SU67552A1 - Electric shaft - Google Patents

Description

February 26, 1945 for i 770 (337113) was submitted to the People's Commissariat for the Electrical Industry of the USSR

Known electric shafts, through which transmit Motion, from one drive shaft to several slaves, and so that the movement will be synchronous. These shafts consist of induction machines having three-phase windings on the stator and rotor, of which the nervous ones are powered from a common three-phase network and the secondary ones are connected to each other. In such a system of electric shaft induction maschiny normally work in synchronous mode when the fields are rotated in one direction. If the rotor of the sensor is stationary, then the rotor of the receiver is also in the dry condition. In this case, the electrical balance of the electrostatic forces acting in the secondary windings of the induction masses is carried out.

When the rotor rotates the sensor, the electrical balance of the secondary electromotive forces is disturbed and the balancing currents resulting from this in the secondary circuit, creating torque on the rotor shaft of the receiver, cause it to rotate until the electrical balance of the electromotive forces is restored in the new position of the rotors of the machines.

The described electric shaft system differs from the known ones, if the sensor has a braked mashina, by using a switch in its circuit, turning it upset the balance of electromotive forces in the secondary circuit of the sensor and receiver machines (masks on the driven shaft; and turning the latter, respectively, to turn and toggle the switch A new balance of electromotive forces in the new position of the switch and receiver. Similarly, the implementation of an electric shaft is aimed at eliminating the need for atelnogo motor serving to drive maschI iy sensor .. - i

FIG. 1 shows a diagram of an electric shaft; in fig. 2 - switch device,.,. ,

. УО 67552- 2 Induction machines of the sensor D and, accordingly, of the receiver I have rotors with phase windings connected through contact rings according to the scheme of a conventional shaft.

The rotor of the D-sensor machine is inhibited, and the / switch is turned on in the stator circuit of this machine. To rotate or drive the output shaft (or several shafts) using the / C switch, the phases of the stator winding of the sensor D are switched, alternately alternating between phase A of the network, phase B or C, etc. As a result of phase switching The voltages on the rotor rings of the maschine will not coincide with that of the machine / 7 of the driven shaft, and therefore the equalizing current will cause the rotors of the machines to rotate the rotor of the driven machine I to turn in the direction of rotation of the switch.

The speed of rotation of the driven shaft will be equal to the speed of the switch K., whose axis, such o6pa30jM, is the drive shaft. Rotating the switch in the opposite direction, the driven shafts will also rotate in the opposite direction.

The system can be used to transfer the angles of rotation, but here the rotation of the shaft will not be smooth, but irregular, depending on the number of poles of the machines.

The switch / C can be made of three contact rings P that sit on the common axis M (Fig. 2). On the same axis there is a fourth ring H, divided into three sectors. These sectors are insulated from each other and electrically connected to the rings R. The ring H of the brush spacing,. approximately 120 degrees to each other, connects to the network, and rings P, also with help. Three Whips, feed the stator of the machine D.

Vrash, and the switch (which requires little effort), can provide this or a different phase switching speed and, consequently, a different rotation speed of the driven shafts, while the rotation of the driven shaft will be synchronous with the rotation of the switch.

Angles. Between brushes. The contact with the I. ring with I, as noted above, is not taken to be equal to 120 °, but somewhat different. In the laKOM case of simultaneous opening of all three phases on a non-switch, it is not ironically, but there will be (|) disconnection, which will reduce sparking.

At some moments, a circuit consisting of two parallel-connected phase windings of the stator of a drive shaft machine will be connected to one phase of the network.

The rotation of the switch. Can be carried out from 1 low-power engine, manually with a small installation and using one of the driven shafts. In the latter case, the switch is placed close to the corresponding output shaft and is connected to the nanometer by means of gears.

Having a set of small pulleys, you can get a varied number of turns of the switch and, therefore, the driven shaft.

PREEMETIs

 Electric vl, consisting of pz Induction mashnn, pmyayuschie .; On the stator and rotor, the three-phase windings, of which the primary ones are powered from the common three-phase line, and the secondary ones are connected, which is connected to the three-phase line, which feeds the primary winding of the sensor machine, connected to This machine has a balance of voltages acting in the secondary winding circuit.

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