JP2022517507A - Profile - Google Patents

Abstract

A profile (1) for a dry structure, comprising a first peripheral edge (2) and a second peripheral edge (3) connected to each other via the abdominal plate (4), the abdominal plate (4). It is formed by the abdominal plate element (5), and the abdominal plate element (5) is connected to the first peripheral edge (2) and the second peripheral edge (3) in a shape fitting manner.

Description

The present invention relates to a profile for a dry structure comprising a first and second perimeters connected to each other via an abdominal plate.

Such a profile is known, for example, from DE10216675 (B4). The profile forms a support structure and helps to accept flat structural panels such as gypsum plasterboard. The flat structural panel is fixedly fastened to the periphery of the profile.

Therefore, profiles are usually formed from metallic materials. In this case, it is often a problem that the metallic material has good thermal conductivity properties. When performing thermal separation by a wall constructed using a profile, the problem is that the metal profile extending from one side of the wall to the other forms a thermal bridge through which considerable heat transfer. There is a problem that can occur.

In the case of previously known profiles, the separation of the two edges is brought about by the separation gap, where an elastic material is introduced inside and connected to the edges by an adhesive connection.

A further problem is that the sound is transmitted through the profile and does not interfere with the propagation of the sound within the profile.

An object of the present invention is to provide a profile for a dry structure, which allows thermal separation of the two peripheral edges so that they can be manufactured easily and inexpensively.

This object is achieved by the feature of claim 1. Dependent claims refer to advantageous embodiments.

To this end, the abdominal plate is formed from the abdominal plate element, which is connected to the first and second peripheral edges in a shape-fitting fashion. Due to the fact that the abdominal plate is formed from multiple abdominal plate elements, thermal separation of the two perimeters has already been achieved, regardless of the material selection of the abdominal plate elements. Due to the fact that the abdominal plate elements are connected to the first and second edges in a shape-fitting fashion, the profile can be manufactured particularly easily and inexpensively. It is only necessary to fasten the abdominal plate elements to both edges. In particular, there is no need to provide additional means of connection or create adhesive connections between the elements.

In addition, it is advantageous that the profile contains multiple portions, which reduces sound propagation within the profile, resulting in improved sound separation.

The first and second perimeters can each include a fastening portion, an opening is introduced within the fastening portion, and the abdominal plate element is fastened within the opening. Therefore, the fastening portions are preferably formed as strips and disposed relative to each other in a plane. Therefore, a plurality of openings are introduced in each fastening portion. This can preferably be done in the form of a pattern of holes with circular openings at regular intervals. This allows for flexible placement of the abdominal plate elements within the two perimeters. For example, the number of abdominal plate elements can be increased or decreased to form a profile, depending on the expected loading conditions. The openings further improve the sound separation characteristics of the profile.

The abdominal plate element preferably has the form of a plate. In the case of this design, the abdominal plate element is formed as a flat element, so that it can be manufactured easily and inexpensively.

The abdominal plate element is preferably provided with a shape fitting element, and the abdominal plate element is connected to the fastening portion of the first peripheral edge and the second peripheral edge via the shape fitting element. Thus, the shape fitting element engages within the opening of the fastening portion such that the belly plate element is fixedly connected to the fastening portion of the first and second peripheral edges.

The shape fitting element can include a bore or a fastening element, and the fastening element is introduced into the bore. Thus, the abdominal plate element is disposed on one side surface of the peripheral fastening portion, and the fastening element is disposed on the other side surface of the fastening portion, through the peripheral opening and in the bore of the abdominal plate element. Protruding into.

Therefore, the fastening element is preferably fastened in the bore of the abdominal plate element by a snap fitting connection. For this purpose, the bore of the abdominal plate element on the side facing opposite to the fastening element is provided with a cross-sectional extension. The fastening element is provided with a protrusion, the free end of which is provided with an elastically tiltable conical cross-sectional extension. The cross-section extension deforms when pushed into the bore and is fixedly fastened within the cross-section extension. In this way, the fastening element secures the abdominal plate element onto the first or second peripheral edge.

According to an alternative embodiment, each abdominal plate element can comprise a shape fitting element in the form of a bore and a protrusion, in which case two abdominal plate elements are assigned to each other. In this embodiment, the separate fastening elements are omitted. For fastening purposes, the two abdominal plate elements are preferably arranged back to back to accommodate the fastening portions of the first and second perimeters. This provides a mechanically particularly stable connection and a mechanically particularly stable profile.

Therefore, the bores and protrusions of the shape fitting elements are preferably designed in a conforming fashion. For the purpose of joining, the protrusions of the abdominal plate element engage within the bores of other adjacent abdominal plate elements. Therefore, the protrusion passes through the opening of the fastening portion of the peripheral edge.

The abdominal plate element can comprise a first edge assigned to the first rim and a second edge assigned to the second rim, with the bore and protrusion being the first, respectively. It is arranged on the edge of 1 and the edge of the second. Further, the bores and protrusions are preferably arranged such that the bores and protrusions on the first edge have point symmetry with respect to the placement of the bores and protrusions on the second edge. In this embodiment, it is advantageous that a single embodiment of the abdominal plate element is sufficient to form a profile. For fastening purposes, the first abdominal plate element is disposed within the openings of the two perimeters and the second abdominal plate element is fastened onto the first abdominal plate element in a mirror-symmetrical and back-to-back fashion. Therefore, the protrusions of the two abdominal plate elements each pass through the openings of the two edges. Further, the protrusion of one abdominal plate element engages within the bore of the other abdominal plate element. Therefore, the profile can be manufactured quickly and inexpensively. In addition, only one single forming tool is required to manufacture the belly plate element.

The abdominal plate element is preferably composed of a non-metallic material, particularly a synthetic material. Therefore, it is preferable to use a synthetic material that can be injection molded. In this case, it is advantageous that the synthetic material is inexpensive. In addition, synthetic materials have favorable thermal properties. Synthetic materials have a relatively low thermal conductivity and affect the thermal separation of the two perimeters. Synthetic materials also have sound separation properties, especially as compared to metallic materials.

In addition to the use of synthetic materials, the use in the form of composite materials, for example fiber reinforced synthetic materials, is also particularly considered.

The first and second perimeters are preferably formed from a metallic material. This allows, in particular, the processing of profiles or the attachment of wall elements to profiles using conventional means known from dry structural techniques.

Fastening flanges for receiving dry structural panels are formed from a first peripheral edge and a second peripheral edge. Therefore, the perimeter is preferably formed such that flat elements are arranged on the perimeter, and two adjacent wall elements can also be disposed on the perimeter from edge to edge. The wall elements are preferably fastened by screw connections. Drywall screws can be used for this purpose.

The profile is preferably formed as a C-shaped profile. Such profiles are commonly used in dry structures.

A wall according to the invention comprises a plurality of profiles according to the invention and at least one flat structural panel secured on a fastening flange of the profile. Flat structural panels are preferably secured to both sides of the profile. Both edges of the profile are thermally separated by separately formed abdominal plate elements, thus producing a wall with good thermal insulation.

In the following, some embodiments of the profile according to the invention will be described in more detail with the help of figures. These figures schematically show the following in each case.

FIG. 3 is a cross-sectional view and a three-dimensional view of the first embodiment of the profile. It is a three-dimensional view of the abdominal plate element by 1st Embodiment. It is a front view and the sectional view in the plane AA of the abdominal plate element by 1st Embodiment. It is a side view and the sectional view in the plane BB of the profile by 1st Embodiment. FIG. 3 is a cross-sectional view and a three-dimensional view of the second embodiment of the profile. It is a three-dimensional view of the abdominal plate element by the 2nd Embodiment. A front view and two cross-sectional views of the abdominal plate element according to the second embodiment (one in planes CC and one in planes EE). It is a side view and the sectional view in the plane DD of the profile by 2nd Embodiment. A wall with the profile of FIG. A wall having the profile of FIG.

FIG. 1 shows a cross-sectional view and a three-dimensional view of profile 1 for a dry structure. The profile 1 includes a first peripheral edge 2 and a second peripheral edge 3. Both peripheral edges 2 and 3 are made of a metallic material. The first peripheral edge 2 and the second peripheral edge 3 are connected to each other via the abdominal plate 4. The abdominal plate 4 is formed of a plurality of abdominal plate elements 5, and the abdominal plate element 5 is connected to the first peripheral edge 2 and the second peripheral edge 3 in a shape fitting manner. The abdominal plate element 5 is composed of a synthetic material that can be injection molded.

The profile 1 is formed as a C-shaped profile and includes a fastening flange 14 for receiving a dry element. The two fastening flanges 14 are arranged parallel to each other. The first peripheral edge 2 and the second peripheral edge 3 each include a fastening portion 6. The fastening portion 6 is formed as a strip, and both fastening portions 6 are arranged in the same horizontal plane. The two fastening portions 6 are formed from a first peripheral edge 2 and a second peripheral edge 3 and face each other. The opening 7 in the form of a circular hole is introduced into the fastening portion 6. The abdominal plate element 5 is fastened in the opening 7.

The abdominal plate element 5 is formed as a plate and is substantially flat.

The abdominal plate element 5 includes a first edge portion 12 assigned to the first peripheral edge 2 and a second edge portion 13 assigned to the second peripheral edge 3. The shape fitting element 8 is arranged in the regions of both edges 12 and 13. The abdominal plate element 5 is connected to the fastening portion 6 of the first peripheral edge 2 and the second peripheral edge 3 via the shape fitting element 8.

In the present embodiment, the shape fitting element 8 includes a bore 9 and a fastening element 10. To form the profile 1, the abdominal plate element 5 is disposed on one side surface of the fastening portion 6 and the fastening element 10 is disposed on the other side surface of the fastening portion 6 and passes through the opening 7. It protrudes into the bore 9 of the abdominal plate element 5.

The fastening element 10 is formed as a latch element and preferably has a button-like shape. The fastening element 10 includes a pin 17 having an undercut in the center. The bore 9 of the abdominal plate element 5 has a cross-sectional extension on the side surface facing the opposite side of the fastening portion 6. The pin 17 formed in a conical shape at the free end deforms when pushed into the bore 9 so that it is finally fastened to the cross-sectional extension in a shape-fitting fashion. In this way, the fastening element 10 fixes the abdominal plate element 5 onto the first peripheral edge 2 or the second peripheral edge 3.

FIG. 2 shows the anterior or posterior surface of the abdominal plate element 5 in detail and in a three-dimensional fashion.

FIG. 3 shows the above-mentioned abdominal plate element 5 in a front view, a plan view, and a cross-sectional view of the planes AA.

FIG. 4 shows a side view and a cross-sectional view of the profile 1 according to FIG. 1 in a plane BB.

FIG. 5 shows an alternative embodiment of Profile 1 as a cross-sectional view and in a three-dimensional view. The profile 1 according to FIG. 5 similarly includes a first peripheral edge 2 and a second peripheral edge 3. Both peripheral edges 2 and 3 are made of a metallic material. The first peripheral edge 2 and the second peripheral edge 3 are connected to each other via the abdominal plate 4. Therefore, the abdominal plate 4 is formed of a plurality of abdominal plate elements 5, and the abdominal plate element 5 is connected to the first peripheral edge 2 and the second peripheral edge 3 in a shape fitting manner. The abdominal plate element 5 is composed of a synthetic material that can be injection molded. The abdominal plate element 5 is formed as a plate and is substantially flat.

The profile 1 is formed as a C-shaped profile and includes a fastening flange 14 for receiving a dry element. The two fastening flanges 14 are arranged parallel to each other. The first peripheral edge 2 and the second peripheral edge 3 each include a fastening portion 6. The fastening portion 6 is formed as a strip, and both fastening portions 6 are arranged in the same horizontal plane. The two fastening portions 6 are formed from a first peripheral edge 2 and a second peripheral edge 3 and face each other. The opening 7 in the form of a circular hole is introduced into the fastening portion 6. The abdominal plate element 5 is fastened to the opening 7.

In the case of the present embodiment, in each case, the abdominal plate elements 5 have two abdominal plate elements 5 arranged back to back with respect to each other, and therefore, between them, the first peripheral edge 2 and the second peripheral edge 3 It is fastened to the fastening portion 6 in the form of accepting the fastening portion 6.

Each abdominal plate element 5 comprises a shape fitting element 8 in the form of a bore 9 and a protrusion 11. Therefore, the bore 9 and the protrusion 11 of the shape fitting element 8 of the abdominal plate element 5 are compatible with each other. The protrusion 11 is inserted into the bore 9 in a shape-fitting manner and can be latched into the bore 9. The abdominal plate element 5 comprises a bore 9 and a protrusion 11 on the first edge 12 and the second edge 13, respectively. Therefore, the arrangement of the bore 9 and the protrusion 11 on the first edge 12 is point-symmetrical with the arrangement of the bore 9 and the protrusion 11 on the second edge 13. In this regard, a single type of abdominal plate element 5 is sufficient to form profile 1. The first abdominal plate element 5 is fixed in the fastening portion 6 by the opening 7, and the second abdominal plate element 5 is inclined by 180 ° and fastened on the other abdominal plate element 5. Therefore, the two abdominal plate elements 5 receive the fastening portion 6 between them. In this embodiment, the two back sides of the two abdominal plate elements 5 face each other. Further, the first edge portion 12 of one abdominal plate element 5 is assigned to the second edge portion 13 of the other abdominal plate element 5.

FIG. 6 shows the anterior or posterior surface of the abdominal plate element 5 according to FIG. 5 in detail and in a three-dimensional fashion.

FIG. 7 shows the aforementioned abdominal plate element 5 in a front view and two cross-sectional views, one in planes CC and one in planes EE.

FIG. 8 shows a side view and a cross-sectional view of the profile 1 according to FIG. 5 in the plane DD.

FIG. 9 shows a wall 15 comprising a plurality of profiles 1 according to FIG. 1 and a plurality of flat structural panels 16 fixed on the fastening flange 14 of the profile 1. The structural panel 16 is formed of, for example, gypsum plasterboard and is secured within the fastening flange 14 of profile 1 using, for example, fastening means 17 in the form of screws.

FIG. 10 shows a wall 15 comprising a plurality of profiles 1 according to FIG. 5 and a plurality of flat structural panels 16 fixed on the fastening flange 14 of the profile 1. The structural panel 16 is formed of, for example, gypsum plasterboard and is secured within the fastening flange 14 of profile 1 using, for example, fastening means 17 in the form of screws.

Claims (14)

A profile (1) for a dry structure comprising a first peripheral edge (2) and a second peripheral edge (3) connected to each other via the abdominal plate (4), wherein the abdominal plate (4) is provided. It is formed by the abdominal plate element (5), and the abdominal plate element (5) is connected to the first peripheral edge (2) and the second peripheral edge (3) in a shape fitting manner. A featured profile for dry structures (1). The first peripheral edge (2) and the second peripheral edge (3) each have a fastening portion (6), an opening (7) is introduced into the fastening portion (6), and the abdominal plate element ( The profile according to claim 1, wherein 5) is fastened in the opening (7). The profile according to claim 1 or 2, wherein the abdominal plate element (5) is formed as a plate. The abdominal plate element (5) is provided with a shape fitting element (8), and the abdominal plate element (5) is provided with the first peripheral edge (2) and the said by the shape fitting element (8). The profile according to any one of claims 1 to 3, wherein the profile is connected to the fastening portion (6) of the second peripheral edge (3). The shape fitting element (8) comprises a bore (9), the abdominal plate element (5) is disposed on one side surface of the fastening portion (6), and the fastening element (10). 4. The profile according to claim 4, wherein the profile is disposed on the other side surface of the fastening portion (6) and protrudes into the bore (9) through the opening (7). .. Each abdominal plate element (5) comprises a shape fitting element (8) in the form of a bore (9) and a protrusion (11), in which case two abdominal plate elements (5) are assigned to each other. The profile according to claim 4, wherein the profile is characterized by the above. The profile according to claim 6, wherein the bore (9) and the protrusion (11) of the shape fitting element (8) of the belly plate element (5) are compatible with each other. The abdominal plate element (5) has a first edge portion (12) assigned to the first peripheral edge (2) and a second edge portion (13) assigned to the second peripheral edge (3). ), And the bore (9) and the protrusion (11) are disposed on the first edge portion (12) and the second edge portion (13), respectively. , The profile according to claim 6 or 7. The arrangement of the bore (9) and the protrusion (11) on the first edge (12) is the same as the arrangement of the bore (9) and the protrusion (11) on the second edge (13). The profile of claim 8, characterized in that it has symmetry. The profile according to any one of claims 1 to 9, wherein the abdominal plate element (5) is formed from a synthetic material. The profile according to any one of claims 1 to 10, wherein at least one peripheral edge (2, 3) is formed from a metallic material. One of claims 1 to 11, wherein the fastening flange (14) for receiving the dry structural element is formed from the first peripheral edge (2) and the second peripheral edge (3). The profile described in the section. The profile according to any one of claims 1 to 12, wherein the profile (1) is formed as a C-shaped profile. The wall (15), the plurality of profiles (1) according to any one of claims 1 to 13, and at least one flat surface fixed on the fastening flange (14) of the profile (1). A wall (15) comprising a structural panel (16).

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