WO2012168331A1

WO2012168331A1 - Profiled frame element

Info

Publication number: WO2012168331A1
Application number: PCT/EP2012/060756
Authority: WO
Inventors: Heinz Stöckler
Original assignee: Patea Gmbh
Priority date: 2011-06-09
Filing date: 2012-06-06
Publication date: 2012-12-13
Also published as: DE102011050952A1; US20140341647A1; CN103717812B; EP2718513B1; EP2718513A1; CN103717812A

Abstract

Disclosed is a profiled frame element to be mounted on a longitudinal profiled element (L) having at least one groove (3). Said profiled frame element (R, R1) has a bottom support (1) and a guiding projection (2). According to the invention, at least one channel (4) is provided which is suitable for accommodating different wall thicknesses.

Description

frame profile

The invention relates to a frame profile for attachment to a longitudinal profile according to the preamble of claim 1 and a jacket profile according to claim 9.

PRIOR ART Longitudinal profiles with grooves, which are used as corner columns of exhibition walls, are known from the prior art. For this purpose, the fair walls are inserted into the groove. However, the fair walls thus obtained do not regularly provide sufficient insulation or are associated with disproportionate effort. As a rule, these are simple plastic sheets or fabric walls, which are connected directly to the corner pillars. The so-called corner columns are referred to in the further course of the patent application as longitudinal profiles. From the state of Technology is not a combination of fabric and fixed walls, especially known with different wall thickness.

A disadvantage of the prior art is that the construction and dismantling of fair walls are relatively expensive and the application areas associated with design options are very limited .. Another disadvantage of the prior art is that the construction and dismantling of walls in space-in-space Complex systems, relatively expensive and meaningful areas of use are very limited in terms of creative diversity. In addition, the devices known from the prior art meet today's, claims only in approach. This especially in terms of comfort through maximum flexibility for rapid redesign with the simplest handling without the need for specialized personnel. In addition, the devices known from the prior art also do not do justice to modern design requirements.

DISCLOSURE OF THE INVENTION

The object of the invention is to provide a frame profile which, in conjunction with the longitudinal profiles known from the prior art, enables the user to meet different needs for comfort and design. Here is the simplest possible design and the use of a modular principle lead to that can be addressed with as few basic elements as possible to all needs of users. In particular, the walls which can be used for the frame profile should also be suitable for medium to long-term use in open-plan offices. In addition, the invention should make it possible that the construction of room-in-space systems and exhibition stands can be done easily by non-professionals. SOLUTION OF THE TASK

To achieve the object of the characterizing part of claim 1 and the independent claims.

The invention provides a frame profile for attachment to a longitudinal profile. The frame profile should advantageously be designed so that it can be attached to conventional longitudinal profiles, as they are already common and widely used in the prior art. The advantage of the invention is that by the frame profile over the width of the longitudinal profile protruding wall element can be created. The frame profile should advantageously provide a basic element, with which the user can react flexibly to his various requirements. The frame profile is preferably made of a metal. Ultimately, the frame profile can also be made of plastic. In this context, it is rather remarkable that the technical requirements placed on the frame profile can be borne by the material. For this purpose, the expert from a variety of metal or plastic elements make a corresponding selection. Metal elements usually offer a longer life, plastic elements, however, offer in addition to the better and more varied color design also a cost saving factor. An advantage of the frame profile is the fact that it can be docked directly to a longitudinal profile or used or introduced in any other way. The longitudinal profile is usually made of a metal base element. Also with regard to the longitudinal profile of the statements apply to the materials of the frame profile. The longitudinal profile has a groove. This groove is used for simple and advantageous attachment of walls in, for example, exhibition stands and / or room-in-room systems. As a rule, a longitudinal profile has four grooves. This is to ensure that up to four walls can be introduced in a star shape projecting from each other. Ultimately, however, only one groove can be present. In addition, longitudinal profiles with more than four grooves are known. On the number of grooves in the longitudinal profile and the exact design of the longitudinal profile it should not arrive here. Rather, it is important that the frame profile can interact with the groove of the longitudinal profile. This means in more detail that a detachable connection can be produced which does not entail material impairments for the frame profile or for the longitudinal profile. An advantage of the longitudinal profile is the fact that it is already in use and known. The user of the frame profile can therefore fall back on already in his warehouse objects to improve his offer to his customers. But even customers or consumers who already use such longitudinal profiles as folding racks as known from EP 1 409 815 A1, could use such folding racks multifunctional thanks to the frame profiles according to the invention for example, exhibition stands and / or room-in-room systems. The disclosure of EP 1 409 815 A1 is expressly intended to disclose the present patent application.

Furthermore, the frame profile on a base support and a guide nose. The base support is usually designed as an elongated plate. On the one hand, a guide nose can then be formed on the base support. This guide nose is to serve the connection of the frame profile with the longitudinal profile. For this purpose, the guide nose of the frame profile is introduced into the groove of the longitudinal profile. This connection should be resolvable without material impairments. On the other hand, the basic carrier should be at least one channel pronounced. This channel should preferably be formed decentralized to the centrally mounted guide nose. This means in detail that the guide nose is on the one hand formed centrally on the base support and the gutter on the other hand is arranged offset to the base support to the guide nose.

This advantageously ensures that the base support in interaction with the guide nose and the channel a displacement of a wall element of the hitherto centrally mounted in the groove of the longitudinal profile wall now decentric, depending on the expression, length, shape or width of the base support is formed decentrally to the guide lug. In the preferred embodiment according to the invention, the channel has at least one stop which divides the inner region of the channel. Preferably, two stops in the interior of the channel are arranged such that a subdivision of the interior can take place. For this purpose, the second stop is tilted by 90 ° to the first stop attached. As a rule, this means that the second stop is formed on an outer wall or inner wall of the channel. The stops divide the interior of the channel in such a way that they protrude into the interior. The advantage here is the fact that different wall thicknesses of walls can be absorbed by the division of the interior of the channel. Thus, for example, it is possible to use a thin wall between the outer wall of the channel and the first stop stop, which forms on a base element. Thin wall in this case means a wall which has a thickness of preferably 2 mm to 4 mm, more preferably 3 mm. Further, the channel is designed by the interaction of the outer wall and the two stop stops such that a middle wall can be used. For this purpose, the middle wall is clamped by the end faces of the stop stops and the outer wall. Preferably, a middle wall has a thickness between 4 mm and 8 mm, more preferably 6 mm. Finally, by the second stop stop, which protrudes at a 90 ° angle from the inner wall or outer wall and is outside the sphere of influence of the first stop stop, represent a support for a thick wall, which then exploits the entire width of the channel. A thick wall is preferably between 8 mm and 15 mm, more preferably between 9 mm and 12 mm, most preferably 10 mm thick. Thickness is here denotes the wall thickness of a wall. The advantage here is the most flexible possible use of one and the same channel for different wall thicknesses of walls. Wall thicknesses are also called wall thicknesses. Both terms essentially describe the existing thin, medium and thick walls.

First and foremost in the invention is the possibility of receiving different wall thicknesses of walls in one and the same channel. An advantage of the channel is the fact that a simple way to connect walls with different wall thicknesses is provided with a longitudinal profile.

Furthermore, a groove is preferably provided on the base carrier according to the invention. This groove serves to hold a fabric wall. The groove preferably runs parallel to the channel bottom of the channel. The groove is constructed so that a Flachkeder, which is formed as part of the fabric wall, can be introduced.

The material, the size and the color scheme of the fabric wall should not be limited. Rather, it is within the scope of selection by the skilled person to ensure that the fabric wall meets the requirements of the user and has a sufficient life. The fabric wall is used for easy and quick sheathing, a wall introduced into the gutter. The flat piping is preferably made of silicone or another plastic. Ultimately, however, it does not depend on the selection of different materials, as long as the requirements for use within the inventive concept can be taken into account. This means in detail that the flat piping must be designed such that it can be pushed into the groove easily without it then slides out of the groove again. It should therefore ensure a quick and easy connection of the fabric wall with the frame profile. In addition, an aperture is formed in a basic carrier according to the invention. In another preferred embodiment, two apertures may be provided. But particularly preferred is the embodiment of a panel on the base support. The aperture serves, for example, to achieve a visually appealing conclusion between the frame profile and the longitudinal profile. For this purpose, the diaphragm extends from an edge of the base carrier on the same side as the guide lug away from the channel. The length of the aperture is about the same length or one and a half or twice as long as the guide nose compared to the guide nose. It extends substantially equal to the depth of the groove of the longitudinal profile. An advantage of the panel is also that when attaching a further frame profile with a jacket profile, the further frame profile can be supported on the panel of the first frame profile. This allows the user an even greater broadening of a gap between two walls. In a preferred embodiment, the frame profile on a second channel. Preferably, the two grooves are each formed on the end side of the length of the base support. As a result, an intermediate space is created over the length of the base support, which is suitable for insulating materials. This gap can then be reduced again by introducing walls into the gutters. But it is also possible that only on both sides of a fabric wall by interaction of the flat spring and the groove forms a gap. In such a case, then it would not be on the channel for receiving walls. It is ultimately also encompassed by the idea of the invention that, for example, by the attachment of fabric walls, a gap is created, which is usable with insulation elements. As insulating elements come a variety of materials into consideration. For example, it should be mentioned that polystyrene, for example, is excellently suitable for insulating heat or cold. Finally, special insulation elements can be used to absorb noise and noise. The second channel serves the simpler and advantageous embodiment of a wall with additionally created Gap. In this case, the user essentially determines the width of the intermediate space for accommodating insulating elements by the length of the basic carrier. The intermediate space does not necessarily have to be used to accommodate insulating elements. Preferably, an attachment of heating or cooling elements can be provided. But it is also possible to introduce lighting elements in this space. As a result, so far not considered possible advertising measures for exhibition stands are possible. This means, in particular, that between the different types of walls made of a solid material or fabric walls such as projectors or speakers may be appropriate, which then project corresponding advertising messages from the space between the walls to the outer surface. A combination of the insulating elements with lighting or the like. Within one and the same wall is possible. A very flexible use of this resulting gap is advantageous.

Another preferred embodiment of a frame profile has a groove. This groove is integrated in the basic carrier. The groove serves to receive cross connectors, which can project at right angles from the frame profile to stabilize the wall. This allows a subdivision of the wall. This is necessary especially for long walls depending on the material used. The cross connectors are used with known from the prior art turnbuckles with Spreizzangen in the groove. Subsequently, with the aid of a screw element integrated in the transverse connector, the spreading forceps are firmly attached to the groove so that the transverse connector is firmly connected at the end to the frame profile. Advantageously, the attachment of the groove approximately centrally at the same height of the guide lug leads to the fact that the cross connectors are also within the space and thus covered by the walls or the fabric wall. In this way, another appealing design is achieved. The groove is formed approximately at the same height to the guide nose on the other hand, the base support. When using two gutters per basic carrier, the groove is located approximately in the middle between the two Gutters. This is not mandatory, but preferred. In addition, it is focused on a shell profile according to the invention. This jacket profile also serves to attach to a longitudinal profile. For this purpose, the jacket profile has a receptacle. This receptacle serves to cooperate with the guide nose of the inventive frame profile. Finally, the jacket profile is an adapter which newly adapts the groove of the longitudinal profile by 90 °. As a result, it is advantageously possible for the user to attach a further frame profile to the receptacle as in the first frame profile.

In another location preferred embodiment, the guide nose should also be able to enter into a positive connection with a piping rail, so that a solid connection is formed. The guide nose should also be executable as a piping rail. This piping rail should in particular be shaped to match a piping groove.

As an outer surface of the casing profile, the contact surface of the casing profile is referred to, which is connectable to a frame profile. The inner surface of the casing profile is considered the contact surface, which is connectable to a longitudinal profile.

DESCRIPTION OF THE FIGURES

The invention will be explained in more detail below with reference to a few schematic drawings, wherein the drawings show the following:

FIG. 1 shows a frame profile according to the invention with a longitudinal profile in a diagrammatically sectioned plan view; Figure 2 shows the view of Figure 1 with a different arrangement; Figure 3 shows the view of Figure 1 with a further alternative arrangement;

FIG. 4 again shows the view according to FIG. 1 in a further alternative arrangement;

FIG. 5 shows a frame profile according to the invention with an additional frame profile according to the invention and a jacket profile according to the invention in a schematic top view;

Figure 6 shows the view of Figure 5 in an alternative arrangement;

FIG. 7 shows the view according to FIG. 5 in a further alternative arrangement; FIG. 8 shows the view according to FIG. 5 in a further alternative arrangement;

Figure 9 shows a perspective view of an embodiment of an inventive frame profile obliquely from above, this is put together on the basis of a miter angle;

FIG. 10 shows a further perspective view of another embodiment of a frame profile according to the invention with a transverse connector according to the invention; Figure 1 1 shows a schematic plan view of an application example according to the view of Figure 5;

FIG. 12 shows a schematic sectional plan view of an example of an application of several frame profiles according to the invention;

Figure 13 shows another view of Figure 5 without shell and longitudinal profile; Figure 14 shows the view of Figure 13 in another embodiment;

Figure 15 shows the view of Figure 13 in another embodiment; FIG. 16 shows the view according to FIG. 13 in a further exemplary embodiment;

FIG. 17 shows the view according to FIG. 13 in a further exemplary embodiment;

Figure 18 shows the arrangement of Figure 13 in another embodiment with a baseboard;

FIG. 19 shows a perspective side view of various frame profiles according to the invention with a turnbuckle; Figure 20 shows a perspective view of a modular roof profile with a cross connector;

Figure 21 is a perspective view of a modular roof profile with a baseboard;

FIG. 22 shows another perspective view of a modular roof profile with a cross connector;

FIG. 23 shows a perspective view of a modular roof profile with a frame profile.

First of all, it is expressly pointed out that with repeated reference numbers for repetitive elements, the mutual revelations in the individual figures should be complementary. It is omitted in the context of the description of the figure, to repeat an identically named and numbered element to each figure again. Nevertheless, the revelation should apply to the element with the same name and numbering interchangeable for all figures.

1 shows an embodiment of an inventive frame profile R is shown. This frame profile R is used for attachment to a longitudinal profile L. For this purpose, a base support 1 is present. At this base support 1, a guide nose 2 is formed. The guide lug 2 protrudes in Figure 1 in a groove 3 of the longitudinal profile L. In addition, the frame profile R has a channel 4 for different wall thicknesses solid wall fillings. Furthermore, it can be seen how each fabric wall 5.1, 5.2 can be connected by introducing a flat spring 6.1 and 6.2 in a groove 7.1 and 7.2 with the inventive frame profile R. The flat edge 6.1, 6.2 forms a unit with the fabric wall 5.1, 5.2. The space 8 between the fabric walls 5.1, 5.2 can be used to accommodate various insulation elements. The gap 8 can also be designed without the use of insulating elements. Further, it is shown in Figure 1, as on the base support 1, a diaphragm 9 is formed. This panel 9 is formed on one side and serves for a flush completion of the embodiment of an inventive frame profile R with the longitudinal profile L. In addition, a stop 10 and a stop 1 1 is formed in the channel 4. The stops 10 and 1 1 are in an approximately rectangular relationship to each other and divide the interior of the channel 4. In the same way, a further groove 12 is integrally formed on the base support 1 in Figure 1, which also has two substantially mutually perpendicular stops arranged , Between the two grooves 4 and 12, a groove 13 is present on the base support 1. This groove 13 serves to receive a turnbuckle, as described in more detail in FIG. 19. In addition, in Figure 1 and in the following figures, a channel bottom 36, shown 36.1, on which the stopper 1 1 is formed. In addition, a length I of the basic carrier is shown in Figure 1, which is bounded by a first end face 37 and a second end face 38. In FIG. 2, substantially the same elements are shown as in FIG. 1. Only the fabric wall 5.1 and the flat welt 6.1 is missing. For a Dünnwandung 15 was inserted into the channel 4, wherein the thin wall 15 between the stop 1 1 and an outer wall 14 of the channel 4 is inserted.

In FIG. 3, substantially the same elements are shown as in FIGS. 1 and 2. Only the thin wall 15 or the fabric wall 5.1 with flat welt 6.1 has been omitted. For a middle wall 16 has been inserted into the channel 4 such that it is inserted between the outer wall 14 of the channel 4 and the stopper 10. It is important in this context only that the channel 4 by the arrangement of the stops 10, 1 1 makes a subdivision for different thicknesses of walls possible. Also in Figure 4, all the essential elements of Figures 1 to 3 are repeated again. However, in FIG. 4, a thick wall 17 was inserted into the channel 4. In this case, the thick wall 17 rests on the stop 10 and the thick wall 17 is surrounded by the outer wall 14 and an inner wall 18, the thick wall 17 resting on the stop 10. The inner wall 18 of the channel 4 is the wall which faces the groove 13. The outer wall 14 of the channel 4 in turn is the groove 13 facing away from the wall. FIG. 5 shows a further exemplary embodiment of a frame profile R1 according to the invention. The frame profile R1 has a groove 19 with the stops 10 and 1 1 and via the groove 7.2 in which the flat edge 6.2 of the fabric wall 5.2 is introduced. In addition, the frame profile R1 has the guide nose 2. In addition, a jacket profile M is shown in Figure 5. This jacket profile M has two spring webs 20, 21, which engage in the groove 3 of the longitudinal profile L. The jacket profile M is designed such that in the exemplary embodiment according to FIG. 5 it is approximately half the circumference of the circumference Longitudinal profile L sheathed. From the spirit of the invention but it is also envisaged that only a quarter of the circumference of the longitudinal profile L should be covered by the jacket profile M. The inventive embodiment of Figure 5 also has a groove 22 and 23 on. This groove 22 is adapted to cooperate with the guide lug 2 of the frame profile R and R1. In addition, the grooves 22, 23 allow the insertion of a baseboard S1 and S2, respectively. This Skirting S1 or S2 is used with turnbuckles for safe connection with the longitudinal profiles L. When using a baseboard S1 or S2 between two longitudinal profiles, they also serve to connect or fix the longitudinal profiles L to be joined together. This means in detail that the guide nose 2 can be inserted into the groove 22 and 23 respectively. Thus, there is no need for additional work more as in the known from the prior art Keder rails - constructions.

In FIG. 6, substantially all the elements from FIG. 5 are shown again, wherein the fabric wall 5.1 and the associated flat welt 6.1 are missing. For this purpose, the thin wall 15 between the stop 1 1 and the outer wall 14 of the channel 4 was inserted.

In FIG. 7, all the elements as shown in FIGS. 5 and 6 are again shown and executed. However, instead of the thin wall 15 from FIG. 6, the middle wall 16 has been inserted into the channel 4, again resulting in an insertion between the stop 10 of the channel 4 and the outer wall 14 of the channel 4.

In FIG. 8, again, the elements from FIGS. 5 to 7 are repeated. However, the fabric wall 5.1 from FIG. 5 or the thin wall 15 from FIG. 6 or the middle wall 16 from FIG. 7 through the thick wall 17, as shown in FIG shown is replaced. FIG. 9 shows a schematic view of a corner profile R running according to the invention, as can also be seen from FIG. 1 in interaction with the longitudinal profile L. In addition, it is once again shown how the panel 9 in conjunction with the longitudinal profile L forms a flush connection, so that a closed wall image is formed. In FIG. 9, however, the material wall 5.1, 5.2 from FIG. 1 is missing. The connection of the two mitred frame profiles R is carried out by a non-visible miter angle, which is inserted into a miter channel 39.

In Figure 10 is shown how on the longitudinal profile L, the jacket profile M is arranged. In addition, it is shown how the frame profile R is arranged on the longitudinal profile L, the frame profile R and on the shell profile M. It can also be seen how a cross-connector Q is arranged on the frame profile R and a further cross-connector Q1 is arranged on the frame profile R1. The cross connector Q in turn has a channel 24 and a channel 25, which cooperate with the channel 4 of the frame profile R. Through the cross connector Q is achieved that in the overall course of the frame profile R a division into different sections is made possible. The cross connector Q virtually divides the course of the frame profile R into different sections. In the same way, the cross-connector Q1 divides the overall course of the frame profile R1 into different sections. For this purpose, the cross connector Q1 in turn on a groove 26 and a groove 27, which cooperates with the channel 19 of the frame profile R1. In addition, FIG. 10 shows that the transverse connector Q has an outer wall 28 which is flush with the outer wall 14 of the channel 4. In the same way, the cross connector Q1 has an outer wall 29, which in turn terminates flush with an outer wall 30 of the frame profile R1. In addition, a channel 31 is present in the cross connector Q. This channel 31 is used to introduce a turnbuckle, as described in more detail in the figure 19, for the purpose of non-positive connection to the frame profile R. In the same way, a channel 32 can be seen even in the cross-connector Q1. Again, a should Turnbuckle 35, as described in detail in Figure 19, can be introduced.

In addition, shown in Figures 10 and 19, as the cross-connector Q, Q1 each have two grooves 24, 25, 26, 27. These grooves 24, 25, 26, 27 serve to accommodate different wall thicknesses of walls, as well as the grooves 4, 12, 19 of the frame profiles R, R1. The particular disclosure concerning the grooves 4, 12, 19 should also apply to the grooves 24, 25, 26, 27, in particular with regard to the stops 10, 1 but also of the other features. In this context, it is merely pointed out that, unlike the grooves 4, 12, 19, two of the grooves 24, 25, 26, 27 each have a common groove bottom 40, 41.

In addition, in Figures 10 and 19, a channel 30 can be seen, which serves to receive a turnbuckle 35.

In Figure 1, the view of Figure 5 is shown again. However, an insulating element 33 is now introduced between the fabric walls 5.1, 5.2, ie in the intermediate space 8. This insulating element can represent either a thermal insulation or cold insulation and / or noise insulation.

FIG. 12 shows a plan view of the longitudinal profile L with a jacket profile M, wherein in each case a frame profile R or R1 is arranged on the longitudinal profile L or on the jacket profile M. FIG. 12 serves to illustrate the possibility of a flush-mounted attachment of the frame profiles R, R1 according to the invention to the longitudinal profile L.

In FIG. 13, the view according to FIG. 5 without the longitudinal profile L or the jacket profile M is shown. There, only the frame profile R and the frame profile R1 can be seen. In addition, the flush conclusion of the Fabric walls 5.1, 5.2 with the frame profiles R, R1 highlighted particularly clearly.

In FIG. 14, the view according to FIG. 13 is shown again, with the insulating element 33 now being introduced between the fabric walls 5.1 and 5.2.

In FIG. 15, in turn, the view according to FIG. 13 is shown, wherein the fabric wall 5.1 has been replaced by the thin wall 15. In particular, the explanations regarding FIG. 2 concerning the attachment of the thin wall 15 in the frame profile R also apply to FIG. 15.

In FIG. 16, in turn, instead of the fabric wall 5.1 from FIG. 13, the middle wall 16 can be seen. With regard to the attachment of the middle wall 16 in the frame profile R, reference is made to the statements in Figure 7.

In FIG. 17, the view from FIG. 13 is shown again, with the fabric wall 5.1 being replaced by the thick wall 17. Here, the thick wall 17 between the outer wall 14 and the inner wall 18 of the channel 4 is inserted. For this purpose, reference is made in particular to the comments on Figure 8.

FIG. 18 shows by way of example how the frame profile R according to the invention interacts with a skirting board S or the frame profile R1 with a skirting board S1. The baseboard S, S1 is intended to represent a bottom termination to a substrate, not shown. The baseboards S1 and S2 provide for the frictional connection of the longitudinal profiles L. Here, the baseboard S1 interacts with the jacket profile, not shown, and the baseboard S with a second longitudinal profile, not shown. For this purpose, on the one hand, a pleasing completion to the substrate to be made and on the other hand it should come to a better insulation of sound and heat. In addition, it is advantageously prevented that it comes to drafts, if a corresponding Skirting S, S1 is attached to the inventive frame profile R, R1. But also the cleaning of the office floor around the room-in-room system can be carried out more gently and easily thanks to the recessed skirting board. In addition, the fabric wall 5.2, the thin wall 15, the middle wall 16 and the thick wall 17 are again shown in detail in FIG. Here, the thin wall 15 is inserted between the stop 1 1 and the outer wall 14 of the frame profile R1. The middle wall 16 is inserted in the groove 12 of the frame profile R such that there the middle wall rests on the stop 1 1 and is bordered between the stop 12 and the outer wall 14.1. Finally, it can be seen how the thick wall 17 between the outer wall 14 of the channel 4 and the inner wall 18 of the channel 4 is clamped.

Finally, FIG. 19 shows again how the cross connector Q is provided with a screw element 34. This screw member 34 cooperates with a turnbuckle 35, as it rests in the cross-connector Q1 in the channel 32 together. By the screw member 34, the lock assembly 35 is actuated such that the cross connector Q, Q1 can be defined in the groove 13 of the respective frame profile R, R1. In the reverse manner, by loosening the screw element 34 and the associated loosening of the turnbuckle 35, the transverse connector Q or Q1 can be removed from the frame profile R, R1.

FIG. 20 shows a modular roof profile D with the transverse connector Q. There, the modular roof profile D is connected to the cross connector Q. The modular roof profile D consists essentially of a plate profile 42, on which various features are formed. In this case, all features are present on one side of the plate profile 42, which are needed to achieve an operative connection between the modular roof profile D and the cross connector Q. An operative connection in this context means to achieve an actual connection between the cross connector Q and the modular roof profile D as well as through the connection to ensure that, for example, the modular roof profile D for receiving a ceiling plate, not shown, or a fabric roof 45 shown can be used. On the other side of the plate profile 42, in turn, all the features are present to produce an operative connection between the modular roof profile D and a frame profile R, not shown in FIG. Again, an operative connection means to achieve an actual connection between the frame profile R and the modular roof profile D as well as to ensure by the connection that, for example, the modular roof profile D can be used to accommodate a ceiling plate or a fabric roof 45, not shown.

To connect the modular roof profile D with a cross connector Q engages a Kedernut 47 in a Querverbindernut 48, 49 of the cross connector Q. In addition, it can be seen in Figure 20 that, for example, on the plate profile 42 Stoffdachnut 43 is present, which also on both sides of the plate profile 42nd may be attached, as shown in Figure 20. This groove 43 serves to receive a flat spring 44, with which in turn the fabric roof 45 is firmly connected. To connect the modular roof profile D with a frame profile R is also the existing Führungsnasennut 46. There, the guide nose 2 of the frame profile R, not shown, is introduced. In addition, in Figure 20 indicated by the arrow 50, as ceiling panels, not shown, can be placed on the plate profile 42.

FIG. 21 shows how the modular roof profiles D, D1 with the respective spring groove 47 are inserted into a respective base groove 51 of the skirting board S, S1. The two modular roof profiles D, D1 are mitred in FIG. 21, so that a positive-locking connection with the longitudinal profile L is achieved. Now, for example, a ceiling plate, not shown, are placed on the plate profiles 42 of the modular roof profiles D, D1. It is also conceivable that the ceiling profiles temporarily with Glues or the like can be connected to the modular roof profiles. The sock strip can be fixed to the longitudinal profile 35 here by means of a turnbuckle, not shown, which is introduced into a baseboard channel 52.

FIG. 22 again shows how the modular roof profiles D, D1 are connected to a transverse connector Q. For this purpose, the respective spring groove 47 is inserted into the cross-connecting groove 48 It is also shown how the other side of the modular roof profiles D, D1 in the groove 24 of the cross connector Q is a middle wall 16. The cross connector Q can be fixed to the longitudinal profile L by a turnbuckle 35, not shown, which is inserted into a cross-connection channel 53.

Finally, FIG. 23 shows how the modular roof profile D, D1 is connected to the frame profile R. The frame profile R is connected to frame profiles R, not shown, which extend along the length of the longitudinal profile L. The modular roof profile D, D1 are shown differently turned in the figures 20 to 22 by 180 ^A. This can be recognized, for example, from the fact that the spring groove 47 of the modular roof profile D, D1 now fulfills no function. In contrast, the guide groove groove 46, which has hitherto been shown to be inactive, has entered into an operative connection with the guide nose 2 of the frame profile R in FIG. In addition, it is shown in FIG. 23 how a flat welt 6.1 is introduced into the groove 7 of the frame profile. In addition, a fabric wall 5.1 is shown which extends away from the modular roof profile D, D1.

Reference: P 4381 / PCT DA / MI / KM 06.06.2012

LIST OF REFERENCE NUMBERS

1 base support 34 screw element 67

2 guide nose 35 turnbuckle 68

3 groove 36 channel bottom 69

4 gutter 37 front side 70

5 fabric wall 38 end face 71

6 flat piping 39 miter channel 72

7 Groove 40 Channel bottom Q 73

8 gap 41 channel bottom Q 74

9 panel 42 panel profile 75

10 stop 43 fabric roof groove 76

1 1 stop 44 flat spring 77

12 gutter 45 fabric roof 78

13 groove 46 guide groove groove 79

14 outer wall 47 spring groove

15 thin wall 48 cross-tie groove

16 middle wall 49 cross-tie groove

17 Thick wall 50 Arrow R Frame profile

18 Inner wall 51 Base groove L Longitudinal profile

19 gutter 52 baseboard channel M jacket profile

20 Spring bar 53 Cross-connector channel Q Cross connector

21 spring bar 54 I length

22 Nut 55 S Skirting

23 groove 56 D mod. roof profile

24 gutter 57

25 gutter 58

26 gutter 59

27 gutter 60

28 outer wall Q 61

29 outer wall Q 62

30 outer wall R1 63

31 channel 64

32 channel 65

33 insulating element 66

Claims

claims

1 . Frame profile for attachment to a longitudinal profile (L) with at least one groove (3), wherein the frame profile (R, R1) comprises a base support (1) and a guide nose (2), characterized in that at least one channel (4) is present , which may be suitable for receiving different wall thicknesses of walls.

2. Frame profile according to claim 1, characterized in that the base support (1) has a groove (7.1, 7.2) for holding a fabric wall (5.1, 5.2).

3. Frame profile according to claim 2, characterized in that the fabric wall (5.1, 5.2) comprises a Flachkeder (6.1, 6.2).

4. Frame profile according to one of claims 1 to 3, characterized in that on the base support (1) at least one aperture (9) is integrally formed.

5. Frame profile according to one of claims 1 to 4, characterized in that the guide nose (2) enters into a connection with the at least one groove (3).

6. Frame profile according to one of claims 1 to 5, characterized in that the channel (4) comprises at least one stop (10, 1 1).

7. Frame profile according to one of claims 1 to 6, characterized in that on the base support (1) has a second groove (17) is integrally formed.

8. Frame profile according to one of claims 1 to 7, characterized in that the base support (1) has a groove (13).

9. Frame profile according to one of the preceding claims, characterized in that the guide nose (2) with a groove (22, 23) of a casing profile (M) is connectable, which has at least one spring bar (20, 21), wherein the spring bar (20 , 21) is mounted on an inner surface of the casing profile (M), wherein the groove (22, 23) is integrally formed on an outer surface of the casing profile.

10 transverse connector for connection to a frame profile according to one of claims 1 to 9, characterized by at least one channel (24, 25, 26, 27), suitable for receiving different wall thicknesses of walls and at least one cross-connecting groove (48, 49).

1 1. Transverse connector according to claim 10, characterized in that a further channel (24, 25, 26, 27) is present, which shares with the channel (24, 25, 26, 27) one side of a common channel bottom (40, 41) ,

12. Cross connector according to 10 or 1 1, characterized by a channel (30, 31) suitable for receiving a turnbuckle (35) with spreading pliers.

13. Modular roof profile for connection to a frame profile (R) according to one of claims 1 to 9 or with a cross connector (Q, Q1) according to one of claims 10 to 12, characterized by a plate profile (42), wherein the plate profile (42). is partially suitable for supporting a ceiling plate and a Führungsnasennut (46) which is connectable to the guide lug (2) of the frame profile (R, R1), wherein the Führungsnasennut (46) protrudes substantially at right angles from the plate profile (42) or a spring groove ( 47) for connection to a cross-connection groove (48, 49).

14. Modular roof profile according to claim 13, characterized in that at least one Stoffdachnut (43) is present, which protrudes substantially at right angles from the plate profile (42) and is suitable for receiving a flat spring (44) with a fabric roof (45).