DE1946533U - SCREW LOCKING. - Google Patents

Description

.390 536 * 26. /.

. Richard Schiel

Stuttg art- Lederbdrg screws - security. in the rose bush l

The pattern relates to a screw locking by a spring, always attracts the screw, or their mother in operation, as is noticeable a tendency to L _o ckerung, so especially if the screw strong shocks exposed "Fig.1 to 3 shows this See tion when the spring is attached under the screw head. Fig _o 4 and 5 depicts the security in the event that the spring is outside the screw head. 6 and 7 has a fuse in which the spring is housed within the screw head. FIG. 8 shows a safety device in which the nut is supported on a threaded pin by a spring located above it. 9 and 10 explain the theory on which the present master is based.

In Fig. 1 to 3, the sheet metal 1 is to be pressed against the sheet metal 2 by the screw 3. For this purpose, the ring-shaped spring 4 is placed between the sheet metal 2 and the head of the screw 3 pretensioned so that the clamping force acts in it in the direction of the arrows in FIG. If the wedge 5 is pulled out, the ring from the spring 4 narrows with great force. Since when the screw 3 was turned, one point of the spring 4 cut into the base 2 and the other into the head of the screw 3 (as is known from the standardized spring washers according to DIN 127) ₅ What happens only after the screw 3 has been tightened, then automatically tighten the screw 3 again and again under the action of the spring when it has been loosened sufficiently by vibrations. The spring 4 actually replaces a locksmith who monitors the screw 3 in the Isaf end operation and retightening it again and again. "It is important ₅ that the tightening force of the spring 4 is large enough, e.g. so great that the screw shaft is stressed higher than up to 1/10 of the yield point. The spring travel must also be large enough, i.e. the effective spring angle, for example over 15 degrees. This is more easily achieved by giving the spring several coils. Then the wedge 5 must also be shaped in a different way, e.g. given a fork shape.

The fuse according to Figures 4 and 5 protrudes into the upper cavity of the Allen screw 6 c.is V / inkelolech 7 so that it is in it anchored against rotation blteibt.An this angle plate 7 is the Spring 8 attached with its upper end so that it is in tension remains while the lower end is clamped in the sheet metal 2. Fig. 6 and 7 also show a hexagon socket screw 6, the spring 9 but here lies inside the head, the outer end of the spring 9 is not anchored in the sheet 2, but in the washer 13. This is caused by the ball rotating in relation to the sheet 2 14, or another bead, or protrusion, or roughness prevented. The ball 14 is expediently let into the steel sheet 2 rather deeply or is cut into it when it is tightened frequently not the base, just the easily exchangeable ring above, in this case the washer 13 “Because the thread if the screw 6 has a slightly different pitch than that on the outside of the screw head, the known differential effect occurs to advantage and the screw can be tightened more firmly than if it would only have one thread. This is particularly favorable in this case, because the otherwise so great disadvantage of the differential screws, namely * the poor efficiency, does not hurt here, because because of The screw becomes frictionless with the vibrations, provided that Tightening takes place during operation, which is done here by the spring happens. In the nut lock according to Fig. 8, the castle nut is 10 to the screw pin 11 by the preloaded above it Spring12 is articulated. It is therefore also, in the event of elongation of the shaft, Constantly re-dressed during shaking.

9 shows that a weight Q on the plate P only at a certain R _e ibungswinkel Alfa right abgleitet.Klopft towards one but with a hammer H violently and quickly onto the plate P is the Heibungswinkel Alfa almost equal to zero as shown in .10 shows * shocks take over? race strong enough, now the role of the hammer, so they bring about the reduction of capital of G _e overcome friction to almost zero. If on the other hand, for example, the pitch of the screw is equal to Alfa, then the force K must prevent the weight Q from sliding to the right. This force K is given by the springs 4, 8, 9? 12 generated. If, after tightening, the screw is only prevented from turning back by a known locking device, but not tightened as suggested here, the connection between sheet metal 1 and sheet metal 2 can still loosen due to vibrations and expansion of the screw shaft. The screw is then against loosening

Protected by turning to the left, but then the dimmer becomes looser, the connection between sheet 1 and sheet 2 is always leaky and therefore soon unusable. Man. used it today for similar cases always greatly oversized screws and checks their suit and in operation öfters.Gerade but that is very expensive and these expenses are th _e securing rwendung by the present pattern spared "

Claims (7)

P.Ä. 390 536 * 7/26/68 Protection claims <. 1. Thread locking for screws, or nuts, with resilient intermediate piece switched on between screw and base, characterized, that this spring (4 ·, 8, 9, 12) is shaped, attached and preloaded is that it continues to tighten the screw (3, 6) or the nut (10) automatically when they are loosened. 2. Screw locking device according to claim 1, characterized in that that the leather (4) is arranged below the head of the screw (3). 3 screw locking device according to claim 1, characterized in that that the spring (8) is arranged outside the head of the screw (6). 4. Screw locking device according to claim 1, characterized in that that the spring (9) is arranged inside the head of the screw (6). 5 · Screw locking device according to claim 1, characterized in that that the spring (12) is arranged above the castle nut (10) and with its one end in the castle nut (10) with the the other engages in a gap in the screw pin (11). 6. A locking device according to claim 1, characterized in that that the spring (9) with its one end into the screw (6), but engages with its other in a washer (13), vrobei this washer with the shaft head through a Thread, with the upper plate (2) but by a pressed-in ball (14) or a howls or roughness or protrusion connected is. 7. screw fastener as claimed in claim 1, dsLur close characterizing t _s that the bias of the cross section and the length of the springs (4, 8, 99 12) is dimensioned such that, in the case of Reibungslosigkeitjder effective ^ ederungswinkel 'more Ji§ I5 degrees is, and the screw shaft is stressed higher than up to 10% of its yield point.