DE2225385B2 - Support for wire winding spool - coil has hubs of greater width than core to accept cover neck piece and bearing rings - Google Patents

Abstract

A wire winding spool has bearing journals which can be inserted on both sides into the coil core, with tow concentric, conical and axially slit bearing rings, the inner of which is crossed on the journals by axial relative movement while the outer ring is expanded. The coil in the region of its ends accepting the journals (e) has a hub (h) of greater width than the coil core (d), into which the neck piece of a cover (i), which can be connected with the hub (h) and the two bearing rings (f, g) engage. One ring shoulder (1) of the journal (e) lies on the outer bearing ring (g) axially from outside. The outer bearing ring (g) engages in a recess of the neck piece with axially play.

Description

The invention relates to a device for mounting a coil for cables, wires or the like on both sides in The coil core insertable bearing pins with two concentrically arranged and opposing each other conical as well as axially slotted bearing rings, of which the inner one increases due to relative axial displacement the journal is pressed and the outer one is expanded.

When using such coils, ever higher speeds are used. This requires that the coils run smoothly and have the least possible imbalance. For the permissible runout (Eccentricity) the VDI guideline usually applies 2060. Then, depending on the required coil speed, the permissible concentricity deviation of the coil core be less than 0.1 mm. This low tolerance has so far not been achieved in practice if the coil core, as usual, stored on pivot pins that can be inserted into it on both sides. In this case it is between the outside diameter of the bearing journal and the inner diameter of the core have a tolerance of about? 0.25 mm necessary, because otherwise the rapid introduction of mechanically, hydraulically or electrically moved bearing journals will not be possible is easily possible. In addition, in practice neither the bearing pin outside nor the The inside of the coil core is always completely free of contamination, e.g. B. of dust is. This is also so far the Tolerance of about 0.25 mm has been deemed necessary.

Another problem with the cylindrical bearing is that because of the tolerance, the circumferential surfaces of Bearing pin (outside) and of the coil core (inside) (, 5 are different. This means that with a tolerance of 0.25 mm and with a journal diameter from 127.00 mm after about 500 revolutions of the bearing pin one revolution more made than the coil core. This leads to an expansion of the tolerance, consequently to an increase in the Imbalance.

It is already known that the backlash-free storage with the help of two concentric, oppositely conical and to make bearing rings slotted in the longitudinal direction, of which the axial relative displacement of the the outer widened and pressed against the coil core, the inner pressed together and against the axle will. The use of this device assumes that to remove the spool from the shaft first the two bearing rings with their retaining screw must be removed from this shaft. Otherwise the coil cannot be loosened. This requirement is not always met, i.e. H. the previously known arrangement cannot be used everywhere.

The aim of the invention is. to store a coil in such a way that the coil is inserted and inserted as easily and quickly as possible centered, and can just as easily be removed again without removing any parts to have to.

This object is achieved by the invention in that it provides a device of the type described above configured that the coil in the region of its ends receiving the bearing journals each have a hub has a larger inner width than the coil core, in which the neck piece can be connected to the hub Cover and the two bearing rings engage, with an annular shoulder of the bearing journal the outer Bearing ring rests axially from the outside and the outer bearing ring with axial play in a recess of the The neck piece engages.

This structurally simple attachment of the two bearing rings makes the handling of the Device extremely simple. When inserting the bearing journal, an axial pressure is exerted on the outer one Slotted bearing ring exercised, it is moved axially inwards somewhat, whereby it is the inner The slotted bearing ring compresses with the effect that it sits on the bearing journal without play. At the same time, the outer bearing ring is widened a little and pressed against a cover plate, which can be connected to a hub of the coil core, e.g. B. screwable is.

■ For fastening and quick centering of the coil so only the bearing pin needs to be pushed inwards. No further intervention is necessary, in particular no parts need to be loosened or attached.

In a further embodiment of the invention, the outer bearing ring has a radially directed outer ring which engages in an annular groove of the neck piece of the lid. This ensures that the bearing rings axially displaceable, but non-detachably attached to the coil core. The width of the ring groove in axial direction determines the degree of axial displaceability of the bearing rings. Through and through the slope of the conical surfaces can also be used to determine the radial tolerance that the device bridges can.

According to a development of the invention, the outer bearing ring is under in the direction of the release movement the action of axial compression members, e.g. B. coil springs. Therefore, the fastening of the coil loosens on the Bearing pin when pulling away the bearing pin by itself. It is also not when the bobbin is removed further intervention or loosening of parts required.

The invention is described in the following description of a preferred embodiment with reference to FIG Drawing explained in more detail. It shows

1 shows a partial section through a machine spool for the wire processing industry.

F i g. 2 is a partial view in the direction of arrow A.

In the illustrated embodiment, the coil has the two coil disks a and b and dtn bobbin c. The bobbin d sits on the journal of each machine.

The bearing is carried out by means of an inner slotted bearing ring f. Which tapers conically on the outside outwards, and by means of an outer slotted bearing ring g, which tapers conically inwards on the inside.

The coil core d merges into a hub h of greater clearance. A cover / is connected to this. z. B. by means of screws k. The bearing journal e has a radially protruding disk /, by means of which an axial pressure is exerted in the direction of arrow A against the outer bearing ring g when the bobbin is inserted into the machine. Characterized the bearing ring is displaced somewhat inwardly, whereby he / she compresses the inner bearing ring, the sick as a result, and without play to sit on the bearing journal e occurs during compression of the inner bearing ring / is at its axial inward displacement of the outer bearing ring g somewhat expanded, while against the inner surface of the lid / pressed, which in turn, as already mentioned, is connected to the hub h of the coil core, e.g. B. screwed is.

During release when the bearing journal e are slightly moved axially outwardly, the outer bearing ring moves g under the action in it inserted coil springs also m slightly outwards, with the result _(that f into its starting position and the inner bearing ring to go back, that is, expand, can.

As the drawing shows, the axial movement play of the outer bearing ring is g-small, because it engages with its outer ring η in an annular groove odes cover Q. is so only shiftable back and forth according to the time of this ring groove.

1 sheet of drawings

Claims (3)

Patent claims: 1. A device for supporting a coil of cables, wires od. Like. Zui both sides in the spool core can be inserted bearing pin with two concentrically arranged and oppositely conical and axially slotted Ldgerringen. of which the inner one is pressed onto the bearing journal by relative axial displacement and the outer m is widened, characterized in that the coil in the area of its ends receiving the bearing journal (e) each has a hub (h) with a greater clear width than the coil core ( d) , in which the neck piece of a cover (i) which can be connected to the hub (h) _{) 5} and the two bearing rings (f. g) intervene, with an annular shoulder (I) of the bearing journal (e) bearing against the outer bearing ring (g) axially from the outside and the outer bearing ring (g) engaging with axial play in a recess in the neck piece. 2. Apparatus according to claim 1, characterized in that the outer bearing ring (g) has a radially directed outer ring (n) which engages in an annular groove (o) of the neck piece of the cover ^. 3. Apparatus according to claim 1 or 2, characterized in that the outer bearing ring (g) in the direction of the release movement, under the action of axial pressure members, for. B. coil springs (m) is available.