DE1296700B - Reversible single-phase asynchronous motor with short-circuit rotor - Google Patents

Description

The invention relates to a reversible single-phase Asynchronous motor with squirrel-cage rotor and two spatially offset from one another, with their one ends to the stator windings connected to an AC power line, those with their other ends bridged by a phase shifting means to the Alternating change of the direction of rotation of the rotor via a single-pole contact system by phase shift as main or auxiliary winding to the other second AC power line can be connected and after switching off the phase shifting means lying winding ends from the power line to brake the rotor via the Center of a resistor connected in parallel to the phase shifting means applied to the alternating current network in parallel with in-phase currents are.

The German patent specification No. 689 220 means that the direction of rotation can be reversed Capacitor motor of this type, which automatically brakes when switched off brings himself known.

The aim of the invention is to change the movement of the type described at the outset known motor to signal.

The invention is to be seen in the fact that in such a motor center-tapped resistance lying parallel to the phase-shifting means two equally large ohmic ones lying on both sides of the feed center point There are individual resistances that act as signal lamps to indicate the change in direction of rotation of the motor and the power supply to the motor are formed and that the center point is constantly on the second power line between the two signal lamps.

The invention is also that the two signal lamps Direction of rotation of the motor and the power supply to it with different colored light Show.

The invention will be described hereinafter with reference to a circuit diagram described.

In the drawing there is a contact arm 10 between the two Contacts 12 and 14 in a neutral position. The arm 10 is about the connections 15, 16 connected to one power line 20. Two stator windings 17 and 18 are combined in the 0-point 22 of the motor, which through the connection point 24 with the other power line 26 is in communication. Between the free end of the A circuit runs through the stator winding 17 and the contact 12 of the contact system 28 and between the free end of the stator winding 18 and the other contact 14 a circuit 30. Between the free ends of the stator windings is on usual Way, a capacitor 32 is switched on. A circuit 34 goes from circuit 28, 36 to connection point 15 and in branch 34 of this circuit is an ohmic resistor in the form of a signal lamp 38, preferably with a green light, attached. The signal lamp 38 is thus switched on in a circuit that corresponds to the circuit 28, in which the contact 12 of the contact system is seated, is connected in parallel. Another ohmic resistor in the form of a signal lamp is in the same way 40 with z. B. red light in a circuit 42, 36, which is connected to the circuit 30 is connected in parallel, attached.

If - the contact arm 10 assumes the 0 position shown in the figure, a current goes from the network 26 to the 0 point 22 of the motor and divides there into two branches. One branch passes the stator winding 17 and the signal lamp 38 and the other branch passes the stator winding 18 and the signal lamp 40. The two branches then merge at point 44, which is connected to the power line 20 . This creates an equilibrium which prevents the rotor from rotating and both lamps light up simultaneously with a limited strength caused by the resistance in the stator windings 17 and 18, but which is large enough to indicate the power connection.

If the arm 10 is connected to the contact 12, the current flows in one branch only through the stator winding 17 and then again to the connection point 16, bypassing the lamp 38. In the other branch, the current still flows through both the stator winding 18 , as well as by the signal lamp 40. The signal lamp 38 is therefore de-energized. The current flow in winding 17 therefore becomes predominant, with a phase-shifted current being generated in stator winding 18 by capacitor 32 and the motor starting in a clockwise direction. The inductance excites a voltage for the lamp 40, so that this indicates the direction of rotation of the motor with a full, in this case red light. If the arm 10 is again connected to contact 14, the current curve is reversed. The stator winding 18 becomes the main winding, the signal lamp 40 is de-energized and the rotor rotates in the reverse direction of the clockwise. The signal lamp 38 has full light and indicates the direction of rotation by a green light.

With this circuit system, the stator windings 17 and 18 are alternately and with a weak switching effect, caused by the generator effect, brake the kinetic energy of the rotor and prevent overregulation. The lamps 38 and 40 indicate the direction of rotation of the motor and the power supply to the motor.

The switching system can enter into a pulse organ that z. B. by Temperature or pressure of a medium is influenced. The engine, in turn, can be switched in such a way that it corresponds to the incoming impulse, such as an organ Valve or pump can be set in motion to provide a regulation in Direction to execute.

The invention is not limited to the embodiment described above limited, but can in various ways under the underlying Idea can be varied.

Claims (2)

Claims: 1. Reversible single-phase asynchronous motor with squirrel cage and two spatially offset from one another, with one of them Ends to the stator windings connected to an AC power line, the with their other ends, bridged by a phase shifting means, to change the direction of rotation of the rotor alternately via a single-pole contact system Phase shift as main or auxiliary winding to the other (second) AC power line can be connected and after switching off the phase shifting means lying winding ends from the power line to slow down the Runner over the center point of a parallel to the phase shifting means Resistance to the AC network in parallel with in-phase currents are acted upon, characterized in that the center tapped, parallel to the Phase shift means (32) lying resistor of two each on both sides of the feed center (44) lying equal ohmic individual resistances consists of signal lamps (38, 40) to display the change in the direction of rotation of the Motor and the power supply to the motor are formed, and that the center point (44) is constantly on the second power line between the two signal lamps. 2nd engine according to claim 1, characterized in that the two signal lamps (38, 40) the Direction of rotation of the motor and the power supply to it with different colored light Show.