CN214858066U - Heating, disinfecting and washing device of nursing robot - Google Patents

Abstract

The utility model relates to a water washing field discloses a nursing robot's heating disinfection washing unit. The heating, disinfecting and washing device of the nursing robot comprises: the water storage device is connected with the circulating shunt valve through a circulating water outlet pipe and a water replenishing pipe, the circulating shunt valve is connected with the circulating water pump through a circulating water pump water inlet pipe, the circulating water pump is connected with the UV sterilizer through a circulating water pump water outlet pipe, the UV sterilizer is connected with the water heater through a circulating internal transfer pipe, the water heater is connected with the water storage device through a water return pipe, the water storage device is connected with the flushing water pump through a flushing water pump water inlet pipe, the flushing water pump is connected with a water drain valve through a flushing water pump water outlet pipe, the water drain valve is connected with the flushing shunt valve through a shunt valve water inlet pipe, the flushing shunt valve divides water in the shunt valve water inlet pipe into two paths for output, the flushing shunt valve is connected with the transfer device through a first transfer pipe and a second transfer pipe, and the transfer device is connected with the working head through a first water outlet pipe and a second water outlet pipe.

Description

Heating, disinfecting and washing device of nursing robot

Technical Field

The utility model relates to a water washing field discloses a nursing robot's heating disinfection washing unit.

Background

As the population ages, more and more chronic diseases appear in the population, and the cardiovascular and cerebrovascular diseases bring inconvenience to the movement of patients, which brings huge barriers to the lives of the patients. The defecation caused by the patient moving inconveniently can not be self-care, the nursing of medical staff is needed, the nursing needs to accompany the patient for a long time, and the nursing cost is high, and the nursing effect is not good. The nursing machine is generally a wearable machine and is provided with a excrement collector, a water purification tank and a sewage tank, wherein the excrement collector is used for extracting and discharging dirt, the purified water in the water purification tank is used for flushing the dirt, the flushed sewage is collected into the sewage tank by the working head, the dirt discharged in the working head is extracted into the excrement collector by the air extractor, the working head is cleaned by the water in the water purification tank to ensure the cleanness in use, and the water purification tank can be repeatedly detached to supplement clean water to ensure that the nursing machine can normally work for nursing the patient.

The current nursing machine is at the washing in-process, and nursing robot washing unit has two high pressure water pumps by the way, and one is that high pressure water pump is used for extracting warm water and washes patient's buttock, and another high pressure water pump is that the extraction cold water comes clean blowdown thing and is convenient for the work head extraction to hold filth thing, but when using like this, can influence the experience by the nursing person, because the rivers of cold water can't fine control sometimes, and only adopt the warm water to wash then can reduce this kind of influence. This in turn creates a new problem, namely how the warm water is particularly split-flow rinsed, and therefore, a separate warm water rinsing and cleaning care technique is required.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at solves the technical problem of the washing water flow branch of nursing machine when exporting the warm water alone.

The utility model discloses the first aspect provides a nursing robot's heating disinfection washing unit, nursing robot's heating disinfection washing unit includes: the water storage device, the flushing water pump, the water drain valve, the flushing water distribution valve, the working head, the transfer device, the circulating water distribution valve, the UV sterilizer, the water heater, the circulating water pump and the hose connecting assembly;

the hose coupling assembly includes: a water inlet pipe of a washing water pump, a water outlet pipe of the washing water pump, a water inlet pipe of a shunt valve, a first transit pipe, a second transit pipe, a first water outlet pipe, a second water outlet pipe, a circulating water outlet pipe, a water supplementing pipe, a water inlet pipe of a circulating water pump, a water outlet pipe of the circulating water pump, a circulating transit pipe and a water return pipe;

the water storage device is connected with the circulating shunt valve through the circulating water outlet pipe and the water replenishing pipe, the circulating shunt valve is connected with the circulating water pump through the circulating water pump water inlet pipe, the circulating water pump is connected with the UV sterilizer through the circulating water pump water outlet pipe, the UV sterilizer is connected with the water heater through the circulating revolving pipe, the water heater is connected with the water storage device through the water return pipe, the water storage device is connected with the flushing water pump through the flushing water pump water inlet pipe, the flushing water pump is connected with the water drain valve through the flushing water pump water outlet pipe, the water drain valve is connected with the flushing shunt valve through the shunt valve water inlet pipe, the flushing shunt valve divides water in the shunt valve water inlet pipe into two paths for output, and the flushing shunt valve is connected with the flushing shunt valve through the first transit pipe, The second transit pipe is connected with the transit device, and the transit device is connected with the working head through the first water outlet pipe and the second water outlet pipe.

Optionally, in a first implementation manner of the first aspect of the present invention, the water inlet pipe of the flush water pump includes: the air-water flushing device comprises an air branch hose, a water inlet branch hose and a water outlet branch hose, wherein the water inlet branch hose is connected with the water storage device, the water outlet branch hose is connected with the flushing water pump, and the water inlet branch hose is used for adjusting the pumping air pressure of the flushing water pump.

Optionally, in a second implementation manner of the first aspect of the present invention, the air branch hose is connected to a vent valve, and the vent valve is provided with an air vent for adjusting the pumping pressure of the flushing water pump.

Optionally, in a third implementation manner of the first aspect of the present invention, the flush water pump includes: the water pump comprises a water inlet screw, a water inlet adapter, a water outlet screw, a water outlet adapter and a pump body, wherein the pump body is provided with a pump body water inlet and a pump body water outlet, the water inlet adapter is rotationally buckled with the pump body water inlet, the water inlet screw is rotationally buckled with the water inlet adapter for stabilizing the connection of the flushing water pump and the flushing water pump water inlet pipe, the water outlet adapter is rotationally buckled with the pump body water outlet, the water outlet screw is rotationally buckled with the water inlet adapter for stabilizing the connection of the flushing water pump and the flushing water pump water outlet pipe, the flushing water pump water outlet pipe is connected with the water inlet adapter, and the flushing water pump water inlet pipe is connected with the water inlet adapter.

Optionally, in a fourth implementation manner of the first aspect of the present invention, the water storage device includes: the water purifying device comprises a water purifying bucket and a water purifying bucket mounting groove, wherein the water purifying bucket is embedded into the water purifying bucket mounting groove, the water purifying bucket is used for storing cold clean water, the water purifying bucket mounting groove is used for storing heated clean water, and the water purifying bucket mounting groove is connected with a flushing water pump through a flushing water pump inlet pipe.

Optionally, in a fifth implementation manner of the first aspect of the present invention, the purified water bucket installation groove includes: apopore, inlet opening, moisturizing hole, wash water hole, the apopore is connected circulation outlet pipe, the inlet opening is connected the wet return, the moisturizing jogged joint the moisturizing pipe, the wash water jogged joint the wash water pump inlet tube.

Optionally, the utility model discloses in the sixth kind of implementation of the first aspect, circulating water pump water inlet, circulating water pump outlet have been seted up to circulating water pump, the circulating water pump water inlet is connected the circulating water pump inlet tube, the circulating water pump outlet is connected the circulating water pump outlet pipe, disinfection water inlet, disinfection delivery port have been seted up to the UV sterilizer, the disinfection water inlet is connected the circulating water pump outlet pipe, the disinfection delivery port is connected the circulation transfer pipe, water heater has seted up heating water inlet, heating delivery port, the heating water inlet is connected the circulation transfer pipe, the heating delivery port is connected the wet return, the wet return is connected the inlet opening.

Optionally, in a seventh implementation manner of the first aspect of the present invention, the working head includes: the flushing hole is connected with the first water outlet pipe, the dirt flushing hole is connected with the second water outlet pipe, the flushing shunt valve is provided with a valve water inlet, a first valve water outlet and a second valve water outlet, the valve water inlet is connected with the shunt valve water inlet pipe, the first valve water outlet is connected with the first transfer pipe, and the second valve water outlet is connected with the second transfer pipe.

Optionally, the utility model discloses in the eighth implementation of the first aspect, first transfer water inlet, second transfer water inlet, first transfer delivery port, second transfer delivery port have been seted up to the transfer ware, first transfer water inlet with first transfer delivery port communicates with each other, second transfer water inlet with second transfer delivery port communicates with each other.

Optionally, the utility model discloses in the ninth implementation of the first aspect, first transfer water inlet with first transfer pipe links to each other, second transfer water inlet with second transfer pipe links to each other, first transfer delivery port with first outlet pipe links to each other, second transfer delivery port with the second outlet pipe links to each other.

The embodiment of the utility model provides a, restrain the aqueous humor to clean water through heating disinfection module and pollute by microorganism, the warm water in the washing water pump extraction cask is shunted rivers through washing the shunt valve, washes the nursing in proper order and clears up row filth, the washing water flow branch of nursing machine when having realized whole independent output warm water.

Drawings

FIG. 1 is a schematic view of the overall structure of a heating, disinfecting and washing device of a nursing robot in an embodiment of the present invention;

FIG. 2 is a schematic structural view of a water inlet pipe of a flush pump according to an embodiment of the present invention;

FIG. 3 is an exploded view of the flush pump according to an embodiment of the present invention;

FIG. 4 is a schematic view of the connection of the inlet pipe of the flush pump according to the embodiment of the present invention;

FIG. 5 is an exploded view of the flush pump according to an embodiment of the present invention;

fig. 6 is an exploded schematic view of the water storage device in the embodiment of the present invention;

FIG. 7 is a distribution diagram of the holes after the hose connecting assembly is hidden in the nursing robot washing, heating and disinfecting device in the embodiment of the present invention;

FIG. 8 is a schematic view of an opening of the working head according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of the repeater according to an embodiment of the present invention.

Detailed Description

The embodiment of the utility model provides a heating disinfection washing unit of nursing robot.

In order to make the technical solution, purpose, technical solution and advantages of the present invention clearer, the following description will be combined with the drawings of the exemplary embodiments of the present invention to clearly and completely describe the technical solution of the embodiments of the present invention. Like reference symbols in the various drawings indicate like elements. It should be noted that the described embodiments are only some embodiments of the present invention, and not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive work based on the described embodiments of the present invention, belong to the protection scope of the present invention.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the description and in the claims does not indicate any order, quantity, or importance, but rather is used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not necessarily denote a limitation of quantity. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

As shown in fig. 1, a schematic structural diagram of an overall heating, disinfecting and washing device of a nursing robot is shown, and in one embodiment, the heating, disinfecting and washing device of the nursing robot includes: the device comprises a water storage device 101, a flushing water pump 102, a water drain valve 103, a flushing water distribution valve 104, a working head 105, a transfer device 106, a circulating water distribution valve 107, a UV sterilizer 108, a water heater 109, a circulating water pump 110 and a hose connecting assembly; the hose coupling assembly includes: a washing water pump water inlet pipe 201, a washing water pump water outlet pipe 202, a shunt valve water inlet pipe 203, a first transit pipe 204, a second transit pipe 205, a first water outlet pipe 206, a second water outlet pipe 207, a circulating water outlet pipe 208, a water replenishing pipe 209, a circulating water pump water inlet pipe 210, a circulating water pump water outlet pipe 211, a circulating transit pipe 212 and a water return pipe 213; the water storage device 101 is connected to the circulating water distribution valve 107 through the circulating water outlet pipe 208 and the water replenishing pipe 209, the circulating water distribution valve 107 is connected to the circulating water pump 110 through the circulating water pump inlet pipe 210, the circulating water pump 110 is connected to the UV sterilizer 108 through the circulating water pump outlet pipe 211, the UV sterilizer 108 is connected to the water heater 109 through the circulating water circulating pipe 212, the water heater 109 is connected to the water storage device 101 through the water return pipe 213, the water storage device 101 is connected to the rinse water pump 102 through the rinse water pump inlet pipe 201, the rinse water pump 102 is connected to the drain valve 103 through the rinse water pump outlet pipe 202, the drain valve 103 is connected to the rinse water distribution valve 104 through the water distribution valve inlet pipe 203, and the rinse water distribution valve 104 divides the water in the water distribution valve inlet pipe 203 into two paths for output, the flushing shunt valve 104 is connected with the transfer device 106 through the first transfer pipe 204 and the second transfer pipe 205, and the transfer device 106 is connected with the working head 105 through the first water outlet pipe 206 and the second water outlet pipe 207.

Specifically, in the water flow direction, clean water flows into the circulating water diversion valve 107 from the water storage device 101 through the circulating water outlet pipe 208 and the water replenishing pipe 209, flows into the circulating water pump 110 from the circulating water diversion valve 107 through the circulating water pump water inlet pipe 210, the circulating water pump 110 is used for pumping the water to generate power of water flow, then the water flows into the UV sterilizer 108 through the circulating water pump water outlet pipe 211, the UV sterilizer 108 sterilizes and sterilizes the clean water through ultraviolet rays, the water flows into the water heater 109 through the circulating water circulating pipe 212, the water heater 109 is used for heating the clean water, and the clean water returns to the water storage device through the water return pipe 213 to finish water treatment. Specifically, during the flushing process, heated clean water is pumped from the water storage device 101 by the flush water pump 102, enters the flush water pump 102 through the flush water pump inlet pipe 201, flows out of the flush water pump outlet pipe 202, and enters the drain valve 103. Then, the clean water enters the flushing shunt valve 104 through the shunt valve inlet pipe 203, the water flow is divided into two parts, one part enters the first transfer pipe 204, and enters the first outlet pipe 206 after passing through the transfer device 106. The other part enters a second transit pipe 205, passes through the transit 106, and enters a second water outlet pipe 207. The two parts of water are ejected in the working head 105 to carry out the flushing work, and the tasks of flushing, cleaning and disposing of dirt are completed.

As shown in fig. 2, a schematic structural diagram of the inlet pipe of the flush water pump is shown, and as shown in fig. 3, a schematic connection diagram of the inlet pipe of the flush water pump is shown, and in an embodiment, the inlet pipe 201 of the flush water pump includes: the air-water flushing device comprises an air branch hose 201c, a water inlet branch hose 201a and a water outlet branch hose 201b, wherein the water inlet branch hose 201c is connected with the water storage device 101, the water outlet branch hose 201b is connected with the flushing water pump 102, and the water inlet branch hose 201a is used for adjusting the pumping air pressure of the flushing water pump 102. The air branch hose 201c is connected to a vent valve 201d, and the vent valve 201d is provided with a vent hole 201e for adjusting the pumping pressure of the flush water pump 102.

As shown in fig. 4, which shows an exploded view of the flush pump, in one embodiment, the flush pump 102 comprises: water inlet screw 1025, water inlet adapter 1024, delivery port screw 1022, delivery port adapter 1021, the pump body 1023, pump body 1023 has been seted up to the pump body 1023 and pump body delivery port 10231, the rotatory buckle of water inlet adapter 1024 is in pump body water inlet 10232, the rotatory buckle of water inlet screw 1025 is in water inlet adapter 1024 is used for stabilizing flush water pump 102 with the connection of flush water pump inlet tube 201, the rotatory buckle of delivery port adapter 1021 is in pump body delivery port 10231, the rotatory buckle of delivery port screw 1022 is in water inlet adapter 1021 is used for stabilizing flush water pump 102 with the connection of flush water pump outlet pipe 202, flush water pump outlet pipe 202 with water inlet adapter 1024 links to each other, flush water pump inlet tube 201 with water inlet adapter 1021 links to each other.

As shown in fig. 5, an exploded schematic view of a water storage apparatus is shown, in an embodiment, the water storage apparatus 101 includes: clear water bucket 101a, clear water bucket mounting groove 101b, clear water bucket 101a imbeds in the clear water bucket mounting groove 101b, clear water bucket 101a is used for storing cold clean water, clear water bucket mounting groove 101b is used for storing heated clean water, clear water bucket mounting groove 101b pass through wash water pump inlet tube 201 with wash water pump 202 links to each other, still be provided with on the clear water bucket 101a and remove handle 101 c.

As shown in fig. 6, the schematic diagram of the exploded structure of the water storage device, in one embodiment, shows the distribution diagram of the holes after the nursing robot washes the hidden hose connection assembly of the heating and disinfecting device, and the water purification bucket installation slot includes: apopore 301, inlet opening 309, moisturizing hole 302, wash water hole 312, apopore 301 is connected circulation outlet pipe 208, inlet opening 301 connects return pipe 213, moisturizing hole 302 is connected moisturizing pipe 209, wash water hole 312 is connected wash water pump inlet tube 201. The circulating water pump 110 is provided with a circulating water pump water inlet 305 and a circulating water pump water outlet 306, the circulating water pump water inlet 306 is connected with the circulating water pump water inlet pipe 210, the circulating water pump water outlet 306 is connected with the circulating water pump water outlet pipe 211, the UV sterilizer 108 is provided with a sterilization water inlet 310 and a sterilization water outlet 311, the sterilization water inlet 310 is connected with the circulating water pump water outlet pipe 211, the sterilization water outlet 311 is connected with the circulating intermediate transfer pipe 212, the water heater 109 is provided with a heating water inlet 308 and a heating water outlet 309, the heating water inlet 308 is connected with the circulating intermediate transfer pipe 212, the heating water outlet 307 is connected with the water return pipe 213, and the water return pipe 213 is connected with the water inlet 309.

As shown in fig. 7, a schematic opening of the working head is shown, and in one embodiment, the working head 105 includes: a flushing hole 1051 and a sewage flushing hole 1052, wherein the flushing hole 1051 is connected with the first water outlet pipe 206, and the sewage flushing hole 1052 is connected with the second water outlet pipe 207.

As shown in fig. 8, a schematic structural diagram of the flushing shunt valve is shown, in an embodiment, the flushing shunt valve 104 is provided with a valve water inlet 1041, a first valve water outlet 1042 and a second valve water outlet 1043, the valve water inlet 1041 is connected to the shunt valve water inlet pipe 203, the first valve water outlet 1042 is connected to the first transit pipe 204, and the second valve water outlet 1043 is connected to the second transit pipe 205.

As shown in fig. 9, a schematic structural diagram of the transit device is shown, in an embodiment, the transit device 106 is provided with a first transit water inlet 1061, a second transit water inlet 1063, a first transit water outlet 1602 and a second transit water outlet 1064, the first transit water inlet 1061 is communicated with the first transit water outlet 1602, and the second transit water inlet 1063 is communicated with the second transit water outlet 1064. The first transit water inlet 1061 is connected to the first transit pipe 204, the second transit water inlet 1063 is connected to the second transit pipe 205, the first transit water outlet 1062 is connected to the first water outlet pipe 206, and the second transit water outlet 1064 is connected to the second water outlet pipe 207.

The previous description of the disclosure is provided to enable any person skilled in the art to make or use the present invention. Various modifications to the disclosure will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other variations without departing from the spirit or scope of the disclosure. In addition, those skilled in the art can appreciate that various modifications and alterations can be made to the above-described exemplary embodiments without departing from the concept of the present invention, and various combinations of the various technical features and structures provided by the present invention can be made without departing from the scope of the present invention.

Claims (10)

1. A heating sterilization washing unit of a nursing robot, characterized in that, the heating sterilization washing unit of a nursing robot includes: the water storage device, the flushing water pump, the water drain valve, the flushing water distribution valve, the working head, the transfer device, the circulating water distribution valve, the UV sterilizer, the water heater, the circulating water pump and the hose connecting assembly;

the hose coupling assembly includes: a water inlet pipe of a washing water pump, a water outlet pipe of the washing water pump, a water inlet pipe of a shunt valve, a first transit pipe, a second transit pipe, a first water outlet pipe, a second water outlet pipe, a circulating water outlet pipe, a water supplementing pipe, a water inlet pipe of a circulating water pump, a water outlet pipe of the circulating water pump, a circulating transit pipe and a water return pipe;

the water storage device is connected with the circulating shunt valve through the circulating water outlet pipe and the water replenishing pipe, the circulating shunt valve is connected with the circulating water pump through the circulating water pump water inlet pipe, the circulating water pump is connected with the UV sterilizer through the circulating water pump water outlet pipe, the UV sterilizer is connected with the water heater through the circulating revolving pipe, the water heater is connected with the water storage device through the water return pipe, the water storage device is connected with the flushing water pump through the flushing water pump water inlet pipe, the flushing water pump is connected with the water drain valve through the flushing water pump water outlet pipe, the water drain valve is connected with the flushing shunt valve through the shunt valve water inlet pipe, the flushing shunt valve divides water in the shunt valve water inlet pipe into two paths for output, and the flushing shunt valve is connected with the flushing shunt valve through the first transit pipe, The second transit pipe is connected with the transit device, and the transit device is connected with the working head through the first water outlet pipe and the second water outlet pipe.

2. A heating sterilization washing unit of a nursing robot as recited in claim 1, characterized in that the washing water pump inlet tube comprises: the air-water flushing device comprises an air branch hose, a water inlet branch hose and a water outlet branch hose, wherein the water inlet branch hose is connected with the water storage device, the water outlet branch hose is connected with the flushing water pump, and the water inlet branch hose is used for adjusting the pumping air pressure of the flushing water pump.

3. A heat disinfection washing apparatus of a nursing robot as claimed in claim 2, characterized in that the air branch hose is connected with a vent valve provided with a vent hole for adjusting the pumping pressure of the washing water pump.

4. A heat disinfection washing apparatus of a nursing robot as recited in claim 1, characterized in that said washing water pump comprises: the water pump comprises a water inlet screw, a water inlet adapter, a water outlet screw, a water outlet adapter and a pump body, wherein the pump body is provided with a pump body water inlet and a pump body water outlet, the water inlet adapter is rotationally buckled with the pump body water inlet, the water inlet screw is rotationally buckled with the water inlet adapter for stabilizing the connection of the flushing water pump and the flushing water pump water inlet pipe, the water outlet adapter is rotationally buckled with the pump body water outlet, the water outlet screw is rotationally buckled with the water inlet adapter for stabilizing the connection of the flushing water pump and the flushing water pump water outlet pipe, the flushing water pump water outlet pipe is connected with the water inlet adapter, and the flushing water pump water inlet pipe is connected with the water inlet adapter.

5. The heating disinfecting and washing apparatus of a nursing robot as claimed in claim 1, wherein the water storage means comprises: the water purifying device comprises a water purifying bucket and a water purifying bucket mounting groove, wherein the water purifying bucket is embedded into the water purifying bucket mounting groove, the water purifying bucket is used for storing cold clean water, the water purifying bucket mounting groove is used for storing heated clean water, and the water purifying bucket mounting groove is connected with a flushing water pump through a flushing water pump inlet pipe.

6. The thermal sterilization washing unit of a nursing robot as set forth in claim 5, wherein said clean water bucket installation groove includes: apopore, inlet opening, moisturizing hole, wash water hole, the apopore is connected circulation outlet pipe, the inlet opening is connected the wet return, the moisturizing jogged joint the moisturizing pipe, the wash water jogged joint the wash water pump inlet tube.

7. The heating, disinfecting and flushing device of a nursing robot as claimed in claim 6, wherein the circulating water pump is provided with a circulating water pump water inlet and a circulating water pump water outlet, the circulating water pump water inlet is connected with the circulating water pump water inlet pipe, the circulating water pump water outlet is connected with the circulating water pump water outlet pipe, the UV disinfector is provided with a disinfecting water inlet and a disinfecting water outlet, the disinfecting water inlet is connected with the circulating water pump water outlet pipe, the disinfecting water outlet is connected with the circulating revolving pipe, the water heater is provided with a heating water inlet and a heating water outlet, the heating water inlet is connected with the circulating revolving pipe, the heating water outlet is connected with the water return pipe, and the water return pipe is connected with the water inlet hole.

8. A thermal disinfection washing apparatus as claimed in claim 1, characterised in that said working head comprises: the flushing hole is connected with the first water outlet pipe, the dirt flushing hole is connected with the second water outlet pipe, the flushing shunt valve is provided with a valve water inlet, a first valve water outlet and a second valve water outlet, the valve water inlet is connected with the shunt valve water inlet pipe, the first valve water outlet is connected with the first transfer pipe, and the second valve water outlet is connected with the second transfer pipe.

9. The heating, disinfecting and washing apparatus of a nursing robot as claimed in claim 1, wherein the relay is provided with a first relay water inlet, a second relay water inlet, a first relay water outlet and a second relay water outlet, the first relay water inlet is communicated with the first relay water outlet, and the second relay water inlet is communicated with the second relay water outlet.

10. The heating, disinfecting and washing apparatus for a nursing robot as claimed in claim 9, wherein said first transfer water inlet is connected to said first transfer pipe, said second transfer water inlet is connected to said second transfer pipe, said first transfer water outlet is connected to said first water outlet pipe, and said second transfer water outlet is connected to said second water outlet pipe.

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