SU4229A1 - Automatic starting resistor for asynchronous motors - Google Patents

Description

The present invention is intended to automatically turn on and off a starting resistor in a rotor circuit of a conventional asynchronous motor.

FIG. 1 and 2 depict the proposed starting rheostat and FIG. 3, 4 and 5 are diagrams corresponding to the inclusion of the resistance of the rheostat at different speeds of rotation of the rotor.

On the shaft of a three-phase asynchronous motor, with a star-connected or triangle-connected rotor (indifferently), one thick fiber ring A is placed instead of three contact rings with three channels that are drilled along its radii and located one But relative to another at an angle of 120 °. In addition, a wheel with a wide fiber rim is mounted on the same shaft. In the channels of the ring A, massive metal sliders k, h, k can move freely, all the time held in the depth of the channels by the combined springs b - b. The springs b are designed in such a way that

the time of rotation of the ring together with the motor shaft, the centrifugal force developing in the mass of the sliders detracts the springs, and at 60% of the entire speed of rotation of the motor the sliders will appear in their extreme positions at the edge of the ring. Further movement of the sliders is held by the edge of the channels. In order to prevent the formation of a compress inside the channels of the cylinders, which impede the movement of the sliders, holes are made in the channels or sliders to communicate the cavity of the cylinders with the external atmosphere. In the walls of the channels made contacts in the form of semi-segments (b - 8 pieces along the entire length of the channel). Copper plates 1, 2, 3 are located on the side opposite to the half-segments along the entire length of the channel. The slider, slides down and up along the channel, is all the time connected to the longitudinal plate and sequentially connects it with its mass to the semi-segments.

A winding is made of metal that is poorly conductive in electricity on the wheel rim. Every turn of the winding

separated from the next empty space. The winding is divided into three parts and, therefore, has six ends. One of the ends of each part is connected to one of the ends j of the rotor winding (diagram of Fig. 3); | in this place, the first half winding of the first channel (counting from the ring edge) is attached to both I windings (rotor and rheostat). I The opposite ends of the windings (spirals) of the rheostat are connected to the last half-segments of the same channels, and the intermediate half-segments {the spirals belonging to their group of helix are divided into equal parts. FIG. 1 shows the approximate arrangement of the parts when the engine has developed only 20–30% of the total speed, and FIG. 2 - when the engine reaches full speed.

In the resting state of the spring rotor, the sliders slide into the I channels and close the longitudinal plate with the last half-segment, thus connecting the ends of the rotor winding through the impedance (diagram of Fig. 4). At the beginning of the motor operation, the sliders, under the influence of centrifugal force, will begin to slide along the channels and gradually connect the longitudinal plate - the contact with the second, third, fourth half-segment, etc.

the conclusion of this resistance spirals moving rheostat (diagram of Fig. 3). At 60% of the entire rotor speed, the slider, having touched the last half-segment, will short-circuit the entire rotor winding (diagram of Fig. 5). The slider should be slightly longer than the intervals between the two contact half-segments, so that when it switches from one contact to another, the current induced in the rotor is not interrupted.

The subject of the patent.

An automatic starting resistor for asynchronous motors, rotating together with the rotor and equipped with a device acting from centrifugal force, switching off its resistance from the rotor circuit, characterized by the use of fiber ring A fitted on the shaft of the rotor with three radially angled 120 ° channels in which under the action of centrifugal force, metal sliders k, k, k, displaced by springs b - 6, can move, sliding along the resistors' contacts and three formations sliding along the same channels Inam 1, 8, 3.