DE3118596A1 - Expanding dowel - Google Patents

Description

BERG .STA-B ¹ F .'SCNWABe. ■ .SANDMAIR

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MAtJI Hi-li "· HEH'.IHAr.SE -1 '

Anwüits ü kto: 31 614 1 \. May 198]

HILTI AG Schaan / Principality of Liechtenstein

Expansion dowel

«(089) 98 82 72-74 Telex: 0524 560 BERG d Bank accounts: Bayer. Vereinsbank Munich 4? 31OO (BLZ 700 202 70)

Telegrams [cable): Fax: (089) 98 3049 Hypo-Bank Munich 4410122850 (BLZ 70010011) Swilt Code- HYPO DE MM

BERGSTAPFPATENT Munich Kalie Infotec 6000 Postscheck Munich 65343-808 (BLZ 70010080)

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Dft.BERG DlPL.-INQ. STAPF

DIPL.-ING. SCHWABE DR. DR. SANOMAIR

PATENTANWÄLTE β MÖNCHEN 80 · MAUERKIRCHER8TR.48

HILTI AKTIENGESELLSCHAFT IN SCHAAN Principality of Liechtenstein

Expansion dowel

The invention relates to an expansion dowel with an axially compressible sleeve with radial expansion and a sleeve penetrating anchor bolts having a load fastening area on the rear, the sleeve having a Has overrun curve for arranged on the anchor bolt cams and on the anchor bolt a front side supported on the sleeve Counter bearing is arranged, the upsetting of the

Sleeve by relative rotation between anchor bolt and sleeve he follows.

There are various options for expanding dowels. For many dowels, for example, it is common to put them in a sleeve Expansion to drive or retract an expansion body. However, setting such a dowel is very time-consuming. Instead of pulling in or driving in an expansion body, it is already known to have the sleeve with it on the rear side to provide an overrun curve for cams arranged on the anchor bolt. By relative rotation between anchor bolts and Sleeve there is an axial upsetting of the sleeve supported on a counter bearing, the sleeve expanding radially will. In contrast to the drawing in of an expansion body into a sleeve by means of a thread, the run-up curve is designed in such a way that that a fraction of a full turn is sufficient to achieve the required expansion of the sleeve.

A disadvantage of this design is that the sleeve is only swaged from one side. Especially with longer sleeves, this can result in a very uneven expansion over the spreading area. This can be expressed as that the sleeve is spread over part of its length, while in another part of its length no widening at all occurs. This phenomenon can lead to a considerable reduction in the pull-out value.

The invention is based on the object of creating an expansion dowel which enables the sleeve to be expanded evenly.

According to the invention, this is achieved in that the Counter-bearing designed as projections cooperating with a run-up cam arranged on the front side of the sleeve is.

Due to the design according to the invention, the sleeve thus has at both ends a run-up curve for interacting cams or projections of the anchor bolt. The upsetting "of the The sleeve takes place in the same way when the anchor bolt is rotated.

311359t

early from both ends of the sleeve. If the sleeve is not in the recording material in its central area or can only partially expand, the adjacent areas can be expanded practically independently of each other. The expansion dowel can therefore optimally adapt to the shape of the receiving material in hollow blocks, for example. Depending on the design of the run-up curves, the axial upsetting and thus the radial expansion of the sleeve can be the same from both ends or unequal.

The run-up curves can have different shapes. she can, for example, be designed in the shape of a helix. For manufacturing and other reasons, however, it is expedient that the front and rear of the sleeve two run-up curves are provided, which in one another straight lines intersecting planes perpendicular to the longitudinal axis of the dowel. As a result, two approach curves are provided are, the resulting forces are distributed. This means that the contact pressures at the points of contact between the Run-up curves and the cams or the projections are smaller. Thus, for the sleeve as well as for the anchor bolt Materials with low strength, such as plastics, are used. Because the run-up curves in each other intersecting planes, there is a prism-shaped support for the cams or projections. The starting position in the relaxed state of the sleeve can thus be clearly specified. The maximum compression of the sleeve is thereby achieved by turning the anchor bolt a quarter turn.

For a good interaction with the run-up curves, it is advantageous that the cams or the projections are wedge-shaped are formed with vertices directed perpendicular to the longitudinal axis of the dowel. Wedge-shaped cams or projections have a high strength. Due to the symmetrical design of the cams or projections, the sleeve can be compressed by twisting of the anchor bolt can be done either in one direction or the other.

For a clear support of the cams or the projections on the run-up curves, it is useful that the wedge angle of the Cams or the projections is smaller than the opening angle of the two planes in which the corresponding run-up curves lie. The contact between the cams or the projections and the run-up curves thus takes place in the area of the apex. Pressure peaks can be avoided by slightly rounding the apex.

Often it is not possible to compress the sleeve to the maximum. Dm turning back of the anchor bolt in the case of only partial upsetting To prevent it, it is useful that the overrun curves Have notches for the cams or projections. These notches can be, for example, at 30 and 60 ° or at 45 ° to the starting position of the anchor bolt. However, the notches should only be designed so deep that when they are applied With a correspondingly large torque, it is possible to turn the anchor bolt back into the starting position.

The invention is to be explained in more detail below with reference to the drawings which show it for example. Show it:

Fig. 1 An expansion anchor according to the invention in the untensioned state,

Fig. 2 the expansion dowel according to FIG. 1 in maximum spread State,

3 shows the expansion dowel according to FIG. 1 in a partially expanded state in a receiving material.

The expansion dowel shown in Fig. 1 consists of a sleeve designated as a whole with 1 and a sleeve penetrating this, a total of 10 designated anchor bolts. The sleeve 1 has a flange 2 in its rear region on. The front area of the sleeve 1 is provided with longitudinal slots 3. The longitudinal slots 3 create webs 4, see above that the sleeve 1 is axially compressible with deformation of the webs 4. At the rear end is the sleeve 1 with two run-up curves 5 provided, which in each other in a perpendicular to

311-S536

Straight lines intersecting planes lie along the longitudinal axis of the dowel. The anchor bolt 10 has at its rear end a Load attachment area 11. Cams 12 are arranged adjacent to the load fastening area 11. The load attachment area 11 is provided with a slot 13. The slot 13 is used to rotate the anchor bolt 10 opposite the sleeve 1. The ramp curves 5 have notches 6 for the Cam 12 on. The notches 6 serve to prevent rotation when the anchor bolt 10 is only partially rotated relative to the Sleeve 1. The front end of the sleeve 1 is also provided with run-up curves 7. The run-up curves 7 are in two . planes intersecting each other in a straight line perpendicular to the longitudinal axis of the dowel. At the front end of the anchor bolt 10, projections 14 cooperating with the run-up cams 7 are provided. The projections 14 are wedge-shaped formed with a vertex directed perpendicular to the longitudinal axis of the dowel. The wedge angle a, b of the cams 12 or the projections 14 is smaller than the opening angle c, d of the two planes in which the corresponding run-up curves 5, 7 lie. the Run-up curves 5, 7 thus form a kind of prismatic support for the cams 12 and the projections 14. To when twisting of the anchor bolt 10 relative to the sleeve 1 to prevent rotation of the sleeve 1, the flange 2 is axially directed Teeth 8 and the sleeve 1 are provided with knobs 9 on their circumference.

Both the sleeve 1 and the anchor bolt 10 can each be formed in one piece or in several parts. Particularly It is expedient to manufacture these parts from plastic. To achieve the desired deformation of the sleeve 1, should be a softer, more elastic material for the sleeve 1 and a harder, tough material for the anchor bolt 10 be used.

Fig. 2 shows the expansion anchor from Fig. 1 in the maximally expanded state. This is created by twisting the anchor bolt 10 compared to the sleeve 1 by 90 °. As a result of the cams 12 or the projections 14 running up on the run-up cams 5, 7 the sleeve 1 is axially compressed and expanded radially with the deflection of the webs 4. The cams 12 or the projections 14 are again locked in this position.

Fig. 3 shows the expansion dowel in a receiving material 16 in a partially expanded state. The recording material 16 is a hollow brick. An insulating material 17, for example, is fastened to the receiving material 16 by means of the expansion dowel. Of the The anchor bolt 10 is rotated relative to the sleeve 1. However, since the recording material 16 does not have a maximum expansion of the Sleeve 1 allows, the anchor bolt 10 is only rotated by a partial angle compared to the position shown in FIG. Around To prevent the anchor bolt 10 from turning back, the cams 12 are in the projections 6 of the overrun cams 5 locked.

The upsetting of the sleeve 1 occurring from both ends results in good anchoring in the receiving material 16 At the same time, a contact pressure is exerted on the insulating material 17 to be fastened by the splash 2. Which are in Insulating material 17 prevent teeth 8 pressing in, together with the knobs 9 on the circumference of the sleeve 1, when the Anchor bolt 10 rotates the sleeve 1. If necessary, the expansion anchor can be rotated back by turning the anchor bolt 10 be solved again. The load attachment area 11 can also be designed as an eyelet for suspensions, for example.

Claims (5)

™ "*" * - l.y expansion dowel with one under radial expansion axially compressible sleeve and an anchor bolt penetrating this and having a load attachment area on the rear side, wherein the sleeve has a run-on curve on the rear side for cams arranged on the anchor bolt and on the anchor bolt a counter-bearing supported on the front side of the sleeve is arranged, with the upsetting of the sleeve takes place by relative rotation between anchor bolt and sleeve, characterized in that that the counter-bearing interacts with a run-up cam (7) arranged on the front side of the sleeve (1) Projections (14) is formed. 2. Expansion dowel according to claim 1, characterized in that the front and rear of the sleeve (1) have two Overrun curves (5, 7) are provided, which in each other a straight line perpendicular to the longitudinal axis of the dowel intersecting planes. 3. Expansion dowel according to claim 2, characterized in that the cams (12) and the projections (14) are wedge-shaped are formed with vertices directed perpendicular to the longitudinal axis of the dowel. 4. SpreidÜbel according to claim 3, characterized in that deiss the wedge angle (a, b) of the cams (12) or the projections (14) is smaller than the opening angle (c, d) of the two levels in which the corresponding run-up curves (5, 7) lie. 5. Expansion dowel according to one of claims 1 to 4, characterized in that the run-up curves (5) notches (6) for the cams (12) or projections (14).