NL8301796A - ADJUSTABLE ELECTRIC MACHINE. - Google Patents

Description

\ ·% FsuaiEi.

t * asAi, vü - -., .. · t., v>. . ... y 't ™ 10686 1 | 20MEII983 ..... ï N.V. Philips 'Incandescent light factories in Eindhoven I' v

Adjustable electric machine. .....

The invention relates to a controllable electrical machine with a housing, a rotor and a stator, which machine comprises a tachometer-generator, which is provided with a signal transmitter mounted on the rotor and a fixed sensor.

Such an electric machine is known from the

Swiss patent 441 794. The known electric machine is designed as an asynchronous motor which is used, for example, in a tape drive mechanism of a tape recorder. In such a construction it is necessary that the tape is moved at a constant speed. To ensure that the rotor of the engine rotates at a constant speed, the engine is equipped with an electronic control system, which is electrically connected to a tachometer generator attached to the engine.

The tachometer generator includes a metal sprocket mounted on the rotor and an induction coil with magnetic core mounted on the housing. When the rotor is rotating, the moving sprocket causes an alternating closing and interruption of the magnetic flux through the coil.

The gear ring, which acts as a signal generator, must be mounted very precisely on the rotor. High demands are made in particular on the dimensions of the teeth and the mutual distance between the teeth. As a result, this known construction has the drawback that the manufacturing costs are high.

The object of the invention is now to improve the adjustable electrical machine mentioned in the preamble, such that the tachometer generator is simpler and cheaper to manufacture.

To this end, the invention is characterized in that the rotor is at least partly formed from a non-magnetic material on which the signal transmitter designed as a magnetized layer is applied, which magnetized layer is provided with a magnetic pattern, the sensor being located near the magnetized layer and responds to the magnetic pattern.

The non-magnetic material of the rotor, on which the, preferably 8301796 V phn 10.686 2, ring-shaped, magnetized layer is applied, is preferably a plastic, such as polyacetate or polyamide.

The magnetic pattern applied to the magnetized layer contains the information for the correct speed and speed of the rotor, and can take many forms. For example, sinusoidal, rectangular and sawtooth-shaped signals can be generated in the sensor. The signals generated in the sensor under operating conditions are fed to an electronic control system, for example a servo system, with the aid of which deviations in the rotor speed can be corrected.

The magnetic pattern on the magnetized layer is preferably recorded during the production of the electrical machine.

In a possible method for this purpose, the rotor is arranged next to a magnetic head and rotated. At the correct speed of the rotor, a signal current, for example a sinusoidal alternating current, is passed through the magnetic head. In addition, as it moves along the magnetic head, said layer is magnetized in a pattern corresponding to the magnetic pattern caused by the magnetic head due to the signal pattern.

The adjustable electric machine can be designed as a dynamo or as a motor, for example a DC motor. Such a motor is particularly suitable for use in equipment for recording and / or reproducing images and / or sound. It is important here that the rotor has a very constant rotational speed. The electric machine according to the invention has the advantage that measuring the speed is realized in a simple and inexpensive manner.

A preferred embodiment of the electrical machine according to the invention is characterized in that the magnetized layer is formed by a magnetic lacquer.

The magnetic lacquer contains a binder in which a magnetic pigment is finely divided by using a dispersing agent. The binder is a polymeric material such as polyvinyl chloride, polyvinyl acetate or polyester. Suitable dispersing agents are, for example, lecithin and mono- or diesters of phosphoric acid and alcohols.

Magnetic pigment means magnetizable particles. Suitable magnetizable particles include CrO2 particles, Fe particles and Fe2 ° 3 particles.

The magnetic lacquer may still contain auxiliary materials, such as antistatic agents, such as carbon black and lubricants, for example fatty acid, paraffin and graphite, such as 1 PHN 10.686 3.

The construction according to this embodiment lends itself particularly well to mechanization of its manufacture. The magnetized layer is manufactured, for example, by applying the magnetic lacquer together with an organic solvent in a uniform layer to the rotor, after which, after drying of the layer, the desired information is registered in the magnetic lacquer.

An advantage of this embodiment of the electric machine according to the invention is also that the magnetic lacquer can be provided with magnetically encoded information, for instance for determining the direction of rotation of the rotor or indicating the rest position of the rotor.

Another preferred embodiment is characterized in that the sensor comprises a magnetic head.

As a magnetic head, for example, a generally known reproduction head can serve, as is used in playback equipment, such as a tape recorder or a cassette recorder. The magnetic head basically consists of an annular curved, not entirely closed core of magnetically conductive material, around which a coil is wound. The ends of the core are constructed as pole shoes and define a narrow gap. The magnetic head is preferably attached to the housing of the electrical machine.

Yet another preferred embodiment is characterized in that the rotor is disc-shaped, the magnetized layer being located on the peripheral surface of the rotor.

Especially with electric motors used in playback equipment it is desirable that the dimensions, in particular the axial dimensions, be small. It is known per se to design such motors with a rotor, which comprises a disc-shaped carrier, in which rotor coils are included.

In this embodiment, the sensor is opposite the peripheral surface of the rotor. This has the advantage that the axial dimensions of the motor can be kept small.

It is important that the surface on which the magnetized layer is applied during manufacture does not show any irregularities. It has been found in practice that it is simpler to make the peripheral surface of the rotor smooth and uniform than the side surfaces of the rotor 8301796 PHN 10.686.

The invention will be explained in more detail with reference to the drawing, in which

Figure 1 shows a perspective view of a preferred embodiment of the motor according to the invention in a partially disassembled state and

Figure 2 shows a simple block diagram of the speed control of the embodiment of Figure 1.

The rotor 1 shown in figure 1 is part of an electric motor according to the invention which is not shown entirely. The rotor 1 is enclosed by a housing 3. The housing 3 contains an annular permanent magnet 5. The rotor 1 is disc-shaped and has five coils 7, which are embedded in the non-magnetic material of the rotor 1. In In this embodiment, the non-magnetic material 15 is acrylic butadiene styrene mixed with polycarbonate. The wire ends 9 of the coils 7 are connected to slats 11 of the commutator 13. The rotor 1 and the commutator 13 are attached to a motor shaft 15. In the operating state, the coils are alternately energized by means of two brushes 17 and 19, which make alternating contact with the slats 11.

The brushes 17 and 19 are connected to a power source (not shown).

An annular, magnetized layer 23 is provided on the peripheral surface 21 of the rotor 1. The layer 23 contains a magnetic lacquer of polyvinyl acetate and CrO 2 particles, and is provided with a continuous magnetic pattern. Opposite the peripheral surface 21, a schematically shown magnetic head 25 is attached to the housing 3. The magnetic head 25 is electrically connected to an electronic control system 27, as schematically shown in the block diagram in Figure 2.

The engine speed control is explained with reference to the block diagram. When the motor is connected to a current source 29, an electric current flows through the coils 7 and the rotor 1 starts to move. In addition, a signal is continuously induced in the magnetic head 25 by the magnetic pattern on the magnetic lacquer 23, with which the control system 27 regulates the electric current supplied to the coils 7 such that the rotor 1 rotates at a uniform, predetermined speed.

8301796

Claims (4)

Controllable electric machine with a housing, a rotor and a stator, the machine comprising a tachometer generator, which is provided with a signal transmitter mounted on the rotor and a fixed sensor, characterized in that the rotor is at least partly formed from a non-magnetic material on which the signal transmitter designed as a magnetized layer is applied, which magnetized layer is provided with a magnetic pattern, the sensor being disposed near the magnetized layer and reacting to the magnetic pattern. Adjustable electrical machine according to claim 1, characterized in that the magnetized layer is formed from a magnetic lacquer. Adjustable electrical machine according to claim 2, characterized in that the sensor comprises a magnetic head. Controllable electric machine according to claim 1, 2 or 3, characterized in that the rotor is disc-shaped, the magnetized layer being located on the peripheral surface of the rotor. 20 25 30 8301 796 35