EP1215360A1 - Composite profile - Google Patents

Abstract

The outer (2) and inner (3) profiled sections are joined by at least two insulating elements (4,5) between which is a hollow cavity (6). One end of each insulating element has a fixture-foot (7,8) for attachment to the outer profiled section and the opposite end's fixture foot is for attachment to the inner profiled section. The hollow cavity contains at least one insulating diagonal element (9) at least one end (10) of which is fixed aslant to one of the insulating elements..

Description

The invention relates to a composite profile, in particular for Windows, doors and facade elements, with an outer profile and an inner profile, the outer profile and the inner profile with at least two insulating elements are connected and being between the insulating elements Cavity is formed. - Such a composite profile, for example on windows, doors or facade elements is used for thermal insulation. The outer profile and the inner profile usually consist of a metal, in particular Aluminum, while the insulating elements or those between Insulated webs arranged on the outer profile and inner profile consist of a plastic. The insulating elements or Insulating webs cause the thermal separation of the outer profile and inner profile.

Efforts are made to achieve an optimal one with such composite profiles to achieve thermal insulation and at the same time a sufficient shear strength of the composite and a optimal transverse tensile strength and spring stiffness put. The further thermal improvement leads to Broadening of the isolation zone with ever thinner isolation bars with the result that the mechanical properties, in particular the shell offset and the ability to assemble leave the permissible tolerance range for the function. This can result in visual defects, for example on windows result. Furthermore, due to the tolerance problems Seal pairs disengaged and then is often the windproofness is no longer guaranteed.

DE 195 30 349 C1 is a composite profile for one Sash known, in which the outer profile and Inner profile through a single insulating web are connected, which is designed as a hollow chamber web. On the outside profile side, this hollow chamber web has one single wide mounting foot. Inner profile side are two arranged at a defined distance from each other Mounting feet provided in corresponding Intervene in recesses of the inner profile. The production this insulating web is expensive because of the arrangement the mounting feet are subject to tight tolerances, so that the insulating web can be easily inserted into the inner profile and External profile can be introduced. With this known composite profile due to the design of the insulating bar in the Otherwise the shear strength as well as the tolerance ability wish left.

DE 195 13 836 A1 describes a composite profile for a Sash described, which is also in the form of a one-piece hollow chamber web is formed. This Hollow chamber web has two parallel insulating elements, the kind of half-timbered construction over two inclined Insulating elements are interconnected. This one too known composite profiles are expensive to manufacture Way to adhere to very tight tolerances Functionally reliable bond between the insulating bridge and the Outer profile or the inner profile can be created. A shell offset can occur with this known composite profile occur relatively easily.

A composite profile is disclosed in EP 0 172 575 A2, at which the outer profile and the inner profile first by two individual insulating webs are connected to one another between which a cavity is provided. Can in the cavity subsequently a diagonally arranged to the insulating bars Bracing element can be inserted. The corresponding guide rails on both insulating webs. It is also possible to use different angular positions to realize the strut element. The afterthought Inserting the strut leads to unwanted constraints. Because of these constraints is a the composite profile often does not function reliably guaranteed.

In contrast, the invention is the technical problem based on a composite profile of the type mentioned indicate that adequate thermal insulation guaranteed and in terms of shear strength, Cross tensile strength and spring stiffness meet all requirements is sufficient and at the same time minimizes the shell offset as well nonetheless, in a simple and inexpensive manner can be produced and assembled.

To solve this technical problem, the invention teaches a composite profile, in particular for windows, doors and facade elements, with an outer profile and an inner profile,
wherein the outer profile and the inner profile are connected to one another by at least two insulating elements and a cavity is formed between the insulating elements,
wherein each of the two insulating elements has a fastening foot for fastening to the outer profile at one end and a fastening foot for fastening to the inner profile at the opposite end, the fastening feet of these insulating elements being rolled in in a shear-resistant manner,
wherein at least one insulating diagonal element is provided in the cavity, which is arranged obliquely to the two insulating elements
and wherein in the ready-to-install state of the insulating elements at least one end of the insulating diagonal element is firmly connected to one of the insulating elements and only one insulating diagonal element is firmly connected to this insulating element.

The outer profile and / or inner profile expediently exists made of metal, preferably aluminum. It is in the Framework of the invention that the insulating elements and / or that at least one insulating diagonal element made of a heat insulating Material, preferably made of plastic. According to the four fastening feet of the two Insulating elements rolled into the inner profile in a shear-resistant manner. Shear-proof rolled means within the scope of the invention that when rolling up the insulating elements with a corresponding one Rolling device fixing elements on the outer profile or are connected to the inner profile, so deformed or be bent so that the mounting feet are positive recorded on the inner profile or on the outer profile and, as it were, of the fixing elements be pinched. This results in a more resistant to shear Composite.

According to a preferred embodiment of the invention the two insulating elements arranged parallel to each other. Insulating elements that are parallel to each other mean in particular that at least 60%, preferably at least 70%, preferably at least 80% of the lengths of the two insulating elements have a parallel course. parallel In the context of the invention, course essentially means one parallel course of the two insulating elements. So it is within the scope of the invention that the orientation of the two insulating elements at an angle of 0 ° to 4 ° from the exact parallel arrangement deviates. Preferably includes the term parallel also the latter embodiment.

According to the invention is at least one end of the insulating diagonal element firmly connected to one of the insulating elements. Fixed connection here means in particular that the isolating diagonal element integrally connected to the insulating element is, or is integrally formed on the insulating element. However, it is also within the scope of the invention that called end of the insulating diagonal element over a fixed positive connection connected to the insulating element is. The insulation diagonal element can a positive locking connection to the insulating element be connected.

An insulating element according to the invention is preferably in the Cross-section linear or essentially linear. At the two opposite ends of the insulating element is a mounting foot for attachment to the External profile or provided on the inner profile. Conveniently, is at least one mounting foot one of the Insulating elements are dovetail-shaped. To preferred embodiment of the invention are both Fastening feet of an insulating element dovetailed educated. A preferred embodiment of the Invention is characterized in that the insulating diagonal element with one of the insulating elements Includes angle ∝ that is less than 60 °, preferred is less than 50 °. According to another preferred Embodiment of the invention, this angle ∝ is smaller than 45 °, preferably less than 40 °. - After very preferred Embodiment of the invention runs the insulating diagonal element over at least 80% of the length of one of the parallel ones Insulating elements through the cavity. Length of a Insulating element here means the extension of the insulating element from the outer profile to the inner profile. After last-mentioned embodiment of the invention would therefore a projection of the isolating diagonal element on the Insulating element concerned at least 80% of its length Cover the insulating element. This expediently runs Isolation diagonal element over at least 80%, preferred at least 90% of the distance between the outer profile and the inner profile through the cavity. In other words the insulating diagonal element preferably extends over the entire distance or over almost the entire distance between outer profile and inner profile through the cavity.

According to one embodiment of the invention, the insulating diagonal element at least one mounting foot Attachment to the outer profile or for attachment to the Inner profile. According to this embodiment, that is Isolation diagonal element with one end fixed to one of the Insulating elements connected and with the other end over the mentioned mounting foot on the outer profile or on the Attached inner profile. The mounting foot is included expediently dovetail-shaped and fits into a complementary recess of the outer profile or the inner profile. It is within the scope of the invention that the one of the insulating elements together with the insulation diagonal element firmly attached to it, with its other end via a mounting foot on the External profile or inner profile is attached, one in the Cross section forms V-shaped insulating web. Conveniently, the second insulating element then forms a second, linear in cross-section or I-shaped in cross-section Insulating web.

According to another preferred embodiment of the invention is the insulation diagonal element in the ready to install Condition of the insulation elements with each of its two ends firmly connected to one of the insulating elements. It is within the scope of the invention that the two Insulating elements with the insulating diagonal element connecting them a single Z-shaped insulating web form.

According to a further preferred embodiment of the invention a second insulating diagonal element is provided, which is arranged obliquely to the two insulating elements and in The insulation elements are at least ready for installation one end of this second insulating diagonal element with one of the insulating elements connected. It is within the Invention that this latter insulating element only this one insulation diagonal element firmly connected is.

According to one embodiment, the second insulating diagonal element a mounting foot for mounting on the outer profile or on the inner profile. It lies in the context of the invention that the insulating element with the second insulation diagonal element firmly connected to it forms a cross-sectionally V-shaped insulating web.

An embodiment of the invention is characterized in that that the first insulating diagonal element with the first of the insulating elements a first coherent Isoliersteg forms and that the second insulating diagonal element with the second of the insulating elements a second forms a continuous insulating bridge. Are preferred according to this embodiment two V-shaped in cross section Insulated webs realized. - According to another embodiment the invention is with one end to that Insulating element permanently connected insulating diagonal element at its other end across one across the insulating member arranged connecting element with the insulating element connected. Transversely arranged means within the scope of the invention on the one hand that the insulating element and that on it connected connecting element an angle of 90 ° or form an angle of approximately 90 °. Transversely arranged means but also that the insulating element and the connecting element an angle of 60 ° to 120 °, preferably of 70 ° form up to 110 °, very preferably from 80 ° to 100 °.

The invention is based on the finding that with a composite profile according to the invention first an optimal thermal insulation is achieved and nonetheless achieved very advantageous mechanical properties become. The truss construction according to the invention Insulating elements or insulating webs essentially only have still tension and / or compression struts. By the invention Arrangement and training becomes an optimal shear strength as well as spring stiffness achieved. So he can Value of the shear strength and the value of the spring stiffness compared to the ones described at the beginning the known composite profiles by at least one Third raised. In the inventive Compound profile occurs due to the curling Shell misalignment is practically non-existent. Even errors caused by subsequent stove enamelling could occur become complete with the composite profile according to the invention avoided. It should be emphasized that the invention Composite profile nonetheless on simple and little can be manufactured and assembled in a complex manner. in the The result will be related to the previous Known composite profiles described disadvantages in the effectively avoided composite profile according to the invention. A Thermal insulation or insulation is with the composite profile according to the invention implemented reliably, without additional measures or elements such as additional convection brakes and radiation brakes or Insert elements made of insulating material only at extremely high thermal requirements are required.

It is within the scope of the invention that a larger Distance between the two insulating profiles, like him occurs for example with wing elements, in particular Z-shaped insulating webs in cross section between the outer profile and the inner profile can be provided. You can further functional elements such as hollow cavities, stop lugs, Rubber receiving grooves and the like integrated his. - With a larger distance between the two It is often expedient for insulation profiles to have a division to choose in two separate insulating bars and for example one in cross-section V-shaped insulating web and one in Provide cross-section I-shaped insulating web. Here is it also within the scope of the invention, two V-shaped in cross section Combine insulating bars with each other.

Fig. 1

einen Querschnitt durch ein aus dem Stand der Technik bekanntes Verbundprofil,

Fig. 2

einen Querschnitt durch eine erste Ausführungsform eines erfindungsgemäßen Verbundprofils,

Fig. 3

einen Querschnitt durch zwei erfindungsgemäße Verbundprofile,

Fig. 4

eine weitere Ausführungsform eines erfindungsgemäßen Verbundprofils,

Fig. 5

den Gegenstand nach Fig. 3 in einer zusätzlichen Ausführungsform,

Fig. 6

den Gegenstand nach Fig. 3 in einer weiteren Ausführungsform und

Fig. 7

eine andere Ausführungsvariante eines erfindungsgemäßen Verbundprofils.

The invention is explained in more detail below on the basis of a drawing which represents only one embodiment. In a schematic representation:

Fig. 1

3 shows a cross section through a composite profile known from the prior art,

Fig. 2

3 shows a cross section through a first embodiment of a composite profile according to the invention,

Fig. 3

a cross section through two composite profiles according to the invention,

Fig. 4

another embodiment of a composite profile according to the invention,

Fig. 5

3 in an additional embodiment,

Fig. 6

3 in a further embodiment and

Fig. 7

another embodiment variant of a composite profile according to the invention.

In Fig. 1 is a known from the prior art Composite profile 1 shown. This known composite profile 1 consists of two independent, in the embodiment mutually parallel insulating elements 4.5. Between parallel insulating elements 4, 5 is a cavity 6 educated. The two insulating elements 4, 5 point on each of its ends has a fastening foot 7, 8, with which they are complementary in each case Border the outer profile 2 or the inner profile 3. In the Fig. 1 with solid lines drawn insulating elements 4, 5 represent the state of the composite profile 1 after Roll in. In contrast, the dash-dotted lines show the insulating elements 4, 5 after an undesirable Shell misalignment that occurs, for example, after painting. Such a shell offset is intended according to the invention be minimized.

2 to 7 show embodiments of an inventive Composite profile 1 that especially for Windows, doors, facade elements and the like are used becomes. The composite profile 1 has an outer profile 2 and Inner profile 3. The outer profile 2 and the inner profile 3 are in the embodiments of FIGS. 2 to 7 each by two insulating elements 4, 5 with each other connected and between these insulating elements 4, 5 is a Cavity 6 formed. According to a preferred embodiment and in the exemplary embodiment, the two insulating elements 4, 5 arranged parallel to each other. Each of the two parallel insulating elements 4, 5 have at one end a mounting foot 7 for attachment to the outer profile 2 and a mounting foot at the opposite end 8 for attachment to the inner profile 3. These mounting feet 7, 8 of the insulating elements 4, 5 are expediently and in the exemplary embodiment dovetailed educated. Grasp the mounting feet 7, 8 preferred and in the exemplary embodiment in each complementary cavities of the outer profile 2 and Inner profile 3 a. The mounting feet 7, 8 are according to the invention on the outer profile 2 and on the inner profile 3 shear-proof rolled. Fixing elements 20 are shown in the figures of the outer profile 2 and the inner profile 3 recognizable, the were deformed during the rolling process so that the complementary cavities for the mounting feet 7, 8 result and the mounting feet 7, 8 as it were thrust-resistant be pinched.

According to the invention, an insulating diagonal element is in the cavity 6 9 provided that obliquely to the two parallel Insulating elements 4, 5 is arranged. Im ready to install The condition of the insulating elements 4, 5 is at least one end 10 of the insulating diagonal element 9 firmly with one of the insulating elements 4, 5 connected. According to the invention Insulating element 4, 5 is only an insulating diagonal element 9 firmly connected. Preferably and in the embodiment closes the insulating diagonal element 9 with one of the Insulating elements 4, 5 an angle ∝ that is less than Is 50 °. Appropriately and in the exemplary embodiment the Isolierdiagonalelement 9 over at least 80% of Length of one of the insulating elements 4, 5 through the cavity 6. The term length here means the extension of the insulating element 4, 5 in the direction of the distance a between the Outer profile 2 and the inner profile 3. In Fig. 2 it can be seen that the dash-dotted projection of the Isolation diagonal element 9 on the insulation element 5 80% the length of this insulating element 5 exceeds and thus the insulating diagonal element 9 over at least 80% of the length of the insulating element 5 runs through the cavity 6. - Preferably, and in the exemplary embodiment, this runs Isolation diagonal element 9 over at least 80%, preferred over at least 90% of the distance a between the outer profile 2 and the inner profile 3.

Fig. 2 shows a first embodiment of an inventive Composite profile 1. Here is the insulation diagonal element 9 in the ready-to-install state of the insulating elements 4, 5 with each of its two ends 10, 11 with one of each Insulating elements 4, 5 firmly connected. Preferably and in Embodiment means firm connection that the Isolierdiagonalelement 9 in one piece to the respective Insulating element 4, 5 is connected or molded. In 2 form the insulating elements 4, 5 with the insulating diagonal element 9 a in cross section Z-shaped insulating web 12.

3 is in the upper Composite profile 1 is a Z-shaped insulating web 12 is provided, but on the lower insulating element 5 further functional elements 13 not described in detail are connected. - With the lower composite profile 1a in Fig. 3, the insulating diagonal element 9 has a mounting foot 14 with which it is attached to the outer profile 2 is. 3 forms the upper Insulating element 4 with the insulating diagonal element 9 in Cross-section V-shaped insulating web 15. The lower composite profile 1a has two separate insulating webs 15, 16, namely on the one hand the aforementioned V-shaped insulating web and on the other hand, a second I-shaped in cross section Isoliersteg 16, of the lower insulating element 5 of the Composite profile 1a is formed.

4 to 6 is a second insulating diagonal element 17 is provided, which also is arranged obliquely to the two insulating elements 4, 5 and when these insulating elements 4, 5 are ready for installation is at least one end 10 of this second insulating diagonal element 17 firmly with one of the insulating elements 4, 5 connected. In the exemplary embodiment according to FIG. 4, this has second insulating diagonal element 17 a fastening foot 14 with which this second isolating diagonal element 17 on the External profile 2 is attached. Preferably, too Fastening foot 14 shear-resistant on the outer profile 2 been rolled up. The composite profile 1 according to FIG. 4 has two separate insulating cross-sections with a V-shape.

In the embodiments according to FIGS. 4 to 6 forms the first insulating diagonal element 9 with the first insulating element 4 a first continuous insulating web and forms the second insulating diagonal element 17 with the second Insulating element 5 a second coherent insulating web. In the exemplary embodiments according to FIGS. 5 and 6 is that with one end 10 to the insulating element 4, 5 fixed connected Isolierdiagonalelement 9, 17 each with the other end 11 across a transverse to the insulating element 4, 5th arranged connecting element 18 with the insulating element 4, 5 connected. 5 in the composite profile 1 the connecting element 18 each with the associated Insulating element 4, 5 an angle of 90 °. In the embodiment 6, the connecting element 18 is against it obliquely with respect to the respectively assigned insulating element 4, 5 arranged. In the composite profiles 1 according to FIGS. 5 and 6 are two triangular cross-sections 19 provided. According to a preferred embodiment and in the embodiment of FIGS. 4 to 6 are at each of the composite profiles 1 shown here two independent insulating bars provided with regard to their Shape and arrangement and with respect to one in the cavity 6 imaginary and not shown mirror plane mirror image are arranged to each other.

Fig. 7 shows a further embodiment of an inventive Composite profile 1. Here is one of the triangular ones Insulating webs 19 from FIG. 6 are provided. Next this triangular insulating web 19 is also an I-shaped Insulating web 16 provided by the insulating element 5 is formed.

Claims (10)

Composite profile (1), in particular for windows, doors and facade elements, - with an outer profile (2) and an inner profile (3),
wherein the outer profile (2) and the inner profile (3) are connected to one another by at least two insulating elements (4, 5) and a cavity (6) is formed between the insulating elements (4, 5),
each of the two insulating elements (4, 5) at one end a fastening foot (7, 8) for fastening to the outer profile (2) and at the opposite end a fastening foot (7, 8) for fastening to the inner profile (3) The fastening feet (7, 8) of these insulating elements (4, 5) are rolled in in a shear-resistant manner,
at least one insulating diagonal element (9) is provided in the cavity (6) and is arranged obliquely to the two insulating elements (4, 5)
and wherein in the ready-to-install state of the insulating elements (4, 5) at least one end (10) of the insulating diagonal element (9) is firmly connected to one of the insulating elements (4, 5) and only one diagonal insulating element (9 ) is firmly connected. Composite profile according to claim 1, wherein the fastening feet (7, 8) of the insulating elements (4, 5) dovetailed are trained. Composite profile according to one of claims 1 or 2, wherein the insulating diagonal element (9) with one of the insulating elements (4, 5) encloses an angle ∝ that is smaller than 60 °, preferably less than 50 °. Composite profile according to one of claims 1 to 3, wherein the insulating diagonal element (9) over at least 80% of the Length of one of the insulating elements (4, 5) through the cavity (6) runs. Composite profile according to one of claims 1 to 4, wherein the insulating diagonal element (9) has at least one fastening foot (14) for attachment to the outer profile (2) or for attachment to the inner profile (3). Composite profile according to one of claims 1 to 4, wherein the insulating diagonal element (9) in the ready-to-install state the insulating elements (4, 5) with each of its two ends (10, 11) with one of the insulating elements (4, 5) connected is. Composite profile according to one of claims 1 to 6, wherein a second insulating diagonal element (17) is provided, which is arranged obliquely to the two insulating elements (4, 5) and when the insulating elements (4, 5) are ready for installation at least one end (10) of this second insulating diagonal element (17) firmly with one of the insulating elements (4, 5) connected is. Composite profile according to claim 7, wherein the second insulating diagonal element (17) a mounting foot (14) for the Attachment to the outer profile (2) or to the inner profile (3). Composite profile according to claim 7 or 8, wherein the first Insulating diagonal element (9) with the first insulating element (4, 5) forms a first continuous insulating web and wherein the second insulating diagonal element (17) with the second insulating element (4, 5) a second contiguous Insulating bridge forms. Composite profile according to one of claims 1 to 9, wherein one end (10) of the insulating element (4, 5) connected insulating diagonal element (9, 17) on the other end (11) across a transverse to the insulating element (4, 5) arranged connecting element (18) with the Insulating element (4, 5) is connected.

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