DE10225167B4 - Room-high outer wall element - Google Patents

Abstract

Room-high outer wall element for a room element with the following wall construction from outside to inside:
A formwork (26),
An intermediate layer (24),
Spacer elements (27) between the formwork (26) and intermediate layer (24) to form a cavity (25),
• a vacuum insulation panel (23) and
• a wooden support layer (20, 21, 22).

Description

The The present invention relates to a room-high outer wall element for a room element.

According to an amendment to the Bavarian Building Code, since 1998 buildings up to 75 m ^{3 of} enclosed space may be constructed without a permit. These buildings can serve, for example, as a living space, office space, hobby room or as a warehouse.

Corresponding This amendment to the Bavarian Building Code may be erected without authorization building However, no firing systems included. Consequently, air conditioning, in particular a heating of the building over expensive electrical energy respectively.

Known Wall structures that have the necessary stability and above addition of appropriate heat and have cold insulation capacities, usually exist either two or more vertical posts, with a base plate of the building and a roof construction of the building are connected. On the outward facing surfaces is usually a weatherproof layer (wooden formwork or plaster) attached. On The inside of the wall construction usually becomes an interior lining (e.g., plasterboard or plaster).

Use of this wall structure in a building with only 75 m ³ enclosed space significantly reduces the floor space of such a building and, of course, the profitability of such a building.

In particular, wall structures, as they are known DE 198 47 110 A1 and the US 958 095 A reveal. However, the wall structure of the above-mentioned German publication differs from that of the present invention in that it is only two-layered and the vacuum panel is insufficiently protected against injury. Although the above-mentioned US document also shows a vacuum panel, but the wall element disclosed here is used for other purposes and is for example in equipment such as refrigerators, etc., are used. A disadvantage of the wall construction, as shown by the American Script, proves the relatively high latitude through the use of two highly constructive layers of wood, so that it is not suitable for use in buildings.

Of the The present invention is based on the problem, a space-high Specify outer wall element, the very good insulation properties and a minimum wall thickness having a specific wall structure for use in room elements.

This Problem is caused by an outer wall element with in the claims 1 and 2 listed Characteristics solved.

The achieved with the solution according to the invention Advantages are in particular that one for building exterior walls or Room elements usable wall construction is specified, which is a very small wall thickness or thickness, but has very good insulation properties and high stability. moreover This wall construction is easy to make. The vacuum insulation panel has as inside a visible surface (e.g., a foamed Wood veneer). The outer wall element according to the invention is also very stable, low weight, and allows transport of the Room element, making a mobile, factory-made room element to disposal is provided.

advantageous Embodiments of the present invention will become apparent from the Dependent claims.

in the Below are embodiments of the present invention with reference to the accompanying figures described.

1 shows a sectional view of a first embodiment of a wall structure according to the present invention along a horizontal section line.

2 shows a sectional view of a second embodiment of a wall structure according to the present invention along a vertical section line.

3 shows a third embodiment of a wall structure according to the vorlie invention, along a horizontal section line.

4 shows a variant of the first embodiment of 1 ,

5 shows a variant of the second embodiment of 2 ,

6 shows a variant of the third embodiment of 3 ,

7 shows a variant of in 6 ge showed embodiment.

By the configuration of at least one of the outer walls of a residential element (room element) with a wall structure according to the present invention, as he, for example, based on the embodiments in the 1 to 3 is described, the living element is transportable and can be set up, for example, with a crane on a truck to be moved to a new location and there be turned off again without much effort. This allows, for example, prefabrication of the entire residential element in a factory and easy transport of the residential element to the place where the residential element is currently required. This ensures an efficient production and time-saving installation of the residential element. Preferably, the converted volume is about 75 m ³ .

It is also possible to form a side wall with the wall structure according to the invention. For example, with a wall construction as in 1 or 3 is shown, can arrange a window in a particularly simple manner. As no posts in the wall construction, the in 3 is shown, and also not in the wall structure, in 1 is shown, it is possible to insert the window anywhere in the sidewall and format.

Preferably is the length to width ratio of the residential element about 2 to 1. A clear height of the residential element is preferably corresponding to a normal room height of about 2.20 m to 2.50 m. However, it is also possible adapt the living element to special basic shapes or formal requirements and to make it square, for example, or for example in a length / width ratio of 3 to 1, if, for example, the residential element is used as an office space.

Due to the design of the living element such that a normal room height is given and with a length to width ratio of 2 to 1, a living space with approximately 24 to 28 m ² at 75 m ³ enclosed space is provided, the living element according to the invention is particularly suitable as a small guesthouse, office or even as a law office for a lawyer or tax consultant, who may place this residential element without permission according to the Bavarian building code in their garden. It should again be noted that the above-mentioned embodiment of the living element has no fireplace or the like and thus no firing system.

The following is now with reference to 1 a first embodiment of the wall structure according to the invention for building exterior walls described.

1 shows a first embodiment of a wall structure according to the present invention. numeral 20 in 1 denotes a first layer of wood, reference numeral 21 denotes a second layer of wood and reference numeral 22 denotes a third layer of wood. Preferably, each of the first wood layer 20 , the second layer of wood 21 and the third layer of wood 23 about 2 cm thick. The first layer of wood 20 , the second layer of wood 21 and the third layer of wood 22 together form a thick wood layer. Preferably, the layers of the thick wood layer are crimped together according to the wood fiber in a vacuum pressure gluing process. For example, for the first layer of wood 20 , the second layer of wood 21 and the third layer of wood 22 , so for the entire thick wood layer, a prefabricated thick wood panel used. Corresponding thick wood has, moreover, a very high stability, so that can be dispensed with posts or similar stabilization elements in the wall structure, since the stability of the wall substantially by the thick wood, namely the first layer of wood 20 , the second layer of wood 21 and the third layer of wood 22 is determined. In other words, the thick wood forms a supporting layer of the wall structure. On the thick wood is a vacuum insulation panel 23 arranged. As the vacuum insulation panel, it is preferable to use a pressed, evacuated powder plate of microporous silica coated with a gas-tight high-barrier composite sheet. The thickness of the vacuum insulation panel 23 is usually between 10 mm and 80 mm, but preferably 20-30 mm. At a density of about 160 kg / m 3 and a compressibility of about 5% to% at a load of 0.1 Mpa, a heat conductivity of such a vacuum insulation panel in about 0.004 W / mK -0.005 W / mK (<5mbar gas pressure ), 0.007 W / mK (100 mbar gas pressure) and 0.020 W / mK (vented). This means that the arrangement of such a Vakuumdämmpaneels 23 in the wall construction according to the invention requires very good thermal insulation properties of the wall structure. Moreover, the absorbency for water vapor is very good at about 5% without significantly affecting the thermal properties. Due to elastic properties of the powder core of the vacuum insulation panel 23 leads the arrangement of the vacuum insulation panel 23 in the wall structure according to the present invention to very good sound insulation properties of the wall structure according to the invention.

On the vacuum insulation panel 23 is an intermediate layer 24 arranged, which is preferably a wooden plate with a thickness of 2 cm. For this purpose, for example, a joiner's wood panel, a press Chipboard or a Dickholzbauplatte used in sandwich construction. The intermediate layer 24 can make the finished outerwear. But it can also at least two spacers 27 to be ordered. The spacers 27 are designed for example by means of vertical roof battens. The thickness of the spacer elements 27 is in the present embodiment between 1.5 and 3.5 cm. On the spacer elements 27 is a formwork as a finishing layer 26 arranged. The formwork 26 forms an outside of the wall construction. The formwork 26 is designed for example as a wooden plate. By arranging the spacer elements 27 between the intermediate layer 24 and the formwork 26 gets between the interlayer 24 and the formwork 26 a cavity 25 generated, which is filled with air. In this cavity 25 For example, a breeze can be generated to remove moisture. In the in 1 shown embodiment of the wall structure, the right side of the wall structure is the side facing in the living element inwards, ie in the living room, whereas the left side is the outside of the living element. Advantageously, this embodiment allows a very light wall construction, whereby a simple transport of the living element is ensured. Moreover, the wall structure according to the present embodiment of the present invention has very good insulating properties due to the use of the vacuum panel 23 on. This makes it possible to provide a living element available that does not require a firing system and, for example, self-sufficient with renewable energy, such as solar panels or a heat pump, heated and can also be cooled. Furthermore, this allows in 1 shown embodiment of the wall structure according to the present invention has a very small thickness of the wall, namely a thickness of about 15 cm. This makes it possible to advantageously provide a living element available that provides a maximum living space with a minimum enclosed space. For example, it is possible to provide a living space of 24 to 28 m ² by means of the wall structure according to the invention in this embodiment with a built-in space of 75 m ³ .

In 2 a second embodiment of a wall structure according to the present invention is shown. In 2 for the same or corresponding elements the same reference numbers as in 1 used. This in 2 shown embodiment of the wall structure according to the invention for building exterior walls includes the formwork 26 Making an outside of the wall construction and the vacuum insulation panel 23 forming an inside of the wall construction. To the stability of the formwork 26 and the vacuum insulation panel 23 are at least two posts 30 provided vertically provided between a bottom plate and a roof of the residential element. On outward-facing surfaces of the posts 30 are each profiles 32 for fastening the vacuum insulation panel 23 intended. The vacuum insulation panel can advantageously be provided on the inside with a protective and visible surface of metal or glass. The profiles 32 are for example on the posts 30 screwed. Opposite the profiles 32 are corresponding profiles 33 provided, each with the profile 32 interact and thus the vacuum insulation panel 23 at the post 30 holds. On outward-facing surfaces of the profiles 33 can additionally spacer elements 27 be provided, where the formwork 26 is attached. The formwork 26 forms the outer surface of the wall structure and the vacuum insulation panel 23 then forms the inner surface of the wall structure. As a vacuum insulation panel 23 in 2 Preferably, a vacuum panel is used, as with reference to 1 has been described. The in 2 shown wall structure advantageously allows a very narrow wall structure, in the present embodiment, a width of about 5 to 12.5 cm without posts 30 having. Preferably, the posts 30 arranged in the corners of the living element, leaving on a post 30 two walls, namely, for example, a front wall and a side wall can be attached. In this way, a living element is provided, which has a very narrow wall structure, thus providing a very large living space and yet by arranging the posts 30 has sufficient stability.

Now with reference to 3 A third embodiment of the wall structure according to the present invention will be described. In the description of 3 the same reference numerals are used for the same or corresponding elements already with reference to 1 or 2 have been described. The pointing to the right inside of the wall structure is in the embodiment of 3 again by means of a thick wood, consisting of the first layer of wood 20 , the second layer of wood 21 and the third layer of wood 22 educated. On the Vakuumdämmpaneel can at least two spacers 27 be provided on which the formwork 26 is arranged. On the thick wood layer, more precisely on the third layer of wood 22 is the vacuum insulation panel 23 arranged. As already with reference to 1 was executed, the gap can 25 used to dissipate condensation moisture by means of an artificially generated draft.

The additional arrangement of the formwork as the outermost surface of the wall structure provides in the reference to the 1 to 3 described embodiments an additional weather protection and a design possibility of the outside In addition, this ensures a longevity of the wall structure.

4 shows a variant of the first embodiment of 1 , The in 4 shown wall construction corresponds to the in 1 shown wall construction with the difference that the Vakuumdämmpaneel 23 in a damping material 31 is foamed. The insulation material 31 is for example a PU foam. Advantageously, this structure has even better insulation properties. Moreover, by the foaming of the Vakuumdämmpaneels 23 by means of the insulating material 31 ensures easier handling of the vacuum insulation panel.

The 7 . 8th and 11 correspond to the wall construction, which in 1 is shown and are assigned to claim 1.

5 shows a variant of the second embodiment of 2 , and is assigned to claim 2. The in 5 shown wall construction substantially corresponds to the in 2 shown wall structure, but with the Vakuumdämmpaneel 23 by means of the insulating material 31 is foamed. The vacuum insulation panel can advantageously be provided on the inside with a protective and visible surface of metal or glass. Advantageously, this wall construction has very good thermal insulation properties. Moreover, by the foaming 31 the vacuum insulation panel 23 protected against mechanical influences as well as against solar radiation.

6 shows a variant of in 3 shown third embodiment. The in 6 Wall construction shown essentially corresponds to the wall structure of 3 , where, however, in 6 the vacuum insulation panel 23 over the entire surface of the third layer of wood 22 extends. Likewise, the spacers 27 not on the third layer of wood 22 arranged but on the Vakuumdämmpaneel 23 , This wall construction advantageously provides a heat or cold bridge-free wall structure.

7 shows a variant of in 6 shown wall construction. In the in 7 shown wall construction is the vacuum insulation panel 23 by means of the insulating material 31 foamed. As 7 it can be seen, the vacuum insulation panel is all around with the insulating material 31 foamed. Correspondingly, there are also impact edges of adjoining vacuum damping panels 23 encased by the insulating material. This allows a simple, virtually joint-free arrangement of different vacuum insulation panels. Also, by means of the insulating material 31 Strength differences of vacuum insulation panels 23 be compensated. Preference as the spacers 27 arranged so that they touch the small gap between the insulation materials 31 two vacuum insulation panels 31 are set.

Claims (9)

Room-high outer wall element for a room element with the following wall construction from outside to inside: • a formwork ( 26 ), • an intermediate layer ( 24 ), • spacers ( 27 ) between formwork ( 26 ) and intermediate layer ( 24 ) to form a cavity ( 25 ), • a vacuum insulation panel ( 23 ) and • a wooden support layer ( 20 . 21 . 22 ). Room-high outer wall element for a room element with the following wall construction from outside to inside: • a formwork ( 26 ); A vacuum insulation panel ( 23 ), • spacers ( 27 ) between formwork ( 26 ) and vacuum insulation panel ( 23 ) to form a cavity ( 25 ) and • at least two inside posts ( 30 ) to which the vacuum insulation panel ( 23 ) is attached. External wall element according to claim 1 or 2, characterized in that the vacuum insulation panel ( 23 ) is a pressed, evacuated powder plate of microporous silica and has a gas-tight envelope of a high barrier composite film. External wall element according to one of claims 1 to 3, characterized in that the vacuum insulation panel ( 23 ) with a foam ( 31 ) is provided. External wall element according to one of claims 1, 3 or 4, characterized in that the support layer ( 20 . 21 . 22 ) consists of a layer of thick wood layered boards arranged. External wall element according to one of claims 1 to 5, characterized in that the formwork ( 26 ) consists of wood. External wall element according to claim 1, characterized in that the intermediate layer ( 24 ) consists of a wooden plate. Outer wall element according to one of the claims 1 to 7, characterized in that the Vakuumdämmpaneel provided on the inside with a protective and visual surface is. External wall element according to claim 2, since characterized in that on the outwardly facing surfaces of the posts ( 30 ) each profile ( 32 ) for fastening the vacuum insulation panel ( 23 ) are provided.