SU1140201A1 - Device for protection of electric installation - Google Patents

Abstract

1. APPARATUS FOR ELECTRICAL INSTALLATION PROTECTION, containing a voltage sensor connected to the network, a measuring bridge with an actuating element in one arm and a threshold element in the diagonal, a capacitor connected in parallel with the first branch of the bridge, a diode connected to the input circuit of the specified branch of the zener diode and control The switching element of the actuating element is an element in an electrical installation circuit, characterized in that, LSCL, in order to increase the reliability of electrical installation protection and personnel safety, it additionally introduces a second element oh and the third zener diodes, a potentiometer, a second capacitor and a resistor connected in parallel, a second diode, a control element and an insulation resistance control sensor, whose input is connected to one of the phases before and after the switching element, and the output to one of the threshold element inputs, the bridge branches are shunted by the first zener diode and connected by the first terminal to the output of the voltage sensor through a series of valuable second zener diodes and a potentiometer, the output of which is connected to one of the pores via the third zener diode The second element of the bridge is connected to the negative terminal, and the output of the first branch of the bridge is connected to the output of the second branch of the bridge through a series-connected resistor, a second diode and a control element.

Description

2. The device according to claim 1, characterized by the fact that in order to control the presence of the ground, one of the second terminals of the first or second branch of the bridge is connected to the electrical installation case. 3. The device according to claim 1, which is so that in order to offset from short-term network voltage increases above 01. allow a maximum of two diodes and a parallel connected capacitor and a resistor to be added to the device, , the potentiometer output through one of the diodes, the third Zener diode and the indicated resistor and capacitor is connected to the minus bus, and the common point of the Zener diode and the resistor is connected to the first input of the threshold element through the other diode.

The invention relates to electrical engineering and is intended to protect electrical installations from abnormal operating conditions.

A device for protecting an electrical installation is known, comprising a switch in its input circuit, a monitoring and control unit controlling the switch, and current sensors whose output is connected to the input of the monitoring and control node 1J.

Odaako, this device does not provide control over the insulation resistance of the electrical installation and the state of its grounding, which reduces the reliability of the electrical installation and the safety of personnel. The latter is due to the complex design of the device.

Closest to the present invention is a device comprising a voltage sensor connected to a network, a measuring bridge with an actuating element in one arm AND a threshold element in a diagonal, a capacitor connected in parallel with the first branch of the bridge, a diode connected to the input circuit of the specified branch of the bridge, a zener diode and the executive element of the switching element in the circuit of the input of the power supply unit 2.

A disadvantage of this device is the lack of monitoring of the insulation resistance of electrical installation elements relative to the housing, the value of network voltage to the maximum, as well as the absence of detuning from short-term network voltage drops or non-simultaneous input of network voltage and electrical installation terminals and lack of control over the presence of grounding electrical enclosures. This reduces the reliability of the electrical installation and does not provide sufficient safety of personnel in the absence of electrical installation grounding and a decrease in the insulation resistance of electrical installation elements below the permissible value. In addition, the lack of control over the insulation resistance prevents its deterioration at an early stage and ultimately leads to a further deterioration of the insulation and the electrical installation fails, and then to significant capital costs for electrical installation repairs. The discovery of an early stage of deterioration of the insulation resistance allows one to eliminate or reduce capital costs by timely drying the elements of an electrical installation with a direct current in a timely manner under | 1zolirovaniya disturbed area at the stage of maintenance.

The Chain of Invention - improving the reliability of electrical installation protection and personnel safety.

The goal is achieved by the fact that a device for protecting an electrical installation, containing a voltage sensor connected to the network, a measuring bridge with an actuator in one arm and a threshold element in the dial-on, a capacitor connected in parallel with the first branch of the bridge, a diode connected the input circuit of the indicated branch of the bridge, the zener diode and the switching element controlled by the actuator in the electrical installation circuits, the second and third zener diodes, a potentiometer, the second conde connected in parallel a sator and a resistor, a second diode, a control element and an insulation resistance monitoring sensor, whose input is connected to one of the phases before and after the switching element, the output is to one of the inputs of the threshold element, the bridge branches are bridged by the first zener diode and connected by the first clip to the output a voltage sensor through a series-connected second Zener diode and a potentiometer, the output of which is connected to one of the inputs of the threshold element via the third Zener diode, the second clamp of the bridge branches is connected to the negative busbar, and the output the bridge branch is connected to the output of the second bridge branch via a series connection of a resistor, diode and second control evil cop. To monitor the presence of grounding, one of the second terminals of the first or second branch of the bridge is connected to the electrical installation case. In order to offset the short-term network voltage increases, the admissible maximum was additionally introduced to the device by two diodes and a parallel connected capacitor and resistor, with the output of the potentiometer through one of the diodes, the third Zener diode and the indicated resistor And the capacitor is connected to the negative bus, and the common point is ; a chitron and a resistor are connected to a power input of the threshold element through another diode. The drawing shows a diagram of the proposed device. The device contains a voltage sensor 1 connected to the network, a measuring bridge on the diode 2 and connected in parallel to condenser 3, resistor 4, executive element 5, potentiometer 6 and threshold element 1 in the diagonal, zener diode 8 and switching element 9 controlled by the actuating element In the electrical installation circuit 10. A second 11 and third 12 zener diodes, a potentiometer 13, a parallel-connected capacitor 14 and a pie3HCTOp 15, a second diode 16, a control element 17 and an insulation resistance control sensor 18, i d that. connected to one of the phases of the network before and after the switching element 9, and the output to one of the inputs of the threshold element 7. The bridge branches are bridged by the first zener diode 8 and connected by the first clip to the output of the chbr sensor 1) second connected zener diode 11 and potentiometer 13 whose output through the third Zener diode 12 is connected to one of the inputs of the threshold g; cement 7- The second terminal of the branches of the bridge is connected to the minus bus, and the output of the first branch of the bridge is connected to the output of the second branch of the bridge through the series-connected re hist 15, second diode 16 and the control yupschy member 17 made of, for example, zamykayuschems contact actuator 5 or 9 of the switching elements. The executive element 5 controls the com- pliance element 9 by means of the closing contact 19. The control diode 1 of the 14th element 7 includes a separation diode 20. The capacitor 21 provides -the on-off switching of the threshold element 7, the sensor of the insulation resistance monitoring can be performed on the series-connected diode and potentiometer, the output of which is bypassed by a capacitor and through the second threshold element, the second resistor is connected to the input of the sensing element (not shown). In addition, two diodes 22 and 23 were added to the device to tune off short-term raises of the mains voltage above the permissible maximum, capacitor 24 and resistor 25 connected in parallel. In this case, the output of potential meter 13 through diode 23, the third Zener diode 12 and the indicated capacitor 24 and resistor 25 is connected to the minus bus, and the common point of the Zener diode 12 and the resistor 25 is connected to the first input of the threshold element 7 via diode 22. To monitor the presence of grounding, one of the second terminals of the first or second branch of the bridge n with the case of electrical 10, for example, directly or through a thermal sensor 26. The device operates as follows. In the initial state, the electrical installation 10 is disabled. All circuit elements are de-energized. When voltage sensor 1 is turned on, capacitor 3 is charged through Zener diode 11, potentiometer 13 and diode 2 until voltage stabilizes Zener diode 8. Due to charge of capacitor 3, actuator 5 is shunted, therefore actuator 5 and switching element 9 with electrical installation 10 are disconnected. In the absence of an incomplete power supply mode, permissible symmetry of the supply voltage (the voltage across the phases is not less than 0.9 nominal) and at the end of the charge of the capacitor 3, the actuating element 5 turns on and closes its contact 19 in the circuit of the switching element 9. The switching element 9 turns on and connects the electrical installation 10 to the network. When switching on the actuator 5 or the switching element 9, the contacts of the control element 17 are closed, and the voltage from the output of the actuator 5 through the capacitor 14 with the resistor 15, the diode 16 to the control element 17 goes to the output of the potentiometer 6, raises its voltage and de-energizes it. The most detuning of a short-term decrease in the voltage of the network when the electrical installation starts up

Claims (2)

1. DEVICE FOR PROTECTION ELECTRICAL INSTALLATIONS, which contains a voltage sensor connected to the network, a measuring bridge with an actuating element in one arm and a threshold element in the diagonal, a capacitor connected in parallel to the first branch of the bridge, a diode connected to the input circuit of the specified branch of the bridge * a zener diode and a switching element in the circuit controlled by the executive element electrical installations, characterized in that, in order to increase the reliability of electrical installation protection and personnel safety, the second and third zener diodes, potential a meter, a second capacitor and resistor in parallel, a second diode, a control element and an insulation resistance control sensor, the input of which is connected to one of the phases before and after the switching element, and the output to one of the inputs of the threshold element, the bridge branches are shunted by the first zener diode and connected by the first clamp to the output of the voltage sensor through the second zener diode and a potentiometer connected in series, the output of which through the third zener diode g is connected to one of the inputs of the threshold element, the second clamp of the branches the bridge is connected to the negative bus, and the output of the first branch of the bridge is connected to the output of the second branch of the bridge through a series-connected resistor, second diode and control element. 1. The device according to π. 1, on the other hand, in order to monitor the presence of grounding, one of the second terminals of the first or second branch of the bridge is connected to the housing of the installation. 3. The device according to π. 1, l and m of h and w o f _r e c i so that the detuning of the transient voltage rises above network 1140201. permissible maximum, two diodes and a parallel connected capacitor and resistor are introduced into the device, while the output of the potentiometer through one of the diodes, the third zener diode and the indicated resistor and capacitor are connected to the minus bus, and the common point of the zener diode and resistor is connected to the first threshold input element through another diode.