DE8016657U1 - DE-MAGNETIZING DEVICE - Google Patents

Description

KÜÖFiLLÄGßRFABRiKßM ÖMBH Schweinfurt, 23.6.1980

ΪΤ 79 007 DE TPÄ / gl.hb

Degaussing equipment h tunc

The present innovation concerns a demagnetization device / in particular a demagnetization device with capacitance discharge.

Degaussing devices with capacitance discharge have a capacitor, which can be discharged onto an inductor, in order to achieve a damping-free oscillation of the current flowing in this inductor. The workpiece to be demagnetized is like this arranged so that the magnetic field generated by the coil can act on it and demagnetize it in the process *

Although such degaussing devices are from the design have particular advantages / they only have one coil, for example, because they have a structure forth some drawbacks.

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especially if there is a workpiece that is demagnetisielit who « the should, composed of a multitude of individual parts that influence each other * such as B, an assembled roller bearing / it is important that the direction of the demagnetizing field is so directed, that the mutual influence is the least. Especially in the case of demagnetization of rolling bearings the direction of the demagnetizing field must be coaxial with the direction of the magnetic field present in the bearing in order to to prevent the outer ring of the bearing from affecting the inner ring or the balls.

In the known degaussing devices, the I. Inductor generally designed as a coil inductor and, in order to meet the special requirements with regard to the direction of the To meet magnetic field, it is necessary to introduce the bearing into the inductor that its axis with coincides with the axis of the inductor. It is therefore not- | agile to provide a suitable transport device, to completely demagnetize each bearing.

In cases where the dimensions of the workpieces to be demagnetized are within a wide range, | it is necessary to have one for each group of workpieces to be demagnetized with approximately the same dimensions Provide a suitable inductor into which the workpieces can run and its dimensions match those of the one to be demagnetized Parts match. It is because of these facts that the known degaussing devices very expensive.

The object of the present innovation is to provide a degaussing device to create with capacity discharge,

the ones mentioned above! Structural disadvantages of the known designs no longer shows, äiäö external simply Ufid is cheap «

This object is achieved according to the present innovation by a device, the two inductors, which are coaxial are arranged to each other, and has a guide device which the parts to be demagnetized introduces in an aligned position between the two inductors,

Appropriate further developments of the innovation are described in the subclaims.

For a better understanding of the present innovation, a preferred exemplary embodiment will be given below will be described in more detail in the accompanying drawing.

In the accompanying drawings, FIG. 1 generally shows a portion of a capacitance discharge degaussing device of which essentially only a pair of the as Coil inductors formed inductors 2 and 3 are shown. The inductors 2 and 3 are along the same axis arranged inside the support body 4 and 5, which are provided with (not shown) means having an axial Move against each other to adjust the distance. In electrical terms, the inductors have 2 and 3 opposite end portions, which are connected to each other by a lead wire 7, the one Loop forms, are connected, and further Endäbschnitte, which in a manner not shown over (not shown) switching elements are connected to a capacitor *

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In the Bwiähenraum between the inductors 2 and 3 is .dine Guide device 9 arranged / which is inclined with respect to the horizontal plane and on which one to be demagnetized Workpiece can be moved. In the present example, the workpiece to be demagnetized is a roller bearing 10, which consists essentially of an inner ring 11 and an outer ring 12 and the balls arranged in between 13 exists. The roller bearing 10 can roll along the guide device 9, which consists of a substantially in cross section C-shaped element is formed from a non-magnetizable material, so that the roller bearing 10 is accurate to be led.

A proximity sensor 15 is located in the space between the inductors 2 and 3 and below the guide device 9 arranged, which emits an electrical signal via the associated connecting cables 16 and 17 when a roller bearing 10 runs on the guide device 9 into the space between the two inductors 2 and 3. Below the two Inductors 2 and 3 is a holding device 19, e.g. B. arranged a pneumatic piston, which after receiving a Control signal pushes a pin 20 into the run-off path of the roller bearing 10 within the guide device 9 and holds the roller bearing temporarily between the inductor pair 2 and 3.

Each roller bearing 10 is attached to the upper inlet of the guide device 9 with the help of a vertical conveyor belt Ä2, which has a plurality of support levels 23, which are attached pivotably about a support pin 24 and supported on the conveyor belt 22 via springs 25.

The mode of operation of the degaussing device I is as follows:

Each roller bearing 10 is provided with a predetermined one recurring frequency, depending on the speed of the conveyor belt 22 and the distance between two Adjacent support levels 23 promoted to the inlet of the guide device 9, rolls along the guide device 9 and enters the space between inductors 2 and 3, with proximity sensor 15 in action puts. This proximity sensor 15 acts via a circuit not shown on the switching elements mentioned above, connecting inductors 2 and 3 to the capacitor that has already been charged. To this Wise, the magnetic field generated by these switching elements alternately takes on positive and negative values, whose amplitude is attenuated exponentially, creating a cycle of attenuation-free oscillations that have a duration of a few tenths of a microsecond. When the initial amplitude of the magnetic field is sufficient to To cause saturation of the material of the roller bearing 10, the roller bearing 10 is during the passage demagnetized between inductors 2 and 3, the demagnetizing effect being complete because that The field generated by these inductors 2 and 3 is capable of the bearing rings 11 and 12 and the balls 13 to penetrate in the axial direction.

In cases where the dimensions of the rolling bearing 10 are too large to have more than one oscillation cycle of the Demagnetizing field require, the holding device 19 is actuated, which with the help of the pin 20 Rolling bearings 10 between inductors 2 and 3 for the time it takes to recharge the capacitor, so that the desired number of degaussing S iiykl en can be eraiölt.

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An analysis of the characteristics of the present innovation has shown that the degaussing device 1 is able to achieve the aforementioned objects of the present To meet innovation.

The lines of force of the magnetic field in the zone between inductors 2 and 3 actually run in axial direction with respect to the roller bearing 10, so that this is completely demagnetized.

Since the distance between the inductors 2 and 3 is adjustable, it is possible to change this at any time as a function to adjust the dimensions of the workpieces to be demagnetized, so that a single demagnetizing device of the type described above can be used for workpieces with different dimensions.

It is also possible, for example, to design the guide device 9 at any time so that it is better with corresponds to the shape of the workpiece to be demagnetized. The guide device described above can be replaced by a conveyor belt. In addition, inductors 2 and 3 can take place as in dec Drawing shown, can be connected in series and in parallel with each other, provided the corresponding magnetic forces are in phase. It is also possible to put the inductors 2 and 3 on a magnetic core,

z. B. made of ferrite to wind up.

Claims (8)

SKP KUGELLAGERPABRIKEN GMBH Schweinfurt, June 23, 1980 IT 79 007 DE TPA / gl.hb Demagnetization device protection claims 1. Demagnetization device, especially with capacity discharge, characterized by two inductors (2, 3) which are arranged coaxially to one another, and by a guide rail or the like (9) for the parts (10) to be demagnetized, the guide rail (9) extending between the two inductors (2, 3) and the one to be demagnetized Parts (10; is arranged leading in an aligned position. 2. Demagnetizing device according to claim 1, characterized characterized in that a proximity sensor (15) is arranged in the space between the inductors (2, 3) is. 3. Demagnetizing device according to claim 1 or 2, characterized in that the guide rail (9) is designed as an inclined plane with the supply of the parts to be demagnetized (10) from above. 4. Demagnetizing device according to one of the preceding claims, characterized in that below the inductors (2, 3) a locking device (19, 20) is arranged. till II * * I III it Ii Ii ι » tr it till till · > ι ι llll »III · · · I 5. Demagnetizing device according to claim 4, characterized in that the locking device as pneumatic piston (19) is formed. 6. degaussing device according to one of the preceding claims, characterized in that the two inductors (2, 3) are arranged to be displaceable relative to one another. 7. Demagnetizing device according to one of the preceding claims, characterized in that the Inductors (2, 3) are wound on magnetic cores. 8. Demagnetizing device according to claim 7, characterized in that the magnetic cores made of ferrite are made. llllllll l <