CN106091138B - Cabinet air conditioner indoor unit, cabinet air conditioner and air conditioner control system - Google Patents

Abstract

The invention relates to a cabinet air-conditioning indoor unit (10), which comprises a cabinet (100), an indoor fan (110), an indoor heat exchanger (120) and a compressor (130), wherein the indoor fan (110), the indoor heat exchanger (120) and the compressor (130) are arranged in the cabinet (100), an air return opening (102) and an air outlet (104) are formed in the cabinet (100), the indoor fan (110) can form airflow in the cabinet (100) between the air return opening (102) and the air outlet (104), the cabinet air-conditioning indoor unit (10) further comprises an air deflector (140), the air deflector (140) is arranged close to the compressor (130), the air deflector (140) can be switched between an opening position and a closing position, and when the air conditioner is in a refrigeration mode or a dehumidification mode, the air deflector (140) is in the closing position, so that at least part of the airflow is blocked by the air deflector (140) to bypass the compressor (130).

Description

Cabinet air conditioner indoor unit, cabinet air conditioner and air conditioner control system

Technical Field

The invention relates to the field of household appliances, in particular to an indoor unit, a cabinet air conditioner with the indoor unit and an air conditioner control system.

Background

The cabinet air conditioner is widely used in commercial facilities, meeting rooms, equipment rooms and other places due to the advantages of large air volume, convenience in installation, attractiveness and the like. However, since the compressor, which is a valuable part of the air conditioner, is installed in the outdoor unit, there is a problem that the service life of the compressor is affected due to the bad working environment. In addition, when the cabinet air conditioner is used in an unattended base station or a machine room, the outdoor unit of the cabinet air conditioner is easy to be stolen. In the prior art, a compressor is arranged at the indoor side, so that the installation of a pipeline, the injection of a refrigerant and the field debugging and maintenance of a unit are facilitated. However, the compressor installed in the indoor unit has a lower cooling effect than the compressor installed in the outdoor unit during operation, and the overall energy efficiency of the cabinet air conditioner is poor.

Disclosure of Invention

In view of the above, it is necessary to provide a cabinet air conditioner indoor unit, a cabinet air conditioner and an air conditioner control system, which have simple structures and can effectively improve the energy efficiency of the air conditioner.

A cabinet air-conditioner indoor unit comprises a cabinet, an indoor fan, an indoor heat exchanger and a compressor, wherein the indoor fan, the indoor heat exchanger and the compressor are arranged in the cabinet, an air return opening and an air outlet are formed in the cabinet, the indoor fan can form air flow in the cabinet between the air return opening and the air outlet, the cabinet air-conditioner indoor unit further comprises an air deflector, the air deflector is arranged close to the compressor and can be switched between an opening position and a closing position, and when an air conditioner is in a refrigeration mode or a dehumidification mode, the air deflector is in the closing position, so that at least part of the air flow is blocked by the air deflector, and the compressor is bypassed.

A cabinet air conditioner comprises an outdoor unit, the outdoor unit comprises an outdoor heat exchanger and an outdoor fan, and further comprises the cabinet air conditioner indoor unit.

An air conditioner control system controls the cabinet air conditioner, comprises a mode selector and an air deflector controller for controlling an air deflector of the indoor unit of the cabinet air conditioner, wherein the air deflector controller receives a corresponding signal of a current selection mode of the mode selector, and controls the air deflector to be arranged at a closing position when the current selection mode is a refrigeration mode or a dehumidification mode.

Compared with the prior art, the air deflector which can be controlled to open and close is arranged near the compressor, and because the temperature of the compressor is very high during working, the air deflector is in the closed position during air-conditioning refrigeration or dehumidification, so that at least part of air flow bypasses the compressor, heat exchange with the compressor can be avoided, and the refrigerating capacity is enhanced. Therefore, the air deflector capable of being controlled to open and close can prevent air flow in the indoor unit from passing through the compressor when the air conditioner is refrigerated or dehumidified, and the refrigeration effect is improved when the air conditioner is refrigerated or dehumidified, so that the energy efficiency of the whole machine is improved.

Drawings

Fig. 1 is a perspective view of an indoor unit according to an embodiment of the present invention.

Fig. 2 is a schematic side view of an internal structure of an indoor unit according to an embodiment of the present invention.

Fig. 3 is a schematic perspective view illustrating a closing of an air guide plate of an indoor unit according to an embodiment of the present invention.

Fig. 4 is a schematic top view of an indoor unit according to an embodiment of the present invention when an air guide plate is closed.

Fig. 5 is a schematic perspective view illustrating an opening of an air guide plate of an indoor unit according to an embodiment of the present invention.

Fig. 6 is a schematic top view of an indoor unit according to an embodiment of the present invention when an air deflector is opened.

Detailed Description

An indoor unit and a cabinet air conditioner according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1 and fig. 2, an embodiment of the invention provides a cabinet air-conditioning indoor unit 10, where the cabinet air-conditioning indoor unit 10 includes a cabinet 100, and an indoor fan 110, an indoor heat exchanger 120, a compressor 130, and an air deflector 140 disposed in the cabinet 100. The air deflector 140 is disposed close to the compressor 130, the air deflector 140 can be switched between an open position and a closed position, and when the air conditioner is in a cooling mode or a dehumidifying mode, the air deflector 140 is in the closed position, so that at least a part of air flow is blocked by the air deflector 140, thereby bypassing the compressor 130.

The air guiding plate 140 has a rotating shaft 142 and a plate 144 connected to the rotating shaft 142, and the plate 144 can be driven by the rotating shaft 142 to rotate around the axis of the rotating shaft 142, so that the air guiding plate 140 can be switched between the closed position and the open position. The cabinet air-conditioning indoor unit 10 may further include a step motor (not shown), and the step motor is connected to the rotating shaft 142 of the air guiding plate 140 to drive the rotating shaft 142 to rotate, so as to switch the air guiding plate 140 between the closed position and the open position.

The air deflector 140 can be in an open position in a non-cooling mode or a dehumidifying mode, for example, when the cabinet air conditioner indoor unit 10 is in a heating mode, the air deflector 140 is in the open position, so that at least a portion of the air flow passes through the compressor 130.

The cabinet 100 is provided with an air return opening 102 and an air outlet 104. The indoor fan 110 can generate an airflow in the cabinet 100 between the air return opening 102 and the air outlet 104. The airflow is driven by the indoor fan 110 to enter the cabinet 104 from the air return opening 102, pass through the indoor heat exchanger 120, and be exhausted from the air outlet 104, and the airflow has a traveling path from the air return opening 102 to the air outlet 104 in the cabinet 100.

The compressor 130 is disposed in the path of the airflow, and when the air deflector 140 is in the open position, the plate 144 of the air deflector 140 forms substantially no barrier to the airflow passing through the compressor 130, and preferably, the plate 144 is substantially parallel to the path of the airflow. When the air deflector 140 is in the closed position, the plate 144 of the air deflector 140 intersects with the air flow path, so that the air flow is blocked by the air deflector 140 and bypasses the compressor 130.

Because the temperature of the compressor 130 is far higher than the ambient temperature when the compressor 130 works, the air guide plate 140 blocks the air flow when the air conditioner refrigerates or dehumidifies, so that the air flow bypasses the compressor 130, and the heat exchange with the compressor 130 can be avoided; when the air conditioner is heating, the air guide plate 140 guides the air flow to the compressor 130, so that the heat of the compressor 130 can be used for heating the air flow, and the waste heat generated by the compressor 130 can be recycled.

In a preferred embodiment, the compressor 130 is disposed near the air outlet 104, that is, the air flow passes through the indoor heat exchanger 120, then passes through the compressor 130, and finally is discharged from the air outlet 104. In this embodiment, in the air-conditioning cooling mode or the dehumidification mode, the air deflector 140 in the closed position can prevent the air flow cooled by the indoor heat exchanger 120 from directly flowing through the compressor 130 and being heated again by the compressor 130; the air guide plate 140 in the open position enables the air flow heated by the indoor heat exchanger 120 to be further heated by the compressor 130 again in the air-conditioning heating mode.

When the compressor 130 is disposed near the air outlet 104, the air flow path near the air outlet 104 is substantially perpendicular to the air outlet 104. The plate 144 of the air-guiding plate 140 in the closed position forms an included angle smaller than 90 ° with the air outlet 104, and the plate 144 of the air-guiding plate 140 in the open position is substantially perpendicular to the air outlet 104.

Referring to fig. 3 and 4, in an embodiment, the air guiding plate 140 includes two rotating shafts 142 and two plate bodies 144 respectively connected to the two rotating shafts 142, and the two rotating shafts 142 are parallel to each other and the air outlet 104 and respectively disposed at two sides of the compressor 130. The ends of the two plates 144 of the air guiding plate 140 in the closed position contact each other to form a closed structure. By forming the closed ends of the plates 144 in contact with each other, the airflow can be more sufficiently blocked and prevented from passing through the compressor 130. Preferably, the two plates 144 in the closed position have an included angle therebetween of less than 180 °, and more preferably, the two plates 144 in the closed position have an included angle therebetween of less than 90 °. The plate 144 is preferably rectangular in shape. Referring to fig. 5 and 6, the two plates 144 in the open position are parallel to each other and substantially perpendicular to the air outlet 104.

It is understood that the arrangement and shape of the air guiding plate 140 are not limited to the above embodiments, and in another embodiment, the air guiding plate 140 includes a plurality of rotating shafts 142 and a plurality of plate bodies 144 respectively connected to the rotating shafts 142, the rotating shafts 142 are parallel to the air outlet 104 and are disposed around the compressor 130, and the shape of the plate bodies 144 can be combined into a closed polyhedral or curved mask in the closed position. For example, the air guiding plate 140 may include four rotating shafts 142 and four plate bodies 144 respectively connected to the four rotating shafts 142, the plate bodies 144 are triangular, the four rotating shafts 142 are parallel to the air outlet 104 and disposed around the compressor 130, and the four triangular plate bodies 144 in the closed position contact each other to form a closed structure, thereby forming a pyramid structure.

The plate body 144 of the air deflection plate 140 is preferably a flat plate-shaped structure. The material of the plate 144 is preferably a thermally insulating material.

The cabinet air conditioning indoor unit 10 may further include a throttling device. The throttling device, the indoor heat exchanger 120 and the compressor 130 are in fluid communication. In the cooling mode and the dehumidification mode, the refrigerant enters the indoor heat exchanger 120 through the throttling device to exchange heat with indoor air, enters the compressor 130 after being heated by the air, enters the outdoor unit (not shown) after being compressed by the compressor 130, exchanges heat with outdoor air in the outdoor heat exchanger (not shown), and then enters the throttling device of the indoor unit again. The indoor air is driven by the indoor fan 110 to pass through the indoor heat exchanger 120 to be cooled, but due to the blocking of the air deflector 140 in the closed position, at least part of the air flow bypasses the compressor 130, and is prevented from being heated by the compressor 130.

In the heating mode, the flow direction of the refrigerant is changed, the indoor heat exchanger 120 is used as a condenser, and the outdoor heat exchanger of the outdoor unit is used as an evaporator. The indoor air passes through the indoor heat exchanger 120 to be heated by the indoor fan 110, and at least partially passes through the compressor 130 due to the air deflector 140 being in the open position, and is further heated by the compressor 130 to use the residual heat of the compressor.

In a preferred embodiment, the air outlet 104 is disposed at a lower portion of a front side plate of the cabinet 100, and the air return opening 102 is disposed at a top plate of the cabinet 100.

In one embodiment, the indoor fan 110 is disposed near the air return opening 102, the compressor 130 is disposed near the air outlet 104, and the indoor heat exchanger 120 is disposed between the indoor fan 110 and the compressor 130.

The indoor heat exchanger 120 is preferably disposed in an inclined manner, although the direction of disposition is not limited thereto. The indoor unit 10 may further include a drain pan 150 disposed below the indoor heat exchanger 120 for receiving condensed water formed on the surface of the indoor heat exchanger 120.

The embodiment of the invention also provides a cabinet air conditioner (not shown in the figure), which comprises an outdoor unit, an indoor unit (10) of the cabinet air conditioner, and an outdoor heat exchanger (serving as a condenser in a refrigeration mode) and an outdoor fan.

The embodiment of the invention also provides an air conditioner control system, which comprises a mode selector and an air deflector controller, wherein the air deflector controller controls the air deflector 140. Specifically, the air deflector controller receives a signal corresponding to a current selection mode of the mode selector, and when the current selection mode is a cooling mode or a dehumidifying mode, the air deflector controller controls the air deflector 140 to be disposed at the closed position.

Further, when the currently selected mode is the heating mode, the air deflector controller controls the air deflector 140 to be disposed at the open position.

More specifically, when the mode selector switches or sets the air conditioner to be in the cooling mode or the dehumidification mode, the mode selector first sends a first signal to the air deflector controller, and the air deflector controller receives the first signal to electrify the stepping motor to drive the air deflector 140 to rotate to the closed position; after the air deflector 140 is set to the closed position, the mode selector controls the compressor 130 to start. When the mode selector switches or sets the air conditioner to be in the heating mode, the mode selector firstly sends a second signal to the air deflector controller, and the air deflector controller receives the second signal to electrify the stepping motor and drive the air deflector 140 to rotate to the opening position; after the air deflector 140 is disposed at the open position, the mode selector controls the four-way valve to change the direction of the refrigerant and controls the compressor to start.

In the embodiment of the invention, the air deflector 140 capable of controlling opening and closing is arranged near the compressor 130, and because the temperature of the compressor 130 is very high when the compressor 130 works, the air deflector 140 is in a closed position when the air conditioner refrigerates or dehumidifies, so that at least part of air flow bypasses the compressor 130, and the heat exchange with the compressor 130 can be avoided, thereby enhancing the refrigerating capacity; when the air conditioner is heating, the air deflector 140 is in an open position, so that at least part of the air flow passes through the compressor 130 to exchange heat with the compressor 130, thereby increasing the heating amount. Therefore, the opening and closing controllable air deflector of the present invention can control whether the air flow in the indoor unit 10 passes through the compressor 130, so as to improve the refrigeration effect during refrigeration or dehumidification, and recycle the compressor waste heat during heating, thereby improving the air conditioning energy efficiency.

In addition, other modifications within the spirit of the invention will occur to those skilled in the art, and it is understood that such modifications are included within the scope of the invention as claimed.

Claims (15)

1. A cabinet air-conditioning indoor unit (10) comprises a cabinet (100), an indoor fan (110), an indoor heat exchanger (120) and a compressor (130) which are arranged in the cabinet (100), the cabinet (100) is provided with an air return opening (102) and an air outlet (104), the indoor fan (110) can form airflow in the cabinet (100) between the air return opening (102) and the air outlet (104), characterized in that the cabinet air-conditioning indoor unit (10) further comprises an air deflector (140), the air deflector (140) is arranged close to the compressor (130), the air deflector (140) can be switched between an open position and a closed position, when the air conditioner is in a cooling mode or a dehumidifying mode, the air deflector (140) is in the closed position, so that at least part of the air flow is blocked by the air deflector (140) to bypass the compressor (130).

2. The cabinet air-conditioning indoor unit (10) of claim 1, wherein the air deflector (140) is in the open position to allow at least a portion of the air flow to pass through the compressor (130) when the air conditioner is in a heating mode.

3. The cabinet air-conditioning indoor unit (10) of claim 1, wherein the air deflector (140) has a rotating shaft (142) and a plate (144) connected to the rotating shaft (142), and the plate (144) rotates around the axis of the rotating shaft (142) to switch the air deflector (140) between the closed position and the open position.

4. The cabinet air-conditioning indoor unit (10) of claim 3, wherein the plate body (144) of the air deflector (140) in the closed position intersects the traveling path of the air flow, and the plate body (144) of the air deflector (140) in the open position is parallel to the traveling path of the air flow.

5. The cabinet air-conditioning indoor unit (10) of claim 3, wherein the compressor (130) is disposed near the air outlet (104), and the plate body (144) of the air deflector (140) in the closed position forms an included angle of less than 90 ° with the air outlet (104).

6. The cabinet air-conditioning indoor unit (10) of claim 3, wherein the compressor (130) is disposed near the air outlet (104), and the plate body (144) of the air deflector (140) in the open position is perpendicular to the air outlet (104).

7. The cabinet air-conditioner indoor unit (10) of claim 1, wherein the air outlet (104) is provided at a lower portion of a front side plate of the cabinet (100), and the air return opening (102) is provided at a ceiling of the cabinet (100).

8. The cabinet air-conditioning indoor unit (10) of claim 3, wherein the air deflector (140) comprises two rotating shafts (142) and two plate bodies (144) respectively connected to the two rotating shafts (142), the two rotating shafts (142) are parallel to each other and respectively disposed at two sides of the compressor (130), and the ends of the two plate bodies (144) at the closed position contact each other to form a closed state.

9. The cabinet air conditioner indoor unit (10) of claim 8, wherein the two panels (144) in the closed position have an included angle of less than 180 °.

10. The cabinet air-conditioning indoor unit (10) of claim 3, wherein the air deflector (140) comprises four rotating shafts (142) and four triangular plates (144) respectively connected to the four rotating shafts (142), the four rotating shafts (142) are parallel to the air outlet (104) and disposed around the compressor (130), and the four triangular plates (144) in the closed position contact each other to form a closed pyramid-shaped structure.

11. The cabinet air-conditioning indoor unit (10) of claim 3, wherein the air deflector (140) comprises a plurality of rotating shafts (142) and a plurality of plate bodies (144) respectively connected to the rotating shafts (142), the rotating shafts (142) are parallel to the air outlet (104) and disposed around the compressor (130), and the shape of the plate bodies (144) can be combined into a closed multi-faced mask or a curved mask at the closed position.

12. The cabinet air conditioner indoor unit (10) of claim 1, wherein the indoor fan (110) is disposed near the return air inlet (102), and the compressor (130) is disposed near the outlet (104).

13. The cabinet air-conditioning indoor unit (10) of claim 1, further comprising a water pan (150), wherein the indoor heat exchanger (120) is disposed obliquely, and wherein the water pan (150) is disposed below the indoor heat exchanger (120).

14. A packaged air conditioner comprising an outdoor unit including an outdoor heat exchanger and an outdoor fan, characterized by further comprising the packaged air conditioner indoor unit (10) of any one of claims 1 to 13.

15. An air conditioner control system for controlling the cabinet air conditioner as claimed in claim 14, further comprising a mode selector, wherein the air conditioner control system further comprises an air deflector controller for controlling the air deflector (140), the air deflector controller receives a signal corresponding to a currently selected mode of the mode selector, and when the currently selected mode is a cooling mode or a dehumidifying mode, the air deflector controller controls the air deflector (140) to be disposed at the off position.

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