DE465983C - Automatically adjustable starting resistor for induction motors - Google Patents

Description

Automatically adjustable starting resistor for induction motors The invention relates to a device for automatic starting control for AC rotors and consists of a new type of circulating resistance, which has the following advantages can be achieved: I. It forms a link independent of the runner's execution and can be retrofitted to any previous slip ring rotor instead of the slip ring sleeve be put on.

2. At the same time, the training as a pulley is possible, with which the dimensions of the machine are smaller.

3. The structure allows the pure, bumpless resistance control under Omission of the inductively acting core. Therefore high starting torque as with Slip ring rotor.

4. After starting the resistance body has a ratio to the actual conductor dimensions very large cross-section, with which the watt losses remain practically very small during operation even with high overloads. Created So it is a real short-circuit connection.

5. The resistor body is excellent for use with rod winding suitable because the resistance coil is particularly mechanically and electrically resistant fails.

6. The resistance regulation takes place without a conductor interruption, and the formation of interruption sparks and scorch marks is impossible. The construction allows the controller to be encapsulated in a dust-tight and watertight manner.

8. There are no adjustable windings acting on the windings that are subject to the centrifugal force magnetic circuits so that the control process is not affected by any foreign matter can be disturbed in the magnetic circuit.

9. The rotor winding can be in a larger number of groups with the Number of groups are divided according to increased resistance coils, so that the The rotor emf per ei group is correspondingly smaller, each resistance body less Turns required, so it is structurally more solid. The arrangement is approaching then a cage winding.

Io. The simple regulator causes low manufacturing costs.

Fig. I shows the design of a magnet system with three coil-like Winding bodies. The housing ring a is with a weak conical bore on the star-shaped by I2o ° shifted legs d pushed, which in turn with the hub form a casting. Each winding body d is isolated from the leg, whose Axis coincides with the coil axis, mounted freely movable so that under Under the effect of centrifugal force, the correspondingly dimensioned disk f the coil windings compresses against the housing ring a. The disk e insulates the coils against the case. When the network is switched off, the springs g pull the coil windings in their previous position back. The adjusting nuts h aim to be more precise Adjustment of the switching process delayed by the springs g. The distance of each The turns of each other are chosen so that the turns when pressed together Do not touch each other at the same time, but individually one after the other, so that the resistance gradually decreases. The disks f connected to the coil ends form with the movable connections i the star point of the winding ends connected at u, v, w of the runner.

When the rotor comes to a standstill, all windings are through the air gap separated from each other, as shown in Figure 2 on the left. The current must necessarily be in the windings flow, thus forms a reactance and an ohmic when the rotor is switched on Resistance. The ohmic resistance can be increased by using Resistance material for the windings, which also increases the impedance. at As the rotor speed increases, the individual turns lay one after the other under the influence of centrifugal force together until they form a closed body, which is shown in Fig. 2 on the right. Now the current can move into the winding body flow through the axial direction, which represents an uninterrupted guide body with a disproportionately larger cross-section than the original winding cross-section, so that the inductance and the ohmic resistance have become ineffective.

Claims (1)

PATENT CLAIM: Automatically adjustable starting resistor for induction motors, characterized in that a known wound resistance body is compressed by centrifugal force, so that the original series connection of self-induction and ohmic resistance at the end of tempering into a small one Ohmic resistance is transformed.