DE151735C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The invention relates to an automatic starting device for direct current electric motors.

In contrast to known starters, which use electromagnetic relays accordingly Short-circuit the individual resistance stages one after the other as the armature voltage increases, the Shutdown of the control resistors

ίο the inducing effect of the changes the motor amperage, thereby making the starting independent from the line and motor voltage, from the minimum and maximum value of the current, takes place automatically on the armature speed and the load on the motor.

The invention is shown using an example in the accompanying drawing.

The direct current motor 2 has a shunt field 3 and a main circuit field 4 with resistors 5,6,7 connected into the circuit. Each of the solenoids ABCD has two coils 9 and 10 acting in the same direction, of which the one 9 is the stronger.

The cores of the solenoids ABCD are provided with current bridges 13, which respectively the circuit at the contact pairs 14 and 15, 16 and 17, 18 and 19. 20 and 21 close.

If there is no current flowing through the solenoids, the bridges 13 fall as a result of them Dead weight at different distances below the associated contact pairs.

This distance also has the consequence that the solenoids are excited for different lengths of time must until the bridging of the contacts respectively. the short-circuiting of the resistors he follows.

E represents an iron body which has a primary winding 22 and a secondary winding 23. The latter forms a closed circuit with the winding 24 of the solenoid -F. The core of the solenoid F carries the bridge 25, which closes the circuit at the contacts 26 and 27. If the core of the solenoid F is lifted, its upper extension 28 strikes a current-connecting bridge 29, which, carried by the core of the solenoid G , closes the circuit at the contacts 31 and 32.

When the shift lever 1 is engaged, the current from the positive main wire goes through wire 34, the motor 2, the main field winding 4 and the resistors 5, 6, 7 and at the same time through the shunt field winding 3. The combined current continues through wire 35 into the primary winding 22 of the iron core E and through wire 36 to the negative pole.

The current surge through the motor and the primary winding 22 when it is switched on induces a current in the secondary winding 23 which excites the solenoid F and causes its core to rise, whereby the circuit at .26 and 27 is interrupted. At the same time, however, the core extension 28 lifts the rod 29, so that a current connection occurs at 31 and 32. The closed current flows through wire 34, the windings 10 of the solenoids ABCD

and the winding of the solenoid G. The latter keeps the bridge closed at 31, 32, even if the rod 28 is no longer in engagement with her.

The rotating motor now develops a counter-electromotive force so that the current soon becomes constant and no longer has an inducing effect. When this state occurs, the solenoid F drops its core and a current circuit occurs at 26, 27, whereby, since 31, 32 is closed, the windings 9 are also excited and the cores of the solenoids ABCD are raised. The current connection bridge 13 of the solenoid D will then first cause a current connection at the contacts 14 and 15 and in this way short-circuit the resistor 7. The current in the motor therefore experiences a sudden increase and, as before, will induce a current which interrupts the circuit 9 of the solenoids at the contacts 26, 27 before the other bridges of the solenoids come into contact with their contacts. The bridge 13 of the contacts 14, 15 of the solenoid D , however, remains closed under the influence of the magnetizing coil 10.

The increasing counter-electromotive force will again have the effect that the current in the motor assumes a constant value. If this state is reached again, the solenoid F falls back to the contacts 26, 27, since no more current flows in it. This closes them, and a new current is sent through the windings 9 of the solenoids ABCD . It is noted that the windings 10 alone do not lift the core, but can only hold the lifted core in the final position.

If the circuit is closed again by solenoid F , then solenoid C comes into action and, by means of its current closing bridge 13, causes a current connection at 16 and 17, as a result of which resistor 6 is short-circuited. The same process is repeated and sets solenoid B in effect to switch off the resistor 5 and part of the main circuit field of the motor. Finally, solenoid A similarly switches off the remainder of the main circuit field 4 and the motor reaches its full speed.

Claims (2)

Godfather sayings: 1. Automatic starting device for direct current motors, characterized in that that by switching on and short-circuiting the individual series resistors A current is induced in the motor occurring current surges, which the gradual switch-off of the series resistors of the engine. 2. Embodiment of the automatic starting device for direct current motors according to claim 1, characterized in that the current induced by the current surge excites a solenoid (F) , which by interrupting the circuit of the solenoids (q) caused by these gradual disconnection of resistors as long inhibits until after the ■ current surge has elapsed and the induction current has ceased, the solenoids are switched on again and the resistor is switched off again. 1 sheet of drawings.