CN210035708U - Air conditioning unit structure and air conditioner - Google Patents

Abstract

The utility model discloses an air conditioning unit structure and air conditioner, air conditioning unit structure includes: the mounting frame comprises a first layer of mounting space and a second layer of mounting space which are arranged at intervals along the height direction of the mounting frame, and the height of the second layer of mounting space is greater than that of the first layer of mounting space; an evaporator disposed in the second floor installation space; the heat exchanger and the compressor are arranged in the first layer of installation space at intervals, and the compressor, the heat exchanger and the evaporator are communicated through a pipeline to form a circulation channel for circulating a refrigerant. The air conditioning unit structure and the air conditioner solve the defects that the magnetic suspension direct refrigeration type air conditioning unit is too long in whole and cannot be smoothly hung into the underground installation at the present stage, the splicing problem caused after the air conditioning unit is split is avoided, and the installation efficiency of the air conditioning unit is improved.

Description

Air conditioning unit structure and air conditioner

Technical Field

The utility model relates to a indirect heating equipment technical field especially relates to an air conditioning unit structure and air conditioner.

Background

China rail transit is in a new stage of vigorous development, and the requirements of people on the safety and the comfort of rail transit are continuously improved. At present, a novel magnetic suspension direct refrigeration type air conditioning unit is applied to subway station refrigeration, which is a step forward for air treatment of rail transit.

Because the subway station all deepens underground, consequently, traditional magnetic suspension direct refrigeration formula air conditioning unit needs the split design, installs the structure after the split in the waiting installation district of subway station again, however, there are a lot of inconveniences in the installation of split structure, influences the use.

SUMMERY OF THE UTILITY MODEL

Based on this, need the split design to traditional magnetic suspension direct refrigeration formula air conditioning unit, with the structure after the split again install treating the installing zone at subway station, however, there is a great deal of inconvenience in the structure installation of split, influence the problem of use, an air conditioning unit structure and air conditioner have been proposed, this air conditioning unit structure and air conditioner have solved the whole overlength of current stage magnetic suspension direct refrigeration formula air conditioning unit, can't hang the defect of underground installation smoothly, the concatenation problem that arouses after the air conditioning unit split has been avoided, the installation effectiveness of air conditioning unit has been improved.

The specific technical scheme is as follows:

in one aspect, the present application relates to an air conditioning unit structure comprising: the mounting frame comprises a first layer of mounting space and a second layer of mounting space which are arranged at intervals along the height direction of the mounting frame, and the height of the second layer of mounting space is greater than that of the first layer of mounting space; an evaporator disposed in the second floor installation space; the heat exchanger and the compressor are arranged in the first layer of installation space at intervals, and the compressor, the heat exchanger and the evaporator are communicated through a pipeline to form a circulation channel for circulating a refrigerant.

When the air conditioning unit structure is used, the installation frame comprises a first layer of installation space and a second layer of installation space which are arranged at intervals along the height direction of the installation frame, the evaporator is arranged in the second layer of installation space, and the heat exchanger and the compressor are arranged in the first layer of installation space at intervals, so that the installation space of the installation frame is fully utilized, the length of the air conditioning unit structure can be reduced, the defects that the traditional magnetic suspension direct refrigeration type air conditioning unit is too long in whole and cannot be hung underground for installation are overcome, the splicing problem caused by the split air conditioning unit is avoided, and the installation efficiency of the air conditioning unit is improved; further, because the weight of the compressor and the heat exchanger is too large, the compressor and the heat exchanger are arranged in the first layer of installation space, so that the stability of the whole air conditioning unit structure can be improved.

The technical solution is further explained below:

in one embodiment, the air conditioning unit structure further includes a fan assembly, the fan assembly is disposed in the second layer of installation space, the installation frame includes an air inlet and an air outlet communicated with the air inlet, the evaporator is disposed between the air inlet and the air outlet, the fan assembly and the evaporator are disposed at an interval, and the fan assembly is disposed between the air outlet and an air outlet end of the evaporator.

In one embodiment, the air inlet and the air outlet are arranged at intervals with the first layer installation space along the height direction of the installation frame, the height of the air inlet and the height of the air outlet are both greater than the height of the first layer installation space, and the air inlet and the air outlet are both communicated with the second layer installation space.

In one embodiment, the air conditioning unit structure further includes a filter member disposed between the air inlet and the air inlet end of the evaporator.

In one embodiment, the air conditioning unit structure further comprises a partition, wherein the mounting frame encloses a mounting area, and the partition is arranged in the mounting area and divides the mounting area into the first layer of mounting space and the second layer of mounting space.

In one embodiment, the air conditioning unit structure further comprises a first water pan, the first water pan is arranged on the partition, the evaporator is arranged on the water receiving surface of the first water pan, and the first water pan is provided with a first water outlet.

In one embodiment, the mounting frame further includes a maintenance area disposed at an interval from the mounting area, and the maintenance area is disposed between the air outlet and the evaporator.

In one embodiment, the air conditioning unit structure further comprises a compressor frequency converter, the compressor frequency converter is arranged in the first layer of installation space, the compressor frequency converter is electrically connected with the compressor, and the compressor frequency converter and the heat exchanger are arranged at intervals.

In one embodiment, the compressor inverter is located on the same side as the compressor and the heat exchanger is located on the opposite side of the compressor and the compressor inverter.

In one embodiment, the air conditioning unit structure further comprises a mounting seat, and the mounting frame is fixedly arranged on the pressure bearing surface of the mounting seat.

In another aspect, the present application further relates to an air conditioner including the air conditioning unit structure in any of the above embodiments.

When the air conditioner is used, the installation frame comprises a first layer of installation space and a second layer of installation space which are arranged at intervals along the height direction of the installation frame, the evaporator is arranged in the second layer of installation space, and the heat exchanger and the compressor are arranged in the first layer of installation space at intervals, so that the installation space of the installation frame is fully utilized, the length of the structure of the air conditioning unit can be reduced, the defects that the traditional magnetic suspension direct refrigeration type air conditioning unit is too long to be hung into the ground for installation smoothly are overcome, the splicing problem caused by the split air conditioning unit is avoided, and the installation efficiency of the air conditioning unit is improved; further, because the weight of the compressor and the heat exchanger is too large, the compressor and the heat exchanger are arranged in the first layer of installation space, so that the stability of the whole air conditioning unit structure can be improved.

Drawings

FIG. 1 is a schematic diagram of an air conditioning unit configuration according to an embodiment;

fig. 2 is a schematic diagram of an air conditioning unit structure in another embodiment.

Description of reference numerals:

10. air conditioning unit structure, 100, installation frame, 110, first layer installation space, 120, second floor installation space, 130, maintenance area, 200, evaporimeter, 300, compressor, 400, heat exchanger, 500, compressor converter, 600, fan subassembly, 700, filter, 810, air inlet valve, 820, air outlet valve, 910, first water collector, 920, second water collector, 1000, electric cabinet, 2000, mount pad.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and the following detailed description. It should be understood that the detailed description and specific examples, while indicating the scope of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

It will be understood that when an element is referred to as being "secured to" another element, it can be integral with the other element or can be removably connected to the other element.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Further, it is to be understood that, in the present embodiment, the positional relationships indicated by the terms "lower", "upper", "front", "rear", "left", "right", "inner", "outer", "top", "bottom", "one side", "the other side", "one end", "the other end", and the like are based on the positional relationships shown in the drawings; the terms "first," "second," and the like are used herein to distinguish one structural element from another. These terms are merely for convenience of description and simplicity of description, and are not to be construed as limiting the present invention.

As shown in fig. 1 to 2, an air conditioning assembly structure 10 in an embodiment includes: a mounting frame 100, the mounting frame 100 including a first layer mounting space 110 and a second layer mounting space 120 spaced apart in a height direction of the mounting frame 100, the second layer mounting space 120 having a height greater than that of the first layer mounting space 110; an evaporator 200, the evaporator 200 being disposed in the second floor installation space 120; and a compressor 300 and a heat exchanger 400, wherein the heat exchanger 400 and the compressor 300 are arranged in the first layer installation space 110 at intervals, and the compressor 300, the heat exchanger 400 and the evaporator 200 are communicated through pipelines to form a circulation channel for the circulation of a refrigerant.

When the air conditioning unit structure 10 is used, the installation frame 100 comprises the first layer installation space 110 and the second layer installation space 120 which are arranged at intervals along the height direction of the installation frame 100, the evaporator 200 is arranged in the second layer installation space 120, and the heat exchanger 400 and the compressor 300 are arranged in the first layer installation space 110 at intervals, so that the installation space of the installation frame 100 is fully utilized, meanwhile, the length of the air conditioning unit structure 10 can be reduced, the defect that the traditional magnetic suspension direct refrigeration type air conditioning unit is too long in whole and cannot be smoothly hung into the ground for installation is overcome, the splicing problem caused by the split air conditioning unit is avoided, and the installation efficiency of the air conditioning unit is improved; further, since the weight of the compressor 300 and the heat exchanger 400 is too large, the stability of the entire air conditioning unit structure 10 may be improved by disposing the compressor 300 and the heat exchanger 400 in the first floor installation space 110. In this embodiment, the heat exchanger 400 is a shell-and-tube heat exchanger.

As shown in fig. 1 to fig. 2, on the basis of the above embodiment, the air conditioning unit structure 10 further includes a fan assembly 600, the fan assembly 600 is disposed in the second layer installation space 120, the installation frame 100 includes an air inlet and an air outlet communicated with the air inlet, the evaporator 200 is disposed between the air inlet and the air outlet, the fan assembly 600 and the evaporator 200 are disposed at an interval, and the fan assembly 600 is disposed between the air outlet and an air outlet end of the evaporator 200. Therefore, the fan assembly 600 drives the air to flow along the direction of the air inlet, the evaporator 200 and the air outlet, so as to realize heat exchange. In this embodiment, the air inlet is provided with an air inlet valve 810, the opening and closing of the air inlet is controlled by the air inlet valve 810, the air outlet is provided with an air outlet valve 820, and the opening and closing of the air outlet is controlled by the air outlet valve 820, wherein the air inlet valve 810 and the air outlet valve 820 may be a shutter structure or a rotatable door structure. Specifically, fan assembly 600 is a centrifugal fan.

Specifically, in this embodiment, the air inlet and the air outlet are spaced apart from the first layer installation space 110 along the height direction of the installation frame 100, the height of the air inlet and the height of the air outlet are both greater than the height of the first layer installation space 110, and the air inlet and the air outlet are both communicated with the second layer installation space 120. Therefore, most of the refrigerant is located in the first layer installation space 110, the air flows in the second layer installation space 120, and when the refrigerant leaks, the leaked refrigerant cannot be blown into the user side through the air, so that the protection effect is achieved.

As shown in fig. 1 to 2, in the present embodiment, the air conditioning unit structure 10 further includes a filter member 700, and the filter member 700 is disposed between the air inlet and the air inlet end of the evaporator 200. Thus, the wind coming along the wind inlet can be filtered by the filter member 700 to purify the wind; in this embodiment, the filter member 700 is an electrostatic precipitator assembly or a filter screen.

In this embodiment, the air conditioning unit structure 10 further includes a partition, the mounting frame 100 encloses a mounting area, the partition is disposed in the mounting area and divides the mounting area into a first layer of mounting space 110 and a second layer of mounting space 120, so that the first layer of mounting space 110 and the second layer of mounting space 120 are relatively compact, and the height of the air conditioning unit structure 10 can be reduced as much as possible; in this embodiment, the partition is a partition bracket, and the end of the partition bracket is connected to the mounting frame 100.

As shown in fig. 1, specifically in this embodiment, the air conditioning unit structure 10 further includes a first water pan 910, the first water pan 910 is disposed on the partition, the evaporator 200 is disposed on the water receiving surface of the first water pan 910, and the first water pan 910 is provided with a first water outlet. Therefore, the first water receiving tray 910 receives the condensed water generated by the evaporator 200, and the condensed water is discharged through the first water outlet, so that the condensed water is prevented from being accumulated. In this embodiment, the evaporator 200, the filter 700, and the fan assembly 600 are all disposed on the first water pan 910, which facilitates installation of the evaporator 200, the filter 700, and the fan assembly 600.

As shown in fig. 1 to 2, in the present embodiment, the mounting frame 100 further includes a maintenance area 130 spaced apart from the mounting area, and the maintenance area 130 is disposed between the air outlet and the evaporator 200. As such, the evaporator 200 can be serviced by providing the service area 130.

As shown in fig. 1 to fig. 2, in the present embodiment, the air conditioning unit structure 10 further includes a compressor inverter 500, the compressor inverter 500 is disposed in the first floor installation space 110, the compressor inverter 500 is electrically connected to the compressor 300, and the compressor inverter 500 and the heat exchanger 400 are disposed at an interval. Thus, the compressor frequency converter 500 is used for adjusting the operating frequency of the compressor 300, and further adjusting the rotating speed of the compressor 300, so as to achieve the purpose of controlling the room temperature, so that the room temperature fluctuation is small, the electric energy consumption is low, and the comfort level is greatly improved. Further, the compressor inverter 500 is disposed in the first floor installation space 110, which can also improve the stability of the entire air conditioning unit structure 10.

As shown in fig. 1 to fig. 2, specifically, in this embodiment, the compressor inverter 500 is located on the same side as the compressor 300, and the heat exchanger 400 is located on the opposite side of the compressor 300 and the compressor inverter 500. Therefore, the compressor 300 and the compressor inverter 500 are arranged opposite to the heat exchanger 400, so that the stability of the whole air conditioning unit structure 10 can be improved, and the phenomenon that the air conditioning unit structure 10 is unstable due to the fact that the compressor 300, the compressor inverter 500 and the heat exchanger 400 are located on the same side and the gravity center of the air conditioning unit structure 10 is located on one side is avoided. In this embodiment, the mounting frame 100 further includes a panel disposed on the mounting frame for sealing the first layer of mounting space 110, and the compressor 300 and the compressor inverter 500 are disposed near the panel, so that the compressor 300 and the compressor inverter 500 can be conveniently maintained. In this embodiment, a second water pan 920 is further disposed in the first floor installation space 110, the compressor 300, the compressor frequency converter 500 and the heat exchanger 400 are disposed on a water receiving surface of the second water pan 920, and the second water pan 920 further includes a second water outlet through which water in the second water pan 920 is discharged. In this embodiment, the compressor 300 is fixedly mounted on the second water pan 920 through a mounting bracket.

As shown in fig. 1 to fig. 2, on the basis of any of the above embodiments, the air conditioning unit structure 10 further includes a mounting seat 2000, and the mounting frame 100 is fixedly arranged on the pressure bearing surface of the mounting seat 2000. Thus, the mounting seat 2000 is arranged to play a role in bearing load.

As shown in fig. 2 and fig. 1, the air conditioning unit structure 10 further includes an electric cabinet 1000, the mounting frame 100 is provided with a panel for sealing the first-layer mounting space 110, the electric cabinet 1000 is disposed on the mounting panel, and the electric cabinet 1000 is disposed between the filter member 700 and the evaporator 200, so that the space can be fully utilized and the size of the air conditioning unit structure 10 can be reduced.

An air conditioner in one embodiment includes the air conditioning unit structure 10 in any of the above embodiments.

When the air conditioner is used, the installation frame 100 comprises the first layer installation space 110 and the second layer installation space 120 which are arranged at intervals along the height direction of the installation frame 100, the evaporator 200 is arranged in the second layer installation space 120, and the heat exchanger 400 and the compressor 300 are arranged in the first layer installation space 110 at intervals, so that the installation space of the installation frame 100 is fully utilized, meanwhile, the length of the air conditioning unit structure 10 can be reduced, the defects that the traditional magnetic suspension direct refrigeration type air conditioning unit is too long in whole and cannot be hung underground for installation are overcome, the splicing problem caused by the split air conditioning unit is avoided, and the installation efficiency of the air conditioning unit is improved; further, since the weight of the compressor 300 and the heat exchanger 400 is too large, the stability of the entire air conditioning unit structure 10 may be improved by disposing the compressor 300 and the heat exchanger 400 in the first floor installation space 110.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (11)

1. An air conditioning unit structure, comprising:

the mounting frame comprises a first layer of mounting space and a second layer of mounting space which are arranged at intervals along the height direction of the mounting frame, and the height of the second layer of mounting space is greater than that of the first layer of mounting space;

an evaporator disposed in the second floor installation space; and

the heat exchanger and the compressor are arranged in the first layer of installation space at intervals, and the compressor, the heat exchanger and the evaporator are communicated through a pipeline to form a circulation channel for circulation of a refrigerant.

2. The air conditioning unit structure of claim 1, further comprising a fan assembly, wherein the fan assembly is disposed in the second floor installation space, the installation frame includes an air inlet and an air outlet communicated with the air inlet, the evaporator is disposed between the air inlet and the air outlet, the fan assembly is spaced from the evaporator, and the fan assembly is disposed between the air outlet and the air outlet of the evaporator.

3. The air conditioning unit structure of claim 2, wherein the air inlet and the air outlet are spaced apart from the first floor installation space in a height direction of the installation frame, the height of the air inlet and the height of the air outlet are both greater than the height of the first floor installation space, and the air inlet and the air outlet are both communicated with the second floor installation space.

4. An air conditioning unit assembly as set forth in claim 2 further including a filter member disposed between said air inlet and said air inlet end of said evaporator.

5. The air conditioning unit structure according to claim 2, further comprising a partition, the mounting frame enclosing a mounting area, the partition being disposed in the mounting area and dividing the mounting area into the first floor mounting space and the second floor mounting space.

6. An air conditioning unit arrangement according to claim 5, further comprising a first drip tray, said first drip tray being disposed on said partition, said evaporator being disposed on a drip surface of said first drip tray, said first drip tray being provided with a first water outlet.

7. The air conditioning assembly structure of claim 5, wherein the mounting frame further includes a maintenance area spaced from the mounting area, the maintenance area being disposed between the air outlet and the evaporator.

8. The air conditioning unit structure of claim 1, further comprising a compressor inverter disposed in the first floor installation space, the compressor inverter electrically connected to the compressor, and the compressor inverter spaced apart from the heat exchanger.

9. An air conditioning assembly arrangement according to claim 8, wherein the compressor inverter is located on the same side as the compressor and the heat exchanger is located on the opposite side of the compressor and the compressor inverter.

10. The air conditioning unit structure according to any one of claims 1 to 9, further comprising a mounting seat, wherein the mounting frame is fixedly arranged on a pressure bearing surface of the mounting seat.

11. An air conditioner including an air conditioning assembly structure as claimed in any one of claims 1 to 10.

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