DE1070735B - Magnetic electrical switching device - Google Patents

Description

GERMAN

KL.2U3 3/03

INTERNAT. KL. H 02 C

PATENT OFFICE

S 58365 VIIIb / 21 d ³

TO M ELDETAC: 24 MAY 19 58

NOTICE THE REGISTRATION AND ISSUE OF THE EDITORIAL: DECEMBER 10, 1959

The invention relates to one of at least a transmitter and at least one receiver existing magneto-electric switching device. Such Switching device can, for. B. as a magnetic end, layer switch be effective, the task being that the device without mechanically moving switch con clock works.

The invention consists in that the receiver is formed by a pick-up head in which a Hall voltage generator is arranged directly in the effective air gap of the head facing the transmitter. The transmitter expediently consists of two permanent magnets with opposite polarity, which are attached close to one another with a small air gap width. A thin strip (approx. 10 μ) made of permanent magnetic material, which is magnetized in the longitudinal or transverse direction, can also be used as a transmitter. Instead of permanent magnets, however, a magnetogram located on a carrier made of non-magnetizable material, e.g. B. ao a tape, can be used to change the switching signals by deleting and re-magnetizing the magnetogram, if necessary.

It is already used for the reproduction of magnetic recordings as drawings, in particular for the scanning of audio tapes, has been proposed to use a tape head in which instead of a winding in which voltages caused by induction, a Hall generator is provided. As the acceptance head responds to the magnetic induction itself and not to the change in the magnetic induction over time, there is the possibility of a static query of sound recordings and other magnetic ones Save on computer.

To form a limit switch, this means that the switching reliability is independent of the speed of movement the giver becomes the recipient. For control, i.e. to use the actual .Switching process, the formation of a zero crossing or a maximum of the Hall voltage can be used with a precise comparison of the transmitter and receiver with a high degree of accuracy.

The invention is to be explained in more detail with reference to the drawing. While

Fig. 1 shows an embodiment in its for the invention show essential parts in a greatly simplified, partly schematic representation the

2 and 3 the mode of operation of the invention on the basis of the Hall voltage curve during movement of the receiver over the encoder or vice versa.

Magnetic electrical switching device

Applicant:

Siemens-Schuckertwerke

Corporation,

Berlin and Erlangen,

Erlangen, Werner-von-Siemens-Str. 50

Dr. rer. nat. Dipl.-Phys. Friedrich Kuhrt, Nuremberg, has been named as the inventor

As shown in Fig. 1, the encoder consists of two permanent magnets 1 and 2 of opposite polarity, which are brought together by an adhesive connection or other fastening method so that a non-magnetic intermediate layer 3 is created as an effective air gap of 10 μ , for example. This arrangement is embedded in a non-magnetic slide 4. The surface 5 is smoothed as a sliding plane, in particular ground. The magnetic lines of force are symbolized by the arrows 6.

A receiver, denoted by 8, can be moved along the sliding plane in the direction of arrow 7. The receiver consists of a magnetizable head of high permeability, with the Hall voltage generator being directly accommodated in the effective air gap facing the transmitter. In the illustrated embodiment, the Hall voltage generator 9 is located between two ferrite plates 10 and 11, the air gap with a gap width of the transmitter of 10 μ should, if possible, have a value smaller than 10 μ .

In FIGS. 2 and 3, the voltage output by the Hall voltage generator is illustrated in its course. The arrow 12 symbolizes the path of the recipient. When crossing the boundary layer The Hall voltage passes through the value between the two permanent magnets, as FIG. 2 shows Zero. This zero crossing can e.g. be converted into a switching command by a switching amplifier connected downstream implemented. As illustrated in Fig. 3, the arrangement can also be made so that the Hall voltage passes through a sharp maximum when crossing the boundary layer. This is done through appropriate Arrangement and polarity of the permanent magnets 1 and 2 brought about.

909 688/176

If one instead of the two permanent magnets: inen erasable magnetic recording medium used, of: cattered along the sliding plane is unclamped, a magnetic [can be made of several μ width on the tape with iinem ordinary Aufsprechkopf mpuls. Corresponding to the lower tape flow, however, the signal picked up by the receiver is considerably smaller than when using permanent magnets.

IO

Claims (4)

Patent claims: 1. Magnetic-electric switching device, consisting of at least one magnetic transmitter and at least one receiver moved relative thereto, characterized in that the receiver is formed by a pick-up head, in which a Hall voltage generator directly in the The effective air gap of the head facing the encoder is arranged. 2. Switching device according to claim 1, characterized in that two permanent magnets of opposite polarity with a small air gap width are attached tightly to one another as a transmitter. 3. Switching device according to claim 1, characterized in that a thin strip as a transmitter made of permanent magnetic material is used. 4. Switching device according to claim 1, 2 and 3, characterized in that the control Formation of a maximum or minimum (zero crossing) of the Hall voltage when exceeded the boundary layer is used. 1 sheet of drawings © 909 688/176 12.59