CN213514137U - Vertical air conditioner cabinet - Google Patents

Abstract

The application provides a vertical air conditioner cabinet, including fixed connection's static pressure cabinet body and air conditioning unit. The static pressure cabinet body comprises an inner cavity, a silencing partition plate and a jet flow assembly communicated with the inner cavity, and the bottom wall of the inner cavity is also provided with an air inlet; the jet assembly in the static pressure cabinet body is positioned on the side wall of the inner cavity; a silencing partition plate is arranged in the inner cavity and is arranged between the air inlet and the jet flow assembly and used for eliminating wind noise generated by the operation of the air conditioning unit; the air conditioning unit is provided with a fan corresponding to the air inlet and is used for cooling external air and conveying the cooled air into the static pressure cabinet body from the air inlet on the bottom wall of the inner cavity through the fan; and the cooled gas flows through the silencing partition plate, is subjected to noise reduction, and is sent out from the jet flow assembly. This application vertical cabinet air conditioner can solve in great space, and under the higher place of equipment size, the inconvenient condition that connects the tuber pipe outward of air conditioner, and this application vertical cabinet air conditioner has the simple advantage of installation.

Description

Vertical air conditioner cabinet

Technical Field

The application relates to the technical field of air conditioners, in particular to a vertical air conditioner cabinet.

Background

Air conditioners are classified into a wall-mounted air conditioner and a floor air conditioner. Among them, the air conditioner generally includes an indoor unit installed at an indoor side and an outdoor unit installed at an outdoor side. In order to meet the requirement of indoor air exchange and flow, an air inlet pipe and an air supply pipe are arranged on the indoor unit, and the air inlet pipe and the air supply pipe are connected to the indoor. However, under the condition that the indoor space is large and the size of the installed vertical air conditioner is also large, if the vertical air conditioner is connected with the external air pipe, the pipeline flow of the air pipe can not meet the requirement of large-area cooling, the installation difficulty of the vertical air conditioner can be increased, and meanwhile, the working efficiency of the vertical air conditioner can be reduced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough of prior art is solved to the aim at of this application, has provided a vertical air conditioner cabinet to solve under the big and higher place of equipment size in space, the phenomenon of outer tuber pipe is difficult to connect to the air conditioner, specifically includes following technical scheme:

a vertical air conditioner cabinet comprises a static pressure cabinet body and an air conditioning unit which are fixedly connected;

the static pressure cabinet body comprises an inner cavity, a silencing partition plate and a jet flow assembly communicated with the inner cavity, and the bottom wall of the inner cavity is also provided with an air inlet;

the jet assembly is positioned on the side wall of the inner cavity;

a silencing partition plate is arranged in the inner cavity and is arranged between the air inlet and the jet flow assembly and used for eliminating wind noise generated by the operation of the air conditioning unit;

the air conditioning unit is provided with a fan corresponding to the air inlet and used for cooling external air, the cooled air is conveyed into the static pressure cabinet body from the air inlet through the fan, and the air flows through the noise reduction partition plate to reduce noise and then is conveyed out from the jet flow assembly.

Preferably, the air conditioning unit is connected with the static pressure cabinet body through a lock catch.

Preferably, the inner chamber includes two opposite side walls, and the sound-deadening partition has a first side surface and a second side surface opposite to each other, the first side surface is connected to one of the two side walls, and a gap allowing gas to flow through is left between the second side surface and the other side wall.

Preferably, the number of the silencing partition plates is multiple, the silencing partition plates are arranged at intervals along the extending direction of the side wall, and the first side faces of two adjacent silencing partition plates are respectively connected to different side walls.

Preferably, in an extending direction parallel to the side wall, a projection of any one of the sound-deadening partitions on its adjacent sound-deadening partition coincides with its adjacent sound-deadening partition portion.

Preferably, the silencing partition plate is fixedly connected with the side wall; and/or the presence of a gas in the gas,

the silencing partition plate is perpendicular to the extending direction of the side wall.

Preferably, the jet assembly is configured to be an air supply outlet formed in the side wall and a guide vane arranged on the air supply outlet, and the guide vane is used for adjusting the air supply direction and the air volume of the air supply outlet.

Preferably, the jet assembly is configured as an air supply outlet opened on the side wall, and a nozzle arranged on the air supply outlet, and the nozzle is used for adjusting the air supply direction and the air volume of the air supply outlet.

Preferably, the vertical air conditioner cabinet is further provided with a controller, the controller is respectively connected with the jet flow assembly and the fan electrically, and the controller is used for synchronously adjusting the opening and closing degree of the jet flow assembly and the power of the fan so as to ensure the initial speed of the gas sent out by the vertical air conditioner cabinet.

Preferably, a filter is arranged at the position, corresponding to the jet flow assembly, of the static pressure cabinet body, and the filter is used for filtering gas sent out through the jet flow assembly.

The application provides a vertical air conditioner cabinet, through inciting somebody to action air conditioning unit with static pressure cabinet body fixed connection, and will the static pressure cabinet body set up in air conditioning unit's top can realize simultaneously the function of vertical air conditioner cabinet-type air conditioner cooling and making an uproar falls. The inner cavity of the static pressure cabinet body is also provided with the silencing partition plate, and the silencing partition plate is arranged between the air inlet and the jet flow assembly and used for eliminating wind noise generated by the working of the air conditioning unit. The air conditioning unit is used for cooling external air, conveying the cooled air into the static pressure cabinet body from the air inlet through the fan, and conveying the air out of the jet flow assembly after the air flows through the silencing partition plate and is subjected to noise reduction. This application vertical cabinet air conditioner can solve under great space and the higher place of equipment size, the inconvenient condition that connects the tuber pipe outward of air conditioner, and this application vertical cabinet air conditioner has the simple advantage of installation.

Drawings

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

Fig. 1 is a schematic structural view of a vertical air conditioner cabinet provided in the present invention;

fig. 2 is a partial schematic view of a vertical air conditioner cabinet according to the present invention;

fig. 3 is a schematic structural view of a silencing partition plate in a vertical air conditioner cabinet provided in the present invention;

fig. 4-5 are schematic structural views of other embodiments of the vertical air conditioner cabinet provided in the present invention.

Description of reference numerals:

10-vertical air-conditioning cabinet; 100-static pressure cabinet body; 200-an air conditioning unit; 300-a locking device; 400-a filter; 110-lumen; 120-a sound-deadening partition; 130-a fluidic component; 210-a fan; 220-a refrigeration component; 111-air inlet; 112-a bottom wall; 113-a side wall; 113 a-a sidewall; 113 b-the other side wall; 121-a first side; 122 a second side; 131-an air supply outlet; a is₁-an overlap portion.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It should be understood that the described embodiments are only some of the described embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

For better understanding of the technical solutions of the present invention, the following detailed descriptions of the embodiments of the present invention are provided with reference to the accompanying drawings.

The present application relates to a cabinet for a floor air conditioner 10, which is provided with a main body inside a building and is connected to the inside and outside of the building at the same time, so that the inside and outside of the building can be exchanged and cooled.

Referring to fig. 1, a schematic structural diagram of a vertical air conditioner cabinet 10 provided in an embodiment of the present invention is shown, the vertical air conditioner cabinet 10 provided in the present application includes a static pressure cabinet 100 and an air conditioning unit 200, which are fixedly connected, and the static pressure cabinet 100 is disposed above the air conditioning unit 200. The air conditioning unit 200 includes a fan 210 and a refrigeration assembly 220, and the air conditioning unit 200 is placed adjacent to or in close proximity to an interior wall of a building. The cooling module 220 is communicated with the external environment and cools the external air flowing into the air conditioning unit 200, thereby realizing air conduction and cooling between the interior of the building and the external environment. The fan 210 can convey the air cooled by the refrigeration assembly 220 into the static-pressure cabinet 100, and send the air with cold temperature into the room through the cabinet vertical air conditioner 10.

The hydrostatic tank 100 includes an interior 110, a sound attenuating barrier 120, and a jet assembly 130. An air inlet 111 communicated with the air conditioning unit 200 is formed in the bottom wall 112 of the inner cavity 110, and it can be understood that the air outlet of the fan 210 is correspondingly connected with the air inlet 111 formed in the bottom wall 112, so that the air cooled by the air conditioning unit 200 can enter the static pressure cabinet 100. The jet assembly 130 is disposed on the sidewall 113 of the inner cavity 110, and the jet assembly 130 is disposed on the sidewall 113 near the interior of the building, and is also disposed at the upper end of the sidewall 113, so as to send the cooled gas from the cabinet vertical air conditioner 10 to the interior of the building, especially to send the gas to a higher position in the interior of the building. The cooled gas automatically sinks from the high position, and the effect of integrally cooling the interior of the building is achieved.

Because the air conditioning unit 200 can generate noise during operation, the silencing partition plate 120 is disposed in the static pressure cabinet 100, and the silencing partition plate 120 is disposed between the air inlet 111 and the jet assembly 130, so that the cooled air can reach the noise reduction effect after passing through the silencing partition plate 120 in the static pressure cabinet 100. Finally, the cooled gas is sent out to the interior of the building through the jet assembly 130, so that the interior environment of the building is cooled.

It should be noted that the fan 210 is disposed coaxially with the air inlet 111 formed in the inner cavity 110, so that a larger air inlet amount from the air conditioning unit 200 to the static pressure cabinet 100 can be realized, the air pressure inside the vertical cabinet air conditioner 10 can be ensured, and the working efficiency of the vertical cabinet air conditioner 10 can be improved. Similarly, in order to ensure the silencing function of the silencing partition 120, the gas entering from the air inlet 111 formed in the inner cavity 110 can directly contact the silencing partition 120, and then is sent out from the jet assembly 130 after passing through the static pressure cabinet 100.

The application provides a vertical air conditioner cabinet 10, through with air conditioning unit 200 and static cabinet body 100 fixed connection, and set up static cabinet body 100 in air conditioning unit 200's top, can realize vertical air conditioner cabinet 10's the cooling and the function of making an uproar of falling simultaneously. A silencing partition 120 is further disposed in the inner cavity 110 of the static pressure cabinet 100, and the silencing partition 120 is disposed between the air inlet 111 and the jet assembly 130, and is used for eliminating wind noise generated by the operation of the air conditioning unit 200. The air conditioning unit 200 is configured to cool the external air, and the cooled air is conveyed into the static pressure cabinet 100 from the air inlet 111 through the fan 210, and the air flows through the noise reduction partition 120 to reduce noise, and then is sent out from the jet assembly 130. This application cabinet vertical air conditioner 10 can solve under great space and the higher place of equipment size, and the air conditioner does not connect the outer tuber pipe and also can guarantee the wind pressure and the amount of wind of air conditioner, and this application cabinet vertical air conditioner 10 still has the simple advantage of installation.

Referring to fig. 2, in one embodiment, the air conditioning unit 200 is connected to the static pressure cabinet 100 by a lock.

Specifically, in the present embodiment, the static pressure cabinet 100 is located above the air conditioning unit 200, and the static pressure cabinet 100 and the air conditioning unit 200 are fixedly connected by using the locking device 300. It can be understood that, since the static-pressure cabinet 100 and the air conditioning unit 200 are two independent devices, in order to ensure the stability of the connection between the two, a locking device 300 is disposed between the static-pressure cabinet 100 and the air conditioning unit 200. The locking device 300 can also ensure the tightness of connection between the static pressure cabinet 100 and the air conditioning unit 200 when realizing the fixed connection between the two, so that when the gas flowing to the static pressure cabinet 100 through the air conditioning unit 200 flows through the locking device 300, a flowing gap is not formed at the locking device 300, gas leakage is caused, and the working efficiency of the vertical air conditioning cabinet 10 is affected.

It should be noted that the locking device 300 is detachable and can be repeatedly disassembled and reused, so that the static-pressure cabinet 100 and the air conditioning unit 200 can be separated into two independent bodies for transportation when the vertical cabinet air conditioner 10 is transported. And when the air conditioner is installed, the static pressure cabinet 100 can be fixedly connected with the air conditioning unit 200 again through the locker 300. In this embodiment, only the locker 300 is proposed to realize the fixed connection between the static pressure cabinet 100 and the air conditioning unit 200, but the connection method between the static pressure cabinet 100 and the air conditioning unit 200 is not limited to the connection method mentioned in the embodiment, and is all connection methods and all connection accessories capable of realizing the fixed connection between the static pressure cabinet 100 and the air conditioning unit 200.

With continued reference to fig. 1 and additional reference to fig. 3, the interior 110 includes two opposing sidewalls 113, the baffle 120 has a first side 121 and a second side 122 opposite to each other, the first side 121 is connected to one of the sidewalls 113, and a gap is left between the second side 122 and the other sidewall 113 to allow gas to flow therethrough.

Specifically, in the present embodiment, the sound-deadening barrier 120 is defined to have a first side 121 and a second side 122 opposite to each other, and the inner cavity 110 includes two opposite side walls 113. And the sound-deadening barrier 120 is mounted on the side wall 113 in the inner chamber 110, only one side of the sound-deadening barrier 120 is connected to the side wall 113 in the inner chamber 110. That is, when the first side surface 121 of the silencing partition 120 is connected to one side wall 113a, a gap is left between the second side surface 122 and the other side wall 113b of the inner cavity 110, and similarly, when the second side surface 122 of the silencing partition 120 is connected to the other side wall 113b, a gap is left between the first side surface 121 and the side wall 113a of the inner cavity 110. The provision of the sound-deadening partition 120 enables the gas delivered into the static pressure tank 100 via the air conditioning unit 200 to be denoised by passing through the sound-deadening partition 120 and to be circulated to the jet assembly 130 through the gap between the sound-deadening partition 120 and the side wall 113. The silencing partition 120 is mainly used for reducing the speed of the air conveyed into the static pressure cabinet 100 through the air conditioning unit 200, and can reduce the wind noise generated by the operation of the air conditioning unit 200.

Referring to fig. 1 again, in an embodiment, the number of the silencing partition plates 120 is multiple, the silencing partition plates 120 are spaced along the extending direction of the side wall 113, and the first side surfaces 121 of two adjacent silencing partition plates 120 are respectively connected to different side walls 113.

Specifically, in the present embodiment, in order to ensure the noise reduction effect of the static pressure cabinet 100, a plurality of silencing partition plates 120 may be disposed in the static pressure cabinet 100, and the number of the silencing partition plates 120 and the distance between the plurality of silencing partition plates 120 may be set according to the height of the static pressure cabinet 100. And any two adjacent silencing partition plates 120 are staggered, that is, the first side surfaces 121 of two adjacent silencing partition plates 120 are respectively connected to the two oppositely-arranged side walls 113. It can be understood that, due to the staggered arrangement of the silencing partition boards 120, the flow path of the gas in the inner cavity 110, which is conveyed into the static pressure cabinet 100 via the air conditioning unit 200, can be changed into a substantially S-shaped non-linear path, and the gas can be changed in the flow direction many times due to the obstruction of the plurality of silencing partition boards 120 and finally flows upwards in a curved or broken line manner. And a plurality of amortization baffle 120 set up along the extending direction interval of lateral wall 113, can not produce the hindrance to gaseous circulation when guaranteeing amortization baffle 120 and the gaseous contact of great area realization of circulation.

It should be noted that, in order to ensure that the silencing partition 120 closest to the air inlet 111 can effectively achieve its silencing effect, the silencing partition 120 is disposed above the air inlet 111, so that the gas delivered into the static pressure cabinet 100 via the air conditioning unit 200 can be accurately discharged onto the silencing partition 120. That is, when the air inlet 111 is disposed near one of the sidewalls 113a of the inner cavity 110, the first side 121 of the sound-deadening partition 120 located above the air inlet 111 is connected to the sidewall 113a, and a gap allowing air to flow is left between the second side 122 and the other sidewall 113 b.

Referring to fig. 4, in the extending direction parallel to the side wall 113, the projection of any silencing partition 120 on its adjacent silencing partition 120 partially overlaps with the adjacent silencing partition 120.

Specifically, in this embodiment, in order to ensure that the silencing partition boards 120 can effectively achieve the noise reduction function, it is necessary to ensure that any one silencing partition board 120 has a projection in the extending direction parallel to the side wall 113 on the adjacent silencing partition board 120 between the silencing partition boards 120 arranged at intervals and in a staggered manner. That is, all the silencing partitions 120 have the position-overlapping portions a in the extending direction parallel to the side walls 113₁This overlap prevents a portion of the air delivered into the hydrostatic tank 100 via the air conditioning unit 200 from bypassing the sound attenuating partition 120 and reaching the jet assembly 130. At the moment, the noise reduction effect can be realized after the noise reduction partition plates are arranged in a staggered mode and arranged at intervals.

It should be noted that the illustrated baffle 120 is a baffle 120 having an equal length, but the length of the baffle 120 is not limited to equal length. Referring to fig. 5, the silencing baffles 120 may be arranged in a staggered manner in any length, but it is necessary to ensure that any two adjacent silencing baffles 120 have overlapping portions in the extending direction parallel to the side wall 113. Or stated otherwise, the length and distance between any two adjacent sound-deadening partitions 120 is always equal to or greater than the distance between two opposite side walls 113 in the inner chamber 110, and it is necessary to ensure that there is a spacing distance between any two adjacent sound-deadening partitions 120 that allows gas to flow through.

In one embodiment, the sound-deadening barrier 120 is fixedly attached to the side wall 113; and/or, the silencing partition 120 is disposed perpendicularly to the extending direction of the side wall 113.

Specifically, in the present embodiment, the silencing partition 120 is fixedly disposed on the sidewall 113, so that all the silencing partitions 120 are fixedly disposed in the inner cavity 110, and/or the silencing partition 120 is disposed perpendicular to the extending direction of the sidewall 113, thereby ensuring the stability of the disposition of the silencing partition 120. In order to adapt to the application of the vertical air conditioner cabinet 10 in the practical process, when the silencing partition plates 120 are installed, the silencing partition plates 120 are movably hinged to the side walls 113 of the inner cavity 110, so that the silencing partition plates 120 can move along the hinged portions and are arranged at a certain angle along the extending direction perpendicular to the side walls 113, and after the angle is arranged, it is still required to ensure that any two adjacent silencing partition plates 120 have an overlapped portion along the extending direction parallel to the side walls 113.

In one embodiment, the jet assembly 130 is configured as an air outlet 131 opened on the sidewall 113, and a guide vane (not shown) disposed on the air outlet 131 for adjusting the air blowing direction and the air volume of the air outlet 131.

Specifically, in this embodiment, the jet assembly 130 mainly sends the air, which is sent into the static pressure cabinet 100 through the air conditioning unit 200, to the environment inside the building, the jet assembly 130 is provided with an air supply outlet 131 corresponding to the inside of the building, and the size of the air supply outlet 131 can be set correspondingly according to the size of the vertical air conditioning cabinet 10. And in order to change the air supply direction and the air volume of the vertical air conditioner cabinet 10, a guide vane is further disposed at a position corresponding to the air supply outlet 131 on the jet assembly 130. It is understood that the guide vanes may be louvers or other shapes that can change the direction of the air supply and the size of the opening. And the guide vanes can be arranged in a double-layer manner, wherein one layer of guide vanes can realize up-and-down rotation air supply, and the other layer of guide vanes can realize left-and-right rotation air supply, so that all air supply directions can be realized, and the air supply quantity of the vertical air conditioner cabinet 10 can be adjusted according to the opening and closing degree of the guide vanes.

In one embodiment, the fluidic assembly 130 is configured as an air outlet 131 opened on the sidewall 113, and a nozzle (not shown) disposed on the air outlet 131 for adjusting the air blowing direction and the air volume of the air outlet 131.

Specifically, in this embodiment, the jet assembly 130 mainly sends the air, which is sent into the static pressure cabinet 100 through the air conditioning unit 200, to the environment inside the building, the jet assembly 130 is provided with an air supply outlet 131 corresponding to the inside of the building, and the size of the air supply outlet 131 can be set correspondingly according to the size of the vertical air conditioning cabinet 10. In order to change the air supply direction and the air volume of the vertical air conditioner cabinet 10, so that the air sent by the jet assembly 130 has a longer air supply distance, and when the temperature of a larger space is reduced, a nozzle can be arranged at a position corresponding to the air supply outlet 131. The nozzle can pressurize the gas that passes through for the gas that sends out via the efflux subassembly can have far away and send out the distance when arriving building inside, can realize the cooling of the building internal environment under the great space.

In one embodiment, the vertical air conditioner cabinet 10 is further provided with a controller (not shown), the controller is electrically connected to the jet flow assembly 130 and the fan 210, and the controller is configured to synchronously adjust the opening and closing degree of the jet flow assembly 130 and the power of the fan 210, so as to ensure the initial speed of the air sent out by the vertical air conditioner cabinet 10.

Specifically, in this embodiment, in order to realize the automatic control of the stand type air conditioner cabinet 10, a controller is disposed on the stand type air conditioner cabinet 10, and the position of the controller is not limited. The controller is electrically connected to the fluidic device 130 and the fan 210, so that the controller can synchronously adjust the opening and closing degree of the fluidic device 130 and the power of the fan 210. That is, the controller can adjust the power of the fan 210 according to the degree of opening on the fluidic assembly 130 and the amount of air in the hydrostatic cabinet 100. Similarly, the controller can also adjust the opening degree of the fluidic component 130 in real time according to the air volume in the static-pressure cabinet 100 and the power of the fan 210. The opening and closing degree of the jet flow assembly 130 and the power of the fan 210 are reasonably matched with the air quantity in the static pressure cabinet 100. And the working efficiency of the vertical air conditioner cabinet 10 can be ensured while saving energy.

With continued reference to fig. 4, the hydrostatic tank 100 includes a filter 400 disposed in relation to the fluidic module 130, the filter 400 being configured to filter the gas exiting through the fluidic module 130.

Specifically, in the present embodiment, the air cooled by the air conditioning unit 200 is primarily filtered in the air conditioning unit, so that most of the fine dust particles in the air can be filtered before reaching the static pressure cabinet 100. However, in order to ensure the cleanliness of the gas delivered from the fluidic assembly 130, a filter 400 may be disposed at the static pressure cabinet 100 corresponding to the fluidic assembly 130. One or more screens are disposed in the filter 400 for filtering the gas discharged through the jet assembly 130, and the filter 400 may be easily disassembled and/or the screen inside the filter 400 may be a detachable structure, so that the filter 400 can be manually replaced or cleaned, thereby ensuring the filtering effect of the filter 400.

The above is an implementation manner of the embodiments of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principles of the embodiments of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (10)

1. A vertical air conditioner cabinet is characterized by comprising a static pressure cabinet body and an air conditioning unit which are fixedly connected;

the static pressure cabinet body comprises an inner cavity, a silencing partition plate and a jet flow assembly communicated with the inner cavity, and the bottom wall of the inner cavity is also provided with an air inlet;

the jet assembly is positioned on the side wall of the inner cavity;

a silencing partition plate is arranged in the inner cavity and is arranged between the air inlet and the jet flow assembly and used for eliminating wind noise generated by the operation of the air conditioning unit;

the air conditioning unit is provided with a fan corresponding to the air inlet and used for cooling external air, the cooled air is conveyed into the static pressure cabinet body from the air inlet through the fan, and the air flows through the noise reduction partition plate to reduce noise and then is conveyed out from the jet flow assembly.

2. The cabinet of claim 1, wherein the air conditioning unit is connected to the hydrostatic cabinet by a snap fit.

3. The cabinet of claim 1, wherein the interior chamber includes opposing sidewalls, and the baffle has opposing first and second sides, the first side being connected to one of the sidewalls, and the second side being spaced from the other sidewall to allow air flow therethrough.

4. The cabinet of claim 3, wherein the number of the silencing partition plates is plural, the plural silencing partition plates are spaced apart along the extending direction of the side walls, and the first side surfaces of two adjacent silencing partition plates are respectively connected to different side walls.

5. A cabinet as claimed in claim 4, wherein the projection of any baffle on its adjacent baffle coincides partially with the adjacent baffle in a direction extending parallel to the side walls.

6. The cabinet according to claim 5, wherein the baffle is fixedly attached to the side wall; and/or the presence of a gas in the gas,

the silencing partition plate is perpendicular to the extending direction of the side wall.

7. The cabinet for a vertical air conditioner as claimed in any one of claims 1 to 6, wherein the jet assembly is configured as an air outlet opened on the side wall and a guide vane provided on the air outlet for adjusting the air blowing direction and the air volume of the air outlet.

8. The cabinet of any one of claims 1-6, wherein the jet assembly is configured as a supply air outlet opening on the side wall and a nozzle disposed on the supply air outlet for adjusting the supply direction and the amount of air supplied by the supply air outlet.

9. The cabinet according to any one of claims 1-6, further comprising a controller electrically connected to the jet assembly and the fan, wherein the controller is configured to synchronously adjust the opening/closing degree of the jet assembly and the power of the fan to ensure the initial velocity of the air discharged from the cabinet.

10. The cabinet of claim 1, wherein a filter is disposed in the static pressure cabinet corresponding to the jet assembly for filtering air exiting through the jet assembly.

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