SU82537A1 - Method for measuring current in conductors of a multi-phase cable - Google Patents

Description

The described method makes it possible to measure the magnitude of the current in the individual conductors of a multi-phase cable located in explosive areas without disturbing the integrity of the cable.

When measuring in this way, the current strength in individual conductors is judged by the magnetic flux, which is not compensated due to the spatial arrangement of the lived in the cable, by means of a receiving electric coil connected to an electrical measuring instrument.

This method can be implemented using a device made in the form of a detachable electromagnet with pole shoes applied to the cable surface.

FIG. 1 is a detailed diagram; in fig. 2-circuit diagram of the device; in fig. 3 - device, general view.

It is known that in cables with a uniform load of all three phases (which is the load of three-phase asynchronous motors), as a result of the spatial arrangement of the cable cores, the fields of the individual phases do not fully compensate each other and some small resulting alternating magnetic field is formed around the cable.

In addition, in three-phase cables, where the phase cable is located on the triangle vertices (Fig. 1), a rotating magnetic field arises around the cable, which differs from the rotating magnetic field of the stator by periodic oscillation.

Movement of a receiving coil, small in size, at the periphery of the cable, receive a different value of e. D. s., fixed millivoltmeter. Putting off these values e. d. radii, get a closed curve (Fig. 1).

As the curve shows, the magnitude of the emf induced by the field of the cable in the coil moving around the circumference of the cable is not constant and changes from minimum to maximum. In this case, the maximum emf. The triangle no. 82537. 2 waves repeats and occurs just when the coil is located between the phases exactly where the rotating magnetic field by the swing three times crosses the turns of the coil.

Configuration curve e. d. (Fig. 1) does not change with any current flowing through the cable, and changes only in magnitude according to the current intensity of the cable.

Configuration of the emf curve it does not change around the circumference at any point on the cable, but only turns in the presence of twisting of the cable cores at a certain angle.

Since the value of e. d. is a direct function of the magnetic flux in terms of the magnitude and nature of the change in e. The field induced by the field of the cable can be judged on the magnitude and nature of the propagation of the magnetic field around the cable. Consequently, the curve e. d. (Fig. I) also can serve as a picture of the propagation of magnetic flux around the cable.

The essence of the proposed method for measuring the current is to use the magnetic field of the cable to induce e. d. in the coil imposed on the cable, and in determining the current in the cable according to the value of e. D. with. induced field cable.

This method makes it easy, convenient and safe to measure in mines hazardous to gas and dust, the amount of current consumed by a three-phase asynchronous motor.

The field-induced cable / voltage in coil 2 (consisting of 90-100 turns of thin insulated wire) is raised by the tran: formatter 5, then rectified by a cuprox rectifier 4 (one column of cuprox) and fixed with a millivoltmeter 5, the scale of which calibrated for current in amperes according to maximum readings.

The millivoltmeter is calibrated as follows: rotating the coil around the cable, set a place on its circumference where the maximum value e is induced. d. Then, leaving the coil in place, the current strength is changed from zero to the required value and, observing a conventional ammeter connected to the cable circuit, respectively, fix the points on the millivoltmeter scale.

The proposed method for measuring the current allows measurements to be made both on the armored cable before the starter and on the flexible cable after the starter.

Graduation of the millivoltmeter, as well as measurement of the current, with armored cables should be made with the iron armor cable removed

Measurement of the current consumed by electric motors under production conditions on armored cables can be performed as follows. At the input of the starter or electric motor, during the measurement operation, the cable is freed from the iron armor of the jute braid, then rotating the coil over the lead sheath, fix the maximum reading of the ammeter, and the maximum should be repeated three times.

This feature of the proposed method is determined by the following reasons.

1) The symmetry of the repeat peaks of the readings is a consequence of the uniform loading of the cable phases (cores) created by a three-phase asynchronous motor.

2) Symmetry should be observed only when the cable phases are evenly loaded. Therefore, the violation of this symmetry shows the presence of a fault in the engine circuit.

The indicated factor of triple repetition of the same maximum readings provides an opportunity not only to establish a normal current in each area of the engine, but also immediately to establish that the engine is faulty.

The device for measuring the current value according to the proposed method is made of two parts: a receiving device, i.e., a device for applying a coil to the cable and amplifying the magnetic flux, as well as a portable ammeter, i.e., a millivoltmeter with a scale calibrated with ampere .

The receiving device is made like measuring flares, it (Fig. 3), but structurally different from the latter.

At the ends of the iron cores 6, assembled from sheets of transformer iron, iron segments 7 are reinforced with machined slots along their ends (along the perimeter), where coils 2 are wound, connected in parallel to each other.

Iron cores 6 are mounted on aluminum brackets 5, and unlike conventional mites, the magnetic core is not closed here.

A portable ammeter is a millivoltmeter, the scale of which is scaled for current in amperes. A transformer and a cuprox rectifier are mounted inside the ammeter box.

When measuring the current, the cable / is enclosed by flares, the springs of which tightly press the segments 7 to the cable. Then, rotating the tongs around the cable, observe the readings of the ammeter, setting the maximum reading, which determines the current strength of the cable.

Subject invention

Claims (2)

1. Method of measuring the POWER of current in the conductors of a multi-phase cable, characterized in that, in order to make measurements without destroying the integrity of the cable, the current strength in individual conductors is judged by the magnetic flux not compensated due to the spatial arrangement of the wires in the cable coil attached to an electrical measuring device. 2. A device for carrying out the method according to claim 1, in that it is made in the form of a detachable electromagnet with pole brakes applied to the surface of the cable. - 3 - № 82537 FIG. one  Usaj