EA029256B1 - Magnetic field indicator - Google Patents

Abstract

The subject of the present invention is a magnetic field indicator that registers the effect of an external magnetic field on a measuring device; the indicator can be used in electrical meters, water meters or heat meters. The magnetic field indicator comprises a transparent capsule 1 having a bottom 2 made of a ferromagnetic material, the capsule containing a pair of single-domain magnets 3 that have a cylinder shape.

Description

DESCRIPTION OF THE INVENTION TO THE EURASIAN PATENT

(45) Date of publication and issuance of the patent 2018.02.28

(21) Application Number 201600176

(22) Filing date

2016.03.14

(51) Ιπί. C1. H01K11 / 24 (2006.01)

(54) MAGNETIC FIELD INDICATOR

(31) RB412865

(32) 2015.06.25

(33) Pb

(43) 2016.12.30

(71) (73) Applicant and patent holder:

CONSORTIUM OF RESEARCH AND DEVELOPMENT MAGNETO MARIAN SOINSKY, ROMAN RIGAL FULL PARTNERSHIP; MAGNETECH ADAM KOZLOVSKY

(wg)

(72) Inventor:

Kozlovsky Adam, Soinsky Marian, Rigal Roman (Pb)

(74) Representative:

Emelyanova V.A., Vashuk T.V., Koroleva S.V. (ΒΥ)

(56) CI-C1-2570095

№0-A1-2015000491

KI-SH-96236

IA-and-72922

IA-C2-103258

I8-A-4542337

029256 Β1

029256 Β1

(57) The subject matter of the claimed invention is a magnetic field indicator, which records the effect of an external magnetic field on a measuring device used in electricity meters, water meters or heat meters. The magnetic field indicator is a transparent capsule 1 with a bottom 2 made of a ferromagnetic material, inside which is a pair of single-domain magnets 3 made in the form of cylinders.

029256

The subject matter of the claimed invention is a magnetic field indicator, recording the effect of an external magnetic field on a measuring device used in electricity meters, water meters or heat meters.

During the impact on the measuring device of the magnetic field, coming mainly from permanent magnets, often made of rare earth alloys, and in some cases from ferrite magnets with a much lower specific energy density, there is a disturbance in the operation of measuring devices, leading to incorrect measurement results.

In the description of the Polish patent under the number Pb 210182 a magnetic field indicator is described for recording the effects of an external magnetic field on a measuring device, thereby violating the correctness of the readings of this device, in particular water meters or electricity meters. According to the invention, a magnetic tape made of semi-magnetic solid material is magnetized by a resistant external magnetic field in order to streamline its external magnetic structure so that the colloidal indicator of field distribution shows two parallel lines. The magnetic tape prepared in this way is glued to this measuring device, for example, to a water meter. During the action of an external magnetic field on the water meter, an irretrievable change in the state of the previously established magnetization of the reinforced ribbon segments occurs, and a colloidal indicator shows changes in ordering.

In the description of the patent of Ukraine under the number IА61363 a magnetic field indicator is indicated, having a body equipped with a sensor and magnetic field indicator. In the case of the indicator there is a closed cavity in which the sensor and the indicator are located. Part of the body above the closed cavity is made transparent. The role of the sensor and the indicator is performed by a drop of the solution containing finely dispersed powder of a ferromagnetic material. At the moment when the magnet is located near the indicator, the force of attraction begins to affect the ferromagnetic powder and the shape of the drop changes.

The present invention is to develop such a design of the magnetic field indicator, which has the same sensitivity to the effects of an external magnetic field, regardless of the direction of its impact.

In accordance with the invention, a magnetic field indicator is described, characterized in that the indicator element that reacts to a magnetic field is a pair of single-domain magnets with a high energy density from 10 to 400 kJ / m ³ axially magnetized in contact with each other sides parallel to the axis of the poles.

Preferably, when a pair of single-domain magnets are two cylindrical magnet.

Preferably, when the capsule of the indicator has a bottom of a ferromagnetic material that allows you to hold the magnets in one place on the bottom surface.

According to the invention, the indicator is equally sensitive to the influence of an external magnetic field independently on its direction of action.

An exemplary embodiment of the invention is shown in the diagram, where in FIG. 1 shows a general view of the indicator until the moment of exposure to an external magnetic field, and FIG. 2 - a general view of the indicator after exposure to a magnetic field.

The magnetic field indicator consists of a transparent capsule 1 with a bottom 2 made of a ferromagnetic material, inside of which there are two single-domain magnets 3 of cylindrical shape with an energy density of 300 kJ / m ³ . The bipolar indicator magnets are arranged in such a way that they are in contact with each other by the sides, and not the end, on which there are magnetic poles.

At the time of exposure to an external magnetic field emanating from a magnet with greater energy, the indicator magnets are interconnected irreversibly by end surfaces, each of which has a magnetic pole, that is, surfaces perpendicular to the axis of the poles, which indicates a significant magnetic field effect on measuring instruments On which indicators of a magnetic field are installed. Recording the negative effects of a magnetic field on a measuring device is important information that is useful to the technical services and settlement services of electricity, gas or water suppliers.

Claims (3)

CLAIM 1. The magnetic field indicator in the form of a transparent capsule with an element that reacts to the influence of a magnetic field placed inside it, characterized in that this element is a pair of single-domain magnets (3) with energy density from 10 to 400 kJ / m ³ , located that the sides are in contact with each other, while the end sides are magnetic poles. 2. The indicator according to claim 1, characterized in that each of a pair of single-domain magnets (3) has a cylindrical shape. 3. The indicator according to claim 1, characterized in that in the capsule (1) the bottom (2) is made of a ferromagnetic material. - 1 029256