DE8025534U1 - WALL ELEMENT FOR BUILDING - Google Patents

Description

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C (Il <Il Il It It DIPL.-ING. HORST ROSE DlPL-ING, PETER KOSEL PAYENfANWXLtE

Our file no. 2149/222 Bad Gandersheim, 23, Sep. 1980 Karl Heinz Vählbraük

Wall element for buildings

The invention relates to a wall element serving as a heating and cooling device for buildings.

It is known to use metal radiators in buildings for heating purposes, which come in various shapes are designed in such a way that such a metal heating element carries the respective heat-transferring medium inside, e.g. Heating or cooling water. Such metal radiators are available in various sizes and designs as radiators or heating plates formed and verden as required selected and installed in their size in the room to be heated. Mastering the installation requirements of radiators increases significantly with the tightening of regulations relating to energy saving to. On the other hand, there is an increasing tendency to use industrial prefabrication in modern construction technology and as far as possible to include components used for installation in the general structure of the building. This is practical with the known metal radiators not possible. The on-site fulfillment of all standards comes up against limitations resulting from the restricted Possibilities of the craftsmen on the building result and on the other hand from the dependence on human Reliability in work execution. Compliance with the prescribed insulation values can hardly be foreseen and subsequently controllable, so that the demand for complete functional components is increasing exists that can be used as type-tested parts in construction. Another particular problem arises look at the ones required for such metal radiators

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Meizkkörperernischen ^ the yes to be included in the overall construction must, and in particular, take over construction-level functions must, but on the other hand, the highest possible thermal insulation is necessary to comply with the prescribed standards. This requires the known metal radiators considerable effort and yet can only be insufficiently fulfilled. Additional difficulties arise when attaching the radiator with hooks and clamps o. The like. That too uncontrollable Can lead to thermal bridges and thus also destroy costly thermal insulation measures, especially with the described inadequate construction work.

The invention is based on the object of a wall element serving as a heating and cooling device for buildings to create in which both the requirements for energy savings and thus for thermal insulation are met as well as being made possible at the same time, this wall element also acts as a structural component taking on static functions to be included in the building, thereby eliminating the difficulties outlined above. It should the wall element is simply constructed, made of simple materials and easy to assemble. Further In particular, the industrial prefabrication of such wall elements should also be made possible or promoted.

According to the invention, this is achieved above all by a wall element of the specified type, which is characterized is through a support body with a U-shaped cross-section made of high-density cement, one between the legs of which are arranged, plate-shaped inner insulating body made of ceramic resting against its base Foam material and a plate-shaped, on the side facing away from the support body in a recess of the Insulating body arranged plate-shaped heating and cooling body made of aochproof cement with embedded therein or molded, the heat-demanding medium leading Heating and

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Cooling lines. As a ceramic foam material is eligible in particular a ceramic bonded Blähtonkörper as eg _s dsr in DE-PS 19 14 372 is described. Instead of the expanded clay, however, other expandable ceramic materials can also be used, for example expanded slate or the like. The support body made from the high-density cement ensures the required static strength of the wall element. The insulating body made of ceramic foam material for its part participates in the load-bearing capacity of the wall element, but leads above all to a high level of thermal insulation on the one hand and to a high lack of storage capacity on the other hand. The heating and cooling element made from the high-density cement forms an element that is particularly easy to integrate into the wall element. The support body, insulating body, and heating and cooling body are intimately connected to one another during production by the hydraulic bond between the cement parts on the one hand and the foam material on the other. The production and in particular the industrial prefabrication are simple and lead to the described intimate connection. Both the high-density cement and the ceramic foam are extremely corrosion-resistant.

According to one embodiment of the invention, the support body and the heating and cooling body consist of hydrosol colloid cement. This hydrosol colloid cement can be combined with the ceramic foam material during manufacture unite particularly intimately by way of hydraulic bonding. At the same time it has an extremely favorable strength to meet the static requirements. This high-density cement is expediently reinforced, e.g. fiber-reinforced or by introducing reinforcement steels or the like, this applies in particular to the support body. This reinforcement of the high-density cement and especially the hydrosol-colloid cement helps with fulfillment the structural requirements of the entire wall

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to be able to produce element with a relatively small wall thickness * An impairment of the respective reinforcement corrosion is practically completely prevented »since the hydrosol colloid cement acts as an active protection against corrosion; works. Such an active corrosion protection of such Reinforcements, and in particular steel reinforcements, are maintained even if hairline cracks occur, namely through a so-called self-healing process.

Particularly in terms of thermal insulation and integration in the building wall particularly advantageous wall element is in a further embodiment of the invention achieved in that on the side facing away from the heating and cooling body of the support body at least one plate-shaped outer insulating body made of ceramic foam material is arranged. On the one hand, this has a supporting effect On the other hand, it leads to a further high level of thermal insulation and heat storage capacity within the building wall. A particularly favorable construction is achieved here if the support body is perforated at its base and the rear side of the inner insulating body penetrates this breakthrough. The support body takes on the static strength functions required in each case, while the rest of the wall element except for the heating and cooling element, almost completely from the ceramic foam material with high thermal insulation and high heat storage can exist.

Further particular advantages can be achieved through a further embodiment of the wall element according to the invention achieve when the heating and cooling lines are incorporated into the cement of the heating and cooling body, in particular of the heating and cooling element made from the Hydrosol Colloid cement. On the one hand, the various lines can be routed simply work it into this body or mold it in during manufacture. Here are horizontal and vertical Cable routing possible in the form required in each case.

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Iier hydrosol colloid cement as a wall material for the The heating and cooling lines carrying the heat-conveying medium lead to an extraordinarily high level of corrosion resistance these lines, and it is an operation in open heating and cooling systems with oxygen access without disadvantages possible. The cement board formed in this way can be reinforced in particular with mineral fibers. The water vapor diffusion that occurs in the heating and cooling element is negligibly small, it works In addition, the basic gas and water vapor permeability of the system formed in this way is positive, because this system contributes to increasing it and keeping it constant the room humidity can achieve. The lines worked into the heating and cooling elements lind by metal ions which are regularly found in heating systems and especially in open heating systems must be expected, not vulnerable, neither by iron nor by copper ions or the like. Should the respective application appear appropriate leave, it is possible, in a further embodiment of the invention, walls of the heating and cooling lines with a Coating, in particular a plastic layer, especially made of acrylic resin, against the heating and cooling medium to seal*

In a further embodiment of the invention, the heating and cooling body can be made from the high-density cement and in particular Hydro3Ol-Colloid-Cement on its not from the inner insulator enclosed areas be provided with side recesses in which the ends of the heating and Cooling lines open and can be connected to one another. A wide variety of connections can also be used here the heating and cooling lines are produced within the heating and cooling body, in particular the usual meander shapes for such radiators Line guides »

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· * · · · | I lit 1 according to the law The wall element according to the invention brings to- C.
J . · I · · «1 Ii Il .1 that at scales - -6- upper thigh Another structural advantage of the be designed as a usable area, in particular a window sill designed wall element consists of can. right arrangement of the support body

Lich its application technology in addition to the advantages described in detail, the further advantage with it, that due to the high thermal insulation and the large heat storage capacity this wall element is particularly advantageous in particular in the case of low-temperature heating systems.

Features, advantages and details of the invention emerge from the claims and from the following Description of an embodiment of the invention with reference to the drawing. Show it

Fig. 1 is a perspective view of the consisting of the support body and the outer insulating body Part of the wall element according to the invention,

Fig. 2 is a perspective view of the complete wall element according to the invention,

The wall element according to the invention has a support body 1 with a substantially U-shaped cross section on. In the exemplary embodiment, this support body is shown in a horizontal arrangement, as is the usual one

2p application of such a wall element corresponds. The support body 1 is made of high-density cement, in particular made of Hydroßol-Colloid-Zement, which is furthermore suitably reinforced by suitable materials, e.g. by Fibers, in particular mineral fibers, steel reinforcement or the like. The support body has a lower one Leg 1a, an upper leg 1b and a base 1c. At its base 1c this support body is

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broke to a rectangular cutout here 2.

The surface of the support body 2 directed towards the outside of the building is provided with a plate-shaped outer insulating body 3 connected, which is made of ceramic foam material, in particular of ceramic-bonded expanded clay, consists. The part of the wall element constructed in this way is shown in FIG. 1.

Fig. 2 shows the further structure of the invention Wall element: between the legs 1a and 1b and adjacent to the base 1c of the support body 1 made of hydrosol-colloid cement an inner insulating body 4 is arranged, which in the exemplary embodiment is also essentially Is U-shaped and thus delimited above and below by the legs of the inner insulating body 4 Forms rectangular cutout 5, which is open to the inside of the building. This expediently penetrates inner insulating body 4 on its rear side the opening 2 of the support body 1 (Fig. 1), which for simplification is not shown in the drawing and by corresponding shaping of the inner insulating body 4 is achieved. However, it is also possible to cut the opening or cutout 2 of the support body 1 by a separate one fill in plate-shaped insulating body. The insulating body 4 and, if necessary, the breakthrough 2 filling further insulating body consists of the ceramic foam material like the outer insulating body 3.

In the recess 5 formed in the inner insulating body 4 a plate-shaped heating and cooling body 6 is arranged and rearward intimately by hydraulic bonding connected to the inner insulating body 4, as well as the outer insulating body 3 with the support body 1 its back surface. The heating and cooling elements are also made of high-density cement, especially hydro-oil

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Colloid cement, and is optionally also suitable with Provided reinforcements, in particular fiber-reinforced or with suitable steel reinforcements. In these Heating and cooling bodies 6 are incorporated into the heating and cooling lines 7 carrying the heat-transferring medium, e.g. molded or drilled in. To at the respective open ends of these heating and cooling lines 7 with each other in the to connect in each desired manner or to generate the further connections desired in each case the heating and cooling body 6 on its surfaces not bounded by the inner insulating body 4 with lateral recesses 8, into which the heating and cooling lines 7 open and in which the ends of these heating and cooling lines 7 can be connected to one another in a suitable manner, e.g. by inserting the connecting lines containing insert parts, which are not shown for the sake of simplicity, their e.g. as connections for the Meander-shaped guidance of the heating and cooling lines 7 are indicated by dash-dotted lines at 9. For appropriate Applications can be the inner walls of the heating and cooling lines 7 with a coating, in particular made of Acrylic resin, sealed against the heating and cooling medium. As FIG. 2 also clearly shows, can be presented in the illustrated horizontal arrangement of the support body 1 whose upper leg 1b ale usable area, in particular as Windowsill, be trained.

The wall element designed according to the invention can be used directly as part of the building in its respective Walls or the like are integrated and there at the same time fulfill the required static functions, because the Support body 1 can be designed with the strength required in each case and the insulating body 3 and 4 as well the heating and cooling plate 6 also contribute to this strength. The wall element can be placed on the raw concrete of the Building or on a similar historical building «·

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Rest the plate as required by the particular application. The wall element can also be arranged vertically with a corresponding application; various cable routings within the Hei2- and cooling plate 6 can be provided, in particular also vertical line guides * In the given application, it is also possible to use the heating and cooling lines 7 as embed or pull in separate pipelines in the heating and cooling element 6 * The connection of the individual The components of the wall element described are carried out in particular by the hydraulic connection of the high-density Cement with the respective ceramic foam material, if necessary with the addition of suitable adhesive or Adhesive. Description and drawing show that a wall element serving as a heating and cooling device for A building is created that does not require any, in particular metal, mounting or fastening means, so that any thermal bridges from such metal parts are completely avoided. The wall element according to the invention thus represents an integrable component for the construction of buildings.

Patent Attorneys Dip! .- Ing. Horsi Rose Dlßl.-Ing, Peter Kosel

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Claims (9)

• * »! * ·· I Ii) I · ·· ■ U S; ; & SSSS j. · .Ι ü I Il ■ · ·· | 9 DIPL-ING. HORST RUSE DI PL.-1 NG. PETER KOSEL PATENTANWXLTE Our file no. 2149/222 Bad Gandersheim, 23 $ gp jggQ Karl Heinz Vahlbrauk NSPRÜCHE 1. Wall element serving as a heating and cooling device for buildings, characterized by a support body (1) with an essentially U-shaped cross-section made of high-density cement _c between its legs (1a.j 1b) and resting against its base (1c) plate-shaped inner insulating body * (4) made of ceramic foam material and a plate-shaped heating and cooling body (6) made of high-density cement arranged on the side facing away from the support body (1) in a recess of the insulating body (4) the heating medium carrying the heat and cooling lines (7). 2. Wall element according to claim 1, characterized in that da3 the support body (1) and the heating and cooling body (6) consist of hydrosol colloid cement. 3. Wall element according to claim 1 or 2, characterized in that the high-density cement is reinforced. 4. Wall element according to one of claims 1 to 3, characterized marked that on the from heating and cooling. body (6) facing away from the side of the support body (1) at least a plate-shaped outer insulating body (5) made of ceramic foam material is arranged. 5 <Wall element according to claim 4, characterized in that that the support body (1) is perforated at its base (2) and the rear side of the inner insulating body (4) penetrates this breakthrough. 6. Wall element according to one of claims 1 to 5 »characterized in that the heating and cooling lines (7) Are incorporated into the cement of the heating and cooling element (6). ■ ·· Il I »·· al ■ <I · 1 I ■ · ■ t 1 J I ■> 1 ι I · a I > Μ '· I ■.' ill · '·· I • "Is '•' I ■ Ij It ■■ al -11- 01 7. Wall element according to claim 6, characterized in that the walls of the heating and cooling lines I (7) with a coating, in particular a plastic I layer of material sealed against the heating and cooling medium I 05 are * I. 8. Wall element according to one of claims 1 to 7, characterized in that the heating and cooling body (6) 'on its not enclosed by the inner insulating body (4) Areas with lateral recesses (8) k 10 can be seen in which the ends of the heating and cooling lines 1 (7) open and can be connected to one another. I. 9. Wall element according to one of claims 1 to 8, f. characterized in that with a horizontal arrangement I of the support body (1) its upper leg (1b) as a useful I 15 surface, in particular window sill, is formed. Pstoniar width Dipl.-Ing. Horst Rose D.jDl.-Ing. Peter Kosa!