DE102007041767A1 - One-man plate for use with electrical resistance heating and rigid fiber-reinforced fiber board for air conditioning in apartment and building, has electrically conductive heating layer that is heated by current - Google Patents

Abstract

The one-man plate has an electrically conductive heating layer (2) that is heated by current on the basis of graphitic particles or carbon fibers. A plate shaped compound element is provided with a base body made of a rigid fiber-reinforced fiber board (1). The heating layer is connected with a vacuum isolation panel (3) on the rear side.

Description

The The invention relates to a one-man plate with an electrical resistance heater for air conditioning in apartments and buildings below Use of a current-heated electrically conductive Heating layer based on graphite particles or carbon fibers will be produced. Electrically conductive heating layers the base of graphite particles or carbon fibers do not generate heat radiation mainly visible infrared range, which extends in all directions in space spreads evenly. The enclosing an interior Outer walls become by spreading on all sides Heat radiation also heated. The warming the outer walls thus contains a considerable Part of the heat loss and heating energy. The thermal insulation is therefore particularly important.

From the DE 19600228 A1 is a plate-shaped electrical resistance heater in the form of a one-man plate made of plasterboard or composite board known, which is provided on the back with a thermal insulation material. On the view side, the gypsum board is provided with a building board, which is coated with gypsum, cement, ceramic materials, concrete, artificial stone or similar in construction, masses, glass, wood, synthetic resin or plastic materials. Such composite structural panels have a lower absorbency surface than a paper-coated plasterboard, which makes it possible to use the electrically conductive heating layer when applied with a higher proportion of graphite particles and with a lower binder content. This ensures that the electrically conductive heating layer can be applied in a single operation.

Further is the building board provided on the view side of the composite board reinforced with fibers embedded in the building board are. The fibers embedded in the building board are used in the production used to increase the strength. Furthermore The composite panel can be made directly from a foam glass, porous plastic, artificial stone or foam produced using foaming agents consist of expanded clay, the surface of the building board or the composite building board with a pore filler smoothed. In this way composite panels come to use, in addition to a lower absorbency a have sufficiently high stability and strength.

Of the Disadvantage of the known composite board is in particular the comparatively high weight, which is due to the building materials used due to thermal insulation and stability is. The composite board is suitable in this way due to the Weight less than one man plate. In addition there is the main disadvantage of Verbundbauplatte is that the thermal insulation not sufficient for radiant heating in the infrared range is. Aerated concrete, foam glass or others using foaming agents Made insulation materials have according to the heat protection ordinance and the guidelines of the Energy Saving Ordinance have a low thermal conductivity, however, they have a comparatively high heat capacity. The heat capacity describes the ability of a body to absorb energy in thermal form and save.

at an electrical resistance heater in the infrared range for room air conditioning in homes and buildings, using one through Electricity heatable electrically conductive heating layer on the base of graphite particles or carbon fibers, the storage of heat has virtually no meaning. In this respect, the heat capacity of the one-man plate a substantial importance in terms of thermal insulation. The electric resistance heating is based on the principle of heat radiation compared to the principle of convection conventional Heaters by air exchange. With a high heat capacity The one-man plate therefore becomes a large part of the radiant heat from the thermal insulation material and the composite building board added. In this way, an essential part of the goes for lost the room air conditioning applied electrical heating energy, if the radiant heating control technology regulated and, for example is switched on in corresponding heating intervals.

The The invention aims a lightweight one-man plate with an electric Resistance heating for room air conditioning in apartments and buildings by radiant heat using a current Heatable electrically conductive heating layer, on the Base of graphite particles or carbon fibers, the a low weight and a low heat capacity having. At the same time, the one-man plate should have a low thermal conductivity and have high thermal insulation properties.

According to the invention the problem solved by a plate-shaped composite element, which consists essentially of lightweight materials, the corresponding their use in a one-man plate have a low weight. The composite board has a main body of a rigid glass fiber reinforced substrate and a heating layer applied thereto. Preferably, the Basic body of a reinforced with glass fibers Cement board with at least one vacuum insulation panel connected is.

The Thermal conductivity of a one-man plate can be drastically reduce, if in the composite element for insulation, a vacuum insulation panel is used. A vacuum insulation element includes a microporous one Thermal insulation board, which in a composite film vacuum-tight is welded. The vacuum insulation panel is made from a porous core material of low thermal conductivity and a vacuum-tight enclosure. The porous one Core material is used to create a vacuum within the vacuum insulation panel evacuated and the envelope is sealed airtight. In this way, a vacuum insulation panel has an extremely low Mass and a low weight.

The Material of the vacuum insulation panel consists for example microporous silica powder or open-pore Foams made of polyurethane or polystyrene. To reduce the heat loss through heat radiation is for the enclosure of the vacuum insulation panel a metallized barrier film used in plastic.

additionally The thermal insulation of the one-man plate is through improves a reflection layer that is offended by the heating layer is placed on the front of the vacuum insulation panel. On the arrangement of an additional reflection layer can be omitted if the vacuum insulation panel with a Provided heat rays reflective cladding is.

On This way, a lightweight one-man plate with an electric Resistance heating with extremely high thermal insulation created what in the following embodiment explained in more detail with reference to the drawing shall be. Advantageous embodiments of the invention result from the dependent claims. In detail shows

1 a one-man plate with a fiberboard and a vacuum insulation panel as well

2 a one-man plate with a vacuum insulation panel and a reflection layer in a schematic representation.

1 shows a one-man plate, which includes a plate-shaped composite element, with a fiberboard 1 as a basic body, made of a rigid glass-fiber-reinforced carrier material and a heating layer applied thereto 2 , The fiberboard 1 consists of a fiberglass reinforced cement board with at least one vacuum insulation panel 3 is connected flat. On the back is the one-man plate with a cover plate 4 provided the same texture as the fiberboard 1 Has.

The fiberglass reinforced fiber board 1 is a device of very thin form with a binder such as cement. The term cement should also be understood as meaning mixed binders or gypsum-containing mixed binders. These binders are mixed in the production with glass fibers or other fibers of wood and with the addition of optional additives to a thin fiberboard 1 deformed and compacted. The fiber cement panels have a low wet weight and high wet strength. The thermal conductivity of glass is comparatively low and no greater than cement. To increase the insulation resistance can also in the fiber board 1 Glass bubbles are incorporated. Due to the small dimensions, the thermal conductivity and heat capacity is low, with respect to that of the heating layer 2 outgoing infrared radiation.

The heating layer 2 comprises electric surface heating of a mixture of carbon fibers and glass fibers, a carbon fiber fleece, carbon nanotubes or a pure carbon fiber. The heating coating can be made in sheet form and cut according to the dimensions of the one-person sheet. These heating tracks are parallel on two opposite sides with strip-shaped metallic power supply electrodes 5 and then onto the fiberboard 1 applied. The surface heating can also be incorporated in a plastic shell. Likewise, the heating layer 2 be provided with a multi-layer sheathing made of fiber concrete. The heating layer 2 is in this case laminate in the fiberboard 1 inserted, which consists of two layers and the internal heating coating. This has the advantage that the view page for a painterly renovation for gluing wallpapers and the implementation of wall coatings is available. In addition, the heating layer after 3 on the inside of the fiberboard 1 to be ordered.

That with the fiberboard 1 surface-connected vacuum insulation panel 3 located on the back of the fiberboard 1 , The thermal conductivity of the one-man plate is thereby drastically reduced. The vacuum insulation panel 3 has one by one factor 10 higher insulation effect compared to conventional materials. The thermal conductivity of the vacuum insulation panel 3 is only about one-tenth the value of conventional insulation materials such as mineral fibers or foams. The vacuum insulation panel 3 Therefore, it can be used advantageously when a low weight and extreme thermal insulation is required. Due to the low weight there is a low heat capacity, whereby the combination of the vacuum insulation panel 3 is surprisingly advantageous with an infrared radiating surface heating with carbon fibers. The heat losses can be significantly reduced.

The vacuum insulation panel 3 includes a microporous thermal insulation board, which is vacuum sealed in a composite film. The vacuum insulation panel 3 consists of a porous core material of low thermal conductivity and a vacuum-tight envelope. The porous core material becomes a vacuum within the vacuum insulation panel 3 evacuated and the envelope is sealed airtight. In this way has a vacuum insulation panel 3 an extremely low mass and a low dead weight.

The outer edges of the vacuum insulation panel 3 are from a pressure stable spacer 6 surround. The in 2 apparent spacers 6 is required because the vacuum insulation panel 3 is sensitive to pressure. The spacer 6 surrounds the entire peripheral edge of the vacuum insulation panel 3 , To 2 can use several vacuum insulation panels 3 be arranged one behind the other. In addition, the thermal insulation of the one-man plate by a reflective layer 7 improved by the heating layer 2 complained of arranged on the front. On the reflection layer 7 can be omitted if the vacuum insulation panel 3 equipped with a thermal barrier. The distance between the fiberboard 1 and the reflection layer 7 is made by spacers 8th produced. In order to minimize the energy transport by heat radiation, a reflection layer 7 used with a reflective surface. Such reflection layers 7 can for example consist of a high-gloss aluminum foil. Other metal-containing films or plastic composite films with one or more metallized layers may be used. The metallic layers may preferably be made of aluminum.

The invention should not be limited to the one-man plate described in the exemplary embodiment. Within the scope of the claims may vacuum insulation panels 3 be mounted directly on the ground of a wall, with the cover plate arranged on the back 4 is waived. The from the fiberboard 1 existing one-man plate with the heating layer 2 is then with the reverse side directly or by spacers 8th with the vacuum insulation panel 3 connected.

With the vacuum insulation panel mounted on the outside wall 3 a high heat insulation can be achieved. Due to the extremely low energy losses, the one-man plate is suitable with a vacuum insulation panel 3 especially for an infrared radiant surface heating with carbon fibers, which is supplied with a converter with a primary-switched switching power supply with heating current. Primary switched mode power supplies operate at a high frequency and are therefore very small. A power source 9 with safety extra-low voltage with a primary-switched switching power supply as a converter is used due to the comparatively small dimensions and output power for a limited number of heating surfaces. With a vacuum insulation panel 3 The number of heating surfaces can be increased considerably.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 19600228 A1 [0002]

Claims (11)

One-person panel with electrical resistance heating for room air conditioning in homes and buildings using a current-heated electrically conductive heating layer ( 2 ), based on graphite particles or carbon fibers, characterized in that the one-man panel comprises a plate-shaped composite element which comprises a base body made of a rigid fiber-reinforced fibreboard ( 1 ) provided with a heating layer ( 2 ) and on the back with a vacuum insulation panel ( 3 ) is connected flat. One-man plate according to claim 1, characterized in that the fiberboard ( 1 ) is a glass fiber reinforced cement board of very thin form. One-person plate according to claim 1 or 2, characterized that the cement slab is a mixed binder with cement or a gypsum-containing mixed binder having cement. One-person plate according to one of claims 1 to 3, characterized in that the heating layer ( 2 ) on the front or the back of the fiberboard ( 1 ) or between at least two layers of the fiberboard ( 1 ) is embedded in laminate. One-person board according to one of claims 1 to 4, characterized in that a plurality of vacuum insulation panels ( 3 ) are arranged one behind the other. One-man plate according to one of claims 1 to 5, characterized in that the outer edges of the vacuum insulation panel ( 3 ) from a pressure stable spacer ( 6 ) are surrounded. One-person plate according to one of claims 1 to 6, characterized in that the one-man plate on the back with a fiberboard as a cover plate ( 4 ) is provided. One-man plate according to one of claims 1 to 7, characterized in that from the fiberboard ( 1 ) by spacers ( 8th ) complains on the inside of the vacuum insulation panel ( 3 ) a reflection layer ( 7 ) is arranged. One-man plate according to one of Claims 1 to 8, characterized in that the reflection layer ( 7 ) is an aluminum foil having a specular surface, a metal-containing foil or composite foil of plastic with one or more metallized layers, preferably of aluminum. One-man plate according to one of claims 1 to 9, characterized in that the heating layer ( 2 ) comprises a heatable surface heating comprising a mixture of carbon fibers and glass fibers, a carbon fiber fleece, carbon nanotubes or a pure carbon fiber. Use of a one-man plate with a rigid fiber-reinforced fibreboard ( 1 ), which are provided with a heating layer ( 2 ) and on the back with a vacuum insulation panel ( 3 ) is connected flat, according to one of the preceding claims 1-9, for room air conditioning in homes and buildings with an electrical resistance heater with a heatable by electricity electrically conductive heating layer, based on graphite or carbon fibers and a converter with a primary-switched switching power supply to power supply.