DE1294524B - Device for contactless speed control of a small direct current motor - Google Patents

Description

The invention relates to a device for contactless speed control of a small direct current motor by an actuator located in its armature circuit with the help of a arranged in a DC control circuit of the actuator, from Motor driven AC tachometer generator.

In particular in the case of sound recording and playback devices, there is the Necessity of the speed of the small DC motor serving as a drive independently to keep constant from load and voltage fluctuations. To this end, the Use of complicated and expensive mechanical speed switching devices known, which, however, give rise to considerable disturbances.

It is also known to be independent of the speed of DC motors of the voltage supplied and the torque taken by the centrifugal governor, Auxiliary generators or the like to keep constant. The engine is already supplied by the manufacturer set to a certain speed or the arrangement designed accordingly. However, since the controller contacts sometimes show considerable wear and tear and aging readjustment is necessary from time to time. Also is especially in the case of small DC motors used to drive turntables a training desired that both a fine control of the speed, as well as a Step-by-step control over a wide speed range is possible.

This can be achieved in a known manner by the voltage of a tachometer generator coupled to the motor via a voltage divider in the armature circuit of the motor lying actuator is supplied. The regulation usually takes place here so that the actual voltage at the voltage divider is compared with a constant nominal voltage (cf. Fig. 4 on page 450 of the magazine “Die Elektro-Post” No. 25/1955). These Type of control gives satisfactory results if the target speed is only must be changed in a relatively narrow range. However, should the speed can be set within wide limits, so can be based on most Errors attached to voltage dividers only have a limited control accuracy, in particular do not achieve good reproducibility of the desired speed.

The aim of the invention is to create such a control device, which allows the target speed to be increased within wide limits with high control accuracy change.

This task is achieved with a device of the type mentioned at the beginning according to the invention achieved in that the generator winding has at least two taps has, of which. one at a time into the DC control circuit by means of a changeover switch can be switched on.

By the taps of the winding provided according to the invention of the tachometer generator is possible, depending on the circuit of the generator winding take the same voltage from the generator at different speeds, which is then compared with a constant voltage. A voltage divider is then only required for fine control of the speed, whereby can achieve sufficient accuracy without difficulty. The one from the tachometer generator submitted. AC voltage can be generated in a known manner by means of dry rectifiers be rectified.

It is indeed a circuit arrangement for improving the calibration curve from speed counters operated by means of alternators via dry rectifiers known (German Patent 613 533), in which the generator winding in two Divided into halves, those in series at low speed and in series at high speed are connected in parallel. In contrast to the invention, however, there are no taps provided, which can optionally be switched into a DC control circuit.

This possibility is also available with a well-known, according to the principle of AC generator .working encoder for speed measuring systems not available, in which two or more windings associated with a common armature are provided are (German Patent 848 614). In this known encoder, the windings are completely or partially electrically separated and magnetically decoupled and serve in each case individually for supplying an independent measuring system.

Further advantages and details of the invention emerge from the following description of a preferred circuit arrangement shown in the drawing.

A small DC motor 2 lying in a circuit 1 is a voltage is supplied from a DC power source 3. The motor 2 drives directly an alternating current tachometer generator 4.

The alternating current tachometer generator 4 has two taps 5, 5 ', via a changeover switch 6 with a constant voltage source 7 containing DC control circuit 8 can be optionally connected. Instead of the constant voltage source 7, for example, a Zener diode can also be used as a reference element. Of the one pole of the constant voltage source 7 is connected via an ohmic resistor 9 the third terminal 10 of the alternating current tachometer generator 4 is connected.

The occurring between the constant voltage source 7 and the resistor 9 Voltage is used to control a pre-transistor 11, which is one in the circuit 1 of the Motor 2 lying end transistor 12 is connected downstream.

The mode of operation of the device is as follows: exceeds the over the changeover switch 6 in the DC control circuit 8 effective from the AC tachometer generator 4 voltage generated the voltage of the constant voltage source 7, it is due to the resistor 9, a voltage which leads to the on state of the pre-transistor 11, whereby the End transistor 12 interrupts circuit 1 of motor 2. This disappears the supply voltage of the motor 2, so that its speed decreases, which also a decrease the voltage delivered by the tachometer generator 4.

As a result, the voltage across the resistor 9 is reduced, so that the pre-transistor 11 is blocked and the final transistor 12 is permeable and the The supply voltage to the motor switches, which leads to an increase in speed. Through this increases again and the voltage output by the tachometer generator 4, so that the End transistor 12 has recently become impermeable. In this way the speed fluctuates of the motor by the desired target speed.

If the target speed of the motor is now to be changed, the tap 5 ′ of the tachometer generator is connected to the direct current control circuit 8 by means of the switch 6 instead of the tap 5. The tachometer generator 4 now outputs a higher or lower voltage via the tap 5 'at the same speed. As a result, the current duration in the supply circuit 1 for the motor 2 changes until the voltage of the tachometer generator 4 matches that of the constant voltage source 7 as a result of the change in speed.

A fine control of the speed could be realized, for example, by that the voltage coming from the tachometer generator is sent to the constant voltage source via a voltage divider is emptied.

Claims (1)

Claim: Device for contactless speed control of a small direct current motor by an actuator located in its armature circuit with the aid of an alternating current tachometer generator arranged in a direct current control circuit of the actuator and driven by the motor, characterized in that the generator winding has at least two taps (5, 5 '), of which one at a time can be switched into the direct current control circuit (8) by means of a changeover switch (6) .