EP2742190A1

EP2742190A1 - Structural element for heat-insulating purposes

Info

Publication number: EP2742190A1
Application number: EP12746340.4A
Authority: EP
Inventors: Harald Braasch
Original assignee: Schoeck Bauteile GmbH
Current assignee: Schoeck Bauteile GmbH
Priority date: 2011-08-11
Filing date: 2012-08-13
Publication date: 2014-06-18
Anticipated expiration: 2032-08-13
Also published as: CA2844955A1; WO2013021070A1; PL2742190T3; US20140202102A1; CA2844952A1; US20140190108A1; KR20140068958A; RU2014108884A; US9382705B2; US9435115B2; EP2742191B1; KR20140064855A; EP2742190B1; PL2742191T3; EP3118382A1; JP2014525523A; WO2013021069A1; EP2742191A1; RU2014108886A; JP2014527129A

Abstract

Structural element for heat-insulating purposes between two structural parts, in particular between a building and a projecting exterior part, consisting of an insulating body, which is to be arranged between the two structural parts, and of reinforcing elements at least consisting of a pressure-exerting element which, with the structural element in the installed state, runs through the insulating body substantially horizontally and transversely to the substantially horizontal longitudinal extent of the insulating body, and can be connected at least indirectly to the two structural parts, wherein the pressure-exerting element has an additional element which encloses the pressure-exerting element at least in sub-regions, and at least indirectly, wherein the pressure-exerting element is produced using a lost mould (1), wherein the additional element consists, at least in part, of the lost mould, and wherein the additional element is formed in two or more parts.

Description

Component for thermal insulation

description

The present invention relates to a component for thermal insulation according to the preamble of patent claim 1.

Such components for thermal insulation are known for example from EP-A-1 225 282; In this case, the additional element consists of a lost mold for a pressure element made of concrete. The casting mold, in turn, consists of a plastic shell into which the concrete is filled and with which the concrete is inserted together into the thermal insulation component so that the casting mold surrounds the concrete pressure element when installed, ie also at its end faces facing the adjacent structural components. This can be exploited to the fact that the mold forms a sliding layer for the concrete pressure element in this region of the end faces and thus does not hinder any relative movements occurring between the pressure element and the adjacent component, but favors by improved sliding properties.

The additional element may in a modification of the prior art described but also consist of a sliding body, which largely corresponds to the shape of the mold for the production of the printing element, but was not involved in the actual production of the printing element, ie the casting. However, due to the identical shape as the casting mold in the subregions which are important for the sliding movement, it is essentially ensured that the sliding body lies completely against the pressure element and can provide the same optimized gliding properties as the casting mold. In this respect, additional elements are known in the prior art, which consist either of a lost mold or a sliding body, which also surrounds the pressure element at least in partial areas and is installed together with the pressure element in the component for thermal insulation. The use of such concrete pressure elements, which are installed with a surrounding plastic layer, which plastic layer may consist of a lost mold or adapted to the shape of the pressure element slider, has now been proven in practice.

On this basis, the object of the present invention is to further improve a component for thermal insulation of the type mentioned at the outset and, in particular, to optimize it in terms of its utility and thermal insulation properties.

This object is achieved by a device for thermal insulation with the features of claim 1.

Advantageous developments of the invention are the subject matter of subclaims, the wording of which is hereby included by express reference in the description in order to avoid unnecessary text repetitions.

According to the invention, the additional element is formed in two or more parts, thereby enabling a modular construction and can thus be adapted exactly to the requirements existing in the respective pressure element subareas by means of this modular design.

Essential to achieve the advantages of the invention is the modular design. In this sense, the formulation of two or more parts should also be understood to mean that the additional element has parts or partial regions with different properties, in particular material properties. The term "part" is thus not to be understood as a physically independent unit but as part of the additional element Even if the additional element were to be made in one piece from two or more materials, this fulfills the modular construction according to the invention and is within the meaning of the present invention To conceive invention as two or more parts.

The modular design unfolds its advantages according to the invention, especially when it acts on the pressure element in the corresponding subregions, such. As the essential for power transmission end faces to improve the sliding properties or z. B. the side, above and / or below the Pressure element lying sub-areas to improve the heat-dissipating properties or z. B. for better positional fixation or mobility in the insulating body; However, it is also within the scope of the invention that the additional element or the mold does not act directly on the associated pressure element, but only indirectly and / or indirectly, for example with the interposition of a release film. It is essential that the additional element surrounds the pressure element at least partially and at least indirectly, even if an immediate application would be advantageous.

With the two or more parts of the invention, the proven advantage of the prior art, namely the production of the printing element using a lost mold even further optimized: If the additional element is formed two or more parts, it can, for example, in the important parts of the lost Have mold with optimized sliding properties and adapted in other areas to the local requirements, for example, have optimized thermal insulation properties.

The advantages according to the invention of the two- or multi-part additional element can be realized in various ways: Thus, the additional element in addition to the lost mold at least one further supplementary element having preferably nothing to do with the production of the pressure element, ie with the casting. This supplementary element may e.g. of thermal insulation material, such as made of foamed polyurethane or polystyrene in particular.

Likewise, it is also possible that the lost mold itself is formed in two or more parts. In this case, it is possible to transfer the above-described principle of modular design to the casting mold and to adapt partial regions of the casting mold to the respective requirements in the installed state. This is possible both when the additional element consists only of the (multi-part) lost mold, as well as if in addition to the (multi-part) lost mold another supplementary element is provided.

It is furthermore advantageous if, in addition to the lost casting mold, the pressure element is also replaced by a further, in particular re-used reversible forming element is made. Although this is involved in the production of the printing element, but then removed from this again. Its further use is irrelevant in itself for the printing element, it may, for. B. be reused for producing a further printing element. But there are also possible shaping elements that are destroyed when removed from the printing element.

If, for example, the pressure element has to perform or follow relative movements with respect to the adjacent component, then it is recommended that the additional element and / or the casting mold be formed in the contact region between the pressure element and the component in the manner of a sliding element in the form of a sliding layer or sliding plate , wherein the additional element and / or the casting mold may consist, for example, in this sub-area made of HD polyethylene.

In contrast, as a rule, no relative movements take place in the region of the insulating body on the side surfaces of the pressure element, which necessitate the interposition of a sliding layer; Instead, a particularly good thermal insulation property is important in these lateral areas of the insulating body, so that there the additional element and / or the casting mold can consist of a thermal insulation material, in particular of polyurethane or polystyrene foam. If said sliding element of HD polyethylene also extends over the entire insulating body region from one end face to the other end face, a thermal bridge or cold bridge would be formed thereby, so that the elements provided by the additional element and / or the casting mold are available Thermal insulation properties would be significantly less favorable than in the described inventive case, in which the additional element and / or the mold in the region of the insulating body consists of a thermal insulation material. The additional element and / or the mold can on the one hand by common shaping method such. As injection molding or coextrusion of various materials, so as to form, for example, a uniform and self-contained body, which may be formed, for example, cup-shaped. On the other hand, the additional element and / or the casting mold can also be formed by joining different components, wherein this joining, for example, by material bonding or by joining drive as gluing can be done. Likewise, it is also possible that the joining takes place by the printing element material itself, namely when the Druckelementmatertal is cured or set and thus the components of the mold, which adhere to the printing element material carries. In this context, it is also advantageous if two (or more) each other in terms of material, function and / or position corresponding components of an additional element or a mold are connected to each other via a connecting element. That is, for example, the two components arranged on the front side, which serve to accommodate relative movements between the pressure element and adjacent component, be connected to each other via a common connecting element, which already ensures that this connecting element sets the mutual distance of these two components and thus also the same defines the length of the pressure element produced in the mold.

It is also within the scope of the present invention that two adjacent printing elements have a common mold, whereby the mentioned modular structure can be optimized to form larger printing unit units, which in turn, due to their size and the number of pressure elements enclosed by them Improve the stability of the casting mold.

Further features and advantages of the present invention will become apparent from the following description of an embodiment with reference to the drawing; this shows

Figure 1 a - 1 d an additional element with a casting mold of an inventive

1b in vertical section, in Figure 1 a in horizontal section along the plane B-B of Figure 1 b and in Figure 1 c in horizontal section along the plane A-A of Figure 1 b.

Figure 2 shows an additional element of a device according to the invention for

Thermal insulation in perspective side view. In Figure 1, an additional element is shown, which consists of a mold 1, which serves to form a total of two concrete pressure elements (not shown) for a (also not shown) component for thermal insulation, which z. As is marketed under the name "Isokorb ^® with HTE module" The mold circumscribes two cavities 2, 3 for the printing elements, which cavities are surrounded by corresponding walls of the mold. 1: The cavities 2, 3 are longitudinally formed with a waist in horizontal section, that is, over its length slightly varying width (they are wider at their free ends and in their waisted middle area they are slightly narrower) and have at their terminal end faces 2a, 2b and 3a, 3b, the end faces of the Pressure elements form, sliding elements 4, which form the contact area between the pressure element on the one hand and adjacent component on the other hand in the installed state and accordingly serve to accommodate relative movements between the pressure element and adjacent component in the horizontal direction, especially along the joint.

The mold shown in Figure 1 is formed so that the pressure elements to be produced in their end faces with a component facing in horizontal section convexly curved contact profile are provided, in which case the mold in the region of this end face 4 in horizontal section one in the form of the contact profile oppositely adapted concave domed

Force introduction surface 4a, 4b, 4c, 4d has.

In the lateral pressure element area outside of the sliding elements 4, the walls of the casting mold 1 consist of a thermal insulation material made of polyurethane foam; these thermal insulation components extend slightly curved the pressure element shape following the Isolierkörperebene from a front-side slider 4 to the opposite end-side slider 4 and thus form slightly curved vertical side walls 5a, 5b, 5c, 5d.

Two sliding elements 4, 4 which are arranged on the opposite end faces of the concrete pressure element to be produced in the casting mold 1, are connected to one another via a common rod-shaped connecting element (not shown in the drawing), so that the connecting element predetermines the length of the associated pressure element. Likewise, opposite side walls 5a, 5b on the one hand and 5c, 5d on the other hand connected via a connecting element in the form of the polyurethane foam bottom 7a, 7b of the mold, so that in this way the width of the pressure element to be produced in the mold is predetermined and maintained without the filling of the Concrete material would change the distance of the side walls by the pressure of the concrete material.

It is readily apparent from the drawing that a pressure element to be produced in the mold 1 has areas with different functions and thus a mold for producing these areas when the mold is to be installed together with the pressure element in the thermal insulation component and there as well should take over corresponding functions, the mold must be constructed with adapted thereto walls. In this case, for example, in the region of the end faces of the pressure element, which serve for the introduction of force and power transmission to or from the adjacent component, the walls on the end faces 4 of the mold, d. H. the force introduction surfaces 4a, 4b, 4c, 4d be optimized with respect to the sliding properties, while the power transmission unimportant side mold side walls 5a - 5d in the region of the insulating body can be optimized in terms of thermal insulation properties.

In the embodiment according to FIG. 1, the additional element is thus composed of only a lost casting mold, but the additional element is nevertheless a multi-part overall since the casting mold consists of the force introduction surfaces 4a, 4b, 4c, 4d and the side walls 5a-5d, which are made of different materials are made.

In Figure 2, an additional element 1 1 is shown, which is used together with a concrete pressure element, not shown in Figure 2 in a device according to the invention for thermal insulation, which is also not shown in Figure 2. The pressure element is arranged in a cavity 12 for this purpose. In contrast to the embodiment according to Figure 1, the additional element 1 1 is formed not only from a lost mold, but a total of four parts 1 1 a, 1 b, 1 1, c and 1 1 d, namely two lost molds 1 1 b and 1 d and two supplementary elements 1 1 a and c. The casting molds 1 1 b and 1 1 d are in the range of end faces 24 of the additional element 1 1 vorge- On the other hand, the supplementary elements 11a and 11c represent the side walls 25a and 25b of the additional element whose material and shape is to be selected with regard to optimized heat-insulating properties.

While the casting molds are involved in shaping the pressure element and as a rule remain on the pressure element after production until installation in the thermal insulation component, the supplementary elements are added only after the production of the pressure element. During the production of the printing element reusable shaping elements are provided on the lateral portions of the printing element in the rule. These are removed after the production of the printing element and reused for the production of further printing elements.

In summary, the present invention offers the advantage of providing an optimized casting mold for the production of printing elements, in particular of a concrete material, which has subregions with different functions from a different material adapted to the respective function, so that as a result a pressure element with surrounding casting mold is made available, which in terms of mobility or movement absorption on the one hand and thermal insulation properties on the other hand, the previous designs improved.

Claims

claims

Component for thermal insulation between two components, in particular between a building and a projecting outer part, consisting of an insulating body to be arranged between the two components and of reinforcing elements at least consisting of a pressure element in the installed state of the component substantially horizontally and transversely to the substantially horizontal longitudinal extent the insulating body passes therethrough and at least indirectly connectable to both components, wherein the pressure element has an additional element (1, 11) which surrounds the pressure element at least partially and at least indirectly, wherein the pressure element using a lost mold (1, 1 1 b, 1 1 d) is produced and wherein the additional element at least partially consists of the lost casting mold,

characterized,

that the additional element is formed in two or more parts.

Component according to Claim 1,

characterized,

that the lost casting mold (1, 1 1 b, 1 1 d) is formed in two or more parts.

Component according to at least Claim 1,

characterized,

the additional element (11) has, in addition to the lost casting mold (1), at least one further supplementary element (11a, 11c).

Component according to at least Claim 1,

characterized,

in that the pressure element is produced in addition to the lost casting mold using a further, in particular reusable, shaping element.

Component according to at least Claim 1,

characterized, in that the pressure element consists of a hardening and / or settable filler, in particular of a cementitious, fiber-reinforced building material such as concrete, such as high-strength or ultra-high-strength concrete or high-strength or ultra-high-strength mortar or of a synthetic resin mixture or of a reaction resin.

6. Component according to at least claim 1,

characterized,

the pressure element has a contact profile facing the component on its end face and that the additional element (1, 1 1) and / or the casting mold (1, 1 b, 1 1 d) at least indirectly surrounds the pressure element in the region of the contact profile.

7. The component according to at least claim 1,

characterized,

that the additional element (1, 1 1) and / or the casting mold (1, 1 1, 1 1 d) in particular in the region of the contact profile of HD polyethylene and / or in particular in the area outside the contact profile of a thermal insulation material and in particular of polyurethane Foam exists.

8. The component according to at least claim 1,

characterized,

that the pressure element on its front side facing the component in a vertical section and / or in horizontal section concave or convex curved contact profile and that the additional element (1, 1 1) and / or the mold (1, 1 1 b, 1 d) a Vertical section and / or in the horizontal section in the From to the contact profile opposite matched convex or concave curved force introduction surface (4a - 4d, 24).

9. Component according to at least claim 1,

characterized,

that the additional element (1, 1 1) and / or the casting mold (1, 1 1 b, 1 1 d) is at least partially made by injection molding or coextrusion of two or more materials.

1 0. Device according to at least claim 1, characterized,

that the additional element (1, 1 1) and / or the lost mold (1, 1 1 b, 1 1 d) by joining two or more components (4, 5a-5d, 24, 25a, 25b) is formed, which Joining in particular cohesively and / or by joining methods such as gluing and / or carried by the filled in the additional element and / or the mold pressure element material.

1 1. Component according to at least claim 10,

characterized,

in that two components of the additional element and / or of the casting mold which correspond to one another in terms of material, function and / or position are connected to one another via a connecting element.

12. The component according to at least claim 1,

characterized,

that two adjacent printing elements have a common additional element (1, 1 1) and / or a common mold (1).