve 25 is arranged on a communication pipeline between the water inlet and external water inlet and is used for controlling water feeding in the cleaning tank body 26; a flow sensor is further arranged on a pipeline of the endoscope cavity perfusion peristaltic pump 20, the flow sensor is electrically connected with an input end of the control module 8, an output end of the control module 8 is electrically connected with a warning module arranged on the outer wall of the machine shell 1, and the warning module is used for reminding the status of the endoscope cavity perfusion flow after being judged by the flow sensor and the control module 8; the internal circulation peristaltic pump 19, the endoscope cavity perfusion peristaltic pump 20, the drain valve 22, the disinfectant peristaltic pump 23 and the water inlet valve 25 are respectively and electrically connected with the output end of the control module 8.

Preferably, a housing is arranged inside the housing 1 and outside the disinfectant tank 24, one end of a pipeline is communicated with the housing, and the other end of the pipeline corresponds to the activated carbon mesh at the air inlet grid 15, so that disinfectant gas discharged from the disinfectant tank 24 can be directly purified and discharged through the air inlet grid 15.

Be equipped with liquid level sensor group 18 on wasing the cell body 26, liquid level sensor group 18 is connected with control module 8's input looks electricity for liquid in wasing the cell body 26 reaches the predetermined height and sends the signal to control module 8 voluntarily, and then control washs the height of cell body 26 water-feeding.

Still be equipped with scanning module 10 and operating condition pilot lamp 29 on casing 1, scanning module 10 with control module 8's input looks electricity is connected for scan record code to the scope, operating condition pilot lamp 29 with control module 8's output looks electricity is connected for utilize operating condition pilot lamp 29 real-time display device's operating condition, make things convenient for medical personnel to operate.

Preferably, the cleaning tank body 26 is provided with a cleaning tank cover 28 for effectively controlling the volatilization of the disinfectant gas, thereby effectively reducing the potential damage to the disinfector in the endoscope disinfection process.

It is further preferable that the outer wall of the housing 1 is further provided with a placing frame for placing the cleaning tank cover 28 at a side portion of the air intake grill 15 to improve convenience and practicality.

Further preferably, the outer wall of the housing 1 is provided with a rack for hanging an endoscope at the side part of the air inlet grille 15, so as to meet the requirement of reasonable placement of the endoscope when part of the endoscope cannot be disinfected and soaked in a full scope.

It should be noted that the leak detection control module 9 adopts a positioning leak detection controller with the model number XW-PC-3; the leakage detection inflator pump module 17 adopts a medical air pump with the model number of PC 2035N; the internal circulation peristaltic pump 19 and the disinfectant peristaltic pump 23 are peristaltic pumps with the model number of BT100-2J, and the endoscope channel perfusion peristaltic pump 20 is a knob type flow-adjustable peristaltic pump with the model number of S100-2B + TH 10; the drain valve 22 and the water inlet valve 25 both adopt electric flow valves with the model number of ZDLM-16C; the liquid level sensor group 18 adopts a liquid level sensor with a model number of ZHYL-YW; the scanning module 10 adopts an embedded scanning module with the model IVYSUN; the working state indicator light 29 adopts a three-color signal light with the model number of AD 16-22D/S; the flow sensor adopts a pipeline electromagnetic type flow sensor with the model of LDG-MIK; the warning module adopts a medical LED digital display instrument with the model number of HEC 658.

The use process of the double-door endoscope cleaning workstation is as follows:

when the device is used, a power switch is turned on, a signal is displayed through a working state indicator lamp 29, an empty endoscope cleaning workstation and an endoscope which is washed by enzyme and rinsed are selected, the foot switch 3 is trampled to open the glass door 2, the endoscope is placed in the cleaning tank body 26, the scanning module 10 is used for scanning endoscope codes, the endoscope is respectively connected with the endoscope cavity channel perfusion peristaltic pump 20 and the leakage detection inflator pump module 17, the cleaning tank cover 28 is covered, and the foot switch 3 is trampled to close the glass door 2;

starting a leakage detection control module 9 to provide pressure protection for an endoscope, selecting the disinfection time of a control module 8 to start, starting a disinfectant peristaltic pump 23 to work, injecting disinfectant into a cleaning tank body 26, starting an internal circulation peristaltic pump 19 and an endoscope channel perfusion peristaltic pump 20 to work at the same time, starting spraying disinfectant by the internal circulation peristaltic pump 19 and a spraying nozzle 27 after the liquid level of the disinfectant reaches the suction ends of the internal circulation peristaltic pump 19 and the endoscope channel perfusion peristaltic pump 20, starting perfusion of the endoscope channel by the endoscope channel perfusion peristaltic pump 20, transmitting a signal to the control module 8 by the liquid level sensor group 18 after the liquid level reaches the position of the liquid level sensor group 18, and stopping the operation of the disinfectant peristaltic pump 23 by the control module 8;

after the disinfection time is up, the control module 8 transmits a signal to the disinfection solution peristaltic pump 23, the disinfection solution peristaltic pump 23 starts to reverse, the disinfection solution is recovered, after the liquid level of the disinfectant in the cleaning tank body 26 is lower than the suction ends of the internal circulation peristaltic pump 19 and the endoscope channel perfusion peristaltic pump 20, the control module 8 controls the endoscope channel perfusion peristaltic pump 20 to blow air to the endoscope channel, after the disinfectant is recovered, the control module 8 transmits a signal to the water inlet valve 25, the water inlet starts to inject water into the cleaning tank body 26, after the water level reaches the suction ends of the internal circulation peristaltic pump 19 and the endoscope channel perfusion peristaltic pump 20, the internal circulation peristaltic pump 19 and the spray nozzle 27 start spraying water, the endoscope channel perfusion peristaltic pump 20 starts perfusing the endoscope channel, after the water level reaches the position of the liquid level sensor group 18, the liquid level sensor group 18 transmits a signal to the control module 8, and the control module 8 closes the water inlet valve 25; after the flushing time is up, the control module 8 transmits a signal to the drain valve 22 to open the drain valve 22, and after the water level in the cleaning tank body 26 is lower than the suction ends of the internal circulation peristaltic pump 19 and the endoscope channel perfusion peristaltic pump 20, the endoscope channel perfusion peristaltic pump 20 starts to blow air to the endoscope channel;

at the end of the program, the control module 8 closes the drain valve 22, the internal circulation peristaltic pump 19 and the endoscope channel perfusion peristaltic pump 20, and the working state indicator lamp 19 changes color. A cleaning and disinfecting person in a clean area can step on the foot switch 3, open the glass door 2, move the cleaning tank cover 28 away, scan the endoscope code and take out the endoscope;

and finally, the glass door 2 is closed by stepping the foot switch 3, the working state indicator lamp 19 changes color, and the double-door endoscope cleaning workstation is in an idle state.

The water tap 16 can be used for configuring the final disinfection disinfectant for the cleaning tank body 26, the spray nozzle 27 and the cleaning tank cover 28 after the work is finished every day.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The utility model provides a two door endoscope cleaning work stations which characterized in that: the device comprises a shell, and a leakage detection inflator pump module, an internal circulation peristaltic pump, an endoscope cavity perfusion peristaltic pump, a disinfectant peristaltic pump, a cleaning groove body and a disinfectant barrel which are respectively arranged in the shell; wherein the content of the first and second substances,

the outer wall of the shell is respectively provided with two glass doors, an exhaust filtering group and an air inlet grille, the two glass doors are respectively and correspondingly arranged on the front side and the rear side of the shell in a rotating manner, and the air inlet grille is communicated with the exhaust filtering group;

a low-noise fan and a light-hydrogen module are respectively arranged in the shell, and are positioned on a communication passage between the air inlet grille and the exhaust filtering group;

the output end of the leakage detection inflator pump module is used for being connected with a leakage detection interface of an external endoscope through a pipeline;

a spraying nozzle is arranged inside the cleaning tank body, the input end of the internal circulation peristaltic pump is communicated with the inside of the cleaning tank body, and the output end of the internal circulation peristaltic pump is communicated with the spraying nozzle;

the input end of the endoscope cavity perfusion peristaltic pump is provided with an internal circulation liquid inlet, the internal circulation liquid inlet is arranged inside the cleaning groove body, and the output end of the endoscope cavity perfusion peristaltic pump is used for being connected with an endoscope interface of an external endoscope through a pipeline;

the input end of the disinfectant peristaltic pump is communicated with the disinfectant barrel, and the output end of the disinfectant peristaltic pump is communicated with the inside of the cleaning tank body;

the inner wall of the cleaning groove body is provided with a water inlet which is communicated with a water inlet valve through a pipeline;

a water outlet is arranged at the bottom end of the cleaning tank body and is communicated with an external container through a pipeline, and a water discharge valve is arranged on a communication pipeline between the water outlet and the external container;

the cleaning tank is characterized in that a liquid level sensor group is arranged on the cleaning tank body, and a cleaning tank cover is arranged on the cleaning tank body.

2. A working station for cleaning a double-door endoscope according to claim 1 characterized in that the bottom of said casing is provided with universal caster and adjusting caster respectively.

3. The station of claim 1, wherein the grille shutter is provided with an activated carbon mesh.

4. A working station for cleaning a double-door endoscope according to claim 3, characterized in that a housing is provided inside the housing at the outside of the sterilizing liquid barrel, one end of a pipeline is communicated with the housing, and the other end of the pipeline corresponds to the activated carbon mesh at the air inlet grille.

5. A working station for cleaning a double-door endoscope according to claim 1 characterized in that a door motor is arranged between the casing and the glass door, and the door motor is electrically connected with a foot switch arranged outside the casing.

6. The dual-door endoscope cleaning workstation according to claim 1, characterized in that the side of said photo-hydrogen module is provided with an ultraviolet lamp tube.

7. A working station for cleaning a double-door endoscope according to claim 1, characterized in that a water tap is further provided inside said casing, an input end of said water tap is connected to an external water inlet, and an output end of said water tap corresponds to said cleaning tank.

8. A working station for cleaning a double-door endoscope according to claim 1, characterized in that the outer wall of said housing is further provided with a rack for placing a cleaning slot cover at the side of the air intake grille.

9. A working station for cleaning a double-door endoscope according to claim 1, characterized in that the outer wall of said housing is further provided with a rack for mounting an endoscope at the side of the air intake grille.

10. A two-door endoscope cleaning station according to claim 1 and characterized in that said exhaust filtering set is provided with a non-return valve to prevent other equipment from returning air to non-operating equipment during operation.

Images