SU21262A1 - Electric meter - Google Patents

Description

The present invention relates to an electric metering device using a permanent magnet or an electromagnet and consists of a constructive form in which one or more flat spiral springs are included in the measured current circuit and are placed perpendicular to the magnetic line as a solenoid of the moving system. m

In FIG. 1 and 2 depict a device with a permanent magnet; FIG. 3 and 4-device with an electromagnet; FIG. 5 and a b-device in which the magnetic field is created by the springs themselves.

The device consists of a spiral 1 which is electrically conductive of a nonmagnetic elastic material, the outer end of which is fixed on the adjusting lever 4, and the inner end is attached to axis 2. The spiral is located in a magnetic field so that its plane is normal with respect to the direction of the magnetic field lines. The magnetic field can be created either by using permanent magnets (Fig. 1, 2), or by using electromagnets (Fig. 3 and 4), or, finally, by the working spirals themselves acting on each other (Fig. 5 and 6). Axis 2, passed through cylindrical channels passing through the poles of magnet 3, rests

with their ends on the bolsters 5 and 5 and provided with an arrow pointer b. The measured current is supplied to the spiral 1 from the clamp 7 through the adjusting lever 4, isolated from the axis 2, and is led through the axis 2 to the clamp 7, wherein the connection of the axis 2 with the clamp 7 can be made either through an auxiliary spiral 1 fixed on the axis 2 and attached to its outer end to the lever 4 (Fig. 1) or through the bolster 5.

When an electric current passes through the spiral 1, electrodynamic forces begin to act on each point of the spiral under the influence of a magnetic field, depending on the direction of the current and on the direction of the magnetic field, these forces at all points; the spirals are directed either to the center of the spigula, or from it. As a result, the helix tends to either twist, the lib unwind and rotate the axis 2 in that direction on the other side until the elasticity of the helix balances the electrodynamic forces. Put on. axis 2 pointer b (arrow, as shown in Figs. 1 and 2, or mirror for 1 observation by means of a mirror reference) allows measuring the angle of rotation on the slit and thereby determining the corresponding current strength.

FIG. 3 and 4 depict several

a modified measuring device having two spirals 1 and 1 and a magnetic field in which is created by an electromagnet 3 of a T-shape, connected in series with the spirals. In this form of the electromagnet, the magnetic fields in the upper and lower interstitial spaces will have the opposite direction, respectively, the opposite directions of the current in the spirals, fed through one and discharged through another spiral. As a result, both spirals will act on axis 2, turning it in the same direction. The winding 8 of the electromagnet can also have independent power supply, in which case the device can only serve to measure direct current; if the electromagnet winding is included in the circuit of the measured current, as shown in FIG. 3 and 4, the instrument will give readings both at constant and at alternating current.

When measuring and stronger currents, the magnets in the device may be completely absent. The current flowing along one helix will interact with the field of another helix, or if the device is properly designed, with its own field.

FIG. 5 shows, for example, a device in which each of the spirals is in a magnetic field formed by a different spiral, wherein both spirals act on the pointer b, turning it in the same direction. To obtain a more uniform magnetic field, and to reduce leakage from the outer sides of the spirals, iron discs 10 and 10 are placed, which can be interconnected, forming a magnetic conductor in the form of a closed casing. . 6. In this case, magnetic scattering is further reduced, and the magnetic field is created solely by the working helix itself. The covers 10 and 10 are insulated from each other by insulating 11, and the fixed ends of the spirals are fixed directly to them, and to set the gauge to zero on the scale scale, the covers are rotatable.

The subject matter of the invention.

1. An electrical measuring device using a permanent magnet or an electromagnet, as well as one or several flat spiral springs attached to a common axis, characterized in that the spiral springs are placed in a narrow interpolar space of magnets or electromagnets in such a way that the planes of the spirals are normal to the direction of the intersecting their lines of force, causing the twisting of the latter, when passing through the current springs, transmitted to an arrow fixed on the device axis.

2. The form of the device specified in paragraph 1, characterized in that the floor, interacting with the spiral springs, are also created by spirals.

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