CN217831020U - Device cleaner - Google Patents

Abstract

The utility model belongs to the technical field of the device washs, a device purger is disclosed, the device purger is provided with first heating member including clean cabin in, clean cabin, and first heating member is connected with the heating source, and the heating source is configured to the first heating member of heating, and the device purger still includes antiseptic solution feeding device, and antiseptic solution feeding device is configured to supplying with the antiseptic solution to clean cabin in. The utility model provides a device purger has damp and hot disinfection and antiseptic solution disinfection dual mode to can the compatible device that has different disinfection demands, promptly the utility model discloses in only need prepare a device purger can, thereby reduce cost and the saving space of placing.

Description

Device cleaner

Technical Field

The utility model relates to a device washs technical field, especially relates to a device purger.

Background

The prior device cleaner generally cleans devices through the processes of leakage detection, washing, cleaning, rinsing, disinfection and drying. The disinfection mode of the device cleaner among the prior art is single, and a device cleaner only is provided with a disinfection mode promptly, when the device is not suitable for using this disinfection mode to clean the operation, just need use another kind of device cleaner, promptly, need prepare the disinfection demand of multiple device cleaner in order to satisfy different devices among the prior art, the cost of preparing multiple device cleaner is higher, and the shared space of placing of multiple device cleaner is great.

Therefore, the above problems need to be solved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a device cleaner to reduce cost and saving place the space.

To achieve the purpose, the utility model adopts the following technical proposal:

a device purger, the device purger includes clean cabin, be provided with first heating member in the clean cabin, first heating member is connected with the heating source, the heating source is configured to heat first heating member, the device purger still includes antiseptic solution feeding device, antiseptic solution feeding device be configured to supply the antiseptic solution in the clean cabin.

Preferably, the device washer further comprises a circulation line, and an upstream end and a downstream end of the circulation line are both communicated with the cleaning cabin.

Preferably, a spraying piece is arranged in the cleaning cabin, and the downstream end of the circulating pipeline is communicated with the spraying piece.

Preferably, the device cleaner further comprises a water injection chamber configured to inject water into the cleaning chamber, and a second heating element is disposed in the water injection chamber.

Preferably, a temperature controller is arranged on each of the cleaning cabin and the water injection cabin, and the temperature controller is configured to control the heating temperature of the first heating element or the second heating element.

Preferably, the top and the bottom of the cleaning cabin are provided with float switches, and the float switches are configured to detect the liquid level of the cleaning cabin.

Preferably, the top of the water injection cabin is provided with the float switch.

Preferably, the disinfectant liquid supply device includes a disinfectant liquid supply tank that communicates with the cleaning compartment through a first passage.

Preferably, the disinfectant solution supply device further includes a first drive pump and a disinfectant solution supply valve, and the first drive pump and the disinfectant solution supply valve are both provided on the first passage.

Preferably, the cleaning cabin is communicated with an external water source.

The utility model has the advantages that: the utility model provides a device purger has damp and hot disinfection and antiseptic solution disinfection dual mode to can the compatible device that has different disinfection demands, promptly the utility model discloses in only need prepare a device purger can, thereby reduce cost and the saving space of placing.

Drawings

Fig. 1 is a schematic structural diagram of a device cleaner in an embodiment of the present invention.

In the figure:

1. cleaning the cabin; 11. a first heating member; 12. a spraying member; 13. a temperature controller; 14. a float switch; 15. an exhaust port; 16. an exhaust valve;

2. a heating source; 21. a heating valve;

3. a disinfectant liquid supply device; 31. a disinfectant liquid supply tank; 32. a first drive pump; 33. a disinfectant liquid supply valve;

41. a circulation line; 411. a circulation pump; 42. a first path; 43. a second path; 44. a third path; 45. a first gas path; 46. a second gas path;

5. a water injection cabin; 51. a second heating member;

6. an external water source; 61. a water inlet valve;

7. a water discharge device; 71. a drain valve; 72. a drain valve;

81. a cleaning liquid supply tank; 82. a second drive pump; 83. a cleaning liquid supply valve;

91. a fan; 92. a heater; 93. an air filter; 94. a vacuum pump; 95. a vacuum pumping valve; 96. and (4) an air return valve.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not to be construed as limiting the invention. It should be further noted that, for the convenience of description, only some of the structures associated with the present invention are shown in the drawings, not all of them.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "right", etc. are used in an orientation or positional relationship based on that shown in the drawings only for convenience of description and simplicity of operation, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

The disinfection modes of medical instruments in the prior art are generally divided into two modes of damp-heat disinfection and disinfectant disinfection, but the disinfection mode of a device cleaner for cleaning medical instruments in the prior art is single, namely, one device cleaner is only provided with one of the two disinfection modes of damp-heat disinfection and disinfectant disinfection, illustratively, if one device cleaner can only carry out disinfectant disinfection, for devices which are not suitable for disinfection through disinfectant, the device cleaner is not suitable for disinfection, in order to clean the devices which are not suitable for disinfection through disinfectant, another device cleaner needs to be additionally prepared in the prior art, the disinfection mode of the device cleaner is damp-heat disinfection, so that the disinfection requirements of different devices are met, but the cost for preparing the two device cleaners is high, and the occupied placing space of the two device cleaners is large.

To solve the above problem, referring to fig. 1, the present embodiment provides a device cleaner, which includes a cleaning cabin 1, a first heating member 11 disposed in the cleaning cabin 1, the first heating member 11 connected to a heating source 2, the heating source 2 configured to heat the first heating member 11, and a disinfectant supplying device 3, wherein the disinfectant supplying device 3 is configured to supply disinfectant into the cleaning cabin 1.

The device cleaner in this embodiment has damp and hot disinfection and antiseptic solution disinfection dual mode to can the compatible device that has different disinfection demands, in this embodiment only need prepare a device cleaner promptly can, thereby reduce cost and save and place the space.

Specifically, in this embodiment, a device to be cleaned can be placed in the cleaning cabin 1, water can be injected into the cleaning cabin 1, a steam source is adopted as the heating source 2 in this embodiment, the first heating member 11 is communicated with the heating source 2 through the heating valve 21, for a device suitable for moist heat disinfection, the first heating member 11 can heat the water injected into the cleaning cabin 1 to perform moist heat disinfection on the device through water with high temperature, for a device suitable for disinfectant disinfection, the disinfectant supply device 3 can supply disinfectant into the cleaning cabin 1, and the disinfectant injected into the cleaning cabin 1 can be mixed with the water in the cleaning cabin 1 to disinfect the device.

It is understood that, in other alternative embodiments, the heating source 2 may be provided as a hot water source, a heat transfer oil source, etc., and this is not particularly limited in this embodiment.

Further, the disinfecting liquid supply device 3 in the present embodiment includes a disinfecting liquid supply tank 31, and the disinfecting liquid supply tank 31 communicates with the cleaning compartment 1 through the first passage 42 to supply the disinfecting liquid to the cleaning compartment 1.

In this embodiment, the disinfecting liquid supplying apparatus 3 further includes a first driving pump 32 and a disinfecting liquid supplying valve 33, and both the first driving pump 32 and the disinfecting liquid supplying valve 33 are disposed on the first passage 42 to control the supply amount of the disinfecting liquid.

Preferably, the device cleaner in this embodiment further includes a circulation pipeline 41, a circulation pump 411 is disposed on the circulation pipeline 41, both the upstream end and the downstream end of the circulation pipeline 41 are communicated with the cleaning cabin 1, and the circulation pipeline 41 can circulate the liquid mixed with water and disinfectant, so as to ensure that the disinfectant and the water are uniformly mixed, and further improve the disinfection effect.

Further, a spraying member 12 is disposed in the cleaning chamber 1 in the embodiment, and the downstream end of the circulation pipeline 41 is communicated with the spraying member 12, so that the liquid mixed with water and disinfectant is uniformly sprayed to the devices in the cleaning chamber 1, thereby further improving the disinfection effect.

In order to inject water into the cleaning cabin 1, the device cleaner in this embodiment further includes a water injection cabin 5, the water injection cabin 5 is communicated with an external water source 6 through a water inlet valve 61 to control water injection into the water injection cabin 5, the water injection cabin 5 is configured to inject water into the cleaning cabin 1, in this embodiment, the water injection cabin 5 injects water into the cleaning cabin 1 through the second passage 43, a second heating member 51 is disposed in the water injection cabin 5, and the second heating member 51 can preheat the water in the water injection cabin 5 before injecting water into the cleaning cabin 1 next time, so as to reduce the heating time of the second heating member 51, and further improve the working efficiency of the device cleaner.

It will be appreciated that the second heating member 51 in this embodiment is also in communication with the heating source 2 via the heating valve 21 to heat the water in the filling tank 5.

When the device is disinfected by adopting a disinfection solution disinfection method, the liquid mixed with water and disinfection solution in the cleaning cabin 1 needs to be at a proper temperature, but the temperature is lower than the water temperature when the device is disinfected by adopting a damp-heat disinfection method, in order to accurately control the temperature of the liquid mixed with water and disinfection solution, the cleaning cabin 1 in the embodiment is also communicated with an external water source 6, a water inlet valve 61 is also arranged between the cleaning cabin 1 and the external water source 6, the external water source 6 can inject water into the cleaning cabin 1 when the water temperature in the cleaning cabin 1 is too high, so that the temperature of the liquid mixed with water and disinfection solution in the cleaning cabin 1 is accurately controlled, and the disinfection effect is further ensured.

Further, the cleaning cabin 1 and the water injection cabin 5 in this embodiment are both provided with a temperature controller 13, the temperature controller 13 is configured to control the heating temperature of the first heating element 11 or the second heating element 51, the temperature controller 13 in the cleaning cabin 1 is electrically connected to the heating valve 21 between the heating source 2 and the first heating element 11 to control the on/off of the heating valve 21 between the heating source 2 and the first heating element 11, and is also electrically connected to the water inlet valve 61 between the cleaning cabin 1 and the external water source 6 and the cleaning cabin 1 to control the on/off of the water inlet valve 61 between the external water source 6 and the cleaning cabin 1, so as to accurately control the water temperature in the cleaning cabin 1 when the damp-heat disinfection mode is adopted, and accurately control the temperature of the liquid mixed with water and disinfectant in the cleaning cabin 1 when the disinfectant disinfection mode is adopted, and simultaneously, the temperature controller 13 in the water injection cabin 5 is electrically connected to the heating valve 21 between the heating element 2 and the second heating element 51 to control the water temperature in the water injection cabin 5.

It is understood that the PT100 temperature sensor is used as the temperature controller 13 in this embodiment, and of course, in other alternative embodiments, other types of temperature sensors may be used as the temperature controller 13, which is not particularly limited in this embodiment.

Preferably, the top and the bottom of the cleaning chamber 1 in this embodiment are provided with float switches 14, and the float switches 14 are configured to detect the liquid level of the cleaning chamber 1, so as to ensure that the water or the liquid mixed with water and disinfectant in the cleaning chamber 1 can fully submerge the devices, thereby ensuring that all the devices can be effectively sterilized.

It is understood that the device cleaner in this embodiment further includes a drain device 7, the circulation line 41 in this embodiment is communicated with the drain device 7 through a drain valve 71 to drain the water or the liquid mixed with the water and the disinfecting liquid in the cleaning chamber 1, and the float switch 14 disposed at the bottom of the cleaning chamber 1 can detect whether the water or the liquid mixed with the water and the disinfecting liquid in the cleaning chamber 1 is completely drained.

Meanwhile, the first heating member 11 and the second heating member 51 in the present embodiment are both communicated with the drainage device 7 through the drain valve 72 to drain the water in the first heating member 11 and the second heating member 51.

It is understood that the floating ball switch 14 is also provided in the filling chamber 5 in this embodiment, only one floating ball switch 14 is provided in the filling chamber 5, and when the level of the water in the filling chamber 5 is higher than the level indicated by the floating ball switch 14, the water inlet valve 61 provided between the filling chamber 5 and the external water source 6 is closed.

Based on the foregoing, the device washer needs to wash the device before disinfecting the device, and in this embodiment, the device is washed by supplying the cleaning agent into the cleaning chamber 1, and it can be understood that the water injection chamber 5 injects water into the cleaning chamber 1 before supplying the cleaning agent into the cleaning chamber 1. In order to supply the cleaning agent into the cleaning chamber 1, the device cleaner in this embodiment further includes a cleaning agent supply tank, a cleaning agent supply valve, and a second drive pump 82, the cleaning chamber 1 and the cleaning agent supply tank are communicated through the third passage 44, the cleaning agent supply tank is configured to supply the cleaning agent into the cleaning chamber 1, and the cleaning agent supply valve and the second drive pump 82 are both provided on the third passage 44 to control the supply amount of the cleaning agent.

It can be understood that the above-mentioned circulation pipeline 41 can also circulate the cleaning liquid mixed by the cleaning agent and water in the cleaning chamber 1, so as to ensure that the dirt on the device can be completely cleaned, and at the same time, the spraying component 12 can make the cleaning liquid uniformly spray to the device in the cleaning chamber, so as to further ensure that the dirt on the device can be completely cleaned.

Further, after the device cleaner sterilizes the device, the device needs to be dried first, in order to dry the device, the device cleaner in this embodiment further includes a drying device, the drying device includes a fan 91 and a heater 92, the heater 92 is communicated between the fan 91 and the cleaning cabin 1 through the first air path 45, the fan 91 can convey outside air to the heater 92, the heater 92 heats the air, and the heated air is conveyed into the cleaning cabin 1, it can be understood that an air filter 93 is disposed between the fan 91 and the outside in this embodiment, and the air filter 93 can filter the air blown to the heater 92 by the fan 91, so as to avoid recontamination of the device that has been sterilized due to impurities in the air entering the cleaning cabin 1.

Illustratively, an interlayer (not shown in the figure) may be disposed in the cleaning cabin 1 to divide the space in the cleaning cabin 1 into an upper part and a lower part, the upper space and the lower space inside the cleaning cabin 1 may both contain devices with smaller volumes, the interlayer inside the cleaning cabin 1 may also be removed to enable devices with larger volumes to be contained in the cleaning cabin 1, preferably, the cleaning cabin 1 in this embodiment is provided with two exhaust ports 15, the two exhaust ports 15 are respectively located at the top and the bottom of the cleaning cabin 1, the two exhaust ports 15 are both communicated with the outside, an exhaust valve 16 is disposed between the two exhaust ports 15 and the outside to enable the two exhaust ports 15 to be alternately communicated with the outside, so that the hot air fed into the cleaning cabin 1 alternately circulates from the top and the bottom of the cleaning cabin 1 to the outside, and further, the devices located in the upper space and the lower space inside the cleaning cabin 1 can be effectively dried, or the upper half and the lower half of the devices with larger volumes inside the cleaning cabin 1 can be effectively dried.

Further, the drying device in this embodiment further includes a vacuum pump 94, the vacuum pump 94 is communicated with the cleaning cabin 1, a vacuum pumping valve 95 is disposed between the vacuum pump 94 and the cleaning cabin 1, when the two exhaust ports 15 are alternately communicated with the outside for a period of time, the two exhaust valves 16 are both closed, the vacuum pumping valve 95 is opened, the vacuum pump 94 pumps vacuum in the cleaning cabin 1, so as to reduce the air pressure in the cleaning cabin 1, thereby reducing the boiling point of water in the cleaning cabin 1, and further facilitating vaporization of liquid water attached to the surface of the device in the cleaning cabin 1, so as to further dry the device, it can be understood that the vaporized water can be pumped away by the vacuum pump 94 along with the air in the cleaning cabin 1, meanwhile, the cleaning cabin 1 in this embodiment is communicated with the outside through the second air path 46, the second air path 46 is provided with an air return valve 96, and when the air return valve 96 is opened, the air pressure in the cleaning cabin 1 can gradually return to the atmospheric pressure.

It is understood that the vacuum pump 94 in this embodiment is a water ring vacuum pump, and therefore the vacuum pump 94 is connected between the external water source 6 and the drainage device 7, but the vacuum pump 94 may alternatively be configured to perform vacuum pumping through other mediums in alternative embodiments, which are not limited in this embodiment.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Numerous obvious variations, rearrangements and substitutions will now occur to those skilled in the art without departing from the scope of the invention. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A device cleaner comprising a cleaning chamber (1), characterized in that a first heating element (11) is arranged in the cleaning chamber (1), that the first heating element (11) is connected to a heating source (2), that the heating source (2) is arranged to heat the first heating element (11), that the device cleaner further comprises a disinfecting liquid supply device (3), that the disinfecting liquid supply device (3) is arranged to supply a disinfecting liquid into the cleaning chamber (1).

2. The implement washer according to claim 1, characterized in that the implement washer further comprises a circulation line (41), an upstream end and a downstream end of the circulation line (41) both communicating with the cleaning chamber (1).

3. The device washer according to claim 2, wherein a shower (12) is provided in the cleaning chamber (1), and a downstream end of the circulation line (41) communicates with the shower (12).

4. The device cleaner according to claim 1, further comprising a water injection compartment (5), the water injection compartment (5) being configured to inject water into the cleaning compartment (1), the water injection compartment (5) having a second heating element (51) disposed therein.

5. The device washer according to claim 4, wherein a temperature controller (13) is provided on each of the cleaning compartment (1) and the water injection compartment (5), the temperature controller (13) being configured to control a heating temperature of the first heating member (11) or the second heating member (51).

6. The ware washer according to claim 4, wherein the cleaning chamber (1) is provided with a float switch (14) at both the top and the bottom, the float switch (14) being configured to detect the liquid level of the cleaning chamber (1).

7. The device cleaner according to claim 6, characterized in that the top of the water injection compartment (5) is provided with the float switch (14).

8. Device washer according to claim 1, characterized in that the disinfecting liquid supply means (3) comprises a disinfecting liquid supply tank (31), the disinfecting liquid supply tank (31) communicating with the cleaning chamber (1) through a first passage (42).

9. Device washer according to claim 8, characterized in that the disinfecting liquid supply means (3) further comprises a first drive pump (32) and a disinfecting liquid supply valve (33), both the first drive pump (32) and the disinfecting liquid supply valve (33) being provided on the first passage (42).

10. The implement washer according to claim 1, characterized in that the cleaning chamber (1) is in communication with an external water source (6).

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