DE719580C - Shaft for clocks, clockworks, instruments, etc. like - Google Patents

Description

Shaft for clocks, clockworks, instruments and the like a shaft suitable for use in clocks, clockworks and similar measuring instruments serves, for example, is intended as a wave for the unrest of a pocket watch. Just this shaft is easily damaged by impacts hitting the watch, so that one has already made the suggestion that the two bearings of the shaft should be resiliently resilient in clocks close. But that is relatively expensive, especially since two such flexible bearings are required, and the installation of such bearings in existing clocks comes across to significant difficulties.

It is already known per se to make a measuring instrument shaft thereby to make more shockproof that the actual shaft is divided in two and between these parts a coil spring is switched to the axis by the spring tension to make elastic. Since in this known shaft the pin by piston in a Bush are guided, they can only make an axial and no pivoting movement. However, this is precisely why the sideways pivoting is important for shock resistance the shaft of measuring instruments because most of the shocks are oblique or radial Direction.

In the present invention, the disc-shaped lugs are on the pin is thereby designed to be pivotable within the cylinder in any direction, that the approaches are undercut or conical, so that the pin can also be inclined to the axis.

Such a resilient shaft can also be used for other parts of the clock, ie find use, for example, as an armature shaft. It is also useful for any clockwork Type or also for electrical or other measuring instruments, the bumps are exposed and a fine wave, such as a pointer wave, is the most sensitive Part is.

An embodiment of a shaft according to the invention is shown in FIG accompanying drawing in section and on an enlarged scale.

The two shaft journals a and b are each connected in a known manner to a disk e or d moving in a cylinder e like a piston. Between the two disks c and d lies the helical spring i made of fine steel or the like, which is also present in the known shafts. The cylindrical bushing e extends into a disk g provided with a raised rim, into which a counter-plate h is inserted at i . A plate k is also inserted between the counter-plate and the end wall of the sleeve e. On the disk g, the movable measuring element, for. B. the pointer or the balance L, put on.

The spring f, which is inserted between the pins a and b , absorbs impacts that strike the shaft, and indeed the entire spring force of the spring counteracts impacts that hit the shaft in the axial direction, whereas radial impacts only result in part of the spring force lateral bending of the helical spring is claimed because the pin washers c and d are undercut according to the invention and the shaft end carrying the pin b has some leeway within the bushing of the counterplate so that the shaft end can be inclined relative to the bushing is. The sealing of the sleeve e is effected at this point by the S plate k.

Such a shaft is easier and cheaper to manufacture than two resilient bearings for the shaft. There is also the advantage of having such a wave can also be retrofitted in existing clocks, instruments, etc.

An advantage can also be seen in this, for example from the Pin a running C) 1 passes through the opening in the sleeve e in this and is harmless here. as (-a soiling of sensitive parts is not possible is.

Claims (1)

PATENT CLAIM: Shaft for clocks, clockworks, instruments, etc., their Pin ends are provided with washers guided in a cylinder, between which there is a coil spring, characterized. that the disks are support against abutment on the cylinder and a lateral one inside the cylinder Allow pivoting of the pin relative to the axis by undercutting the discs or are conical.