DE429371C - Ten ratchet tooth for setting disks on calculating machines - Google Patents

Description

Ten ratchet tooth for setting disks on calculating machines. Both known ten ratchet teeth for setting disks on calculating machines are mostly Flexural springs (torsion springs) wound around the axis are used to keep the tooth in to keep its location. The springs lie with one leg against the gear tooth, with the other against the bearing body. It is due to the nature of these feathers that with their tension one has to rely on the feeling that the two thighs are there neither on the unmounted nor the built-in springs always at the same angle to stand by each other; the difficulty of making time-consuming angle measurements on such small springs is too big for the workshop. Often enough the built-in spring is at all inaccessible. If an error is found, there is no possibility to eliminate him.

For this reason, coil springs have been proposed several times to be used because with these, when testing the voltage, the unloaded and the built-in Length can be measured.

However, the proposed forms of application have not proven successful, what zii can be seen in the fact that coiled torsion springs are still used will.

This failure is to be found in the fact that the axis of the coil springs either parallel to the axis of the adjusting disk or that the spring was in a radial position between Zehnerschnepper and axis of the adjusting disk was brought. In both cases the springs were practically impermissibly short, if not the one for each focusing screen was left responsible, but this again has disadvantages of a different kind.

These disadvantages are avoided by the present invention, which is shown in one embodiment as an example in the drawing.

Fig. Z shows the view of part of the end face of the adjusting disk with the ten ratchet tooth.

Fig.2 is a cross-section through this part of the shim. In the adjusting disk t is in a slot 2 on your pin 3 rotatably mounted Intermediate ratchet 4 out. 5 is one on the face of the dial attached Feclerstütze to accommodate the spring 6. This spring lies down with its the other end against a protruding from the adjusting disk nose 7 of the shift tooth 4 ..

The spring lies in the space between two adjustment disks, namely in the radial direction. The spring support 5 is arranged as far to the outside as possible, while with the fulcrum 3 of the switching tooth close to the axis of the adjusting disks can be approached.

For the ten-shift tooth mounted in this way, it is not only its inclination that is important reduced when panning, which is very desirable, but it is also possible To use a long spring 6 that is long enough for the whole Schnepperschwenken exerts an almost equally strong pressure.

Claims (1)

PATENT CLAIM Zeliner indexing tooth for setting disks on calculating machines, which is mounted pivotably about a pin in a radial slot of the adjusting disk and is under pressure from a radial helical spring, characterized in that that the ten switching tooth (4) at its inner end with one of the end wall the adjusting washer protruding nose (7) is provided and on the outer edge of the Front wall a support (5) is attached, which acts as an abutment on the other hand on the nose supporting spring (6) is used, so that nose (7), spring (6) and support (5) lie in the space between each two adjusting washers, making the spring light accessible and use to achieve the most even pressure possible a long spring is possible.