DE10324351A1 - Fastener for securing vacuum insulating panels has a flexible film linking two grip flanges and with attached wall mounting grip - Google Patents

Abstract

A fastener for securing vacuum insulating panels has two grip flanges (1, 2), for gripping each side of the panels, linked by a flexible film (3) which is aligned along the edge of the panels. The lower flange (2) is fitted on the underside with a wall grip element (4) to secure the fitting. The upper flange (1) is part of a hollow support spacer (16) onto which the trim panels are secured. The film link can be a foil, woven strap, fibres or any material with good tensile strength.

Description

The invention relates to a device for attaching at least one vacuum insulation element to one Support element according to the preamble of claim 1.

State of the art

So far, thermal insulation of buildings, Refrigerated vehicles, Cold rooms, refrigerators, water heaters or the like in addition to conventional heat insulation elements so-called vacuum insulation panels (VIP) are used. Vacuum insulation panels are high warmth insulating panels that offer extremely high thermal insulation with minimal thickness.

Frequently a standardized VIP has a rectangular cross-section side lengths for example 0.5 × 1.0 Meters, the almost planar side surfaces being largely vertical are aligned to this cross section.

Generally the VIP consists of a pressure-stable, compressed, microporous, powdery core material. This is packed gas-tight, in particular with a barrier film and evacuated, i.e. pumped empty. The extremely high thermal insulation of the VIPs is achieved in particular by the vacuum of a few millibars. As a result, the VIPs' cladding film may be used especially when fastening on a wall or the like with the help of appropriate fasteners not damaged or be pierced.

Rail systems and anchoring elements which fix the VIPs by means of a flange are already known for fastening the VIPs. In rail systems, the flange extends essentially along a side edge. In other known anchoring elements, the flange extends over the corner area of the VIPs (cf. DE 100 39 141 A1 ).

In addition, the rail systems have or the mentioned Anchoring elements generally have a second flange for attachment to the Support element on. The two flanges are usually through a web connected, which in the installed state on the side surface of the VIPs is arranged or is present.

For example, in applications for Isolation of building surfaces numerous VIPs arranged side by side. This can be done from various reasons a single VIP is damaged or over the course of several years lose the vacuum so that the heat-insulating effect is reduced or is lost and this has to be replaced.

A disadvantage of previously known anchoring systems is, however, that the disassembly or assembly of individual VIPs within an arrangement of several VIPs is comparatively complex or relative size distances exist between the individual VIPs. The latter leads to disadvantageous thermal bridges, whereby thermal insulation related is reduced to the entire area to be insulated.

Task and Advantages of the invention

In contrast, the object of the invention is a Device for fastening at least one vacuum insulation element on a support element with a first flange section for holding of the vacuum insulation element and in particular a second flange section for attachment to the support element, wherein a web section at least on first flange section fixed and on a side surface of the Vacuum element is to be arranged, so that even at several vacuum insulation elements arranged side by side one Assembly or disassembly of a single vacuum insulation element without big Effort can be realized, with a distance between neighboring ones Vacuum insulation elements if possible is small, so that thermal bridges can be minimized are.

This task is based on a device of the type mentioned by the characterizing Features of claim 1 solved.

By the mentioned in the subclaims activities are advantageous designs and developments of the invention possible.

Accordingly, one stands out device according to the invention characterized in that the web section is at least partially flexible Traction element for moving one of the flange sections is formed.

With the help of a flexible, as a tension element trained web section, which is a movement in particular allows first flange section, can advantageously for holding the vacuum insulation element trained first flange section for both assembly and for dismantling the vacuum insulation element from a holding position in a release position and moved back accordingly become. If necessary, the device according to the invention, in particular the second flange section while assembly or disassembly on the support element, e.g. a wall or the like, remain attached. As a result, according to the invention for the Assembly or disassembly of the VIP the effort for anchoring the device on the support element or for loosening of this almost completely omitted.

In addition, due to the flexible flange section the assembly or disassembly of an individual Vacuum insulation element with no major force on the gastight sheathing, so that there is a risk of damage of the vacuum insulation element is largely eliminated.

Furthermore, a flexible tension element according to the invention enables the Ste Cut to any unevenness in the side surface of one or two adjacent vacuum insulation elements. For example, if the unevenness of the side surface of a vacuum insulation element cannot be completely avoided due to production, the formation of a gap, in particular air-filled, between the web section and the vacuum insulation element is effectively reduced. This leads to a further reduction in the formation of thermal bridges due to the anchoring device according to the invention.

If necessary, the web section elastic; for example, it is made of foam, Rubber, elastomer or the like. This enables that the flexibly elastic web section at least in the installed state partially compressible by one or two vacuum insulation elements and / or stretchable or stretchable, which among other things the training of air gaps described further reduced.

In addition, a trained as a flexible tension element Web section, especially when installed, for building conditions realized extremely thin become. For example, one is transverse to the side surface of the Vacuum insulation element directed thickness of the web portion all smaller than 1.0 mm or 0.5 mm when installed. Preferably is the thickness of the web section is approximately 0.2 mm. With the help accordingly thin web sections is the thermal bridge effect opposite the web section significantly reduced the state of the art. Preferably as a web section, a material with a relatively low thermal conductivity used.

The web section preferably comprises at least one line-like element aligned in the direction of pull, such as a rope, a thread, a cord, etc. and / or flat elements like a film, a tape, a fabric, a belt, etc., respectively formed as a plastic film or the like. These measures enable a particularly simple embodiment a web section designed as a flexible tension element according to the invention with a particularly low thermal bridge effect.

In an advantageous variant of the Invention, the web section has at least fibers to increase the Tensile strength. This makes a particularly tear-resistant or stable embodiment realizable with minimal thickness of the web section. Accordingly can with this measure the thermal bridge effect of the web section can be further reduced.

The web section is advantageous as a joint, in particular for pivoting one of the flange sections educated. With the help of an appropriately articulated web section a special variant of the flexible web section can be realized. possibly is the joint as a hinge or the like and / or as a hinge train. A ligament joint can advantageously by means of a film, a tape and / or a belt according to the invention relatively thin-walled be realized.

If necessary, the device according to the invention designed as a punctual anchoring element, e.g. at the corner area and / or along the side surface a vacuum insulation element is to be arranged. In this variant of the invention, the first flange section is preferably such formed that the punctiform web section generally in middle region of the flange section is to be arranged. For example the first and / or second flange section has a cross section on, which is almost parallel with respect to the contact surface of the vacuum insulation element is aligned and essentially round or rounded and / or rectangular or polygonal is.

The device is preferably according to the invention formed such that they are essentially along one side surface of the vacuum insulation element extends. At least along the side surface is conceivable once interrupted bridge section. A is advantageously largely continuous web section realized. Hereby in particular using a web section made of a material with high thermal insulation effect the formation of small, air-filled areas between two neighboring vacuum insulation elements largely prevented.

In a special training the invention is at least one fixing element for fixing at least one of the movable flange sections is provided. A corresponding one Fixing element allows especially when the vacuum insulation elements are installed a secure attachment of this to the support element due to this realizable relatively rigid first flange section. It means that the fixing element the position of the flange section or sections in the built-in State as far as possible and moving them accordingly in derogation.

Preferably at least one comprises of the flange sections the fixing element. If necessary, that is Fixing element as transverse to the side surface of the vacuum insulation element or pin, bolt, plate or the like directed towards the web section educated. possibly is the fixing element as a stop for striking an adjacent one Element or a device according to the invention or their fixing element / stop formed.

At least one of the flange sections advantageously has at least one fastening means for fastening the device to the support element. If necessary, the fastening means are realized as an adhesive or adhesive surface and / or as an integrally formed fastening element. The fastening element molded onto the second flange section is, for example, a dowel, anchor, coupling, Plug element, nail or the like is formed.

In an advantageous embodiment the fastening means comprises at least one recess to accommodate a clamp, plug, coupling, screw and / or Dowel joints. With the help of appropriate connections can advantageously the device according to the invention attached to or removed from the support member.

Especially with the help of a molded Fastening element can in particular be a prefabricated component, in particular a prefabricated concrete component or the like can be realized. at the support element in the flowable state, e.g. the liquid Concrete, with vacuum insulation elements prepared accordingly Devices according to the invention applied or poured. Here, the molded is preferably Fastening element or the like of the flowable material of the support element or poured over by the concrete. After hardening or hardening the material of the support element or the concrete is the prefabricated component or Prefabricated concrete component with integrated vacuum insulation elements, for example for installation in a building, refrigerator or the like can be used.

In an advantageous variant of the Invention is at least one of the flange sections as a stiffening element trained to stiffen the device. If necessary a stiffening element fixed to the first and / or second flange section become.

A corresponding stiffening element elevated the stability the device according to the invention, so that it can perform a carrying function in particular. This means, that the device according to the invention part of the carrying function of the support element or an additional Can perform the carrying function, so that the support element can be dimensioned smaller or clearly higher Carrying function of the entire arrangement can be realized.

Preferably at least one the flange sections as a hollow body profile educated. If necessary, the stiffening element is a hollow body profile realized. A corresponding hollow body profile enables one high bending strength or stability with comparatively low Use of material or weight.

In a special embodiment of the invention, the facade-side flange section as a U or Angle profile designed so that the space-saving recording or Attachment of a supporting element of the facade construction is possible. On such support elements, for example at least partially made of wood, plastic or metal (preferably light metal) can, is among others the fastening of facade panels possible. The weight of the facade construction can over the support elements are derived downwards without unduly stressing the fastening device according to the invention.

Such support elements can be a additional Fixing and / or stabilizing the corresponding flange section cause.

At least advantageously comprises the stiffening element the fixing element. Generally stretches the stiffening element transversely to the flange section, so that the stiffening element in a particularly simple embodiment as Stop or fixation can be realized.

In a special training the device is almost symmetrical. For example, this has a T, double T, U or Z-shaped cross section on. Also is an L-shaped Cross section conceivable. If necessary, two L-shaped or two U-shaped Devices in the installed state designed as a T-shaped or double-T-shaped Fastening unit usable. With a correspondingly symmetrical design Devices or fastening units according to the invention are advantageous that these can be installed largely independently of position.

The use of L or U-shaped devices according to the invention allows in particular an arrangement at the edge of a surface to be insulated. moreover can two L or U-shaped devices according to the invention be provided between two vacuum insulation panels, whereby the number of needed Parts for realizing a fastening system significantly reduced and with high flexibility of the system, this can be implemented relatively inexpensively.

In addition, in particular a simple way with appropriate mounting units Vacuum insulation panel within an arrangement of several vacuum insulation panels be advantageously dismantled or assembled.

The web section is preferably arranged at an edge region of at least one of the flange sections. This makes a U, Z or L-shaped cross section in a particularly simple manner the device according to the invention realizable.

embodiment

An embodiment of the invention is shown in the drawing and is based on the figures below explained in more detail.

In detail shows:

1 1 shows a schematic representation of an anchoring element according to the invention in a U-shape,

2 1 shows a schematic representation of a further anchoring element according to the invention in double T shape in the installed state,

3 1 shows a schematic representation of a further anchoring element in the double-T shape in the installed state with a support profile,

4 a side view of a further embodiment of an anchoring element according to the invention,

5 a front view of an anchoring element according to 4 .

6 2 shows a sectional view through a building wall with fastening devices according to the invention,

7 a side view of another embodiment of an anchoring element according to the invention and

8th a front view of an anchoring element according to 7 ,

In 1 is shown schematically an anchoring element according to the invention, the first flange 1 , a second flange 2 as well as a flexible bridge 3 according to the invention. The jetty 3 is designed, for example, as a plastic film, in particular with fibers to improve the tensile strength.

Furthermore, the anchoring element has a on the second flange 2 arranged anchor element 4 on. The anchor 4 is for example on the flange 2 molded, or the flange 2 has a bore or the like, not shown, for receiving the armature 4 on. The anchor 4 largely corresponds to the anchors common in the construction industry, for example 4 , which are intended for concreting, among other things. If necessary, the anchor 4 also be designed as dowels, clamps and / or plug connections or the like.

The first flange 1 is according to 1 as a hollow body profile 16 formed so that it has a comparatively high flexural strength and possibly can perform a carrying function when installed.

The jetty 3 is in only for performance reasons 1 depicted relatively thick. In practice, this should preferably be approximately 0.2 mm thick or thinner. A correspondingly thin or with a thickness D plastic film 3 enables a relative movement of the first flange 1 to the second flange 2 according to arrow P.

For example, a flange 2 on a building wall, not shown, by means of the anchor 4 attached. By means of the bridge 3 can according to the invention the first flange 1 especially laterally, ie in 1 to the right (see arrow P), moved or at least around a joint area or pivot point 20 and or 21 be pivoted so that a vacuum insulation element (VIP), not shown, on the flange 2 can be arranged or removed in the simplest way. The first flange is then used to attach the VIP (not shown in more detail) 1 by means of the flexible bridge 3 back into the in 1 shown starting position moves (see arrow P), so that the VIP between the two flanges 1 . 2 is held.

The first flange 1 also has at least one stop 5 or a fixing section 5 on the fixing of the flange in a manner not shown 1 in the starting position according to 1 enabled with the help of an element, not shown.

In 2 a further anchoring element is shown schematically in double T-shape. This anchoring element has next to the first flange 1 and the second flange 2 additionally a first flange 6 and a second flange 7 according to the invention.

In addition, the anchoring element according to 2 next to the anchor 4 optionally a second fastener 8th , which can be formed for example as a dowel, nail, rivet or the like.

In 2 is the attachment of two vacuum insulation panels (VIP) 9 and 10 on a wall 13 illustrated by means of the anchoring element according to the invention. Here it becomes clear that due to the comparatively thin, approx. 0.2 mm thick web 3 the formation of thermal bridges between the two VIPs 9 and 10 is largely reduced.

In addition, it is a plastic film 3 trained footbridge 3 so flexible or elastic that it conforms to generally existing production-related unevenness of side surfaces 11 respectively. 12 the VIPs 9 respectively. 10 can adjust. This ensures a decisive reduction in the air gaps that otherwise exist between the VIP 9 and or 10 as well as the jetty 3 ,

The first flange is in the double-T version of the anchoring element 1 . 6 at the same time as a fixing element for fixing the movable flange 1 . 6 formed according to the invention.

The assembly of the VIPs 9 . 10 takes place, for example, in that the anchoring element by means of the anchor 4 or dowels 8th on a wall 13 is fixed. The wall 13 is designed as a support element according to the invention or as a building wall, cold room wall or the like. The wall is advantageous 13 realized as a concrete component or the like.

Among other things, when using the anchoring elements for refrigerators according to the invention, the flange can 2 respectively. 7 can also be glued to the refrigerator wall or the like. Riveting is also conceivable as a connection.

Generally when assembling the VIPs 9 . 10 attached to the edge of a surface to be insulated, anchoring element comparable to that of the 1 is. A second anchoring element is also spaced from it on the wall 13 or the like, this distance being the width of the VIP 9 . 10 equivalent. The second anchoring element can be designed as a U-shaped 1 or as a double-T-shaped anchoring element according to 2 be carried out. The VIP 9 . 10 is normally between two flanges first 1 . 2 of the first anchoring element, especially the first flange 1 of the first and preferably second ver anchoring element by means of the flexible webs 3 is moved in such a way that the VIP 9 . 10 almost parallel to the wall without the application of great force 13 can be arranged. Then the first flanges 1 . 6 of the first and second anchoring element by means of the flexible webs 3 back to the starting position according to 1 respectively. 2 emotional. The VIP 9 . 10 is thereby on the wall 13 fixed.

This is followed by a second VIP 9 . 10 between the flanges 1 . 6 respectively. 2 . 7 fixed according to the foregoing by a third stop element, which according to the invention for mounting the VIP 9 . 10 is moved from the starting position to the mounting position and back to the starting position. Correspondingly, depending on the surface or wall of the building to be insulated, numerous other VIPs can be fastened with anchoring elements according to the invention.

The second stop element may be in accordance with 2 formed in an alternative variant as a fastening unit, which according to two stop elements 1 consists. Accordingly, there are two webs 3 between the VIPs 9 and 10 provided so that the total thickness D of the resulting web 3 or the distance between the two VIPs 9 and 10 doubles to about 0.4 mm. The thermal bridge effect of a corresponding web 3 is still significantly reduced compared to the prior art.

In the event that between two adjacent VIPs 9 . 10 two U-shaped anchoring elements, which are comparable to the according 1 are used, the number of different parts for an anchoring system according to the invention is advantageously reduced. In particular, this can lead to an economically favorable system for fixing VIPs 9 . 10 in buildings or the like.

An element used as an edge element according to 1 can for example be fixed with a fixing element, not shown. As a fixing element 14 . 17 can include a facade panel arranged on the outside of the building 14 according to 2 . 3 or the like can be realized. Alternatively or in combination, a cross connector can be used 15 as a fixing element according to 2 be provided.

The facade panel 14 and / or the cross connector 15 can for example on a hollow body profile 16 of the anchoring element according to 2 respectively. 1 be fixed by means of screws, nails, rivets, plug-in couplings, adhesives or the like. The cross connector 15 is especially for stabilizing the VIP 9 . 10 educated.

In contrast to in 2 illustrated variant of the invention, the distance between the flanges 1 . 6 and 2 . 7 are designed such that at least between one or more of the flanges 1 . 2 . 6 . 7 and a VIP 9 . 10 a plate or the like to stabilize the VIP 9 . 10 can be arranged.

In an advantageous development of the fastening system according to the invention, there can be between two VIPs 9 . 10 only a U-shaped anchoring element according to 1 be provided. Fixing the flange 1 respectively. 6 in this system by means of the cross connector 15 realized the between two stops 5 to be ordered. The attachment of the second VIP 9 . 10 can here by means of the cross connector fixed to the anchoring element 15 or the like can be realized.

In 3 is schematically shown another, double-T-shaped anchoring element according to the invention. Here is a stiffening element 17 provided that is designed to accommodate load capacities in a building wall.

Basically, when producing a prefabricated concrete component with at least one vacuum insulation element 9 . 10 be proceeded in such a way that the VIPs 9 . 10 side by side and preferably with the VIPs 9 . 10 attached anchoring elements are arranged according to the invention. This arrangement is generally laid out horizontally so that the anchors 4 or dowels 8th or the like are directed vertically upwards. With the aid of an advantageous formwork or the like, concrete is poured onto the appropriately arranged VIPs or anchoring elements, so that the anchors 4 or dowels 8th ensure a secure fixation of the anchoring elements in the hardened state of the concrete. After hardening, corresponding prefabricated concrete components with integrated VIPs and anchoring elements according to the invention are used to erect a building or the like.

With anchoring elements according to the invention it is particularly advantageous that in the event that a VIP 9 . 10 a single VIP is advantageously damaged or the thermal insulation effect is reduced over time 9 . 10 disassembled and a new, undamaged VIP 9 . 10 can be assembled with little effort. According to the invention, it is generally immaterial whether the damaged VIP is 9 . 10 on the edge or in the middle of by means of numerous VIPs 9 . 10 insulated surface is arranged.

When using T-shaped or double-T-shaped anchoring elements, it is possible in certain cases to disassemble a single VIP 9 . 10 the removal, for example by sawing or the like, of one of the first flanges 1 . 6 become necessary. After exchanging the VIP 9 . 10 by a different or new VIP 9 . 10 can the new VIP 9 . 10 for example with a U- or L-shaped connecting element and / or by means of a fixing element or cross connector 15 on the wall 13 be attached.

In general, the use of T- or double-T-shaped anchoring elements on the opposite side of the VIP is advantageous 9 . 10 a U-shaped anchoring element is used, so that the assembly or disassembly of the corresponding VIP 9 . 10 can be done relatively easily according to the invention.

In general, an anchoring element can only be attached to a single or part of the VIP 9 . 10 and also via several VIPs, one behind the other, in particular in the direction of the anchoring element 9 . 10 extend. For example, an anchoring element essentially extends over a height or width of a floor of the entire wall of a building or the like.

The fastening device 30 according to 4 corresponds essentially to that based on 1 described embodiment. The flange on the facade is different 31 designed as a U-profile and in the side bars 32 . 33 with holes 34 Mistake. The function of this fastening device 30 is in the sectional view according to 6 illustrated.

A fastening device according to the invention is in each case on the upper side 30 so in the wall 35 attached that the facade flange 31 with its U-profile is vertical and the corresponding VIP 37 fixed.

Then in the U-shaped flange 31 between the side bars 32 . 33 a rod or beam-shaped support element 39 used, which is supported on the bottom side in the present case.

The support element 39 is through the holes 34 with the flanges on the facade 31 screwed. This creates a continuous facade substructure on the facade panels 40 can be attached.

In the present embodiment, each fastening device extends 30 only across the width B of the flange on the facade 31 in the horizontal direction. The length L of the flange 31 is chosen so long that the desired fixation of the corresponding VIP 37 . 38 is guaranteed.

Due to the vertically running support elements 39 on the one hand finds fixation and stabilization of the fastening devices 30 instead of. In addition, there is a facade structure with facade panels 40 possible without the fasteners 30 have to take excessive load. The support elements 39 are supported on the floor side and guide them through the facade panels 40 resulting load downwards.

The fastening device 41 according to 7 corresponds essentially to that based on 4 described fastening device. The anchors differ 42 designed as a web-shaped holding profile. According to the representation 7 is only the anchor visible from the front 42 recognizable. In 8th is the double arrangement of the anchors 42 to see. The anchors 42 have the same function as the pin-shaped anchors 4 , ie they serve to anchor the fastening device 41 in a wall 13 , preferably in a concrete wall. The jetty 3 is shown hatched here to indicate training as a fabric, in particular glass fiber fabric.

With the help of anchoring elements or prefabricated concrete components according to the invention, operational reliability, ie the extremely high thermal insulation by means of VIPs 9 . 10 guaranteed even over very long periods and under construction site conditions.

1

flange

2

flange

3

web

4

anchor

5

attack

6

flange

7

flange

8th

dowel

9

VIP

10

VIP

11

side surface

12

side surface

13

wall

14

facade panel

15

cross-connector

16

Hollow element

17

stiffener

20

pivot point

21

pivot point

30

fastening device

31

flange

32

side web

33

side web

34

drilling

35

wall

37

VIP

38

VIP

39

supporting member

40

facade panel

41

fastening device

42

anchor

D

thickness

P

arrow

Claims (24)

Device for fastening at least one vacuum insulation element ( 9 . 10 ) on a support element ( 13 ) with a first flange section ( 1 . 6 ) for holding the vacuum insulation element ( 9 . 10 ) and in particular a second flange section ( 2 . 7 ) for attachment to the support element ( 13 ), with a web section ( 3 ) at least on the first Flange section ( 1 . 6 ) fixed and on one side surface ( 11 . 12 ) of the vacuum insulation element ( 9 . 10 ) is to be arranged, characterized in that the web section ( 3 ) at least partially as a flexible tension element ( 3 ) to move one of the flange sections ( 1 . 2 . 6 . 7 ) is trained. Device according to claim 1, characterized in that the web section ( 3 ) comprises at least one film, a tape, a fabric or a belt. Device according to one of the preceding claims, characterized in that the web section ( 3 ) is designed as a plastic film. Device according to one of the preceding claims, characterized in that the web section ( 3 ) has at least fibers to increase the tensile strength. Device according to one of the preceding claims, characterized in that a thickness (D) of the web portion ( 3 ) is less than one millimeter (D <1.0 mm). Device according to one of the preceding claims, characterized in that a thickness (D) of the web portion ( 3 ) is less than half a millimeter (D <0.5 mm). Device according to one of the preceding claims, characterized characterized in that the web section comprises a glass fiber fabric. Device according to one of the preceding claims, characterized in that the web section ( 3 ) as a joint for pivoting one of the flange sections ( 1 . 2 . 6 . 7 ) is trained. Device according to one of the preceding claims, characterized in that at least one fixing element ( 1 . 6 . 14 . 15 . 16 . 17 ) for fixing at least one of the movable flange sections ( 1 . 2 . 6 . 7 ) is provided. Device according to one of the preceding claims, characterized in that at least one of the flange sections ( 1 . 2 . 6 . 7 ) the fixing element ( 1 . 6 . 16 . 17 ) includes. Device according to one of the preceding claims, characterized in that at least one of the flange sections ( 2 . 7 ) at least one fastener ( 4 . 8th ) for fastening the device. Device according to one of the preceding claims, characterized in that the fastening means ( 4 . 8th ) at least one recess for receiving a clamp, plug, screw and / or dowel connection ( 4 . 8th ) includes. Device according to one of the preceding claims, characterized in that at least one of the flange sections ( 1 . 2 . 6 . 7 ) as a stiffening element ( 16 . 17 ) is designed to stiffen the device. Device according to one of the preceding claims, characterized in that at least one of the flange sections ( 1 . 2 . 6 . 7 ) as a hollow body profile ( 16 ) is trained. Device according to one of the preceding claims, characterized characterized in that at least one facade-side flange section is designed as a U or T profile. Device according to one of the preceding claims, characterized characterized in that a fastener for fastening a Supporting element for the facade structure is provided on the facade-side flange section is. Device according to one of the preceding claims, characterized in that at least the stiffening element ( 16 . 17 ) the fixing element ( 16 . 17 ) includes. Device according to one of the preceding claims, characterized characterized in that the device is almost symmetrical is. Device according to one of the preceding claims, characterized in that the web section ( 3 ) at an edge area of at least one of the flange sections ( 1 . 2 . 6 . 7 ) is arranged. Anchor for concreting in a precast concrete element, characterized in that that the anchor is designed as a device according to one of the preceding claims is. Prefabricated concrete component with at least one on a concrete support element ( 13 ) attached insulation element ( 9 . 10 ) according to one of the preceding claims, characterized in that the insulation element ( 9 . 10 ) as a vacuum insulation element ( 9 . 10 ) is trained. Prefabricated concrete component according to claim 19, characterized in that a device for fastening at least one vacuum insulation element ( 9 . 10 ) on a support element ( 13 ) with a first flange section ( 1 . 6 ) for attachment to the support element ( 13 ) and a second flange section ( 2 . 7 ) for holding the vacuum insulation element ( 9 . 10 ) and a web section ( 3 ) for connecting the flange sections ( 1 . 2 . 6 . 7 ) vorese hen is. Prefabricated concrete component according to one of the preceding claims, characterized characterized in that an anchor or device according to a of the aforementioned claims is provided. Method for producing a prefabricated concrete component with at least one on a concrete support element ( 13 ) attached insulation element ( 9 . 10 ), characterized in that a prefabricated concrete component is used according to one of the preceding claims.