CN220871246U - Atmosphere lamp and refrigerator - Google Patents

Abstract

The application provides an atmosphere lamp and a refrigerator, wherein the atmosphere lamp comprises a light source assembly and a light guide module, and the light source assembly comprises a first light-emitting part and a second light-emitting part which are arranged at intervals; the light guide module comprises a first plate body and a second plate body which are opposite and arranged at intervals, the first plate body comprises a first light transmission part, a first light reflection part and a second light transmission part, the first light reflection part surrounds the periphery of the first light transmission part, the second light transmission part is arranged on one side of the first light reflection part, which is away from the first light transmission part, a first reflection surface is arranged on one side of the first light reflection part, which faces the second plate body, and a semi-transparent and semi-reflective part and a third light transmission part are arranged on the second plate body in parallel with the first plate body; the first light-transmitting part and the third light-transmitting part are respectively arranged corresponding to the first light-emitting part, the second light-transmitting part and the second light-emitting part are respectively arranged corresponding to the first reflecting surface and the semi-transparent and semi-reflective part. The atmosphere lamp provided by the application can form an image with a suspension effect.

Description

Atmosphere lamp and refrigerator

Technical Field

The application belongs to the technical field of light source structures, and particularly relates to an atmosphere lamp and a refrigerator.

Background

For decoration and lighting, an atmosphere lamp is installed in the refrigerator. The atmosphere lamp device related to the household refrigerator products is usually controlled by the current or circuit on-off, and is usually a gradient color lamp, a horse race lamp, a single-color hollowed-out lamp and the like.

The conventional atmosphere lamp generally adopts a mode of increasing the arrangement density of the lamp beads in unit area so as to realize better light emitting effect, but the mode cannot enable the image to have a suspending effect.

Disclosure of utility model

The embodiment of the application provides an atmosphere lamp and a refrigerator, which can enable a displayed image to have a suspension effect.

In a first aspect, an embodiment of the present application provides an atmosphere lamp, including:

The light source assembly comprises a first light-emitting part and a second light-emitting part which are arranged at intervals;

The light guide module comprises a first plate body and a second plate body which are opposite and arranged at intervals, wherein the first plate body comprises a first light transmission part, a first light reflection part and a second light transmission part, the first light reflection part surrounds the periphery of the first light transmission part, the second light transmission part is arranged at one side of the first light reflection part, which is away from the first light transmission part, a first reflection surface is arranged at one side of the first light reflection part, which is towards the second plate body,

The second plate body and the first plate body are provided with a semi-transparent and semi-reflective part and a third light-transmitting part in parallel;

The first light-transmitting parts and the third light-transmitting parts are respectively arranged corresponding to the first light-emitting parts, the second light-transmitting parts and the second light-emitting parts are respectively arranged corresponding to the second light-emitting parts, and the first reflecting surface and the semi-transparent and semi-reflective parts are respectively arranged corresponding to the first light-transmitting parts and the second light-transmitting parts.

In one embodiment, the light source assembly further includes a mounting plate and a control member, the first light emitting portion and the second light emitting portion are both disposed on the mounting plate, and the control member is mounted on the mounting plate and electrically connected to the first light emitting portion and the second light emitting portion, respectively.

In one embodiment, the atmosphere lamp further includes a light diffusion plate located between the second light transmitting portion and the second light emitting portion.

In one embodiment, the atmosphere lamp further comprises a light guide bracket, wherein the light guide bracket is located between the mounting plate and the first light transmitting portion and is used for separating the first light emitting portion from the second light emitting portion.

In one embodiment, the light guide bracket is provided with a through groove, the through groove is provided with a light guide space, a first opening and a second opening, the first opening and the second opening are communicated with the light guide space, the first light emitting part is located at the first opening, and the first light transmitting part covers the second opening.

In one embodiment, a flange portion is provided around an outer periphery of the groove side wall of the through groove, and the flange portion, the groove side wall, and the first plate form a limit space for mounting the light diffusion plate.

In one embodiment, the atmosphere lamp further comprises a second light reflecting portion surrounding a peripheral side of the second light transmitting portion away from the first light reflecting portion.

In one embodiment, the atmosphere lamp further comprises a display membrane, the display membrane is arranged on the surface of the third light-transmitting part facing the first plate body, and the outer surface of the display membrane is printed with light homogenizing ink.

In one embodiment, the reflectivity of the transflective portion is 60% to 90%.

In a second aspect, an embodiment of the present application further provides a refrigerator, where the refrigerator includes a box body and a box door, the box door is installed on the box body, the box body includes a refrigeration air duct mask and an atmosphere lamp according to any one of the embodiments, and the atmosphere lamp is installed on a side of the refrigeration air duct mask facing the box door.

In the atmosphere lamp provided by the embodiment of the application, the light emitted by the first light-emitting part sequentially passes through the first light-transmitting part and the third light-transmitting part to form the first image, the light incident to the semi-transparent and semi-reflecting part reflects part of the light irradiated to the semi-transparent and semi-reflecting part to the first reflecting surface, and part of the light is emitted from the surface of the second plate body opposite to the first plate body. And part of the light reflected to the first reflecting surface by the half-transmitting and half-reflecting part is continuously reflected back to the half-transmitting and half-reflecting part, and part of the light is reflected to the first reflecting surface by the half-transmitting and half-reflecting part, and part of the light is emitted from the surface of the second plate body opposite to the first plate body, and the like. The light emitted from the surface of the second plate body opposite to the first plate body is overlapped with the light shadow emitted from the second plate body after multiple reflection between the first reflecting surface and the semi-transparent semi-reflecting part, so as to form a second image with profound effect. The second image and the first image are displayed in a matched mode, and the second image surrounds the periphery of the first image, so that the first image has the effect of suspending in the second image. In addition, as the light emitted by the first light-emitting part enters from the first light-transmitting part of the first plate body, a distance is reserved between the first light-emitting part and the second plate body, and the first image can be displayed in a suspended mode.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings that are required to be used in the description of the embodiments will be briefly described below. It is evident that the figures in the following description are only some embodiments of the application, from which other figures can be obtained without inventive effort for a person skilled in the art.

For a more complete understanding of the present application and the advantages thereof, reference is now made to the following descriptions taken in conjunction with the accompanying drawings. Wherein like reference numerals refer to like parts throughout the following description.

Fig. 1 is a schematic structural view of a refrigerator according to an embodiment of the present application;

fig. 2 is a perspective view of an atmosphere lamp according to an embodiment of the present application;

FIG. 3 is an exploded view of the atmosphere lamp shown in FIG. 2;

FIG. 4 is a cross-sectional view of the atmosphere lamp shown in FIG. 2;

fig. 5 is a partial enlarged view of a portion of the atmosphere lamp a shown in fig. 4;

Fig. 6 is a partial enlarged view of the atmosphere lamp B shown in fig. 4;

FIG. 7 is a schematic view of the light guide bracket shown in FIG. 3;

Fig. 8 is a schematic structural view of the first plate shown in fig. 3.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application. It will be apparent that the described embodiments are only some, but not all, embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to fall within the scope of the application.

The embodiment of the application provides an atmosphere lamp and a refrigerator, which can enable a displayed pattern to have a suspension effect.

As shown in fig. 1, fig. 1 is a schematic structural diagram of a refrigerator according to an embodiment of the present application, and the refrigerator 200 according to an embodiment of the present application includes a box 201 and a box door 203, the box door 203 is mounted on the box 201, the box 201 includes a refrigeration air duct mask 205 and an atmosphere lamp 100, and the atmosphere lamp 100 is mounted on a side of the refrigeration air duct mask 205 facing the box door.

Fig. 2 is a perspective view of an atmosphere lamp according to an embodiment of the present application, and fig. 3 is an exploded view of the atmosphere lamp shown in fig. 2, as shown in fig. 2. The atmosphere lamp 100 comprises a light source assembly 10 and a light guide module, wherein the light source assembly 10 comprises a first light emitting part 11 and a second light emitting part 13 which are arranged at intervals; the light guide module includes a first plate 31 and a second plate 33 disposed opposite to and at an interval.

As shown in fig. 4, 5 and 6, fig. 4 is a sectional view of the atmosphere lamp shown in fig. 2, fig. 5 is a partial enlarged view of a portion of the atmosphere lamp shown in fig. 4, and fig. 6 is a partial enlarged view of a portion of the atmosphere lamp shown in fig. 4. The first plate 31 includes a first light-transmitting portion 311, a first light-reflecting portion 313 and a second light-transmitting portion 315, the first light-reflecting portion 313 surrounds the periphery of the first light-transmitting portion 311, the second light-transmitting portion 315 is disposed on a side of the first light-reflecting portion 313 facing away from the first light-transmitting portion 311, a first reflecting surface 3131 is disposed on a side of the first light-reflecting portion 313 facing toward the second plate 33, and a semi-transparent and semi-reflective portion (not shown) and a third light-transmitting portion (not shown) are disposed on the second plate 33 and parallel to the first plate 31; the first light transmitting portion 311 and the third light transmitting portion are respectively disposed corresponding to the first light emitting portion 11, the second light transmitting portion 315 is disposed corresponding to the second light emitting portion 13, and the first reflecting surface 3131 is disposed corresponding to the half-transmitting portion.

In the atmosphere lamp provided by the embodiment of the application, the first light-emitting part 11 is used for emitting light, and the second light-emitting part 13 is used for emitting light. The light guide module includes a first plate 31 and a second plate 33 that are opposite and disposed at intervals, as shown in fig. 8, fig. 8 is a schematic structural diagram of the first plate shown in fig. 3, where the first plate 31 includes a first light-transmitting portion 311, a first light-reflecting portion 313 and a second light-transmitting portion 315, the first light-transmitting portion 311 has a light-transmitting effect, light emitted by the first light-emitting portion 11 exits through the first light-transmitting portion 311, and a semi-transparent half-reflecting portion and a third light-transmitting portion are disposed on the second plate 33 in parallel with the first plate 31, where the third light-transmitting portion has a light-transmitting effect; the first light transmitting portion and the third light transmitting portion are respectively disposed corresponding to the first light emitting portion, so that the light emitted by the first light emitting portion 11 sequentially passes through the first light transmitting portion 311 and the third light transmitting portion, wherein the light emitted by the first light emitting portion 11 forms a first image, and the first image may be a stereoscopic image or a planar image. The first light emitting portion 11 may be composed of a plurality of LED beads assembled in a certain shape, and when the plurality of LED beads emit light, a first image is formed.

The second light transmitting portion 315 has a light transmitting effect, the light emitted by the second light emitting portion 13 is emitted through the second light transmitting portion 315, the first light reflecting portion 313 surrounds the periphery side of the first light transmitting portion 311, the second light transmitting portion 315 is arranged on one side, away from the first light transmitting portion 311, of the first light reflecting portion 313, the first light reflecting portion 313 faces towards one side of the second plate body, a first reflecting surface 3131 is arranged on one side, corresponding to the second light emitting portion, of the second light transmitting portion 315, and the first reflecting surface corresponds to the semi-transparent and semi-reflective portion. Thus, the light emitted by the second light emitting portion 13 is incident to the first surface 331 of the semi-transparent and semi-reflective portion opposite to the first plate body through the second light transmitting portion 315, the first surface 331 has a light transmitting function and a light reflecting function, the light reflecting effect can be realized through mirror surface coating, the light reflecting rate can be 60% -90%, and meanwhile, the light transmitting rate is 10% -40%. Thus, the light incident on the first surface 331 reflects a portion of the light incident thereon to the first reflecting surface 3131, and a portion of the light is emitted from a side of the second plate 33 opposite to the first surface 331. And a portion of the light reflected by the first surface 331 to the first reflecting surface 3131 is continuously reflected back to the first surface 331, and a portion of the light is continuously reflected by the first surface 331 to the first reflecting surface 3131, and a portion of the light is emitted from a surface of the second plate 33 opposite to the first surface 331, and so on. The light emitted from the surface of the second plate 33 opposite to the first surface 331 is overlapped with the light shadow emitted from the second plate 33 after multiple reflection between the first reflecting surface 3131 and the first surface 331, so as to form a second image with profound effect, the shape of the second image is approximately the same as that of the second light transmitting portion 315, and it is easy to understand that the second image is a stereoscopic image. In the embodiment of the application, the second image is displayed in cooperation with the first image, and the second image surrounds the periphery of the first image, so that the first image has the effect of suspending in the second image. In addition, as the light emitted by the first light-emitting part enters from the first light-transmitting part of the first plate body, a distance is reserved between the first light-emitting part and the second plate body, and the first image can be displayed in a suspended mode.

In one embodiment, a plate body with a pattern may be disposed between the first light emitting portion and the first plate body, so that when the light emitted by the first light emitting portion passes through the plate body with a pattern, the light exits through the first light transmitting portion and the second plate body. The plate body provided with the patterns is matched with the first light-emitting part, so that the first image is richer.

In one embodiment, the light source assembly 10 may further include a mounting plate 15, and a control member (not shown) mounted on the mounting plate 15, wherein the control member is mounted on the mounting plate and electrically connected to the first light emitting portion 11 and the second light emitting portion 13, respectively, for controlling the first light emitting portion 11 and the second light emitting portion 13 to perform gradual change, flicker, or change color, respectively. In the embodiment of the present application, the light source assembly 10 may be located at a side of the first plate 31 facing away from the second plate 33, and the first light emitting portion 11 and the second light emitting portion 13 may be specifically light beads, light bars, or the like. The colors of the first light emitting portion 11 and the second light emitting portion 13 may be each configured to be blue, white, or the like.

In one embodiment, the control element may set lighting conditions for the first lighting part 11 and the second lighting part 13, so that the first lighting part 11 and the second lighting part 13 emit light as required, and further cooperate with a plate body provided with a pattern, and a different first image is presented on a surface of the second plate body opposite to the first light-transmitting part 311.

In one embodiment, the atmosphere lamp 100 further includes a light diffusion plate 40, and the light diffusion plate 40 is located between the second light transmission part 315 and the second light emitting part 13. For diffusing the light emitted by the second light emitting part 13.

In this embodiment, the light diffusion plate 40 can diffuse the light emitted by the second light emitting portion 13, and the diffused light is more uniform and more diffuse than the light before being diffused, so that the diffused light enters between the first plate 31 and the second plate 33 through the second light transmitting portion 315, and the light and shadow of the light emitted by the second plate 33 after multiple reflections are overlapped, so that the visual effect is better.

Specifically, during actual processing, the first reflecting surface 3131 of the first plate body 31 may adopt a mirror surface coating manner to achieve a light reflecting effect, for convenience in processing, the whole of the side where the first reflecting surface of the first plate body 31 is located may be coated first, after the coating, the coating layer at the corresponding positions of the first light transmitting portion and the second light transmitting portion is removed by engraving or the like, and also the coating layer may be removed by printing. The other side surface of the first plate 31 opposite to the first reflecting surface 3131 may be light-tight, and may be coated or silk-screened. In order to ensure the normal light transmission function of the first light transmission portion and the second light transmission portion, when the other side surface of the first plate 31 opposite to the first reflecting surface 3131 is subjected to the light-proof treatment, the corresponding positions of the first light transmission portion and the second light transmission portion do not need to be subjected to the light-proof treatment.

The second plate 33 may include a half-transparent portion, where a surface of the half-transparent portion opposite to the first plate is defined as a first surface 331, the first surface 331 has a light transmitting function and a light reflecting function, specifically, a light reflecting effect may be achieved by a mirror coating, and a light reflecting rate may be 60% -90% (i.e. a light transmittance is from 10% to 40%), so that a light emitted from the light source assembly 10 is emitted into the first surface 331 of the second plate 33 by the second light transmitting portion 315, a part of the light irradiated to the second plate 33 is reflected to the first reflecting surface 3131 by the first surface 331, and another part of the light is emitted from a surface of the second plate 33 opposite to the first surface 331. In order to simplify the structure and reduce the cost, the first plate 31 and the second plate 33 may be made of glass, PMMA, or the like, and the glass, PMMA, or the like has good light transmittance and is easily coated with a specular reflection film. Wherein PMMA is short for polymethyl methacrylate, also called acrylic, acrylic or organic glass, has high transparency and is easy to machine.

In one embodiment, the manufacturing process of the semi-transparent and semi-reflective part may further be: a layer of light splitting film is electroplated on the surface of a transparent PMMA plate body in vacuum, the light splitting film can be a wavelength light splitting film, so that the second plate body comprises a transparent body made of glass material, PMMA material and the like, and a coating/plating layer, and light is partially refracted and partially reflected on the second plate body 33. When in use, light rays with specific wavelengths in the light rays emitted by the light source assembly can pass through the light splitting film to be refracted outwards, but light rays with specific wavelengths can not pass through the light splitting film to be reflected on the first plate body, so that partial refraction and partial reflection of the light rays on the second plate body 33 are realized.

Both the first reflecting surface 3131 and the first surface 331 may be mirror reflective surfaces, and the reflective effect may be achieved by mirror coating. The reflectivity of the second plate 33 is less than 100%, so when the light enters the second plate 33 from the light transmitting portion 311, the second plate 33 reflects part of the light irradiated to the second plate from the first surface 331 to the first reflecting surface 3131, and part of the light exits from a surface of the second plate 33 opposite to the first surface 331. A portion of the light reflected by the first surface 331 to the first reflecting surface 3131 is further reflected to the first surface 331, and is reflected by the first surface 331 to the first reflecting surface 3131, and a portion of the light is emitted from a surface of the second plate 33 opposite to the first surface 331, and so on. The light emitted from the opposite side of the second plate 33 to the first surface 331 is overlapped with the light and shadow emitted from the second plate 33 after multiple reflections between the first reflecting surface and the first surface, so as to form a second image with profound effect.

As shown in fig. 6 and 8, in one embodiment, the first plate 31 further includes a second light reflecting portion 317, and the second light reflecting portion 317 surrounds a peripheral side of the second light transmitting portion 315 away from the first light reflecting portion 313.

In this embodiment, the second light-transmitting portion 315 is located on a peripheral side of the first light-reflecting portion 313 away from the first light-transmitting portion 311; the second light reflecting portion 317 is located on a peripheral side of the second light transmitting portion 315 away from the first light reflecting portion 313. The second light transmitting portion 315 is located between the first light reflecting portion 313 and the second light reflecting portion 317, so that light entering between the first plate 31 and the second plate 33 from the second light transmitting portion 315 is reflected multiple times between the first light reflecting portion 313, the second light reflecting portion 317 and the first surface 331. The shape of the shadow that the user can observe is clearer, and the second image and the second light-transmitting portion 315 have better shape uniformity, and the user's look and feel is better.

In one embodiment, the surfaces of the first reflecting portion 313 and the second reflecting portion 317 away from the second plate 33 are opaque surfaces.

In this embodiment, since the surfaces of the first reflecting portion and the second reflecting portion far from the second plate body are opaque surfaces, the light emitted by the light source assembly 10 can only be emitted into the second plate body 33 from the first light transmitting portion and the second light transmitting portion, and the second plate body 33 reflects part of the light emitted to the second plate body 33 from the first surface 331 to the first reflecting surface, and part of the light is emitted from the surface of the second plate body 33 opposite to the first surface 331. Thus, the shape of the second image is correlated with the shape of the second light transmitting portion. The shape of the first image is related to the pattern shape of the display panel body and the shape of the light emitted from the light source assembly. Therefore, the first image and the second image seen by the user can be changed by changing the shape of the second light transmission part, changing the pattern shape of the display panel body and the shape of the light emitted by the light source assembly, personalized production can be carried out according to the preference of the user, and the satisfaction degree of the user is improved.

As shown in fig. 5 and 7, in one embodiment, the atmosphere lamp further includes a light guide bracket 50, and the light guide bracket 50 is located between the mounting plate 15 and the first light-transmitting portion 311, for separating the first light-emitting portion 11 from the second light-emitting portion 13.

The light guide bracket 50 is used for separating the first light-emitting part 11 from the second light-emitting part 13, so that mutual interference between light rays emitted by the first light-emitting part 11 and light rays emitted by the second light-emitting part 13 is avoided, and the first image and the second image are clearer and better in matching.

Specifically, the light guide bracket 50 is provided with a through groove 51, and a side wall 513 of the through groove 51 extends toward the first plate 31 and abuts against the surface of the first plate 31. Accordingly, the sidewalls 513 of the through grooves 51 can well prevent the light forming the first image and the light forming the second pattern from being mutually affected, so that the first image and the second image have better effects.

The light guide space 510 is surrounded by a side wall 513 of the light guide space 51, and the light guide space 510 is provided with a first opening and a second opening communicating with the light guide space 510, the first light emitting portion is located in the first opening, and the first light transmitting portion 311 covers the second opening. The light emitted from the first light emitting portion is irradiated to the first light transmitting portion 311 through the light guiding space 510.

The light emitted by the first light emitting portion irradiates the first light transmitting portion 311 through the light guiding space 510, passes through the first light transmitting portion 311, irradiates the second plate 33, and is emitted from a surface of the second plate 33 opposite to the first light transmitting portion 311, so that the first image is clearer. The light guide bracket is used for preventing interaction between the light emitted by the first light emitting part and the light emitted by the first light emitting part.

As shown in fig. 5 and 7, in one embodiment, a flange 515 is provided around the outside of the groove sidewall 513 of the through groove 51, and the flange 515, the groove sidewall 513, and the first plate 31 form a space for mounting the light diffusion plate 40. The flange portion, the groove side wall 513, and the limit space formed by the first plate body 31 enable the light diffusion plate to be stably mounted.

As shown in fig. 3, in one embodiment, the atmosphere lamp further includes a display film 70, the display film 70 is disposed on a surface of the third light-transmitting portion facing the first plate 31, and a light-homogenizing ink is printed on an outer surface of the display film 70.

In the embodiment, the display membrane has two functions, the first function is a dodging function, and the dodging ink is printed on the membrane, so that the display membrane has a good dodging effect; the first effect is to display, which can adjust the thickness, color and shade of the first image font by the film printing ink.

In one embodiment, the distance between the first plate 31 and the second plate 33 is in the range of: 1.25 mm-3 mm.

In this embodiment, since the light enters from the first plate body and has a distance from the second plate body, the first image has a hanging effect. The range of the distance between the first plate 31 and the second plate 33 is: when the thickness is 1.25 mm-3 mm, the display effect of the first image is good.

The embodiment of the application also provides a refrigerator 200, the refrigerator 200 comprises a refrigerator body 201 and a refrigerator door 203, the refrigerator door 203 is mounted on the refrigerator body 201, the refrigerator body 201 comprises a refrigeration air duct mask 205 and the atmosphere lamp 100 according to any embodiment, and the atmosphere lamp 100 is mounted on one side of the refrigeration air duct mask 205 facing the refrigerator door. Since the refrigerator 200 has the atmosphere lamp 100 according to any of the above embodiments, the refrigerator 200 has the advantages of any of the above embodiments, and will not be described herein. Since the atmosphere lamp 100 according to any of the above embodiments is mounted on the cabinet 201, when the user opens the refrigerator door, the second image is displayed in cooperation with the first image, and the second image surrounds the circumference of the first image, so that the first image has an effect of being suspended from the second image. And, because the light that the first luminous portion launched gets into from the first printing opacity portion of first plate body, have a distance between the second plate body, also can make the demonstration of first image have unsettled effect, user's visual experience is better.

In the embodiment of the application, the atmosphere lamp can be detachably connected with the cold air duct mask. Wherein, atmosphere lamp and cold-stored wind channel face guard can be buckle and connect. The atmosphere lamp and the cold-storage air duct mask can also be in screw connection and the like. In one embodiment, the atmosphere lamp and the cold air duct mask can be in a buckle connection,

In the foregoing embodiments, the descriptions of the embodiments are emphasized, and for parts of one embodiment that are not described in detail, reference may be made to related descriptions of other embodiments.

In the description of the present application, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more features.

The atmosphere lamp and the refrigerator provided by the embodiment of the application are described in detail, and specific examples are applied to the principle and the implementation of the application, and the description of the above embodiments is only used for helping to understand the method and the core idea of the application; meanwhile, as those skilled in the art will vary in the specific embodiments and application scope according to the ideas of the present application, the present description should not be construed as limiting the present application in summary.

Claims (10)

1. An atmosphere lamp for a refrigerator, comprising:

The light source assembly comprises a first light-emitting part and a second light-emitting part which are arranged at intervals;

The light guide module comprises a first plate body and a second plate body which are opposite and arranged at intervals, wherein the first plate body comprises a first light transmission part, a first light reflection part and a second light transmission part, the first light reflection part surrounds the periphery of the first light transmission part, the second light transmission part is arranged at one side of the first light reflection part, which is away from the first light transmission part, a first reflection surface is arranged at one side of the first light reflection part, which is towards the second plate body,

The second plate body and the first plate body are provided with a semi-transparent and semi-reflective part and a third light-transmitting part in parallel;

The first light-transmitting parts and the third light-transmitting parts are respectively arranged corresponding to the first light-emitting parts, the second light-transmitting parts and the second light-emitting parts are respectively arranged corresponding to the second light-emitting parts, and the first reflecting surface and the semi-transparent and semi-reflective parts are respectively arranged corresponding to the first light-transmitting parts and the second light-transmitting parts.

2. The atmosphere lamp according to claim 1, wherein the light source assembly further comprises a mounting plate and a control member, the first light emitting portion and the second light emitting portion are both provided to the mounting plate, and the control member is mounted to the mounting plate and electrically connected to the first light emitting portion and the second light emitting portion, respectively.

3. The atmosphere lamp according to claim 2, further comprising a light diffusion plate located between the second light transmitting portion and the second light emitting portion.

4. An atmosphere lamp as claimed in claim 3, further comprising a light guide bracket between the mounting plate and the first light-transmitting portion for separating the first and second light-emitting portions.

5. The atmosphere lamp according to claim 4, wherein the light guide bracket is provided with a through groove, the through groove is provided with a light guide space, and a first opening and a second opening which are communicated with the light guide space, the first light emitting part is positioned at the first opening, and the first light transmitting part is covered at the second opening.

6. The atmosphere lamp according to claim 5, wherein a flange portion is provided around an outer periphery of a groove side wall of the through groove, and the flange portion, the groove side wall, and the first plate form a limit space for mounting the light diffusion plate.

7. The atmosphere lamp according to claim 1, further comprising a second light reflecting portion surrounding a peripheral side of the second light transmitting portion remote from the first light reflecting portion.

8. The atmosphere lamp according to claim 1, further comprising a display film sheet provided on a surface of the third light-transmitting portion facing the first plate body, wherein a light-homogenizing ink is printed on an outer surface of the display film sheet.

9. An atmosphere lamp according to claim 1, wherein the light reflectance of the transflective portion is 60% -90%.

10. A refrigerator comprising a cabinet and a door, wherein the door is mounted on the cabinet, the cabinet comprises a refrigerating air duct mask and an atmosphere lamp as claimed in any one of claims 1 to 9, and the atmosphere lamp is mounted on one side of the refrigerating air duct mask facing the door.