DE630915C - Single-phase induction motor with auxiliary phase controlled by electromagnetic switches - Google Patents

Description

Single phase induction motor with controlled by electromagnetic switches Auxiliary phase The invention relates to a single-phase induction motor with automatic controlled auxiliary phase, whereby a switch with overcurrent release in the auxiliary phase circuit during or after start-up, only depending on the auxiliary phase current Starting-improving capacitor switches. This device is according to the invention further developed in that the parts of the affected by the auxiliary phase current electromagnetic switching device itself can be used to improve start-up be made. In particular, you can use the self-induction of the trip coil to improve use of start-up; by adding them to the capacity of the auxiliary phase circuit Starting capacitor adjusts. It has been shown that an increase in the starting torque occurs when the capacitor is preceded by a self-induction.

In addition, the trip coil can be designed as an autotransformer which is automatically activated by the movable contact arm of the switch after start-up is switched.

The drawing shows various exemplary embodiments of the invention. In Fig. I, the main phase winding 12 of a single-phase induction motor with the auxiliary phase winding i3 is connected to the single-phase network io via the switch ii. In their circuit there is an overcurrent release 1q., Whose contacts 15 are in series with a capacitor 16 and the coil 17 of the switch. When the motor is switched on, the contacts 15 are initially closed, so that the capacitor 16 is switched on in series with the coil 17 in the auxiliary phase circuit. The self-induction of the coil 17 is dimensioned according to the capacitance of the capacitor 16. If the starting current has reached a certain value, the coil 17 attracts its armature, the contacts 1 5 are opened and the capacitor 16 is switched off.

If you want a capacitor in the auxiliary phase circuit during operation leave switched on, so you can parallel to the circuit breaker 1g an operating capacitor 18, which is permanently switched on in the auxiliary phase circuit.

In the embodiment of the figure:? the magnetic circuit 2o under the ampere-turn pressure of the coil 17 is partially formed from the magnetically conductive coatings of a capacitor 2i which is in series with the coil 17. The circuit corresponds essentially to the Fig. I, so that the contacts 1 5 are closed at the start of the motor and thereby the capacitor is in series with the .Spule 17 2z in Hiffsphasenkreis. The capacitor 2, 1 is switched off after start-up, while the capacitor 18 is permanently in the auxiliary phase circuit.

One can also use the coil 17 to achieve a suitable ratio between number of ampere-turns and resistance partly; bifilar wrap like this is known per se in the auxiliary phase winding of single-phase induction motors.

In the first two exemplary embodiments, the trigger switch is designed as a contactor which is provided with a pawl 22 for pumping to avoid. This lock can either be done manually when the engine is switched off or can be canceled automatically. Instead of blocking you can also use a Use the switch lock that is triggered by the armature of the trip coil and the opening of the switch causes. This lock can also be restored manually or automatically be inserted.

The circuit breaker located in the auxiliary phase circuit can also be used to transform the voltage supplied to the capacitor during start-up by using the trigger coil with a tap as the primary winding of a transformer to whose secondary coil the capacitor is connected. The primary number of turns is automatically switched over after start-up. Such a circuit is shown, for example, in FIG. 3. Here the coil 31 of the circuit breaker is provided with a tap 32 which is connected to a contact 33. One end of the coil 31 is connected to the auxiliary phase winding 13, the other end to a second contact 34. The two contacts 33 and 34 lie in the path of a movable contact 35, parallel to a contact strip 36 which is connected to the main phase winding i2 via the movable contact 35 with the contacts 33 or 34. A secondary winding 38 to which the capacitor 39 is connected is seated on the iron core 37 of the circuit breaker. When switching on and during start-up, the movable contact 35 has the position shown in the drawing, in which the tap 32 of the coil 31 is connected to the mains. so that the transformer formed by the tapping of the coil 31 and the secondary coil 381 has a high transformation ratio. Once the start-up has ended and the current in the auxiliary phase circuit has risen to the predetermined value, the coil 31 attracts its armature and the contact 35 slides onto the contact 34, whereby the tap 32 is switched off and current flows through the entire coil 31. This reduces the transmission ratio, and the capacitor 39 receives a lower voltage. An autotransformer can also be used in place of the double-wound transformer.

The ideas of the invention are applicable to all single-phase induction motors in which a capacitive, inductive or ohmic resistance after start-up is switched off by an automatic switch. So you can generally use the auto switch make it the seat of the start-up improving aids in single-phase motors.

Claims (3)

PATENT CLAIMS: e.g. Single phase induction motor with by electromagnetic Switch of controlled auxiliary phase, characterized in that the auxiliary phase current influenced parts (coil, iron core) of the electromagnetic release device the switch itself can be used to improve start-up. 2. Induction motor according to claim r, characterized in that the trip coil of the switch as Auto transformer is formed by the movable contact arm of the switch is automatically switched over after start-up. 3. Induction motor according to claim r, characterized in that a capacitor is built into the iron core of the switch is.