RU27976U1 - CONTROL UNIT FOR NON-REVERSE MOTORS - Google Patents

Description

The utility model relates to the field of electrical engineering and can be used in low-voltage complete devices for powering and controlling the engines of shut-off and control equipment of auxiliary systems of power plants.

A known control unit containing switching and signaling equipment, united by a common design 1. This control unit for non-reversible motors, called a magnetic station, is simple in design, easy to operate, has been widely used in various fields of technology, but it is difficult to supply a network to it.

The closest in technical essence to the claimed utility model is a control unit in which power contacts with coils and control buttons for three three-phase asynchronous non-reversible motors are mounted on a separate plate, while the machine’s generator 2 is used as a common network of the unit. The main elements of this unit are convenient mounted on boards (starters and circuit breakers), so the unit is widely used in multi-motor drives, but this unit has properties enny and drawbacks, among which a mixed execution wiring are basic, at which intervention in the control circuit involves stopping all motors and the absence of elements which limit starting current.

The technical result of the utility model is to ensure ease of use and limiting the starting currents of the engines. the first and second input and output terminals are placed, the first and second

starters, first and second circuit breakers, the input terminals being connected to the network, the first and second starters connected by inputs to the corresponding input terminals, the first and second circuit breakers connected by the inputs to the outputs of the respective starters, and the outputs to the output terminals to which the three-phase cables are connected cables extending to the first and second motors, the first and second input and output terminals are made in the form of corresponding terminals as part of two corresponding identical terminal blocks, number terminals each of which is determined by the Phase network actuators and motors, and speed control and alarm circuits.

In addition, the fourth wire of each three-phase cable is connected to a grounded neutral protective conductor type PEN, which is made in the form of a common busbar.

In addition, the output of the first starter is connected to the input of the first circuit breaker through the first reactor, and the output of the second starter is connected to the input of the second circuit breaker through the second reactor.

In FIG. 1 shows the front side of a plate of a control unit for non-reversible engines with the circuit elements listed above. Figure 2 shows a circuit diagram of the power circuits of the block.

The control unit for non-reversible engines (Fig. 1) contains a plate on the front panel of which two identical terminal blocks 2 and 3 are installed, two starter terminals 4 connected to the corresponding terminals, the first and second reactors 5, the first and second circuit breakers 6, while the terminal blocks 2 and 3 are connected to the network (Fig. 2), starters 4 are connected to the indicated terminal blocks, the outputs of which are connected by power inputs through the corresponding reactors 5

, / C A- / 4J - 2

the corresponding circuit breakers 6, the power outputs of which are connected to the corresponding terminals of the terminal blocks 2 and 3, to which three-phase cables connecting to the corresponding motors (not shown) are connected. The fourth wire of each of the three-phase cables 7 and 8 is connected to a grounded protective neutral conductor 9 of the PEN type, made in the form of a common bus. The placement of the block elements in the order shown in figure 1, improves the convenience during installation and operation when replacing electrical devices, with the introduction of additional circuit elements, while the distance R between the terminal blocks 2 and 3 and the first and second starters 4 is selected from the conditions of ease of installation and starter settings 4 and may be

1/140 L R 2/140 L with tolerances of ± 0.001 L, where L is the length of the plate.

The overall dimensions of the starters 4, reactors 5 and switches 6 at the maximum engine power (28 kW) determined the choice of the width of the plate, which refers to a length of 1: 3.5. For ease of installation of the elements of the unit and increased safety during operation, all connecting circuits: supplying the network to terminal blocks 2 and 3, connecting starters 4, reactors 5 and switches 6, are made on the back of the plate, and control and signaling circuits are also laid there. The control unit is connected to the previous and subsequent units using a power adapter terminal block and a terminal strip for control and alarm circuits, which are installed separately. The implementation of a grounded protective neutral conductor type PEN in the form of a common bus helps to increase the number of connected cables, which determines the expansion of the functionality of the unit. The use of reactors 5 in the power circuits of the block circuit allows you to limit the starting currents of the motors, which leads to the extension of the service life of the block under thermal conditions.

The control unit non-reversible engines operates as follows. In a static state, in the absence of mains voltage, all elements placed on the plate 1 - terminal blocks 2 and 3, starters 4, reactors

 and circuit breakers 6 are de-energized, so there are no voltages in cables 7 and 8, and the motors do not rotate. When the mains voltage appears and the control circuits are closed, the starters 4 are triggered, and the mains voltage through the terminals 2 and 3, starters 4, reactors 5 and switches 6 with the help of cables 7 and 8 will be supplied to the motors. Due to the fact that when starting induction motors consume multiple currents, this current forms large voltage drops on the inductive reactors of reactors 5, which limits the growth of currents by reducing the voltage in cables 7 and 8 and ensures a smooth start of the motors.

Thus, the introduction of two power terminal blocks, the layout of the circuit elements of the control unit, the geometry of the plate contribute to the expansion of the functionality of the control unit, and the installation of reactors ensures the limitation of the starting currents of the motors.

Sources taken into account:

1 Rodshtein A.A., Electric devices .. L., Energoatomizdat, 1989, P.260, fig. 21-1.

2 Moskalenko V.V., Electric drive, M., Mastery, 2000,

S.117, Fig. 5.15.

0i

Author: (V Kirillov N.P.

Claims (3)

1. The control unit for non-reversible engines, containing a plate on which the first and second input and output terminals, the first and second starters, the first and second circuit breakers, the input terminals are connected to the network, the first and second starters are connected by inputs to the corresponding input terminals, the first and second circuit breakers are connected by inputs to the outputs of the respective starters, and by outputs - with output terminals to which three-phase cables connected to the first and second motors are connected, characterized in that the first and second input and output terminals are made in the form of corresponding terminals comprising two corresponding identical terminal blocks, the number of terminals on each of which is determined by the phase of the network, starters and motors and the number of control and signaling circuits.  2. The control unit according to claim 1, characterized in that the fourth wire of each three-phase cable is connected to a grounded neutral protective conductor of the PEN type, which is made in the form of a common bus. 3. The control unit according to claim 1 or 2, characterized in that the output of the first starter is connected to the input of the first circuit breaker through the first reactor, and the output of the second starter is connected to the input of the second circuit breaker through the second reactor.