CN214307548U - Air conditioning unit panel component and air conditioning unit with same - Google Patents

Abstract

The utility model relates to an air conditioning equipment makes technical field, especially relates to an air conditioning unit panel assembly and has its air conditioning unit. The utility model provides a pair of embodiment one air conditioning unit panel assembly, first inner panel include first splice plate, second splice plate and first heat insulating board at least, and first heat insulating board is located between first splice plate and the second splice plate to keep apart the heat transfer between first splice plate and the second splice plate. The utility model provides a pair of air conditioning unit panel components of embodiment two still includes the unit that keeps warm, and the unit that keeps warm wraps up exerted first inner panel. The utility model also provides an air conditioning unit, it includes above-mentioned air conditioning unit panel components. Compared with the prior art, the utility model has the advantages of: the first heat insulation plate is arranged between the first splicing plate and the second splicing plate, and/or the heat insulation unit capable of wrapping the exposed first inner plate is arranged, so that the cold bridge phenomenon is avoided.

Description

Air conditioning unit panel component and air conditioning unit with same

Technical Field

The utility model relates to an air conditioning equipment makes technical field, especially relates to an air conditioning unit panel assembly and has its air conditioning unit.

Background

The traditional combined air conditioning unit is an aluminum alloy structural frame, and a foamed polyurethane heat-insulating material is filled in an aluminum alloy section to eliminate a box body cold bridge. In the field with anti-seismic requirements (nuclear power plants, laboratories and the like), the traditional combined air conditioning unit cannot meet the anti-seismic requirements due to the problems of structural strength, material service life and the like, so that the air conditioning unit applied in the field with anti-seismic requirements is generally of a cage type heavy section steel frame and is externally provided with a double-layer metal heat-insulation panel. The double-layer metal heat-insulation board has good cold bridge resistance when a panel is tested independently on the premise of reasonable structure. However, when the panel is applied to an air conditioning unit and a complete machine condensation test is carried out, the panel which is spliced and installed in parallel has no condensation, and the panel which is spliced and installed vertically has condensation at the splicing position. The reasons for the condensation are: at the joint of the vertical splicing installation of the double-layer metal panels, the inner plate of one double-layer metal panel covers the side face of the other double-layer metal panel in the thickness direction, so that the inner plate of the double-layer metal panel penetrates through the inside and the outside of the air conditioning unit to form a cold bridge channel, and condensation is caused.

SUMMERY OF THE UTILITY MODEL

In view of this, to the above technical problem, the utility model provides an air conditioning unit panel assembly of anti cold bridge.

In order to realize the above purpose, the utility model provides a transfer quick-witted group panel components adopts following technical scheme:

an air conditioning unit panel assembly, the air conditioning unit having an inner side and an outer side; the air conditioning unit panel assembly at least comprises a first splicing unit and a second splicing unit, and the first splicing unit and the second splicing unit are spliced and connected at a preset angle; the first splicing unit at least comprises a first inner plate and a first outer plate, the first inner plate is positioned on the inner side, the first outer plate is positioned on the outer side and partially wraps the first inner plate, and the first inner plate abuts against and is spliced with the second splicing unit; the first inner plate at least comprises a first splicing plate, a second splicing plate and a first heat insulation plate, the first splicing plate is located on the inner side, the second splicing plate is located on the outer side and wrapped by the first outer plate, and is spliced with the second splicing unit, the first splicing plate and the second splicing plate are spliced mutually, and the first heat insulation plate is located between the first splicing plate and the second splicing plate so as to isolate heat transfer between the first splicing plate and the second splicing plate.

It can be understood that, this application through set up in the first inner panel first splice plate with the second splice plate, and first splice plate with set up between the second splice plate first heat insulating board makes first heat insulating board blocks the cold bridge passageway to cut off heat transfer route, eliminated the hidden danger of the external surface condensation of case face junction, avoided the emergence of cold bridge phenomenon.

In one embodiment, one end of the first splicing plate is provided with a first bending portion, one end of the second splicing plate is provided with a second bending portion, the first bending portion and the second bending portion are spliced with each other, and the first heat insulation plate is located between the first bending portion and the second bending portion.

In one embodiment, the first splicing unit further includes a first heat-insulating plate, the first heat-insulating plate is disposed in a space enclosed by the first inner plate and the first outer plate, and the first bending portion and the second bending portion respectively extend into the first heat-insulating plate.

It can be understood that the first bending portion and the second bending portion when the first splicing plate and the second splicing plate are spliced can be completely wrapped by the first heat-insulating plate, so that the first inner plate and the first outer plate are tightly connected, and the anti-seismic requirement of the first inner plate and the first outer plate can be met in the field with the anti-seismic requirement.

In one embodiment, the first splicing unit further comprises a second heat insulation plate, and the second heat insulation plate is arranged between the first outer plate and the first inner plate.

It can be understood that the first outer plate, the first splicing plate and the second splicing plate are not in direct contact with each other, so that a heat transfer path is cut off, a cold bridge channel is blocked, and condensation is avoided.

The utility model discloses still provide following technical scheme:

an air conditioning unit panel assembly, the air conditioning unit having an inner side and an outer side; the air conditioning unit panel assembly at least comprises a first splicing unit and a second splicing unit, and the first splicing unit and the second splicing unit are spliced and connected at a preset angle; the first splicing unit at least comprises a first inner plate and a first outer plate, the first inner plate is positioned on the inner side, the first outer plate is positioned on the outer side and partially wraps the first inner plate, and the first inner plate abuts against and is spliced with the second splicing unit and partially exposes out of the outer side; the air conditioning unit panel assembly further comprises a heat preservation unit, the heat preservation unit is located on the outer side, two ends of the heat preservation unit are respectively attached to the first outer plate and the second splicing unit, and the exposed first inner plate is wrapped.

It can be understood that the air conditioning unit panel assembly can produce the condensation on the outer surface because the first inner panel runs through in inside and outside both sides, has formed the cold bridge passageway, and this application is through setting up the heat preservation unit will expose first inner panel parcel to block the cold bridge passageway, cut off heat transfer route, avoided the production of condensation.

In another embodiment, the heat-insulating unit comprises at least one layer of third heat-insulating board, and at least one layer of third heat-insulating board wraps the exposed first inner board.

In another embodiment, the air conditioning unit panel assembly further comprises a connecting block, wherein the connecting block is located on the inner side and respectively abutted against the first splicing unit and the second splicing unit, and the connecting block is respectively connected with the first splicing unit and the second splicing unit through locking pieces.

In another embodiment, the air conditioning unit panel assembly further comprises a fourth heat insulation board, and the fourth heat insulation board is located among the connecting block, the first splicing unit and the second splicing unit.

It will be appreciated that this further blocks the occurrence of cold bridging, thereby avoiding the occurrence of condensation.

In another embodiment, the second splicing unit at least comprises a second inner plate, a second outer plate and the second heat-insulating plate, the second inner plate is located on the inner side, the second outer plate is located on the outer side and partially wraps the first inner plate, the second outer plate is abutted against the first inner plate, and the second heat-insulating plate is arranged in a space surrounded by the second inner plate and the second outer plate.

The utility model discloses still provide following technical scheme:

the air conditioning unit comprises a frame body and an air conditioning unit panel assembly, wherein the air conditioning unit panel assembly is installed on the frame body.

Compared with the prior art, the utility model provides an air conditioning unit panel components and have its air conditioning unit, through set up in the first inner panel first splice plate with the second splice plate, and first splice plate with set up between the second splice plate first heat insulating board to block the cold bridge passageway, cut off heat transfer route, eliminated the hidden danger of case face junction surface condensation, avoided the emergence of cold bridge phenomenon.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of a panel assembly of an air conditioning unit provided by the present invention;

fig. 2 is a schematic structural diagram of a second embodiment of a panel assembly of an air conditioning unit according to the present invention.

The symbols in the drawings represent the following meanings:

100. an air conditioning unit panel assembly; 10. an inner side; 20. an outer side; 30. a first splicing unit; 31. a first inner panel; 311. a first splice plate; 3111. a first bending portion; 312. a second splice plate; 3121. a second bending portion; 32. a first outer plate; 33. a first heat insulation plate; 34. a first heat-insulating plate; 35. a second heat insulation plate; 40. a second splicing unit; 41. a second inner panel; 42. a second outer plate; 43. a second insulation board; 50. A heat preservation unit; 51. a third heat insulation plate; 52. a decorative plate; 60. connecting blocks; 61. a locking member; 62. and a fourth heat insulation plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

It will be understood that when an element is referred to as being "mounted on" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. When an element is referred to as being "secured to" another element, it can be directly secured to the other element or intervening elements may also be present.

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 in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "or/and" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 2, the present invention provides an air conditioning unit panel assembly 100, the air conditioning unit panel assembly 100 is applied to an air conditioning unit, the air conditioning unit panel assembly 100 is embedded outside a frame body of the air conditioning unit, the air conditioning unit panel assembly 100 is formed by splicing a plurality of panels, and the air inside and outside the air conditioning unit is separated to realize heat insulation and preservation inside the air conditioning unit.

As shown in fig. 1 and 2, the air conditioning unit has an inner side 10 and an outer side 20; the air conditioning unit panel assembly 100 at least comprises a first splicing unit 30 and a second splicing unit 40, wherein the first splicing unit 30 and the second splicing unit 40 are spliced and connected at a preset angle; the first splicing unit 30 at least comprises a first inner plate 31 and a first outer plate 32, the first inner plate 31 is located on the inner side 10, the first outer plate 32 is located on the outer side 20 and partially wraps the first inner plate 31, and the first inner plate 31 abuts against and is spliced with the second splicing unit 40 and partially exposes out of the outer side 20.

It should be noted that the air conditioning unit panel assembly 100 at least includes the first splicing unit 30 and the second splicing unit 40, that is, the air conditioning unit panel assembly 100 may be formed by splicing a plurality of splicing units, and here, two splicing units are taken as an example; the first splicing unit 30 includes at least a first inner plate 31 and a first outer plate 32, that is, the first splicing unit 30 may be formed by splicing a plurality of panels, and the number of the spliced panels is not limited herein.

It can be understood that the first splicing unit 30 and the second splicing unit 40 are spliced and connected at a preset angle, that is, the first splicing unit 30 and the second splicing unit 40 are spliced in an intersecting manner. Here, the preset angle may be 90 degrees, 60 degrees, 85 degrees, etc. The specific numerical value can be set according to the air conditioning unit in which shape needs to be spliced in actual use. In the present application, the first splicing unit 30 and the second splicing unit 40 are spliced and connected vertically (i.e. 90 degrees), that is, a plurality of splicing units are spliced into a rectangular air conditioning unit.

Meanwhile, the air conditioning unit is an organic whole consisting of a box body, a compressor, a controller and the like. The box body is formed by the panel components, the inner side 10 and the outer side 20 are relative concepts, wherein the inner side 10 is the inner part of the box body, and the outer side 20 is the outer part of the box body.

The present invention provides a panel assembly 100 for an air conditioning unit, which can generate condensation on the outer surface because when the first splicing unit 30 and the second splicing unit 40 are spliced vertically, the first inner panel 31 is partially exposed on the outer side 20, i.e., the first inner panel 31 runs through the inner and outer sides, so that a cold bridge passage is formed.

Further, the second splicing unit 40 at least includes a second inner plate 41, a second outer plate 42 and a second heat insulation plate 43, the second inner plate 41 is located on the inner side 10, the second outer plate 42 is located on the outer side 20 and partially wraps the first inner plate 31, the second outer plate 42 abuts against the first inner plate 31, and the second heat insulation plate 43 is disposed in a space surrounded by the second inner plate 41 and the second outer plate 42.

It should be noted that the second splicing unit 40 at least includes a second inner plate 41 and a second outer plate 42, that is, the second splicing unit 40 may be formed by splicing a plurality of panels, and the number of the spliced panels is not limited herein.

Preferably, the second heat-insulating plate 43 is made of a polyurethane foam material, which has good heat-insulating and heat-insulating effects, and in addition, the polyurethane foam material has high viscosity and high strength, so that the earthquake-resistant requirement in the nuclear power field is further met; of course, in other embodiments, the second insulation board 43 may also be other types of foaming materials, and is not limited herein.

Further, air conditioning unit panel assembly 100 still includes connecting block 60, and connecting block 60 is located inboard 10 to support with first splice unit 30 and second splice unit 40 respectively and lean on, and connecting block 60 is connected with first splice unit 30 and second splice unit 40 respectively through retaining member 61.

Specifically, the material of the connecting block 60 is preferably carbon steel; of course, in other embodiments, the material of the connecting block 60 may also be aluminum alloy, stainless steel or other materials, which is not limited herein.

Preferably, the connecting block 60 is L-shaped, and can abut against the first splicing unit 30 and the second splicing unit 40 when the first splicing unit 30 and the second splicing unit 40 are vertically spliced, so that the sealing property at the splicing gap is further enhanced; of course, in other embodiments, the connecting block 60 may be provided in other shapes, and is not limited herein.

Alternatively, the locking member 61 may be a screw or a bolt, and the like, which is not limited herein.

Further, the air conditioning unit panel assembly 100 further includes a fourth heat insulation board 62, and the fourth heat insulation board 62 is located among the connection block 60, the first splicing unit 30, and the second splicing unit 40, so as to further block the generation of a cold bridge phenomenon, thereby preventing the generation of condensation.

Preferably, the fourth heat insulation board 62 may be made of any one of soft neoprene, soft PVC (polyvinyl chloride), EPDM (ethylene propylene diene monomer), PE (polyethylene), or rubber; in this embodiment, the material of the fourth heat insulation board 62 is preferably soft neoprene or soft PVC (polyvinyl chloride), which not only further reduces the hidden trouble of air leakage, but also effectively reduces heat transfer, and avoids the occurrence of cold bridge phenomenon.

Example one

As shown in fig. 1, the first inner plate 31 at least includes a first splicing plate 311, a second splicing plate 312 and a first heat insulation plate 33, the first splicing plate 311 is disposed near the inner side 10, the second splicing plate 312 is disposed near the outer side 20 and wrapped by the first outer plate 32, meanwhile, the second splicing plate 312 is vertically spliced with the second splicing unit 40, the first splicing plate 311 and the second splicing plate 312 are spliced with each other, and the first heat insulation plate 33 is located between the first splicing plate 311 and the second splicing plate 312 to isolate heat transfer between the first splicing plate 311 and the second splicing plate 312.

It can be understood that, by arranging the first heat insulation board 33 between the first splicing board 311 and the second splicing board 312, in the heat transfer process, the first heat insulation board 33 blocks the heat transfer from the inside 10 of the air conditioning unit to the outside 20 of the air conditioning unit, thereby eliminating the hidden danger of the condensation on the outer surface of the box surface joint and avoiding the occurrence of the cold bridge phenomenon.

Preferably, the first outer panel 32 is folded downwards along the indentation to form a C-shaped cover, which is more beneficial for the first inner panel 31 to be wrapped by the first outer panel 32; of course, in other embodiments, the first outer plate 32 may be provided in other shapes, and is not limited herein.

Specifically, the first heat insulation board 33 may be made of any one of soft neoprene, soft PVC (polyvinyl chloride), EPDM (ethylene propylene diene monomer), PE (polyethylene), or rubber; in the embodiment, the material of the first heat insulation board 33 is preferably soft neoprene, which enhances the sealing and heat insulation performance and avoids air leakage and hidden danger of cold bridge.

Further, one end of the first splicing plate 311 has a first bending portion 3111, one end of the second splicing plate 312 has a second bending portion 3121, the first bending portion 3111 and the second bending portion 3121 are spliced with each other, and the first insulation board 33 is located between the first bending portion 3111 and the second bending portion 3121; the first splicing unit 30 further includes a second heat insulation plate 35, and the second heat insulation plate 35 is disposed between the first outer plate 32 and the first inner plate 31.

It can be understood that, by arranging the first heat insulation plate 33 between the first bending portion 3111 and the second bending portion 3121 and the second heat insulation plate 35 between the first outer plate 32 and the first inner plate 31, the first outer plate 32, the first splicing plate 311 and the second splicing plate 312 are not in direct contact with each other, so that the heat transfer path is blocked, the cold bridge passage is blocked, and the generation of condensation is avoided.

Preferably, the second heat insulation board 35 may be made of any one of soft neoprene, soft PVC (polyvinyl chloride), EPDM (ethylene propylene diene monomer), PE (polyethylene), or rubber; in this embodiment, the second heat insulation board 35 is preferably made of soft neoprene, which not only further reduces the hidden air leakage, but also avoids cold transfer between the first outer board 32 and the first inner board 31, effectively reduces heat transfer, and further avoids the occurrence of cold bridge phenomenon.

Further, the first splicing unit 30 further includes a first heat insulation plate 34, the first heat insulation plate 34 is disposed in a space surrounded by the first inner plate 31 and the first outer plate 32, the first bending portion 3111 and the second bending portion 3121 are deep into the first heat insulation plate 34, the first bending portion 3111 and the second bending portion 3121 when the first splicing plate 311 and the second splicing plate 312 are spliced together can be completely wrapped by the first heat insulation plate 34, so that the first inner plate 31 and the first outer plate 32 are tightly connected, and the anti-seismic requirements of the first inner plate 31 and the first outer plate 32 can be met in the field with anti-seismic requirements.

Preferably, in the embodiment, the first heat insulation plate 34 is made of a polyurethane foam material, which has good heat insulation and heat preservation effects, and the polyurethane foam material has high viscosity and high strength, so that the anti-seismic requirement in the nuclear power field is further met; of course, in other embodiments, the first thermal insulation plate 34 may also be other types of foaming materials, and is not limited herein.

Example two

As shown in fig. 2, the air conditioning unit panel assembly 100 further includes a heat preservation unit 50, the heat preservation unit 50 is located at the outer side 20, and two ends of the heat preservation unit 50 respectively abut against the first outer plate 32 and the second splicing unit 40 and wrap the exposed first inner plate 31.

It can be understood that the reason why the air conditioning unit panel assembly 100 generates the condensation on the outer surface is that the first inner plate 31 penetrates through the inner side and the outer side to form the cold bridge passage, and therefore the heat preservation unit 50 is arranged to wrap the exposed first inner plate 31, so that the cold bridge passage is blocked, the heat transfer path is blocked, and the condensation is prevented.

Specifically, the heat-insulating unit 50 includes at least one layer of the third heat-insulating board 51, that is, the heat-insulating unit 50 may include a plurality of layers of heat-insulating boards, and the heat-insulating performance may also be improved by increasing the number of heat-insulating boards, here, a layer of heat-insulating board is taken as an example, and the third heat-insulating board 51 may wrap the exposed first inner board 31.

Preferably, the third heat insulation board 51 may be made of any one of soft neoprene, soft PVC (polyvinyl chloride), EPDM (ethylene propylene diene monomer), PE (polyethylene), or rubber; in the embodiment, the material of the third heat insulation board 51 is preferably soft neoprene or soft PVC (polyvinyl chloride), which enhances the sealing and heat insulation performance and avoids air leakage and hidden danger of cold bridge.

Generally, the third insulation panel 51 is usually provided with a decorative panel 52 near the outer side 20 of the air conditioning unit, which not only further blocks the outside air from entering the inner side 10 of the air conditioning unit, but also ensures the cleanness and beauty of the panel surface.

The utility model also provides an air conditioning unit (not shown), this air conditioning unit include support body (not shown), air conditioning unit panel assembly 100, and air conditioning unit panel assembly 100 installs on the support body.

The air conditioning unit also has the advantages of the air conditioning unit panel assembly 100 described above.

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

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is 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 (10)

1. An air conditioning unit panel assembly, the air conditioning unit having an inner side (10) and an outer side (20); the air conditioning unit panel assembly at least comprises a first splicing unit (30) and a second splicing unit (40), wherein the first splicing unit (30) and the second splicing unit (40) are spliced and connected at a preset angle; the first splicing unit (30) at least comprises a first inner plate (31) and a first outer plate (32), the first inner plate (31) is positioned on the inner side (10), the first outer plate (32) is positioned on the outer side (20) and partially wraps the first inner plate (31), and the first inner plate (31) abuts against and is spliced with the second splicing unit (40);

the heat insulation structure is characterized in that the first inner plate (31) at least comprises a first splicing plate (311), a second splicing plate (312) and a first heat insulation plate (33), the first splicing plate (311) is located on the inner side (10), the second splicing plate (312) is located on the outer side (20) and wrapped by the first outer plate (32), and is spliced with the second splicing unit (40), the first splicing plate (311) and the second splicing plate (312) are spliced mutually, and the first heat insulation plate (33) is located between the first splicing plate (311) and the second splicing plate (312) so as to isolate heat transfer between the first splicing plate (311) and the second splicing plate (312).

2. The air conditioning unit panel assembly according to claim 1, wherein one end of the first splicing plate (311) has a first bent portion (3111), one end of the second splicing plate (312) is provided with a second bent portion (3121), the first bent portion (3111) and the second bent portion (3121) are spliced with each other, and the first heat insulation panel (33) is located between the first bent portion (3111) and the second bent portion (3121).

3. The air conditioning unit panel assembly according to claim 2, wherein the first splicing unit (30) further includes a first heat insulating plate (34), the first heat insulating plate (34) is provided in a space surrounded by the first inner panel (31) and the first outer panel (32), and the first bent portion (3111) and the second bent portion (3121) are deep into the first heat insulating plate (34), respectively.

4. The air conditioning unit panel assembly according to claim 1, wherein the first splicing unit (30) further comprises a second heat insulating plate (35), the second heat insulating plate (35) being provided between the first outer panel (32) and the first inner panel (31).

5. An air conditioning unit panel assembly, the air conditioning unit having an inner side (10) and an outer side (20); the air conditioning unit panel assembly at least comprises a first splicing unit (30) and a second splicing unit (40), wherein the first splicing unit (30) and the second splicing unit (40) are spliced and connected at a preset angle; the first splicing unit (30) at least comprises a first inner plate (31) and a first outer plate (32), the first inner plate (31) is positioned on the inner side (10), the first outer plate (32) is positioned on the outer side (20) and partially wraps the first inner plate (31), and the first inner plate (31) abuts against and is spliced with the second splicing unit (40) and is partially exposed out of the outer side (20);

the air conditioning unit panel assembly is characterized by further comprising a heat preservation unit (50), wherein the heat preservation unit (50) is located on the outer side (20), two ends of the heat preservation unit (50) are respectively attached to the first outer plate (32) and the second splicing unit (40), and the exposed first inner plate (31) is wrapped.

6. The air conditioning unit panel assembly according to claim 5, wherein the insulation unit (50) includes at least one layer of a third insulation board (51), at least one layer of the third insulation board (51) wrapping the exposed first inner panel (31).

7. Air conditioning unit panel assembly according to claim 1 or 5, further comprising a connection block (60), wherein the connection block (60) is located at the inner side (10) and abuts against the first splicing unit (30) and the second splicing unit (40), respectively, and the connection block (60) is connected to the first splicing unit (30) and the second splicing unit (40), respectively, by a locking member (61).

8. The air conditioning unit panel assembly according to claim 7, further comprising a fourth heat insulation board (62), wherein the fourth heat insulation board (62) is located between the connection block (60), the first splicing unit (30) and the second splicing unit (40).

9. Air conditioning assembly panel assembly according to claim 1 or 5, wherein the second splicing unit (40) comprises at least a second inner panel (41), a second outer panel (42) and a second insulation panel (43), the second inner panel (41) being located at the inner side (10), the second outer panel (42) being located at the outer side (20) and partially wrapping the first inner panel (31), the second outer panel (42) abutting against the first inner panel (31), the second insulation panel (43) being located in a space enclosed by the second inner panel (41) and the second outer panel (42).

10. An air conditioning unit comprising a frame and an air conditioning unit panel assembly according to any one of claims 1 to 9.

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