DE2361323A1 - Insulation profile with inter insulating layer - by heating layer to plasticisation temp and pressing between metal profiles - Google Patents

Abstract

Insulation profile consisting of >=2 metal profiles bonded by an inter. layer of insulating matl. e.g. foamed plastic matl., is produced by (a) heating the inter layer at least to the plasticisation temp., (b) pressing the plasticised layer in the bonding region against the metal profiles and into cavities in the metal profiles, and (c) cooling below the plasticisation temp. Strong bond between the profiles and inter. layer in all load directions. this bond can be loaded statically in all directions, and is also capable of absorbing alternating stresses.

Description

Patent attorneys? Ί R

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Ur. (J. Loesenbeck
Dipl.-Ing. Stracks

DipUing. Loissenbeck

^ 8 Bielefeld, Herford Straije U

SCHiJCO Heinz Schürmann & Co., 4800 Bielefeld, Karolinenstr

"Isolation profile and process for its production"

The invention "relates to an insulating profile that consists of at least two connected by an insulating layer There is metal profiles and the method for producing such an insulating profile. ■

There are insulating profiles known in which the insulating intermediate layer, by spaced apart plastic strips is formed, the longitudinal edges of which are in recordings the metal profiles are set »

It is also known the space between the plastic strips and fill the metal profiles with a foam.

The known insulating profiles have the disadvantage that they only in one plane, namely in the plane running transversely to the longitudinal axis of the insulating profiles, a reasonably solid one Have connection, while in the longitudinal direction the two metal profiles are more or less easily displaceable relative to one another. In addition, the known insulating profiles do not absorb any alternating loads and only: with rough tolerances can be manufactured.

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The invention is based on the object of producing and designing an insulating profile of the type mentioned at the outset in such a way that that the metal profiles are fixed over the insulating layer in all load directions and the connection Static in all directions and with alternating loads is resilient.

This object is achieved according to the invention in that the insulating intermediate layer is at least heated to the plasticizing temperature heated and under pressure in the connection area opposite the metal profiles in recordings of the metal profiles is molded and then cooled below the plasticizing temperature.

It is advisable to heat the metal profiles to plasticize the insulating layer and to apply pressure to them, by means of which the plasticized insulating intermediate layer is deformed and partly molded into the receptacles of the metal profiles «,

An intensive, form-fitting connection between the metal profiles and to achieve the insulating intermediate layer, it is advantageous to take the recordings of the metal profiles with the form fit between the metal profiles and cfer insulating liner supportive To equip funds.

Due to the chemical and mechanical reshaping of the layer during the manufacture of the insulating profile, the Intermediate layer a preload which has a very favorable effect on the load on the insulating profile and also the absorption of Alternating loads made possible.

The method according to the invention can be used for insulation profile to adhere to very tight manufacturing tolerances, which are ensured by the Device used in manufacture can be determined.

Embodiments of the invention. Are in the drawings and are described below.

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2351323

Show it:

1 to 3 - different process stages in the production the insulating profile, the finished version of which is shown in Fig. 3,

£ igo 4 to 8 further embodiments of the invention,

FIG. 9 shows a detail of an insulating profile according to FIG. 8.

In all illustrated embodiments of the invention there is a match insofar as all insulating profiles have a structure that is basically the same, through two metal profiles 1,2 as well as one of these two metal profiles «?. Tinter prevents the two metal profiles from touching connecting insulating material layer 3 is intended. The insulating material intermediate layer can be made of plastic.

In the embodiment of FIGS. 1 to 3, the Metal profiles 1,2 connected via plastic strips 3a, 3b, the form the insulating intermediate layer 3. From Fig. 1 it follows that that the metal profiles 1,2 with groove-like receptacles 1a, 1b, 2a, 2b are equipped that have corrugations 2c on at least one wall.

From Fig. 2 it follows that in the groove-like recordings of the metal profiles 1,2 the longitudinal edges of the plastic strips 3a, 3b ' to be introduced. By heating the metal profile ^ 1,2 the plastic strips 3a, 3b at least on the respective Plasticizing temperature and heated by pressure of the metal profiles 1, 2 in the final state shown in FIG. 3 deformed. In this state, the ribbons fill the plastic make 3a »3b the interior of the groove-like receptacles 1a, 1b, 2a, 2b completely off. The corrugations 2c support the shape

£ 05324/0512;

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No more between the plastic strips 3a, 3b and the metal profiles 1.2.

In the course of the production of the insulating profile, the insulating material intermediate layer subjected to chemical and mechanical deformation. In this way, a prestressed plastic Achieve intermediate layer that ensures an intimate "bond between the metal profiles, which is high in all directions is resilient.

In the embodiment according to FIG. 4, the two metal profiles 1, 2 are provided with webs 10 extending in the longitudinal direction, 20 equipped, in which recesses 21 are attached at certain distances from one another. The bars -10.20 of the two metal profiles 1.2 have a different distance from one another, so that when joining the two metal profiles 1.2 the Bridges 10, 20 overlap to a certain extent, but do not touch one another. The insulating material layer 3 is prefabricated in such a way that that the "two metal profiles 1, 2 with their webs 10 and 20 respectively up to about halfway in for this on the insulating material intermediate layer 3 attached grooves can be inserted. In this state, the semi-finished insulating profile is heated up to at least to the plasticizing temperature of the insulating material intermediate layer, and by pressing the two metal profiles 1,2 the webs 10, 20 press further into the insulating material layer 3 into it, the material displaced by this process being pressed into the recesses 21 of the webs 10, 20, so that In this way, an intimate and complete encasing of the webs 10, 20 by the insulating material intermediate layer 3 adjusts. The transmission of shear forces is also possible in the longitudinal direction of the insulating profile, by filling it in of the recesses 21 with the material of the insulating material layer 3 displaced by the pressing in of the webs 10, 20 flawless, form-fitting connection of IsolierstofiV.wif-ioaiuilare 3 and the two metal profiles 1.2 is guaranteed. the

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The distances between the recesses 21 are preferably kept very small, with which the advantage is achieved that; when cutting to length, such an insulating profile for the individual sections, the connection described above is retained.

The one in ITig. 5 illustrated embodiment is:. -. "■ the metal profile Λ equipped with a four-sided closed hollow chamber in the connecting area. Ί , on the side walls of which pressure strips 40 are arranged, which are corrugated according to a preferred embodiment. Bas." Metal "-" profile 2 is provided with grooves formed by two web strips 22, 23 which, by means of a protrusion 22a attached to the web strip 22, encompass the insulating material intermediate layer 3 in a clamp-like manner. The lower edges of the projections 22a are also provided with a corrugation. After joining the two 'metal profiles 1,2 and the insulating material intermediate layer 3, the hollow chamber 4 of the metal profile 1 is closed and then a pressure medium is applied to the hollow chamber 4, whereby a deformation of the hollow chamber walls is achieved, which has the consequence that the Pressure strips 40 are pressed onto the opposite inclined surfaces 30 of the plastic intermediate layer. Here, the corrugation of the pressure strips 40 cuts into the inclined surfaces 30. As a result of the resulting pressure, the projections 22a are pressed with their corrugations into the insulating material intermediate layer 3.

By plasticizing the insulating material interlayer, this process can be intensified.

In order to prevent that, when the load IsοIierprofiles the deformation of the hollow chamber 4 may be reversed partially iat provided nech another embodiment, to deform the hollow chamber by an introduced under high pressure plastic foam. Since this plastic foam _in: "^': the hollow chamber 4 remains, one objective of eliminating IAB der.Verfox'muiig the hollow chamber 4 is not ^{possible." "-"} """■ .- ■■

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Fig. 6 shows an embodiment in which the metal profiles 1, 2 are equipped with anchoring webs 14 and 24 which run in the longitudinal direction and which are transverse to the longitudinal direction are designed set in a saw shape, so that in the complete Envelopment of the anchoring webs 14, 24 by the insulating material intermediate layer 3, here again the desired perfect connection in all directions is achieved. ♦ The wrapping of the anchoring webs 14,24 with the insulating material intermediate layer 3 happens in the way that initially through a support device 5 the distance between the two metal profiles 1.2 fixed to each other and that the seam between the two metal profiles 1.2 is then filled with insulating material, e.g. plastic is filled in. After the Plastic, the support devices 5 can be removed, since the now existing plastic intermediate layer 3 has a relative movement of the two metal profiles 1.2.

7 shows an exemplary embodiment of the invention in which the metal profile 2 is equipped with side walls 25 and the metal profile 1 is equipped with retaining webs 11. The intermediate layer of insulating material provided between the metal profiles is plasticized and molded into the receptacles of the metal profiles. The retaining webs 11 of the metal profile protrude into the insulating material interlayer. Connecting pins made of plastic, which extend over the entire distance between the two side walls 25 of the metal profile 2 , are driven in and pass through openings in the walls 25 and the retaining webs 11. This exemplary embodiment is also advantageous To arrange several connecting pins 6 with a relatively small distance from one another in the longitudinal direction of the insulating profile. It is also denkbax ", instead of a connecting pin 6, a connecting screw, which is also made of plastic, can be used»

Another embodiment of the invention is shown in FIG. The two metal profiles 1, 2 are in the connection area

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provided with identically shaped guide channels 12 and 26, which are slotted inward. The insulating material intermediate layer 3 consists of a prefabricated profile which is provided with clamping strips 31) which are inserted into the guide channels 12, 26 and which fixes the distance between the two metal shells 1, 2 through a separating web 34. In this way, a positive connection is first achieved in the plane running transversely to the longitudinal axis of the insulating profile. Laying down of the two metal profiles in longitudinal direction, the insulating material is provided between location feature 3 with a rectangular cavity 32, up to give, in which a plastic foam under pressure so that as a result of pressure applied to the interior walls _33: a "deformation of the Isolierstoffzwischenlage caused 3 pressure, the result has that the clamping strips 31 press the guide channels 12 and 26 of the metal profile 1, 2 onto the separating webs 34 in a non-positive manner.

To intensify the connection, the intermediate layer of insulating material can be plasticized and deformed by compressive stress.

It is also possible to use the guide channels 12 and 26 at their on the outside of the separating webs 34 to corrugated surfaces or to interlock. The plastics pressed into the cavity 32 The foam remains in the cavity 32 after it has hardened and is guaranteed As a result, the deformation of the insulating material liner 3 cannot be reversed. It is also conceivable to fill the cavity 32 with a plastic that experiences an increase in volume during the curing process, which also puts pressure on the inner walls 33 ″ and the thus associated deformation and jamming can be achieved.

The insulating material layer can be between the metal profiles can also be provided in sections. Heat exhaust!: Mung and Cold shrinkage of the individual parts of the insulating material layer is absorbed by the metal profile surrounds. By

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the clamping of the individual parts of the insulating material layer The intermediate layer is prevented from escaping in the receptacles of the metal profiles.

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Claims (8)

? QC claims 1. A method for producing an insulating profile, which consists of at least two connected via an insulating material intermediate layer Consists of metal profiles, thereby marked eich η et that the insulating material layer heated to at least the plasticizing temperature and under compressive stress in the connection area opposite the metal profiles (1, 2) molded into recordings of the metal profiles and then below the plasticizing temperature is cooled. 2. The method according to claim 1, characterized in that for plasticizing the insulating material layer (3) the Metal profiles (1,2) are heated. 3- insulating profile produced by the method according to claim 1 or 2, characterized in that the recordings of the metal profiles (1,2) for parts of the insulating material intermediate layer with the .Form fit between the metal profiles and the insulating material Intermediate support means are equipped. 4. insulating profile according to claim 3> characterized in that the two metal profiles (1,2) extending in the longitudinal direction Have webs (10, 20) which are interrupted by recesses (21) and completely separated from the insulating material layer (3) are wrapped. 5. insulating profile according to claim 3, characterized in that a metal profile (1) in the connection area with an in Longitudinal and closed on four sides 0 3 8 2 4/0512 Hollow chamber (4) is equipped, on the side walls of which corrugated pressure strips (40) are provided, which in the In the course of the task of a medium in the hollow chamber (4) in each case with an inclined surface (30) of the insulating material intermediate layer (3) cooperate, which is held by the second metal profile (2) in a chamber-like groove. 6. insulating profile according to claim 3, characterized in that the two metal profiles (1,2) are equipped with anchoring webs (14,24) running in the longitudinal direction, which are set transversely to the longitudinal axis in the shape of a saw and completely encased by the insulating material intermediate layer (3). 7 · insulating profile according to claim 3 _? characterized in that a metal profile (2) is provided with two side walls (25), of which the intermediate insulating layer (3) is received and the other metal profile (1) protruding into the intermediate insulating layer (3) in the area between the two side walls (25) Holding webs (11) ', which together with the side walls (25) and the insulating material intermediate layer (3) by connection s pins (6) or connection screws s made of plastic are fixed on all sides. 8. insulating profile according to claim 3, characterized in that the insulating material interlayer in the plane perpendicular to the longitudinal axis form-fit with the two metal profiles (1,2) is connected and has a cavity (32) through which when a pressure medium is applied to this cavity (32) a mutual; Jamming of the two metal profiles (1,2) is achieved. 9 · Insulating profile produced according to the method according to claim 1 or 2, characterized in that the insulating he material intermediate layer between the metal profiles (1,2) in sections is provided. 0 3 8 2 4/0512