NL8502853A - HOLDING ELEMENT FOR SELF-BEARING BUILDING ELEMENTS SUCH AS ROOF ELEMENTS, WALL CLADDING AND THE LIKE. - Google Patents

Description

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Retaining element for self-supporting building elements, such as roof elements, wall coverings and the like.

The invention relates to a retaining element for self-supporting building elements of the type mentioned in the preamble of claim 1.

Such retaining elements are already known and serve for fastening the self-supporting building elements to voting members, for instance supporting beams, T-carriers or like construction elements. For example, spaced along a straight line retaining members are attached to voting members, and the sleeve portions of the retaining members of self-supporting building elements are inserted on the head parts of the retaining elements such that the forces of the building elements on the head parts of the retaining elements and via the connecting ridges and foot parts thereof are transferred to the support members. Depending on the length of the connecting ridges of the holding elements, the building elements can be kept at a greater or lesser distance from the voting members. It is known to bend such retaining elements out of a can, so that the bent, strip-shaped foot part thereof lies against the support member. In addition, profiled retaining elements are known, the base part 20 of which forms a compact ring pressing piece with a flat standing surface, with which the retaining elements are placed on the voting member, for instance the T-carrier.

However, it has been found that the fasteners, such as screws, bolts or the like, which are inserted through holes in the base parts of the holding elements and are attached to the tuning member, tear or break through after a certain service life at high dynamic loads.

The invention is based on the problem of improving the retaining element of the above-mentioned type in such a way that it is the respective supporting elements supporting the building elements. /. «T“--y J -V v - 'y -j' -j * i - 2 - can function for a long time, even with varying forces, without changing attachment to the support member.

The invention is characterized in claim 1 and in subsequent claims 5 further embodiments thereof are proposed for protection. In addition, further improvements of the invention have been elucidated on the basis of the figure description.

The holding element according to the invention has a completely flat standing surface with which the foot part thereof rests against the support member 10. The foot part in the standing surface supporting the support member is also provided with at least one recess, which is located in the region of a passage serving for such a fastening element.

The standing surface can be concave with a correspondingly curved recess. It can also be formed in the form of a gutter or as a cylindrical lining of the foot part circled around the opening of the bottom side of the foot part.

It is particularly effective if the foot part rests mainly only along the outer edges against the support member.

It has been found that this technically very simple measure can avoid the problems of wear fractures and such disturbances of the fasteners which have been established up to now for long years.

The cause of this could be that the perforation bounding lower edges are at a distance from the top surface of the support member, so that the fastening means, for instance the screw, with which the foot part is fastened to the support member, is under a certain "pretension". if the force of the screw tries to press the foot portion in the region of the hole at the top of the support member. In addition, it is avoided that any burrs at the edges of the piercing or piercing do not result in "island formation", which creates a kind of "pivot bearing" for the base part of the fixed »Λ, = ¾ Λ Λ ί * V - Λ 1

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"1 - 3 - *. * Retains holding element; why the foot part swings, if only slightly, with changing forces. Namely, such small pivot connections lead to a dynamic moment load of such fasteners, which, although not with the occurring loads of this kind, however, after a certain number of such loads occur and break down.

In addition, even the smallest hairline cracks "fight" by virtue of such capillary actions, whereby additional corrosion bridges also occur.

In addition, the design of such a recess also has the advantage that certain irregularities thereof or of the top of the support member do not give rise to such "islanding effects", since the contact surfaces between the parts of the base part and the support member form the area 15 of the bores have been moved toward the outer edges of the foot portion.

For example, insofar as the recess took place in the form of a gutter or a cylinder and the corresponding chambers were formed, it is even possible to use self-tapping screws, "so that the support members do not have to be pre-threaded or at least bored. retaining elements used with flat-faced self-drilling screws cannot be used, since the cutting or drilling chip collects between the standing surface, the base part and the support member and lead to an "islanding effect" there, such chips are now used in the "chip chamber" This embodiment of the invention facilitates the mounting of the retaining element and the productivity of the mounting.

30 The drawing will be explained in more detail below with reference to the drawing. In the drawing: Fig. 1 shows an exemplary embodiment for the invention, namely a retaining element in cross section together with partial cross section -> * \ m3 \ '· * · **> «· I" ’, * 1"

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i ·· «- 4 - cuts of a support member and two attached self-supporting building elements; fig. 2 shows a partial view of the bottom part of a holding element with its foot part; Fig. 3 is a top view of the foot part with a section through the connecting spine; and figures 4-8 further alternatives in partial view.

According to Fig. 1, the retaining element 1, which is designed as an aluminum strand, is equipped with a head part 6 and a foot part 7, which are connected by the connecting back 5. The connecting spine 5 and head part 6 are symmetrical with respect to the central plane ME. The cross-section of the head part 6 is substantially triangular with an upper point 8 and two lateral points 9 and 10, to which rounded surfaces adhere the inside 15 of the sleeve-shaped connecting edge 3b of the substantially U-shaped construction element 3, the leg of which 3a runs substantially parallel to the connecting spine 5 of the holding element 1. While this inner sleeve-shaped connecting edge 3b has a capillary edge 11, which is however spaced 12 from the connecting surface 13 of the top point 8 to the lateral points 10, the outermost sleeve-like connecting edge 3b 'of the adjacent building element 3 'in the form of an approximately three-quarters circle and snapped over the inner sleeve-shaped connecting edge 3b, so that an arrangement of the legs 3a, 3a1 of the two building elements 3, 3', which, apart from the capillary channel 11, is practically symmetrical. be kept at a distance from the support member 2, for example a steel carrier. While the building elements 3, 3 'are movable along the head part 6 of the holding element 1, to compensate for occurring forces, the holding element 1 is thereby connected to the support member, which through the passage 15 has a connecting element, not shown here, for example. screw is inserted and screwed into support member 2. The passage 15; λ Ό ~ '% ar Yes - 5 - is located in that area of the foot part 7, the bottom of which is spaced from the top of the support member 2.

For this purpose, the standing surface of the foot part 7 is provided with a cross-section from the recess 14. The forces are hereby displaced from the area around the passage 15 to areas in the vicinity of the outer edges of the foot part 7,

Thus avoiding the above mentioned problems.

According to Fig. 2, the base part 7 is symmetrical with respect to the central plane ME of the connecting spine 5.

The foot part 2 has two symmetrical halves 7a, 7b, as this is clear in the top view shown in Fig. 3. Also in this embodiment, the passages 15, 15a, 150, 150a, which are arranged symmetrically to the center plane ME and symmetrically extending at right angles to the center plane ME to center line ME, are located in those areas which reach the recess 14. In this embodiment, the foot part 7 can also be provided at its extreme longitudinal edges with a recess 19, which are also available for engaging fasteners, for instance retaining strips. Since these recesses 20 are at the extreme edge, the above-painted problems do not arise here, because there are no chips there which could penetrate between the support member 2 and the base part 7, and there a symmetrical clamping on both sides along the recesses 19 does not allow dynamic movements of the foot part 7 relative to the support member 2 after mounting.

According to Fig. 4, the cross-section approximately trapezoidal foot part 7 is provided with a gutter-shaped recess 14 in the region of the passage 15.

According to fig. 5 the standing surface of the base part 7 of the holding element 1 is of substantially flat design, nevertheless it forms a construction unit with the spacer 21 after insertion into the groove-shaped recesses formed therein by the elevations 20, after which it is frequently sufficient if the recess 23 is located o ^ 'η »r V s' ·' -« - 6 - on the standing surface of the spacer 21. The laterally projecting back strips 24 on the base part 7 of the retaining element engage behind the elevations 20 of the spacer 21, so that the retaining element 1 is movable along its guide until it is screwed together with the spacer 21 to the support member 2. The spacer 21 is made of a thermally insulating material, in particular plastic, whereby a smaller heat transfer between the support member 2 and the retaining element is created, respectively, the other way round. This heat transfer is further reduced by the recesses 22 on the surface facing the underside of the foot part 7. It is clear that the spacer 21 in the region of the passage 15 of the base part 15 of the holding element 1 is also provided with passages 26, which are expediently a cylindrical hole or can also be designed as a long hole.

According to the embodiment of Fig. 6, the underside, that is to say the standing surface of the foot part 7, is provided with a series of gutter-shaped recesses 14, of which there is also a recess 14 in the area around the passage 15. The side edges of the foot part 7 are provided with dovetail-shaped recesses 19 between the protruding retaining strips 25, so that guide elements can be placed in the recesses 19.

Fig. 7 schematically illustrates the advantages of the invention when using self-tapping screws.

Such a self-tapping screw serving as fastening element 28 has been used for fastening fastening or spacer 21 before closing element 1 has been fitted. As a result, the spacer 21 is first placed in the correct position on the support member 2 and screwed there by means of the self-tapping screw. The chips 27 thereby forming collect in the recess 14 serving as the chip chamber 23, which are again located around the passage 26 in the spacer 21. The spacer 21 forms with the holding element <3 λ 9 § Ί

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Then a construction unit, if the foot part 7 with its laterally projecting elevations 24 is guided in the dovetail-shaped guide of the spacer 21 under the elevations 20.

This embodiment of the invention permits longitudinal movement of the retaining element.

According to Fig. 8, the spacer 21, which in this embodiment consists of aluminum, is slidably received by means of its protruding edge strips 30 in a guide formed by guide strips 31, which consists of a further,

10 spacer 21A formed from thermally insulating plastic

are constructed. The further spacer 21A has a chip chamber 23 on its standing surface 32, in which chips 27 can be collected which are formed when the self-tapping screw serving as fastening element 28 is screwed in and cut.

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Claims (10)

1. Retaining element for self-supporting building elements with a substantially U-shaped profile in cross-section, wherein the side edges of a band for forming substantially parallel legs of the U-profile with respect to the back of the U-profile 5 forming remaining band part is bent about 90 ° and this leg is bent at the free ends to form cross-curved, in particular outwardly open, sleeve-like connecting edges for supporting on a head part of the retaining element, which in particular is designed as an extruded profile, which are bent via a connecting ridge is connected to a foot part which can be fastened to the support member, characterized in that the foot part (7) has at least one recess (14) in the standing surface which rests on the support member (2) and the recess (14) is located in the region of a passage (15) serving for a fastening element. Retaining element according to claim 1, characterized in that the base part (7) has a concave standing surface with a correspondingly curved recess (14). Retaining element according to claim 1, characterized in that the base part (7) has a gutter-shaped recess (14). Retaining element according to one of the preceding claims, characterized in that the base part (7) has two recesses (19) on opposite side edges (25), which serve to snap in elevations (20) of a spacer (21). Retaining part according to claim 4, characterized in that the spacer (21) consists of thermally insulating plastic. Retaining element according to claim 4 or 5, characterized in that the spacer (21) has at least one recess (14, 22) in the region of a passage (26) on its standing surface facing the support member (2). Retaining element according to any one of claims 4-6, characterized in that the base part (7) of the retaining element (1) is supported on a plane of the spacer (28) interrupted by recesses (22). . Retaining element according to any one of claims 4-7, characterized in that the spacer (21) has a guide path for longitudinally slidably receiving the foot part (7). Retaining element according to any one of claims 4-8, characterized in that the spacer (21) has a further thermally insulating spacer (21A). can be connected. A holding element according to any one of the preceding claims, characterized in that the foot part (7) in the region of its standing surface and / or recess (14) and / or. the spacer (21) and / or the further spacer (21A) have a chip chamber (23). Λ -Π ι * · \ * \ - "^. l'i '·; :: Λ “^ ^ U