CN219243787U - Humidification sterilization assembly and air conditioner - Google Patents

Abstract

The utility model belongs to the field of air conditioners, and particularly relates to a humidifying and sterilizing assembly and an air conditioner, comprising: the liquid supply devices are 1 or more in number and respectively store different liquids; the atomizing device is provided with atomizing water inlets, the quantity of the atomizing water inlets is the same as that of the liquid supply devices, and the atomizing water inlets are respectively connected with the liquid supply devices through pipelines. According to the utility model, the liquid supply devices are arranged, the number of the liquid supply devices is 1 or more, the liquid supply devices can respectively convey different types of liquid into the atomizing device, the different types of liquid are atomized in the atomizing device, the types of the liquid entering the atomizing device can be controlled by opening or closing the liquid supply devices, the liquid types can be rapidly switched between various working modes, and the use requirements of different users are met.

Description

Humidification sterilization assembly and air conditioner

Technical Field

The utility model belongs to the field of air conditioners, and particularly relates to a humidifying and sterilizing assembly and an air conditioner.

Background

Air conditioners generally have a cooling mode and a heating mode, and can supply air of a suitable temperature to a room through circulation of a refrigerant in a circuit formed by a compressor of a compressor condenser throttle evaporator. With the development of the air conditioning industry, the requirements of people on the air conditioning function are improved, more air conditioners can realize the adjustment of environmental humidity, and the whole machine has the humidifying function. In the prior art, the air conditioner has a humidifying function, but does not have an air purifying function, so that various devices such as the air conditioner, the humidifier and the air purifier appear in one space, and meanwhile, due to single function, the corresponding power is relatively large, so that frequent adjustment is required, and thus, the use inconvenience and the resource waste are caused.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a humidifying and sterilizing component and an air conditioner, which have the advantages of simple working mode switching and resource waste reduction, and solve the problems of complex working mode switching operation and resource waste.

In order to solve the technical problems, the utility model provides the following technical scheme:

a humidifying and sterilizing assembly comprising:

the liquid supply device comprises one or more liquid supply devices, and the liquid supply devices respectively store different liquids;

the atomizing device is provided with atomizing water inlets, the number of the atomizing water inlets is the same as that of the liquid supply devices, and the atomizing water inlets are respectively connected with the liquid supply devices through pipelines; the liquid supply device comprises a lower water storage component, a first pipeline is arranged on the lower water storage component, the first pipeline is far away from one end of the lower water storage component and provided with a first pump body, the output end of the first pump body is provided with an upper water storage component, the upper water storage component is provided with a water valve, the output end of the water valve is provided with a second pipeline, the water valve is respectively connected with the atomizing device through the second pipeline, and liquid in the upper water storage component respectively enters the atomizing device through the water valve and the second pipeline, and the atomizing device atomizes the liquid.

Further, atomizing device includes the atomizing casing, be provided with the atomizing basin in the atomizing casing, be provided with the atomizer in the atomizing basin, the output of atomizer extends to atomizing casing top, the atomizing casing top still covers and is equipped with the air current cover, air current cover one side is provided with the air current nozzle.

Further, the number of the air flow nozzles is a plurality of, and the air flow nozzles are uniformly arranged along the length direction of the air flow cover.

Further, the number of the air flow nozzles is single, and the air flow nozzles are uniformly arranged along the length direction of the air flow cover.

Further, the atomizer comprises a water absorption cotton pipe, the water absorption cotton pipe is arranged in the atomization water tank, an atomization ceramic piece is arranged on the water absorption cotton pipe, and the top of the atomization shell is inlaid with the atomization ceramic piece. Further, the number of the atomizers is multiple, and the atomizers are uniformly arranged along the length direction of the atomizing water tank.

Further, the lower water storage component comprises a lower water storage tank, a control chamber is arranged in the lower water storage tank, a second pump body is not arranged in the control chamber, a water suction pipe is arranged at the input end of the second pump body, the water suction pipe extends into the lower water storage tank, and the output end of the second pump body is connected with the first pipeline. Further, the top of the lower water storage tank is also provided with a lower water tank cover, the lower water tank cover is provided with a water filling port, the water filling port is provided with a dustproof cap, and the dustproof cap is in threaded connection with the water filling port.

Further, the upper water storage component comprises an upper water storage tank, an upper water inlet and an upper water outlet are arranged on the upper water storage tank, the upper water inlet is connected with the output end of the first pump body, and the upper water outlet is connected with the water valve.

The utility model also provides an air conditioner, which comprises an indoor unit, wherein the indoor unit is a hanging machine or a cabinet machine, the indoor unit is provided with an air outlet, the indoor unit is further provided with the humidifying and sterilizing assembly according to any one of the above, and the humidifying and sterilizing assembly atomizes liquid and then sprays the atomized liquid to the air outlet of the indoor unit. By means of the technical scheme, the utility model provides a humidifying and sterilizing assembly and an air conditioner, which at least have the following beneficial effects:

this humidification subassembly disinfects, through setting up the liquid supply device, the quantity of liquid supply device is one or more, and stores different liquid in the liquid supply device respectively, liquid supply device passes through the pipe connection with atomizing device respectively, liquid supply device can carry different kinds of liquid in to atomizing device respectively, different kinds of liquid atomizes after mixing in atomizing device, thereby increase the function of humidification subassembly, can control the liquid kind that gets into in the atomizing device through opening or closing of liquid supply device, can be at quick switch between various operating modes, satisfy different user's user demand.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this application:

fig. 1 is a schematic perspective view of a first structure of a humidifying and sterilizing module according to an embodiment of the present application;

fig. 2 is a schematic top view of a first structure of a humidifying and sterilizing module according to an embodiment of the present application;

fig. 3 is a schematic perspective view of a second structure of the humidifying and sterilizing module according to the embodiment of the present application;

fig. 4 is a schematic top view of a second structure of a humidifying and sterilizing module according to an embodiment of the present application;

FIG. 5 is an enlarged schematic view of the structure of FIG. 1A;

fig. 6 is an exploded view of a lower water storage module of the humidifying/sterilizing module according to an embodiment of the present application;

fig. 7 is an exploded view of a first embodiment of an atomizing device of a humidifying and sterilizing assembly according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of a second embodiment of an atomizing device of a humidifying and sterilizing module according to an embodiment of the present application;

FIG. 9 is a schematic view of an exploded view of the atomizing device shown in FIG. 8;

fig. 10 is a schematic diagram of a cabinet type installation structure of an air conditioner according to an embodiment of the present application;

fig. 11 is a schematic view of a hanging installation structure of an air conditioner according to an embodiment of the present application.

In the figure: 100. a liquid supply device; 101. a lower water storage assembly; 1011. a lower water storage tank; 1012. a control room; 1013. a second pump body; 1014. a water suction pipe; 1015. a drain cover; 1016. a dust cap; 102. a first pipeline; 103. a first pump body; 104. an upper water storage assembly; 1041. an upper water storage tank; 1042. a water level sensor; 105. a water valve; 106. a second pipeline; 200. an atomizing device; 201. an atomizing housing; 202. an atomizing water tank; 203. an atomizer; 2031. a water-absorbing cotton pipe; 2032. atomizing ceramic slices; 204. an airflow cover; 205. an air flow nozzle; 300. an indoor unit.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 5, a humidifying and sterilizing module according to an embodiment of the present application includes a liquid supply device 100 and an atomizing device 200. The number of the liquid supply devices 100 is two, and the two liquid supply devices 100 are respectively used for storing water and bactericide. The atomizing device 200 is provided with atomizing water inlets, the quantity of the atomizing water inlets is the same as that of the liquid supply devices 100, the atomizing water inlets are respectively connected with the corresponding liquid supply devices 100 through pipelines, the two liquid supply devices 100 respectively convey water and bactericide into the atomizing device 200, and the water and the bactericide are atomized in the atomizing device 200 through the atomizing device 200, so that air is humidified and sterilized. It can be appreciated that the humidifying and sterilizing assembly can be used in cooperation with the indoor unit 300 of the household air conditioner, so that the atomization gas is transmitted widely through the air outlet of the indoor unit 300 of the air conditioner, the atomization and sterilizing efficiency is improved, the humidifying and sterilizing assembly can be used independently, and the humidifying and sterilizing effect can be achieved by using the humidifying and sterilizing assembly independently. The opening and closing of the liquid supply device 100 and the atomizing device 200 can be controlled by a control chip, and the specific control mode is not in the scope of protection of the application, so that details are not repeated.

Specifically, the liquid supply device 100 includes a lower water storage component 101, and the lower water storage component 101 is convenient for a user to add liquid, so that clean liquid is used for humidification, and air is prevented from being humidified by liquid containing bacteria, and air quality is improved. Be provided with first pipeline 102 on lower water storage component 101, first pipeline 102 is kept away from lower water storage component 101 one end and is provided with first pump body 103, first pump body 103 has first import and first export, first import is connected with first pipeline 102, first exit linkage has last water storage component 104, and go up water storage component 104 and lie in the top of lower water storage component 101, upward be provided with water valve 105 on the water storage component 104, the output of water valve 105 is provided with second pipeline 106, water valve 105 is connected with atomizing device 200 through second pipeline 106. The first pump body 103 transmits the liquid in the lower water storage component 101 into the upper water storage component 104 through the first pipeline 102, the opening or closing of the water valve 105 controls the communication or interruption of the upper water storage device and the atomizing device 200, when the water valve 105 is opened, the liquid in the upper water storage component 104 corresponding to the water valve enters the atomizing device 200, and when the water valve 105 is closed, the liquid in the upper water storage device corresponding to the water valve cannot enter the atomizing device 200. Preferably, the water valve 105 is a one-way valve, that is, the liquid in the upper water storage component 104 can only enter the atomization device 200 through the water valve 105, and the liquid in the atomization device 200 cannot enter the upper water storage device through the water valve 105, so that the liquid pollution in the upper water storage device is avoided.

Referring to fig. 6, the lower water storage assembly 101 includes a lower water storage tank 1011, a control chamber 1012 is disposed in the lower water storage tank 1011, a second pump body 1013 is disposed in the control chamber 1012, a water suction pipe 1014 is disposed at an input end of the second pump body 1013, the water suction pipe 1014 extends into the lower water storage tank 1011, an end of the water suction pipe 1014 is located in a liquid in the lower water storage tank 1011, an output end of the second pump body 1013 is connected with the first pipeline 102, and the second pump body 1013 transfers the liquid in the lower water storage tank 1011 into the first pipeline 102 through the water suction pipe 1014. Preferably, the first conduit 102 is a flexible water conduit for installation.

Specifically, the lower tank 1011 has a rectangular column structure with a hollow inside, the hollow structure of the lower tank 1011 is used for storing liquid, and the top of the lower tank 1011 has an open structure so as to add liquid to the inside thereof or pour out unused liquid inside thereof. The inner fixed connection of lower storage water tank 1011 has the division board, and the division board forms control room 1012 with the inner wall of lower storage water tank 1011, and the division board is used for preventing the liquid in the lower storage water tank 1011 from getting into control room 1012, avoids the damage of second pump 1013. Preferably, the partition plate has an opening at the top of the lower tank 1011 extending downward and then changing direction to an inner wall position at one side of the lower tank 1011. A temperature sensor is also provided in the control room 1012 for sensing the temperature of the liquid in the lower tank 1011. It can be appreciated that the lower water tank 1011 is made of transparent material, for example: transparent plastic, transparent glass, etc. to facilitate the user to observe the use condition of the liquid therein, the lower water tank 1011 can be provided with an upper scale, so that the user can add a proper amount of liquid according to the use condition.

The top open position of the lower water tank 1011 is also provided with a lower water tank cap 1015, the size of the lower water tank cap 1015 is matched with the size of the top open of the lower water tank 1011, and the lower water tank cap 1015 is detachably buckled at the open position of the lower water tank 1011, so as to clean the lower water tank 1011. The assembled lower tank cap 1015 seals the opening at the top of the lower tank 1011 to prevent dust or impurities from entering the lower tank 1011 and affecting the quality of the liquid in the lower tank 1011. The lower water tank cap 1015 is further provided with a water filling port so as to be used for adding liquid into the lower water tank 1011, the water filling port is provided with a dust cap 1016, the outer surface of the water filling port is provided with external threads, the dust cap 1016 is provided with internal threads corresponding to the external threads, and the dust cap 1016 is in threaded connection with the water filling port so as to facilitate the disassembly of the dust cap 1016. It will be appreciated that the first pipe 102 extends through the drain cap 1015 to the control interior and is connected to the output end of the second pump body 1013, and specifically, the drain cap 1015 is provided with a through hole matching the outer diameter of the first pipe 102, and the first pipe 102 enters the control chamber 1012 through the through hole.

Referring to fig. 5, an exemplary upper water storage component 104 includes an upper water storage tank 1041, the upper water storage tank 1041 is a rectangular column structure with a hollow interior, an upper water inlet and an upper water storage port are disposed on the upper water storage tank 1041, the upper water inlet is connected with an output end of the first pump body 103, the upper water outlet is connected with a water valve 105, the first pump body 103 conveys liquid into the upper water storage tank 1041, and the liquid in the upper water storage tank 1041 enters the atomizing device 200 through the water valve 105. The upper water tank 1041 is further provided with a water level sensor 1042, and the water level sensor 1042 is used for sensing the height of the liquid in the upper water tank 1041.

Referring to fig. 7 and 8, an exemplary atomizing device 200 is disposed on one side of the upper water storage component 104 to rapidly deliver the liquid in the upper water storage component 104 into the atomizing device 200, thereby achieving rapid switching of the operation modes. The atomizing device 200 includes an atomizing housing 201, the atomizing housing 201 is a cylindrical structure having a hollow inside, the hollow structure of the atomizing housing 201 forms an atomizing water tank 202, and the atomizing water tank 202 is used for storing liquid for atomization.

Referring to fig. 7, in the first embodiment of the atomizing device 200, an atomizer 203 is disposed in an atomizing water tank 202, an output end of the atomizer 203 extends to a top of an atomizing housing 201, and the atomizer 203 atomizes a liquid in the atomizing water tank 202 and then discharges the atomized liquid into air. An atomization water inlet is provided on the atomization housing 201, and communicates with the atomization water tank 202 so as to add liquid into the atomization water tank 202. The number of atomizers 203 is plural, and the atomizers 203 are uniformly arranged along the length direction of the atomizing water tank 202 so as to increase the atomizing efficiency. The top of the atomization shell 201 is also covered with an airflow cover 204, and the airflow cover 204 and the atomization shell 201 cooperate to wrap the output end of the atomizer 203. It will be appreciated that the number of atomizing devices 200 may be one or the same as the number of liquid supply devices 100. When the number of the atomizing devices 200 is one, the plurality of liquid supply devices 100 are respectively connected with the atomizing devices 200, and the liquids in the plurality of liquid supply devices 100 respectively enter the atomizing devices 200 for mixing and then are atomized, so that the atomizing efficiency is improved; when the number of the atomizing devices 200 is the same as the number of the liquid supply devices 100, the atomizing devices 200 are respectively connected with the corresponding liquid supply devices 100, so that each atomizing device 200 atomizes one liquid, and cross contamination is avoided.

Referring to fig. 8 and 9, in a second embodiment of an atomizing device 200, the atomizing device 200 includes an atomizing housing 201, an atomizing water tank 202 is disposed in the atomizing housing 201, an atomizer 203 is disposed at the bottom of the atomizing water tank 202, the top of the atomizing housing 201 corresponds to the bottom of the atomizing water tank 202, the atomizing water tank 202 is used for storing liquid, the atomizer 203 is immersed in the liquid stored in the atomizing water tank, an airflow cover 204 is disposed at the open position of the top of the atomizing housing 201, and an airflow nozzle 205 is disposed at one side of the airflow cover 204. It will be appreciated that the atomizer 203 is an immersed type, which comprises mainly atomized ceramic sheets.

Illustratively, the atomizer 203 includes a water-absorbing cotton tube 2031 and an atomizing ceramic chip 2032 connected to each other. Wherein, the absorbent cotton pipe 2031 is disposed in the atomization water tank 202, and one end of the absorbent cotton pipe 2031 is located in the liquid in the atomization water tank 202, and the other end of the absorbent cotton pipe 2031 extends toward the top of the atomization housing 201. The atomizing ceramic piece 2032 is arranged at one end of the absorbent cotton tube 2031 near the top of the atomizing housing 201, and the atomizing ceramic piece 2032 is inlaid at the top of the atomizing housing 201. It is understood that the atomizing ceramic chip 2032 is a ceramic atomizing chip on the market.

Illustratively, the airflow cover 204 is a hollow cylindrical structure, the bottom of the airflow cover 204 is an open structure, the size of the open structure at the bottom of the airflow cover 204 is matched with the size of the top surface of the atomization shell 201, after assembly, the top surface of the atomization shell 201 seals the open position at the bottom of the airflow cover 204, the airflow cover 204 and the atomization shell 201 are mutually matched to form an atomization cavity, and liquid enters the atomization cavity after being atomized by the atomizer 203. One side of the airflow cover 204 is provided with an airflow nozzle 205, the airflow nozzle 205 extends obliquely towards the bottom surface direction of the airflow cover 204, and an included angle between the airflow nozzle 205 and the outer surface of the airflow cover 204 is an acute angle, so that atomized liquid is conveniently sprayed towards the obliquely downward direction. The air flow nozzle 205 may have a columnar structure with a hollow interior or a long strip structure with a hollow interior. When the air flow nozzles 205 are of a hollow cylindrical structure, the number of the air flow nozzles 205 is plural, and the air flow nozzles 205 are uniformly arranged along the length direction of the air flow cover 204; when the air flow nozzles 205 are of a strip-like structure having a hollow interior, the number of the air flow nozzles 205 is single, and the air flow nozzles 205 are disposed along the length direction of the air flow cover 204 so as to uniformly spray the atomized liquid to each corner. It will be appreciated that the atomizer, the airflow shroud, and the atomizing housing in the embodiments described above may all be combined according to the actual use requirements.

Referring to fig. 10 and 11, the embodiment of the present application further provides an air conditioner, which includes an indoor unit 300, wherein the indoor unit 300 is a hanging machine or a cabinet machine, and the indoor unit 300 is provided with the humidification and sterilization assembly. The indoor unit 300 has an air outlet, the humidifying and sterilizing component atomizes the liquid and then sprays the liquid to the air outlet of the indoor unit 300, and the efficiency of atomization and sterilization is accelerated through the air outlet of the indoor unit 300.

Claims (10)

1. A humidifying and sterilizing assembly, comprising:

-a liquid supply device (100), the number of liquid supply devices (100) being 1 or more, and the liquid supply devices (100) respectively storing different liquids;

the device comprises an atomization device (200), wherein the atomization device (200) is provided with atomization water inlets, the number of the atomization water inlets is the same as that of the liquid supply devices (100), and the atomization water inlets are respectively connected with the liquid supply devices (100) through pipelines;

the liquid supply device (100) comprises a lower water storage component (101), a first pipeline (102) is arranged on the lower water storage component (101), the first pipeline (102) is far away from one end of the lower water storage component (101) and provided with a first pump body (103), the output end of the first pump body (103) is provided with an upper water storage component (104), a water valve (105) is arranged on the upper water storage component (104), a second pipeline (106) is arranged at the output end of the water valve (105), and the water valve (105) is respectively connected with the atomizing device (200) through the second pipeline (106).

2. The humidifying and sterilizing assembly according to claim 1, wherein the atomizing device (200) comprises an atomizing housing (201), an atomizing water tank (202) is arranged in the atomizing housing (201), an atomizer (203) is arranged in the atomizing water tank (202), an output end of the atomizer (203) extends to the top of the atomizing housing (201), an air flow cover (204) is further covered on the top of the atomizing housing (201), and an air flow nozzle (205) is arranged on one side of the air flow cover (204).

3. The humidifying and sterilizing assembly according to claim 2, wherein the number of the air flow nozzles (205) is plural, and the air flow nozzles (205) are uniformly arranged along the length direction of the air flow cover (204).

4. The humidifying and sterilizing assembly according to claim 2, wherein the number of the air flow nozzles (205) is single, and the air flow nozzles (205) are uniformly arranged along the length direction of the air flow cover (204).

5. The humidifying and sterilizing assembly according to claim 2, wherein the atomizer (203) comprises a water-absorbing cotton pipe (2031), the water-absorbing cotton pipe (2031) is arranged in the atomizing water tank (202), atomizing ceramic pieces (2032) are arranged on the water-absorbing cotton pipe (2031), and the atomizing ceramic pieces (2032) are inlaid at the top of the atomizing housing (201).

6. The humidifying and sterilizing assembly according to claim 1, wherein the atomizing device (200) comprises an atomizing housing (201), an atomizing water tank (202) is arranged in the atomizing housing (201), an atomizer (203) is arranged at the bottom of the atomizing water tank (202), the atomizer (203) is immersed in liquid in the atomizing water tank (202), an air flow cover (204) is further covered at the top of the atomizing housing (201), and an air flow nozzle (205) is arranged at one side of the air flow cover (204).

7. The humidifying and sterilizing assembly according to claim 5 or 6, wherein the number of atomizers (203) is plural, and the atomizers (203) are uniformly arranged along the length direction of the atomizing water tank (202), respectively.

8. The humidifying and sterilizing assembly according to claim 1, wherein the lower water storage assembly (101) comprises a lower water storage tank (1011), a control chamber (1012) is arranged in the lower water storage tank (1011), the control chamber (1012) is provided with a second pump body (1013), an input end of the second pump body (1013) is provided with a water suction pipe (1014), the water suction pipe (1014) extends into the lower water storage tank (1011), an output end of the second pump body (1013) is connected with the first pipeline (102), a lower water tank cover (1015) is further arranged at the top of the lower water storage tank (1011), a water filling port is arranged on the lower water tank cover (1015), a dust cap (1016) is arranged on the water filling port, and the dust cap (1016) is in threaded connection with the water filling port.

9. The humidifying and sterilizing assembly according to claim 1, wherein the upper water storage assembly (104) comprises an upper water storage tank (1041), an upper water inlet and an upper water outlet are arranged on the upper water storage tank (1041), the upper water inlet is connected with the output end of the first pump body (103), and the upper water outlet is connected with the water valve (105).

10. An air conditioner comprising an indoor unit (300), wherein the indoor unit (300) is a wall-mounted unit or a cabinet-type unit, and the indoor unit (300) is provided with an air outlet, and the air conditioner is characterized in that a humidifying and sterilizing assembly according to any one of claims 1-9 is further arranged above the indoor unit (300), and sprays liquid after being atomized to a position above the air outlet of the indoor unit (300).

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