RU2077085C1 - Single-pole switch with neutral differential circuit - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: switch has differential transformer with annular core placed between first pair of primary phase winding conductors and second pair of primary neutral winding conductors. Primary phase winding is connected by phase circuit of supply end and primary neutral winding, by neutral circuit of load end. Two leads of check are connected to phase contacts on load side and to neutral contacts. EFFECT: improved design. 4 cl, 6 dwg

Description

The invention relates to a single-pole switch with a neutral differential circuit, enclosed in a dielectric casing, separated by a dividing wall into two adjacent parts, containing:
a first compartment of a circuit breaker comprising a phase circuit having a stationary phase contact, a movable phase contact, a magnetic and thermal switching mechanism with a bimetallic strip and a winding, a neutral circuit having a standard neutral contact and a movable neutral contact, a first pair of a neutral side and a load side of neutral terminals, and the first mechanism for manual operation by means of a control lever and for automatic operation by means of a magnetic and thermal shutdown mechanism;
a second differential protection compartment comprising a differential transformer with a magnetic ring core carrying a primary phase winding, a primary neutral winding and a secondary measuring winding associated with a shutdown relay operating in conjunction with a second shutdown mechanism mechanically coupled to the first mechanism, with a control circuit with a control resistor and a push button, as well as provided holes located in the dividing wall for passing the connecting conductors, giving f the ability of the primary phase and neutral windings, respectively, to connect in phase and neutral circuit;
on the linear side, phase and neutral terminals located next to each other on one of the narrow surfaces of the housing;
and on the loaded side, phase and neutral terminals located adjacent to each other on opposite sides of the housing.

 A differential circuit breaker of this type is known from French patent A-2662017, owned by the applicant. The holes for the passage of the connecting conductors of the primary phase and neutral windings are located on one side of the annular core in the gap between the loading side of the phase terminal and the exit zone of the quenching chamber of the electric arc of the phase circuit. Four holes located in one vertical plane have axes perpendicular to the dividing wall and are located at a small distance from each other. Such limited sizes do not allow to automate the receipt of electrical connections by electric welding of four connecting conductors with the ends of the primary windings of a differential transformer. The welding of these compounds has to be done manually with the addition of tin solder. This leads to problems in production productivity and electric strength caused by the fact that sections of conductors of different potentials are located close to each other.

 The objective of the invention is to improve the dielectric resistance of the electric strength of a single-pole switch with a neutral differential circuit and the possibility of electrical connection of the differential transformer using an automatic welding machine.

 In accordance with the invention, the problem is solved in that the ring core is located between the first and second pairs of connecting conductors, so that the connection of the primary phase and neutral windings is performed either by the linear side or the load side, or the load side and the linear side of the phase and neutral circuits, while two The ends of the neutral circuit are simultaneously connected either on the load side or on the linear side by phase and neutral contacts.

 Four connecting conductors contain protruding contacts made of conductive material, hanging overhanging and extending parallel to each other in a direction perpendicular to the dividing wall, with a recess for positioning at the end of each contact, into which the corresponding end of the phase or neutral primary winding is installed. Such a device allows the electrodes of the welding machine to pass to automatically connect the primary windings to the contacts. The dielectric resistance is improved as the potential difference moves to either side of the annular core.

 In accordance with the invention, the first pair of connecting conductors of the primary phase winding is electrically connected to the bimetallic strip and the phase terminal of the linear side. The second pair of connecting conductors of the primary neutral winding is electrically connected to the neutral terminal of the load side and a stationary neutral contact. The electrical connection of the control circuit is made in the second compartment using a terminal tip for connection to the horn of a spark gap in connection with a stationary phase contact and a link conductor connected to a connecting conductor in connection with a stationary neutral contact.

 In FIG. 1 is a perspective view of a schematic wiring of a single-pole neutral differential circuit breaker in accordance with the invention; in FIG. 2 is a schematic view of the neutral circuit of the circuit breaker of FIG. one; in FIG. 3 is a schematic view of the phase circuit of the circuit breaker of FIG. one; in FIG. 4 is a schematic view of a second differential protection compartment; in FIG. 5 is a detailed perspective view of the second compartment of FIG. 4; in FIG. 6 is an enlarged view of a control circuit associated with a second shutdown mechanism.

 In FIG. 1-6, a single-pole circuit breaker 10 with a neutral differential circuit is enclosed in a dielectric housing 12, divided by a middle partition wall 14 into two adjacent parts, comprising a first compartment 16 of a circuit breaker and a second compartment of type 17 differential protection described in French Patent 2662017.

 The first compartment of the circuit breaker 16 contains a phase circuit 20 and a neutral circuit 22, separated from each other by a partition 24 and connected, respectively, to the first pair of phase terminals 26, 28 and the second pair of neutral terminals 30, 32. Two terminals of the linear side 26, 30 are placed side by side on one narrow side surface 31 of the housing 12, while two terminals of the load side 28, 32 are located next to each other on the other opposite side 33 of the surface.

 The phase circuit (FIGS. 1 and 3) contains a movable contact 34, electrically connected to the terminal of the linear side 26 using a cut-off mechanism with a bimetallic strip 35, and a stationary contact 38 is connected to an excitation coil 40 of an electromagnetic cut-off mechanism 42. The first arc extinction chamber 44 located between the electromagnetic switch mechanism 42 and the rear plate of the housing 12 and contains a set of plates of deionization of the arc arising between the contacts 34, 38.

 The neutral circuit 22 (FIGS. 1 and 2) is equipped with a stationary contact 48, electrically connected via a braided strip 49 to the terminal 30 and a second extinction chamber 50 of the electric arc 50. The neutral circuit 22 is located to the left of the phase circuit 20 and does not have a magnetic and thermal switching mechanism .

 The two movable contacts 34, 48 are driven by the first hand-operated mechanism 52 using a lever 53 and are automatically controlled by a thermal shut-off mechanism with a bimetallic strip 36 and an electromagnetic shut-off mechanism 42 with a coil 40. The first mechanism 52 may be of the type described in French patent 2616583 .

 The second compartment 18 (Figs. 1, 4 and 5) is located to the right of the first compartment 16 and contains a differential transformer 54 having a secondary winding 59 connected to an off relay 56, working in conjunction with the second mechanism 58 with the reset lever 60. The second mechanism 58 connected to the first mechanism 52 using mechanical connections (not shown), allowing the circuit breaker 10 to be disconnected by a signal from the relay 56 and the continuous reinstallation of the second mechanism 58. The second mechanism 58 may be of the type described in French patent 262 8262.

 The differential transformer 54 comprises a magnetic ring core 62 carrying a phase primary winding 64 and a secondary measuring winding 59, as well as a neutral primary winding 66. A short to ground causes an imbalance between the primary currents flowing in the primary windings 64, 66, and the voltage generated on the terminals of the secondary winding 59, exciting the off relay 56.

 Placing the two-phase and neutral primary windings 64, 66 in the second compartment of the differential protection 18 requires that two pairs of corresponding connecting conductors 68, 70; 72, 74 (FIG. 5) passed horizontally through the middle wall 14 through four corresponding holes 76, 78; 80, 82 (Fig. 4).

 The neutral primary winding 66 is connected in series with the neutral circuit 22 by interrupting the connection between the stationary neutral contact 46 and the neutral terminal of the load side 32 (FIGS. 1 and 2). Two holes 80, 82 of the connecting conductors 72, 74 are separated from each other by a predetermined gap, both of which are located on one side, significantly to the left of the differential transformer 54.

 In accordance with the invention, two holes one above the other 76, 78 of the other pair of connecting conductors 68, 70 connected to the primary phase winding 64 are located to the right of the differential transformer 54. The phase primary winding 64 is connected to the linear side of the phase circuit 20, i.e. . in the part located between the phase contacts 34, 38 and the phase terminal of the linear side 26. The neutral primary winding 66 is connected to the load side of the neutral circuit 22, i.e. in the part located between the neutral contacts 46, 48 and the neutral terminal of the load side 32.

 The connecting conductor 70 passing through the lower hole 78 is connected to the base of the bimetallic strip 36, and the other connecting conductor passing through the upper hole 76 is connected to the contact strip of the phase terminal of the linear side 26.

 Four connecting conductors 68, 70; 72, 74 contain protruding contacts made of a conductive material, made overhanging and extending parallel to each other in the direction of the perpendicular wall 14. In each contact (FIGS. 5 and 6), a positioning recess 84 is provided in which a corresponding phase or neutral primary end is installed windings 64, 66.

 Two interruption zones of the phase circuit 20 and the neutral circuit 22 for electrically connecting the primary windings 64, 66 are located in different places on opposite sides of the differential transformer 54 and close to opposite surfaces 31, 33 of the housing 12. This arrangement facilitates the automation of electric welding of the ends of the primary windings 64, 66 in the recess 84 contacts, and also improves the dielectric resistance of the switch 10.

 The second mechanism 58 is equipped with a control device 86 (Fig.6), located in the second compartment 18, and having a push button 88, designed to start by sliding between the upper position of the switch and the pressed lower position. The resistor 90 is inserted into the control circuit 92, connected between the connecting tip 94 of the phase circuit 20 and the connecting conductor 72 of the primary neutral winding 66. The resistor 90 is connected in series with the first protective switch 96 activated by the mechanism 58 and the second control switch 98 triggered by the push button 88 The protective switch 96 is made using a flexible conductive blade 100 located in the closed position at the end of the output of the resistor 90 when the mechanism 58 is in a loaded state. The control switch 98 contains a thread 102 of the conductive spring, designed to interact in the pressed position of the push button 88 with the conductor link 104, electrically connected to the connecting conductor 72.

 The connection of the resistor 90 in the circuit occurs when both switches 96, 98 are closed, i.e. in the loaded state of the mechanism 58 and in the pressed position of the push button 88. This leads to the fact that the control current in the resistor 90, which is detected by the differential transformer 54, causes the second mechanism 58 to turn off. The rotation of the rotary plate 106 of the mechanism 58 causes the first protective switch to open automatically 96, which leads to the interruption of the control current in the resistor 90, even if the push button 88 remains held pressed.

 It can be noted that the electrical connection of the control circuit 92 takes place in the second compartment 18, and the control information is collected on the load side from the neutral and phase contacts. The tip 94 connecting the resistor 90 to the phase circuit 20, passes through the middle wall 14 and is at the potential of the upper horn of the arrester 108 in connection with the stationary phase contact 38. The other end of the control circuit 92 is formed by a link of the conductor 104 connected to the connecting conductor 72 in connection with the stationary neutral contact 46. This connection of the control circuit 92 with the phase contact of the load side and the neutral contact is necessary to guarantee the reliability of the differential circuit of the switch 10 when The control is performed and significantly prevents the phase potential of the linear side from being transmitted to the neutral circuit of the load side when the push button is engaged.

 Naturally, it is possible to reverse the electrical connections of the linear side and the load side of the primary windings 64, 66. The phase primary winding 64 is then connected to the load side by phase contacts 34, 38, and the neutral primary winding 66 from the linear side of the neutral contacts 46, 48.

 According to an alternative embodiment of the invention, the two ends of the control circuit 92, instead of being connected to the load side (FIG. 6), can be simultaneously connected to the phase contacts 34, 38 and the neutral contacts 46, 48 of the linear side.

Claims (4)

 1. A single-pole switch with a neutral differential circuit located in a dielectric housing divided by a dividing wall into two adjacent parts and containing a first compartment of a switch containing a phase circuit having a fixed phase contact, a movable phase contact, an electromagnetic mechanism with a coil and a thermal switching mechanism with a bimetallic a strip, a neutral circuit having a fixed neutral contact and a movable neutral contact, the first pair of phase terminals of the linear side and the load second side, a second pair of neutral terminals of the linear side and the load side and the first mechanism with manual control by means of a control lever and with automatic operation by means of electromagnetic and thermal shutdown mechanisms, the second differential protection compartment containing a differential transformer with a magnetic ring core carrying the primary phase winding, the primary neutral winding and the secondary measuring winding associated with the tripping relay, interacting with the second tripping m by a mechanism mechanically connected with the first mechanism, and a control unit containing a resistor and a push button, as well as in the separation wall, holes are made for passing connecting conductors designed to connect the primary phase and neutral windings, respectively, to the phase and neutral circuits, on the linear side the phase and neutral terminals are located nearby on one of the narrow surfaces of the housing; on the load side, phase and neutral terminals are located nearby on the opposite side of the housing, exl characterized in that the annular core is located between the first pair of connecting conductors passing through the corresponding holes in the separation wall, the primary phase and neutral windings being connected respectively from either the linear and load sides or from the load and linear sides of the phase and neutral circuits, the two ends of the control unit are connected simultaneously simultaneously with either the load or linear side by means of phase and neutral contacts.  2. The switch according to claim 1, characterized in that the four differential conductors in the differential circuit contain protruding contacts made of conductive material located overhanging or extending parallel to each other in a direction perpendicular to the dividing wall, and a recess is made at the end of each contact in which the corresponding end of the primary phase or neutral winding is installed.  3. The switch according to claim 1 or 2, characterized in that in the differential circuit, the first pair of connecting conductors of the primary phase winding is electrically connected to the bimetallic strip and from the linear side to the phase output, and the second pair of connecting conductors of the primary neutral winding is electrically connected to the load side with neutral terminal and fixed neutral terminal.  4. The switch according to claim 3, characterized in that in the differential circuit the electrical connection of the control unit is made in the second compartment by means of an output terminal designed to connect the resistor to the arrester horn connected to the stationary phase contact and the conductor link connected to the connecting conductor connected with stationary neutral contact.

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