DE2460878B2 - Method of locking axes against radial and axial displacement - Google Patents

Description

30th

The invention relates to a method for fixing axes held in bores in a blank against radial and axial displacement, especially for locking counter axes in side plates a pulse counter.

With such pulse counters, which are used in particular as a charge meter in telephone operation find, two axes are held between the side plates of a housing, one of which is the Number roller and the other between these number rollers engaging transmission pinion carries. Numeral rolls and Transmission pinions sit freely rotatable on their axes. With such pulse counters it has been shown that that axles stuck in the side plates have been shown to increase the service life of the pulse counter bring yourself. For this reason, efforts are made to keep the axes in the side plates against radial and axial Secure shifts.

In known pulse counters, you therefore already have the holes for receiving the axle ends in the Side plates are manufactured with very low tolerances compared to the axle diameter and are therefore tight Axis fits achieved into which the axes had to be pressed. Axial displacements of the Axes could be largely prevented by means of locking plates. Such tight axis fits but require increased manufacturing costs and in many cases the axial fits had to be achieved by rubbing slightly enlarged so that the axle ends could be inserted. This required additional Additional effort during assembly.

A method is already known from US Pat. No. 3,571,903 by means of its short stub axles are connectable with plates. This is done by pressing the very special end formations Axle stub against a plate resting on a base having a recess at the same time an opening punched out of this plate and through the between the stub axle surfaces and the The resulting pressure of the plate material is brought into an annular groove at the end of the pad Stub axles to flow. In this way, a receiving opening for the End formation of the stub axle created in the plate and the plate firmly with this end formation of the Stub axle connected. However, this known method still has considerable disadvantages and is especially for certain applications, such as the setting of the number roles and the Transmission pinion bearing axes of counters not at all suitable.

A disadvantage of this known method is that it only works with certain material hardness conditions of axle stubs! to plate is applicable because the stub axle to be attached has a larger or must have at least the same hardness as the plate material. In addition, this can only be relative short, strong stub axles and not longer, thinner axles, for example, because the Axle stub ends are loaded quite considerably during the process and longer, thin axles would bend or kink. In addition, the final design of the stub axle must be extremely precise because these end configurations inevitably have several cross-sectional areas that are precisely dimensioned to one another must own. The main disadvantage of this known fastening method, however, is in it too see that a pressing tool and at least one solid base are provided for the attachment must, on which the plate rests, which is to be connected to the stub axles. This is for example if an axis between two structurally already fixed, parallel to each other Boards should be stored as it is for the storage of the number roller axis and the transmission pinion axis is common with counters, not possible because on the one hand these boards are not fixed for this purpose Base can be placed and on the other hand the opposite end of the axes is not free lies to put a pressure on it. In addition, the axes also bend or kink would.

Another disadvantage of the known method is that it is also not possible to use one to remove stub axles connected to a plate again from this and then to the same To reattach. This is due to the fact that when the stub axle is torn out of the receiving opening at the same time the sheet material that had flowed into the groove at the end of the stub axle was torn out is, so that then when reinserting the stub axle in the same opening no plate material can flow back into the groove at the end of the stub axle. This is another reason why the known methods, for example, not for fastening the ends of the transmission pinion and number roller axles is suitable in the side plates of a counter. With such counters the Once inserted, the axis can be removed again, for example to put other spacers on the To be able to slide on axes, through which an exact alignment of the digit rollers and the transmission pinion is effected.

The invention is based on the object

To create a method for fixing axes in boards, which the disadvantages mentioned from the mentioned US patent known method does not have and in a simple manner with A tight fit of the axles in the side plates results in a very low production and assembly effort and in particular to fix counter axes in the side plates of a counter suitable is.

This object is achieved according to the present invention in that in the platinum «; one to the Bore for receiving an axle end immediately adjacent, separated from this only by a web Recess is attached that the axle end to be inserted into the bore is provided with an annular groove and that after inserting the axle end into the hole, the web from the recess in the area the annular groove is deformed in such a way that the deformation material fits into the annular groove.

In this way, through the material penetrating at one point of the annular groove, which is against presses the side flanks of the annular groove, the axle sufficiently secured against radial and axial displacement. In addition, there is the advantage that the axis without destroying the device by short powerful Shift in the axial direction, first in the direction of the outside of the board, and then in reverse direction, released and then fixed again in the hole in the board.

In an advantageous embodiment of the invention, the annular groove is arranged on theachsecle so that in the When the end of the bore is pushed in, the ring groove is approximately half the depth of the bore. the punctiform deformation takes place at the narrowest point of the web.

The resulting deformation of the material from the middle of the material thickness in the direction of the axis groove is there a particularly good safeguard against both axial directions and an additional anti-rotation lock through underneath Stressed deformed material.

In a further embodiment of the invention, a deformation tool is inserted into the recess, which, when the web is deformed, is supported on the side of the recess opposite the web. As a result, the required deformation force is built up within the board, which means the greatest possible Protection of the completely assembled device, especially the pulse counter and any Risk of deformation for the device is excluded.

In the drawing, an embodiment of the subject matter of the invention is shown. It shows

F i g. 1 shows a section from a circuit board required for understanding the invention, in particular a side plate of a pulse counter, in side view,

F i g. 2 Longitudinal section through the side plate according to line 2-2 in FIG. 1 with the Axle end,

F i g. 3 shows the same section as in FIG. 2 with fixed axis,

F i g. 4 a schematic representation of the application of the deformation forces in side view and

F i g. 5 shows a schematic representation of the application of the deformation forces in a section through FIG Board according to line 5-5 in F i g. 4th

In the figures, 1 denotes a circuit board which a bore 2 for receiving one end of an axle 3 carries. In the case of pulse counters, two such boards are closed

ίο composed of a U-shaped housing, whereby the axis 3 is held in each case in such a bore 2 on both sides. Immediately adjacent to the hole 2 a recess 4 is attached, which is designed as a bore in the present example, but just as well of any shape, for example square or triangular, can be. Between hole 2 and Only a narrow web 5 remains in the recess 4.

The axle 3 is provided at its axle ends with an annular groove 6 which is arranged so that it is at in the hole comes to lie fully inserted axle end approximately in half the depth of the hole The fixing of the axis 3 in the hole 2 of the side plate 1 is carried out as follows:

The axis 3 prepared as described above is completely in the bore 2 of the with its axis end 3a Board 1 inserted and held in this position. Then a deforming tool is inserted into the recess 4 of the circuit board 1 introduced. The deformation mandrel of the deformation tool is at its narrowest

jo place of the web, i.e. where the recess is 4 and closest to the hole 2, namely in the middle of the depth of the recess, that is, halfway Side plate thickness. This deformation force is shown in FIG. 4 and 5 indicated schematically with an arrow, which is denoted by 7. During the deformation, the deformation tool is supported on the one opposite the web Side of the recess, so that the recess itself the necessary for deformation Absorbs opposing forces. These opposing forces are shown in FIG. 4 shown schematically and denoted by 8.

When the deformation tool spreads apart, the deformation mandrel penetrates from the recess into the web 5 and presses - as indicated by dashed lines in FIG. 5 - deformation material 9 into the bore 2 of the side plate. This deformation material penetrates into the annular groove 6 (FIG. 3) and braces the axle both against rotational movement and against movement in the axial direction.
The axis 3 can be dismantled in a simple manner

so solved by short blows in the axial direction. A short movement of the axis in one axis direction as well as in the opposite direction should be advantageous Direction. As a result, the deformation material 9 of the web is somewhat compressed and the axis can be pulled out of the hole 2. The dismantled axle can be put back in without difficulty the bore 2 is introduced and fixed there in the manner described above.

For this purpose 2 sheets of drawings

Claims (3)

1 claims: 1. Method for fixing axes held in bores in a board against radial and axial displacement, especially for setting counter axes in the side plates of a pulse counter, characterized in that in the plate (1) one on the bore (2) for receiving of an axis end (3a ^ immediately adjacent, from this only by a web (5) separated recess (4) is attached that the in the bore to be inserted axle end is provided with an annular groove (6) and that after inserting the Axial end into the bore of the web from the recess in the area of the annular groove in this way is deformed that the deformation material (9) presses into the annular groove. 2. The method according to claim 1, characterized in that when the axle end (3a) is pushed into the bore (2), the annular groove (6) is approximately half the depth of the bore and the deformation takes place at the narrowest point of the web (5) 3. The method according to claim 1 or 2, characterized in that a deformation tool in the recess (4) is introduced and the tool moves against the deformation of the web (5) the web opposite side of the recess is supported.