DE102011100943A1 - Method for patterning surface of vacuum insulation panel of internal door of refrigerating and/or freezing apparatus, involves subjecting vacuum insulation panel to renewed evacuation process, and partially structuring surface of panel - Google Patents

Abstract

The method involves subjecting a vacuum insulation panel to a renewed evacuation process by an evacuation chamber. The panel is partially deformed using a deformation unit by oscillation, pressure, shaking processes and/or pressing operations. The deformation unit is provided in the evacuation chamber and provided with a pressing unit i.e. press. A surface of the panel is partially structured. A side of the panel is provided with a surface patterning that forms a functional element in the surface of the panel. An independent claim is also included for a device for processing a vacuum insulation panel element.

Description

The present invention relates to a method for at least partially structuring the surface of a vacuum insulation panel element, a vacuum insulation panel element, a refrigerator and / or freezer, and a device for processing at least one vacuum insulation panel element.

Vacuum Insulation Panels (also called Vacuum Insulated Panels, VIP for short) 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 composition of these components affects the thermal conductivity and the 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.

Vacuum insulation panels are commonly available as a rectangular plate with smooth surfaces. When such vacuum insulation panels are to be connected to other components, the smooth surface of the vacuum insulation panel may make such connection difficult or even impossible.

Object of the present invention is therefore to develop a method, a Vakuumisolationspaneelelement, a refrigerator and / or freezer and a device for processing at least one Vakuumisolationspaneelelementes of the type mentioned in an advantageous manner, in particular to the effect that facilitates a connection of vacuum insulation panels with other components can be.

This object is achieved by a method having the features of claim 1. Thereafter, it is provided that in a method for at least partially structuring the surface of a Vakuumisolationspaneelelementes the Vakuumisolationspaneelelement is subjected to a new Evakuierungsvorgang and then at least partially deformed such that the surface of the Vakuumisolationspaneelelementes is at least partially structured.

The method for producing a vacuum insulation panel element may preferably be based on a conventional production method of a vacuum insulation panel element. In this case, the production is carried out in a conventional manner so that the entire vacuum insulation panel element is placed in an evacuation chamber and is usually filled with supporting bodies or the like and geschfossen. Subsequently, the vacuum insulation panel element is removed again from this evacuation chamber. The present invention further provides that the vacuum insulation panel element produced in this way is re-introduced into the evacuation chamber, so that a pressure equalization between the inside and outside of the vacuum insulation panel element is produced. Then there is the deformation, which is possible only due to the pressure equalization. Subsequently, the vacuum insulation panel element is then removed from the evacuation chamber in the finished, ie deformed state.

By re-evacuation, it is advantageously possible to be able to deform the vacuum insulation panel element again and to create a structuring on the surface. Such structuring is helpful, for example, an adhesion of the vacuum insulation panel element with other components, but also for example to enable other vacuum insulation panel elements.

Furthermore, it is conceivable to foam the vacuum insulation panel element on the modified surface, that is, to apply a foam layer on this side, as is the case, for example, with refrigerators and / or freezers. By creating a surface structure on the vacuum insulation panel element, the foam connection can be significantly improved, since the foam on the surface can find support due to the structuring.

The vacuum insulation panel element may be a vacuum insulation panel.

Furthermore, it can be provided that the deformation is generated at least partially by vibrations, pressure, vibration processes and / or pressing processes.

It is possible that the vacuum insulation panel member is a vacuum insulation panel and that one side of the vacuum insulation panel is provided with a surface patterning.

Furthermore, it can be provided that the structuring serves to form at least one functional element in the surface of the vacuum insulation panel element.

Moreover, the present invention relates to a vacuum insulation panel element with the features of claim 5. Thereafter, it is provided that a vacuum insulation panel element is produced by a method according to one of claims 1 to 4.

Furthermore, the present invention relates to a refrigerator and / or freezer with the features of claim 6. Thereafter, it is provided that a refrigerator and / or freezer is provided with at least one Vakuumisolationspaneelelement according to claim 5.

Furthermore, the present invention relates to a device for processing at least one Vakuumisolationspaneelelementes with the features of claim 7. Thereafter, it is provided that an apparatus for processing at least one Vakuumisolationspaneelelementes is provided, wherein by means of the device at least a partial structuring of the surface of the Vakuumisolationspaneelelementes can be generated the apparatus having evacuation means by which the vacuum insulation panel member is subject to a re-evacuation operation and wherein the apparatus comprises deforming means by which the vacuum insulation panel member is deformable after the re-evacuation operation.

By means of this device, the above-described process of re-evacuation and the resulting deformation of the vacuum insulation panel element can take place particularly advantageously. Thus, in the device produced in a conventional manner vacuum insulation panel element can be introduced. The device is advantageously designed and designed such that a pressure equalization between the inside and outside of the vacuum insulation panel element can be produced. Then, the deformation of the Vakuumisolationspaneelelementes by means of the device, wherein the deformation is made possible by the pressure equalization. Subsequently, the vacuum insulation panel element is then removed from the device, in particular the evacuation device, in the finished, ie deformed, state.

The device may have as an evacuation means an evacuation chamber, by means of which the vacuum insulation panel element can be subjected to a renewed evacuation process.

It is also possible that deformation of the vacuum insulation panel element can be generated at least partially by vibrations, pressure, vibration processes and / or pressing processes by means of the deformation means.

It can be provided that the deforming means comprises vibrating elements, by means of which the vacuum insulation panel element can be set into oscillations. Furthermore, the deformation means may comprise compression means, in particular a press with punch and die, by means of which the surface structure can be pressed into the vacuum insulation panel element.

It is conceivable that the vacuum insulation panel element is a vacuum insulation panel and that one side of the vacuum insulation panel is providable by means of the device with surface structuring.

Advantageously, it can be provided that the method according to one of claims 1 to 4 can be carried out by means of the device.

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

When foam-side application of vacuum insulation panels on interior doors or refrigerated goods containers of refrigerators and / or freezers, the foam connection of the vacuum insulation panels must be ensured.

For this purpose, by the inventive method and by means of the device according to the invention on the conventionally available, ie already in the context of production already evacuated vacuum insulation panel, a surface structure is created by the vacuum insulation panel is again placed in a vacuum, whereby the surface is malleable, and by means of vibrations and Print a predefined surface structure is generated. For this purpose, a compression can also take place. The vibrations can be generated in particular by shaking movements.

To carry out the method, a device for processing at least one vacuum insulation panel element is advantageously used. In this case, by means of the device, an at least partial structuring of the surface of the Vakuumisolationspaneelelementes is generated, wherein the device as evacuation means comprises an evacuation chamber, by means of which the Vakuumisolationspaneelelement a new evacuation process is unterziehbar.

In this evacuation chamber, a deforming means is furthermore provided, by means of which the vacuum insulation panel element can be deformed after the renewed evacuation process. In an advantageous embodiment, this deforming means comprises vibrating elements, by means of which the vacuum insulation panel element can be set into oscillation. Furthermore, in an advantageous embodiment, the deforming means comprises a pressing means, in particular a press with punch and die, by means of which the surface structure can be pressed into the vacuum insulation panel element.

The Vakuumisolationspaneelelement has, after the above-described carried out surface structuring on a structured surface, both mechanical functions such. B. support elements or rib structures for the better adhesion of foam and / or adhesive met, but also can meet design requirements. Such a vacuum insulation panel element can then advantageously be used in a refrigerator and / or freezer.

Claims (10)

A method for at least partially structuring the surface of a vacuum insulation panel element, wherein the vacuum insulation panel element is subjected to a renewed evacuation process and then at least partially deformed such that the surface of the vacuum insulation panel element is at least partially patterned. A method according to claim 1, characterized in that the deformation is generated at least partially by vibrations, pressure, Rüttelvorgänge and / or pressing operations. A method according to claim 1 or 2, characterized in that the vacuum insulation panel element is a vacuum insulation panel and that one side of the vacuum insulation panel is provided with a surface structuring. Method according to one of the preceding claims, characterized in that the structuring serves to form at least one functional element in the surface of the vacuum insulation panel element. A vacuum insulation panel manufactured by a method according to any one of claims 1 to 4. Cooling and / or freezing appliance with at least one vacuum insulation panel element according to claim 5. Apparatus for processing at least one vacuum insulation panel element, wherein by means of the device at least a partial structuring of the surface of the vacuum insulation panel element can be produced, the apparatus having an evacuation means, by means of which the vacuum insulation panel element undergoes a renewed evacuation operation and wherein the apparatus comprises a deforming means by which the vacuum insulation panel element after the new evacuation process is deformable. Apparatus according to claim 7, characterized in that by means of the deformation means, a deformation of the Vakuumisolationspaneelelementes at least partially by vibrations, pressure, Rüttelvorgänge and / or pressing operations can be generated. Apparatus according to claim 7 or 8, characterized in that the vacuum insulation panel element is a vacuum insulation panel and that one side of the vacuum insulation panel is providable by means of the device with a surface structuring. Device according to one of claims 7 to 9, characterized in that by means of the device, the method according to one of claims 1 to 4 is feasible.