SU970242A1 - Emergency current pickup - Google Patents

Description

The invention relates to electrical engineering, in particular to devices for monitoring current, and can be used as · sensors of maximum current.

A known emergency current sensor * containing a magnetically controlled contact located in the magnetic field of the current lead with a controlled current [1].

The disadvantages of the known sensor are the lack of reliability due to the presence of a “bounce" of the contact during tripping and the possibility of false contact closure during prolonged exposure to a magnetic field that causes it to magnetize, as well as sensitivity to the magnetic fields of adjacent current conductors.

Closest to the technical nature of ': the invention is a current sensor * containing a conductor with a measured current, made in the form of a circuit, a short-circuited coil located in the magnetic field of a conductor with a measured current, suspended on a quartz thread, and a displacement meter associated with a short-circuited coil made in the form of a meter for the period of torsional vibrations of a closed loop (2J.

The known sensor is complex in design, which is associated with the use of rotating elements of high accuracy, and does not allow to control the magnitude of the direct current.

Nel inventions - simplifying the design of the sensor and expanding its functionality.

This goal is achieved by the fact that in the emergency current sensor containing a conductor with a measured thin and a displacement meter, the conductor with a measured current is bent into a loop with parallel opposite sides, the displacement sensor is made in the form of a spring clip with a pusher attached to the outer side of one of the opposite 1 parts of the bracket, an adjusting screw mechanically connected to the indicated part of the bracket, and a piezoelectric transducer fixed to the other opposite part of the bracket with its internal side, and the bracket is attached to a conductor with a measured current from the inside of its loop.

In addition, the adjusting screw is fixed on one of the opposite parts of the bracket with the possibility of axial movement, for example, using a threaded connection.

• The drawing shows a constructive 5th diagram of the sensor.

The emergency current sensor comprises a conductor 1 with a measured current curved into a loop with parallel opposite sides and a displacement sensor 2 attached to the conductor 1c with a measured current from the inside of its loop. The displacement sensor 2 has a spring clip 3 with thick. a roller 4 attached to one of the opposite parts of the bracket 3 from its outer side, an adjusting screw 5 mounted on the same part of the bracket perpendicular to its plane, and a piezoelectric transducer b attached to the other opposite part of the bracket 3 from its inner side.

To provide opportunities; . .

control of various values of the controlled current, the adjusting screw 5 is fixed in a bracket with the possibility of axial movement, for example, by means of a threaded connection with one of the opposite parts of the bracket.

The installation of the sensor 2 displacement 30 on the conductor 1 with the measured current and the change of position of the adjusting screw 5 is made after removing the voltage from the conductor 1 with the measured current. . 35

The sensor operates as follows.

When a conductor 1 flows between the opposite sides of its loop, a force of electrodynamic interaction arises, proportional to the square of the current, the length of the interacting opposite sides / loops / and inversely proportional to the distance between them. Under the action of this force, the opposite sides of the loop of conductor 1 come closer together. At normal values of the measured current, the specified approach of the opposite sides of the loop of conductor 1 is not perceived by the piezoelectric transducer B due to the gap between the pusher 4 and the conductor

1. In the emergency mode when the measured current _of expandable and sharply increases, the interaction force between pro- opposite directions wire loop 55 nick-1 that pryvodit increasing their convergence. For a certain value of such a measurement, the pusher 4 enters into resistance with the conductor 1, and the adjusting screw 5 reaches the surface of the piezoelectric transducer 6. In this case, the piezoelectric transducer 6 | electrical voltage, which is used as a control signal to disconnect the circuit with a controlled current through protective devices.

The change in the magnitude of the controlled sensor current at which a signal arises at the output of the piezoelectric transducer 6 is effected by changing the gap between the pusher 4 and the conductor 1 by moving the adjusting screw 5 in the axial direction, for example, by rotating it in a threaded connection with a bracket 3.

The proposed sensor is simple in design and universal, as it allows you to carry out! control of both alternating and direct current.

Claims (2)

. The invention relates to electrical measuring equipment, namely, devices for monitoring current, and can be used as maximum current sensors. An emergency current sensor is known that contains a magnetic control located in a magnetic field of a conductor with a control current 1. The disadvantages of the known sensor are insufficient reliability due to the presence of contact bounce when triggered and the possibility of a false contact closure during a long stay in a magnetic field causing its magnetization vanie and sensitivity to magnetic field m the adjacent conductor. The closest in technical essence to: the invention is a current sensor containing a current-carrying conductor, made in the form of a circuit, a short-circuited coil, located in a magnetic field of a conductor with measured current, suspended by a quartz filament, and a displacement meter, connected to the short-eam whip coil, made in the form of a meter of the period of torsional vibrations of short-circuited coil 2. The known sensor is complicated in construction, which is associated with the use of high-precision rotating elements, and does not allow control the amount of direct current. The purpose of the invention is to simplify the design of the sensor and expand its functionality. The goal is achieved by the fact that in the emergency current sensor containing a conductor with measured current and displacement meter, the conductor with measured current is bent into a loop with opposite opposite sides, the displacement transducer is made in the form of a spring clip with a pusher attached to the outer TORONE of one of the PROTIE URGENT parts of the bracket, an adjusting screw mechanically connected with the specified part of the bracket, and a piezoelectric transducer mounted on the other opposite part of the bracket with its internal side, and the bracket is secured to the conductor with emym current measured from the inner side of its loop. In addition, the adjusting screw is fixed on one of the opposite parts of the bracket with the possibility of its axial movement, for example, by means of a threaded connection. The drawing shows the constructive scheme of the sensor. The emergency current sensor contains a conductor 1 with measured current izotnuty into a loop with parallel opposite sides and a displacement sensor 2 attached to the conductor 1 with measured current from the inner side of its loop. The displacement sensor 2 has a spring clip 3 with a pusher 4 attached to one of the opposite parts of the bracket 3 on its outer side, an adjusting screw 5 attached to the same part of the bracket perpendicular to its plane, and a piezoelectric converter 6 attached to the other opposite part of the staples.3 from its inside. To provide an opportunity. controlling various values of the monitored current; the adjusting screw 5 is fixed in the bracket with the possibility of its axial movement, for example, by means of a threaded connection with one of the opposite parts of the bracket. The sensor 2 is moved to the conductor 1 with the measured current and the position of the adjustment (5) is changed after the voltage is removed from the conductor) 1 with the measured current. .. The sensor works as follows. Flowing through the book I between the opposite sides of its Loop, an electrodynamic interaction force appears, is proportional to the square of the current, the length of the opposite opposite sides (loop) and inversely proportional to the distance between them. Under the action of this force, the opposite sides of the conductor loop 1 approach each other. At normal measured current values, the indicated convergence of opposite sides of conductor loop I is not accepted by the piezoelectric transducer B due to the presence of a gap between the pusher 4 and conductor 1. In emergency modes, when measuring - The induced current increases sharply, and the interaction force between the opposite sides of the loop of conductor 1 increases, which leads to an increase in their approach. At a certain value of the measured current, the pusher 4 enters into resistance with conductor 1, and the adjusting screw 5 reaches the surface of the piezoelectric transducer 6. At the same time, the piezoelectric transducer 6 | bends under the action of the adjusting screw 5, which leads to the appearance of electric voltage between the piezoelectric transducer b which is used as a control signal for disabling controlled current deposit by means of protective devices. The change in the magnitude of the monitored sensor current at which a signal appears at the output of the piezoelectric transducer b is made by changing the gap between the pusher 4 and the conductor 1 by moving the adjustment screw 5 in the axial direction, for example, by rotating it in a threaded connection with the bracket 3. Offered sensor is simple in design and versatile, since it allows for the control of both AC and DC. Claim 1. Emergency current sensor, comprising a conductor with measured current and a displacement meter, characterized in that, in order to simplify the design and extend the functionality, the conductor with measured current is bent into a loop with parallel opposite sides, the Displacement transducer is made in as a spring clip with a pusher attached to the outside of one of the opposite parts of the bracket, an adjusting screw mechanically connected to said part of the bracket, and a piezoelectric transducer the receiver is mounted on the other opposite part of the bracket on its inner side, and the bracket is attached to the conductor with the measured GOKOM on the inner side of its loop.-. 2. The POP.1 sensor, which is connected with the fact that the adjusting screw is fastened on one of the opposite parts of the bracket with the possibility of its axial movement, for example, by means of a threaded connection. Sources of information taken into account in the examination 1. Handbook of converter equipment. Ed. Chizhenko I.M., Kiev, Technique, 1978, pp. 422-243, ris.5.35. ; 2.Valitov R.A. and other radar measurements. M., Soviet Radio, 1970, pp. 191-195, fig. 5.9. (prototype)