DE19753711A1 - Fixture joining two C-shaped profiles at right angles - Google Patents

Abstract

A fixture (10) joins two C-profiles (44) placed in a cruciform right angled arrangement. The profiles have beaded edges (48). The fixture is U-shaped and received a first profile whose beaded edges are directed towards the base of the U-section, whose tips (26) straddle the second C-section at right angles to the first.

Description

The invention relates to a connecting element for Connecting two crossed C-profiles one above the other with flanged edges, consisting of a U-shaped Cross connectors with one bottom and two essentially perpendicular to this angled leg, its distance from each other essentially the width of the upper C-profile corresponds and on the side edges of locking lugs with rear cuts are provided which are flanged into the The edges of the lower C-profile can be snapped into place.

The connection of crossed C-profiles is required when installing suspended ceilings. Abge Suspended ceilings are now used in commercial and public buildings Build the rule. Thereby, under the actual blanket, which is usually designed as a concrete ceiling and therefore except in production areas as a visible ceiling not acceptable a substructure is attached, which the Reduced room height. In the between the suspended ceiling and the actual cavity created NEN supply lines are laid without this would have to be put under plaster. Another advantage of suspended ceilings is the considerable reduction heating costs.

With suspended ceilings z. B. Systems with C-ceiling pro filen used according to DIN 1882. With a usual pre First of all, C-ceiling profiles are used Position parallel to each other at certain intervals with the help attached to the ceiling of the building by hangers. For stabilization The suspension construction is then carried out in a underlying C-ceiling profiles in certain  spaced from each other that lead to the C-ceiling pro filen of the first layer are rotated by 90 °. At the bottom C-ceiling profiles, the open side as well as that of the the top C-ceiling profiles face upwards the actual ceiling tiles, e.g. B. plasterboard, befe increases. The connection between the ge at right angles crosses overlying C-ceiling profiles the so-called cross connectors.

Cross connectors are usually used, the latching lugs of which have no undercuts, so that between the Bo that of the cross connector and the upper C-ceiling profile only a minor game must be provided to pass through the latches are bent, flanged edges of the bottom snap in the C-ceiling profile over the latches sen. However, the not undercut locking lugs hide the risk that the locking lugs out of the flanging can slip. An increase in the low pull-out force this cross connector, which has its cause in the only punctual ellen support of the flanged edge on the locking lugs has, can only be significantly broadened locking lugs improve, which is mostly made of sheet metal provided cross connectors with considerable manufacturing disadvantages bring oneself.

There is an improvement in the pull-out resistance Cross connectors, their locking lugs with undercuts are trained. The locking lugs have a shape which allows them to go behind the bent can ten of the lower C-ceiling profile. The lower C-ceiling profile is no longer exclusively with the Inner edge of the flare on the latch, but rather it there is a contact surface between the mostly rounded Nose and the inner curvature of the beading. The large area  Other investment sites are also closer to the Flanks of the C-ceiling profiles, so that the flanging acting bending moments are smaller.

To the cross connector with its latch under the deep most point of the flanging must pass between the top C-ceiling profile and the bottom of the cross connector additional game may be provided that is at least as large how deep the flare is. After assembly ver remains a certain game between the upper C-Dec kenprofil and the bottom of the cross connector. This game can cause rattling noises when the ceiling is suspended, there z. B. when slamming a door overpressure in the room arises that can lift the ceiling. The relative movement between the C-ceiling profiles and the cross connector with time also signs of wear on the Rastna lead because the raised ceiling when falling back for a brief high impact on the locking lugs.

There are also known cross connectors made of sheet metal, in which Resilient tabs are formed in the area of the bottom compensate for the game necessary for snapping len. As for the manufacture of cross connectors from cost establish a relatively soft and not very elastic Steel band (e.g. ST 1203) is used is the elastic one Restoring force of the tab is not very high. So it turns out subjectively the impression of a fixed when mounting Stop by the spring-back cross connector, but ver the tab does not like the weight of the following to balance screwed plaster ceilings. Because the elasticity of the Tab under the weight of the plaster ceilings permanent deformation quickly subsides, he after a short time there is no dampening of the relapse  movement of the ceiling more, so that with rattling noises must be expected.

The object of the invention is a cross connection to create the ver overcut undercuts adds and which arises through the play necessary for assembly disadvantages eliminated.

According to the invention the object is achieved in that in the Near the bottom of the cross connector from the legs inside protruding, rigid projections are provided, which the walls of the upper C-profile elastic inside to bend.

The invention makes use of the elastic capabilities to benefit from the C-profiles already in the Rastna area when bending and snapping back the flanges of the lower C-profile when plugging on the cross connector who are needed. Through the outer radius of the flanging gen also acts on the C-profile a force that the Ge weight of the ceilings mounted on the lower C-profile counteracts elements. Due to the elastic bend of the Side walls of the C-profile can be more elastic Build up strength than through punched spring tongues in the Bo that of the cross connector. Because the C profile is only relative Low deformation paths occur, this type of elastic coupling between the C-profile and the cross connector is also a very permanent solution.

In a preferred embodiment of the invention, the front jumps out of inclined surfaces that match the radii of the surrounding the edges of the lower C-profile. By a suitable choice of the inclination angle of the inclined surface  the elastic resilience built up forces vary in amount and direction. With accordingly trained inclined surfaces, it is easily possible the weight of the attached to the lower C-profiles Compensate for ceiling elements elastically.

For the sake of simple and inexpensive production it is an advantage if the cross connector is made of a ur originally flat sheet metal part is bent. The cross connection it is delivered as a flat blank, and in front of the Assembly, the two legs are bent.

Preferably, the projections consist of beads, each because in the area of the bending edge between the legs and the floor is slanted inwards. The inside curved shape of the beads ensures sufficient Stiffness, which is an elastic bending of the side walls of the C-profile allowed without causing deformations in the loading rich the beads come. The beads can be easily attach in the manufacture of the flat sheet metal part and also serve as a bending stop when turning the Thighs in relation to the floor.

The bending edge between the legs is expedient and severed the bottom in the area of the beads and attached to it the ends are cut free. This will manufacture the bead in the flat sheet metal part simplified and when turning against the thighs are caused by the inward facing No problems.

Sometimes it is desired that the cross connector with the connected C-profiles work together without play. In particular ders preferred embodiment of the invention is therefore provided that locks on the bottom of the cross connector  lungs elements are attached, which after moving them in mounted position of the cross connector a rigid support between its bottom and the edges of the top Form a C-profile.

The contour of the locking elements also prevents very heavy ceiling elements that it is not enough the restoring forces to lower the bottom of the Cross connector comes on the edges of the upper C-profile. Since the locking elements before assembly of the actual Chen ceiling elements are turned over, theirs Assembly very easy. With the help of the locking elements it is possible, despite undercut latches the C-profiles fit without play in the cross connector pass.

With cross connectors bent from sheet metal parts, the Ver locking elements preferably as tabs over a Target bending edge formed on the sheet metal base of the cross connector. Also in the area of the locking tabs on the two Flanks of the rectangular bottom between the legs are shaped, are preferred in the region of the bending edge inward facing beads provided a bend stop and form a reinforcement. Preferably worry Slits in the area of the nominal bending edges of the connecting layer the flat sheet metal part that the Verrie adjustment tabs easily during assembly by the fitter let it bend.

In cross connectors made of sheet metal can ver reinforcement beads or flanges at various points be provided so. B. in the area of the retaining lugs and Contact area of the locking tabs on the flanging lower C-profile. Also recesses in the sheet metal body  Pers with raised edges serve to stiffen the Cross connector.

In the following, the attached drawings will be used discussed an embodiment of the invention. It demonstrate:

Fig. 1 is a plan view of a connector to a cross bendable sheet metal blank;

Figure 2 shows a cross section of the assembled cross connector in the direction of an upper C-ceiling profile in its maximum pressed position.

Fig. 3 shows a cross section of the cross connector of Figure 2 in the direction of the unte ren C-ceiling profile.

Figure 4 shows a cross section of the cross connector in the engaged position in the direction of the upper C-ceiling profile.

Fig. 5 shows a cross section of the cross connector of Figure 4 in the direction of the unte ren C-ceiling profile.

Figure 6 shows a cross section of the cross connector in the locked detent position in the direction of the upper C-ceiling profile.

Fig. 7 shows a cross section of the cross connector according to Fig. 6 in the direction of the unte ren C-ceiling profile.

Fig. 1 shows a cross connector 10 consisting of a sheet metal plate in the delivery state. 10 consists of a substantially rectangular Bo denplatte 12 , on the narrow sides of two legs 14 via bending edges 16 and on the broad sides via bending edges 18 locking tabs 20 are formed.

The legs 14 have at their ends on laterally projecting locking lugs 22 which are curved in the direction of the bottom plate 12 that they have undercuts 24 . Reinforcing beads 26 are provided in the area of the locking lugs 22 .

In the vicinity of the base plate 12 , the legs 14 have beads 28 , which - in the direction of view - are down. In order to be able to achieve a good depth of the beads 28 and not to complicate the later bending process of the legs 14 , the bending edges 16 are recessed between the base plate 12 and the legs 14 in the area of the beads 28 , the ends of the recesses 30 being essentially circular Open cuts 32 are provided. The free cuts 32 facilitate the manufacture of the beads 28 and prevent the bending edges from tearing.

The locking tabs 20 have turned down beads 34. The bending edges 18 between the Bo denplatte 12 and the locking tabs 20 are provided with slots 36 which extend over a wide range of the bending edges 18 . The locking tabs 20 , which are curved in their outer area, each have flanged reinforcements 38 at two points . In the middle of the base plate 12 , an elongated hole 40 is provided, the edge web 42 of which is raised for reinforcement.

In order to use the cross connector 10 for connecting intersecting, superimposed C-profiles, who first bent the legs 14 at right angles to the bending edge 16 , so that the cross connector 10 has the U-like that can be seen from the cross sections according to FIGS. 2 to 6 Takes shape. The beads 28 in the legs 14 lay with their upper edge on the base plate 12 and limit zen as a bending stop the maximum possible angle by which the legs 14 can be bent. From Fig. 2, 4 and 6 it can be seen that the beads 28 form in the corner area between the legs 14 and the bottom plate 12 obliquely inwardly projecting protrusions.

From Fig. 2 to 7, the nature of the C-profiles 44 can be seen , which are to be connected to the cross connector 10 in a crossed position. The C-profiles 44 have side walls 46 which have almost semicircular flanges 48 in the upper edge region. Both the un lower C-profile 44 and the upper C-profile 44 lying perpendicularly to it have their openings facing upwards.

The cross connector 10 is now pushed from above over the upper C-profile. The distance between the legs 14 corresponds essentially to the outer width of the C-profile 44 , while the maximum leg width in the area of the Rastna sen 22 is approximately equal to the distance between the walls 46 of the C-profile 44 . If you push the cross connector 10 now ter from the top of the superimposed C-profiles 44 , the locking lugs 22 bend over the flange 48, the wall gene 46 of the underlying C-profile 44 to the outside, while the beads 28, the walls 46 of the upper Press the C-profile 44 inwards (see Fig. 2). Shortly before reaching the position shown in FIGS. 2 and 3, in which the upper C-pro fil 44 is maximally pressed into the cross connector 10 , the walls 46 of the lower C-profile 44 snap with their flanges 48 via the detents 22 of the Cross connector 10 (see Fig. 3). Fig. 2 shows that in this position the walls 46 of the upper C-profile 44 are maximally bent inwards. Due to the inclination of the beads 28 and the outer radius of the flange 48 , the restoring force of the walls 46 of the upper C-profile 44 also creates a force on the cross connector 10 , which tends to pull the sen upwards. Through this elastic restoring force, the cross connector 10 automatically takes the position shown in FIGS. 4 and 5. The locking lugs 22 get from below under the flanges 48 of the lower C-Pro fils 44 and lay down there firmly. This type of system later ensures a good introduction of force from the lower C-profiles 44 , to which the ceiling elements are fastened, into the cross connector 10. The flanges 48 engage in the undercuts 24 behind the locking lugs 22.

The length of the legs 14 , the position of the locking lugs 22 and the formation of the beads are chosen so that after He reach the plant position shown in Fig. 5 the Sic ken 28 still for a certain elastic deformation of the walls 46 of the upper C. -Profiles 44 provide (see Fig. 4). The forces that still exist can be such that the weight of the ceiling elements can be passed on by the cross connectors 10 via the beads 28 to the walls 46 of the C-profile 44 without the cross connector 10 lowering under this load. Even if there is a deliberately weak dimensioning or as a result of very heavy ceiling elements, the cross connector is lowered with respect to the upper C-profile 44 in a manner similar to that shown in FIG. 2, but the latching lugs 22 still have the flanges 48 of that reach under the upper C-profile 44, the lower C-profile 44 , the beads 28 provide for a short lifting of the ceiling elements - e.g. B. when slamming a door - for damping the subsequent downward movement of the ceiling elements.

In order in any case to ensure a play-free connection between the two C-profiles 44 , the side locking tabs 20 of the cross connector 10 in the position shown in FIGS. 4 and 5 can be attached to the lower C-profile 44 prior to the attachment of the actual ceiling elements be angled down. The slots 36 ensure that no excessive forces are required for the bending, since this bending process takes place manually on site. The abge provided reinforcing beads 34 form a Biegean impact as soon as a vertically angled position of the locking tabs 20 with respect to the base plate 12 is sufficient. The locking tabs 20 are formed out so that their flanges 38 play freely on the flanges 48 of the upper C-profile 44 sen when bending. So there is a backlash-free, rigid connection between the upper C-profile 44 , the bottom plate 12 of the cross connector and - via the locking lugs 22 - the lower C-profile 44 after bending of the Sperrungsla's 20 .

Due to the play-free locking tabs 20 , a relative movement of the ceiling elements and the lower C-profiles 44 firmly connected to them, relative to the upper C-profiles 44, is also ruled out in the event of air pressure surges, such as can occur with slamming doors.

Claims (12)

1. Connecting element for connecting two crossed C-profiles ( 44 ) with flanged edges ( 48 ), consisting of a U-shaped cross connector ( 10 ) with a bottom ( 12 ) and two substantially perpendicular to this angled legs , whose distance from each other essentially corresponds to the width of the upper C-profile ( 44 ) and on the side edges of which locking lugs ( 22 ) with undercuts ( 24 ) are provided, which in the flanged edges ( 48 ) of the lower C-profile ( 44 ) can be snapped in, characterized in that in the vicinity of the bottom ( 12 ) of the cross connector ( 10 ) from the legs ( 14 ) inwardly projecting, rigid projections ( 28 ) are provided, which the wall ( 46 ) of the upper Bend the C-profile ( 44 ) elastically inwards. 2. Connecting element according to claim 1, characterized in that the projections ( 28 ) have inclined surfaces which cooperate with the radii of the flanged edges ( 48 ) of the upper C-profile ( 44 ). 3. Connecting element according to claim 1 or 2, characterized in that the cross connector ( 10 ) is bent from a originally flat sheet metal part. 4. Connecting element according to one of claims 1 to 3, characterized in that the projections consist of beads ( 28 ) which are each placed obliquely inwards in the region of the bending edges ( 16 ) between the legs ( 14 ) and the bottom ( 12 ) . 5. Connecting element according to claim 4, characterized in that the bending edges ( 16 ) between the legs ( 14 ) and the bottom ( 12 ) in the region of the beads ( 28 ) severed and provided at their ends with free cuts ( 32 ). 6. Connecting element according to one of claims 3 to 5, characterized in that reinforcing beads ( 26 ) are provided in the region of the latching lugs ( 22 ). 7. Connecting element according to one of claims 4 to 6, characterized in that on the bottom ( 12 ) of the Kreuzver binder ( 10 ) locking elements ( 20 ) are provided, which after their flipping in the assembled position of the cross connector ( 10 ) has a rigid support between it Form the bottom ( 12 ) and the edges ( 48 ) of the upper C-profile ( 44 ). 8. Connecting element according to claim 7, characterized in that the locking elements are formed as tabs ( 20 ) via predetermined bending edges ( 18 ) on the sheet metal base ( 12 ) of the cross connector ( 10 ). 9. Connecting element according to claim 8, characterized in that on the locking tabs ( 20 ) in the loading area of the bending edges ( 18 ) inward Sic ken ( 32 ) are provided which form a bending stop and a reinforcement. 10. Connecting element according to claim 8 or 9, characterized in that the flat sheet metal part in the region of the predetermined bending edges ( 18 ) of the connecting tabs ( 20 ) is provided with slots ( 36 ). 11. Connecting element according to one of claims 7 to 10, characterized in that the locking elements in the support areas on the edges ( 48 ) of the C-profile ( 44 ) are provided with reinforcing beads or flanges ( 38 ). 12. Connecting element according to one of the preceding claims, characterized in that in the bottom ( 12 ) an elongated hole ( 40 ) with a raised edge ( 42 ) is hen vorgese.