CN219713522U - Air purifying device and air conditioner - Google Patents

Abstract

The utility model belongs to the field of air conditioners, and particularly relates to an air purifying device and an air conditioner. The utility model aims to solve the problem that an air conditioner is not provided with an air purifying function. The air purifying device comprises the shell, the driving component and the purifying component; the shell is used for being connected with the outer wall of the air conditioner and positioned at one side of the air inlet of the air conditioner, the shell is provided with an inner cavity, one end of the shell along the extending direction is provided with an inlet and an outlet communicated with the inner cavity, and the inlet and the outlet are used for being adjacent to the air inlet; the driving component is located the inner chamber, and driving component is connected with purifying component, and purifying component and casing movable connection, driving component drive purifying component remove along the extending direction of casing to make purifying component pass through access & exit business turn over casing, purifying component is configured to purify the air that gets into the air intake, has realized adding the air purification function for the air conditioner that does not set up the air purification function.

Description

Air purifying device and air conditioner

Technical Field

The utility model belongs to the technical field of air conditioners, and particularly relates to an air purifying device and an air conditioner.

Background

Air conditioners are also known as air conditioners. The air conditioner is equipment for treating the temperature, humidity, purity and air flow speed of air and meeting the production and living needs of people, and is called as an air conditioner for short.

In the related art, some air conditioners are not provided with an air purifying function, and customers need to replace new air conditioners to realize indoor air purification. However, this approach is costly.

Accordingly, there is a need in the art for an air cleaning device that addresses the above-described problems.

Disclosure of Invention

In order to solve the above problems in the prior art, that is, in order to solve the technical problem that an air conditioner is not provided with an air purifying function, the present utility model provides an air purifying device for an air conditioner, the air purifying device comprises a housing, a driving assembly and a purifying assembly; the shell is used for being connected with the outer wall of the air conditioner and positioned at one side of the air inlet of the air conditioner, the shell is provided with an inner cavity, one end of the shell along the extending direction is provided with an inlet and an outlet communicated with the inner cavity, and the inlet and the outlet are used for being adjacent to the air inlet; the drive assembly is located the inner chamber, and drive assembly is connected with purifying subassembly, and purifying subassembly and casing movable connection, and drive assembly drive purifying subassembly remove along the extending direction of casing to make purifying subassembly pass through access & exit business turn over casing, purifying subassembly is configured to purify the air that gets into the air intake.

In the preferred technical scheme of the air purifying device, the purifying assembly comprises a first purifying assembly and a second purifying assembly, the first purifying assembly and the second purifying assembly are arranged side by side and are movably connected with the shell, the driving assembly is positioned between the first purifying assembly and the second purifying assembly, and the driving assembly is connected with the first purifying assembly so as to drive the first purifying assembly to enter and exit the shell through the inlet and the outlet; or the driving component is connected with the second purifying component to drive the second purifying component to enter and exit the shell through the inlet and the outlet.

In the preferred technical scheme of the air purifying device, the first purifying component comprises a first purifying shell, a first purifying piece and a first handle, the first purifying shell is in sliding connection with the shell, the first purifying piece is inserted into the first purifying shell, and the first handle is arranged at one end of the first purifying piece, which is far away from the first purifying shell; the second purifying component comprises a second purifying shell, a second purifying piece and a second handle, the second purifying shell is in sliding connection with the shell, the second purifying piece is inserted into the second purifying shell, and the second handle is arranged at one end of the first purifying piece, which is away from the first purifying shell.

In the preferred technical scheme of the air purification device, the driving assembly comprises a driving piece and a transmission piece, the transmission piece comprises a first connecting part and a second connecting part which are connected with each other, the second connecting part is wound on the periphery side of the first connecting part, the winding range is smaller than 180 degrees, and the first transmission part is arranged on one side, away from the first connecting part, of the second connecting part; the first purifying shell is provided with a second transmission part matched with the first transmission part, the extending direction of the second transmission part is consistent with that of the shell, the second purifying shell is provided with a third transmission part matched with the first transmission part, and the extending direction of the third transmission part is consistent with that of the shell; the first connecting part of the transmission piece is connected with the transmission shaft of the driving piece, and the driving piece drives the transmission piece to rotate so that the first transmission part is connected with the second transmission part or the first transmission part is connected with the third transmission part.

In the preferred technical scheme of the air purifying device, the first transmission part is a meshing tooth, and the second transmission part and the third transmission part are racks matched with the meshing tooth.

In the preferred technical scheme of the air purifying device, the first purifying shell is provided with a first flow port and a second flow port which are mutually communicated, the first flow port and the second flow port are positioned at two opposite sides of the first purifying shell, the second flow port is used for being adjacent to the air inlet, and the first filtering piece is covered on the first flow port; and/or the second purifying shell is provided with a third flow port and a fourth flow port which are mutually communicated, the third flow port and the fourth flow port are positioned on two opposite sides of the second purifying shell, the fourth flow port is used for being adjacent to the air inlet, and the second filtering piece is covered on the third flow port.

In the preferred technical scheme of the air purification device, the inner cavity comprises a first accommodating cavity and a second accommodating cavity which are isolated from each other, the first purification shell is in sliding connection with the first accommodating cavity, and the second purification shell is in sliding connection with the second accommodating cavity; the first accommodation chamber is provided with the installation department in the middle of the second accommodation chamber, and the one end and the casing of installation department are connected, and the driving medium rotates with the installation department to be connected, and the driving medium is located one side that the driving medium deviates from the installation department.

In the preferred technical scheme of the air purifying device, the side wall of the first purifying shell is provided with at least one first guide piece, the side wall of the first accommodating cavity is provided with at least one first guide groove matched with the first guide piece, the first guide piece is correspondingly connected with the first guide groove, and the extending direction of the first guide groove is consistent with that of the shell; and/or the side wall of the second purifying shell is provided with at least one second guide piece, the side wall of the second accommodating cavity is provided with at least one second guide groove matched with the second guide piece, the second guide piece is correspondingly connected with the second guide groove, and the extending direction of the second guide groove is consistent with that of the shell.

In the preferred technical scheme of the air purifying device, the shell comprises an upper shell and a lower shell, the upper shell is covered on the lower shell, and the upper shell and the lower shell form an inner cavity; a first limiting piece is arranged on one side, facing the upper shell, of the first purifying shell, a first limiting groove matched with the first limiting piece is formed in the upper shell, the first limiting piece and the first limiting groove are correspondingly arranged, and the extending direction of the first limiting groove is consistent with that of the shell; and/or one side of the second purifying shell facing the upper shell is provided with a second limiting piece, the upper shell is provided with a second limiting groove matched with the second limiting piece, the second limiting piece and the second limiting groove are correspondingly arranged, and the extending direction of the second limiting groove is consistent with that of the shell.

In the preferred technical scheme of the air purifying device, the air purifying device further comprises an air detecting component and a control component, wherein the air detecting component is embedded on the shell and is configured to detect air quality; the control assembly is located the inner chamber, and drive assembly and air detection subassembly are all connected with the control assembly electricity, and the control assembly is configured to control drive assembly drive purification subassembly removal according to the air quality.

The utility model provides an air conditioner which comprises an air conditioner body and the air purifying device connected with the air conditioner body.

As will be appreciated by those skilled in the art, the air cleaning apparatus and the air conditioner provided by the present utility model are provided by providing a housing, a driving assembly and a cleaning assembly. The casing is connected with the outer wall of the air conditioner, so that the difficulty of installation is small. The shell is provided with an inner cavity, one end of the shell along the extending direction is provided with an inlet and an outlet communicated with the inner cavity, and the inlet and the outlet are adjacent to the air inlet. The drive assembly is located the inner chamber, and drive assembly is connected with purifying subassembly, and purifying subassembly and casing movable connection, drive assembly drive purifying subassembly remove along the extending direction of casing to make purifying subassembly pass through access & exit business turn over casing. Thus, when air purification is needed, the purification component stretches out and is positioned above the air inlet to purify the air entering the air inlet. Therefore, the air purifying device provided by the utility model can add the air purifying function to the air conditioner without the air purifying function.

Drawings

Preferred embodiments of the air cleaning device of the present utility model will be described below with reference to the accompanying drawings in conjunction with the air cleaning device. The attached drawings are as follows:

FIG. 1 is a schematic view showing a use state of an air cleaning apparatus of the present utility model;

fig. 2 is a schematic structural view of an air cleaning apparatus of the present utility model;

FIG. 3 is an exploded view of the air cleaning device of the present utility model;

FIG. 4 is a view showing an operation state of the air cleaning apparatus of the present utility model;

FIG. 5 is another operational state diagram of the air cleaning apparatus of the present utility model;

fig. 6 is a cross-sectional view of an air cleaning device of the present utility model;

FIG. 7 is a schematic view of the structure of a transmission member in the air cleaning apparatus of the present utility model;

fig. 8 is a schematic structural view of a first purifying housing in the air purifying apparatus of the present utility model;

fig. 9 is a schematic view of the structure of a housing in the air cleaning apparatus of the present utility model;

fig. 10 is a schematic diagram of a control method of the air cleaning apparatus of the present utility model.

In the accompanying drawings: 100-an air purification device; 110-a housing; 111-doorway; 112-a first receiving chamber; 1121-a first guide slot; 113-a second receiving chamber; 1131-a second guide groove; 114-a mounting portion; 115-an upper housing; 1151-a first limit groove; 1152-a second limiting groove; 1153-a first mounting post; 116-lower housing; 1161-a second mounting post; 117-layering; 120-a drive assembly; 121-a driving member; 122-driving member; 1221-a first connection; 1222-a second connection; 1223-a first transmission; 130-a purification assembly; 131-a first purification assembly; 1311-a first purge housing; 1311 a-second transmission; 1311 b-first flow port; 1311 c-a second flow port; 1311d—first guide; 1311 e-first stop; 1312-a first purifying member; 1313—a first handle; 132-a second purification assembly; 1321-a second purge housing; 1322-a second purifying member; 1323-a second handle; 140-first connector; 150-height adjustment; 160-a second connector; 170-an air detection assembly; 180-a control assembly; 200-an air conditioner; 210-an air inlet.

Detailed Description

First, it should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present utility model, and are not intended to limit the scope of the present utility model. Those skilled in the art can adapt it as desired to suit a particular application. For example, although the steam generating apparatus of the present utility model is described in connection with a steam ironing apparatus, this is not limiting and other apparatuses having steam use requirements may be provided with the steam generating apparatus of the present utility model, such as a steam washing apparatus.

Further, it should be noted that, in the description of the present utility model, terms such as "inner", "outer", and the like, refer to directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or components must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Furthermore, it should be noted that, in the description of the present utility model, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be the communication between the two components. The specific meaning of the above terms in the present utility model can be understood by those skilled in the art according to the specific circumstances.

In the related art, some air conditioners are not provided with an air purifying function, for example, some old air conditioners, and customers need to replace new air conditioners to realize indoor air purification. However, this approach is costly.

In order to solve the technical problems, the utility model provides an air purifying device which is arranged outside an air conditioner and used for purifying air entering an air inlet of the air conditioner, thereby solving the technical problem that the air conditioner has no purifying function.

Fig. 1 is a schematic view showing a use state of an air cleaning apparatus according to the present utility model, fig. 2 is a schematic view showing a structure of the air cleaning apparatus according to the present utility model, fig. 3 is an exploded view of the air cleaning apparatus according to the present utility model, fig. 4 is an operation state diagram of the air cleaning apparatus according to the present utility model, and fig. 5 is another operation state diagram of the air cleaning apparatus according to the present utility model.

Referring to fig. 1 to 5, the air cleaning apparatus 100 provided by the present utility model is used for an air conditioner 200, and the air cleaning apparatus 100 includes a housing 110, a driving assembly 120, and a cleaning assembly 130.

The housing 110 is used for being connected with the outer wall of the air conditioner 200 and is positioned at one side of the air inlet 210 of the air conditioner 200. The housing 110 has an inner cavity, and one end of the housing 110 along the extending direction is provided with an inlet 111 communicating with the inner cavity, and the inlet 111 is used for being adjacent to the air inlet 210. That is, the end of the housing 110 having the inlet 111 is close to the air inlet 210.

The extending direction of the housing 110 is the direction of the X-axis in fig. 1.

It is understood that the housing 110 may protect the drive assembly 120 and the purge assembly 130. The housing 110 is connected to the outer wall of the air conditioner 200, so that the air purifying device 100 is externally mounted to the air conditioner 200, and is easy to be assembled and disassembled.

The driving assembly 120 is located in the inner cavity, the driving assembly 120 is connected with the purifying assembly 130, the purifying assembly 130 is movably connected with the housing 110, the driving assembly 120 drives the purifying assembly 130 to move along the extending direction of the housing 110, so that the purifying assembly 130 enters and exits the housing 110 through the inlet and outlet 111, and the purifying assembly 130 is configured to purify the air entering the air inlet 210.

It will be appreciated that when air cleaning is not required, the cleaning assembly 130 is located inside the housing 110, which reduces obstruction to air flow and reduces air loss.

It should be noted that the number of the air cleaning devices 100 in one air conditioner 200 may be two or more. The air cleaning device 100 may be disposed at opposite sides of the air intake port 210, or the air cleaning device 100 may be disposed at a circumferential side of the air intake port 210.

The air cleaning device 100 according to the present embodiment is provided by providing a housing 110, a driving assembly 120, and a cleaning assembly 130. The housing 110 is coupled to the outer wall of the air conditioner 200 such that the difficulty of installation is small. The housing 110 has an inner cavity, and one end of the housing 110 along the extending direction is provided with an inlet 111 communicating with the inner cavity, and the inlet 111 is adjacent to the air inlet 210. The driving assembly 120 is located in the inner cavity, the driving assembly 120 is connected with the purifying assembly 130, the purifying assembly 130 is movably connected with the housing 110, and the driving assembly 120 drives the purifying assembly 130 to move along the extending direction of the housing 110, so that the purifying assembly 130 enters and exits the housing 110 through the inlet and outlet 111. Thus, when air purification is required, the purification assembly 130 is extended above the air inlet 210 to purify the air entering the air inlet 210. Therefore, the air cleaning apparatus 100 provided in the present embodiment can add an air cleaning function to the air conditioner 200 that is not provided with the air cleaning function.

Referring to fig. 3 to 5, the purifying assembly 130 includes a first purifying assembly 131 and a second purifying assembly 132, the first purifying assembly 131 and the second purifying assembly 132 are disposed side by side and are movably connected with the housing 110, the driving assembly 120 is disposed between the first purifying assembly 131 and the second purifying assembly 132, and the driving assembly 120 is connected with the first purifying assembly 131 to drive the first purifying assembly 131 into and out of the housing 110 through the inlet 111. Alternatively, the driving assembly 120 is connected to the second purifying assembly 132 to drive the second purifying assembly 132 into and out of the housing 110 through the inlet 111.

It will be appreciated that by providing the first purifying component 131 and the second purifying component 132, switching of different purifying functions can be achieved as desired.

In some embodiments, first purge assembly 131 includes a first purge housing 1311, a first purge piece 1312, and a first handle 1313, first purge housing 1311 being slidably coupled to housing 110, first purge piece 1312 being inserted within first purge housing 1311, first handle 1313 being disposed at an end of first purge piece 1312 facing away from first purge housing 1311.

Wherein, first purification piece 1312 can be used for air purification, and first handle 1313 is convenient for with first purification piece 1312 and first purification casing 1311 separation, the quick detach quick change of first purification casing 1311 of being convenient for.

The second purifying assembly 132 includes a second purifying housing 1321, a second purifying member 1322, and a second handle 1323, the second purifying housing 1321 is slidably connected to the housing 110, the second purifying member 1322 is inserted into the second purifying housing 1321, and the second handle 1323 is disposed at an end of the first purifying member 1312 facing away from the first purifying housing 1311.

Wherein, the second purifying member 1322 can be used for air purification, the second handle 1323 is convenient for separating the second purifying member 1322 from the second purifying housing 1321, and is convenient for quick disassembly and quick replacement of the second purifying housing 1321.

The first purifying member 1312 and the second purifying member 1322 may be one of a formaldehyde removing module, a PM2.5 (particulate matte 2.5.5, particulate matter having a diameter of less than 2.5 μm) module, an anion module, and an aromatherapy module, and the types of the first purifying member 1312 and the second purifying member 1322 are different.

Fig. 6 is a sectional view of an air cleaning apparatus according to the present utility model, fig. 7 is a schematic structural view of a transmission member in the air cleaning apparatus according to the present utility model, and fig. 8 is a schematic structural view of a first cleaning housing in the air cleaning apparatus according to the present utility model.

Referring to fig. 4 to 8, in order to reduce the volume and weight of the air cleaning apparatus 100, it is achieved to drive the first cleaning member 131 or the second cleaning member 132 using one driving member 121, respectively. The driving assembly 120 includes a driving member 121 and a transmitting member 122. The driving member 121 is configured to power the driving member 122, to drive the driving member 122 to rotate, and the driving member 122 is configured to be connected to the first purifying component 131. Or with the second purifying assembly 132.

The transmission member 122 includes a first connecting portion 1221 and a second connecting portion 1222 that are connected to each other, the second connecting portion 1222 is wound around the circumference of the first connecting portion 1221, the winding range is smaller than 180 °, and a side of the second connecting portion 1222 facing away from the first connecting portion 1221 is provided with a first transmission portion 1223. Since the first and second purifying members 131 and 132 are disposed side by side, the driving member 120 is positioned between the first and second purifying members 131 and 132, and thus the first transmission part 1223 may be coupled to only one of the first and second purifying members 131 and 132 and spaced apart from the other during rotation of the transmission member 122.

For example, the first connection portion 1221 may have a circular shape, the second connection portion 1222 may have an arch shape matching the circular shape, and a central angle corresponding to the arch shape is smaller than 180 °, or the first connection portion 1221 may have a square shape, an inner wall of the second connection portion 1222 has a square shape, and an outer wall has an arc shape, and a central angle corresponding to the arc shape is smaller than 180 °.

Wherein the first purifying housing 1311 is provided with a second transmission part 1311a matched with the first transmission part 1223, and the extending direction of the second transmission part 1311a coincides with the extending direction of the housing 110. The second purifying housing 1321 is provided with a third transmission portion that matches the first transmission portion 1223, and the extending direction of the third transmission portion coincides with the extending direction of the housing 110.

The first connection part 1221 of the transmission member 122 is connected to the transmission shaft of the driving member 121, and the driving member 121 drives the transmission member 122 to rotate so that the first transmission part 1223 is connected to the second transmission part 1311 a. Alternatively, the first transmission part 1223 is connected to the third transmission part.

Specifically, the driving member 121 may be a motor.

In one possible implementation, the first transmission 1223 is a meshing tooth, and the second transmission 1311a and the third transmission are racks that mate with the meshing tooth. The engagement of the first transmission portion 1223 with the second transmission portion 1311a is achieved by the forward and reverse rotation of the motor, or the engagement of the first transmission portion 1223 with the third transmission portion. The transmission mode does not need slipping, and the reliability of transmission is high.

When in use, referring to fig. 4, the second purifying component 132 is located outside the housing 110, the motor drives the transmission member 122 to rotate anticlockwise, and drives the second purifying component 132 to move towards the housing 110, so as to enter the housing 110, the motor continues to drive the transmission member 122 to rotate anticlockwise, after the transmission member 122 is disconnected with the second purifying component 132, the transmission member 122 is connected with the first purifying component 131, and the transmission member 122 drives the first purifying component 131 to move away from the housing 110, so that the first purifying component 131 is located outside the housing 110, as shown in fig. 5.

In another possible implementation, the first transmission portion 1223 is a friction portion, and the second transmission portion 1311a and the third transmission portion are friction bars that match the friction portion. The first transmission portion 1223 is brought into contact with the second transmission portion 1311a or the first transmission portion 1223 is brought into contact with the third transmission portion by the forward and reverse rotation of the motor.

Referring to fig. 1 and 8, in order to filter larger particles in the air, the first purifying housing 1311 is provided with a first flow port 1311b and a second flow port 1311c which are communicated with each other, the first flow port 1311b and the second flow port 1311c are located at opposite sides of the first purifying housing 1311, and the second flow port 1311c is used adjacent to the air inlet 210, and the first filter is covered on the first flow port 1311 b.

The first filter element may be a filter screen.

It should be noted that, the first flow port 1311b and the second flow port 1311c are located at opposite sides of the first purifying housing 1311 along the Z-axis direction in fig. 1, and the second flow port 1311c is close to the air inlet 210.

The second purifying housing 1321 is provided with a third flow port and a fourth flow port that are mutually communicated, the third flow port and the fourth flow port are located at two opposite sides of the second purifying housing 1321, and the fourth flow port is used for being adjacent to the air inlet 210, and the second filter is covered on the third flow port. The structure of the second purifying housing 1321 is similar to that of the first purifying housing 1311, and the description of this embodiment is omitted here.

Fig. 9 is a schematic view of the structure of a housing in the air cleaning apparatus of the present utility model.

Referring to fig. 9, in order to effectively avoid interference generated during movement of the first and second purge housings 1311 and 1321, the inner cavity includes a first receiving cavity 112 and a second receiving cavity 113 isolated from each other, the first purge housing 1311 is slidably connected to the first receiving cavity 112, and the second purge housing 1321 is slidably connected to the second receiving cavity 113.

It should be noted that, in some embodiments, the first purifying housing 1311 and the first accommodating cavity 112 may be connected in a rolling manner, and the second purifying housing 1321 and the second accommodating cavity 113 may be connected in a rolling manner.

Referring to fig. 6 and 9, a mounting portion 114 is disposed between the first accommodating chamber 112 and the second accommodating chamber 113, one end of the mounting portion 114 is connected to the housing 110, a driving member 122 is rotatably connected to the mounting portion 114, and a driving member 121 is disposed on a side of the driving member 122 facing away from the mounting portion 114.

Specifically, the mounting portion 114 may be a mounting post, and the transmission member 122 is inserted into the mounting post.

In order to realize the guiding function of the first purifying housing 1311, the sidewall of the first purifying housing 1311 is provided with at least one first guide 1311d, the sidewall of the first receiving chamber 112 is provided with at least one first guide slot 1121 matched with the first guide 1311d, the first guide 1311d is correspondingly connected with the first guide slot 1121, and the extending direction of the first guide slot 1121 is consistent with that of the housing 110.

Specifically, the number of the first guides 1311d may be two, the two first guides 1311d are located at opposite sides of the first purification housing 1311, and the first guides 1311d may be protrusions or ribs.

The side wall of the second purifying housing 1321 is provided with at least one second guide, the side wall of the second accommodating chamber 113 is provided with at least one second guide groove 1131 matched with the second guide, the second guide is correspondingly connected with the second guide groove 1131, and the extending direction of the second guide groove 1131 is consistent with the extending direction of the housing 110. The structure of the second purifying housing 1321 is similar to that of the first purifying housing 1311, and the description of this embodiment is omitted here.

In some embodiments, to facilitate assembly, the housing 110 includes an upper housing 115 and a lower housing 116, the upper housing 115 covering the lower housing 116, the upper housing 115 and the lower housing 116 forming an interior cavity.

Specifically, referring to fig. 3, 6 and 9, the number of first guide grooves 1121 is two. The housing 110 further includes a bead 117, the bead 117 being press-fitted over the first purge housing 1311 and the second purge housing 1321. One of the first guide grooves 1121 is formed by the upper case 115 and the lower case 116, and the other first guide groove 1121 is formed by the bead 117 and the lower case 116.

Referring to fig. 8 and 9, in order to prevent the first purification housing 1311 from being separated from the housing 110, a first stopper 1311e is provided at a side of the first purification housing 1311 facing the upper housing 115, the upper housing 115 is provided with a first stopper 1151 matching the first stopper 1311e, the first stopper 1311e is provided in correspondence with the first stopper 1151, and an extending direction of the first stopper 1151 coincides with an extending direction of the housing 110.

The second purifying housing 1321 is provided with a second limiting member on a side facing the upper housing 115, the upper housing 115 is provided with a second limiting groove 1152 matching with the second limiting member, the second limiting member is disposed corresponding to the second limiting groove 1152, and an extending direction of the second limiting groove 1152 is consistent with an extending direction of the housing 110. The structure of the second purifying housing 1321 is similar to that of the first purifying housing 1311, and the description of this embodiment is omitted here.

Referring to fig. 2 and 9, the air cleaning apparatus 100 further includes a plurality of first connection members 140.

The upper case 115 is provided at a peripheral side thereof with a plurality of first mounting posts 1153 disposed at intervals, and the first mounting posts 1153 are provided with through holes. The lower housing 116 has a plurality of second mounting posts 1161 disposed on a peripheral side thereof, the plurality of second mounting posts 1161 being disposed in one-to-one correspondence with the plurality of first mounting posts 1153, and the second mounting posts 1161 being provided with screw holes. The plurality of first connecting members 140 are disposed in one-to-one correspondence with the first mounting portions, and the first connecting members 140 are inserted into the threaded holes of the second mounting columns 1161 through the through holes of the first mounting columns 1153. Wherein, the first connection member 140 may be a screw. Alternatively, the second mounting post 1161 is provided with a light hole. The plurality of first connecting members 140 are disposed in one-to-one correspondence with the first mounting portions, and the first connecting members 140 are inserted into the light holes of the second mounting columns 1161 through the through holes of the first mounting columns 1153. Wherein the first connector 140 may be a pin.

The air cleaning device 100 further includes a plurality of height adjusters 150. In this embodiment, a threaded through hole is provided in the second mounting post 1161. The plurality of height adjusting members 150 are disposed in one-to-one correspondence with the second mounting posts 1161, and the height adjusting members 150 have external threads matched with the threaded through holes. The height adjustment member 150 is inserted into the second mounting post 1161 through an end of the second mounting post 1161 facing away from the first mounting post 1153. In this way, by rotating the height adjusting member 150, the height of the height adjusting member 150 located outside the second mounting post 1161 is adjusted, thereby horizontally mounting the air cleaning apparatus 100 on the air conditioner 200.

The air purifying device 100 further includes a plurality of second connectors 160, where the plurality of second connectors 160 are disposed in one-to-one correspondence with the plurality of height adjusting members 150, and one end of the second connector 160 is connected to one end of the height adjusting member 150 facing away from the second mounting portion, and the other end is connected to the air conditioner 200.

For example, the second connection member 160 may be a magnetic member, the second connection member 160 is magnetically connected with the height adjusting member 150, and the second connection member 160 is bonded with the air conditioner 200.

Referring to fig. 2 and 3, the air cleaning apparatus 100 further includes an air detection assembly 170 and a control assembly 180, the air detection assembly 170 being embedded on the housing 110, the air detection assembly 170 being configured to detect air quality. A control assembly 180 is positioned within the interior cavity, and both the drive assembly 120 and the air detection assembly 170 are electrically connected to the control assembly 180, the control assembly 180 being configured to control movement of the purge assembly 130 in response to air quality control of the drive assembly 120.

Fig. 10 is a schematic diagram of a control method of the air cleaning apparatus of the present utility model.

Referring to fig. 10, the control method of the air cleaning apparatus includes;

the air conditioner is started.

The air quality is detected.

Specifically, the air quality may be detected by the air detection assembly 170 of the air cleaning device 100. By way of example, the formaldehyde content, PM2.5 content, air humidity, etc. in the air may be detected.

And judging whether air purification is needed or not.

Specifically, the determination may be made by the control unit 180 of the air cleaning apparatus 100. And when the detected air quality index is larger than a preset value, judging yes, and when the detected air quality index is not larger than the preset value, judging no.

And if the judgment result is yes, the purifying component is moved to the working position.

If the determination result is no, the air quality is continuously detected.

Specifically, the drive assembly 120 drives the purge assembly 130 to move to the operational position.

In some embodiments, after moving the decontamination assembly to the operational position, further comprising:

judging whether the air quality reaches the standard.

If the judgment result is yes, the purifying component is reset.

It should be noted that, if the determination result is no, the purification assembly continues to operate.

In some embodiments, if the determination is yes, homing the decontamination assembly, including:

the first decontamination module is reset, or the second decontamination module is reset.

In some embodiments, if the determination is yes, moving the decontamination assembly to the operational position, including; it is determined whether the first decontamination assembly is enabled or the second decontamination assembly.

If it is determined that the first decontamination assembly is enabled, the first decontamination assembly is moved to the operational position.

If it is determined that the second decontamination assembly is enabled, the second decontamination assembly is moved to the operational position.

In some embodiments, the control assembly 180 includes a communication module that receives instructions sent by the user terminal to move the decontamination assembly 130 to the operational position so that the user can control the operation of the designated decontamination module.

The user terminal can be a mobile phone or a remote controller.

The utility model also provides an air conditioner, which comprises an air conditioner body and the air purifying device provided by the embodiment connected with the air conditioner body.

The structure and technical effects of the air purifying device have been described in detail in the above embodiments, and the description of this embodiment is omitted here.

Thus far, the technical solution of the present utility model has been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present utility model is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present utility model, and such modifications and substitutions will fall within the scope of the present utility model.

Claims (11)

1. An air purifying device for an air conditioner, characterized by comprising a shell, a driving assembly and a purifying assembly;

the shell is used for being connected with the outer wall of the air conditioner and is positioned at one side of the air inlet of the air conditioner, the shell is provided with an inner cavity, one end of the shell along the extending direction is provided with an inlet and an outlet communicated with the inner cavity, and the inlet and the outlet are used for being adjacent to the air inlet;

the driving assembly is located in the inner cavity, the driving assembly is connected with the purifying assembly, the purifying assembly is movably connected with the shell, the driving assembly drives the purifying assembly to move along the extending direction of the shell, so that the purifying assembly passes through the inlet and the outlet to enter and exit the shell, and the purifying assembly is configured to purify air entering the air inlet.

2. The air purification apparatus of claim 1, wherein the purification assembly comprises a first purification assembly and a second purification assembly, the first purification assembly and the second purification assembly being disposed side-by-side and each being movably coupled to the housing, the drive assembly being positioned between the first purification assembly and the second purification assembly, the drive assembly being coupled to the first purification assembly to drive the first purification assembly into and out of the housing through the doorway; or the driving component is connected with the second purifying component so as to drive the second purifying component to enter and exit the shell through the inlet and the outlet.

3. The air purification apparatus of claim 2, wherein the first purification assembly comprises a first purification housing, a first purification member, and a first handle, the first purification housing being slidably coupled to the housing, the first purification member being inserted within the first purification housing, the first handle being disposed at an end of the first purification member facing away from the first purification housing;

the second purifying component comprises a second purifying shell, a second purifying piece and a second handle, wherein the second purifying shell is in sliding connection with the shell, the second purifying piece is inserted into the second purifying shell, and the second handle is arranged at one end of the first purifying piece, which is away from the first purifying shell.

4. An air cleaning device according to claim 3, wherein the driving assembly comprises a driving member and a transmission member, the transmission member comprises a first connecting portion and a second connecting portion which are connected with each other, the second connecting portion is wound on the periphery side of the first connecting portion, the winding range is smaller than 180 °, and a first transmission portion is arranged on the side, away from the first connecting portion, of the second connecting portion;

the first purifying shell is provided with a second transmission part matched with the first transmission part, the extending direction of the second transmission part is consistent with the extending direction of the shell, the second purifying shell is provided with a third transmission part matched with the first transmission part, and the extending direction of the third transmission part is consistent with the extending direction of the shell;

the first connecting part of the transmission piece is connected with the transmission shaft of the driving piece, and the driving piece drives the transmission piece to rotate, so that the first transmission part is connected with the second transmission part, or the first transmission part is connected with the third transmission part.

5. The air purification apparatus of claim 4, wherein the first transmission portion is a meshing tooth, and the second transmission portion and the third transmission portion are racks that mate with the meshing tooth.

6. An air cleaning apparatus according to claim 3, wherein the first cleaning housing is provided with a first flow port and a second flow port which are communicated with each other, the first flow port and the second flow port are located on opposite sides of the first cleaning housing, the second flow port is used for being adjacent to the air inlet, and a first filter is covered on the first flow port;

and/or, the second purifying shell is provided with a third circulation port and a fourth circulation port which are mutually communicated, the third circulation port and the fourth circulation port are positioned on two opposite sides of the second purifying shell, the fourth circulation port is used for being adjacent to the air inlet, and the second filtering piece is covered on the third circulation port.

7. The air purification apparatus of claim 4, wherein the interior cavity comprises a first receiving cavity and a second receiving cavity that are isolated from each other, the first purification housing being slidably coupled to the first receiving cavity, the second purification housing being slidably coupled to the second receiving cavity;

the first accommodating cavity and the second accommodating cavity are provided with an installation part, one end of the installation part is connected with the shell, the transmission part is rotationally connected with the installation part, and the driving part is positioned on one side of the transmission part, which is away from the installation part.

8. The air cleaning apparatus according to claim 7, wherein the side wall of the first cleaning housing is provided with at least one first guide member, the side wall of the first accommodating chamber is provided with at least one first guide groove matched with the first guide member, the first guide member is correspondingly connected with the first guide groove, and the extending direction of the first guide groove is consistent with the extending direction of the housing;

and/or, the side wall of the second purifying shell is provided with at least one second guide piece, the side wall of the second accommodating cavity is provided with at least one second guide groove matched with the second guide piece, the second guide piece is correspondingly connected with the second guide groove, and the extending direction of the second guide groove is consistent with the extending direction of the shell.

9. The air purification apparatus of claim 7, wherein the housing comprises an upper housing and a lower housing, the upper housing being covered on the lower housing, the upper housing and the lower housing forming the interior cavity;

a first limiting piece is arranged on one side, facing the upper shell, of the first purifying shell, a first limiting groove matched with the first limiting piece is formed in the upper shell, the first limiting piece is arranged corresponding to the first limiting groove, and the extending direction of the first limiting groove is consistent with that of the shell;

and/or, one side of the second purifying shell facing the upper shell is provided with a second limiting part, the upper shell is provided with a second limiting groove matched with the second limiting part, the second limiting part and the second limiting groove are correspondingly arranged, and the extending direction of the second limiting groove is consistent with that of the shell.

10. The air purification apparatus of any one of claims 1-9, further comprising an air detection assembly embedded on the housing and a control assembly, the air detection assembly configured to detect air quality;

the control assembly is located in the inner cavity, the driving assembly and the air detection assembly are electrically connected with the control assembly, and the control assembly is configured to control the driving assembly to drive the purification assembly to move according to the air quality.

11. An air conditioner comprising an air conditioner body and the air cleaning apparatus according to any one of claims 1 to 10 connected to the air conditioner body.