The present invention relates generally to a domestic cooling device which is equipped with a wall light for illuminating a cold chamber of the domestic cooling device.
Domestic refrigerators are typically provided with one or more lights, the purpose of which is to light a cold chamber of the refrigerator when the refrigerator door is open, so that the user has a better view of the foods stored in the cold chamber. A type of light that is conventionally used is a wall light, which is mounted on an insulating wall, adjoining the cold chamber, of an insulating housing of the refrigerator.
An object of the invention is to show a way in which, in a domestic cooling device, a wall light can be produced in a structurally simple manner and with low production costs.
In order to achieve that object there is provided a domestic cooling device which comprises an insulating wall, a cold chamber adjoining the insulating wall, and a wall light arranged on the insulating wall for illuminating the cold chamber. The wall light comprises at least one light source, in particular of the LED type, a window element which forms a transparent window region through which light generated by the wall light emerges into the cold chamber, and a reflection surface, in particular having a diffusely reflecting action, which is arranged in front of the window element in the propagation path of at least a portion of the light radiation coming from the light source. The insulating wall comprises an inner lining part adjoining the cold chamber and an insulating foam material arranged behind the inner lining part. An opening is formed in the inner lining part, at least a portion of the reflection surface being arranged within the contour of the opening. According to the invention, at least a portion of the reflection surface is formed by a cover part which covers the opening and with which the insulating foam material is in contact. In particular, the reflection surface can be formed wholly by the cover part.
Particular embodiments of the invention are based on the idea of using a component that is conventionally employed in the production of the insulating wall, namely in the filling of a space situated behind the inner lining part with an insulating foam material, also to form the reflection surface of the wall light. In order to prevent the insulating foam material from escaping from the insulating wall through the opening during the foaming operation, a cover part which covers the opening is conventionally fixed to the inner lining part. According to the invention, such a cover part can serve as the reflector of the wall light. A separate, additional reflector is therefore unnecessary. This reduces the total number of components required and has an advantageous effect on the production costs of the wall light and of the cooling device as a whole. The cover part is, for example, a plastics component which, where it forms the reflection surface, can be designed with the surface condition required for the desired reflection behaviour. If the reflection surface (or at least a part-region thereof) is to have a scattering action, the cover part can be designed, for example, with a suitably matt appearance or/and a suitable surface roughness in the (part-)region of reflection surface.
In particular embodiments, the cover part is attached to the inner lining part from the side of the inner lining part that is remote from the cold chamber. The cover part can extend beyond the opening all round on the side of the inner lining part that is remote from the cold chamber. For example, the cover part can be fixed to the inner lining part by adhesive bonding means. The adhesive bonding means can comprise an adhesive by means of which the cover part is adhesively bonded directly to the inner lining part. Alternatively or in addition, the adhesive bonding means can comprise a tape material that is adhesive on one side or on both sides, by means of which it is possible to fix the cover part to the inner lining part.
In particular embodiments, the cover part forms a hollow, wherein at least a portion of the reflection surface, in particular substantially the entire reflection surface, is arranged in the hollow. By using techniques of injection moulding or deep drawing, there is wide scope in the configuration of the shape of the hollow.
In particular embodiments, the window region extends over at least a portion of the hollow. In order that the wall light protrudes only slightly from the inner lining part, it is advantageous if the light source and/or a circuit board on which the light source is mounted is arranged so that it is recessed at least in part, in particular substantially completely, in the hollow.
In particular embodiments, the hollow is in the form of a groove, wherein, when viewed in the groove cross-section, it has two opposite flank regions of different flank steepness. The light source can be arranged closer to the steeper of the two flank regions. If a plurality of light sources are present, they are arranged in a row spaced apart one behind the other in the longitudinal direction of the groove.
In particular embodiments, the light source and the window element are part of a preassembled light subassembly which is connected, in particular releasably connected, to the cover part from the side of the inner lining part that faces the cold chamber. The cover part itself is not part of the light subassembly; only when the light subassembly is attached to the inner lining part from the side thereof that faces the cold chamber does the cover part come into engagement with the light subassembly and be connected thereto. For example, the light subassembly or/and the cover part can be designed with at least one locking hook which engages behind a locking shoulder formed on the respective other component of the light subassembly and the cover part.
In particular embodiments, the wall light has a frame region which extends all round the window region and has a visible surface, facing towards the cold chamber, which contrasts visually with the window region, wherein the window region and the frame region are formed integrally in one piece and the frame region is formed of a different-coloured material to the window region or/and the visible surface has a different surface condition to the window region. Such an integral one-piece form of the window region and the frame region is also considered to be patentable on its own, independently of the use of the cover part as the reflector of the wall light. For example, the frame region and the window region can be manufactured from the same transparent plastics material, wherein the resulting plastics body is surface-treated, for example roughened, in the region of the visible surface in order to reduce or even completely eliminate the transparency in the region of the visible surface.
In particular embodiments, the wall light comprises a first light part which comprises at least the window element, in particular also the light source, and a second light part which is structurally separate from the first light part and forms at least a portion of the reflection surface. The second light part extends beyond the opening on the side of the inner lining part that is remote from the cold chamber, in particular all round. The first light part and the second light part are designed with cooperating connecting structures, which allow the two light parts to be releasably connected, for example interlocked, by attachment of the first light part to the second light part from the side of the inner lining part that faces the cold chamber. This aspect too, which is based on attaching the two light parts to the inner lining part not from the same side (namely the side that faces the cold chamber) of the inner lining part but from opposite sides of the inner lining part, is considered to be patentable on its own, independently of the use of the cover part as the reflector of the wall light.
The invention further provides a method which is used in the production of a domestic cooling device, in particular of a cooling device of the type described hereinbefore. The method comprises the steps: providing an inner lining part provided with an opening, a cover part, and a preassembled light subassembly which is separate from the cover part and comprises at least one light source and also a window element forming a transparent window region; fixing the cover part to a first side of the inner lining part so that the cover part covers the opening; attaching the light subassembly to the inner lining part from an opposite second side of the inner lining part in order to bring the light subassembly into holding engagement, in particular releasable holding engagement, with the cover part; and filling a space situated on the first side of the inner lining part with an insulating foam material so that the insulating foam material is in contact with the cover part.
The invention will be explained further hereinbelow with reference to the accompanying drawings.
Reference will first be made to
When the door 24 is open (as shown in
For further details of the wall lights 26, reference will now additionally be made to
In the frame region 40, the module body 34 can consist of the same material as in the window region 38, whereby, in order to achieve the desired visual contrast between the visible surface 42 and the window region 38, the visible surface 42 can have been subjected to a surface treatment. The surface treatment can comprise, for example, a coating with a coloured lacquer or with a coating having a metallic appearance (galvanisation). Alternatively, the frame region 40 can have been subjected to roughening of its surface in the region of the visible surface 42 so that the transparency in that region is reduced or even eliminated completely as compared with the window region 38.
Another possibility consists in producing the module body 34 from plastics materials of different kinds in a multi-component injection-moulding process, a transparent plastics material being used for the window region 38 and a non-transparent plastics material being used for the frame region 40 and any other regions of the module body 34.
A further component of the wall light 26 is a cover part 44, which is separate from the lighting module 34 and forms a hollow 46 in which the circuit board 30 with the light sources 32 mounted thereon is received when the wall light 26 is assembled. In the final mounted state, the wall light 26 is arranged on an insulating wall 48 (
The cover part 44 forms a second light part within the meaning of the invention and has an edge portion 62 running all round the opening 56, with which the cover part 44 is attached to the inner lining part 50 on the side thereof that is remote from the cold chamber. In this manner, the opening 56 is covered completely by the cover part and closed. The surfaces at which the edge portion 62 and the inner lining part 50 are in contact with one another can be provided with an adhesive in order to fix the cover part 44 to the inner lining part 50. Alternatively or in addition, adhesive strips of tape material can be used for fixing the cover part 44 to the inner lining part 50. In the subsequent final mounted state, it is not possible to remove the cover part 44 from the cold chamber 22 without damaging the wall light 26. Only the lighting module 28 can be removed from the cold chamber 22, for example in order to allow the circuit board 30 to be replaced if one or more of the light sources 32 mounted thereon have failed.
An arrangement of one or more locking hooks 64 is formed on the module body 34 or/and on the cover part 44. In the example shown, a plurality of such locking hooks 64 are formed on the module body 34. Each locking hook has a hook nose 64-1 with which the locking hook 64 in question snaps behind a locking shoulder 65 (see in particular
During production of the refrigerator 26, the space between the inner lining part 50 and the outer lining part 52 is only filled with foam once the cover part 44 has been positioned over the opening 56 on the inner lining part 50 and fixed thereto. The lighting module 28 can likewise be inserted into the opening 26 and connected to the cover part 44 before the foaming operation. It is, however, also possible to mount the lighting module 28 on the insulating wall 48 only after the foaming operation. The insulating foam material 54 reaches right up to the cover part 44 and covers it substantially completely on the side of the cover part 44 that is remote from the cold chamber 22.
The hollow 46 of the cover part 44 is in the form of a groove-like depression which has a substantially constant groove cross-section in the groove longitudinal direction and, when viewed in the groove cross-section (according to the representation of
The circuit board 30 is so oriented that a portion of the light radiation emitted by the light sources 32 first strikes the reflection surface 58, where it is scattered. Only then does the resulting scattered radiation (represented by the arrows 60) leave the wall light 26 through the window region 38. Another portion of the light radiation emitted by the light sources 32 strikes the window region 38 directly, as is illustrated in
Because the reflection surface 58 is provided directly on the cover part 44, the wall light 26 does not require a separate reflector body, which would have to be provided in addition to the cover part 44. This lowers the outlay for the wall light 26 in terms of components and reduces the production costs thereof.
Although the preferred embodiments of the present invention have been described herein, the above description is merely illustrative. Further modification of the invention herein disclosed will occur to those skilled in the respective arts and all such modifications are deemed to be within the scope of the invention as defined by the appended claims.
Number | Date | Country | Kind |
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10 2018 003 587 | May 2018 | DE | national |
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German search results in priority application DE 10 2018 003 587.6, dated Jul. 12, 2018. |
Number | Date | Country | |
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20190339003 A1 | Nov 2019 | US |