FR2623323A1 - DEVICE FOR DEMAGNETIZING PARTS - Google Patents

Abstract

Device for the demagnetization of parts. The device comprises a demagnetization space 9, surrounded by coils 5 to 8 creating a rotating field, in which a transport device 4, 17 passes the parts to be treated. A hand wheel 14 and push rods make it possible to adjust the mutual spacing of slides 3, concentrically with the median axis 15 passing through the center of space 9. The slides are formed by several tubes 10 to 13 in special steel, parallel and with adjustable spacing. Application: demagnetization of annular parts.

Description

The invention relates to a device for the demagnetization of parts,

  particular of annular shaped parts, comprising demagnetization coils / arranged around a demagnetization space / which are fed by a degaussing generator intended for

produce a rotating field.

  For the demagnetization of parts, for example ball bearings, toothed rings, piston rings, coil springs and machined parts, demagnetization coils are arranged in a frame surrounding a degaussing space. which produce an alternating field in the degaussing space, in which the

  demagnetized. According to the German patent application DE-A-

  No. 3,625,621, the demagnetizing coils can be supplied with phase-shift alternating voltages for generating a rotating field. The degaussing space may be circular or square surrounded by a large number of demagnetization coils. The rotational frequency of the rotating field can be determined by means of a generator which can be

  controlled thanks to an adjustable sweeping frequency.

  Parts destined to pass into the demagnetization space must be arranged in relation to the center of the degaussing space; as concentrically as possible in the direction of travel, to be uniformly demagnetized. Since the parts to be demagnetized may have different dimensions or diameters, it is necessary, in the current degaussing devices, to provide in each case a suitable arrangement of the parts / to be used.

in place requires time.

  A problem underlying the invention is to create a device for the demagnetization of parts, in which parts of different sizes or diameters can be transported simply concentrically in the center of the degaussing space. The solution of this problem is obtained in a device of the kind mentioned at the beginning, in particular because, in the demagnetization space, slides are arranged which extend parallel, concentrically in the center of the degaussing space, and can be adjusted relative to the center, being moved in the same direction by means of a common adjusting device. Between the slides, it is possible to introduce by pushing pieces having in particular an annular or rod-shaped shape, the radial distance separating the slideways from the center of the frame being adjusted in correspondence with the radius of the annular-shaped pieces or in the form of rods. chopsticks. Thus, ball bearings, ring gears, piston rings, coil springs and similar parts, already packaged, can be passed and moved concentrically in the degaussing space. On this occasion, the parts can be arranged in a row one behind the other and thus be moved with the aid of an advance device, which can be in the form of a chain conveyor or a jack . The advance elements that enter the demagnetization space and the slides are in this case a non-magnetic material, for example special steel / not to disturb the field

demagnetization.

  The slides * are preferably made of special steel tubes, which bear from the outside on the parts between these tubes. By means of a hand wheel or a motor-driven adjuster, the slides can be set together by moving closer and away from the center of the demagnetizing space. In this case, the handwheel or a corresponding adjusting member acts, by means of shafts and gears arranged outside the demagnetizing space, on push rods directed towards

  the median axis and on which are fixed the slides.

  The push rods are preferably actuated by means of threaded rods, which can be rotated by means of conical gears and drive shafts, connected to the bevel gears. Instead of a mechanical coupling operating via gear wheels, one could also use linear motors coupled mechanically and / or electrically so that one obtains the essential possibility to adjust the slides concentrically in the same

meaning.

  To demagnetize parts that are not annular, but have an asymmetrical external shape, it is also possible to provide, for the slides, a possibility of adjustment that is adapted to the case of shaped parts

asymmetric.

  It is particularly advantageous to fit the slides) on the input side of the device so that the lower slides protrude from the upper slides, which allows to put, from the top and without difficulty, parts to demagnetize in place

on the lower slides.

  The invention is explained in more detail in the following with reference to the accompanying drawings, in which: FIG. 1 is a perspective view of a device according to the invention for demagnetizing parts, and FIG. exemplary embodiment of the device provided for the concentric adjustment of the slides. The device shown in Figure 1 comprises a frame 1, a demagnetizing frame 2, slides 3 and a device 4 for transport. As part of

  demagnetization are arranged coils 5 & 8 of electro-

  magnets) which are powered by a rotating field generator (not shown here) to produce a rotating field. The coils 5 to 8 of electromagnets surround a demagnetization space 9 / in which pass four tubes 10 to 13 of special steel, parallel and constituting the slides 3. These tubes 10 to 13 special steel can be adjusted by being moved in the same direction, concentrically to the central axis 15, via a device 16 adjustment. The transport device 4 comprises a non-magnetic drive member 17, which can be moved in the demagnetization space 9 by a chain drive 18 in the direction of movement b. The transport device 4 may be equipped, for its drive, with an adjustable DC motor, or a similar motor. The tubes 10 to 13 made of special steel are shaped in the inlet zone 19, such that the tubes 12, 13 made of special steel protrude from the upper tubes 10, 11 made of special steel jet thus serve as support. The annular or similar shaped pieces placed on the tubes 12, 13 of special steel, can thus be introduced by pushing, conveniently, between all the tubes 10 to 13 of special steel. During uniform transport, the drive member 17 pushes the parts to demagnetize to make them pass through the demagnetization space 9 / and the rotating field / which exists in this space, thus causes demagnetization parts. Depending on the diameter of the parts, it is possible by means of a handwheel 14, through the adjustment device 16, to adapt the distances between the tubes 10 to 13 of special steel to the dimensions of the

parts considered.

  With the aid of FIG. 2, a possible embodiment of the adjustment device 16 is shown in principle. Handwheel 14 acts, via first and second toothed wheels 20, 21 conical, on toothed wheels 22, 23 larger in the form of conical toothed crowns or conical toothed wheels. To this end, the toothed wheels 20, 21 are fixedly connected to each other and to the handwheel 14 via

of a first driving shaft 24.

  Gears 31 or 32 in the form of conical rings or bevel gears are driven by means of two other drive shafts 25, 26 on which conical gears 27, 28 are mounted.

as well as 29, 30.

  A threaded rod 33, comprising a conical toothed wheel 34 fixed to it, is engaged on the conical gear wheel 22. By its threading 35, the threaded rod 33 meshes in an internal thread / or tapping, a rod 36 of

  thrust to which is fixed the tube 10 of special steel.

  Thus, if the hand wheel 14 is turned, the conical gear 22 rotates and thereby also the bevel gear 34, so that the threaded rod 33 moves the push rod 36 together with the tube 10 made of special steel in the direction of the arrow c to bring the tube closer to or away from the central or middle point M through which the central axis 15 passes. A movement in the same direction of the other tubes 11 to 13 made of special steel occurs by the intermediate gear wheels, threaded rods

  and corresponding push rods.

  The push rods 36 to 39 are protected against rotation and guided in linear slides. Such linear guidance 40 is indicated for example for the

push rod 37.

  The adjustment device shown in FIG. 2 represents a possible embodiment. However, it is possible here to envisage arrangements comprising more or less four guide tubes. In addition, the adjustment mechanism can also be constituted in another way than

the one shown here.

Claims (8)

  1. Device for demagnetizing parts, in particular annular parts, comprising demagnetization coils placed around a demagnetization space / which are fed by a degaussing generator for the production of a rotating field, characterized in that, in the demagnetization space (9), in the conveying direction, parallel slides (3) are moved which can be centrally adjusted by being moved in the same direction, symmetrically with respect to the central axis. (15) passing through the central point (M) of the demagnetization space (9). 2. Device according to claim 1, characterized in that the slides (3) are constituted by four tubes (10 to 13) of special steel, which are supported by   outside on the pieces that are between them.   3. Device according to one of claims 1 or 2,   characterized in that the slides (3) can be centrally adjusted together by means of a handwheel (14) or a similar adjusting member or   well by means of linear motors.   4. Device according to claim 3, characterized in that the actuating member actuates, via driving shafts (24 to 26) and gears located outside the space (9) degaussing push rods (36 to 39), which act each time on the   slides (3) in the direction of the median axis.   5. Device according to any one of   preceding claims, characterized in that the   driven shafts (24 to 25) actuated by the adjusting member, act by means of tapered gears (20, 22, 34) on threaded rods (33) / on the threads (35) of which the thrust rods (36 to 39) connected to the slides (3).   6. Device according to any one of   preceding claims, characterized in that   lower slides (12, 13) on which the parts rest demagnetize protrude from the side of the inlet (19) of the device, relative to the upper slides (10, 11). 7. Device according to any one of   preceding claims, characterized in that   transport device (4) serves as an advancement parts & demagnetize.   8. Device according to claim 7, characterized in that the transport device (4) comprises a transport chain, driven in a constant manner and comprising   a non-magnetizable drive member (17).