EP1860248A2 - Insulation element and building with such an insulation element - Google Patents

Abstract

The unit (1) has a plate formed from an insulating material and/or from a reflector, where insulating characteristics, reflection characteristics and heat transfer coefficient of the unit are temporarily modifiable. The plate is movable over a surface of the unit between a position, in which the plate completely fills the surface of the unit, and another position, in which the plate releases the surface. A hollow space (4) extends over the surface, and is filled and/or emptied with a fluidic and/or hard insulating material particles (3) e.g. expanded polystyrene, and insulating material.

Description

The invention relates to an insulating element, in particular for the internal and / or external insulation of buildings, and a building equipped with such an insulating element, such as a residential, office or industrial building.

For thermal and / or acoustic insulation of buildings a variety of insulation elements are known, which are usually formed of an insulating layer of an insulating material, such as foam, in particular based on polymer, and a protective cover layer. They are usually provided for attachment to the outside of the building, where they can then be plastered. Its main task is to reduce heat loss from the interior of the building to the outside when it is cold, while in heat it is intended to reduce the flow of heat from the outside into the building. In order to change the insulating properties of such insulation elements, on the one hand there is the possibility of making the insulating layer thicker, on the other hand to use materials with better insulation properties for the insulating layer. In both cases, the insulating element has fixed predetermined insulation properties, which are independent of the prevailing temperatures.

The invention has for its object to propose a novel insulation element, which is able to contribute to reducing the energy consumption of a building hereby equipped. It also aims to reduce the energy requirements of a building, such as a residential, office, industrial building or the like.

According to the invention this object is achieved in an insulating element of the type mentioned above in that the insulating properties of the insulating element can be changed.

In a building, the invention further provides for the solution of the above object, that it is equipped with at least one such insulating element.

The inventive design of the insulating element, the energy consumption of a building can thereby significantly lower by the insulation properties of the insulation elements, with which the building is equipped, can be changed if necessary. Thus, for example, in cold seasons, especially when moderate temperatures prevail and the sun is shining, use the solar radiation to heat the building when the insulation properties of the insulating element are reduced, while the insulation properties can be adjusted at night so that the insulation element its maximum achieved possible insulation properties. Conversely, the insulating properties of the insulating element can be reduced, for example, in warm seasons during the cooler night hours to cool the building, while the insulating properties can be adjusted during the day again so that the insulating element reaches its maximum possible insulation properties.

Investigations have shown that in the case of a medium-sized family house according to DIN 4108-6 with a south-facing glass stem with a conventional heat-insulating glass with a heat transfer coefficient U of 1.3 W / m ² K and an energy transmittance of 0.62 in the case of substitution of 80% of the stem glazing against insulating elements according to the invention with a corresponding glazing as a cover layer, the following energy savings: If the insulation elements according to the invention between a heat transfer coefficient U of 2.2 W / m ² K and a Energiedurchlaßgrad for solar radiation of 0.56 and a heat transfer coefficient U of 0.2 W / m ² K and a variable energy transmission coefficient for solar radiation from 0.62 to nearly 0 back and forth, so there is an energy saving potential of about 11% in terms of annual heating demand during the winter, while during de s summer energy savings potential of about 75% with respect to the cooling energy demand for air conditioning of the building to 26 ° C results. In the case of administrative and industrial buildings, which are often equipped with large glass surfaces, the potential energy savings extrapolated therefore to a significantly higher amount.

The variability of the insulating properties of the insulating element according to the invention results in a preferred embodiment of a variability of the heat transfer coefficient and / or the reflection properties of the insulating element, wherein the insulating element in the latter case preferably with a transparent or translucent cover layer, such as glass, equipped and arranged on the Outside of the building, that is provided in the form of an external insulation. However, the changeability of the Insulating properties of the insulating element, for example, based on a volume change of heat-insulating materials.

According to an advantageous embodiment it can be provided that the insulating element comprises at least one substantially of an insulating material, e.g. a polymer foam, such as polystyrene foam or the like, and / or at least one plate substantially formed of a reflector, e.g. a mirrored or foil coated glass, metal plate or the like, which between a position in which it substantially completely fills the surface of the Dämmelementes and a position in which it substantially free the surface of the Dämmelementes substantially, over the surface of the Dämmelementes is displaced.

The displaceable between such an "insulating position" and such a "transmission position" and expedient motor driven plate can be displaced or rolled up, for example. Alternatively or additionally, the plate (s) may have a plurality of plate elements which can be displaced relative to one another, in particular telescopically or else to be opened in the manner of an aperture and to be closed.

According to a further advantageous embodiment, it can be provided that the insulating element has at least one cavity which extends essentially over the surface of the insulating element and which can be filled or emptied with a fluidic and / or solid insulating material. In the insulating state of such an insulating element, its cavity is consequently filled, at least for the most part, with the insulating material, while in the non-diminished or otherwise low-insulating state of the insulating element, its cavity is essentially free of the insulating material.

If the insulating element has such a substantially extending over its surface cavity, may alternatively or additionally be further provided that this cavity is filled with a fluidic and / or with a solid insulating material, wherein the insulating material is compressible and compressible under pressure or . is expandable under pressure relief. The cavity may in this case be e.g. be tightly closed or can always be substantially the same amount of insulation material enclosed in the cavity, wherein the insulating material in the expanded state, the cavity at least largely fills, so that the insulating element is in an insulating state, while the insulating material in the compressed state, at least releases a portion of the cavity to reduce the insulating properties of the insulating element.

In both cases, the cavity can be acted upon or evacuated, for example, with fluid pressure to fill it with insulation or to empty and / or to compress the existing insulation there or to expand. For this purpose, for example, one or more of such insulation elements may be assigned to one another in each case as required controllable pump, which as needed in or out of and / or compressing or expanding the respective insulating medium in the cavity in the situation is. If the cavity of such an insulating element - for example by means of a pump - evacuated and / or acted upon by overpressure, this offers itself, as already indicated, on the one hand in conjunction with a solid filling medium, such as foam particles, to the foam particles, for example by appropriate pressurization compress and the packed in the cavity of the insulating element particle packing tightly packed, whereby the insulation properties of the insulating element are improved as needed. On the other hand, it is related with in the cavity or from the insertable fluids possible to improve the insulating properties of the insulating element by emptying the cavity and applying the same with vacuum or vacuum, if necessary. Other suitable fluids include, for example, foams, ie dispersions of liquid and gaseous media, which have different insulating properties depending on the liquid or gas component which is modifiable as required.

Alternatively or in addition to such a fluidic pressurization of the cavity of the insulating element or the existing insulation material there may of course also be provided a mechanical pressure or relief, for example, over the surface of the cavity of the insulating element, a slider is displaced to the cavity with insulation to fill or empty and / or to compress or expand the insulation contained in the cavity. The slider may in the simplest case e.g. approximately linearly over the surface of the cavity movable or in any other way, e.g. in the manner of a diaphragm or the like, be displaced, which should only be ensured that the cavity circumferentially sufficiently seals to "compress" each selected insulating medium - be it a fluid or a solid - in a portion of the cavity.

If a solid insulating material is provided in this context, then this may preferably be formed by foam particles or similar flowable, particulate and / or fibrous materials, such as polymer-based foam particles, which preferably have a certain compressibility to them even in the case of a pure Insertion and Ausbringens in or out of the cavity of the insulating element with the largest possible contact surface to be able to pack each other as close to each other as possible and thus to ensure good insulation properties when the insulating element is in its insulating operating state. By way of example, particulate and / or fibrous materials based on polystyrene are mentioned. In particular, in the case of an abovementioned embodiment, in which the insulating material remains in the cavity of the insulating element and is compressed and / or expanded only fluidically and / or mechanically, the solid insulating material can of course also be formed of compressible insulating foam, which - as in the case of Foam particles - should have a certain resilience at pressure relief.

While the insulating element in principle can be driven in any way between its "Dämmstellung" and its "open position" or in intermediate stages thereof, it is preferably electrically operated to adjust the particular desired insulation properties can.

It may be particularly expedient if the insulating element is automatically actuated depending on the particular desired, in particular programmable, insulating properties, which, for example, in connection with the outside of the provided with the / the insulating element (s) building arranged sensors, such as temperature sensors, sun sensors and the like , can happen. Alternatively or additionally, the insulating element can also be actuated by means of a switch in order to achieve the insulation properties just desired, e.g. be able to adjust manually.

A development of the insulating element according to the invention provides that it is associated with an energy storage. Such an energy storage may, for example, a heat or cooling medium or a solar collector to the optionally recorded convective heat or To store radiant energy and, for example, to heat water, to heat the building, eg during cooler night hours, or the like to use. With "solar panels" any means are addressed, which are for generating electricity or for direct heating of water, for example via heat exchangers, in the position, such as photovoltaic elements, solar cells, etc. The heat or cooling medium can in the simplest case, for example by means a be guided over the surface of the insulating element extending pipe spiral, which corresponds directly or via heat exchangers with a heating or cooling circuit of the building.

Fig. 1 bis 3

jeweils eine schematische Ansicht eines ersten Ausführungsbeispiel eines erfindungsgemäßen Dämmelementes in verschiedenen Betriebszuständen;

Fig. 4 und 5

jeweils eine schematische Ansicht eines zweiten Ausführungsbeispiel eines erfindungsgemäßen Dämmelementes in verschiedenen Betriebszuständen; und

Fig. 6 und 7

jeweils eine schematische Ansicht einer Weiterbildung des Dämmelementes gemäß Fig. 4 und 5.

The invention with reference to an embodiment with reference to the drawings is explained in more detail. Showing:

Fig. 1 to 3

in each case a schematic view of a first embodiment of an insulating element according to the invention in different operating states;

4 and 5

in each case a schematic view of a second embodiment of an insulation element according to the invention in different operating states; and

6 and 7

in each case a schematic view of a development of the insulating element according to FIGS. 4 and 5.

In Fig. 1 to 3 a - although of course not necessarily - cuboid insulating element 1 is shown, which comprises a more or less closed housing 2 made of a sufficiently rigid material, such as plastic, which has a flat cavity 4 limited. In the space enclosed by the housing 2 cavity 4 is a bed of insulating particles 3, for example of expanded polystyrene (EPS), included, which are in the operating state shown in Fig. 1 in an expanded state and nevertheless form a dense packing, the Particles 3 - preferably with a certain compression of the same - are in contact. The insulating element 1 thus has good heat and sound insulating properties.

In the reproduced in Fig. 3 operating state, the insulating element 1 on the other hand, significantly lower insulation properties, since the insulating particles 3 have been compressed and occupy only a relatively small portion of the available cavity 4, so that the heat transfer coefficient of the insulating element 1 has been reduced overall is. For compressing the particles 3 in the present embodiment, over the surface of the cavity 4, for example, along the longitudinal sides of the same, in particular motorized slide 6 is provided, which compresses the located in the cavity 4 particles 3 when it is moved in the direction of arrow 5 , Alternatively, the cavity 4, for example by means of a suitable pump, for this purpose, of course, with a pressurized fluid, such as compressed air, are acted upon to compress the particles 3, whereby they also occupy only a portion of the volume in the cavity 4. The expansion of the particles 3 takes place in the opposite manner, in the present embodiment, the slide 6 is again displaced upward against the arrow 5, whereby the particles 3 are relieved of pressure and again in the entire cavity 4 distribute (Fig. 1). Alternatively, the particles 3 can of course also be introduced from an external reservoir into the cavity 4 or removed therefrom (not shown).

In addition, FIG. 2 shows an intermediate state, if desired likewise adjustable, in which the particles 3 have already been partially compressed.

4 and 5, a further insulating element 1 is shown in which, instead of insulating particles, a solid or fluid, e.g. liquid, insulating material 3a is provided, which in turn between a position in which it substantially completely fills the cavity 4 (Fig. 4) and the insulating element 1 thus has good heat and sound insulating properties, and a position in which it at least one Part of the cavity 4 releases (Fig. 5) and the insulating element 1 therefore in contrast has poorer heat and sound insulating properties, is compressible or expandable. For pressurizing the insulating material 3a located in the cavity 4, the cavity 5 may in turn be provided, for example, with fluid pressure, e.g. be with gas pressure, acted upon or relieved, or it is the embodiment of FIG. 1 to 3 corresponding slide provided (in Fig. 4 and 5 not shown), which for compression of the insulating material 3a in the direction of arrow 5 down and Expansion of the insulating material 3a against the arrow 5 is displaced upward. The insulating element 1 can, moreover - as well as that of FIG. 1 to 3 - in particular be electrically actuated, which can preferably be done by means of a switch and / or automatically depending on the respectively desired, in particular programmable insulation properties.

The embodiment of an insulating element 1 shown in FIGS. 6 and 7 differs from that according to FIGS. 4 and 5 in particular in that the insulating element 1 is assigned an energy store 7, which in the present exemplary embodiment comprises a tube coil which conducts a heat or cooling medium receives and, for example, is also in the cavity 4 of the housing 2, so that it is in the shown in Fig. 6 - good heat and sound insulating operating state of the insulating element 1 - practically completely surrounded by the insulating material 3a. The coil of the energy storage 7 can, when the insulation element 1 has been installed in a building, correspond with a heating / cooling device of the building.

Claims (17)

Insulating element (1), in particular for internal and / or external insulation of buildings, characterized in that the insulating properties of the insulating element (1) are variable. Insulating element according to claim 1, characterized in that the heat transfer coefficient and / or the reflection properties of the insulating element (1) is variable / are. Insulating element according to claim 1 or 2, characterized in that the insulating element (1) comprises at least one substantially of an insulating material (3a) and / or at least one plate substantially formed of a reflector, which between a position in which they the surface the insulating element (1) substantially completely fills, and a position in which it releases the surface of the insulating element (1) substantially completely, over the surface of the insulating element (1) is displaceable. Insulating element according to claim 3, characterized in that the plate is displaceable or rollable. Insulating element according to claim 3, characterized in that the plate has a plurality of mutually displaceable, in particular telescopic, plate elements. Insulating element according to one of claims 1 to 5, characterized in that the insulating element (1) has at least one substantially over the surface of the insulating element (1) extending cavity (4), which with a fluidic and / or with a solid insulating material ( 3, 3a) can be filled or emptied. Insulating element according to one of claims 1 to 6, characterized in that the insulating element (1) has at least one substantially over the surface of the insulating element (1) extending cavity (4), which with a fluidic and / or with a solid insulating material ( 3, 3a) is filled, wherein the insulating material (3, 3a) is compressible and compressible under pressure or expandable under pressure relief. Insulating element according to claim 6 or 7, characterized in that the cavity (4) can be acted upon or evacuated by fluid pressure. Insulating element according to one of Claims 6 to 8, characterized in that a slider (6) can be displaced over the surface of the cavity (4) of the insulating element (1) in order to fill the cavity (4) with insulating material (3, 3a) to empty and / or in order to compress or expand the insulating material (3, 3a) located in the cavity (4). Insulating element according to one of claims 6 to 9, characterized in that the solid insulating material (3, 3a) is formed by compressible insulating foam and / or compressible foam particles. Insulating element according to one of claims 1 to 10, characterized in that the insulating element (1) is electrically actuated. Insulating element according to one of claims 1 to 11, characterized in that the insulating element (1) is automatically actuated depending on the particular desired, in particular programmable, insulating properties. Insulating element according to one of claims 1 to 12, characterized in that the insulating element (1) can be actuated by means of a switch. Insulating element according to one of claims 1 to 13, characterized in that it is associated with an energy store (7). Insulating element according to claim 14, characterized in that the energy store (7) has a heating or cooling medium. Insulating element according to claim 14 or 15, characterized in that the energy store (7) has a solar collector. Building, such as residential, office or industrial buildings, characterized by at least one insulating element (1) according to one of claims 1 to 16.

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