DE808306C - Countersunk rivet - Google Patents

Description

Countersunk rivet The invention relates to a novel countersunk rivet head and a method of making the same. It is known that countersunk rivets with the usual conical head have the property of being transverse when striking and cooling the rivet to trigger directed driving forces that: a displacement of the structural parts to be connected cause. This makes the proper riveting of the parts difficult because the pre-drilled rivet holes no longer over; fit together and be reworked have to. Another disadvantage arises from the fact that significant inside the material Ancillary stresses occur which unnecessarily stress the structural part in advance and force a greater safety factor to be taken into account when considering the material requirements. The driving forces mentioned are firstly due to the stretching effect at m @ striking the Countersunk head and secondly on the spring force of the stressed to the yield point cooled rivets. This creates on the inclined surfaces of the countersunk heads a significant side component that causes stretching of the material in where the countersunk heads are located. So this part of the construction experiences a Change in shape resulting in a longitudinal displacement of this part against the next makes noticeable.

So far it has not been possible to find an effective remedy for these disadvantages to be found, because the normal countersunk heads have a maximum countersink angle α of 9o °, in general but of 75 °. With this size of the countersink angle, however, the side component the The spring force of the rivet can be considerable. In practice, this was the only way to feel help that the rivet holes are plentifully pre-drilled and also the ones to be connected Construction parts were clamped at a certain distance.

The basic idea of the present invention is that Countersunk rivets are used with a countersunk head angle of at least 9i °. However, this angle is only a theoretical limit. In reality it is supposed to the countersink angle assume a considerably larger value in order to avoid the harmful side component to reduce. A countersunk rivet with a larger countersink angle would not work in all Cases are sufficient to absorb the shear forces that occur. The conical part of the Countersunk head can therefore receive a cylindrical reinforcement. The occurring The edges of the new countersunk head are rounded off so that they can be riveted the material of the rivet shaft can also lay on the reveal of the rivet hole.

Closely related to the process used in this riveting a correspondingly designed tool that z. B. in the form of a milling cutter the shape of the countersunk head described above. In practice it should prove to be useful prove that such a milling cutter has a cylindrical guide shaft at the tip which guides the cutter centered accordingly in the case of pre-drilled rivet holes.

In the drawing is a sectional view of the countersunk rivet according to the invention shown on an enlarged scale.

Dil-ser countersunk rivet consists of the usual hall) -round setting head i, the cylindrical shaft 3 and the countersunk head 2, which consists of the conical part 2 'and the cylindrical part 2 "consists. The plunging rivet shown in this way is used in the Example of joining two sheet steel parts 4 and 5. In this illustration it is also noteworthy that the transitions from the countersunk head part 2 "to the countersunk head part 2 'and are made strongly rounded from the latter to the shaft. The size of the The countersink angle can be seen from the arc with the designation a.

It is expressly emphasized that the illustrated form of the Senkniets is just laughed at as an example. In this context it should be without It should also be understood that the size of the countersink angle a is derived from the dimensions the construction parts to be connected, the size of the sink rivet, the type of material and the stress on the construction. Experiments have for example shown that with a certain ratio of these factors a countersink angle of about 16o ° was favorable.

Claims (7)

PATEN TANSPRI; (: H E: i. Countersunk rivet, characterized by a countersunk angle α of the countersunk head (2) which is at least 9i °. 2. Countersunk rivet after Claim i, characterized by a cylindrical continuation (2 ") of the conical Part (2 ') of the countersunk head (2). 3. Countersunk rivet according to claim i and 2, characterized in that that the transitions from the countersunk head part (2 ") to the countersunk head part (2 ') and from the latter be made strongly rounded to the shaft. 4. Countersunk rivet according to claim i to 3, characterized in that the rivet shank (3) starting from the setting head (i) is the usual one has a cylindrical shape, then into a conical countersunk. head (2 ') passes over and finally assumes a cylindrical shape (2 "). 5. Method of manufacturing countersunk rivets according to claims i to 4, characterized in that during the production of the Reveal to accommodate the countersunk head (2) aimed at a particularly large countersunk angle and the cross-sectional area available for absorbing shear forces on the shaft (3) of the countersunk head is enlarged by a cylindrical reinforcement (2 "). 6. Tool for carrying out the method according to claim 5, characterized in that this a milling cutter in the shape of the countersunk head part to produce countersinks at the tip (2 ') and this milling cutter in a cylindrical part corresponding to the countersunk head part (2 ") passes. 7. Tool according to claim 6, characterized by a cylindrical Guide shaft at the tip of the milling cutter for use with pre-drilled rivet holes.