DE10051987A1 - toogle - Google Patents

Abstract

The invention relates to a tilting tie element (10) which is used for cavity fastening. The inventive tie element (10) comprises a U-shaped profiled rod as a tie part (12) which is provided with a threaded hole (14) enabling a threaded rod (26) to be screwed in in the middle thereof. According to the invention, the tie part (12) and the threaded rod (26) are connected to each other by means of a screw spring element (18) whereby one end of the threaded rod (26) is screwed therein. The screw spring element (18) enables the threaded rod (26) to be pivoted at an angle of 90 DEG to the side, being enclosed in the U-shaped tie element. As a result, the tilting tie element (10) can be inserted through a hole (32) into gypsum plaster board, for example. When the tie part (12) exits from the gypsum plaster board (30), the screw spring element pivots the tie part (12) back into a position which is askew in relation to the threaded rod (26), whereupon the threaded rod (26) can be screwed into the threaded hole (14) of the tie part (12) and the tilting tie element (10) can be subjected to strain.

Description

The invention relates to a toggle anchor for cavity fastening with the features of Preamble of claim 1.

A known tilt anchor has a beam-like anchor part in the form of a U-shaped bar on. In the anchor part there is a cylindrical bolt about an imaginary axis transverse to the anchor part rotatably mounted. The bolt has a threaded hole that runs through the bolt sets and into which a threaded rod is screwed. The bolt is off-center to one End of the anchor part arranged offset, so that the anchor part knows on one side protrudes from the bolt than on the other side.

For cavity attachment, the anchor part of the known tilt anchor is in relation to the Threaded rod swiveled so that it is roughly in line with the threaded rod is located and the threaded rod lies in an interior of the U-shaped anchor part. In In this condition, the tilt anchor is through a hole in, for example, a plasterboard plate performed. Once the anchor part is completely through the plasterboard due to gravity, it swivels into a position transverse to the threaded rod. At the The threaded rod is pulled back so far that the anchor part on one The back of the plasterboard is in contact. The tilt anchor can now be loaded and it can an object is attached to the threaded rod of the tilt anchor.

The invention is based on the object of a tilt anchor of the type explained above Kind so continue to form that its anchor part after passing through a hole pivots into a transverse position to the threaded rod regardless of gravity.

This object is achieved by the features of claim 1. The Tilt anchor according to the invention has a coil spring element in which the thread at least a little bit. The coil spring element is at a distance from the threaded rod  attached to the anchor part, the coil spring element holds the thread rod resilient and, as a result, pivotable projecting approximately transversely from the anchor part on Anchor part. With coil spring element is meant a spring element that coils has a shaped screw-in section into which one end of the threaded rod is inserted is screwed. Outside the screw section, the coil spring element a deviating from the helical shape, in particular for attachment to the anchor part ge have a suitable shape.

The anchor part of the tilt anchor according to the invention is provided with a threaded hole, whose axis runs roughly transversely to the anchor part and into which the threaded rod can be screwed in. The threaded hole is in with undeformed coil spring element about coaxial to the coil spring element or more precisely to screw it in section arranged in the anchor part. The anchor part is against to fix the cavity the spring force of the coil spring element is pivoted about 90 ° so that it is roughly in line with the threaded rod. In this position the Tilt anchor performed through a hole, for example in a plasterboard. As soon as the anchor part has completely passed through the hole, that pivots Coil spring element the anchor part back to the starting position in which the Anchor part is approximately transverse to the threaded rod. This pivoting of the anchor part in the the spring position is approximately at right angles to the threaded rod of the coil spring element and consequently independent of gravity or also against the influence of gravity. Furthermore, the coil spring element does that Anchor part on the threaded rod so that the threaded hole of the anchor part at least is aligned approximately coaxially to the threaded rod. The invention Tilt anchor is pulled back on the threaded rod until the anchor part on the back the plasterboard is in contact. Then the threaded rod is inserted into the threaded hole screwed of the anchor part, at least approximately from the coil spring element has been aligned coaxially to the threaded rod. After screwing in the Threaded rod in the threaded hole can be an object on the threaded rod Tilt anchor can be attached.

With a threaded rod in the sense of the invention is generally a screw thread Sending component, so for example a screw or a threaded hook ge means.  

The tilt anchor according to the invention has the advantage that its anchor part is gravity-independent dependent and if necessary also against the influence of gravity in a cross to the win the standing position is pivoted. The tilt anchor according to the invention is inexpensive producible.

In one embodiment of the invention, the coil spring element also has helical screw-in section for the threaded rod a fastening section on, which is located radially outside of the screw-in section, so that the Ein do not screw the threaded rod into the threaded hole of the anchor part spring element is hindered. In its fastening section, the screw fe has derelement, for example, a larger winding cross knife. The term Cross knife instead of diameter has been chosen because of turns of the Coil spring element in the fastening section need not be circular.

In a preferred embodiment of the invention, the anchor part has a profile bar with U- shaped cross section. Such a profile bar has the advantage that it as Bulk items are available inexpensively and have a high stability. Another The advantage is that the anchor part is passed through a hole by approximately 90 ° for the anchor part to be passed through is pivotable so that the threaded rod lies in an interior of the U-shaped rod. In this way, a small transverse knife can be achieved around the invention To be able to insert the tilt anchor through a hole with a small diameter.

An embodiment of the invention provides for attachment, the anchor part, in particular if it is made of sheet metal, to be provided with one or more tabs that the Grip coil spring element in its fastening section and thereby clamp on the anchor part. Such a tab is inexpensive by one Stamping and forming process can be produced. With this embodiment of the invention an inexpensive and particularly suitable for automation connection of the Coil spring element reached with the anchor part.

In a preferred embodiment of the invention, a chamfer is provided on the threaded rod. The chamfer aligns the threaded rod when screwing it into the threaded hole of the anchor partly out. This configuration has the advantage that the threaded rod can be easily inserted into the Threaded hole of the anchor part can be screwed in, even if the threaded rod is from Coil spring element is not held exactly coaxial to the threaded hole.  

The invention is described below with reference to an embodiment shown in the drawing example explained in more detail. Show it:

Figure 1 is a side view of a tilt anchor according to the invention partially cut GE.

Fig. 2 is a coil spring element of the rocker arm of Figure 1 in a perspective view and on a different scale.

FIG. 3 shows the assembly of the tilt anchor from FIG. 1; and

Fig. 4 shows the tilt anchor from Fig. 1 in the attached state.

The tilting anchor 10 according to the invention shown in Fig. 1 is provided for Hohlraumbefesti supply, so for example for attaching a lamp to a plasterboard on a ceiling. The tilt anchor 10 has a cross section U-shaped Pro filstab as anchor part 12 . A threaded hole 14 is made in a longitudinal center of the anchor part 12 . At a distance in the longitudinal direction from the threaded hole 14 , the anchor part 12 has lugs 16 on both sides of the threaded hole 14 . The two tabs 16 are produced by a stamping and embossing or other shaping process, they are in one piece with the anchor part 12 . The tabs 16 are located in a hollow side of the U-shaped anchor part 12 .

With the tabs 16 , a coil spring element 18 shown in FIG. 2 is attached to the hollow or inside of the U-shaped anchor rod 12 . The coil spring element 18 has a helical fastening section 20 . At one end of the fastening section 20 , spring coils 22 are connected with a larger diameter. A fastening section 24 connects to the spring windings 22 . The fastening section 24 consists in the illustrated embodiment of the helical spring element 18 from a spring turn which is formed into a rectangle with rounded corners or approximately to an oval. A width of the fastening section 24 of the helical spring element 18 corresponds to a clear inner width of the U-shaped anchor part 12 . A length of the fastening section 24 corresponds to one from the two tabs 16 of the anchor part 12 from each other. The screw-in section 20 , the spring windings 22 and the fastening section 24 of the helical spring element 18 are wound in one piece from a spring wire.

The coil spring element 18 is fixed with its one-turn fastening supply section 24 by means of the tabs 16 in the cavity of the anchor part 12 . The two tabs 16 overlap the fastening section 24 and keep it clamping and by positive locking on the anchor part 12 . The coil spring element 18 is located in the interior of the anchor part 12 , the screw-in section 18 is coaxial with the thread deloch 14th

A threaded rod 26 is screwed into the screw-in section 20 of the coil spring element 18 with one end. Instead of the threaded rod 26 , for example, a screw or a threaded hook (not shown) can also be screwed into the screw-in section 20 of the coil spring element 18 . The threaded rod 26 has a chamfer 28 ( FIG. 4) at its end screwed into the screw-in section 20 of the coil spring element 18 . A screw thread of the threaded rod 26 is suitable for an internal thread of the threaded hole 14 , so that the threaded rod 26 can be screwed into the threaded hole 14 of the anchor part 12 . A diameter of the screw benfederelements 18 in the screw-in section 20 is selected so that the threaded rod 26 can be screwed in.

In the region of the spring coils 22 and in the fastening portion 24 has the Schrau benfederelement 18 a larger through or transverse diameter than section 20 in Einschraubab, so that the threaded rod 26 by the coil spring member 18 screw-through is, however, it is in engagement only with the male screw 20 ,

A possible use of the tilt anchor 10 according to the invention is shown in FIGS . 3 and 4: To attach the tilt anchor 10 to, for example, a plasterboard plate 30 , this is drilled with a hole 32 . A diameter of the hole 32 is chosen so large that the U-shaped anchor part 12 can be pushed through in the longitudinal direction. To insert the anchor part 12 , the threaded rod 26 is pivoted 90 ° to the side, as can be seen in FIG. 3, so that it is aligned approximately in a line with the anchor part 12 and lies in the U-shaped anchor part 12 . The pivoting of the threaded rod 26 with respect to the anchor part 12 is made possible by the helical spring element 18 , which pivotably connects the threaded rod 26 to the anchor part 12 . With the threaded rod 26 lying in the anchor part 12 , the anchor part 12 is pushed through the hole 32 in the plasterboard 30 .

The anchor part 12 is completely inserted through the hole 32 in the plasterboard 30 , so that the anchor part 12 emerges from the back of the plasterboard 30 and is released from the plasterboard 30 . The anchor part 12 is held on the threaded rod 26 which protrudes through the plasterboard 30 . A spring force of the helical spring element 18 , which connects the anchor part 12 with the threaded rod 26 , pivots the anchor part 12 back into the starting position, in which the anchor part 12 is transverse to the threaded rod 26 and the threaded hole 14 of the anchor part 12 is coaxial with the threaded rod 26 .

The anchor part 12 is retracted on the threaded rod 26 until, as shown in FIG. 4, it rests on the back of the plasterboard 30 . Then the threaded rod 26 is screwed through the helical spring element 18 and screwed into the threaded hole 14 in the anchor part 12 . Since the coil spring member 18 the threaded rod 26 coaxial to the threaded hole 14 of the anchor portion 12 passes aligns the threaded rod 26 easily when screwed into the threaded hole fourteenth This also helps the chamfer 28 of the threaded rod 26 , which aligns the threaded rod 26 when screwing into the threaded hole 14 on the threaded hole 14 .

As soon as the threaded rod 26 is screwed into the threaded hole 14 of the anchor part 12 , a load can be placed on the threaded rod 26 protruding from the plasterboard 30 .

Claims (6)

1. Tilt anchor for cavity fastening, with a beam-like anchor part and with a threaded rod, characterized in that the anchor part ( 12 ) has a Ge threaded hole ( 14 ), the axis of which extends approximately transversely to the anchor part ( 12 ) and in which the threaded rod ( 26 ) can be screwed in, and that the toggle anchor ( 10 ) has a helical spring element ( 18 ) which is approximately coaxial with the thread deloch ( 14 ) on the anchor part ( 12 ) and in which the threaded rod ( 26 ) is screwed. 2. Tilt anchor according to claim 1, characterized in that the Schraubenfe derelement ( 18 ) has a fastening section ( 24 ) which is located radially outside a screw-in section ( 20 ) of the coil spring element ( 18 ) for the threaded rod ( 26 ). 3. Tilt anchor according to claim 2, characterized in that the Schraubenfe derelement ( 18 ) in its fastening section ( 24 ) has a larger transverse diameter than in the screw-in section ( 20 ). 4. Tilt anchor according to claim 1, characterized in that the anchor part ( 12 ) has a U-shaped bar. 5. Tilt anchor according to claim 1, characterized in that the anchor part ( 12 ) has a tab ( 16 ) with which the coil spring element ( 18 ) on the anchor part ( 12 ) is fixed. 6. Tilt anchor according to claim 1, characterized in that the threaded rod ( 26 ) has a chamfer ( 28 ) on its end facing the anchor part ( 12 ).