DE29517805U1 - Fastener for driving into a borehole - Google Patents

Description

Upat GmbH & Co.
Freiburger Strasse 9
D-79312 Emmendingen

07.11.95
DJ
UPT-GM 4028 DE

Description
Fastening element for driving into a drill hole

The invention relates to a fastening element for driving into a borehole, with a pin and an elastic expansion sleeve placed on it according to the preamble of claim 1.

Such a fastening element is known from DE 35 26 784 A1. The known fastening element has a pin with a longitudinal section tapered at an annular step at its front end. A spring sleeve that is elastically deformable in diameter is placed on this longitudinal section. When driving in, for example when the fastening element is hammered into a drill hole, the spring sleeve is supported against the annular step of the pin, which forms a support surface that is effective in the longitudinal direction.

When the known fastening element is driven into a drill hole, the spring sleeve is elastically compressed. To expand and thus tighten the spring sleeve in the drill hole, the pin of the known fastening element has an expansion cone at its front end. If the pin is loaded and pulled out of the drill hole a short distance,

the spring sleeve slides onto the expansion cone and is expanded. The fastening element is anchored in the drill hole.

The invention is based on the object of designing a fastening element of the type mentioned at the outset in such a way that it has its final seat in the borehole as soon as it is driven in.

This object is achieved according to the invention by the features of claim 1.

The fastening element according to the invention has a head with an approximately radial abutment surface that is effective in the longitudinal direction of the fastening element and does not spread the spring sleeve. This has the advantage that the fastening element reaches its final position in the borehole when it is driven in. When the pin is loaded, its head, which forms the abutment, rests against a front end of the spring sleeve pointing into the borehole. The spring sleeve is clamped in the borehole due to its spring force. Another advantage of the fastening element according to the invention is that it is simple and therefore inexpensive to manufacture.

In one embodiment of the invention, the spring sleeve has a slot that runs through the longitudinal direction. In order to hold the spring sleeve securely on the pin, the slot in a further development of the invention is narrower than the tapered longitudinal section of the pin onto which the spring sleeve is placed.

In a preferred embodiment of the invention, the head is produced by forming, for example by upsetting after the spring sleeve has been pushed onto the tapered longitudinal section. In this way, the fastening element according to the invention can be produced quickly and easily.

The invention is explained in more detail below using an embodiment shown in the drawing. The figure shows a fastening element according to the invention.

The fastening element 10 according to the invention shown in Figure 1 is intended for driving, for example hammering into a drill hole, for example for fastening flat roof or wall insulation to a building.

The fastening element 10 has a pin 12, the shaft 14 of which is undersized (i.e. a clearance fit) to a drill hole (not shown) into which the fastening element 10 can be driven. At its rear end, the pin 12 has a head 16 which is integral with it for fastening an object.

At its front end, which is to be driven into the borehole, the pin 12 has a longitudinal section 18 of smaller diameter that is integral with it. A spring sleeve 20 is placed on this longitudinal section 18. The spring sleeve 20 is hollow-cylindrical with a continuous longitudinal slot 22. It is made elastically from sheet metal, and its diameter can be changed elastically. The outer diameter of the undeformed spring sleeve 20 is larger and its inner diameter is smaller than the diameter of the shaft 14 of the pin 12. At its front end, the spring sleeve 20 has an insertion cone 23 that makes it easier to drive into the borehole.

The pin 12 tapers at an annular step 24 into the longitudinal section 18 that supports the spring sleeve 20. At its front end, the pin 12 has a head 26 that is formed by upsetting. In order to reduce the deformation forces, the pin 12 has a punch 28 at its front end.

Instead of the head 26, the front end of the pin 12 can also be T-shaped, for example, after the spring sleeve 20 has been pushed onto the longitudinal section 18 of the pin 12 (not shown). Instead of the grain 28, the pin 12 then has a notch

The ring step 24 forms a support surface for the spring sleeve 20, which transfers the force required to drive the fastening element 10 according to the invention into a drill hole from the pin 12 to the sleeve 20. The spring sleeve 20 is elastically deformed by the drill hole, its diameter is reduced to the diameter of the drill hole. It is braced in the drill hole due to its spring force and holds the pin 12 in the drill hole at its front head 26, which represents an abutment. The head 26 engages in an axial direction with a positive fit on the front end of the spring sleeve 20, and there is no provision for any significant spreading of the sleeve for anchoring in the drill hole.

A diameter of the longitudinal section 18 of the pin 12, onto which the spring sleeve 20 is placed, is larger than the width of the longitudinal slot 22 of the spring sleeve 20, so that the latter is held securely on the pin 12.

Claims (4)

Upat GmbH & Co. Freiburger Straße 9 D-79312 Emmendingen 07.11.95 JWE/DJ UPT-GM 4028 DE Protection claims 1. Fastening element for driving into a borehole, with a pin which tapers towards a front end at an annular step into a longitudinal section onto which a spring sleeve which is elastically deformable in diameter is placed, the annular step forming a longitudinally effective support surface for the spring sleeve for driving into the borehole, characterized in that the pin (12) has a head (26) at its front end which forms a longitudinally effective abutment via which the spring sleeve (20) holds the pin (12) in the borehole. 2. Fastening element according to claim 1, characterized in that the spring sleeve (20) has a slot (22) running through it in the longitudinal direction. 3. Fastening element according to claim 2, characterized in that the longitudinal slot (22) is narrower than a transverse dimension of the tapered longitudinal section (18) of the pin (12). 4. Fastening element according to claim 1, characterized in that the head (26) is formed by deformation.