SU1004916A1 - Phase alternation checking device - Google Patents

Description

The invention relates to the measurement of electrical quantities and can be used to control the phase rotation of a three-phase network of alternating current.

A device for controlling the phase rotation of a three-phase network, in which the active elements are connected through the load element to the phase voltage [i J.

The disadvantages of this device are the large power dissipation in the elements of the device, the need to use active elements with high permissible voltages, unsatisfactory weight and size characteristics.

The closest in technical essence to the proposed one is a device for monitoring the phase rotation, containing two control elements, managed keys, resistors, load elements G21.

The disadvantages of the known device are complexity, high power consumption, and the lack of control of the presence of network phases.

The purpose of the invention is to simplify the device and reduce power consumption. *

This goal is achieved by the fact that. In the device for monitoring the phase rotation, containing two control ^{, 0} element, a controlled shred, two resistors and a load element, and the inputs of the control elements are connected respectively with the first and second input terminals, and the outputs gOVERNMENTAL ¹⁵ respectively to a first terminal element and a load control input of the controllable switch, one terminal of which is connected to a first terminal of the first resistor and the second resistor ²⁰ via a third input terminal devices introduced capacitor which incl n first parallel resistor, a second terminal connected to the load .elementa another. ^ terminal controllable switch and the output of the first control elements ·· that is connected to the second terminal of the first resistor, moreover controllable switch is formed on the transistor. .

The drawing shows a diagram of a device for controlling phase rotation.

The device contains diodes 1 and 2, 'terminals of the phases 3 and 4 of the network, resistors 5 and 6, a capacitor 7, a controlled key 8, a load element 9, a terminal of the third phase 10 of the network.

The device operates as follows.

When connected to the device’s network, the diodes i and 2 are unlocked alternately, in a certain sequence. When the phases are alternating in sequences 3, 4 and 10, diode 1 is first unlocked and the capacitor 7 is charged to the voltage determined by the voltage divider from resistors 5 and 6.When the voltage of phase 4 exceeds the voltage drop across resistor 5, diode 1 is locked and diode 2 is unlocked. At the same time, a current passes through the input terminals of the switch 8 and resistor 5, which opens the switch 8, which discharges the capacitor 7 to the load element 9, which can be used as a separate light emitting LED or an LED included in the optocoupler.

The discharge of the capacitor 7 to the load element 9 occurs every period of the network. The LED generates pulses of light, which, when visually inspected, are perceived by the operator as a continuous glow.

When the phases in the sequence 3, 10 and 4 alternate after the current through the diode 1 ceases, the unlocking of the diode 2 does not occur immediately, but after a 'period of time, during which the capacitor 7 is completely discharged through the resistor 6. Therefore, after unlocking the diode 2 and the key 8, the element' · 9 load ^ It is connected to the already discharged capacitor 7, glow, if an LED is used, does not occur. If any of the phases disappears, the load element 9 is also de-energized.

If there is no need (according to the working conditions), then the general terminal 10 of the device is connected to the zero wire of the three-phase Voltage source.

The device is characterized by low power consumption, which decreases in proportion to the increase in current gain of the key

8. Therefore, as a key, a composite transistor according to Darlington's circuit can be used, in either a conventional or microcircuit design. A resistor can be connected in series with the LED. If the light-emitting element is part of the optocoupler, then the photosensitive is connected to the actuator.

Thanks to the specified composition and functional relationships provides a significant simplification of the device and reduce power consumption.

Claims (2)

  . . 1 The invention relates to the measurement of electrical quantities and can be used to monitor the alternation of the phases of a three-phase AC network. A device for controlling the phase rotation of a three-phase network is known, in which the active elements are connected to the phase voltage through the load cell. D 1 The disadvantages of this device are large power dissipation in the device elements, the need to use active elements with high allowable voltages, and unsatisfactory weight and size characteristics close to the technical: the essence of the proposed is a device for controlling the alternation of phases, containing two control elements Key locks., resistors, OJ load elements. The disadvantages of the known device are the complexity, the large power consumption, as well as the lack of control over the presence of network phases. The purpose of the invention is to simplify the device and reduce power consumption. The goal is achieved by the fact that a device for controlling phase rotation, containing two control elements, controlled by a) H, two resistors and a load element, the inputs of the control elements are connected - respectively to the first and second input terminals, and the outputs, respectively, with the first output of the load element and the control input of the controlled load, one terminal of which is connected to the first output of the first resistor and through the second resistor to the third input terminal of the device, introduced a capacitor that includes a pair allelic to the first resistor, the second output of the load cell is connected 3. with another one; mmri control key and the output of the first control element is connected to the second output of the first resistor, besides the control key is made on the transistor. The drawing shows a diagram of a device for controlling alternation of fa. The device contains diodes 1 and 2, terminals of phases 3 and networks, resistors 5 and 6, capacitor 1, controllable switch 8, load element 9, terminal of third phase 10 networks. The device works as follows. When connected to the network, the diodes i and 2 are unlocked alternately, in a certain sequence. When the phases in sequence 3, A and 10 alternate, diode 1 is first turned on and capacitor 7 is charged to a voltage determined by the voltage healer from resistors 5 and 6. When the phase voltage exceeds the voltage drop on resistor 5, diode 1 is locked, and diode 2 opens with. At the same time, the input terminals of the key 8 and the resistor 5 pass a current opening the key 8, which discharges the capacitor 7 to the load element 9, the quality of which can be applied by a separate light emitting diode or the led entering the optocoupler. The discharge of the capacitor 7 to the load element 9 occurs every period of the network. The LED generates light pulses, which, when visually monitored, are perceived by the operator as a continuous glow. When the phases alternate in the sequence 3, 10 and A after the current stops through diode 1, diode 2 does not open immediately, but after a period of time and for which capacitor 7 is completely discharged through resistor 6. Therefore, after unlocking diode 2 and key 8 load element 9 is connected to the already-wired capacitor 7, and the luminescence, if an LED is used, does not occur. When any of the phases fails, the load element 9 is also de-energized. If there is no need (according to the conditions of work), then the common terminal 10 of the device is connected to the zero supply of a three-phase voltage source. The device has a low power consumption, which decreases in proportion to the increase in the current gain of the key 8. Therefore, a composite transistor according to the Darlington circuit can be used as a key, either in a conventional or microcircuit design. A resistor can be connected in series with the LED. If the light-emitting element is part of the optocoupler, then the photosensitive element is connected to the actuator. Due to this composition and functional relationships, the device is significantly simplified and power consumption is reduced. Claim 1. A device for controlling phase rotation, containing two control elements, a control key, two resistors and a load element, the inputs of the control elements being connected to the first and second input terminals respectively, and the outputs corresponding to the first output element load and control input of the control key, one terminal of which is connected to the first output of the first resistor and through the second resistor to the third input terminal of the device, characterized in that, in order to simplify the device and smart Sheni power consumption, it introduced a capacitor which is connected in parallel to the first resistor, the second terminal of the load element connected to the other terminal of the controllable switch, and the output of the first control element connected to the second terminal of the first resistor. 2. A device for controlling the phase alternation of pop.1, characterized by the fact that the control key is made on a transistor. Sources of information taken into account during the examination 1. USSR author's certificate tf 21087 cl. G 01 R 29/18, 1972. 2. USSR author's certificate according to the application N 29i 717 / l8-21, Cl, G 01 R 29/18, 06.02.81.