CN215063180U - Refrigeration device - Google Patents

Abstract

The utility model provides a refrigeration appliance, including the box, be located the storage compartment of box is used for opening and closing the door body of storage compartment, the door body include first door and with first door swing joint's second door, first door is including open-ended storing chamber forward, the second door is used for opening and closing storing chamber, its characterized in that: the storage cavity comprises a rear wall facing the second door when the second door closes the storage cavity, and the rear wall comprises a mirror area. On the first hand, the light irradiating the mirror surface area can be reflected to other places of the storage cavity more, so that the brightness of other places is increased, and the storage cavity looks brighter; the second aspect, mirror area sets up at the rear wall that the user faced, and through mirror area's reflection, the spaciousness reinforcing, the storing chamber looks bigger, and user experience is better.

Description

Refrigeration device

Technical Field

The application relates to the technical field of household appliances, in particular to a refrigeration appliance.

Background

The existing part of the refrigeration appliance adopts the design of a door-in-door, namely, a storage space with a forward opening is arranged on a first door of the refrigerator, a second door can open and close the storage space, and the first door can open and close a storage chamber of the refrigeration appliance. In this way, a user can place or take objects into or out of the storage space without opening the storage compartment. However, the storage space is relatively narrow and objects therein are not easily visible in an environment with poor light.

SUMMERY OF THE UTILITY MODEL

It is an object of an embodiment of the present invention to provide an improved refrigeration appliance.

Another object of the embodiment of the present invention is to provide a refrigeration device which is beneficial to improving user experience.

An aspect of the utility model relates to a refrigeration device, including the box, be located the storage compartment of box is used for opening and closing the door body of storage compartment, the door body include first door and with first door swing joint's second door, first door is including opening storing chamber forward, the second door is used for opening and closing storing chamber, its characterized in that: the storage cavity comprises a rear wall facing the second door when the second door closes the storage cavity, and the rear wall comprises a mirror area. On the first hand, after the outer light and the inner light enter the storage cavity, the light irradiating the mirror surface area can be more reflected to other places of the storage cavity by the mirror surface, so that the illumination efficiency of the light and the brightness of other places are increased, and the storage cavity is brighter; in the second aspect, the reflecting action in mirror area improves visual effect, and the spatial impression in storing chamber is stronger, has promoted user experience.

In a possible embodiment, at least one storage is also included; the projection of at least one of the storage devices on the rear wall intersects the mirror area.

In a possible embodiment, the storage between the second door and the mirror area comprises a tray and a transparent storage box, the projection of which on the rear wall intersects the mirror area.

In a possible embodiment, a light-transmissive viewing window is further included in the second door.

In a possible embodiment, the projection area of the mirror area on the second gate intersects the viewing window.

In a possible embodiment, the rear wall also comprises a dummy area; the observation window is located in a projection area of the dummy area on the second door.

In a possible embodiment, the storage device further comprises an illumination assembly positioned in the storage cavity and used for providing illumination light rays for the storage cavity.

In a possible embodiment, the lighting assembly is located at a side wall and/or at a rear wall of the storage compartment.

In a possible embodiment, at least a part of said rear wall comprises a semi-transparent and semi-reflective mirror surface area; the reflection surface of the semi-transparent semi-reflecting mirror faces forwards; when the front light of the semi-transparent semi-reflecting mirror is brighter than the rear light, the semi-transparent semi-reflecting mirror reflects the light forwards; when the light behind the semi-transparent and semi-reflective mirror is brighter than the light in front, the light behind the semi-transparent and semi-reflective mirror penetrates through the semi-transparent and semi-reflective mirror to enter the storage cavity.

In a possible embodiment, the device further comprises a shell, a sliding groove and a sliding rail; the semi-transmitting and semi-reflecting mirror is connected with the shell; one of the sliding chute and the sliding rail is positioned on the storage cavity, and the other of the sliding chute and the sliding rail is positioned on the shell; the slide rail is inserted into the slide groove to mount the housing to the storage cavity.

In a possible embodiment, one of the sliding rail and the sliding groove is positioned on the side wall of the storage cavity, and the other of the sliding rail and the sliding groove is positioned on the side edge of the shell; and/or, the storing chamber still includes the backplate, slide rail with one in the spout is located on the storing chamber backplate, slide rail with another in the spout is located the back of casing.

In a possible embodiment, the light-emitting device further comprises a light-emitting unit positioned behind the half mirror.

In a possible embodiment, the device further comprises a light emitting unit positioned behind the half mirror; the light-emitting unit is clamped between the semi-transparent semi-reflecting mirror and the shell.

In a possible embodiment, the light-shielding coating is positioned on the surface of the half-mirror; when the light rays behind the semi-transparent and semi-reflective mirror are brighter than the light rays in the front direction, the shading coating shades a local area so that the light rays behind the semi-transparent and semi-reflective mirror cannot enter the storage cavity from the shaded part.

In a possible embodiment, the mirrored surface comprises one or more of a mirror, a reflective sticker, a reflective coating, or a metalized finish.

In a possible embodiment, the light emitting unit includes a light guide plate and a lamp; the light guide plate is positioned behind the semi-transparent semi-reflecting mirror, and the lamp is positioned on the side edge of the light guide plate; when the lamp is on, light rays of the lamp enter the light guide plate from the side edge of the light guide plate and are diffused in the light guide plate, and light diffused by the light guide plate passes through the semi-transparent semi-reflective mirror and then enters the storage cavity.

Drawings

Fig. 1 is a schematic structural view of a refrigeration device according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of a door body of a refrigeration appliance according to an embodiment of the present invention.

Fig. 3a to 3c are schematic structural views of longitudinal sections of the door body of the refrigeration appliance according to the embodiment of the present invention.

Fig. 4a and 4b are schematic diagrams of a half-mirror principle and an illumination assembly according to an embodiment of the present invention.

Fig. 5 is a schematic structural view of a transverse section of a door body of a refrigeration appliance according to an embodiment of the present invention.

Fig. 6 is a partially enlarged view of the circle in fig. 5.

Detailed Description

The technical solutions of the present application are described clearly and completely by the following specific examples, and it is obvious that the described examples are some, but not all, of the examples of the present application. 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 application.

Embodiments of the present invention provide one or more refrigeration appliances 100, and the refrigeration appliance 100 can be a household or commercial refrigerator or wine cabinet.

As shown in fig. 1, the refrigeration device 100 includes a cabinet 1 and a door 3; the refrigeration appliance 100 further comprises a storage compartment 30, the storage compartment 30 being used by a user for placing articles; the door 3 can be moved relative to the cabinet 1 of the refrigeration device 100 to open and close the storage compartment 30.

Referring to fig. 2, the door 3 may include a first door 4 and a second door 5, and the first door 4 has a storage chamber 6 recessed toward the inside of the refrigerator 100.

The first door 4 can be moved relative to the cabinet 1 of the refrigeration appliance 100 to open and close the storage compartment 30.

The second door 5 is movable relative to the first door 4 of the refrigeration appliance 100 to open and close the storage compartment 6.

The first door 4 and the box body 1 and the second door 5 and the first door 4 can be hinged or connected by a sliding groove 17 and a sliding rail 18, so that the first door 4 can rotate or translate relative to the box body 1 and the second door 5 can rotate or translate relative to the first door. So arranged, a user can selectively open the storage cavity 6 or the storage compartment 30.

The opening of the storage chamber 6 faces forward, and a user can conveniently open and close the storage chamber 6.

The storage cavity 6 has a wall defining an inner space thereof, the wall of the storage cavity 6 includes a rear wall 7 and a side wall 14, and the side wall 14 may include a side wall 14 in a left-right direction and a side wall 14 in an up-down direction; the side walls 14, the rear wall 7 and the second door 5 together define a storage compartment 6.

The rear wall 7 faces the second door 5 when the second door 5 is in the closed position.

On the rear wall 7 of the storage chamber 6, a mirror area 8 is also provided.

The mirror surface area 8 is arranged in the storage cavity 6, and on the first hand, the light reflection capacity of the storage cavity 6 is provided; after the light enters the storage cavity 6, more light irradiating the mirror surface area 8 can be reflected to other places of the storage cavity 6, so that the brightness of other places is increased, and the interior of the storage cavity 6 looks brighter; in the second aspect, the mirror surface area 8 is arranged on the rear wall 7 facing the user, the space sense is enhanced through the reflection of the mirror surface area 8, the storage cavity 6 looks bigger, and the user experience is better.

It will be appreciated that the mirror area 8 covers all or a part of the rear wall 7, and the object of the embodiment is still achieved.

The mirrored surface 8 on the rear wall 7 may be realized in some form of mirror, reflective sticker, reflective coating or metallic finish, or may be realized in different areas in a selection of two or more forms. The storage compartment 6 illustratively comprises a back panel, the front of which is affixed with a reflective mirror, sticker, or painted reflective coating, or by a plating, polishing process to form the mirrored surface area on the front of the back panel, it being understood that the front of the back panel may form part of the rear wall 7.

Specifically, a reflector can be arranged in the storage cavity 6, and the reflecting surface faces forwards; or, a reflective sticker, a reflective coating and a reflective coating are pasted on the rear wall 7 of the storage cavity 6 to achieve the mirror reflection effect; or the rear wall 7 of the metal is polished with the polishing surface facing forward.

The mirror may be replaced with a half mirror 15, and the side having a high reflectance faces forward.

The reflective mirror, the semi-transparent semi-reflective mirror 15, the reflective sticker, the reflective coating, the metal polished surface and other forms can be directly formed on the rear wall 7, and the plate bodies can be fixed to the storage cavity 6 by adopting the modes of adhesion, threaded connection, buckle connection, sliding groove 17, sliding rail 18 matching connection and the like after being formed on other plate bodies.

In one or more possible implementations, as shown in fig. 2, 3a-3c, the refrigeration appliance 100 further includes a reservoir 9.

The storage 9 is arranged in the storage chamber 6, and the projection of the storage 9 on the rear wall 7 intersects with the mirror surface area 8. The information of the backward side of the article placed in the storage 9 is reflected on the mirror surface area 8, so that the user can conveniently see the information of the backward side of the article, and the user can conveniently find the article.

Further, the storage 9 comprises a tray 10 and a storage box 11, the storage box 11 is made of transparent material, and the projection of the storage box 11 on the rear wall 7 intersects with the mirror surface area 8. The light from the back of the storage device 9 can penetrate through the transparent material to enter the storage box 11, the storage device 9 is brighter, and information on the back side of an article blocked by the wall of the storage device 9 can be reflected in the mirror, so that a user can conveniently find the article.

In one or more possible implementations, as shown with reference to fig. 2, 3a-3c, the refrigeration appliance 100 further includes a viewing window 12 located in the second door 5, the viewing window 12 being light transmissive.

The transparent observation window 12 is arranged, so that a user can see objects in the storage cavity 6 through the observation window 12 under the condition that the second door 5 is not opened, and the operation is very convenient. In particular, at least part of the light entering the receiving cavity through the viewing window 12 is reflected by the mirror area 8, and the receiving cavity is brighter.

By the external light through the viewing window 12 and the action of the mirror area 8, the visibility of the storage chamber 6 can be improved even without an additional light source illuminating the storage chamber 6. The use of electric power light sources in the storage cavity 6 is reduced, so that the energy conservation and the environmental protection are possible.

At the same time, it also makes it possible to reduce the cost of the refrigeration device 100. For example, even if the area of the light transmission window is reduced, the brightness in the accommodating cavity can still maintain the original level.

Exemplarily, referring to fig. 3c, the projected area of the mirror area 8 on the second door 5 intersects the viewing window 12. That is, at least a part of the specular area 8 is visible when looking straight through the observation window 12. On one hand, external light can directly irradiate the mirror surface area 8 through the observation window 12, so that the reflection effect is better; on the other hand, the user can see the items between the viewing window 12 and the mirror area 8 more clearly and more clearly.

Illustratively, referring to fig. 3b, the rear wall 7 further includes a dummy area 24, and the observation window 12 is located in a projection area of the dummy area 24 on the second door 5. When a user looks straight at the storage cavity 6 from the observation window 12, the light reflecting capacity of the matte area 24 is weak, and the storage cavity cannot be too dazzling; and the texture of the storage chamber 6 can be increased.

In one or more possible implementations, as shown with reference to fig. 2, 3a-3c, the refrigeration appliance 100 further includes a lighting assembly 13 located in the storage compartment 6.

The illumination assembly 13 may provide illumination to the storage chamber 6.

After the light of the lighting assembly 13 is reflected by the mirror surface area 8, the brightness of the storage cavity 6 can also be increased.

This means that the brightness or power of the lighting assembly 13 can be properly reduced without affecting the lighting effect in the case of the mirror surface area 8, which is more energy-saving and environment-friendly.

The illumination assembly 13 may be located in any convenient location within the storage compartment 6. Illustratively, as shown in fig. 2, the lighting assembly 13 may be disposed on the side wall 14 or the rear wall 7 of the receiving cavity, or on the storage container 9. Specifically, the lamp panel, the lamp strip or the lamp bead can be embedded into the wall; the lamp can be attached to the wall surface or mounted in the accommodating cavity through screws and fasteners.

By way of example, with reference to fig. 2, 3a-3c, the lighting assembly 13 and the mirror area 8 are arranged on the rear wall 7 of the receiving space. The mirror area 8 may occupy a part of the surface of the rear wall 7 and the lighting assembly 13 may be located in other parts not occupied by the mirror area 8; alternatively, the lighting assembly 13 is located on the surface of the mirror surface area 8, for example, embedded in the mirror surface area 8, or attached to the mirror surface area 8 or mounted to the mirror surface area 8 by screws or snaps.

Therefore, the storage space of the storage cavity 6 is positioned between the outer door and the lamp and mirror surface area 8, a better lighting effect is achieved in the storage cavity 6, and a user can easily see objects placed in the storage space.

As mentioned above, the lighting assembly 13 may also be on the side wall 14 of the storage compartment 6. This is a very convenient way of implementation, in case the rear wall 7 is already provided with a mirror area 8, the lighting assembly 13 can be arranged on the side wall 14 in order to avoid damaging the mirror area 8 or affecting the reflection effect, the freedom of the way and the location of mounting the lighting assembly 13 on the side wall 14 is greater.

In one or more possible embodiments, referring to fig. 3c, the mirror area 8 of the refrigeration appliance 100 comprises the mirror area 8 which is at least partially a half-mirror 15.

The half mirror 15 is an optical element that, when viewed from the reflection direction, has a visual effect similar to a mirror and reflects an image of an object in front of the mirror; however, light can pass through the half mirror 15 from the transmission direction.

The principle of the half mirror 15 has been explained above, and the reflection surface of the half mirror 15 is directed forward, and the direction from the front to the back is the reflection direction and the direction from the back to the front is the transmission direction.

Under normal conditions, the light in the storage chamber 6 is brighter than the light behind the half mirror 15, and at this time, the light in the storage chamber 6 is reflected forward by the half mirror 15.

If the light ray behind the semi-transparent and semi-reflective mirror 15 is brighter than the light ray in the storage cavity 6, the light ray behind the semi-transparent and semi-reflective mirror 15 enters the storage cavity 6 along the transmission direction, and illumination light rays can be provided in the storage cavity 6.

Those skilled in the art will appreciate that better transmission or reflection can be achieved by adjusting the refractive index of the mirror body than that of the half mirror 15. Illustratively, the reflective film sequentially comprises at least a first light-transmitting layer and a second light-transmitting layer along the reflection direction, wherein the refractive index of the first light-transmitting layer is smaller than that of the second light-transmitting layer, for example, the first light-transmitting layer is silica glass, and the second layer is niobium oxide glass.

A light emitting unit 20 may be disposed behind the half mirror 15, and when the light emitting unit 20 operates, light rays behind the half mirror 15 are brighter than light rays in front of the half mirror 15, and light from the light emitting unit 20 passes through the half mirror 15 and enters the storage chamber 6. When the light emitting unit 20 is not operated, the front light of the half mirror 15 is brighter than the rear light, and the half mirror 15 reflects the light forward to present the reflecting effect of the mirror.

Referring to fig. 5-6, the half mirror 15 can be mounted to the refrigeration appliance 100 by means of the housing 16. The transflective mirror may be affixed to or embedded in the housing 16; on one of the housing 16 and the wall of the storage chamber 6 there is a slide rail 18 and on the other of the housing 16 and the wall of the storage chamber 6 there is a slide groove 17, the slide rail 18 being insertable into the slide rail 18 to mount the housing 16 to the storage chamber 6.

Further, as shown in fig. 6, one of the slide rail 18 and the slide groove 17 is located on the side wall 14 of the storage cavity 6, and the other of the slide rail 18 and the slide groove 17 is located on the side of the housing 16; and/or, not shown in the figures, the storage chamber 6 further comprises a back plate, one of the slide rail 18 and the slide groove 17 is positioned on the back plate of the storage chamber 6, and the other of the slide rail 18 and the slide groove 17 is positioned on the back surface of the shell 16.

Referring to fig. 6 and 4a-4b, the light emitting unit 20 can be clamped between the half mirror 15 and the housing 16, and the light emitting unit 20 is also installed in place during the process of installing the housing 16 to the storage chamber 6, thereby simplifying the assembling operation.

With continued reference to FIGS. 4a-4b, a light-blocking coating 21 may be provided on the surface of the transflective mirror. When the light behind the half mirror 15 is brighter than the light in front, the light-shielding coating 21 can prevent the light from entering the accommodating cavity through the half mirror 15. The shading area of the shading coating 21 can be flexibly arranged, for example, the shading coating 21 is arranged according to a certain pattern in a local area, so that a certain shape can be shown on the rear wall 7 of the storage cavity 6, and a certain interest is increased.

The half mirror 15 may include a light guide plate 22 and a half reflection layer 23 in front of the light guide plate 22. The lighting assembly 13 may include a lamp located at a side of the light guide plate 22; after the lamp is turned on, the light enters the light guide plate 22 from the side edge of the light guide plate 22 and is diffused in the light guide plate 22, and the diffused light passes through the half mirror 15 and enters the storage cavity 6.

It should be noted that the above description of the embodiments of the present invention is made with reference to the direction of the refrigeration device 100 during normal use.

Although specific embodiments have been described above, these embodiments are not intended to limit the scope of the disclosure, even if only a single embodiment is described with respect to a particular feature. The characteristic examples provided in the present disclosure are intended to be illustrative, not limiting, unless differently stated. In particular implementations, the features of one or more dependent claims may be combined with those of the independent claims as technically feasible according to the actual requirements, and the features from the respective independent claims may be combined in any appropriate manner and not merely by the specific combinations enumerated in the claims.

The various embodiments described above and shown in the accompanying drawings are illustrative of the present application and are not intended to be exhaustive of the application. Any modification of the present application made by a person of ordinary skill in the related art within the scope of the basic technical idea of the present application is within the scope of the present application.

Claims (16)

1. A refrigeration appliance (100) comprising a cabinet (1), a storage compartment (30) located in the cabinet, and a door body (3) for opening and closing the storage compartment (30), wherein the door body (3) comprises a first door (4) and a second door (5) movably connected with the first door (4), the first door (4) comprises a storage chamber (6) opening forward, and the second door (5) is used for opening and closing the storage chamber (6), characterized in that: the storage cavity (6) comprises a rear wall (7) facing the second door (5) when the second door (5) closes the storage cavity (6), and the rear wall (7) comprises a mirror surface area (8).

2. The refrigeration appliance (100) according to claim 1, wherein: also comprises at least one storage container (9); the projection of at least one of the storage devices (9) on the rear wall (7) intersects the mirror area (8).

3. The refrigeration appliance (100) according to claim 2, wherein: the storage device (9) located between the second door (5) and the mirror surface area (8) comprises a tray (10) and a transparent storage box (11), and the projection of the storage box (11) on the rear wall (7) and the mirror surface area (8) form an intersection.

4. The refrigeration appliance (100) according to claim 1, wherein: further comprising a light-transmitting viewing window (12) in said second door (5).

5. The refrigeration appliance (100) according to claim 4, wherein: the projection area of the mirror area (8) on the second door (5) intersects the observation window (12).

6. The refrigeration appliance (100) according to claim 4, wherein: the rear wall (7) further comprises a dummy area (24); the observation window (12) is located in a projection area of the dummy area (24) on the second door (5).

7. The refrigeration appliance (100) according to any of claims 1 to 6, wherein: the storage device is characterized by further comprising an illumination assembly (13) positioned in the storage cavity (6), wherein the illumination assembly (13) is used for providing illumination light rays for the storage cavity (6).

8. The refrigeration appliance (100) according to claim 7, wherein: the lighting assembly (13) is located at a side wall (14) and/or a rear wall (7) of the storage chamber (6).

9. The refrigeration appliance (100) according to claim 1, wherein: at least a part of the rear wall (7) comprises a half-mirror (15) mirror area (8); the reflection surface of the semi-transparent semi-reflecting mirror faces forwards; when the front light of the half-transmitting and half-reflecting mirror (15) is brighter than the rear light, the half-transmitting and half-reflecting mirror (15) reflects the light forwards; when the light behind the semi-transparent and semi-reflective mirror (15) is brighter than the light in front, the light behind the semi-transparent and semi-reflective mirror (15) penetrates through the semi-transparent and semi-reflective mirror (15) to enter the storage cavity (6).

10. The refrigeration appliance (100) according to claim 9, wherein: the device also comprises a shell (16), a sliding chute (17) and a sliding rail (18); the semi-transparent semi-reflecting mirror (15) is connected with the shell (16); one of the sliding groove (17) and the sliding rail (18) is positioned on the storage cavity (6), and the other one of the sliding groove (17) and the sliding rail (18) is positioned on the shell (16); the sliding rail (18) is inserted into the sliding groove (17) to mount the housing (16) to the storage chamber (6).

11. The refrigeration appliance (100) according to claim 10, wherein: one of the sliding rail (18) and the sliding groove (17) is positioned on the side wall (14) of the storage cavity (6), and the other one of the sliding rail (18) and the sliding groove (17) is positioned on the side of the shell (16); and/or the storage cavity (6) further comprises a back plate (19), one of the sliding rail (18) and the sliding groove (17) is positioned on the back plate of the storage cavity (6), and the other of the sliding rail (18) and the sliding groove (17) is positioned on the back surface of the shell (16).

12. The refrigeration appliance (100) according to any of claims 9 to 11, wherein: the light-emitting device also comprises a light-emitting unit (20) positioned behind the half-transmitting and half-reflecting mirror (15).

13. The refrigeration appliance (100) according to any of claims 10 to 11, wherein: the light-emitting unit (20) is positioned behind the half-transmitting and half-reflecting mirror (15); the light emitting unit (20) is sandwiched between the half mirror (15) and the housing (16).

14. The refrigeration appliance (100) according to any of claims 9 to 11, wherein: the light shading coating (21) is positioned on the surface of the half-transmitting and half-reflecting mirror (15); when the light rays behind the half-transmitting and half-reflecting mirror (15) are brighter than the light rays in the front direction, the shading coating (21) shades a local area so that the light rays behind the half-transmitting and half-reflecting mirror (15) cannot enter the storage cavity (6) from the shaded local area.

15. The refrigeration appliance (100) according to any of claims 1 to 6, wherein: the mirror surface area (8) comprises one or more of a reflector, a reflective sticker, a reflective coating, a reflective plating layer or a metal polished surface.

16. The refrigeration appliance (100) according to claim 13, wherein: the light emitting unit (20) includes a light guide plate (22) and a lamp (25); the light guide plate (22) is positioned behind the half-transmitting and half-reflecting mirror (15), and the lamp (25) is positioned on the side edge of the light guide plate (22); when the lamp (25) is on, light of the lamp (25) enters the light guide plate (22) from the side edge of the light guide plate (22) and is diffused in the light guide plate (22), and light diffused by the light guide plate (22) passes through the half-transmitting and half-reflecting mirror (15) and then enters the storage cavity (6).

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