RU126527U1 - PROTECTIVE SHUT-OFF DEVICE - Google Patents

Abstract

1. A residual current device comprising a differential current transformer, a comparison unit, an actuator and a status indicator of the residual current device, characterized in that the differential current transformer contains primary windings in the number of supply wires of the electric network and one secondary winding to which the actuator is connected, connected to the contact group and the comparison unit, while the control input of the device status indicator is connected to the control output of the comparison unit aschitnogo off, and power inputs of the comparator are connected to the terminals of one of the phase conductors and the neutral conductor sootvetstvenno.2 network. A residual current device comprising a differential current transformer, a comparison unit, an actuator and a status indicator of the residual current device, characterized in that the differential current transformer contains primary windings by the number of supply wires of the electrical network and one secondary winding to which the actuator connected to contact group, while an additional differential current transformer containing primary voltages is introduced into the residual current device the number of supply wires of the electric network and one secondary winding to which the comparison unit is connected, while the control output of the comparison unit is connected to the control input of the status indicator of the protective shutdown device, and the power inputs of the comparison unit are connected to the terminals of one of the phase wires and the neutral wire networks respectively. 3. Residual current device, with

Description

The utility model relates to residual current circuit breakers, in particular, to circuit breakers controlled by household differential current, designed to protect people from electric shock in the event of a single-phase contact with live parts of electrical equipment connected to a power supply network with dead-grounded neutral, or turned on under voltage non-conductive parts as a result of damage to the insulation of live parts.

A device is known for protective shutdown in an alternating current electric network with grounded non-neutral (RU 2124794 C1, Н02Н 3/16, 01/10/1999), comprising a circuit breaker with an independent release coil, a differential current transformer with primary windings according to the number of supply wires of the electric network and one a secondary winding and a threshold element with an output key and a power node, the power leads of which are connected to one of the phase wires and to the neutral wire of the network, respectively, while the terminals of the secondary winding are different A potential current transformer is connected to the input of the threshold element, a two-anode zener diode and a resistor, while an additional winding is introduced into the differential current transformer, one terminal of which is connected to ground, and the other terminal is connected through a series-connected two-anode zener diode and a resistor with a zero wire and through series-connected output key, shunt coil and rectifier with phase conductor.

The disadvantages of the known device for protective shutdown in an electrical network of alternating current with a grounded netral is that the threshold element of the device for protective shutdown works from the power supply, i.e. its operation depends on the availability of external power. Thus, during power surges or the occurrence of interference in the network, there is a probability of failure of the entire protective shutdown device.

The closest in technical essence to the proposed utility model is a residual current device disclosed in the patent for utility model RU 31688 U1, H01H 71/00, 08/20/2003. The residual current device contains a differential current sensor, a comparison device and an actuator, in the control circuit of which a key is connected, the input of which is connected to the output of the said comparison device, and also contains a capacitor connected through the rectifier to the network, and a status indicator of the residual current device connected to capacitor through the key.

The disadvantage of this protective shutdown device is also its dependence on external power and the status indicator of the protective shutdown device, which gives a glimpse or a short sound signal only when the protective shutdown device is turned off, which is insufficient for timely notification of shutdown of the protective shutdown device.

The technical result achieved by the claimed utility model is to increase the reliability and safety of the protective shutdown device, through the use of an electromechanical actuator and the notification of a possible shutdown, as well as by dividing the shutdown and warning circuits in the protective shutdown device.

The specified technical result is achieved by the fact that in the residual current device, which contains the differential current transformer, the comparison unit, the actuator and the status indicator of the residual current device, according to the utility model, the differential current transformer contains primary windings by the number of supply wires of the electric network and one secondary winding, to which the actuator connected to the contact group and the comparison unit are connected, while the control output of the unit is compared i connected control input indicator tripping device status and power inputs of comparator unit, connected to the terminals of one of the phase conductors and the neutral conductor network, respectively.

Also, the specified technical result is achieved by the fact that in the residual current device, which contains the differential current transformer, the comparison unit, the actuator and the status indicator of the residual current device, according to the utility model, the differential current transformer contains primary windings by the number of supply wires of the electric network and one secondary the winding to which the actuator connected to the contact group is connected, while in addition to the residual current circuit breaker an integral differential current transformer containing primary windings by the number of supply wires of the electric network and one secondary winding to which the comparison unit is connected, while the control input of the status indicator of the protective shutdown device is connected to the control output of the comparison unit, and the power inputs of the comparison unit are connected to the terminals one of the phase wires and the neutral wire of the network, respectively.

Also, the specified technical result is achieved by the fact that in the residual current device, which contains the differential current transformer, the comparison unit, the actuator and the status indicator of the residual current device, according to the utility model, the differential current transformer contains primary windings by the number of supply wires of the electric network and a secondary winding which is connected to the actuator associated with the contact group, and an additional secondary winding to which the unit is connected alignment, and the comparison to the control output connected to the control input of the indicator tripping device status block, and inputs the comparison power supply are connected to the terminals of one of the phase conductors and neutral wires network respectively.

The protective shutdown device performs the function of protecting a person from electric shock in case of accidental contact with live parts of electrical equipment and the function of warning about a insulation defect in the network.

Figure 1 shows a first embodiment of a functional diagram of a residual current device.

Figure 2 shows a second embodiment of a functional diagram of a residual current device.

Figure 3 shows a third embodiment of a functional diagram of a residual current device.

Figure 4 shows the actuator of the residual current device.

In the first embodiment of the utility model, the residual current device comprises a differential current transformer 1, a comparison unit 2, an actuator 3 and a status indicator 4 of a residual current device, a differential current transformer 1 contains primary windings according to the number of supply wires of the electric network and one secondary winding 5 to which the actuating element 3 connected to the contact group 6 and the comparison unit 2 is connected, while the control input is connected to the control output of the comparison unit 2 indicator 4 of the status of the protective shutdown device, and the power inputs of the comparison unit 2 are connected to the terminals of one of the phase wires and the neutral wire of the network, respectively.

In the second embodiment of the utility model, the comparison unit 2, to the control output of which is connected the control input of the status indicator 4 of the residual current device, is connected to the secondary winding 8 of an additional differential current transformer 7, which contains primary windings by the number of supply wires of the electrical network and is inserted into the protective device shutdowns according to the second embodiment of the utility model, while the power inputs of the comparison unit 2 are connected to the terminals of one of the phase conductors and neutral wire network, respectively.

In the third embodiment of the utility model, in the residual current device, the differential current transformer 1 comprises primary windings according to the number of supply wires of the electric network, a secondary winding 5 to which an actuating element 3 connected to the contact group 6 is connected, and an additional secondary winding 9 to which the comparison unit 2 is connected, while the control input of the status indicator 4 of the protective shutdown device is connected to the control output of the comparison unit 2, and the power inputs of the comparison unit 2, sub are connected to the conclusions of one of the phase wires and the neutral wire of the network, respectively.

The device operates as follows.

In an electric network with a grounded neutral, the principle of isolating differential current (leakage) to earth is used when building equipment for protection against electric shock. This current 1d is the difference between the current I] entering the load from the network and the current 12 coming out of the load into the network. The differential current is formed in the case of a person touching a live part or in case of insulation damage, breakdown of insulation to earth. As a sensor that distinguishes the indicated current difference, a differential current transformer 1 is used, the primary winding of which is the supply wires of the electric network (phase or phase), folded together and passed through the hole in the ring magnetic core, and the neutral wire going to the load side, and the secondary winding 5 is wound over a magnetic core. The secondary winding 5 is made of wire. In a third embodiment of the utility model, the additional secondary winding 9 is also made of wire and wound onto a magnetic core.

The additional differential current transformer 7 and the secondary winding 8 are identical to the differential current transformer 1 and the secondary winding 5.

In normal operation of the load, the magnetic flux generated by the phase and zero conductors in the magnetic core of the differential current transformer 1 is compensated and the resulting flux is close to zero. In the secondary winding 5 and (or) the additional secondary winding 9, the voltage is zero. The actuator 3 is connected to the secondary winding 5 and connected to the contact group 6.

In all embodiments of the utility model, the actuator 3 acts as follows. When there is no leakage and, accordingly, when there is no differential current, the movable lever 10 of the actuating element 3 is pulled by a permanent magnet 11 to the specified magnet 11. If a differential current occurs in the mains or in the electrical circuit of the electrical equipment, then the secondary winding 5 of the differential transformer and, accordingly, the executive coil 12 element 3 current flows. The coil 12 of the actuator 3 is mounted so that the magnetic flux generated by it is counter-directed to the magnetic flux of the permanent magnet 11. Thus, the magnetic flux of the permanent magnet 11 is weakened by the magnetic flux of the coil 12 connected to the secondary winding of the current differential transformer 1, and the movable arm 10 under the action of the spring 13 is activated, and pushing the connector 14, opens the contacts of the contact group 6.

When a differential current occurs in the network, in all embodiments of the utility model, the comparison unit 2, the power inputs of which are connected to the terminals of one of the phase wires and the neutral wire of the network, respectively, captures the differential current. When fixing the threshold value of the differential current established by the regulatory documents (Electrical Installation Rules) in the network, the comparison unit 2 transmits a signal about its presence through the control output to the control input of the status indicator 4 of the residual current device. The status indicator 4 of the residual current device changes the signal color. For example, green is used to signal normal operation, red is used to signal that the differential current threshold has been reached.

The status indicator 4 of the residual current device is a multi-color LED. In addition, it is possible to connect an external status indicator of the residual current device through a contact group, additionally derived from the comparison unit 2.

The display continues until the insulation defect is removed.

Thus, increasing the reliability of the residual current circuit breaker, in the first embodiment of the utility model, is achieved due to the fact that the operation of the actuating element does not depend on the availability of external power. Improving the safety of the residual current device is achieved due to the fact that a comparison unit 2 is inserted into the device, which fixes the threshold value of the differential current and the status indicator 4 of the residual current device, which notifies the user of the threshold value of the differential current.

In the second embodiment of the utility model, increasing the reliability of the residual current device is achieved by galvanic separation of the actuator and the comparison unit with the status indicator of the residual current device connected to it, which eliminates the influence of interference from the display circuit on the trip circuit.

In the third embodiment of the utility model, increasing the safety of the residual current circuit breaker is achieved by expanding the measuring range of the differential current, due to the possibility of increasing the number of turns of the secondary winding of the measuring circuit, which increases the useful signal of the presence of differential current.

Claims (3)

1. A residual current device comprising a differential current transformer, a comparison unit, an actuator and a status indicator of the residual current device, characterized in that the differential current transformer contains primary windings in the number of supply wires of the electric network and one secondary winding to which the actuator is connected, connected to the contact group and the comparison unit, while the control input of the device status indicator is connected to the control output of the comparison unit aschitnogo off, and power inputs of the comparator are connected to terminals of one of the phase conductors and the neutral conductor network, respectively. 2. A residual current device comprising a differential current transformer, a comparison unit, an actuator and a status indicator of the residual current device, characterized in that the differential current transformer contains primary windings in the number of supply wires of the electric network and one secondary winding to which the actuator is connected, associated with the contact group, while an additional differential current transformer containing primary windings by the number of supply wires of the electric network and one secondary winding to which the comparison unit is connected, while the control input of the comparison unit is connected to the control input of the status indicator of the protective shutdown device, and the power inputs of the comparison unit are connected to the terminals of one of the phase wires and the neutral wire network respectively. 3. A residual current device comprising a differential current transformer, a comparison unit, an actuator and a status indicator of the residual current device, characterized in that the differential current transformer contains primary windings in the number of supply wires of the electrical network and a secondary winding to which the actuator connected with a contact group, and an additional secondary winding to which the comparison unit is connected, while up to the control output of the comparison unit the branching input of the status indicator of the residual current device, and the power inputs of the comparison unit are connected to the terminals of one of the phase wires and the neutral wire of the network, respectively.

Images