RU2195762C1 - Magnetic starter - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: magnetic starter that may be used in three-phase current distribution circuits as well as in short-circuit, overcurrent, and phase-failure protective gear of electric motors incorporated in important drives and that has short-circuit protective device, control unit, power unit, and overcurrent protective means is provided in addition with motor phase- failure protective unit incorporating three voltage monitoring relays, make and break contacts in each phase, and two phase-shift capacitors each being connected to faulty phase and to adjacent phase disposed in clockwise direction in series with break contact of faulty-phase voltage monitoring relay and with make contact of adjacent-phase voltage monitoring relay; each capacitor is inserted between motor overcurrent protective means and three-phase electrical installation (motor). EFFECT: enhanced reliability. 4 cl, 1 dwg

Description

 The invention relates to the field of electrical engineering and can be used as a magnetic starter in three-phase current distribution schemes and protection of electrical installations, for example, electric motors of critical electric drives from short circuit currents, overload currents and phase failure.

 Known magnetic starter containing a device for protecting the motor against short-circuit currents, consisting of three phase fuses, a control circuit including thermal relay contacts, forward and reverse coil, block contacts, forward, backward and stop buttons, a power module containing a forward contactor and a reverse contactor and a motor protection device against overload currents, consisting of two thermal relays [1]. This starter has found application in reversible electric drives for controlling three-phase motors, however, its circuit does not have a phase loss protection node, therefore, if the voltage in any of the network wires disappears, the electric drive is inoperative.

 The closest in technical essence to the claimed is a device for protecting a three-phase electric motor from phase failure, containing three relays, each of which has a closing contact, and two phase-shifting capacitors, while the first and second phase-shifting capacitors are connected in series with the closing contacts of the second and third relays, respectively as well as three current transformers, the primary windings of which are included in the circuit of the corresponding phases, and the secondary windings through rectifier bridges are connected to smoothing capacitors with shunt resistors, three diodes, the anode of each of which is connected to the positive terminal of the rectifier bridge of the corresponding phase, the negative terminals of these bridges are connected to each other, the winding of the first relay is connected between the cathode of the first diode and the anode of the second diode, the winding of the second relay is connected between the cathode of the second the diode and the anode of the third diode, the winding of the third relay is connected between the cathode of the third diode and the anode of the first diode, the first phase-shifting capacitor is connected to one terminal the first phase, the second terminal is connected through the closing contact of the third relay to the second phase, the second phase-shifting capacitor is connected to the third phase with the other terminal, the second terminal is connected to the second phase through the closing contact of the first relay, the connection point of the output of the first phase-shifting capacitor and the third relay contact is connected through make contact of the second relay to the third phase [2]. A disadvantage of the known device is the relatively low reliability.

 The technical result of the invention is to increase reliability by providing protection for the operating engine of the critical electric drive from phase failure.

 This technical result is achieved in that in a device containing three relays, each of which has a closing contact, and two phase-shifting capacitors, while the first and second phase-shifting capacitors are connected in series with the closing contacts of the second and third relays, respectively, as a relay, control relays are used voltage, windings of the first, second and third relays are connected between the terminals for connecting the first and second, second and third and first and third phases of a three-phase electrical installation, respectively Of course, each relay additionally contains an opening contact, a circuit from a series-connected first capacitor, a closing contact of a second relay and an opening contact of a first relay connected to the corresponding extreme leads to terminals for connecting the corresponding first and second phases of a three-phase electrical installation, a circuit from series-connected second capacitor closing the contact of the third relay and the NC contact of the second relay is connected by the extreme terminals to the terminals for connecting respectively the second and third phases of the three-phase electrical installation, while the first terminals of the first and second capacitors are connected to the terminals for connecting the first and second phases of the three-phase electrical installation, respectively, and a chain of series-connected opening contact of the third relay and the closing contact of the first relay is connected between the second terminal of the first capacitor and output for connecting the third phase of a three-phase electrical installation. In addition, a three-phase electrical installation is an engine. In addition, the device contains a power module and a control unit, the input through the opening contact of the stop button connected to the terminals for connecting two phases of the network, the control unit includes a forward contactor coil and a reverse contactor coil connected through a contact block to a button "forward" and the "back" button, through the closing contacts of which the coils of the forward and reverse contactors are respectively connected to the input of the control unit, the power module contains a forward contact contactor and a reverse contactor x An ode whose closing contacts are connected in series to the open circuit of the corresponding phases between the terminals for connecting the network phases and the terminals for connecting the phases of a three-phase electrical installation. In addition, the device contains means for protecting a three-phase electrical installation against overload currents, consisting of two thermal relays, the windings of which are included in the breaks in the circuits of two phases between the terminals for connecting the phases of the network and the terminals for connecting the phases of a three-phase electrical installation, while the input of the control unit is connected to conclusions for connecting the corresponding phases of the network through series-connected open contacts of the first and second thermal relays. In addition, the device contains three fuses, each of which is connected in series to an open circuit of the corresponding phase between the terminals for connecting the phases of the network and the terminals for connecting the phases of a three-phase electrical installation.

 The drawing shows a diagram of a magnetic starter connected to a network and a three-phase motor.

 The magnetic starter contains a device 1 for protecting the motor against short circuit currents, consisting of three fuses 2, 3 and 4, a control unit 5, including contacts 6 and 7 of the thermal relays 18 and 19, coils of forward 8 and reverse 9, block contacts 10, buttons "forward" 11, "backward" 12 and "stop" 13, as well as the power module 14, containing the forward contactor 15 and the reverse contactor 16, while the block contacts 10 close the contacts of the forward contactor 15 and the reverse contactor 16 . The device also includes a means 17 for protecting the motor against overload currents, consisting of two thermal relays 18 and 19, and a node 20 for protecting the motor against phase failure, containing three phase voltage relays 21, 22 and 23 with disconnecting 24, 25 and 26 and closing 27 , 28.29 contacts, and two phase-shifting capacitors 30 and 31 connected in series with the closing contacts 25 and 26 of the second 22 and third 23 relays, respectively. The windings of the first 21, second 22 and third 23 relays are connected between the terminals for connecting the first and second and third and first third phases of the three-phase electrical installation 32, which is the motor, respectively. A chain of series-connected first phase-shifting capacitor 30, making contact 28 of the second relay 22 and opening contact 24 of the first relay 21 is connected by the corresponding extreme leads to the terminals for connecting the corresponding first and second phases of the three-phase electrical installation 32; a chain of series-connected second phase-shifting capacitor 31, making contact 29 of the third relay 23 and opening contact 25 of the second relay 22 is connected by the extreme leads to the terminals for connecting the corresponding second and third phases of the three-phase electrical installation 32, while the first conclusions of the first 30 and second 31 phase-shifting capacitors connected to the terminals for connecting the first and second phases of a three-phase electrical installation 32, respectively, and a circuit of serially connected breaking contact 26 t its relay 23 and the make contact 27 of the first relay 21 is connected between the second terminal of the first phase-shifting capacitor and the terminal for connecting the third phase of the three-phase electrical installation 32. The input of the control unit 5 is connected to the terminals for connecting the two phases of network A through the opening contact of the 13 stop button and C. Coils of the contactors of direct 8 and reverse 9 through the block contacts 10 and the closing contacts of the buttons "forward" 11 and "back" 12, respectively, are connected to the input of the control unit 5. The closing contacts of the upstream contactor 15 and the upstream contactor 16 are connected in series in the open circuit of the corresponding phases between the terminals for connecting the phases of the network A, B, and C and the terminals for connecting the phases of a three-phase electrical installation 32. The windings of the thermal relay 18 and 19 of the motor protection means 17 from overload currents are included in the breaks in the circuits of two phases between the terminals for connecting the phases of the network A, B and C and the terminals for connecting the phases of a three-phase electrical installation 32, while the input of the control unit 5 is connected to the terminals for connecting cheniya corresponding mains phase connected in series through open contacts of the first 18 and second 19 thermal relay. Fuses 2, 3 and 4 included in the device 1 for protecting the motor against short-circuit currents are connected in series in the open circuit of the corresponding phase between the terminals for connecting the phases of the network A, B, and C and the terminals for connecting the phases of a three-phase electrical installation 32.

 Magnetic starter operates as follows. In the static state, there is no mains voltage, therefore, all the elements of the magnetic starter are in the position indicated in the diagram in the drawing, while the phase-shifting capacitors 30 and 31 are not charged and the direct 8 and 9 reverse coils are de-energized, the motor 32 does not rotate. The positions of the elements of the magnetic starter will not change if the mains voltage is supplied, but the buttons "forward" 11 and "back" 12 are not closed.

If there is a mains voltage and pressing the button "forward" 11, a closed circuit is formed: the output of the third phase network C - terminal 6 of the thermal relay - terminal 7 of the thermal relay - coil 8 forward - closing contact of button 11 "forward" - opening contact of button 12 "back "- NC contact of the button 13" stop "- output of the network of the first phase A. In this case, the forward coil 8 is activated, its block contact 10 is closed and the power contacts of the forward contactor 15 of the power module 14 are closed and the three-phase network voltage is supplied to the motor 32 through n fuses of 2-4 phases of the device 1 for protecting the motor against short circuit currents, the direct contactor 15 of the power module 14, thermal relays 18, 19 and the means 17 for protecting the motor from overload currents, bypassing the elements of the motor protection unit 20 against phase failure, since the triggered relays 21 ... 23 break the charging circuits of the phase-shifting capacitors 30 and 31 using the disconnecting contacts 24, 25 and 26, while the motor 32 comes into rotation. The engine 32 is stopped by pressing the stop button 13, and the engine 32 is reversed by pressing the back button 12. In this case, a closed circuit is formed: the output of the third phase network C - terminal 6 of the thermal relay - terminal 7 of the thermal relay - coil 9 reverse - closing contact of the button 12 "back" - opening contact of the button 11 "forward" - opening contact of the button 13 "stop" - the output of the network of the first phase A, which leads to the operation of the reverse coil 9 and the closure of the block contact 10, which enables the reverse contactor 16 of the power module 14 to be turned on, while the voltage supply circuit from the network through all the elements of the magnetic starter to the motor 32 remains the same . When a short circuit occurs in the magnetic starter or motor 32, fuses 2 ... 4 of the motor protection device 1 from short circuit currents are activated and interrupt the path of short circuit currents. With long overload currents, thermal relays 18 and 19 of the motor protection means 17 protect against overload currents trip and open the contacts 6 and 7 of the thermal relays of the control unit 5, excluding the possibility of further operation of the motor 32 in both forward and reverse directions. When any of the phases of the network is interrupted, the node 20 for protecting the motor from phase failure enters the operation, the functioning mechanism of which will be considered as an example of phase C failure. The absence of voltage in this phase will cause only one voltage control relay 21 to operate, which will close its make contact 29, providing a path for the charging current of the phase-shifting capacitor 30 and the formation of a faulty phase from the adjacent phase. If phase B is interrupted, only the monitoring relay 23 will operate, which, closing the make contact 28, will provide the charging current path for the phase-shifting capacitor 31 and the faulty phase will be restored. When the phase of the network A breaks, only the voltage control relay 22 will operate, which will close the make contact 27 and the phase-shifting capacitor 30 will be charged along the upper circuit: phase B is the make contact 27 and the make contact 24. In all three cases, the motor 32 will operate at the rated speed , since the time of formation of the faulty phase will be determined only by the time constant:
τ = rC,
where r is the resistance of the motor phase;
C is the capacitance of the capacitor.

 Thus, when any phase of the network is interrupted, the faulty phase receives voltage from the adjacent phase located clockwise by means of a phase-shifting capacitor, the opening contact of the faulty voltage control relay and the closing contact of the adjacent phase voltage control relay, which achieves the required technical effect , i.e. the proposed magnetic starter ensures continuous operation of the critical drive motor when any of the network phases is interrupted.

Sources of information
1. A.A. Chunikhin, Electrical apparatuses, M .: Energoatomizdat, 1988, p. 330, fig. 8.13
2. A.S. 734844, M. Cl. ² H 02 H 7/09, 12.20.77.

Claims (4)

 1. A magnetic starter containing three relays, each of which has a closing contact, and two phase-shifting capacitors, while the first and second phase-shifting capacitors are connected in series with the closing contacts of the second and third relays, respectively, characterized in that a power module and an input control unit are introduced through the opening contact of the stop button, connected to the terminals for connecting two phases of the network, the control unit includes a forward contactor coil and a reverse contactor coil, through bl ok contacts connected to the forward button and the back button, through the closing contacts of which the coils of the forward and reverse contactors are respectively connected to the input of the control unit, the power module contains a forward contact contactor and a reverse contactor, the closing contacts of which are connected in series open circuits of the corresponding phases between the terminals for connecting the network phases and the terminals for connecting the phases of a three-phase electrical installation, as a relay, voltage monitoring relays, windings of the first, second о and the third relay are connected between the terminals for connecting the first and second, second and third and first and third phases of a three-phase electrical installation, respectively, each relay additionally contains an NC contact, a circuit of a series-connected first capacitor, a NO contact of the second relay and an NC contact of the first relay connected by the corresponding extreme leads to the leads for connecting the corresponding first and second phases of a three-phase electrical installation, a chain of series-connected in the second capacitor, the make contact of the third relay and the make contact of the second relay are connected by the extreme terminals to the terminals for connecting the corresponding second and third phases of the three-phase electrical installation, while the first conclusions of the first and second capacitors are connected to the terminals for connecting the first and second phases of the three-phase electrical installation, respectively, and a chain of series-connected opening contact of the third relay and the closing contact of the first relay is connected between the second terminal of the first condensers and the terminal for connecting the third phase of the three-phase electrical installation.  2. The device according to claim 1, characterized in that it contains means for protecting the three-phase electrical installation from overload currents, consisting of two thermal relays, the windings of which are included in the breaks in the circuits of two phases between the terminals for connecting the network phases and the terminals for connecting the phases of a three-phase electrical installation while the input of the control unit is connected to the terminals for connecting the corresponding phases of the network through series-connected open contacts of the first and second thermal relays.  3. The device according to any one of paragraphs. 1 and 2, characterized in that it contains three fuses, each of which is connected in series to the open circuit of the corresponding phase between the terminals for connecting the phases of the network and the terminals for connecting the phases of a three-phase electrical installation.  4. The device according to any one of paragraphs. 1-3, characterized in that the three-phase electrical installation is an engine.