ES2686070T3 - Flexible profile - Google Patents

Abstract

Flexible profile (10) comprising successive members (12, 14) in the longitudinal direction and several joining elements (16), in which the members (12, 14) are joined by means of joining elements (16), characterized by that the connecting elements (16) are separated from each other and that each pair of neighboring members (12, 14) is connected, respectively, through a connecting element (16), which is connected through a first bending edge (32) with a neighboring member (12) and through a second bending edge (34), which is aligned with the first bending edge (32) at least in the linear aligned state of the profile with the other neighboring member (14), as well as why the first and second bending edges (32, 34) are aligned in the longitudinal direction of the profile and the connecting element (16) has a third bending edge (36) perpendicularly aligned to the first and second bending edges (32, 34).

Description

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DESCRIPTION

Flexible profile

The present invention relates to a flexible profile of several successive members in the longitudinal direction, which are coupled to each other through joining areas.

Flexible profiles are used for the construction of lightweight, non-bearing components in the building sector. In the so-called dry construction, flat elements are connected with the help of profiles with each other and with other adjacent components, for example floors, ceilings or walls. Particularly in the interior design sector, configurations that differ from the straight wall are also used. For housing curved panels, such as laminated plasterboard, semi-finished flexible products, etc. fixing means are necessary, which deviate from a linear extension. This can be done, for example, by means of the custom manufacturing of curved profiles, through the resolution on many specific supports or through flexible profiles. Custom manufacturing means a financial and time surplus through measurement, ordering, manufacturing and transportation with the respective waiting times. If the order is placed before carrying out the gross construction work, the tolerances always present in the gross construction must be reacted through additional measures. The resolution of the specific supports for the accommodation of curved flat components makes it difficult to configure the curved shape of the component and also conditions a high assembly cost. In the case of flexible profiles, the configuration is done before assembly by means of manual adaptation. The necessary flexibility is achieved, for example, through articulated joint zones of individual members, as is known from WO 02/18723 a1. It is also known from US 6,115,984 and WO 2003/097956 A1 the application of several bending points between the individual members, in which the sheet joints are selected in such a way that during the bending the articulated joint action to achieve profile flexibility. The necessary flexibility determines in the known embodiments a lower stability of the profile, thereby damaging both the configuration and the assembly process. Document US6115984 publishes all the technical characteristics of the preamble of claim 1. The measure of the present invention consists in creating a flexible profile, which can be selectively sent to the desired shape, which deviates from the linear alignment and can be Fix in this way. According to the invention, the task is solved by means of a flexible profile according to claim 1. The advantage of the flexible profile according to the invention is that the flexible profile is flexible in a defined direction against a high resistance, since the bending tabs They are less unstable than known articulated forms. In the desired configuration, the profile can then be set, for example, in a manner known per se.

An embodiment is especially preferred, in which the profile has two different types of geometric members, which are repeated alternating, however, equal types of members are also possible.

In addition, an embodiment is preferred, in which neighboring members are, respectively, in mirror symmetry with each other, so that the third bending edges mark the planes of the mirrors. In this way, a connection geometry is formed for joining the neighboring members with the connecting element, which is configured in mirror symmetry and is repeated alternating.

In a preferred embodiment, the joining element is flexible in a 90 ° zone around the first and second bending edges, so that the joining element can be folded in one direction or another direction that extends perpendicular to the third axis support.

An embodiment is especially preferred, in which the desired configuration of the flexible profile can be stabilized with the aid of flexible joining means connecting several members, to facilitate the assembly process by obtaining a stabilized profile.

More conveniently, the flexible joining means are configured flat and are joined with the help of tabs with the flexible profile. These tabs guide the flexible joining means in their longitudinal direction.

In a preferred embodiment, the tabs are configured in side walls of the profile, which are joined with the members and are at an angle of 90 ° with respect to these.

In this embodiment, the tabs prevent vertical flexion of the profile through the guide of the flexible joining means. But it is also conceivable to use means of joining the type of cable, such as cables and wires.

The joining means inserted in the flanges can preferably be fixed in these flanges or directly against the members of the profile, for example by means of interlocking or crimping the flanges against the joining means, so that the fixing process can be carried out in place with standard tool.

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Especially preferred is an embodiment, in which the profile can be manufactured in a rational manufacturing process from a semi-finished product in the form of a band economically as a piece of sheet metal. But, in principle, other materials, such as plastic, can also be processed in appropriate manufacturing processes.

In a preferred application, the support construction is constituted with the help of at least one flexible reinforced profile. A support construction is especially preferred, which can be used in interior design, for example for use in separation walls for the elevation of the play space of the configuration for the improvement of space acoustics, since especially in connection with the propagation of sound are of great importance the forms of the elements of formation of the space that deviate from the linear form, or for surfaces specially formed for the visual configuration.

In addition, the profile described above can also be used for the formation of channels of cable boxes or lines. In this case, there is a special advantage that right angle joints are avoided, so that, for example, power lines must be less curved and therefore less requested. Since the cross sections of such cable channels are often determined by the particularities of the space in corners or junction points, the flexible profile according to the invention makes it possible, in general, also smaller cross sections.

An embodiment of the invention is described in detail below with the help of the attached drawings.

Figure 1 shows an inclined view of a fragment of a flexible profile in a linearly aligned state.

Figure 2 shows an inclined view of a fragment of a flexible profile in folded form.

Figure 3 shows an inclined view of a joining area of the section shown in Figure 2 of a flexible profile in a folded shape and

Figure 4 shows a perspective view of a support construction for an element of the building interior design using flexible profiles in a bent shape.

A fragment of a flexible profile 10 in the linear aligned state is shown in inclined view in FIG. In this case, it is a kind of supply status. The flexible profile 10 has two different types of geometric members 12, 14, which alternate. The types of members 12, 14 neighbors are connected through a connecting element 16. The types of geometric members 12, 14 have side walls 18, 20, which respectively have four marginal flanges 22, 24, 26, 28 , in which a flexible connection means 30 is inserted. The connection element 16 is in figure 1 in the delivery state and is not yet bent to the position, in which the flexible profile 10 can be bent with the joining means 30 inserted in the marginal flanges 22, 24, 26, 28.

Figure 2 shows in an inclined view a fragment of a flexible profile 10 in folded form. The joining areas 16 between the types of geometric members 12, 14 neighbors are folded in a first processing stage around a first bending edge 32 and a second bending edge 34 (see also Figure 3) around 90 °. The types of neighboring members 12, 14 are folded around a third bending edge 36 disposed in the connecting element 16. The flexible profile 10 is guided in the folded form shown in Figure 2 with the aid of the joining means 30 in the marginal flanges 22, 24, 26, 28. In this way, the profile can be curved when the connecting element is only placed through bending around the third bending edges in the transverse direction. The joining means can be interlocked or crimped with the tabs or side walls. But other types of fixing are also conceivable, such as screws, rivets or glue.

In figure 3 it is a more detailed inclined view of a junction area of the fragment shown in figure 2 of a flexible profile in a bent shape. With respect to the delivery state shown in Figure 1, the connecting element 16 is connected to the first bending edge 32 with the neighboring member 12 and through the second bending edge 34 which is aligned with the first bending edge 32 to the less in the linear aligned state of the profile with the other neighboring member 14, so that the first bending edge 32 and the second bending edge 34 are aligned in the longitudinal direction of the flexible profile 10. The connecting element 16 has the third bending edge 36, aligned perpendicular to the first and second bending edges 32, 34, around which the neighboring members 12, 14 of the flexible profile 10 can be pivoted. Through the articulation around the third bending edge 36 is reinforced additionally the flexible profile, since the connecting element 16, after a flexion around the third bending edge 36, is not pivotable already around the first bending edge 3 2 and the second bending edge 34, since these are no longer aligned when the connecting element 16 is folded around the third bending edge 36, that is, after flexing the flexible profile around the third bending edge 36 it is not possible to bend the connecting element 16 already back to the delivery state. In the recesses 38 shown, these are housing possibilities, for example, for joining means for fixing other

media or for ceiling or floor fixing elements.

Figure 4 shows in perspective view a support construction for an element of the interior design of buildings, such as a roof tarp, in which the elements used for cladding are not represented. Between two reinforced flexible profiles 10 respectively in bent form are attached connecting means 40 with the help of the side walls 18, 20. The elements of stable form themselves are suspended with the help of suspension is 42 shown schematically, for example, from A roof not shown.

In the event that the flexible profile 10 must bend perpendicularly to the direction present in the example 10 shown, the connecting elements 16 are folded in the linear aligned state of the flexible profile 10 with the aid of the first and the second bending edge 32 , 34 around 90 ° and the tape-shaped joining means 30 are pulled out of the flanges 22, 24, 26, 28 on the side walls 18, 20, so that the flexible profile 10 is flexible around the third edge of bending 36 of the connecting element 16.

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Claims (14)

5 10 fifteen twenty 25 30 35 40 Four. Five fifty 55 1. - Flexible profile (10) comprising successive members (12, 14) in the longitudinal direction and several joining elements (16), in which the members (12, 14) are joined by means of joining elements (16) , characterized in that the connecting elements (16) are separated from each other and that each pair of neighboring members (12, 14) is connected, respectively, through a connecting element (16), which is connected to through a first bending edge (32) with a neighboring member (12) and through a second bending edge (34), which is aligned with the first bending edge (32) at least in the linear aligned state of the profile with the other neighboring member (14), as well as why the first and second bending edges (32, 34) are aligned in the longitudinal direction of the profile and the connecting element (16) has a third bending edge (36 ) aligned perpendicular to the first and second bending edges (32, 34). 2. - Flexible profile according to claim 1, characterized in that the profile has two different types of geometric members (12, 14), which are repeated alternating. 3. - Flexible profile according to claim 2, characterized in that neighboring members are, respectively, in mirror symmetry with each other, in which the three bending edges (36) mark the planes of the mirrors. 4. - Flexible profile according to one of claims 1 to 3, characterized in that the connecting element can be folded in an area of 90 degrees around the first and second bending edges (32, 34). 5. - Flexible profile according to one of the preceding claims, characterized in that the desired conformation of the flexible profile can be stabilized with the aid of flexible joining means (30), which connect several members. 6. - Flexible profile according to claim 5, characterized in that the joining means (30) are configured flat. 7. - Flexible profile according to claim 5 or 6, characterized in that the joining means (30) are retained with the aid of tabs (22, 24, 26, 28) in the flexible profile. 8. - Flexible profile according to claim 7, characterized in that the flanges (22, 24, 26, 28) are configured in side walls (18) of the profile and the joining means (30) are guided between the flanges (22, 24, 26, 28) extended and the side wall (18). 9. - Flexible profile according to claim 8, characterized in that the side walls are joined with the members and are at an angle of 90 degrees with respect to them. 10. - Flexible profile according to claim 9, characterized in that the joining means (30) inserted in the flanges (22, 24, 26, 28) can be fixed in these flanges and / or in the side walls. 11. - Flexible profile according to claim 10, characterized in that the tabs (22, 24, 26, 28) are interlocked against the joining means (30). 12. - Flexible profile according to one of the preceding claims, characterized in that the profile is a piece of unitary sheet. 13. - Support construction, characterized in that it is constructed with the help of at least one flexible reinforced profile according to one of the preceding claims. 14. - Use of a flexible profile according to one of claims 1 to 12 or a support construction according to claim 13 for the design of building interiors, the construction of separation walls or the formation of cable channels and / or lines.