RU2478246C2 - Protection device of electric appliances against increased and decreased voltage in ac mains and impact of phase voltage on zero conductor - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device includes input pins L, N, Nt, output pins RH, step-down transformer (1), the primary winding of which is connected at one end to phase conductor L, and its other end is grounded; secondary winding of transformer (1) is connected to rectifier bridge (2) feeding an actuation component. Mains voltage control component includes solenoid SL1 (3), inside the winding of which there is core (4) with spring (5). On one side, core (4) has adjustment screw (6), and on the other side, elongated end of core (4) has slot (7). One end of winding of solenoid (3) is connected to phase conductor L, and the other end is connected to zero conductor N. Actuation component includes LED (11) and photo diode (12), which form an optoelectronic couple through slot (7) of core (4). LED (11) is connected to rectifier bridge (2), and photo diode (12) is connected to amplifier of signal loaded to switching device K1. At optic communication between LED (11) and photo diode (12) the switching device K1 is deenergised, and electric current is supplied through normally closed contacts K 1.1 to load. At failure of optic communication, at increase or decrease of the mains voltage, the switching device K1 trips the load from electric mains through contacts K 1.1. The indication component includes two-colour light-emitting diode (15) connected through limit resistor 16 to zero conductor N, and through diodes 17 to contacts K1.1 of switching device K1.

EFFECT: improving operating reliability and simplifying electric circuit of the device.

2 cl, 1 dwg

Description

The invention relates to electrical engineering, in particular to devices for protecting power supply networks from voltage fluctuations, and can be used to protect electrical appliances (television and audio equipment, personal computers and other household appliances and office equipment) from prolonged or temporary overvoltage in AC systems and subsequent automatic inclusion of these devices after voltage recovery to an acceptable value.

Deviations of phase voltage in distribution electric networks most often occur due to a broken neutral wire. At the same time, due to the asymmetric load, the phase voltages in two phases can reach 380 V, and in the third phase they can be lower than 180 V. Unacceptable voltage deviations also occur when the voltage of urban electric vehicles enters the distribution electric network. The indicated voltage deviations lead to damage to household or office equipment, which is not designed for long-term operation at a voltage outside the range 180 ... 250 V, as well as to fires and fires. As a result, damage is caused to the health and property of people. Most likely damage to electrical appliances operating around the clock or standby. Under adverse weather conditions (strong wind, snow, thunder, etc.), breakage or overlapping of wires of an overhead power line often occurs. At the same time, a neutral voltage from another phase can be applied to the neutral wire for some time, which leads to an increase in the voltage in the mains from 220 V to 380 V.

A device is known for protecting single-phase power consumers against voltage increase (RF patent No. 39230, IPC ⁷ H02H 3/20, publ. 07/20/2004), containing input terminals for connecting to the mains, output terminals for connecting to the consumer, an electromagnetic element with one stable state in series with the control winding of which a current-limiting element is switched on, the first input terminal for connecting to the power supply being connected through the first disconnecting power contact of the electromagnetic element with one stable state with the first output terminal for connecting to the load terminals, and the second input terminal for connecting to the power supply is connected through a second disconnecting power contact of the electromagnetic element with one stable state to the second output terminal for connecting to the load terminals, a rectifier, a voltage divider, two threshold elements are additionally introduced , OR logic element, time delay element for response and return, two make-up keys, one-shot, three series-connected resistive elements and pairs a voltage regulator, and a compensation voltage regulator is used as a current-limiting element, the input terminals of which are connected to the output of the rectifier in series with the control winding of the electromagnetic element with one stable state and the input terminals of the parametric voltage stabilizer, and the input of the rectifier is connected between the first and second input terminals for connection to the power supply, the inputs of the threshold elements are connected through the voltage divider to the output will be straightened For, the output of the first threshold element is connected directly, and the second - through the delay element for operation and return to the inputs of the OR logic element, the output of which is connected to the control input of the first closing key, in addition, three series-connected wires are connected to the output terminals of the compensation voltage stabilizer resistive elements, one of which is shunted by the power terminals of the first locking key, and two by the power terminals of the second locking key, and the control input is second of the closing key is connected to the output of a single-shot, the input of which is connected to the output of the OR logic element.

A device is known for protecting electrical appliances in a single-phase power supply when phase voltage gets into the neutral wire (RF patent for utility model No. 18806, IPC ⁷ H02H 3/14, publ. 07/10/2001), including a relay element with make contacts, one end of the winding of which is connected with a neutral wire, and the other end of the coil of the relay element with make contacts is equipped with an additional ground wire, while the normally-closed contacts of the relay element are connected to the phase conductor of the network. In addition, the device is equipped with an alarm system, including a LED, a diode, a resistor, a limiter, connected in series to the network between the ground wire and the neutral wire.

A device is known for protecting a consumer from over and under voltage in an alternating current network (RF patent No. 2136097, IPC ⁶ H02H 3/20, H02H 3/24, publ. 08/27/1999), adopted as a prototype containing a rectifier bridge, an actuator, threshold node, two voltage stabilizers, network voltage divider, network voltage monitoring unit, pulse shaper, pulse counter, indication unit and control unit. The device provides instant disconnection of the consumer from the network when the voltage changes below 170 V and above 250 V and the consumer turns on with a delay of 5 min when the network voltage is restored above 170 V and below 250 V. However, the known device does not protect the consumer of electrical energy efficiently, does not allow to control the presence of and the health of the ground wire, and also has a fairly complex electrical circuit, which affects its reliability.

The technical result to which the claimed invention is directed is to increase the efficiency and reliability of protecting consumers of electric energy from over and undervoltage in the power supply network within 180-250 V, from getting phase voltage to the neutral wire when it is broken, when the phase imbalance caused by the use of faulty electrical appliances, such as an electric welding machine with short-circuited turns of the primary winding, and in simplifying the electrical circuit of the device. The proposed device protects against thunderstorms, since the circuit has direct grounding.

In the device for protecting electrical appliances from over and under voltage in the AC network and phase voltage entering the neutral wire, which includes the network voltage monitoring unit, the executive unit, the display unit, the rectifier bridge, the device is equipped with a step-down transformer, the primary winding of which is connected one end to the phase wire, and its other end is grounded, the secondary winding is connected to the rectifier bridge supplying the actuating unit, the network voltage monitoring unit VK There is a solenoid, inside the winding of which there is a spring-loaded core, on the one hand the core has an adjusting screw, on the other hand, the elongated end of the core has a slot, while one end of the solenoid winding is connected through a diode to a phase wire, and the second end through a diode connected in the opposite direction connected to the neutral wire, the actuating unit includes an LED and a photodiode, a signal amplifier, a switching device, while the LED and the photodiode form an optocouple through the slot of the solenoid core , the LED is connected to the rectifier bridge through the limiting resistance, and the photodiode is connected to a signal amplifier, which is loaded on a switching device that controls the on and off contacts of electrical appliances.

The display unit includes a two-color LED connected via a limiting resistance to the neutral wire, and through diodes to the contacts of the switching device.

Figure 1 presents the electrical circuit diagram of the device.

The device for protecting electrical appliances from over and under voltage in the AC network and phase voltage entering the neutral wire contains input terminals L, N, N _t for connecting to the mains, output terminals R _n for connecting to the consumer. The device has a step-down transformer 1, for example, TPS-5, the primary winding of which is connected at one end to the phase wire L, and its other end is connected to the wire N _t - grounded, as a result, the voltage 220 V is stably stored on its primary winding and, therefore, the circuit does not need voltage stabilization. The secondary winding of the transformer 1 is connected to a rectifier bridge 2 (KTs 407A), which feeds the actuating unit, a voltage of up to 24 V. is formed on it.

The node for monitoring the network voltage includes a solenoid SL ₁ 3, designed for a supply voltage of 500 V, inside the winding of which there is a core 4 with a spring 5. On the one hand, the core 4 has an adjustment screw 6, on the other hand, the elongated end of the core 4 has a slot 7. One end the windings of the solenoid 3 are connected through a diode 8 (KD-202P) to a phase wire, and the second end through a diode 9 (KD-202P), connected in the opposite direction, is connected to a neutral wire N. Diodes 8 and 9 form a half-wave voltage rectification circuit, between they located u ektrolitichesky condenser 10 performing as a filter for reducing ripple voltage, rated at 450 V with a capacitance of 200 MF. When the voltage in the network increases, including 380 V (phase voltage hits the neutral wire), the core 4 is pulled into the solenoid 3, the slot 7 is displaced along with the core 3, the optical connection is interrupted and the mains power is disconnected through the switching device K1, while the capacitor 10 is charged to the maximum voltage in the network. The circuit will remain in this position until the voltage reaches the rated voltage. When the rated voltage is reached, the core 3, and with it the slot 7, will not return to its original position corresponding to the rated voltage, until the capacitor 10 is discharged through the solenoid 3 to a voltage of 220 V. During the discharge of the capacitor 10, a delay in the return of the core is provided 4 solenoid 3 and, accordingly, slots 7 for a period of one to two minutes. The return delay time eliminates the operation of the switching device when the phase conductor is periodically closed to zero, for example, during wind and overlapping wires.

The actuating unit includes a LED 11 (ALS-307) and a photodiode 12 (FD-5), forming through the slot 7 of the core 4 of the solenoid SL ₁ 3 optocoupler. The LED 11 is connected to the rectifier bridge 2 through the limiting resistance 13, and the photodiode 12 is connected to a signal amplifier consisting of two transistors 14 (KT-315G and KT-815G) and loaded on the switching device K1, which controls the contacts K1.1 on and off electrical appliances . With optical communication between the LED 11 and the photodiode 12, the transistors 14 are closed and the switching device K1 is de-energized, while an electric current of the network is supplied to the load through normally closed contacts K1.1. If the optical connection between the LED 11 and the photodiode 12 is broken, when the voltage in the network increases or decreases, the resistance on the photodiode 12 increases, the transistors 14 open, the switching device K1 trips and disconnects the load from the mains through the contacts K1.1.

There is no electrical connection between the network voltage control unit and the executive unit, which increases the reliability of the device.

The display unit includes a two-color LED 15 connected via a limiting resistance 16 (OMLT-II, 470 K) to the neutral wire N and through diodes 17 (KD-221) to the contacts K1.1 of the switching device K1. At normal voltage, the green LED turns on, and at abnormal voltage - red.

The device operates as follows. When applying to the solenoid SL ₁ 3 normal voltage previously rectified by diodes 8 and 9, the core 4, pressed by the spring 5, occupies a position corresponding to the operating voltage in the network supplying electrical equipment. Through the slot 7, an optical connection occurs between the LED 11 and the photodiode 12. When the voltage fluctuates, the core 4 changes its position. If the voltage in the network rises or falls from the nominal (180-250 V), the core 4 is drawn into the solenoid 3 when the voltage increases or is pushed out of it by the spring 5 when the voltage decreases, while the slot 7 leaves its previous position, the optical connection between the LED 11 and the photodiode 12 is violated, which indicates an emergency in the network, while the contacts K1.1 disconnect the load.

Slot 7 of a given length adjusts the voltage limits of the supply electrical equipment (180-250 V), since it is directly connected to the core 4. The optocoupler - LED 11 and photodiode 12 - has an optical connection when the mains voltage is in the specified limit and the electrical devices are connected. When the supply voltage is more than 250 V or less than 180 V, the optical connection is broken and, accordingly, the executive part of the circuit disconnects the load. The remaining elements of the amplifier circuit (resistors) ensure the normal operation of the amplifier elements.

After the termination of the increased voltage in the network and its return to the rated capacitor 10, charged up to 380 V, keeps the core 4 in the retracted position until it is discharged along the circuit capacitor 10 - shunt resistor Rш - solenoid winding 3 - capacitor 10 to voltage of 220 V, after which the optical connection through the slot 7 will resume and the switching device K1 will turn on the load.

When the voltage drops below 180 V, the spring 5, balancing the moment of pulling force of the core 4, will begin to squeeze it out of the solenoid 3 by moving the slot 7, the optical connection will be interrupted and the load will be disconnected. When the voltage returns to the nominal (220 V) core 4 is pulled into the solenoid 3 and the slot 7 restores the optical connection and the load is connected through the switching device K1.

Thus, the proposed technical solution allows to increase the reliability and efficiency of protection of electrical appliances during voltage fluctuations, both up and down, due to the fact that disconnecting the consumer from the network when the voltage changes below 180 V and above 250 V and turning on the consumer with a delay of 1 -2 min when restoring the mains voltage above 180 V and below 250 V is carried out by the actuating unit, based on the optical connection formed by the optocoupler LED and photodiode and a slot in the core of the solenoid, which determines the nye voltage limits. The lack of electrical connection between the node monitoring the voltage of the network and the Executive node increases the reliability of the device. In addition, the presence of a grounded end of the primary winding of the transformer creates a stable voltage on its secondary winding, which can significantly simplify the power supply of the circuit elements of the device, increase its reliability, and is also a lightning rod.

Claims (2)

1. A device for protecting electrical appliances from over and under voltage in an alternating current network and phase voltage falling onto a neutral wire, including a network voltage monitoring unit, an executive unit, an indication unit, a rectifier bridge, characterized in that the device is additionally equipped with a step-down transformer, the primary winding of which connected at one end to the phase wire, and its other end is grounded, the secondary winding is connected to a rectifier bridge supplying the actuating unit, the control unit The mains voltage includes a solenoid, inside the winding of which there is a spring-loaded core, on the one hand the core has an adjustment screw, on the other hand, the elongated end of the core has a slot, while one end of the solenoid winding is connected through a diode to a phase wire, and the second end through a diode included in in the opposite direction, connected to the neutral wire, the actuating unit includes an LED and a photodiode, a signal amplifier, a switching device, while the LED and the photodiode form sol Noida optocoupler LED is connected to the rectifier bridge through the limiting resistance and the photodiode is connected to a signal amplifier, which is loaded by a switching device controlling contacts on and off electrical devices. 2. The device according to claim 1, characterized in that the display unit includes a two-color LED connected via a limiting resistance to a neutral wire, and through diodes to the contacts of the switching device.