RU210060U1 - Adjustable three-phase residual current device - Google Patents

Abstract

The utility model relates to residual current devices used in single-phase and three-phase electrical networks with a voltage of 220/380 V. To expand the capabilities of the device, reduce electrical injuries, reduce the occurrence of fires and ignitions due to electrical causes when working with stationary and mobile electrical equipment. A portable adjustable three-phase residual current device contains a housing (1) in which a differential current transformer (2) is installed, the primary winding of which consists of three phase and neutral conductors (3). The secondary winding is a coil (4) on a toroidal core, to which an electronic amplifier (5), a switch-transistor key unit (7) and a starting device (8) are connected. The device also contains a trip coil (9) connected to one of the phase and neutral conductors (3) and to the starting device (8), a power contact group (10) of eight contacts, to which three phase and neutral conductors (3) are connected, sockets connected to four power elastic contacts (11) and four power clamps (12). 1 ill.

Description

The proposed utility model relates to residual current controlled residual current devices used in single-phase and three-phase electrical networks with a voltage of 220/380 V for the operational protection of a person from electric shock and can be used in industry, construction, agriculture, residential and public buildings, on the territory during the operation of stationary, mobile, portable electrical installations, hand power tools. The proposed residual current device is portable, used to quickly disconnect the protected electrical installation from the network when current flows through the human body and to prevent fires due to the long flow of leakage currents to the ground, in case of damage to the insulation of live parts, that is, it performs an electrical protective and fire-fighting function.

A portable residual current device of type A (without built-in protection) is known, the main components of which are the housing, the differential current transformer, the starting element (threshold element), the electronic amplifier, the solenoid, the power contact group, the power clamps, the "ON" button, the "TEST" button ". The most important functional unit - a differential current transformer - is installed in a case made of heat-resistant ABS plastic; an actuator consisting of a power contact group with a drive mechanism and a solenoid; a threshold element made on electronic components that reacts to the appearance of a leakage current; phase and neutral conductors passing inside the toroidal core, connected back to back, being the primary winding of the differential current transformer, connected to the power contacts; three clamps. Two terminals are connected to the phase and neutral conductors coming from the power contacts, as well as the phase and neutral conductors of the supply cable connected to the load. A protective PE conductor from the power source is connected to the third terminal, which is not connected to the residual current device. The secondary winding of the differential current transformer is a coil located on a toroidal core, to which an electronic amplifier is connected, with a threshold element attached to it. On the removable housing cover there is an "ON" button designed to supply voltage to the residual current device and a "TEST" button in the testing circuit to carry out periodic monitoring of the health (operability) of the residual current device. A voltage indicator is located in the opening of the removable cover. On the case there are two pins of the plug connected to the power supply network (see Portable residual current devices, 06/09. Catalog "Interelectrokomplekt" (IEK). M., 2013).

The main disadvantages of the known design are limited functionality associated with an insufficient range of changes in the operating voltage, with the need to control the operation setpoint, using in three-phase electrical networks during the operation of electric stoves, electric pumps, mobile electrical engineering.

A portable residual current device is known - a three-phase differential current switch of type A, used in three-phase four-wire electrical networks with a voltage of 380 V, a frequency of 50 Hz with a rated load current of 16 A (without built-in protection), designed to protect a person from electric shock and from fire caused by current leakage through damaged wire insulation and their poor-quality connections during the operation of stationary and non-stationary electrical installations for industrial and domestic purposes. The device consists of a housing in which a differential current transformer is placed with a primary winding consisting of three phase and neutral conductors, and a coil on a toroidal core is the secondary winding; electronic amplifier; starting device; solenoid consisting of two half-windings; power contact group with eight contacts; four power two-section elastic socket plates; three phase and neutral conductors, to which four plug pins and four power two-section elastic socket plates are connected. There are four pins of the plug connected to the power supply network on the case. In the openings of the removable housing cover there is an "ON" button; button "TEST"; four socket sockets, which includes the load; voltage indicator (see RU No. 168088, H01N 83/14, published on January 18, 2017, Bull. No. 2).

The main disadvantages of the known design are the complexity of execution, limited functionality associated with the lack of protection against lightning and switching surges, the impossibility of providing protection against electric shock in the event of a neutral wire break, and the inability to regulate the breaking differential current.

The closest solution in terms of technical essence and achieved technical result to the proposed utility model is a three-phase portable residual current device, type A, used in three-phase four- or five-wire electrical networks with a voltage of 380 V, a frequency of 50 Hz with a rated load current of 16 A (without built-in protection ). The device is intended for the organization of operational protection of people from electric shock when touching the current-carrying parts of the electrical network and electrical installations, and protection against the occurrence of ignition due to the long-term flow of leakage currents through damaged insulation.

The known device consists of a housing in which a differential current transformer is installed; electronic amplifier; tracking device; solenoid consisting of two half-windings; power contact group with eight contacts; five power two-section elastic plates; five power conductors, of which three phase and zero working conductors are connected to four power elastic plates (through a power contact group) and four power clamps connected to a power source, a zero protective conductor is connected to power elastic plates. In the openings of the removable cover there is an "ON" button, a "TEST" button, a voltage indicator, (see RU No. 185551, IPC H01N 83/00, publ. 11.12.2018, Bull. No. 35).

The main disadvantage of the known design is the limitation of the functionality associated with its use as a means of electrical fire protection in the event of leakage currents through damaged or worn insulation or poor-quality conductor connections that exceed the setting of the breaking differential current, when using a residual current device in group networks or on a separate line, when there is a need to adjust the operation setting in order to ensure highly efficient performance of the residual current device, when using three-phase electrical installations, in particular, mobile and portable electrical engineering, hand-held power tools.

The technical task of the proposed utility model is the development of a design of a residual current device used in three-phase four- or five-wire electrical networks with a voltage of 220/380 V, a frequency of 50 Hz with an adjustable setting of the switching differential current for use in group and individual lines in the event of leakage currents exceeding tripping setting, to protect people from electric shock and to protect against fires during long-term leakage currents to earth.

The technical result of the utility model is to expand the possibility of using the device as a means of protection during the operation of three-phase electrical installations for industrial and similar purposes, to reduce the level of electrical injury to people, to reduce the occurrence of fires and ignitions due to electrical causes when working with stationary and mobile electrical equipment.

The specified technical result is achieved by the fact that in an adjustable three-phase residual current device, containing a housing in which a two-section trip coil is installed, a differential current transformer having primary and secondary windings, the primary winding consists of three phase and neutral conductors connected to the contacts of the power contact group , connected to power clamps and power elastic contacts of the socket, and the secondary winding is a coil on a toroidal core, to which an electronic amplifier and a starting device are connected, according to the utility model, a commutator-transistor key for adjusting the operation current setting is connected to the starting device, having two inputs and one output, two resistors are connected to the two inputs of the switch-transistor key block, between the electronic amplifier and two resistors in the opening of the removable housing cover there is a push-button switch for the tripping differential current.

The difference in the proposed design of an adjustable three-phase residual current device is the presence of a switch-transistor key unit with two inputs and one output, the presence of two resistors, the presence of a push-button switch installed in the opening of the removable cover of the device housing, connected through an electronic amplifier to the secondary winding of the differential current transformer on the one hand, and on the other - to one of the two inputs of the switch-transistor key block through one of the two resistors connected respectively to the two buttons of the push-button switch.

The inventive portable device can be used in three-phase electrical networks as a means of protection when connecting the load. This allows to reduce electrical injuries when working with electrical installations, including mobile electrical engineering.

The proposed utility model is illustrated by a drawing, which schematically shows an adjustable three-phase residual current device.

The adjustable three-phase residual current device (see figure) contains a housing 1 in which a differential current transformer 2 is installed with a primary winding consisting of three phase and neutral conductors 3. The secondary winding is a coil 4 placed in a plastic casing on the toroidal core of the differential current transformer 2 , to which the electronic amplifier 5 is connected, attached to the push-button switch 6, located in the opening of the removable housing cover. Pushbutton switch 6 is connected to 2 resistors (not shown in Fig.), which are connected to the switch-transistor switch 7, which has two inputs and one output. Block switch-transistor key 7 is connected to the starting device 8, connected to one of the two sections of the trip coil 9, placed in a plastic casing. The body 1 also has a power contact group 10 containing eight contacts, five power elastic contacts 11 sockets, four clamps 12, a rubber gland 13, five sockets 14 sockets with a cover. The fifth socket is intended for connection to the power elastic contact 11 of the socket of the zero protective PE conductor 15, which is not connected to the residual current device. In the openings of the removable cover, which is attached to the body with screws, there is a push-button switch 6, an ON button 16 and a TEST button 17, and a voltage indicator (not shown in the figure).

Phase and neutral conductors 3 are connected to four clamps 12, to which the power cable is connected, passed through the window of the toroidal core of the differential current transformer 2 and connected to the contacts of the power contact group 10, as well as to the four power elastic contacts 11 of the socket, to which the load is connected.

Adjustable three-phase residual current device operates as follows. When an adjustable three-phase residual current device is connected to the network of a three-phase power source, current appears in the phase and neutral conductors 3 and the power contacts 10 are energized. At the same time, voltage is applied to one of the sections of the trip coil 9, connected to the phase and neutral conductors through the starting device 8 (when an adjustable three-phase residual current device is connected to the power source, this section of the trip coil is constantly energized). When you press the "ON" button (red color appears in the hole of the voltage indicator), connected to the phase conductor 3 in the second section of the trip coil 9, connected to the "ON" button and neutral conductor 3, voltage appears, as a result, the trip coil 9 closes the contacts power contact group 10 and in the phase wires from the power source, current flows to the load, that is, an adjustable three-phase residual current device passes current. When the "ON" button is released in the second section of the trip coil 9, the voltage disappears, and the trip coil keeps the contacts of the power contact group 10 in the closed state when there is voltage in the first section of the trip coil. Before pressing the "ON" button, using the pushbutton switch 6, the setting value of the operation current is set to 10 mA or 30 mA.

In normal load operation, the geometric sum of the currents in the three-phase and neutral conductors 3 is zero and the resulting magnetic flux in the toroidal core of the differential current transformer created by these currents is also zero, the current in the secondary winding 4 is also zero. When a person touches the current-carrying parts of the supply network or the body of the electrical installation (load), which is energized as a result of damage to the insulation of the current-carrying parts and a short circuit to the case, the balance of currents in the phase and neutral conductors 3 occurs and the total magnetic flux created by the unbalance current or differential current, induces an electromotive force that creates a current in the secondary winding 4.

When a button is pressed, corresponding to the value of the operation setting of 10 mA of the push-button switch 6 (with interdependent switching of buttons), the contacts of the power contact group 10 are closed and the first input is connected to the secondary winding 4 through the electronic amplifier 5 and one of the two resistors, designed for a setting of 10 mA. block switch-transistor key 7, determining the amplitude of the input signal, and the output of this block, tuned to 30 mA, is connected to the starting device 8, the sensitivity of which is also 30 mA. If the resulting leakage current exceeds the threshold value, i.e. the value of the operation setting of 10 mA, then at the output of the switch-transistor key 7, a current will appear that exceeds the value of the operation current setting of the threshold tracking element, that is, the starting device 8, more than 30 mA. As a result, the starting device 8 is activated, affecting the trip coil 9, turning off its power. The disconnected trip coil 9 does not hold the contacts of the power contact group 10 in the closed state, and they open under the action of the spring force, de-energizing the faulty load, that is, the adjustable three-phase residual current device performs its protective function.

When the 30 mA button of the push-button switch 6 is pressed, the contacts of the power contact group 10 are closed and the second input of the switch-transistor key 7 is connected to the secondary winding 4 through the electronic amplifier 5 and the second resistor, designed for the operation setting of 30 mA. If the leakage current in the protected network will exceed the threshold value, that is, the trip current setting value of 30 mA, then the adjustable three-phase residual current device, in the same way as indicated above, is triggered, disconnecting the faulty load.

In an adjustable three-phase residual current device, the load off time, that is, the speed, is 0.03 s.

To monitor the health (operability) of the device, a testing circuit is provided, which operates by artificially creating a small differential tripping current flowing through the test wire. The test wire is connected to the neutral conductor passed through the window of the toroidal core of the differential current transformer and to the "TEST" button, from the "TEST" button to the phase conductor from the power source. Therefore, the current in the test circuit is equivalent to the unbalanced current in the conductors of the primary winding of the differential current transformer, and when you press the "TEST" button, the adjustable three-phase residual current device is immediately turned off (the voltage supplied to the protected electrical installation is turned off), which means it is working properly. The red indicator disappears from the indicator hole. If an adjustable three-phase residual current device has not tripped (did not work), then it is faulty.

The proposed adjustable three-phase residual current device compared to the prototype (see RU No. 185551, IPC H01H 83/00, publ. 11.12.2018, Bull. No. 35) allows you to achieve:

- expanding the possibility of using the device as a means of protection during the operation of three-phase electrical installations for industrial and similar purposes;

- reducing the level of electrical injuries of people;

- reducing the occurrence of fires and ignitions for electrical reasons when working with stationary and mobile electrical engineering.

Claims (1)

Adjustable three-phase residual current device, containing a housing in which a two-section trip coil is installed, a differential current transformer having primary and secondary windings, the primary winding consists of three phase and neutral conductors connected to the contacts of the power contact group, connected to power clamps and power elastic socket contacts, and the secondary winding is a coil on a toroidal core, to which an electronic amplifier and a starting device are connected, characterized in that a commutator-transistor key for adjusting the operation current setting is connected to the starting device, having two inputs and one output, to the two inputs of the block switch-transistor key, two resistors are connected, between the electronic amplifier and two resistors in the opening of the removable housing cover there is a push-button switch for the tripping differential current setting.

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