CN215864004U - Panel device of air conditioner - Google Patents

Abstract

The utility model relates to the field of air conditioners, in particular to a panel device of an air conditioner. The panel device comprises a panel component and at least one reinforcing piece, an air duct communicated with the first air outlet is formed between the panel component and the middle frame, a second air outlet is formed on the periphery side of the panel component, and the reinforcing piece is arranged on the panel component. Compared with the prior art, the panel component has the advantages that the panel component is installed on the panel component through the reinforcing piece, the rigidity of the panel component is enhanced, the panel component is prevented from deforming under the environment with rapid temperature change or large internal and external temperature difference, and the strength of the panel component is enhanced. Secondly, the setting of reinforcement can also reduce the condensation risk, can furthest improve the hardness of panel components.

Description

Panel device of air conditioner

Technical Field

The utility model relates to the field of air conditioners, in particular to a panel device of an air conditioner.

Background

An Air Conditioner (Air Conditioner) is a device that manually adjusts and controls parameters such as temperature, humidity, and flow rate of ambient Air in a building or structure.

The air conditioner is provided with the panel, but the panel needs to have standard requirements of light weight, high hardness and strong deformation resistance, so that the panel has higher requirements, but the panel which always meets the requirements has higher cost, and is not convenient for large-scale production and use of products.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to a panel device of an air conditioner, which provides a panel having light weight, high rigidity and strong deformation resistance, and solves the problem of high cost of the panel.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides a panel device of air conditioner, air conditioner include center and first air outlet, and panel device includes panel components and an at least reinforcement, forms the wind channel that communicates with first air outlet between panel components and the center and forms the second air outlet on week side, and the reinforcement setting is on panel components.

Wherein, the preferred scheme is: the panel component comprises a panel body, and the reinforcing piece is arranged on the panel body and is used for isolating the air duct.

Wherein, the preferred scheme is: the panel component comprises a panel body and a heat insulation layer arranged on the inner side of the panel, and the reinforcing piece is arranged on the heat insulation layer and is isolated from the panel body.

Wherein, the preferred scheme is: the reinforcing piece is arranged at the second air outlet; alternatively, the reinforcement member is provided at a central position of the panel assembly.

Wherein, the preferred scheme is: two reinforcing members are transversely provided at both end edges of the panel assembly, respectively.

Wherein, the preferred scheme is: the cross section of the reinforcing member is in the shape of a multi-segment line or a curved line.

Wherein, the preferred scheme is: the cross-sectional shape of the reinforcing member includes one of an I-shape, a semi-I-shape, an L-shape, an M-shape, an N-shape and a clip-shape.

Wherein, the preferred scheme is: the reinforcing member is fixed to the panel assembly by a screw structure; or the reinforcing piece is fixed on the panel component through a hot riveting structure; alternatively, the stiffener is fixed to the panel assembly by glue; alternatively, the reinforcement is secured to the panel assembly by a snap-fit arrangement.

Wherein, the preferred scheme is: the panel component comprises a panel body, and the reinforcement is produced integrally with the panel body through injection molding in the processing die.

Wherein, the preferred scheme is: the reinforcing piece is made of one of metal, plastic and toughened glass.

Compared with the prior art, the panel component has the advantages that the panel component is installed on the panel component through the reinforcing piece, the rigidity of the panel component is enhanced, the panel component is prevented from deforming under the environment with rapid temperature change or large internal and external temperature difference, and the strength of the panel component is enhanced. Secondly, the setting of reinforcement can also reduce the condensation risk, can furthest improve the hardness of panel components.

Drawings

The utility model will be further described with reference to the accompanying drawings and examples, in which:

fig. 1 is a schematic sectional view of an air conditioner having a panel assembly according to the present invention;

fig. 2 is an exploded view of an air conditioner having a panel assembly according to the present invention;

FIG. 3 is an exploded view of the panel assembly and reinforcement of the present invention;

fig. 4 is a partially enlarged structural view of the reinforcing member of the present invention.

Detailed Description

The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, the present invention provides a preferred embodiment of a panel device for an air conditioner.

The air conditioner includes a middle frame 200, a first outlet 102, and a panel device including a panel assembly 100 and at least one reinforcement 300.

Regarding the middle frame 200, as the main body of the air conditioner, a condensation evaporation module is built in and is arranged in the air duct inside the middle frame 200, and the two ends of the air duct are respectively provided with the air inlet and the first air outlet 102, so that the air conditioner cools or heats the air and blows the air out of the first air outlet 102. The first outlet 102 is preferably provided at a lower portion of the front end surface of the middle frame 200, and blows out the air in the air duct inside the middle frame 200 from the first outlet 102, and in order to adjust the direction of the air blown out by the first outlet 102, the air conditioner is provided with a wind deflector rotatably connected to the middle frame 200 at the first outlet 102, and the air blown out by the first outlet 102 is guided by the wind deflector.

Regarding the panel assembly 100, the panel assembly 100 is mounted on the middle frame 200, and the specific mounting may be a detachable mounting, or may be a movable mounting achieved through other structures, for example, a driving mechanism is disposed between the panel assembly 100 and the middle frame 200 to drive the panel assembly 100 to move up and down relative to the middle frame 200, so as to adjust the opening degree of the first air outlet 102. And an air duct communicated with the first air outlet 102 is formed between the panel assembly 100 and the middle frame 200, and a second air outlet is formed on the peripheral side, and the air blown out from the first air outlet 102 enters the air duct under the blocking of the panel assembly 100 and is blown out outwards through the second air outlet, so that the soft air mode of the air conditioner is realized.

Further, the second air outlet is an annular buckle, that is, the panel assembly 100 and the middle frame 200 all form an air outlet for blowing air.

Regarding the reinforcement 300, for mounting to the panel assembly 100, the main purpose is to reinforce the rigidity of the panel assembly 100, prevent the panel assembly 100 from being deformed in an environment where a temperature sharply changes or a difference between an inside temperature and an outside temperature is large, and reinforce the strength of the panel assembly 100. Secondly, the structure and installation manner of the stiffener 300 are more important, and specific reference is made to the following description, so that on one hand, the risk of condensation is reduced, and on the other hand, the rigidity of the panel assembly 100 can be improved to the greatest extent. Furthermore, under the condition that the wall thickness of the panel assembly 100 is not increased, the strength and the rigidity of the panel assembly 100 are enhanced, so that the material consumption is saved, the weight is reduced, and the cost is reduced; distortion of the panel assembly 100 due to uneven stress is overcome.

In the present embodiment, the reinforcement member 300 is fixed to the panel assembly 100 by a screw structure; alternatively, the reinforcing member 300 is fixed to the panel assembly 100 by a hot-riveting structure; alternatively, the stiffener 300 is fixed to the panel assembly 100 by glue; alternatively, the reinforcement member 300 is fixed to the panel assembly 100 by a snap structure. Specifically, the screw structure should include a screw hole and a through hole provided on the reinforcement 300 and the panel assembly 100, and be screwed into the screw hole by a screw passing through the through hole and the screw; the hot riveting structure is substantially fixed through a hot riveting head, and is a method for upsetting a rivet rod in a rivet hole of a part by using axial force and forming a rivet head so as to connect a plurality of parts; and, the adhesive is substantially made of a material with adhesive to adhere the stiffener 300 to the panel assembly 100; the buckle is a mechanism for embedded connection or integral locking of one part and another part, is usually used for connection of plastic parts, is usually made of plastic materials with certain flexibility, and has the biggest characteristic of convenient installation and disassembly and can realize tool-free disassembly.

In the present embodiment, the panel assembly 100 includes the panel body 110, and the reinforcement 300 is integrally produced with the panel body 110 by insert molding. Wherein, the reinforcement 300 is produced integrally with the panel body 110 by using an in-mold injection molding process to perform an embedding operation during the manufacturing process; the in-mold injection molding is a technology of putting a printed and molded decorative sheet into an injection mold, then injecting gum on the back of the molded sheet, and bonding resin and the sheet into a whole for curing molding.

In this embodiment, the material of the stiffener 300 is one of metal, plastic and tempered glass. Wherein, as for the metal, the metal can be pure metal, such as iron, aluminum or copper, or alloy, such as stainless steel, aluminum alloy, etc., or metal-containing material; the plastic can be hard plastic, and has lower deformation degree and stronger pressure resistance.

As shown in fig. 2 and 3, the present invention provides a preferred embodiment of the installation of the panel assembly 100 and the stiffener 300.

The panel assembly 100 includes a panel body 110 and an insulation layer 120 disposed on an inner side of the panel, and the panel body 110 serves as a main structure of the panel assembly 100, and not only bears most or all of the rigidity of the panel assembly 100, but also serves as an outward-presented appearance shape and also serves as a support structure mounted to the middle frame 200. The insulating layer 120 is used for forming an inner wall of the inner channel, so that the panel body 110 is reduced from directly contacting with the air blown out from the first air outlet 102, the temperature of the panel body 110 is effectively prevented from being greatly changed, and the condensation phenomenon of the panel body 110 is prevented.

The condensation phenomenon refers to a condition that the surface temperature is lower than the ambient temperature, and when the hot and humid ambient air meets the surface of the product below the dew point, the water vapor will condense on the surface to form dew drops, i.e., the temperature of the panel body 110 is prevented from being reduced and is far lower than the ambient temperature.

In the present embodiment, the installation manner of the panel assembly 100 and the stiffener 300 includes two preferred schemes.

In the first embodiment, the reinforcing member 300 is disposed on the panel body 110 and separates the air duct. The essence is that the reinforcing member 300 is not directly arranged in the air duct, so that the air in the air duct does not directly blow the reinforcing member 300, the temperature of the reinforcing member 300 is kept in a certain range, and condensation is placed; an insulating layer may be provided even on the end face of the reinforcing member 300 near the air duct to prevent the wind from blowing straight.

In the second embodiment, the reinforcing member 300 is disposed on the thermal insulation layer 120 and is isolated from the panel body 110. Through heat preservation 120, ensure that reinforcement 300 and panel body 110 can not direct contact, keep apart the setting, during reinforcement 300's temperature can not directly transmit panel body 110, prevent that panel body 110 temperature variation is too big, lead to the condensation to produce.

Wherein, scheme one and scheme two can set up simultaneously, the effect stack to effectively avoid the condensation of panel body 110.

In the present embodiment, the stiffener 300 is disposed at the second air outlet; alternatively, the reinforcement member 300 is provided at a central position of the panel assembly 100. The essential purpose is to reinforce the whole panel assembly 100 by the fitting of the reinforcing member 300, to improve the rigidity and balance of the panel assembly 100, and to improve the service life of the panel assembly 100. The second air outlet is arranged at the end edge of the panel assembly 100, so that the situation that the edge is tilted and deformed due to limited load borne by the connecting surface of the panel assembly 100 is avoided. Similarly, the arrangement at the middle position of the panel assembly 100 prevents the panel assembly 100 from protruding or recessing from the middle.

In the present embodiment, and referring to fig. 3, two reinforcing members 300 are transversely provided at both end edges of the panel assembly 100, respectively. Thereby avoiding the panel assembly 100 from bearing excessive load due to an excessively large span, increasing the strength of the joint surface, and increasing the service life of the panel assembly 100.

As shown in FIG. 4, the present invention provides a preferred embodiment of the shape of the stiffener 300.

The cross section of the reinforcing member 300 is a multi-segment or curved shape, and the cross section design of the multi-segment or curved shape improves the bearing capacity of pressure, torsion and bending. Preferably, the cross-sectional shape of the reinforcing member 300 includes one of an i-shape, a half i-shape, an L-shape, an M-shape, an N-shape, and a clip-shape.

Substantially avoiding the planar design of the stiffener 300, which reduces the compression resistance.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, but rather as embodying the utility model in all equivalent variations and modifications within the scope of the appended claims.

Claims (10)

1. The utility model provides a panel device of air conditioner, the air conditioner includes center and first air outlet, its characterized in that: the panel device comprises a panel component and at least one reinforcing piece, an air duct communicated with the first air outlet is formed between the panel component and the middle frame, a second air outlet is formed on the periphery side of the air duct, and the reinforcing piece is arranged on the panel component.

2. The panel apparatus of claim 1, wherein: the panel component comprises a panel body, and the reinforcing piece is arranged on the panel body and used for isolating the air duct.

3. The panel apparatus of claim 1, wherein: the panel component comprises a panel body and a heat insulation layer arranged on the inner side of the panel, and the reinforcing piece is arranged on the heat insulation layer and is isolated from the panel body.

4. A panel device according to any one of claims 1 to 3, wherein: the reinforcing piece is arranged at the second air outlet; alternatively, the reinforcement member is provided at a central position of the panel assembly.

5. The panel apparatus of claim 4, wherein: the two reinforcing members are respectively transversely arranged at two end edges of the panel component.

6. A panel device according to any one of claims 1 to 3, wherein: the cross section of the reinforcing part is in a multi-segment line or a curve shape.

7. The panel apparatus of claim 6, wherein: the cross section of the reinforcing part is in one of an I shape, a semi-I shape, an L shape, an M shape, an N shape and a clip shape.

8. A panel device according to any one of claims 1 to 3, wherein: the reinforcing piece is fixed on the panel assembly through a screw structure; or the reinforcing piece is fixed on the panel component through a hot riveting structure; or, the reinforcing member is fixed to the panel assembly by glue; alternatively, the reinforcement is fixed to the panel assembly by a snap structure.

9. The panel apparatus of claim 1, wherein: the panel component comprises a panel body, and the reinforcing piece is produced in an integrated mode through injection molding in the machining die and the panel body.

10. A panel device according to any one of claims 1 to 3, wherein: the reinforcing piece is made of one of metal, plastic and toughened glass.

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