EP2500679A2 - Insulation element, in particular for a refrigeration and/or freezer device - Google Patents

Abstract

The element (100) has a vacuum insulation panel element (110), a compensating element i.e. compensating layer (120), and a contact surface contacting a surface of a refrigeration and/or freezer device, where the insulation element is adapted to the surface that is formed as a structured and/or uneven surface or surface provided with layers. The vacuum panel element is designed as a rectangular or square-shaped vacuum insulation panel. The compensating element has a partially flexible supporting layer i.e. plastic film, and a gas blanket arranged in a sealed container i.e. sealed film bag.

Description

The present invention relates to an insulating element, a refrigerator and / or freezer and the use of an insulating element for a refrigerator and / or freezer.

Vacuum Insulated Panels (also known as VIP Vacuum Insulated Panels) are highly efficient thermal insulation materials that exploit the principle of vacuum thermal insulation. They consist of a porous core material, which serves inter alia as a supporting body for the present in the vacuum insulation panel vacuum and a high-density shell, which prevents gas entry into the insulation board. With vacuum insulation panels, thermal conductivities of, for example, less than 0.004 W · m ^-1 · K ^-1 can be realized.

Vacuum insulation panels consist of an open-pore supporting core, a high-density enveloping system and optionally a material which serves as a dryer or getter for binding gas molecules. Dryer binds the water vapor that passes through the shell, getters bind the gas molecules contained in the air, mainly nitrogen and oxygen, by chemical means, but not the noble gas atoms, especially argon. The different ones Composition of these ingredients affects the thermal conductivity and life of the vacuum insulation panel.

The support core of a vacuum insulation panel must meet various requirements. On the one hand, it has to withstand the air pressure on the surface of the vacuum insulation panel (about 100,000 N · m ^-2 ). On the other hand, he must be evacuated, so consist of an open-pored material. The larger the pores of the material, the higher the vacuum requirements for achieving lowest thermal conductivities. The requirements for the applied vacuum are characterized by the half-value pressure, that is the pressure at which the thermal conductivity of the air in the material is exactly half the thermal conductivity of static air (0.026 W · m ^-1 · K ^-1 ). In addition to the compressive strength and the highest possible half-value pressure, the support core of a vacuum insulation panel must have the lowest possible heat transfer through solid-state thermal conductivity and thermal radiation. Various classes of materials are suitable as a support core for the production of vacuum insulation panels, namely in particular open-cell plastic foams, microfiber materials, fumed silicas and perlites.

Such vacuum insulation panels are basically manufactured and production-related in rectangular plate contour. Therefore, a vacuum insulation panel can be placed only on surfaces having a correspondingly flat and sufficiently large surface.

In refrigerators and / or freezers, it is known to use insulating elements. In this case, however, the use of vacuum insulation panels is difficult or sometimes not possible because the components of a cooling device, which come for the attachment of a vacuum insulation panel in question, at least in subarea clearly structured surface such as slopes, steps and / or other unevenness.

Object of the present invention is therefore to further develop an insulating element, a refrigerator and / or freezer and the use of an insulating element for a refrigerator and / or freezer of the type mentioned in an advantageous manner, in particular to the effect that these universal and structured Surfaces are applied.

This object is achieved by an insulating element with the features of claim 1. Thereafter, it is provided that an insulating element is provided with at least one Vakuumisolationspaneelelement and at least one compensating element, wherein the insulating element has a bearing surface for resting on a surface and wherein the insulating element means the compensation element is adapted to the specific surface for the support surface of the insulating element surface.

The surface is in particular a structured and / or uneven and / or provided with steps surface. Furthermore, it is preferably provided that the vacuum insulation panel element is a vacuum insulation panel. In particular, the insulating element is an insulating element for a refrigerator and / or freezer.

Due to the insulating element according to the invention, it is advantageously possible to use vacuum insulation panel now also on surfaces that are not suitable due to their structuring and unevenness in itself for the attachment of a Vakuumisolationspaneelelementes. It is now not necessary to provide structured surfaces on which vacuum insulation panels are to be applied, only in the flat partial surfaces with vacuum insulation panel. According to the invention, it is thus no longer due to an interrupted occupancy of the structured surface to a reduction of the insulation effect, but the insulation effect can advantageously according to the invention be provided substantially uniformly over the entire structured surface. Also is the Production costs significantly reduced, because the structured surface can now be covered with a single insulating element.

By adapting the insulating element to the surface to be coated with the insulating element, there is the further advantage that, for example, recessed contour regions, which can not be foamed due to the support of the insulating element, are nevertheless stabilized, which is the case, for example, in support ribs of an inner container of a cooling and / or or freezer is beneficial. Because the insulation element according to the invention, which is placed on the outside of the inner container, can be adapted to the wells of the support ribs of the inner container and thereby stabilize.

Furthermore, it can be provided that the compensation element is and / or comprises a compensation layer, wherein the compensation element preferably has substantially the same dimensions as the vacuum insulation panel element. By leveling a particularly simple and advantageous adaptation of the surface of the insulating element to the structured surface to be occupied is possible.

It is also conceivable that the compensating layer comprises a viscous gel, a deformable mass, a deformable and / or powdery bulk material and / or gas cushion, which is preferably arranged in at least one sealed container, in particular a dense foil bag. For example, the deformable mass may be designed in the manner of a plasticine. This deformable, preferably soft mass could in a layer thickness, which is tuned to the surface structures to be compensated, open on z. B. a cover sheet or surface of the Vakuumisolationspaneelelementes be attached or applied. The viscous gel, the deformable and / or powdered bulk material and / or the gas cushion could by means of z. B. a dense foil bag mounted on the vacuum insulation panel element or applied. In addition, it can be provided that the compensation element comprises an at least partially flexible carrier layer.

Furthermore, it is conceivable that a plurality of vacuum insulation panel elements are arranged on the carrier layer.

It is possible for the vacuum insulation panel elements to be arranged at least partially mosaic-like on the carrier layer and / or for the vacuum insulation panel elements to be at least partially substantially rectangular, preferably square.

It can be provided that the carrier layer is an elastic film means and / or comprises, wherein preferably the carrier layer is an elastic plastic film and / or comprises.

Furthermore, the present invention relates to a refrigerator and / or freezer with the features of claim 8. Thereafter, it is provided that a refrigerator and / or freezer is provided with at least one insulating element according to one of claims 1 to 7.

It is conceivable that the compensating element at least partially abuts or is arranged on the inner container of the refrigerator and / or freezer and / or is partially or completely received in one or more recesses of the inner container. However, the present invention is not limited to the application to the inner container or on its foam side. Alternatively or additionally, it can be provided that the insulating element or its compensation element is arranged on the foam side foam on the inner door.

The term "door" or "inner door" includes any closure element, such as. As well as a lid, drawer, flap, a conventional door or their refrigerated compartment facing walls or inner sides.

Furthermore, the present invention relates to the use of at least one insulating element with the features of claim 10. Thereafter, it is provided that at least one insulating element according to one of claims 1 to 7 is used or used for a refrigerator and / or freezer, wherein the cooling device is preferably formed according to claim 8 or 9.

Further details and advantages of the invention will now be explained in more detail with reference to an embodiment shown in the drawing.

Figur 1:

eine perspektivische Ansicht auf eine Seitenwand eines Innenbehälters für ein Kühl- und/oder Gefriergerät;

Figur 2:

eine perspektivische Ansicht auf ein Vakuumisolationspaneel gemäß dem Stand der Technik;

Figur 3:

eine perspektivische Ansicht auf ein Dämmelement gemäß der vorliegenden Erfindung in einer ersten Ausführungsform; und

Figur 4:

eine perspektivische Ansicht auf ein Dämmelement gemäß der vorliegenden Erfindung in einer zweiten Ausführungsform.

Show it:

FIG. 1:

a perspective view of a side wall of an inner container for a refrigerator and / or freezer;

FIG. 2:

a perspective view of a vacuum insulation panel according to the prior art;

FIG. 3:

a perspective view of an insulating element according to the present invention in a first embodiment; and

FIG. 4:

a perspective view of an insulating element according to the present invention in a second embodiment.

FIG. 1 shows a perspective view of the inner container 10 for a refrigerator and / or freezer. Like this in FIG. 1 As can be seen, the inner container 10 has a rear wall 12 and a side wall 14, wherein the side wall 14 has a plurality of bumps.

The bumps in the side wall 14 include elevations 20, steps 22 and a plurality of wells 24. The wells 24 serve on the inside of the inner container as support ribs 24 z. B. arranged in the inner container soils, especially glass plates that serve as shelves.

Now, for example, a conventional, rectangular Vakuumisolationspaneel 50, as shown in FIG. 2 is shown placed on the face 15 of the side wall 14 with the recesses 24, the wells can no longer be filled with foam and are not stabilized. This results in the problem that the necessary stability of the support ribs 24 is no longer given.

FIG. 3 shows a perspective view of an inventive insulating element 100 according to a first embodiment. In this case, the insulating element has a vacuum insulation panel element 110 and a compensation layer 120.

It is conceivable that the compensation layer 120 has a deformable mass 122 or consists of this. This deformable, preferably soft mass 122 is applied in a layer thickness, which is matched to the surface structures to be compensated, open on a cover film or surface of the vacuum insulation panel element 110. The deformable mass 122 is designed here in an advantageous embodiment in the manner of a plasticine.

Alternatively it can be provided that the compensation layer 120 comprises a viscous gel, a deformable and / or powdery bulk material and / or gas cushion, which is preferably arranged in at least one sealed container, in particular a dense foil bag. The viscous gel, the deformable and / or powdered bulk material and / or the gas cushion could by means of z. B. a dense foil bag mounted on the vacuum insulation panel element or applied.

FIG. 4 shows a perspective view of an inventive insulating element 200 according to a second embodiment. In this case, the insulating element 200 has a plurality of mosaic-like, substantially square vacuum insulation panel elements 210, which on a support layer 220 are arranged. In the advantageous embodiment shown here, the carrier layer 220 consists of an elastic plastic film on which the vacuum insulation panel elements 210 are glued. The carrier layer 220 may, for example, be designed as a self-adhesive plastic film on the side facing away from the vacuum insulation panel elements 210, so that a simple application of e.g. B. on the side wall 14 is possible.

Both the in FIG. 3 shown first embodiment of an insulating element 100 as well as in FIG. 4 shown second embodiment of an insulating element 200 may be placed on an uneven surface to be occupied as the side wall 14. In particular, the first embodiment of the insulating element 100 advantageously makes it possible for the recesses 24 or depressions 24, which form the bearing ribs 24, to be filled substantially completely by the compensating layer 120 adapting thereto. As a result, the necessary stability of the support ribs 24 is thus ensured.

Claims (10)

Insulating element (100, 200), in particular insulating element (100, 200) for a refrigerator and / or freezer, with at least one Vakuumisolationspaneelelement (110, 210) and with at least one compensating element (120, 220), wherein the insulating element (100, 200 ) has a support surface for resting on a surface and wherein the insulating element (100, 200) by means of the compensating element (120, 220) is adapted to the particular surface for the support of the support surface of the insulating element, wherein the surface in particular a structured and / or uneven and / or stepped surface and / or preferably wherein the vacuum insulation panel member (110, 210) is a vacuum insulation panel. Insulation element (100) according to claim 1, characterized in that the compensation element (120) is and / or comprises a compensation layer (120), wherein the compensation element (120) preferably has substantially the same dimensions as the Vakuumisolationspaneelelement (110). Insulating element (100) according to claim 2, characterized in that the leveling layer (120) comprises a viscous gel, a deformable mass, a deformable and / or powdered bulk material and / or gas cushion, preferably in at least one sealed container, in particular a dense film bag is arranged. Insulating element (200) according to one of the preceding claims, characterized in that the compensating element (220) comprises an at least partially flexible carrier layer (220). Insulating element (200) according to claim 4, characterized in that on the carrier layer (220) a plurality of vacuum insulation panel elements (210) are arranged. Insulating element (200) according to claim 5, characterized in that the Vakuumisolationspaneelelemente (210) at least partially mosaic-like on the support layer (220) are arranged and / or that the Vakuumisolationspaneelelemente (210) are at least partially substantially rectangular, preferably square executed. Insulating element (200) according to one of claims 4 to 6, characterized in that the carrier layer (220) is an elastic film means and / or comprises, wherein preferably the carrier layer (220) is an elastic plastic film and / or comprises. Cooling and / or freezer with at least one insulating element (100, 200) according to one of the preceding claims. Cooling and / or freezing appliance according to claim 8, characterized in that the compensating element (120, 220) on the inner container (10) and / or on the inside of the door of the refrigerator and / or freezer at least rests partially and / or is partially or completely received in one or more recesses (24) of the inner container (10) and / or the inside of the door. Use of at least one insulating element (100, 200) according to one of claims 1 to 7 for a refrigerator and / or freezer, in particular for a refrigerator and / or freezer according to claim 8 or 9.

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