CN116928870A - Panel assembly and air conditioner - Google Patents

Abstract

The invention provides a panel assembly and an air conditioner, wherein the panel assembly comprises: the micropore panel is uniformly provided with a plurality of ventilation micropores; the panel bracket is arranged on the air inlet side of the micropore panel; the micropore panel is integrally formed, and the edge of the micropore panel is attached to the outer frame of the panel support. According to the panel assembly disclosed by the invention, through improving the structure of the panel assembly, the effect of enhancing the structural strength of the panel assembly with ventilation micropores is realized, meanwhile, the phenomenon that condensed water is generated due to the fact that larger temperature difference occurs at two sides of the microporous panel is avoided, and the panel assembly has a compact and attractive overall structure, so that the use experience of a user is greatly improved.

Description

Panel assembly and air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to a panel assembly and an air conditioner.

Background

When the air is blown indoors, the air quantity is usually larger, and when the air is blown directly to a user for a long time, discomfort is easily brought to the user.

In order to improve the body feeling of a user, the air overflows from the ventilation micropores, so that the refrigerating function can be realized, and the user can not feel the air blowing, thereby improving the body feeling of the user, and people use the air outlet panel with the ventilation micropores.

However, the structure of the air outlet panel provided with the ventilation micropores is fragile, structural deformation is very easy to generate during processing and installation, and the air outlet panel of the air conditioner, the shell structure and the middle frame structure of the air conditioner are required to be assembled in a sealing mode, so that the air outlet effect of the air conditioner can be guaranteed.

Disclosure of Invention

In view of the above, the present invention is directed to a panel assembly and an air conditioner, and aims to solve the technical problems of easy structural deformation, condensate water seepage, low air outlet efficiency and poor effect of the microporous air outlet panel during assembly or use.

In order to achieve the above purpose, the technical scheme of the invention is realized as follows:

a panel assembly, comprising:

the micropore panel is uniformly provided with a plurality of ventilation micropores;

the panel bracket is arranged on the air inlet side of the micropore panel;

the micropore panel is integrally formed, and the edge of the micropore panel is attached to the outer frame of the panel support.

According to the panel assembly disclosed by the invention, the panel bracket is arranged on the air inlet side of the micropore panel, so that the micropore panel is convenient to process and manufacture, meanwhile, the bearing strength and the deformation resistance of the air outlet panel are improved, the secondary stress of the micropore panel caused by the assembly of the panel assembly is avoided, and the air outlet reliability of the panel assembly is improved.

Further, the panel bracket further comprises a support grid, the support grid is arranged between the outer frames, and the support grid is arranged at a position, close to the middle, of the longitudinal direction of the panel bracket.

This setting has strengthened the structural strength of panel support on the one hand, makes simultaneously that the support grid can break up the amount of wind of this position, avoids great amount of wind to directly blow on micropore panel, reduces micropore panel and receives the structural deformation influence that wind-force brought to make the amount of wind that blows out through micropore panel become comparatively soft, further improve user's use experience

Further, the support grids comprise vertical grids and transverse grids, and the vertical grids and the transverse grids are arranged in a vertically staggered mode.

This setting has further improved the structural strength of panel support, improves the no wind sense effect of panel assembly air-out.

Further, the transverse grid comprises grid plate bodies which are staggered with the vertical grid, guide ribs are arranged on one side, far away from the microporous panel, of the grid plate bodies, and the sections of the guide ribs from one side, close to the grid plate bodies, to one side, far away from the grid plate bodies, are in tapered arrangement.

On the one hand, the structure strength of the transverse grid is enhanced, the air quantity passing through the support grid is conveniently drained, and the air quantity loss caused by the direct impact of the air quantity on the transverse grid is avoided.

Furthermore, guide ribs are arranged on one side, close to the microporous panel, of the grid plate body, and two guide ribs on two opposite sides of the grid plate body are symmetrically arranged.

This setting has reduced the area that supports the micropore that the grid caused ventilation micropore on the micropore panel by the shutoff on the one hand to can carry out the drainage to the wind direction between support grid and the micropore panel, thereby guarantee the holistic effect of air-out of micropore panel.

Further, a fourth reinforcing groove is formed in the end portion, close to the outer frame, of at least one grid plate body, and second connecting ribs are arranged inside the fourth reinforcing groove.

This setting has further reduced the air-out influence of panel support to micropore panel, has strengthened the structural strength of panel support simultaneously, guarantees the reliability and the travelling comfort of panel components no wind sense air-out.

Further, the panel bracket further comprises a partition plate and a penetrating groove, the partition plate is arranged below the supporting grid, two ends of the partition plate are connected with the outer frame into a whole, and the penetrating groove is formed above the supporting grid.

This setting has improved panel assembly's whole air-out area, avoids the air quantity backward flow after the heat transfer to the inside air inlet structure position of air conditioner casing simultaneously and guarantees the reliability of heat transfer air-out.

Further, a second reinforcing structure is arranged at a position, close to the upper side, on the partition board, a third reinforcing structure is arranged at a position, close to the lower side, on the partition board, a vertical reinforcing rib is arranged at one side, away from the micropore panel, of the partition board, and the second reinforcing structure and the vertical reinforcing rib are in vertical or approximately vertical structure.

The panel support is further enhanced in strength of the partition plate, and reliability of the panel assembly in use is guaranteed.

Further, the upper end of panel support sets up the top baffle set up a plurality of second buckle on the top baffle the lower extreme of panel support sets up the lower part baffle the below of lower part baffle sets up the bolted connection spare set up first buckle on the frame, first buckle with the joint direction of second buckle is perpendicular form and arranges.

The setting discloses a fixed structure of being connected of panel components and cabinet-type air conditioner casing subassembly, and it is convenient to install, connects stably.

The panel assembly of the present invention has the following advantages over the prior art:

according to the panel assembly disclosed by the invention, through improving the structure of the panel assembly, the effect of enhancing the structural strength of the panel assembly with ventilation micropores is realized, meanwhile, the phenomenon that condensed water is generated due to the fact that larger temperature difference occurs at two sides of the microporous panel is avoided, and the panel assembly has a compact and attractive overall structure, so that the use experience of a user is greatly improved.

Another object of the present invention is to provide an air conditioner on which the panel assembly as described above is provided.

The air conditioner has the same advantages as the panel assembly described above with respect to the prior art, and will not be described in detail herein.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention. In the drawings:

fig. 1 is a schematic structural diagram of a cabinet according to an embodiment of the present invention;

fig. 2 is a schematic side view of a second view of a cabinet according to an embodiment of the present invention;

fig. 3 is an exploded view of a cabinet according to an embodiment of the present invention;

FIG. 4 is a schematic side view of a panel assembly according to an embodiment of the present invention;

FIG. 5 is a schematic rear view of a panel assembly according to an embodiment of the present invention;

FIG. 6 is a schematic side view of a second view of a panel assembly according to an embodiment of the present invention;

FIG. 7 is a schematic side view of a micro-porous panel according to an embodiment of the present invention;

FIG. 8 is a schematic bottom view of a micro-porous panel according to an embodiment of the present invention;

FIG. 9 is a schematic rear view of a panel bracket according to an embodiment of the present invention;

FIG. 10 is a schematic side view of a panel bracket according to an embodiment of the present invention;

FIG. 11 is an enlarged partial schematic view of portion B of FIG. 10;

FIG. 12 is an enlarged partial schematic view of portion C of FIG. 10;

FIG. 13 is a partially enlarged schematic illustration of portion D of FIG. 10;

FIG. 14 is a schematic side view of a panel bracket according to a second embodiment of the present invention;

FIG. 15 is an enlarged partial schematic view of portion H of FIG. 14;

reference numerals illustrate:

100-cabinet, 1-shell, 2-middle frame, 3-panel, 301-micropore panel, 3011-substrate, 3012-lateral flanging, 3013-ventilation micropore, 302-panel bracket, 3021-outer frame, 3022-support grid, 30221-vertical grid, 30222-transverse grid, 302221-grid plate body, 302222-guide rib, 302223-fourth reinforcement groove, 302224-second connection rib, 302225-fifth reinforcement groove, 3023-partition plate, 3024-first buckle, 3025-first reinforcement structure, 3026-top baffle, 3027-second buckles, 3028-through grooves, 3029-second reinforcing structures, 30291-first reinforcing grooves, 30292-second reinforcing grooves, 3030-third reinforcing structures, 30301-first reinforcing ribs, 30302-second reinforcing ribs, 3031-vertical reinforcing ribs, 3032-lower baffle plates, 30321-third reinforcing grooves, 3033-first connecting ribs, 3034-bolt connectors, 4-air outlet assemblies, 5-heat exchangers, 6-middle frame shells, 7-lining plate assemblies, 71-upper lining plate assemblies, 72-lower lining plate assemblies and 8-front cover plates.

Detailed Description

In order to facilitate understanding of the technical means, objects and effects of the present invention, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example 1

As shown in fig. 4 to 15, the present invention discloses a panel assembly, comprising:

a micropore panel 301, wherein a plurality of ventilation micropores 3013 are uniformly distributed on the micropore panel 301;

a panel bracket 302, wherein the panel bracket 302 is arranged on the air inlet side of the micropore panel 301;

the micro-hole panel 301 is integrally formed, and the edge of the micro-hole panel 301 is attached to the outer frame 3021 of the panel bracket 302.

The invention discloses a panel assembly, which is applied to a square cabinet air conditioner, and is characterized in that a micropore panel 301 with ventilation micropores is integrally formed, so that convenience in processing and uniformity in air outlet of the micropore panel 301 are improved, and preferably, the micropore panel 301 is prepared from a metal material.

According to the panel assembly disclosed by the invention, the panel bracket 302 is arranged on the air inlet side of the micropore panel 301, so that the micropore panel 301 is convenient to process and manufacture, meanwhile, the bearing strength and the deformation resistance of the air outlet panel are improved, the secondary stress of the micropore panel 301 caused by the assembly of the panel assembly is avoided, and the reliability of the air outlet of the panel assembly is improved.

According to the panel assembly disclosed by the invention, through improving the structure of the panel assembly, the effect of enhancing the structural strength of the panel assembly with ventilation micropores is realized, meanwhile, the phenomenon that condensed water is generated due to the fact that larger temperature difference occurs at two sides of the microporous panel 301 is avoided, and the overall structure of the panel assembly is compact and attractive, so that the use experience of a user is greatly improved.

As a preferred example of the present invention, the panel bracket 302 further includes a support grill 3022, the support grill 3022 being disposed between the outer frames 3021, the support grill 3022 being disposed at a position near the middle in the longitudinal direction of the panel bracket 302. As shown in fig. 9 and 10, after the panel assembly is assembled with the cabinet air conditioner housing assembly, the air outlet assembly of the square cabinet air conditioner is generally arranged at a position close to the middle of the upper space, and the air outlet amount is larger, and by arranging the support grille 3022 at a corresponding position, on one hand, the structural strength of the panel bracket 302 is enhanced, and meanwhile, the support grille 3022 can scatter the air amount at the position, so that the larger air amount is prevented from being directly blown onto the micro-hole panel 301, the structural deformation influence of the micro-hole panel 301 caused by wind force is reduced, the air amount blown out through the micro-hole panel 301 becomes softer, and the use experience of a user is further improved.

As a preferred example of the present invention, the support grid 3022 includes a vertical grid 30221 and a lateral grid 30222, and the vertical grid 30221 and the lateral grid 30222 are arranged in a vertically staggered manner. As an example of the present invention, the vertical grating 30221 is provided in plurality, and the lateral grating 30222 is provided in plurality. Preferably, 3 to 5 vertical gratings 30221 are provided, and 6 to 20 horizontal gratings 30222 are provided.

This arrangement further improves the structural strength of the panel bracket 302 and improves the windless effect of the panel assembly air out.

As a preferred example of the present invention, the transverse grid 30222 includes grid plate bodies 302221, the grid plate bodies 302221 are staggered with the vertical grid 30221, guide ribs 302222 are provided on a side of the grid plate bodies 302221 away from the microporous panel 301, and the guide ribs 302222 are tapered in cross section from a side close to the grid plate bodies 302221 to a side away from the grid plate bodies 302221.

This arrangement enhances the structural strength of the transverse grille 30222 on the one hand, and simultaneously facilitates drainage of the air flow passing through the support grille 3022, thereby avoiding air loss caused by the direct impact of the air flow on the transverse grille 30222.

As a preferred example of the present invention, guide ribs 302222 are also provided on one side of the grid plate body 302221 adjacent to the microporous panel 301, and two guide ribs 302222 on opposite sides of the grid plate body 302221 are symmetrically arranged. Preferably, the guide rib 302222 on the side of the grating plate body 302221 adjacent to the microporous panel 301 abuts against or forms a gap with the air inlet side surface of the microporous panel 301.

This setting has reduced the area that support grid 3022 caused ventilation micropore 3013 to be blocked on the micropore panel 301 on the one hand to can carry out the drainage to the wind direction between support grid 3022 and the micropore panel 301, thereby guarantee the effect of the whole air-out of micropore panel 301.

As a preferred example of the present invention, a fourth reinforcing groove 302223 is provided at an end portion of at least one of the grating plate bodies 302221 near the outer frame 3021, and a second connecting rib 302224 is provided inside the fourth reinforcing groove 302223. As an example of the present invention, fourth reinforcing grooves 302223 are formed in both of the two transverse grids 30222 at the upper end and the two transverse grids 30222 at the lower end of the support grid 3022, one fourth reinforcing groove 302223 is formed in each of the grid plate bodies 302221 near both ends of the outer frame 3021, the two fourth reinforcing grooves 302223 in each of the grid plate bodies 302221 are symmetrically arranged, and the second connecting rib 302224 is formed in each of the fourth reinforcing grooves 302223 near the middle.

This arrangement further reduces the air-out influence of the panel bracket 302 on the micro-hole panel 301, and at the same time, enhances the structural strength of the panel bracket 302, and ensures the reliability and comfort of the panel assembly in no-wind-sense air-out.

As a preferred example of the present invention, a fifth reinforcing groove 302225 is provided on the guide rib 302222. As an example of the present invention, the guide rib 302222 is disposed at the middle of two fourth reinforcement grooves 302223 on the grid plate body 302221 provided with the fourth reinforcement grooves 302223, both ends of the guide rib 302222 extend to the outer frame 3021 on the grid plate body 302221 provided with no fourth reinforcement grooves 302223, the fifth reinforcement groove 302225 is disposed on each of the guide ribs 302222, and the fifth reinforcement grooves 302225 on the plurality of transverse grids 30222 are disposed collinearly in the longitudinal direction, and the plurality of fifth reinforcement grooves 302225 are disposed on each of the guide ribs 302222.

This arrangement, on the one hand, enhances the structural strength of the transverse grille 30222, while improving the windless effect of the overall air outlet of the micro-perforated panel 301.

As a preferred example of the present invention, the panel bracket 302 further includes a partition 3023 and a through groove 3028, the partition 3023 is disposed below the support grid 3022, both ends of the partition 3023 are integrally connected to the outer frame 3021, and the through groove 3028 is formed above the support grid 3022. Because the lower part at square cabinet-type air conditioner is provided with the air inlet subassembly generally, through setting up baffle 3023 in the below of panel support 302 for the air after the heat transfer can flow to micropore panel 301 through panel support 302, and then flows out through ventilation micropore 3013 on the micropore panel 301, and the efficiency that the air after avoiding the heat transfer flows back to the air inlet subassembly and leads to reduces, runs through groove 3028 that the top that simultaneously supports grid 3022 formed has greatly increased panel assembly air-out area and air-out effect.

This setting has improved panel assembly's whole air-out area, avoids the air quantity backward flow after the heat transfer to the inside air inlet structure position of air conditioner casing simultaneously and guarantees the reliability of heat transfer air-out.

As a preferred example of the present invention, a second reinforcing structure 3029 is provided on the partition 3023 at a position close to the upper side, a third reinforcing structure 3030 is provided on the partition 3023 at a position close to the lower side, and a vertical reinforcing rib 3031 is provided on the partition 3023 at a side remote from the microporous panel 301. Specifically, the second reinforcing structure 3029 includes a first reinforcing groove 30291 and a second reinforcing groove 30292, the first reinforcing groove 30291, the second reinforcing groove 30292 and the transverse grid 30222 are arranged in a flat shape or an approximately parallel arrangement, the first reinforcing groove 30291 is disposed above the second reinforcing groove 30292, and the height of the second reinforcing groove 30292 is greater than the height of the first reinforcing groove 30291; the third reinforcement structure 3030 includes a first reinforcement rib 30301 and a second reinforcement rib 30302, and the first reinforcement rib 30301, the second reinforcement rib 30302 and the transverse grid 30222 are arranged in a flat shape or an approximately parallel arrangement; the upper end of the vertical stiffener 3031 extends to the upper edge of the partition 3023, and the lower end of the vertical stiffener 3031 meets the third stiffener structure 3030. Preferably, a plurality of vertical stiffeners 3031 are provided, the number of the vertical stiffeners 3031 is the same as the number of the vertical grids 30221, and each vertical stiffener 3031 is arranged in line with one of the vertical grids 30221.

This arrangement further enhances the strength of the spacer 3023 on the panel bracket 302, ensuring reliability of the panel assembly in use.

As a preferred example of the present invention, a top baffle 3026 is disposed at an upper end of the panel bracket 302, a plurality of second buckles 3027 are disposed on the top baffle 3026, a lower baffle 3032 is disposed at a lower end of the panel bracket 302, a bolt connector 3034 is disposed below the lower baffle 3032, a first buckle 3024 is disposed on the outer frame 3021, and a clamping direction of the first buckle 3024 and the second buckle 3027 is perpendicular to each other. The setting discloses a fixed structure of being connected of panel components and cabinet-type air conditioner casing subassembly, and it is convenient to install, connects stably. As a preferred example of the present invention, the second clip 3027 may be a clip structure disposed on the micro-hole panel 301 through the top barrier 3026.

As a preferred example of the present invention, a plurality of reinforcing structures are provided on the outer frame 3021, the top barrier 3026, and the lower barrier 3032. As an example of the present invention, a first reinforcing structure 3025 is disposed on the outer frame 3021, the first reinforcing structure 3025 includes reinforcing structures such as a through groove, a blind hole, a reinforcing boss, a settling boss, and the like, a third reinforcing groove 30321 is disposed on the lower baffle plate 3032, the third reinforcing groove 30321 is disposed in a flat shape or in a nearly parallel arrangement with the third reinforcing structure 3030, and a plurality of first connection ribs 3033 are disposed in the third reinforcing groove 30321.

This arrangement serves to enhance the overall structural strength of the panel bracket 302 at the peripheral edges thereof, further ensuring the stability and reliability of the connection of the panel bracket 302 to the micro-porous panel 301.

As a preferred example of the present invention, the micro-porous panel 301 includes a base plate 3011, lateral flanges 3012 are disposed on two sides of the base plate 3011, and ventilation micro-pores 3013 are disposed on both the base plate 3011 and the lateral flanges 3012. As an example of the present invention, as shown in fig. 7 and 8, the micro-porous panel 301 is an arc-shaped plate formed by bending a rectangular plate along the width direction thereof, the substrate 3011 is integrally in an arc-shaped structure that is bent outwards along the air outlet direction, two lateral flanges 3012 are respectively disposed at two sides of the width direction of the substrate 3011, the lateral flanges 3012 and the substrate 3011 are in arc-shaped transition, the two lateral flanges 3012 are symmetrically disposed along the longitudinal central axis of the substrate 3011, and the lateral flanges 3012 are adhered and fixed to the outer frame 3021 of the panel bracket 302. Preferably, the ventilation micropores 3013 have a pore diameter of 0.4mm to 1.2mm.

This setting discloses a concrete structure of micropore panel 301, has improved the convenience of micropore panel 301 processing greatly, improves machining efficiency and precision, has also improved the reliability of micropore panel 301 and panel support 302 assembly connection simultaneously, is radial air supply when the air is through micropore panel 301 air-out, has increased the air supply width, has further improved user's use experience's comfort level.

Example 2

As shown in fig. 1 to 15, the invention discloses an air conditioner, which comprises a cabinet 100, wherein specific parts of the cabinet 100 aimed at in the embodiment are approximately the same as those of a conventional indoor cabinet 100, and the air conditioner comprises a shell component 1, a middle frame component 2, an air outlet component 4, a heat exchanger 5 and other components, and further comprises a panel component 3 as described in embodiment 1, wherein the panel component 3 is used for adjusting the temperature of indoor air and then discharging air without wind sensation.

As a preferred example of the present invention, the middle frame assembly 2 includes a middle frame shell 6 and a lining board assembly 7, the middle frame shell 6 is disposed between the shell assembly 1 and the panel assembly 3, two long straight appearance strips serving as decorative shells are disposed on the left side and the right side of the middle frame shell 6, and the lining board assembly 7 is detachably connected with the middle frame shell 6 through a concave-convex matching structure and/or an elastic fastening structure and/or a screw fixing structure. Preferably, the lining board assembly 7 comprises an upper lining board assembly 71 and a lower lining board assembly 72, and a connecting structure is arranged on the upper lining board assembly 71 and/or the lower lining board assembly 72 and is used for being connected with the first buckle 3024 on the panel assembly 3 in a clamping way.

As a preferred example of the present invention, a front cover plate 8 is provided below the panel assembly 3.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (10)

1. A panel assembly, comprising:

a micropore panel (301), wherein a plurality of ventilation micropores (3013) are uniformly distributed on the micropore panel (301);

a panel bracket (302), wherein the panel bracket (302) is arranged on the air inlet side of the micropore panel (301);

the micropore panel (301) is integrally formed, and the edge of the micropore panel (301) is attached to an outer frame (3021) of the panel bracket (302).

2. The panel assembly according to claim 1, wherein the panel bracket (302) further comprises a support grid (3022), the support grid (3022) being provided between the outer frames (3021), the support grid (3022) being provided at a position near the middle in the longitudinal direction of the panel bracket (302).

3. The panel assembly of claim 2, wherein the support grid (3022) comprises a vertical grid (30221) and a lateral grid (30222), the vertical grid (30221) and the lateral grid (30222) being arranged in a vertically staggered manner.

4. A panel assembly according to claim 3, wherein the transverse grid (30222) comprises grid plates (302221), the grid plates (302221) are staggered with the vertical grid plates (30221), guide ribs (302222) are provided on the side of the grid plates (302221) remote from the microporous panel (301), and the guide ribs (302222) are tapered in cross section from the side close to the grid plates (302221) to the side remote from the grid plates (302221).

5. The panel assembly according to claim 4, wherein guide ribs (302222) are provided on one side of the grid plate body (302221) adjacent to the microporous panel (301), and two guide ribs (302222) on opposite sides of the grid plate body (302221) are symmetrically arranged.

6. The panel assembly according to claim 4, wherein a fourth reinforcing groove (302223) is provided on at least one of the grid plate bodies (302221) near an end of the outer frame (3021), and a second connecting rib (302224) is provided inside the fourth reinforcing groove (302223).

7. The panel assembly according to any one of claims 2 to 6, wherein the panel bracket (302) further comprises a partition plate (3023) and a penetrating groove (3028), the partition plate (3023) is disposed below the support grid (3022), both ends of the partition plate (3023) are integrally connected to the outer frame (3021), and the penetrating groove (3028) is formed above the support grid (3022).

8. The panel assembly of claim 7, wherein a second stiffening structure (3029) is provided on the spacer (3023) at a position near the upper side, a third stiffening structure (3030) is provided on the spacer (3023) at a position near the lower side, a vertical stiffener (3031) is provided on the spacer (3023) at a side remote from the micro-porous panel (301), and the second stiffening structure (3029), the third stiffening structure (3030) and the vertical stiffener (3031) are provided in a vertical or nearly vertical configuration.

9. The panel assembly according to claim 7, wherein a top baffle (3026) is arranged at an upper end of the panel bracket (302), a plurality of second buckles (3027) are arranged on the top baffle (3026), a lower baffle (3032) is arranged at a lower end of the panel bracket (302), a bolt connecting piece (3034) is arranged below the lower baffle (3032), a first buckle (3024) is arranged on the outer frame (3021), and the clamping directions of the first buckle (3024) and the second buckle (3027) are arranged in a vertical mode.

10. An air conditioner, wherein the panel assembly according to any one of claims 1 to 9 is provided on the air conditioner.