WO2018158303A1 - Insulation, curtain, window and weather protection device - Google Patents

Abstract

The invention relates to insulation (10) for a building, which is mounted on an existing wall (12) of the building. The insulation (10) comprises at least two laterally spaced apart spacers (14, 16, 17) which are mounted on the wall (12) and between which an insulation surface (18) of the wall (12) can be defined, a material web (20) which extends at least between the spacers (14, 16, 17) in order to cover the insulation surface (18) of the wall (12), and a porous insulation material (22) which is arranged in the region of the insulation surface (18) between the wall (12) and the material web (20). The invention also relates to a heat-dissipating curtain and a heat-insulating weather protection device.

Description

 INSULATION, CURTAIN, WINDOW AND WEATHER PROTECTION TECHNICAL AREA

The present invention relates to an insulation for a building, which is arranged on an existing wall of the building, and a method for insulating at least one wall of a building. In the present text is spoken in each case by a wall of a building, which hereby also a ceiling and a floor of the building or a room of a building are meant. Further, the present invention relates to a curtain for a room or facade of a building comprising a sheet of material forming a surface of the curtain, a cavity extending over a majority of the area of the curtain, and a network of LED and / or fiber optic light wires. Finally, the present invention relates to a weather protection device comprising a material web which forms an area of the weather protection device.

STATE OF THE ART

In the course of today's tendency to minimize the heat loss of a building over its outer walls in order to save heating ^¬ or cooling energy, there is a fundamental desire to be able to insulate the walls of the building as well as possible. Especially in the subsequent insulation of existing real estate here is the problem that a subsequent insulation of the outer walls brings many problems. In particular, insulating panels applied externally to the facade of a building disturb the external appearance of a building so massively that this measure is out of the question for most property owners.

Especially in real estate, where an external facade was built in front of the load-bearing outer wall of the building, insulation boards can not be used sensibly, especially not between the load-bearing wall of the building and the façade in front of it to bring in optical

To avoid deterioration of the structure.

The present invention aims to provide better insulation in an existing building. In particular, the present invention can also be used in such buildings, in which there is a gap between an outer facade and a more inner bearing or non-load-bearing wall of the building, which, however, is not suitable for the introduction of insulation boards.

For real estate, there is almost always the need to be able to heat an interior of the property in the cold. Conventionally, many different designs of floor, wall and ceiling heaters are known. Once installed, however, these heating systems are fixed in terms of their size and size and thus inflexible. More flexible solutions are given for example by mobile radiators or ventilation devices. However, these systems are less efficient than surface heating systems.

Against this background, the present invention aims to be able to heat the interior of a building flexibly and efficiently.

In weather protection devices such as umbrellas, etc., there is often the problem that accumulates under the weather protection unintentionally heat that is mostly unwanted, especially in sun protection systems, because these systems are usually used on sunny and therefore usually warm days.

Against this background, the present invention also aims to provide a weather protection device, the use of which entails the least possible heat accumulation. PRESENTATION OF THE INVENTION

The present invention is first an insulation for a building according to claim 1. Advantageous features of the invention will become apparent from the dependent claims. Furthermore, the invention is a method for insulating at least one wall of a building according to claim 10 and further features and advantages of this invention will become apparent from the corresponding subclaims.

Further aspects of the invention reside in a curtain for a room or a facade of a building according to claim 14 and a weather protection device according to claim 19 or claim 21. Advantageous developments of these aspects of the invention result from the corresponding subclaims.

Specifically, an insulation according to the invention for a building, which is arranged on an existing wall of the building, at least two laterally spaced spacers, which are arranged on the wall, the ceiling or the floor and between which an insulating surface of the wall, the ceiling or the floor is definable. Furthermore, the insulation comprises a material web which extends at least between the at least two spacer elements to cover the insulating surface of the wall, the ceiling or the floor, and porous insulating material in the region of the insulating surface between the wall, the ceiling or the floor and the material web is provided.

In a method according to the invention for insulating at least one wall, the ceiling or the floor of a building, at least two laterally spaced spacer elements are arranged on the wall, between which an insulating surface of the wall can be defined. Further, a material web is attached to the at least two spacers so as to cover the insulating surface of the wall, the ceiling or the floor, and porous insulating material is applied in the region of Insulating surface between the wall, the ceiling or the floor and the web introduced to fill the space between the wall, the ceiling or the floor and the web at least partially.

The spacers are preferably designed so that they conduct heat only very bad. For this purpose, the spacer elements may be formed of a material with a small coefficient of thermal conductivity or shaped and dimensioned accordingly.

For the insulating material is preferred that it is hydrophobic. By this is meant that the insulating material is unsuitable for absorbing and storing moisture. Thus, it can be avoided that moisture is kept in the area of the insulation surface and can lead to a rapid weakening of the insulation due to moisture.

Preferably, the at least two laterally spaced spacer elements at least two laterally spaced longitudinal slats, which are arranged on the wall, the ceiling or the floor and between which the insulating surface of the wall, the ceiling or the floor is definable.

Preferably, the longitudinal slats are arranged substantially vertically along the wall, so that the insulation material in the region of the insulation surface can be filled or filled from above between the wall and the material web.

Due to the substantially vertical arrangement of the longitudinal slats, it is possible to fill the insulation material from above into the space between the wall and the material web, which may be provided in particular between the supporting wall and the facade.

Alternatively, the spacer elements may for example be pins or similar elements which are spaced apart in the vertical and in the horizontal direction and accordingly create free space for the propagation of the insulation material between the spacer elements.

The spacer elements are preferably made of a non ^¬ organic material. This provides the advantage that the spacers are very resistant to moisture.

The insulating material may in particular be a foam or granules, preferably an airgel, in which a volume fraction of at least 85%, preferably of at least 90%, a gas, in particular air, is included. Although such a material, in particular airgel, is known in principle from the prior art, its particular advantage in connection with the insulation of existing buildings is only further exhausted by the present invention. Aerogels are made by drying a gel of a gelatinous substance under extreme conditions, so that an extremely large amount of air or other gas is enclosed by the dried material. This leads to the superior insulating properties, while the nature of the material as a gel or granules, particularly in the context of the present invention is very advantageous because the substance can be so easily filled into narrow spaces.

Advantageously, the web is a web of non-woven, a fabric, a fine mesh or similar material. These materials are particularly well suited to be placed in spaces between a load-bearing or non-load-bearing wall and a facade, because they can flexibly bring into the space. At the same time, these materials can be well secured to the spacers to form the space for receiving the insulation material. Nonwovens, fabrics, fine mesh and the like also have the advantage of a particularly good vapor permeability, so that the additional insulation does not have to form a vapor barrier. In a preferred embodiment, the material of the material web is porous and has a pore size which is smaller than a cross section of a single particle of the insulating material, provided that the insulating material is composed of individual particles. Alternatively, it is preferred that the pore size of the material of the material web is so small that no insulating material passes through the pores, for example when the insulating material is introduced in the form of a foam.

In a particularly preferred embodiment, the insulation is formed so that the insulation material, in particular by suction, can be removed to any proportion from the space between the material web and the wall. For this purpose, the insulation, for example, between the spacer elements have openings through which the insulation material can be sucked or otherwise removed. For this purpose, in particular a granular form of the insulating material is suitable.

If the insulation material can also be removed, it is possible to influence the degree of insulation and renew the insulation material if necessary and the insulation thus formed is particularly suitable as a temporary insulation solution.

Advantageously, the spacer elements are dimensioned such that the material web in the region of the spacer elements has a distance from the wall of at least 3 cm, preferably 5 cm. This distance has been found to be particularly effective for filling the insulation material and practicability in the retrofitting of existing real estate. In principle, however, it is also possible to use other dimensions of the spacer elements.

Preferably, the material web is formed so that it with a cleaning material, in particular an air-permeable and preferably additionally water-impermeable cleaning material, can be plastered. So can be dispensed with a curtain wall or the like in front of the material web, without having to accept optical restrictions.

A curtain according to the invention for a room or facade of a building comprises a sheet of material forming a surface of the curtain and a cavity extending over a majority of the area of the curtain. The curtain is characterized in that it comprises a network of heating wires and in the cavity a porous insulating material is received, so that the insulating material extends over a majority of the surface of the curtain.

By such a curtain, a very flexible wall heating can be provided, which can be retrofitted if necessary and also easily removed. Due to the large possible heating surface of the curtain, the curtain can heat very efficiently.

In a preferred embodiment, the network further comprises LED and / or fiber optic light wires. By this embodiment, a lighting, in particular an ambient lighting of the room can also be created.

The net is preferably part of the material web which forms the surface of the curtain. Alternatively, the network can also be applied to the material web from the outside or the inside. It is also possible that a network of LED and / or fiber optic light wires and a separate network of heating wires is provided on the web, so that the network in the sense of the invention defined above is two or more parts.

An embodiment in which the net is part of the web has the advantage that the net is better integrated into the curtain and can not easily detach from the curtain. Advantageously, the network is arranged on only one side of the cavity, while on the opposite side of the network of the cavity, a material web is arranged without heating wires.

The curtain is thereby preferably arranged so that the heating wires of the network lie on the space-facing side of the cavity of the curtain. Due to the insulating effect of the insulation material received in the cavity then radiates virtually all the heat energy in the room. At the same time, the side facing the window or wall is insulated from the cold.

A first weather protection device according to the invention comprises a material web, which is an area of the

Weatherproof device forms a cavity extending over a major portion of the surface of the weatherproofing device and a porous insulating material in the cavity such that the insulating material extends over a major portion of the surface of the weatherproofing device.

A second weather protection device according to the invention comprises a material web, which is an area of the

Weather protection device forms, wherein the material web consists of an insulating material. Instead of the aforementioned granules of insulating material and the material web itself can prevent heat conduction, if it is formed from a corresponding material.

This weather protection device prevents, for example, in

Case of a sun protection device that heats the material heated by the sun heat behind or under the

Sunscreen device passes, because the insulation material prevents heat conduction. On the other hand, in the case of a tent or the like, the weather protection device allows heat to be expelled from the interior of the tent to the outside. Preferably, in one embodiment, a water-carrying layer is further provided, which removes heat from the underlying zone by evaporation.

For the weather protection device and the curtain, it is preferred that the insulation material is a granulate, preferably an airgel, in which a volume fraction of at least 85%, preferably at least 90%, of a gas, in particular air, is contained.

Preferably, the weather protection device is an awning, a parasol, an awning, a beach shell, a tent, a window sill or a roller blind, in particular for a roof window.

In particular, in the case of a window sipe or a Sonnenrolllos the material web is preferably dimensionally stable and thus can be used to define the shape of the

Weather protection device contribute. In a preferred embodiment, in particular as a sun blind for a roof window, the insulating material is made transparent to a light incidence by the

Roof windows. Advantageously, the sunblind can be additionally provided with a darkening mechanism to prevent the entry of heat radiation.

Longitudinal or transverse lamellae with porous granules filled on the inside are preferably attached to a façade side facing the sun. In sunshine, the slats are opened so that the sun heats the dark facade. As soon as the sun is no longer shining, the slats are closed and reflect the radiant heat of the façade back onto the façade. This can be massively saved heating costs. BRIEF FIGURE DESCRIPTION

Figure 1 shows a schematic representation of a preferred insulation for a building on an existing wall.

Figure 2 shows a schematic sectional side view of an alternative preferred insulation for a building on an existing wall.

FIG. 3 shows lamellas for attachment to a façade side facing the sun.

WAYS FOR CARRYING OUT THE INVENTION

In the following description of the figures, the same elements are given the same reference numerals and a repetitive description is largely avoided.

FIG. 1 shows a preferred first embodiment of an insulation 10 for a building. The insulation 10 is arranged on an existing wall 12 of the building. In the illustrated first embodiment are as

Abstandseemente two-spaced longitudinal slats 14, 16 disposed on the wall 12 and define therebetween an insulating surface 18 of the wall 12 on the insulating surface 18 opposite sides of the longitudinal slats 14, 16, each further isolation surfaces can be defined to further longitudinal slats, which are spaced from the Longitudinal slats 14, 16 are arranged on the wall 12. Thus, FIG. 1 shows only a small section of the possible insulation 10.

Each of the longitudinal slats 14, 16 has a rectangular cross-section and a thickness, measured from the surface of the wall 12, which is 5 cm. The width of the longitudinal slats 14, 16 can be chosen arbitrarily within wide limits. As a material for the longitudinal slats 14, 16, in particular wood has been found to be suitable. The two longitudinal slats 14, 16 are mounted vertically on the wall 12, so that a material web 20 fastened to the longitudinal slats 14, 16 which extends substantially parallel to the wall 12 between the longitudinal slats 14, 16 at a distance of about 5 cm from the Wall 12 extends, together with the longitudinal slats 14, 16 and the wall 12 defines a space which is laterally limited, but may have an opening at its upper and / or lower edge. In this opening, porous insulating material 22 between the material web 20 and the wall 12 and the two longitudinal slats 14, 16 are filled to fill the space in the region of the insulating surface 18 with the insulating material 22. This can be achieved particularly easily by pouring granular insulation material from above into this space.

The insulating material 22 is particularly preferably airgel granules, wherein a cross section of the individual particles of the airgel is greater than a diameter of pores in the material web 20, which is formed in the present first embodiment by a coarse fleece.

The amount of insulating material 22, which is filled in the region of the insulating surface 18 between the wall 12 and the material web 20 and the two longitudinal slats 14, 16, is essentially by the volume of the longitudinal slats 14, 16, the wall 12 and the material web 20 enclosed space determined. However, it is also possible to partially or completely remove the insulation material 22 after the filling, in particular to suck it off. This can be of particular advantage if the insulation 10 is dismantled again, the insulation material 22 exchanged or the dimensions of the insulation 10 to be changed. The insulation material 22 can be reused particularly well in this case, so that the insulation according to the invention is also particularly environmentally friendly.

The use described in connection with the insulation 10 of the insulating material 22, in particular of airgel, can be transferred to a curtain and a weatherproof device. As an alternative to the granules, it is also conceivable to provide a material web of the insulating material 22, which may be dimensionally stable or flexible.

Figure 2 shows a preferred second embodiment of the present invention in a side sectional view. Instead of the longitudinal slats 14, 16 of Figure 1 form in the second embodiment, pins 17, the spacer elements, between which the insulating surface 18 of the wall 12 is defined. The pins 17 are formed as plastic pins, which have the lowest possible thermal conductivity. Alternatively, however, the pins 17 can also be formed from another, preferably inorganic material.

In order to produce the insulation 10 according to the second embodiment, the material web 20 is first attached to the wall 12. This can be done for example by stapling, stapling, nailing, screwing, gluing or by a Velcro connection.

Thereafter, the pins 17 are secured to the wall 12 and / or the web 20 to define a space to be filled by the insulating material 22. To further define and limit this space, the web 20 is guided on the wall 12 opposite side of the pins 17 from bottom to top. During this or after the material web 20 is guided upward or was, the insulating material 22 can be filled in the space defined by the material web and optionally lateral boundary elements. This allows a compact façade of a new building to be efficiently and effectively insulated.

Figure 3 shows cross blades with internally filled porous granules, wherein the granules themselves are not shown. The slats are preferably attached to a side facing the sun facade. In sunshine, the Slats are opened so that the sun heats up the dark and thus heat energy easily absorbing façade. As soon as the sun is no longer shining or at least the power transmitted from outside to the facade falls below the power transmitted from the façade to the outside, ie the heat is released effectively from the façade, the louvers are closed and reflect the ^radiant heat of the façade back on the facade, which can save a lot of heating costs.

Claims

1. Insulation (10) for a building attached to an existing wall (12), a ceiling or a floor of the building is arranged, comprising  at least two laterally spaced spacer elements (14, 16, 17) arranged on the wall (12), the ceiling or the floor and between which an insulating surface (18) of the wall (12), the ceiling or the floor is definable, a material web (20) which extends at least between the spacer elements (14, 16, 17) to the Insulating surface (18) of the wall (12), the ceiling or the To cover the ground, and  porous insulating material (22), which is provided in the region of the insulating surface (18) between the wall (12), the ceiling or the bottom and the material web (20). 2. Insulation (10) according to claim 1, wherein the at least two laterally spaced spacer elements (14, 16, 17). at least two laterally spaced longitudinal slats (14, 16) which are arranged on the wall (12), the ceiling or the floor and between which the insulating surface (18) of the wall (12), the ceiling or the floor is definable. 3. Insulation (10) according to claim 2, wherein the longitudinal slats (14, 16) are arranged substantially vertically along the wall (12), ceiling or floor, so that the  Insulation material (22) in the region of the insulating surface (18) from above between the wall (12) and the material web (20) or laterally between which the blanket or the floor and the material web can be filled. 4. Insulation (10) according to any one of the preceding claims, wherein the material web (20) comprises a web of non-woven, a Tissue, a fine mesh or the like. 5. Insulation (10) according to one of the preceding claims, wherein the material of the material web (20) is porous and preferably has a pore size which is smaller than a Cross section of a single particle of the insulating material (22). 6. insulation (10) according to any one of the preceding claims, wherein the insulating material (22) is a foam or a Granules, preferably an airgel, in which a volume fraction of at least 85%, preferably at least 90%, a gas, in particular air, is included. 7. insulation (10) according to any one of the preceding claims, which is formed so that the insulation material (22), in particular by suction, to any proportion from the space between the web (20) and the wall (12), the ceiling or the bottom is removable. 8. insulation (10) according to any one of the preceding claims, wherein the spacer elements (14, 16, 17) are dimensioned so that the material web (20) in the region of the spacer elements (14, 16, 17) a distance from the wall (12 ), the ceiling or the floor of at least 3 cm, preferably 5 cm. 9. insulation (10) according to any one of the preceding claims, wherein the material web (20) is formed so that it can be plastered with a cleaning material, in particular an air-permeable and preferably additionally water-impermeable cleaning material. 10. A method for insulating at least one wall (12), the ceiling or the floor of a building, wherein  at least two laterally spaced spacer elements (14, 16, 17) are arranged on the wall (12), the ceiling or the floor, between which an insulating surface (18) of the wall (12), the ceiling or the floor is defined, a material web (20) on the at least two Distance elements (14, 16, 17) is attached, that they the insulating surface (18) of the wall (12), the ceiling or the Bodens covered, and  porous insulating material (22) in the area of Insulating surface (18) between the wall (12), the ceiling or the floor and the material web (20) is introduced to at least partially fill the space between the wall (12), the ceiling or the floor and the material web (20) , 11. The method according to claim 10, wherein the at least two laterally spaced spacer elements (14, 16, 17) at least two laterally spaced longitudinal slats (14, 16, 17) which are arranged on the wall (12), the ceiling or the floor and between which the insulating surface (18) of the wall (12), the ceiling or the floor is definable , 12. The method of claim 11, wherein the longitudinal slats (14, 16) are arranged substantially vertically along the wall (12), the ceiling or the floor, so that the Insulating material (22) in the region of the insulating surface (18) from above between the wall (12) and the material web (20) or laterally between the ceiling or the floor and the Material web is filled. 13. The method according to any one of claims 10 to 12, wherein the insulating material (22) partially removed from the space between the material web (20) and the wall (12), the ceiling or the bottom, in particular sucked, is. 14. Curtain covering a room or facade of a building  a web forming a surface of the curtain, a cavity extending over a majority of the area of the curtain,  characterized in that he has a network of heating wires and in the cavity a porous insulating material is received so that the insulating material extends over a majority of the surface of the curtain. 15. Curtain according to claim 14, wherein the insulating material is a granulate, preferably an airgel, in which a volume fraction of at least 85%, preferably at least 90%, a gas, in particular air, is included. A curtain according to claim 14 or 15, wherein the mesh is part of the web forming the surface of the curtain. A curtain according to any one of claims 14 to 16, wherein the net is disposed on only one side of the cavity while on the opposite side of the net Cavity a material web is arranged without heating wires. The curtain of any one of claims 14 to 17, wherein the mesh further comprises LED lightwires or fiber optic lightwires. 19. Weather protection device comprising a material web which forms an area of the weather protection device,  spread over much of the area of the Weatherproof device extending cavity and  a porous insulating material in the cavity such that the insulating material extends over a majority of the surface of the weatherproofing device. 20. Weather protection device according to claim 19, wherein the insulating material is a granulate, preferably an airgel, in which a volume fraction of at least 85%, preferably at least 90%, a gas, in particular air, is included. 21. Weather protection device comprising a material web which forms an area of the weather protection device, wherein the material web consists of an insulating material. 22. Weather protection device according to one of claims 19 to 21, which is an awning, a parasol, an awning, a beach shell, a tent, a window sill or a Sun blind is especially for a roof window.