CN216119416U - Light panel and air conditioner - Google Patents

Abstract

The utility model discloses a lighting panel and an air conditioner, wherein the lighting panel comprises a panel, a light-transmitting plate, a light-emitting component and a shielding piece, the light-transmitting plate is attached to the panel, the light-transmitting plate is provided with a light-emitting area, the shielding piece is made of light-transmitting materials, the shielding piece covers the light-transmitting plate to cover the light-emitting area, the light-emitting component is arranged on the light-transmitting plate, and the light-emitting component emits light to enable the light-emitting area to shine and display patterns on the light-transmitting plate. The light-emitting component is arranged on the light-transmitting plate, the light-emitting area is arranged on the light-transmitting plate, the shielding piece covers the light-emitting area, the light-emitting component emits light to enable the light-emitting area to emit light, patterns are displayed on the light-transmitting plate, and light penetrates through the shielding piece made of the light-transmitting material to show the patterns. By implementing the utility model, the light-emitting component can display patterns on the light-transmitting plate, and the shielding piece is used for shielding the light-emitting area, so that dirt such as dust and the like in the light-emitting area is avoided.

Description

Light panel and air conditioner

Technical Field

The utility model relates to the technical field of household appliance light adjustment, in particular to a light panel and an air conditioner.

Background

With the improvement of living standard, various household appliances such as a refrigerator, a washing machine, an air conditioner and the like are configured in a household of a resident, the household appliances provide convenience for the daily life of the resident, and the requirements of users on the appearance and the visual experience of the household appliances are gradually improved on the premise of realizing basic functions.

In the prior art, the appearance color pattern of the household appliance can be realized by arranging a light-emitting pattern on the outer surface and forming the pattern by the light-emitting piece through the light-emitting pattern.

However, in the long-term use process of the outer surface of the household appliance, dirt such as dust is easily accumulated on the luminous patterns, and the cleaning of the luminous patterns is inconvenient, which results in that the household appliance is cumbersome to clean.

SUMMERY OF THE UTILITY MODEL

The utility model provides a light panel and an air conditioner, and aims to solve the problem that dirt such as dust is easily accumulated on a luminous pattern on the outer surface of a household appliance in the prior art.

In a first aspect, the utility model provides a lighting panel, which includes a panel, a transparent plate, a light emitting element and a shielding element, wherein the transparent plate is attached to the panel, a light emitting area is arranged on the transparent plate, the shielding element is made of a transparent material, the shielding element covers the transparent plate to cover the light emitting area, the light emitting element is mounted on the transparent plate, and the light emitting element emits light to enable the light emitting area to shine and display patterns on the transparent plate.

Further, the light-emitting member is mounted on a side of the light-transmitting plate.

Further, light-emitting component includes light-emitting spare and luminous control module, the light-emitting spare install in the side of light-passing board, luminous control module is used for controlling the light-emitting spare is luminous in order to show the pattern on the light-passing board.

Further, the light-emitting member comprises a connecting bar groove, and the side edge of the light-transmitting plate is embedded into the connecting bar groove.

Further, the light-emitting area comprises a plurality of through holes, and the through holes are distributed on the light-transmitting plate randomly or in a pattern.

Further, the light-transmitting plate is provided with the light-emitting area through laser engraving or silk screen printing.

Further, the shielding piece is a fabric or a covering.

Further, the light-transmitting plate is an acrylic plate.

Further, the panel is an injection molding part or a sheet metal part.

In a second aspect, the present invention provides an air conditioner, further comprising a middle frame and a driving mechanism, wherein the driving mechanism connects the middle frame and the panel, and the driving mechanism drives the panel to move on the front end surface of the middle frame.

Compared with the prior art, the utility model has the beneficial effects that: the light-emitting component is arranged on the light-transmitting plate, the light-emitting component emits light to enable the light-emitting area to be luminous and display patterns on the light-transmitting plate, and light penetrates through the shielding piece made of the light-transmitting material to display the patterns. By implementing the utility model, the light-emitting component can display patterns on the light-transmitting plate, and the shielding piece is used for shielding the light-emitting area, so that dirt such as dust and the like in the light-emitting area is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 illustrates an exploded view of a light panel;

FIG. 2 shows an enlarged schematic view of section A of FIG. 1;

FIG. 3 is a side sectional view of the air conditioner;

FIG. 4 is a schematic sectional front view of an air conditioner;

FIG. 5 is a schematic structural diagram of a first embodiment of the forward-backward moving mechanism;

fig. 6 shows a schematic view of an explosive structure of a first embodiment of the back-and-forth movement mechanism;

FIG. 7 is a schematic structural view showing a second embodiment of the forward-backward moving mechanism;

FIG. 8 is a schematic structural view showing a third embodiment of the forward-backward moving mechanism;

FIG. 9 is a schematic structural view showing a fourth embodiment of the forward-backward moving mechanism;

FIG. 10 is a schematic structural view of a fifth embodiment of the forward-backward moving mechanism;

FIG. 11 illustrates a cross-sectional back view of the lift mechanism;

fig. 12 shows an exploded view of the lifting mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used in the specification of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

Referring to fig. 1-12, preferred embodiments of the present invention are provided.

The utility model provides a light panel, as shown in fig. 1, comprising a panel 200, a light-transmitting plate 500, a light-emitting component and a shielding member 600, wherein the light-transmitting plate 500 is attached to the panel 200, the light-transmitting plate 500 is provided with a light-emitting region 510, the shielding member 600 is made of a light-transmitting material, the shielding member 600 covers the light-transmitting plate 500 to cover the light-emitting region 510, the light-emitting component is mounted on the light-transmitting plate 500, and the light-emitting component emits light to enable the light-emitting region 510 to shine and display patterns on the light-transmitting plate 500.

By attaching the transparent plate 500 to the panel 200, the light-emitting region 510 is formed on the transparent plate 500, the shielding member 600 covers the transparent plate 500, the light-emitting region 510 is covered by the shielding member 600, the light-emitting component is mounted on the transparent plate 500, the light-emitting component emits light to make the light-emitting region 510 emit light and display a pattern on the transparent plate 500, and light passes through the shielding member 600 made of a transparent material to display the pattern. By implementing the utility model, the light-emitting component can display patterns on the light-transmitting plate 500, and the shielding piece 600 is used for covering the light-emitting area 510, so that the light-emitting area 510 is prevented from accumulating dirt such as dust, and the light-emitting area 510 is hidden, thereby improving the aesthetic degree of the light panel 200.

In this embodiment, as shown in fig. 1, the light emitting element is mounted on a side of the light transmissive plate 500. The light-transmitting plate 500 itself is made of a light-transmitting material and has a certain light-transmitting property, the light-emitting element can be specifically disposed on the side of the light-transmitting plate 500, after light emission, the light passes through the light-transmitting plate 500, the brightness at the light-emitting region 510 is high, and the brightness is bright, while the brightness at the position where the light-emitting region 510 is not disposed is low.

In this embodiment, as shown in fig. 1, the light emitting assembly includes a light emitting element 700 and a light emitting control module, the light emitting element 700 is installed at a side of the light-transmitting plate 500, and the light emitting control module is used for controlling the light emitting element 700 to emit light so as to display a pattern on the light-transmitting plate 500. Preferably, the light emitting member 700 includes an LED lamp set or other light sources formed by a plurality of LED lamps, the LED lamp set or other light sources may be directly disposed inside the housing of the light emitting member 700, or may be disposed outside the housing, and the light emitting member 700 is controlled by the light emitting control module to emit light, and the light enters from the side of the light transmitting plate 500 and displays a pattern on the light transmitting plate 500.

In this embodiment, as shown in fig. 1 and fig. 2, the light emitting element 700 is in a long strip shape, the light emitting element 700 includes a connecting strip groove 710, and the side edge of the light transmissive plate 500 is embedded into the connecting strip groove 710, so as to realize the fastening connection between the light transmissive plate 500 and the light emitting element 700, and the length of the light emitting element 700 is close to the length of the side edge of the light transmissive plate 500, so as to ensure that light passes through the entire light transmissive plate 500 when the light emitting element 700 emits light.

In this embodiment, as shown in fig. 1, the light-emitting region 510 includes a plurality of through holes, the through holes are randomly distributed or distributed in a pattern on the light-transmitting plate 500, for example, the through holes are distributed in a star shape, and after the light-emitting member 700 emits light, the light-transmitting plate 500 presents a star pattern, so as to enhance the aesthetic degree of the appearance and improve the visual experience of the user. The through holes can also be distributed in other shapes, such as straight lines. Light-emitting region 510 may also include a plurality of recessed channels through which a pattern is formed.

In this embodiment, the light-transmitting plate 500 is processed with the light-emitting region 510 through laser engraving or silk printing, the light-emitting region 510 formed on the light-transmitting plate 500 through laser engraving or silk printing has a light-transmitting property different from that of the light-transmitting plate 500 itself, and after the light-emitting element 700 emits light, the light-emitting region 510 and other regions on the light-transmitting plate 500 form a light brightness difference, so that a pattern is projected on the light-emitting region 510.

Preferably, the shield 600 is a cloth or skin. The masking cloth and the skin are made of light-transmitting materials, so that the shielding piece 600 covers the light-emitting area 510 to prevent dust from accumulating, light rays emitted by the light-emitting component cannot be obstructed, and patterns can be displayed on the light-transmitting plate 500. Meanwhile, different appearance effects can be realized by adopting different shielding pieces 600, and the appearance effect on the light-transmitting plate 500 is enriched.

Preferably, the light-transmitting plate 500 is an acrylic plate, which has light-transmitting property and small mass and is not easy to fall off when being attached to the panel 200.

Preferably, the panel 200 is an injection molding part or a sheet metal part, and is integrally formed through injection molding or sheet metal processing, so that the processing is convenient.

It should be noted that the light panel described in this embodiment can be applied to an electric appliance such as an air conditioner, a refrigerator, a washing machine, etc., and is not limited herein as long as the light panel 200 and the light emitting module can be mounted on the electric appliance.

The utility model also provides an air conditioner, as shown in fig. 3 and 4, the air conditioner comprises the light panel of the above embodiment, and further comprises a middle frame 100 and a driving mechanism 300, the panel 200 can move on the front end surface 101 of the middle frame 100, the driving mechanism 300 comprises a lifting mechanism 310 connected with the front end surface 101 of the middle frame 100 and a front-back movement mechanism respectively connected with the lifting mechanism 310 and the panel 200, the lifting mechanism 310 drives the front-back movement mechanism and the panel 200 to move up and down, and the front-back movement mechanism passively adjusts the front-back position of the panel 200 along with the lifting movement of the lifting mechanism 310, or the front-back movement mechanism actively adjusts the front-back position of the panel 200.

The air conditioner still includes the second light source, and the second light source sets up in the inside of air conditioner, and the second light source is used for giving out light with the display pattern to the outside of air conditioner, and specifically, the second light source can be the projection lamp, promotes user's visual experience through the different patterns of projection.

Wherein, the front end face 101 of the middle frame 100 is provided with a first air outlet 110, the first air outlet 110 is an opening arranged on the middle frame 100 to blow out air, the panel 200 is movably arranged on the front end face 101 of the middle frame 100 to form a system resistance of the air blown out by the first air outlet 110, when the panel 200 moves back and forth relative to the front end face 101 under the drive of the drive mechanism 300, even if the panel 200 moves away from or approaches the front end face 101 of the air conditioner, the panel 200 and the front end face 101 form an air outlet channel 10 communicated with the first air outlet 110, which is equivalent to a gap space formed between the panel 200 and the front end face 101, and the air outlet channel 10 forms at least one second air outlet at the peripheral edge of the panel 200, which is equivalent to an edge opening of the gap space, the air blown out by the first air outlet 110 is partially blocked by the panel 200, enters the air outlet channel 10, and is guided to the second air outlet to realize a controllable soft wind state, the control of the wind speed is realized through the panel 200, the change of the internal structure is reduced, the research and development and the product cost are reduced, and the controllability is strong. Under the driving of the driving mechanism 300, the panel can move back and forth relative to the front end face 101, the space size of the air outlet channel 10 is adjusted to control the air inlet volume of the air outlet channel 10, and the change trend of the space size and the air inlet volume is the same direction; and the panel 200 can also move up and down relative to the front end surface 101, and the opening degree of the first air outlet 110 is adjusted to control the air intake of the air outlet channel 10, and the trend of the opening degree and the air intake is opposite.

The specific operation of the driving mechanism 300 is: the lifting mechanism 310 drives the front-back moving mechanism to move up and down, the front-back moving mechanism drives the panel 200 to move up and down, and meanwhile, the front-back moving mechanism drives the panel 200 to move back and forth during the lifting process or in the lifting static state. If the front-back moving mechanism is a passive structure and needs to be matched with the lifting process to realize front-back movement, at least part of the process drives the driving panel 200 to move front and back simultaneously in the process that the lifting mechanism 310 drives the front-back moving mechanism to move up and down; if the front-back moving mechanism is an active structure, the front-back moving mechanism actively drives the panel 200 to move back and forth no matter the panel is lifted or is still.

As shown in fig. 5 to 10, the present invention provides a preferred embodiment of the forward-backward movement mechanism.

The back-and-forth movement mechanism essentially adjusts the back-and-forth position of the front panel 200 relative to the middle frame 100 and provides multiple sets of solutions.

Referring to fig. 5 and 6, the front-and-back moving mechanism includes a connecting rod 331, the driving mechanism 300 further includes a rail block 332 fixed on the middle frame 100 and provided with a rail 3321, two ends of the connecting rod 331 are respectively connected with the lifting mechanism 310 and the panel 200, an installation part of the connecting rod 331 is slidably connected with the rail 3321 where the rail 3321 is fast, and the connecting rod 331 is driven by the lifting mechanism 310 to adjust a front-and-back position of a front end of the connecting rod 331 along a track of the rail 3321 so as to control a front-and-back position of the panel 200 in a lifting process.

Further, the rail 3321 is a groove 3321 and is disposed on an end surface of the rail block 332, a hole 321 or a rotation shaft is disposed on an end surface of the panel 200, the mounting portion of the connecting rod 331 is a first protrusion 3312 slidably connected to the groove 3321, and a second protrusion 3313 or a hole cooperatively connected to the hole 321 or the rotation shaft of the panel 200 is disposed at a front end of the connecting rod 331; wherein, the first and second protrusions 3312 and 3313 or the first and second protrusions 3312 and the hole sites of the connecting rod 331 are respectively disposed on two end surfaces. Preferably, the rail 3321 of the rail block 332 has a multi-segment shape, preferably an upper vertical and lower arc shape.

Specifically, when the lifting end 312 of the lifting mechanism 310 ascends, the rear end of the connecting rod 331 is driven to ascend, and the connecting rod 331 moves along the track 3321 by the ascending driving of the rear end of the connecting rod 331, for example, moves along a curved track, the connecting rod 331 is driven to incline and the front end thereof moves forward, and then moves along a vertical track, the front end of the connection is driven to ascend, thereby driving the panel 200 to move forward and ascend. Of course, in order to provide the link 331 with a moving space for moving forward and backward, it is necessary to provide a vertical rotation direction limiting structure to achieve two-stage limiting, i.e., when the lifting end 312 of the lifting mechanism 310 is lifted, the rear end of the link 331 is driven to be lifted, and the entire link 331 abuts against the lower limiting position, thereby limiting the forward movement distance. Thus, the rear end of the link 331 is rotatably connected to the shaft 3121 of the elevating end 312 of the elevating mechanism 310 through the vacant position 3311.

Referring to fig. 7, the forward and backward moving mechanism includes a link 341 and a first driving motor 342 disposed at the lifting end 312 of the lifting mechanism 310, two ends of the link 341 are respectively connected to the first driving motor 342 and the panel 200, the rear end of the driving link 341 of the first driving motor 342 rotates to adjust the forward and backward position of the front end of the link 341, so as to control the forward and backward position of the panel 200.

The rear end of the connecting rod 341 is driven by the first driving motor 342 to move up or down relatively, and since the driving mode of the first driving motor 342 is a rotating mode, a deviation phenomenon is generated, so that the cutting slope of the connecting rod 341 is adjusted, the front end of the connecting rod 341 moves back and forth, and the front and rear positions of the control panel 200 are realized. The concrete mode is as follows: the first driving motor 342 extends to form a rotating disc, the rear end of the connecting rod 341 is rotatably connected to the non-center position 3411 of the rotating disc, the first driving motor 342 drives the rotating disc to rotate around the center position and drives the connecting rod 341 to tilt, the rear end of the connecting rod 341 can move back and forth relative to the lifting end 312 of the lifting mechanism 310 by rotating the rotating disc, and the front end of the connecting rod 341 can move back and forth relative to the lifting end 312 of the lifting mechanism 310 by tilting the connecting rod 341.

Referring to fig. 8, the forward-backward moving mechanism includes a connecting rod 351 and a first limiting structure 352 disposed on the fixed end 311 of the lifting mechanism 310, two ends of the connecting rod 351 are respectively connected with the lifting mechanism 310 and the panel 200, a limiting portion of the first limiting structure 352 is clamped at the lower end of the connecting rod 351, the connecting rod 351 is driven by the lifting mechanism 310 to cooperate with the limiting portion to generate corresponding angular rotation, and the forward-backward position of the front end of the connecting rod 351 is adjusted to control the forward-backward position of the panel 200 in the lifting process.

The core of the scheme is similar to the first scheme, and the track block 332 is mainly replaced by a first limiting structure 352, so that the connecting rod 351 is inclined through the gravity action of the front end and the clamping action of the middle limiting part in the process of ascending of the rear end of the connecting rod 351, and the front and rear movement of the rear end of the connecting rod 351 is realized.

Referring to fig. 9, the forward and backward moving mechanism includes a connecting rod 361 and a movable push rod 3621, the movable push rod 3621 is connected to a fixed end 311 of the lifting mechanism 310 through a spring 3622, and is further rotatably connected to an installation portion of the connecting rod 361, two ends of the connecting rod 361 are respectively connected to the lifting mechanism 310 and the panel 200, the connecting rod 361 is rotatably engaged with the movable push rod 3621 under the driving of the lifting mechanism 310, and the front and back position of the front end of the connecting rod 361 is adjusted by rotating around the rotating connection with the movable push rod 3621, so as to control the front and back position of the panel 200 during the lifting process.

The movable post 3621 forms a supporting point of the connecting rod 361, so that the connecting rod 361 inclines in the ascending process, and the spring 3622 arranged on the movable post 3621 is used for relieving the impact force of the movement of the connecting rod 361, so that the front end of the connecting rod 361 can move forwards in different degrees in the ascending process, and the requirement that the panel 200 can provide movement modes under different requirements is met.

Referring to fig. 10, the front-back moving mechanism includes a second driving motor 371 disposed at the lifting end 312 of the lifting mechanism 310 and a guide rack 372 connected to the panel 200, and the second driving motor 371 is provided with a second rotating gear 3711 engaged with the guide rack 372 to adjust the front-back position of the panel 200.

Similar to the second embodiment, the second driving motor 371 and other guiding and moving structures are disposed on the lifting end 312 of the lifting mechanism 310, so that the panel 200 can move back and forth relative to the lifting mechanism 310. The specific guiding moving structure is that the second driving motor 371 drives the second rotating gear 3711 to rotate, so as to drive the horizontally arranged guiding rack 372 to move back and forth. Meanwhile, a guide rod 3731 and a guide sleeve 3732 are provided at an upper position or a lower position for implementing an auxiliary guide of the horizontal movement.

In this embodiment, at least two links of the forward and backward moving mechanism are provided, and at least two links are disposed at upper and lower positions, so as to improve the stability of the panel 200 with respect to the lifting mechanism 310.

Referring to fig. 5 to 10, the driving mechanism 300 further includes a supporting frame 320 connected to a front-back moving mechanism, and the front-back moving mechanism is connected to the panel 200 through the supporting frame 320, so as to drive the panel 200 to move by driving the supporting frame 320 to move.

Specifically, the panel 200 in the first to fifth aspects is replaced with the support frame 320, and the support frame 320 is directly fixed to the panel 200 to serve as an intermediate conversion member, so that the installation convenience of the panel 200 is improved.

As shown in fig. 11 and 12, the present invention provides a preferred embodiment of the elevating mechanism.

Elevating system 310 includes the mounting panel as stiff end 311 and the slider as lift end 312, be provided with third driving motor 410 on the mounting panel, just be equipped with first rotation gear 420 on the third driving motor 410, be equipped with on the slider with the rack 3122 of first rotation gear 420 meshing.

Specifically, the sliding block can be arranged on the mounting plate in a vertically sliding manner, the first rotating gear 420 is driven to rotate by the third driving motor 410, and the sliding block is driven to move vertically by matching with the rack 3122 arranged in the vertical direction of the sliding block; in addition, a sliding chute and a sliding rail are respectively arranged between the mounting plate and the sliding block, so that the sliding block can stably move up and down on the mounting plate; for example, a boss rail 3111 is provided on the mounting plate, and a groove 3124 that can be fitted over the boss rail 3111 is provided on the slider. Preferably, the mounting plate and the slider are arranged in the front-back direction, the first rotating gear 420 of the third driving motor 410 is arranged towards the slider, and the tooth portion of the slider rack 3122 is arranged towards the left side or the right side and is matched with the first rotating gear 420 in the rotating direction, so that the slider can be arranged on the mounting plate in a controllable sliding manner.

In this embodiment, the slider is provided with a second limit structure 3123, the second limit structure 3123 is a limit groove forming an upper limit edge and a lower limit edge, and the connecting rod is rotatably disposed in the limit groove and swings up and down between the upper limit edge and the lower limit edge around the rotating shaft. Specifically, the second limiting structure 3123 is a triangle-like shape in which the limiting groove is a rear narrow front frame, the rear end of the connecting rod is rotatably disposed on the rotating shaft at the rear end of the limiting groove, and the connecting rod can swing up and down in the limiting groove until the connecting rod abuts against the upper limiting edge or the lower limiting edge, so that the inclination angle of the connecting rod is limited, the ascending supporting force at the front end of the connecting rod is improved, and the panel 200 can be supported.

In this embodiment, the bottom of the panel 200 is provided with the elastic member 322, the elastic member 322 protrudes out of the bottom of the panel 200 when not pressed, and is pressed back into the panel 200 when pressed, and the elastic member 322 can provide a buffer force when the panel 200 descends to the lowest position, thereby improving the stability of the whole structure and preventing the structure from being damaged by hard landing. Specifically, the bottom of the panel 200 is provided with a groove, the elastic member 322 comprises an abutting member and a spring structure, the abutting member is arranged at the bottom of the groove through the spring structure, and the elastic member 322 is matched with the gravity of the elastic member to protrude out of the groove when the spring structure is normal, and can be accommodated inside the groove.

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 utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a light panel, its characterized in that, includes panel, light-passing board, light-emitting component and shielding piece, the light-passing board in attached in the panel, processing has luminous region on the light-passing board, shielding piece is the printing opacity material, shielding piece covers the light-passing board is in order to cover luminous region, light-emitting component install in the light-passing board, light-emitting component is luminous so that luminous region shines and is in show the pattern on the light-passing board.

2. The light panel of claim 1, wherein the light emitting assembly is mounted to a side of the light-transmitting panel.

3. The light panel of claim 2, wherein the light assembly includes a light emitting member mounted to a side of the light-transmitting plate and a light emitting control module for controlling the light emitting member to emit light to display a pattern on the light-transmitting plate.

4. A light panel as recited in claim 3, wherein the light emitting elements include tie bar grooves into which the side edges of the light-transmitting sheet are inserted.

5. The light panel of claim 4, wherein the light-emitting area comprises a plurality of through holes, and the through holes are randomly distributed or distributed in a pattern on the light-transmitting plate.

6. The light panel of any one of claims 1-5, wherein the light-transmitting plate is laser engraved or silk screened with the light-emitting areas.

7. The light panel of claim 6, wherein the shade is a cloth or skin.

8. The lighting panel of claim 7, wherein the light-transmitting sheet is an acrylic sheet.

9. The light panel of claim 8, wherein the panel is an injection molded piece or a sheet metal piece.

10. An air conditioner, comprising the light panel of any one of claims 1 to 9, further comprising a middle frame and a driving mechanism, wherein the driving mechanism is connected with the middle frame and the panel, and the driving mechanism drives the panel to move on the front end face of the middle frame.

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