PL25366B1 - Coil holder for winding. - Google Patents

Description

The present invention relates to a holder for winding coils held by ring springs exerting pressure on their inner surfaces. According to the invention, several ring springs are axially aligned; each spring has an axially sliding bearing which pushes outwards the corresponding annular spring when the coil is adjacent to the stop provided for it. This is to ensure that the coils are held reliably even if their inner diameter is unequal. By using a coil support, an even distribution of the windings is achieved on all the coils wound on the same coil. The drawing shows an example of the subject of the invention * Fig. 1 shows a longitudinal section of the triple in the active state of the coil, Fig. 2 - the same longitudinal section, with the parts of the holder shown in a position ready for the installation or removal of the coils, FIG. 3 shows a cross section along the line V-V to Kg. 1, The support and drive spindle 25 is, for example, a coil spindle 26. On this socket there is a support organ 26 with a counter surface 27, against which the coil 28 adheres. Bearing 29, axially displaceable and partially penetrating the resistance organ 26, has a tapered surface 30, on which a ring spring 31 rests against the back surface 32 on the fifth percent of the thrust row ** 26. Second bearing 33, axially sliding and which is part of the recess of the bearing 29, is shaped similar to the bearing 29, since it has a tapered surface 34 on which a ring spring 35 rests against the rear surface 36 of the bearing 29. In a similar manner, the third axially displaceable bearing is 37 partially enters the recess of bearing 33 and has a tapered surface 38 for receiving a ring spring 39 adjacent to the rear surface 40 of bearing 33. Coil spring 41 for axial displacement ozyska 33, is based on one end in the expression of bearing 37; the other end of this spring rests on the head of the bolt 42 screwed into the free end of the spindle 25. The bearing 37 is shifted against the pressure of the spring 41 by two bars 43, guided through the holes 33 and 29 and a stop member 26 and fixed on an axially sliding ring. 44. This ring is assisted by a fork-shaped indexing device 45 rotating about an axis 46. This tool can be turned by means of the rod 47 against the tension of the spring 48 by an actuating mechanism, not shown in the figure. The working position of the holder (Fig. 1) ring spring 39 is displaced to the left on a taper! the surface 38 of the bearing 37 so far that, by the action of the spring 41 on the bearing 37, it is stretched and pressed against the inner surface of the coil 28. The spring 41 exerts a simultaneous pressure on the rear surface 40 of the bearing 33, keeping the ring spring 35 under tension. area 34; spring 35, like spring 39, exerts pressure on the inner surface of the coil 28 and on the rear surface 36 of the bearing 29. Due to the pressure on the bearing 29, the ring spring 31 that belongs to it is held in the same way in tension on the conical; surface 30, and thus pressed against the inner surface of the coil 28 while simultaneously adhering to the rear surface 27 of the support organ 26. In this holder, all the ring springs are thus evenly tensioned so that even with uneven inner diameter of the coils, in order to mount the coil on the holder or to remove it from the holder by means of the adjusting device 45, the ring 44 is moved from the position according to Fig. 1 to the position according to Fig. 2. The bearing 37} is then moved against the shafts 43 against action of the spring 41, so that the ring spring 39 on the tapered surface 38 may release. At the same time, the bearings 33 and 29 follow the sliding motion of the bearing 37 so that the rings 35 and 33 may also release on the tapered surfaces . The ring springs released in this way no longer adhere to the inner surface of the coil 28, placed on the holder and adjacent to the support 27. The transfer of movement from the ring 44 to the bearing 37 can also be effected by means of differently shaped conveyor organs instead of the rings. May. These organs may, for example, have a scabbard, which is seated on a spindle 25 and rests against a bearing 37; the vagina can be moved by bearings 29 and 33, but it can be connected to the ring 44 - 2 - rods passing pfz £ fc porous organ 26. PL

Claims (2)

Patent claims. 1. The holder of a winding coil is held by ring springs exerting pressure on its internal surfaces, characterized in that it is provided with ring springs (31, 35, 39) which include an axially sliding bearing (29, 33, 37), pushing the corresponding ring spring outward while the coil is adjacent to the stop (27) provided for it, in order to ensure a secure hold of the coil even with its outer diameter unequal, the ring springs interacting with the surface the conical shape of each bearing is adjacent to the rear face of the adjacent bearing, and the outer bearing (37) is influenced by a coil spring (41) so that the axial displacement of the outer bearing (37) by these springs is transmitted by means of the springs leftover bearings to uniformly compress all the ring springs against the inner surface of the coil. 2. Holder according to claim According to claim 1, characterized in that an axially displaceable ring (44) interacting with a fork-type adjusting device (45) has a transfer device (e.g. rods 43) by means of which the outer bearing (37) is moved against the tension of the springs acting on them for the purpose of releasing the annular springs when the coils are attached and removed. Scharer - Nussbaumer & Go. Deputy: Inz. M. Brokman, patent attorney. For patent description No. 25366. 47 ^ 37 39 I .33 * f / G. 2 Print l. Boguslawskiego i Ski, Warsaw. PL