RU133620U1 - MAGNETIC INFLUENCE INDICATOR - Google Patents

Abstract

Magnetic influence indicator. Refers to devices that control the external magnetic effect on metering devices, for example, on electricity, water, gas meters, heat energy meters. It can be used in the energy sector, used by gas companies, and in water and housing utilities to combat the theft of electricity, water, gas, and thermal energy. The magnetic influence indicator comprises a housing in the form of a cover in which an element of hard magnetic material is placed. An element of hard magnetic material is made in the form of a thin magnetic metal base, the surface of which is painted with bright paint. At the top of the base there is a guide lining with holes in which three magnets based on rare-earth intermetallic alloys are installed, which are located opposite poles relative to each other and interact with each other. 1 n and 1 z.p. fili, 2 ill.

Description

The utility model relates to devices that control the external magnetic effect on metering devices, for example, electricity, water, gas meters, heat energy meters. The utility model can be used in the energy sector, used by gas companies, in water and housing utilities to combat the theft of electricity, water, gas, and thermal energy.

A magnetically sensitive seal is known (PM RF No. 117641, prior. 01/31/12, publ. 06/27/12, IPC G01R 11/24), which has a sealed enclosure consisting of a base and a lid mounted on it made of a transparent polymer, inside of which is placed magnetically sensitive material in the form of a magnetic suspension deposited on the base of a droplet, which is able to interact with a magnetic field with an induction value of 50 mT.

The disadvantages of this seal is that the magnetic suspension does not respond to a magnetic field with a zero gradient if the magnet is brought up by the central part, while a strong magnet can be placed directly on the surface of the seal, which reduces the sensitivity and makes it possible for the magnetic field to affect the counter without fixing it with a seal . In addition, the claimed seal is unstable to elevated temperatures, so when exposed to some time on the suspension with hot air, the suspension will dry out and its sensitivity is lost.

The well-known indicator of magnetic influence IMB-1 (Utility model of Ukraine No. 72937, prior. 03.10.11, publ. 10.09.12, bull. No. 17, IPC H01F 10/00), which is made in the form of a two-layer plate, the first layer is made of hard magnetic material, the second layer is made cellular from a transparent material with a powder of magnetically soft material in the cells. Additionally, the indicator contains a non-magnetic lining - the third layer is in the form of a transparent film, Al - Ni - Co - Fe alloy is used as a magnetically hard material.

The disadvantages of the indicator include the possibility of resuming the location of the magnetic powder under the influence of a concentrated magnetic field, the indicator also works when a strong magnet is directly installed on its surface, if the magnet is located near the surface of the indicator, the magnetic powder returns to its magnetic cells and does not work.

Closest to the claimed is an indicator of magnetic influence (PM of Ukraine No. 72922, prior. 04.07.2012, publ. 08/27/2012, bull. No. 16, IPC G03D 3/00, H01F 10/00), in which at least one element made of hard magnetic material designed to fix the magnetic effect of the residual magnetic induction and / or other parameters of the magnetic field of this element. For a visual indication of the magnetic effect, it contains at least one ferromagnetic element, which has the property to change its primary location relative to the element of the hard magnetic material under external magnetic action.

The disadvantages of this indicator include the large mass of the device and, as a consequence, the large inertial force, which contributes to the involuntary shift of part of the element of the ferromagnetic material during transportation or accidental fall. Over time, any liquid, including sticky gel, loses its properties especially at elevated temperatures, and the content of an element of hard magnetic material will not meet the specified parameters, and even with increased humidity, the ferromagnetic element is capable of increased corrosion, which increases friction and prevents movement ferromagnetic element.

The utility model is based on the task of improving the indicator of magnetic influence by introducing elements that irreversibly change their appearance with external magnetic exposure to provide low cost, resistance to unauthorized interventions and environmental actions without losing the ability to irreversibly react in the given parameters to external magnetic influence, simplicity in use.

The problem is solved in that in the known indicator of magnetic influence, comprising a housing in the form of a cover in which an element of hard magnetic material is placed, according to a utility model, the element of hard magnetic material is made in the form of a thin magnetic metal base, the surface of which is painted with bright paint, is located on top guide lining with holes in which at least one magnet based on rare-earth intermetallic alloys is installed, while the magnets interact with each other.

In another specific embodiment, the indicator contains three magnets that are located opposite poles relative to one another.

A causal relationship between the totality of features of a utility model and the technical result is as follows.

The implementation of the element of hard magnetic material in the form of a thin magnetic metal base, the surface of which is painted with bright paint, on which a guide lining with holes is located allows you to visually determine the unauthorized external magnetic effect on the indicator due to the fact that rare earth magnets change their primary location relative to the element of hard magnetic material when in this case, holes are released and a fragment of the metal base appears, ok Ashen bright paint.

The use of magnets based on rare-earth intermetallic alloys makes it possible to stabilize the sensitivity of the indicator due to its resistance to the environment, namely: increased humidity and temperature. In addition, magnets based on rare-earth intermetallic alloys have maximum anisotropy and the highest magnetic properties, their typical magnetic properties: Br from 7 to 10 kG and Hc from 18 to 12 kOe, respectively.

The interaction of rare earth magnets with each other, in the case when there are more than one of them, provides an irreversible indication by coupling the magnets together and makes their primary location impossible.

Using in the declared indicator the magnetic effect of magnets based on rare-earth intermetallic alloys, the coercive force of magnets of such mass is able to withstand the inertial force of the same magnets, which makes it possible to use this indicator in difficult conditions, even with strong vibration of metering devices.

The essence of the utility model is explained by the drawings. Figure 1 shows the indicator of magnetic influence before external magnetic effects on the meter; figure 2 presents the indicator of the magnetic effect after the implementation of external magnetic effects on the meter (top view).

The magnetic influence indicator comprises a housing in the form of a cover 1 made of transparent hard plastic, an element of hard magnetic material 2, made in the form of a magnetic thin metal base, the surface of which is painted with bright paint, on which there is a guide lining 3 with holes 4 in which at least one magnet 5 based on rare-earth intermetallic alloys.

The proposed indicator of magnetic influence is used as follows.

After placing the indicator of magnetic influence on the body of the metering meter of electricity (water or gas), the indicator is ready to control the unauthorized influence of an external magnetic field.

When the external magnetic field is exposed to the indicator, the magnetization distribution in the plate of hard magnetic material 2 changes and the magnet 5 on the basis of the rare-earth intermetallic alloys irretrievably shifts from its original place on the guide pad 3. After the magnets 5 are displaced, a fragment of the colored plate appears in the holes 4 of the guide pad 3 from hard magnetic material 2, which allows you to visually testify that the meter of electricity (water or gas) was carried out in exposure to a magnetic field that could harm the operation of the meter.

Thus, the utility model, which is claimed, is an indicator of magnetic influence, which, due to its reliability and simplicity of design, allows for effective detection of the impact on metering devices with a magnetic field, while it is possible to record the effect of a magnetic field in different directions, the indicator design ensures its failure-free work in various environmental conditions, in a wide temperature range, in conditions of high humidity, pollution, chemical aggressive However, under the influence of vibrations, the use of the indicator as a whole is ergonomic and cost-effective.

Claims (2)

1. Magnetic influence indicator, comprising a housing in the form of a cover, in which an element of magnetically hard material is placed, characterized in that the element of magnetically hard material is made in the form of a magnetic thin metal base, the surface of which is painted with bright paint, on top there is a guide lining with holes, of which at least one magnet based on rare-earth intermetallic alloys is installed, while the magnets interact with each other. 2. The indicator according to claim 1, characterized in that it contains three magnets that are located opposite poles one relative to the other.

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