CN215839556U - Water inlet pipeline of multi-cabin decompression boiling cleaning and sterilizing machine - Google Patents

Abstract

The utility model provides a water inlet pipeline of a multi-cabin decompression boiling cleaning and disinfecting machine, which comprises a No. 1 cleaning cabin, a No. 2 disinfecting cabin connected with the cleaning cabin and a No. 3 drying cabin connected with the No. 2 disinfecting cabin, wherein the No. 1 cleaning cabin, the No. 2 disinfecting cabin and the No. 3 drying cabin are respectively connected with a steam inlet and a steam outlet, the No. 1 cleaning cabin is respectively connected with a No. 1 water tank and a No. 3 water tank, and the No. 2 disinfecting cabin is respectively connected with the No. 2 water tank and the No. 3 water tank. The volume of the water tank meets the water consumption in a single cleaning stage. The water temperature can be customized, and the water temperature of each water tank can be conveniently combined according to the requirements of users. The shortest working time is achieved, and different temperature setting schemes can be made according to different use conditions.

Description

Water inlet pipeline of multi-cabin decompression boiling cleaning and sterilizing machine

Technical Field

The utility model relates to the technical field of medical cleaning equipment, in particular to a water inlet pipeline of a multi-cabin decompression boiling cleaning and disinfecting machine.

Background

The quality of cleaning, disinfection and sterilization of surgical instruments in the medical field is one of the key points in the management work of operating rooms. After the instruments are used, the instruments must be strictly cleaned and sterilized, so that the breeding or infection of bacteria is avoided, any residual organic matters, various body fluids such as blood, pus, protein mucus and the like, oil stains and the like can hinder the effective contact of microorganisms and sterilization media, and a biological film can be generated to influence the sterilization effect. The manual cleaning of the medical apparatus has the advantages of high labor cost, difficult standardization and low standard compliance. Therefore, special cleaning equipment is needed, and the cleaning and disinfecting machine not only can prolong the service life of instruments or equipment, but also can ensure that the instruments or the equipment meet the cleanliness requirement of use. The structure of the water inlet pipeline directly influences the use efficiency of the cleaning and disinfecting machine, and meanwhile, the unreasonable structure of the water inlet pipeline probably enables microorganisms and bacteria which are cleaned from medical instruments to remain in the cleaning and disinfecting machine, so that cross infection occurs.

Disclosure of Invention

The utility model aims to solve the technical problem of the prior art and provides a water inlet pipeline of a multi-cabin decompression boiling cleaning and disinfecting machine, which has a simple structure and high working efficiency, and the specific scheme is as follows:

the utility model relates to a water inlet pipeline of a multi-cabin decompression boiling cleaning and disinfecting machine, which is characterized in that: including No. 1 wash the cabin, with No. 2 disinfection cabins that No. 1 washs the cabin and links to each other, with No. 3 dry cabins that No. 2 disinfection cabins link to each other, No. 1 wash the cabin, No. 2 disinfection cabins and No. 3 dry cabins and link to each other with steam inlet and steam exhaust mouth respectively, No. 1 washs the cabin and links to each other with No. 1 water tank and No. 3 water tank respectively, No. 2 disinfection cabins respectively with No. 2 water tank with No. 3 the water tank links to each other.

The technical problem to be solved by the utility model can be further realized by the following technical scheme that pure water at normal temperature to 95 ℃ is introduced into the No. 1 water tank and the No. 2 water tank; tap water or softened water at normal temperature to 95 ℃ is introduced into the No. 3 water tank.

The technical problem to be solved by the utility model can be further realized by the following technical scheme that the No. 1 water tank is provided with a No. 1 water tank air outlet pipeline, a No. 1 water tank liquid level switch, a No. 1 water tank temperature sensor, a No. 1 water tank air outlet, a No. 1 water tank steam inlet pipe, a No. 1 water tank heating control valve and No. 1 and No. 2 water tank water inlet pipelines.

The technical problem to be solved by the utility model can be further realized by the following technical scheme that the No. 2 water tank is provided with a No. 2 water tank air outlet, a No. 2 water tank temperature sensor, a No. 2 water tank steam inlet pipeline, a No. 2 water tank steam outlet pipeline, a No. 2 water tank heating control valve, a No. 2 water tank liquid level switch A and a No. 2 water tank liquid level switch B.

The technical problem to be solved by the utility model can be further realized by the following technical scheme that a No. 3 water tank is provided with a No. 3 water tank air outlet, a No. 3 water tank steam inlet pipeline, a No. 3 water tank temperature sensor, a No. 3 water tank water inlet, a No. 3 water tank heating control valve and a No. 3 water tank steam outlet pipeline.

The technical problem to be solved by the utility model can be further realized by the following technical scheme that a No. 1 cleaning cabin water inlet control valve A, a No. 1 cleaning cabin vacuumizing control valve, a No. 1 cleaning cabin water inlet control valve B, a No. 1 vacuum pump, a total steam outlet and a steam drain valve are arranged on the No. 1 cleaning cabin.

The technical problem to be solved by the utility model can be further realized by the following technical scheme that a No. 2 disinfection cabin water inlet control valve A, a No. 2 vacuum pump, a No. 1 and No. 2 cabin water inlet shared pipeline, a No. 2 disinfection cabin water inlet control valve B, a No. 2 disinfection cabin vacuum control valve and a No. 2 disinfection cabin water inlet pipeline are arranged on the No. 2 disinfection cabin.

The technical problem to be solved by the utility model can be further realized by the following technical scheme that a No. 3 vacuum pump, a No. 3 water tank heating control valve and a No. 3 disinfection cabin vacuum control valve are arranged on the No. 3 drying cabin.

Compared with the prior art, the utility model has the beneficial effects that: no. 1 washs the cabin, and the water of 3 water tanks is advanced in the prewashing stage, and the temperature is set for according to the demand, and the main stage of washing advances 1 water tank pure water, and the temperature is set for according to the cleaning enzyme temperature, and rinsing is 1 time, advances 3 water tank softened water, and the temperature is set for according to the demand. No. 2 disinfection cabin, rinsing 2 times stage, advance No. 3 water tank demineralized water, the temperature is set for according to the demand, and the disinfection stage advances No. 2 water tank pure water, temperature 95 degrees. The volume of the water tank meets the water consumption in a single cleaning stage. The water temperature can be customized, and the water temperature of each water tank can be conveniently combined according to the requirements of users. The shortest working time is achieved, and different temperature setting schemes can be made according to different use conditions.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of a water inlet pipeline of a multi-chamber decompression boiling cleaning and disinfecting machine of the utility model;

FIG. 2 is a schematic block diagram of a water inlet pipeline of the multi-chamber decompression boiling cleaning and disinfecting machine of the utility model.

In the figure: 1. no. 1 water tank air outlet pipeline; 2. no. 1 water tank liquid level switch; 3. no. 1 water tank; 4. no. 1 water tank temperature sensor; 5. no. 1 water tank air outlet; 6. the No. 1 water tank enters a steam pipe; 7. no. 1 and No. 2 water tank water inlet pipelines; 8. no. 2 water tank; 9. no. 2 water tank air outlet; 10. no. 2 water tank temperature sensor; 11. no. 2 water tank steam inlet pipeline; 12. no. 2 water tank steam outlet pipeline; 13. no. 2 water tank liquid level switch A; 14. no. 2 water tank liquid level switch B; 15. the air outlet of the No. 3 water tank; 16. a No. 3 water tank steam inlet pipeline; 17. no. 3 water tank temperature sensor; 18. a No. 3 water tank; 19. a water inlet of the No. 3 water tank; 20. no. 3 water tank steam outlet pipeline; 21. no. 1 water tank heating control valve; 22. a No. 1 cleaning cabin water inlet control valve A; 23. no. 1 cleaning cabin vacuumizing control valve; 24. no. 1 cleaning cabin; 25. a No. 1 cleaning cabin water inlet control valve B; 26. vacuum pump No. 1; 27. a total steam discharge port; 28. a steam trap; 29. no. 2 water tank heating control valve; 30. no. 2 disinfection cabin water inlet control valve A; 31. vacuum pump No. 2; 32. no. 2 disinfection cabin; 33. the water inlet of the No. 1 and No. 2 cabins share a pipeline; 34. a No. 2 disinfection cabin water inlet control valve B; 35. vacuum pump No. 3; 36. no. 2 disinfection cabin vacuum control valve; 37. no. 3 water tank heating control valve; 38. a No. 3 drying cabin; 39. no. 2 disinfection cabin water inlet pipeline; 40. no. 3 disinfection cabin vacuum control valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-2, the inlet channel of the multi-compartment decompression boiling cleaning and disinfecting machine provided by the embodiment comprises a cleaning compartment 1, a disinfecting compartment 2 connected with the cleaning compartment 1, and a drying compartment 3 connected with the disinfecting compartment 2, wherein the cleaning compartment 1, the disinfecting compartment 2, and the drying compartment 3 are respectively connected with a steam inlet and a steam outlet, the cleaning compartment 1 is respectively connected with a water tank 3 and a water tank 3, and the disinfecting compartment 2 is respectively connected with a water tank 8 and a water tank 3. No. 1 washs the cabin, and the water of 3 water tanks is advanced in the prewashing stage, and the temperature is set for according to the demand, and the main phase of washing advances 3 pure water in 1 water tank, and the temperature is set for according to the cleaning enzyme temperature, and rinsing 1 time advances 3 water tank demineralized water, and the temperature is set for according to the demand. No. 2 disinfection cabin, 2 stages of rinsing advance No. 3 water tank demineralized water, and the temperature is set for according to the demand, and 8 pure water of No. 2 water tank are advanced in the disinfection stage, and the temperature is 95 degrees. The volume of the water tank meets the water consumption in a single cleaning stage. The water temperature can be customized, and the water temperature of each water tank can be conveniently combined according to the requirements of users. The shortest working time is achieved, and different temperature setting schemes can be made according to different use conditions.

Pure water with the temperature of normal temperature to 95 ℃ is introduced into the No. 1 water tank 3 and the No. 2 water tank 8; the No. 3 water tank 18 is filled with tap water or softened water at normal temperature to 95 ℃. No. 1 water tank 3 is provided with No. 1 water tank air outlet pipeline 2, No. 1 water tank liquid level switch 2, No. 1 water tank temperature sensor 4, No. 1 water tank gas outlet 5, No. 1 water tank steam inlet pipe 6, No. 1 water tank heating control valve 21 and No. 1 and No. 2 water tank 8 inlet pipe 7. No. 2 water tank 8 is provided with No. 2 water tank air outlet 9, No. 2 water tank temperature sensor 10, No. 2 water tank steam inlet pipeline 11, No. 2 water tank steam outlet pipeline 12, No. 2 water tank heating control valve 29, No. 2 water tank liquid level switch A13 and No. 2 water tank liquid level switch B14. No. 3 water tank is provided with No. 3 water tank gas outlet 15, No. 3 water tank steam inlet pipeline 16, No. 3 water tank temperature sensor 17, No. 3 water tank water inlet 19, No. 3 water tank heating control valve and No. 3 water tank steam outlet pipeline 20.

The No. 1 cleaning cabin 24 is provided with a No. 1 cleaning cabin water inlet control valve A22, a No. 1 cleaning cabin vacuumizing control valve 23, a No. 1 cleaning cabin water inlet control valve B25, a No. 1 vacuum pump 26, a total steam outlet 27 and a steam drain valve 28. The No. 2 disinfection cabin 32 is provided with a No. 2 disinfection cabin water inlet control valve A30, a No. 2 vacuum pump 31, a No. 1 and No. 2 cabin water inlet shared pipeline 33, a No. 2 disinfection cabin water inlet control valve B34, a No. 2 disinfection cabin vacuum control valve 36 and a No. 2 disinfection cabin water inlet pipeline 39. No. 3 drying chamber 38 is provided with No. 3 vacuum pump 35, No. 3 water tank heating control valve 37 and No. 3 disinfection cabin vacuum control valve 40.

The working principle is as follows: the equipment is divided into 3 working cabins, which are respectively: a No. 1 cleaning cabin, a No. 2 sterilizing cabin and a No. 3 drying cabin; the functions of each work cabin are respectively as follows: no. 1 washs the cabin and mainly is used for carrying out prewashing + main wash + rinsing 1, and No. 2 disinfection cabins are mainly used: rinsing for a second time + sterilizing); the No. 3 working cabin is mainly used for drying, vacuum drying and pulse drying. The equipment is divided into 3 water tanks, and the water tanks are respectively as follows: water tank No. 1, No. 3 (pure water, normal temperature-60 deg.), water tank No. 2 (pure water, normal temperature-95 deg.), and water tank No. 3 (demineralized water, normal temperature-50 deg.). And (3) conventional program configuration: the prewashing uses soft water at normal temperature of 30 ℃ and the main washing uses pure water, the temperature of the washing is set according to the temperature of the washing enzyme and is about 40-50 ℃, the rinsing uses softened water at normal temperature of 35 ℃, and the disinfection uses pure water at 93 ℃. The user can set the temperature of three water tanks according to the washing temperature demand, No. 1 water tank 3 (pure water, normal atmospheric temperature-60 degrees), No. 2 water tank 8 (pure water, normal atmospheric temperature-95 degrees), No. 3 water tank (demineralized water, normal atmospheric temperature-50 degrees).

The working mode is as follows: no. 1 washs the cabin, and the water of 3 water tanks is advanced in the prewashing stage, and the temperature is set for according to the demand, and the main phase of washing advances 3 pure water in 1 water tank, and the temperature is set for according to the cleaning enzyme temperature, and rinsing 1 time advances 3 water tank demineralized water, and the temperature is set for according to the demand. No. 2 disinfection cabin, 2 stages of rinsing advance No. 3 water tank demineralized water, and the temperature is set for according to the demand, and 8 pure water of No. 2 water tank are advanced in the disinfection stage, and the temperature is 95 degrees. The volume of the water tank meets the water consumption in a single cleaning stage. The water temperature can be customized, and the water temperature of each water tank can be conveniently combined according to the requirements of users. The shortest working time is achieved, and different temperature setting schemes can be made according to different use conditions.

The above are only specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution and the concept of the present invention within the scope of the present invention disclosed by the present invention, and all the persons skilled in the art belong to the scope of the present invention.

Claims (8)

1. The utility model provides a water intake pipe of many cabins decompression boiling cleaning and disinfecting machine which characterized in that: including No. 1 washing cabin, with No. 1 wash No. 2 disinfection cabins that the cabin links to each other, with No. 3 dry cabins that No. 2 disinfection cabins link to each other, No. 1 washing cabin, No. 2 disinfection cabins and No. 3 dry cabins link to each other with entering steam port and steam exhaust mouth respectively, No. 1 washs the cabin and links to each other with No. 1 water tank and No. 3 water tank respectively, No. 2 disinfection cabins respectively with No. 2 water tank with No. 3 the water tank links to each other.

2. The water intake pipe of the multi-compartment decompression boiling cleaning and disinfecting machine of claim 1, wherein: pure water at normal temperature to 95 ℃ is introduced into the No. 1 water tank and the No. 2 water tank; tap water or softened water at normal temperature to 95 ℃ is introduced into the No. 3 water tank.

3. The water intake pipe of the multi-compartment decompression boiling cleaning and disinfecting machine of claim 1, wherein: no. 1 is provided with No. 1 water tank pipeline of giving vent to anger, No. 1 water tank liquid level switch, No. 1 water tank temperature sensor, No. 1 water tank gas outlet, No. 1 water tank advance steam pipe, No. 1 water tank heating control valve and No. 1 and No. 2 water tank inlet channels on the water tank.

4. The water intake pipe of the multi-compartment decompression boiling cleaning and disinfecting machine of claim 1, wherein: no. 2 is provided with No. 2 water tank gas outlets, No. 2 water tank temperature sensor, No. 2 water tank steam inlet pipe, No. 2 water tank steam outlet pipeline, No. 2 water tank heating control valve, No. 2 water tank liquid level switch A and No. 2 water tank liquid level switch B on the water tank.

5. The water intake pipe of the multi-compartment decompression boiling cleaning and disinfecting machine of claim 1, wherein: no. 3 is provided with No. 3 water tank gas outlets, No. 3 water tank steam inlet pipe, No. 3 water tank temperature sensor, No. 3 water tank water inlets, No. 3 water tank heating control valves and No. 3 water tank steam outlet pipe on the water tank.

6. The water intake pipe of the multi-compartment decompression boiling cleaning and disinfecting machine of claim 1, wherein: no. 1 is provided with on the washing cabin and washs cabin water inlet control valve A, No. 1 and washs cabin evacuation control valve, No. 1 and washs cabin water inlet control valve B, No. 1 vacuum pump, total steam row mouth and steam trap.

7. The water intake pipe of the multi-compartment decompression boiling cleaning and disinfecting machine of claim 1, wherein: no. 2 is provided with disinfection cabin water inlet control valve A, No. 2 vacuum pump, 1 and No. 2 cabin water inlet shared pipeline, No. 2 disinfection cabin water inlet control valve B, No. 2 disinfection cabin vacuum control valve and No. 2 disinfection cabin water inlet pipeline on the disinfection cabin.

8. The water intake pipe of the multi-compartment decompression boiling cleaning and disinfecting machine of claim 1, wherein: no. 3 is provided with No. 3 vacuum pumps, No. 3 water tank heating control valves and No. 3 disinfection cabin vacuum control valves on the dry storehouse.

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