CN220250144U - Three-dimensional cabinet air conditioner structure - Google Patents

Abstract

The utility model relates to the technical field of cabinet air conditioners, in particular to a three-dimensional cabinet air conditioner structure which comprises a shell, a supporting seat, a coil heat exchanger, a fan, a filter support and a filter assembly, wherein the supporting seat is accommodated in the shell and connected to the bottom of the shell, the coil heat exchanger is obliquely arranged in the supporting seat, the fan is connected to the top of the supporting seat, the filter support is erected on the top of the supporting seat, the filter assembly is connected to the top of the filter support, a first air inlet and an air outlet are formed in the shell, and the first air inlet, the coil heat exchanger, the fan, the filter assembly and the air outlet are sequentially communicated along the air flow direction. The supporting seat is contained at the bottom of the shell, the coil heat exchanger is obliquely arranged in the supporting seat, air enters the shell through the first air inlet and flows upwards after the heat exchange of the coil heat exchanger, the air direction of the fan is changed, the air is filtered by the filtering component and then is sent out through the air outlet, the internal space of the shell is more favorably saved, the space utilization rate is improved, the air is discharged after the filtering component filters, and the purifying effect is higher.

Description

Three-dimensional cabinet air conditioner structure

Technical Field

The utility model relates to the technical field of cabinet air conditioners, in particular to a three-dimensional cabinet air conditioner structure.

Background

The fan coil unit mainly comprises a centrifugal fan, a coil heat exchanger and the like, and is an end device of a central air conditioning system; the column type fan coil can be placed in living room, office hall, bedroom and other places, has attractive and elegant appearance, saves space, is convenient to install and can be matched with interior decoration. The traditional cabinet type fan coil (cabinet type air conditioner) is shown in fig. 1, only a vertically arranged coil heat exchanger and a fan at the top are arranged in an air conditioner box, and air flow is cooled by the coil heat exchanger, then needs a larger space for flow equalization, is conveyed to the fan upwards and is directly discharged; the cabinet air conditioning unit has low overall space utilization rate and low purifying effect.

Disclosure of Invention

In order to overcome the defects and shortcomings in the prior art, the utility model aims to provide a three-dimensional cabinet air conditioner structure.

The aim of the utility model is achieved by the following technical scheme: the utility model provides a three-dimensional cabinet air conditioner structure, includes the casing, holds and locate the casing and connect in the supporting seat of casing bottom, slope set up coil pipe heat exchanger in the supporting seat, connect in the fan at supporting seat top, erect in the filtration support at supporting seat top and connect in the filtration subassembly at filtration support top, first air intake and air outlet have been seted up to the casing, first air intake, coil pipe heat exchanger, fan, filtration subassembly and air outlet communicate in proper order along the air flow direction.

Preferably, the first air inlet and the air outlet are both arranged on one side surface of the shell; the bottom of casing has seted up the second air intake, coil pipe heat exchanger, fan, filtration subassembly and air outlet communicate in proper order along the air flow direction.

Preferably, the first air inlet is provided with a plate filter, and the air outlet and the second air inlet are both provided with embedded louvers.

Preferably, the supporting seat comprises a supporting frame connected to the bottom of the shell, a front sealing type fixing plate connected to the bottom of the shell, a rear sealing type fixing plate connected to the bottom of the shell, a supporting top plate connected to the top of the supporting frame, and a wind deflector connected to one side surface of the shell, wherein the front sealing type fixing plate and the rear sealing type fixing plate are respectively connected to two adjacent side end surfaces of the bottom of the coil heat exchanger, and the wind deflector is connected with one surface of the coil heat exchanger close to the first air inlet; the support roof has offered the wind hole with fan intercommunication, fan and filtration support all are connected in the top of support roof.

Preferably, the end of the supporting top plate is provided with an installation opening, the installation opening is detachably connected with an access plate, and the access plate is provided with a wire passing hole.

Preferably, the fan is an EC fan.

Preferably, the filter assembly comprises a middle-efficiency filter support frame connected with the filter support frame, a middle-efficiency filter accommodated in the middle-efficiency filter support frame, a high-efficiency filter support frame connected to the top of the middle-efficiency filter support frame, a support beam connected between the middle-efficiency filter support frame and the high-efficiency filter support frame, and a high-efficiency filter accommodated in the high-efficiency filter support frame.

The utility model has the beneficial effects that: according to the three-dimensional cabinet air conditioner structure, the supporting seat is arranged at the bottom of the shell, the coil heat exchanger is obliquely arranged in the supporting seat, air enters the shell through the first air inlet, after the coil heat exchanger exchanges heat, the air flows upwards after changing the air direction, is filtered by the filtering component, and is sent out through the air outlet, so that the space in the shell is saved, the space utilization is improved, the air is discharged after being filtered by the filtering component, and the purifying effect is higher.

Drawings

FIG. 1 is a schematic diagram of a conventional cabinet fan coil of the prior art;

FIG. 2 is a schematic diagram of the structure of the present utility model;

FIG. 3 is a partially exploded schematic illustration of the present utility model;

FIG. 4 is an exploded view of FIG. 3A;

FIG. 5 is a schematic view of the structure of the housing of the present utility model;

the reference numerals are: 1. an air conditioning box; 2. a coiled tube heat exchanger; 3. a blower; 4. a housing; 5. a support base; 51. a support frame; 52. a front sealing type fixing plate; 53. a rear sealing type fixing plate; 54. a supporting top plate; 55. a wind deflector; 6. a filter support; 7. a filter assembly; 71. a medium-efficiency filtration support frame; 72. a medium-efficiency filter; 73. a high efficiency filtration support frame; 74. a support beam; 75. a high-efficiency filter; 8. a first air inlet; 9. an air outlet; 10. a second air inlet; 11. a panel filter; 12. embedded type shutter; 13. a partition plate; 14. a first chamber; 15. a second chamber; 16. a water supply pipe; 17. a water return pipe; 18. a wind hole; 19. a mounting port; 20. an access panel; 21. and a wire through hole.

Detailed Description

The present utility model will be further described with reference to examples and drawings, which are not intended to be limiting, for the understanding of those skilled in the art.

As shown in fig. 2-5, a three-dimensional cabinet air conditioner structure comprises a shell 4, a supporting seat 5 which is accommodated in the shell 4 and is connected to the bottom of the shell 4, a coil heat exchanger 2 which is obliquely arranged in the supporting seat 5, a fan 3 which is connected to the top of the supporting seat 5, a filtering bracket 6 which is erected on the top of the supporting seat 5, and a filtering component 7 which is connected to the top of the filtering bracket 6, wherein a first air inlet 8 and an air outlet 9 are formed in the shell 4, and the first air inlet 8, the coil heat exchanger 2, the fan 3, the filtering component 7 and the air outlet 9 are sequentially communicated along the air flow direction.

According to the three-dimensional cabinet air conditioner structure, the supporting seat 5 is contained at the bottom of the shell 4, the coil heat exchanger 2 is obliquely arranged in the supporting seat 5, air enters the shell 4 through the first air inlet 8, after the coil heat exchanger 2 exchanges heat, the air direction of the fan 3 is changed to flow upwards, filtered by the filtering component 7 and then sent out through the air outlet 9, and therefore the internal space of the shell 4 is saved; compared with the traditional cabinet type fan 3 coil, the three-dimensional cabinet type air conditioner structure improves the space utilization rate, and the filtering assembly 7 filters the back air outlet, so that the purifying effect is higher.

Further, the first air inlet 8 and the air outlet 9 are both disposed on one side surface of the housing 4; the bottom of the shell 4 is provided with a second air inlet 10, and the second air inlet 10, the coil heat exchanger 2, the fan 3, the filter assembly 7 and the air outlet 9 are sequentially communicated along the air flow direction. The first air inlet 8 is arranged on one side surface of the shell 4, the second air inlet 10 is arranged at the bottom of the shell 4, and the first air inlet 8 and the second air inlet 10 are mutually mixed after the air is taken into the shell 4, and then pass through the coil heat exchanger 2, so that the air and the coil heat exchanger 2 are fully contacted for heat exchange, and the heat exchange efficiency is improved.

Further, the first air inlet 8 is provided with a plate filter 11, and the air outlet 9 and the second air inlet 10 are both provided with embedded louvers 12. The first air inlet 8 on the side surface of the shell 4 is provided with the plate filter 11 for dust removal and oil removal coarse filtration, so that dust, oil and other impurities are prevented from directly entering the shell 4 along the first air inlet 8, devices in the shell 4 are effectively protected, the service life of the filter assembly 7 in the shell 4 is prolonged, and the maintenance times are shortened; the embedded type louvers 12 are arranged at the air outlet 9 and the second air inlet 10, so that the space in the shell 4 is reasonably utilized, a certain dust blocking and sound insulation effect is achieved, and the replacement and the overhaul are facilitated; further, the panel filter 11 is a G4 primary filter.

Further, the three-dimensional cabinet air conditioner structure further comprises a partition plate 13 arranged in the shell 4, the partition plate 13 divides the shell 4 into a first cavity 14 and a second cavity 15, the first cavity 14 is used for accommodating the supporting seat 5, the coil heat exchanger 2, the fan 3, the filtering bracket 6 and the filtering component 7, and inlet and outlet pipelines of the coil heat exchanger 2 penetrate through the partition plate 13 and extend into the second cavity 15. That is, the air flows in the first chamber 14 to exchange heat, and the inlet and outlet pipelines of the coil heat exchanger 2 are connected with the external water supply pipe 16 and the external water return pipe 17 in the second chamber 15, so that the integral connection pipe is concealed, and the influence on the appearance layout caused by the exposed connection pipe is avoided.

Further, the shell 4 is formed by connecting a plurality of first heat insulation boards, and the thickness of the first heat insulation boards is 45-60mm; the partition plate 13 is a second heat insulation plate, and the thickness of the second heat insulation plate is 10-35mm. The shell 4 is formed by connecting a plurality of first heat insulation boards, so that heat preservation and heat insulation are facilitated; the baffle 13 is the second heat insulating board, cooperates with first heat insulating board, is favorable to cut off to overhaul and conceal the takeover processing, and the thickness of second heat insulating board is 10-35mm, also plays the favorable heat insulating effect to second cavity 15, avoids taking over to external environment heat transfer and influence the heat transfer efficiency of three-dimensional cabinet air conditioner structure. Furthermore, the first heat insulating plate and the second heat insulating plate are both broken cold bridge heat insulating panels, the structural strength is higher, the heat insulating panels can bear larger pressure, the air leakage rate is low, the heat insulating panels have broken cold bridge structures, and the heat transfer coefficient is low and the heat insulating performance is excellent.

Further, the supporting seat 5 includes a supporting frame 51 connected to the bottom of the casing 4, a front sealing type fixing plate 52 connected to the bottom of the casing 4, a rear sealing type fixing plate 53 connected to the bottom of the casing 4, a supporting top plate 54 connected to the top of the supporting frame 51, and a wind deflector 55 connected to one side surface of the casing 4, wherein the front sealing type fixing plate 52 and the rear sealing type fixing plate 53 are respectively connected to two adjacent side end surfaces at the bottom of the coil heat exchanger 2, and the wind deflector 55 is connected to one surface of the coil heat exchanger 2 close to the first air inlet 8; the supporting top plate 54 is provided with a wind passing hole 18 communicated with the fan 3, and the fan 3 and the filtering bracket 6 are connected to the top of the supporting top plate 54. The front sealing type fixing plate 52, the rear sealing type fixing plate 53 and the wind shield 55 are in sealing fit with the coil heat exchanger 2 together, so that air mixed by the first air inlet 8 and the second air inlet 10 entering the shell 4 is completely subjected to heat exchange through the coil heat exchanger 2 and then is conveyed by the fan 3, a full return air effect is achieved, and the overall heat exchange efficiency is improved.

Further, the end portion of the supporting top plate 54 is provided with a mounting opening 19, the mounting opening 19 is detachably connected with an access panel 20, and the access panel 20 is provided with a wire passing hole 21, so that the fan 3 is wired and overhauled.

Further, the fan 3 is an EC fan 3. In a conventional cabinet air conditioner, as shown in fig. 1, a fan 3 is generally a common centrifugal fan 3, so that noise is large, and dispersion is controlled. The EC fan 3 is adopted, so that the noise is lower, the energy is saved, the efficiency is high, and a certain space is saved.

Further, the filter assembly 7 includes a middle efficiency filter support frame 71 connected to the filter support frame 6, a middle efficiency filter 72 accommodated in the middle efficiency filter support frame 71, a high efficiency filter support frame 73 connected to the top of the middle efficiency filter support frame 71, a support beam 74 connected between the middle efficiency filter support frame 71 and the high efficiency filter support frame 73, and a high efficiency filter 75 accommodated in the high efficiency filter support frame 73. The air is sequentially conveyed to the medium-efficiency filter 72 and the high-efficiency filter 75 through the fan 3 for filtering, so that the air purifying effect is improved; moreover, the middle-efficiency filter support frame 71 and the high-efficiency filter support frame 73 are supported by the support beams 74, so that deformation of the middle-efficiency filter support frame 71 caused by overweight of the high-efficiency filter 75 and the high-efficiency filter support frame 73 is avoided, and the structural stability of the filter assembly 7 is improved.

The above embodiments are preferred embodiments of the present utility model, and besides, the present utility model may be implemented in other ways, and any obvious substitution is within the scope of the present utility model without departing from the concept of the present utility model.

Claims (7)

1. A three-dimensional cabinet air conditioner structure, its characterized in that: including the casing, hold and locate the casing and connect in the supporting seat of casing bottom, slope set up in the coil pipe heat exchanger of supporting seat, connect in the fan at supporting seat top, erect in the filter stand at supporting seat top and connect in the filtration subassembly at filter stand top, first air intake and air outlet have been seted up to the casing, first air intake, coil pipe heat exchanger, fan, filtration subassembly and air outlet communicate in proper order along the air flow direction.

2. A three-dimensional cabinet air conditioner structure according to claim 1, wherein: the first air inlet and the air outlet are both arranged on one side surface of the shell; the bottom of casing has seted up the second air intake, coil pipe heat exchanger, fan, filtration subassembly and air outlet communicate in proper order along the air flow direction.

3. A three-dimensional cabinet air conditioner structure according to claim 2, wherein: the first air inlet is provided with a plate filter, and the air outlet and the second air inlet are both provided with embedded louvers.

4. A three-dimensional cabinet air conditioner structure according to claim 1, wherein: the support seat comprises a support frame connected to the bottom of the shell, a front sealing type fixing plate connected to the bottom of the shell, a rear sealing type fixing plate connected to the bottom of the shell, a support top plate connected to the top of the support frame, and a wind deflector connected to one side surface of the shell, wherein the front sealing type fixing plate and the rear sealing type fixing plate are respectively connected to two adjacent side end surfaces of the bottom of the coil heat exchanger, and the wind deflector is connected with one surface of the coil heat exchanger close to the first air inlet; the support roof has offered the wind hole with fan intercommunication, fan and filtration support all are connected in the top of support roof.

5. The three-dimensional cabinet air conditioner structure according to claim 4, wherein: the end of the supporting top plate is provided with an installation opening, the installation opening is detachably connected with an access plate, and the access plate is provided with a wire passing hole.

6. A three-dimensional cabinet air conditioner structure according to claim 1, wherein: the fan is an EC fan.

7. A three-dimensional cabinet air conditioner structure according to claim 1, wherein: the filter assembly comprises a medium-efficiency filter support frame connected with the filter support frame, a medium-efficiency filter accommodated in the medium-efficiency filter support frame, a high-efficiency filter support frame connected to the top of the medium-efficiency filter support frame, a support beam connected between the medium-efficiency filter support frame and the high-efficiency filter support frame, and a high-efficiency filter accommodated in the high-efficiency filter support frame.