EA021652B1 - Magnetic field indicator - Google Patents

Abstract

The invention relates to security devices, particularly to devices for detection of unauthorised access to meters of energy resources consumption, for example electricity, gas and water, and to other control devices by action of a magnetic field. The indicator represents a device having a housing formed with a convex hollow transparent section and a side section branching off it along the perimeter of the base, the side section being made so that it can be tightly fixed on the outer surface adjoining it. The indicator is provided with a magnetosensitive assembly made in the form of a magnetosensitive element containing a viscous mixture of magnetic particles on the basis of binding additives. The magnetosensitive element is applied onto the inner surface of the convex section of the housing in the form of a spot of an arbitrary configuration that is changed under action of the magnetic field. The result achieved by means of this invention consists in simplification of the magnetic field indicator design and improvement of a reliability degree of detection of an available magnetic field at unauthorised action on meters of consumption of energy resources.

Description

(57) The invention relates to security devices, in particular to devices for detecting unauthorized access to metering devices for the consumption of energy resources, for example, electricity, gas, water, and other control devices by exposure to a magnetic field. The indicator is a device having a housing formed by a convex hollow transparent section and a side section extending from it along the base perimeter, the side section being made with the possibility of hermetic fixation on the external surface mating with it. The indicator is equipped with a magnetically sensitive assembly made in the form of a magnetically sensitive element containing a viscous mixture of magnetic particles based on binding additives. The magnetosensitive element is deposited on the inner surface of the convex portion of the body in the form of a spot of arbitrary configuration, which changes under the influence of a magnetic field. The result achieved using the present invention is to simplify the design of the magnetic field indicator and increase the degree of reliability of detecting the presence of a magnetic field during unauthorized exposure to metering devices for the consumption of energy resources.

021652 B1

The invention relates to security devices, in particular to devices for detecting unauthorized access to metering devices for the consumption of energy resources, such as electricity, gas, water, and other control devices by exposure to a magnetic field.

Known methods and devices for establishing the fact of unauthorized exposure to metering devices, namely counters, for the physical destruction of protective devices.

As an example of such decisions, one can consider the method and device described in Russian application No. 2002107034 A method for monitoring the operating state of a water meter and a device for its implementation [1].

This device contains a sealing device consisting of a small cylindrical ring and a large cylindrical ring. In this case, the small ring covers the head of the water meter, and the large ring covers part of the water meter and the upper parts of the connecting nuts. The large and small rings are connected to each other using a flat ring, forming a single inseparable structure.

The described device determines the fact of unauthorized access to the nodes of the water meter for the physical destruction of the filling device.

However, such a device is structurally complex, and its destruction to state the fact of unauthorized access to the meter makes the control process expensive.

It is also known that unauthorized exposure to metering devices for the consumption of energy resources, mainly household water, gas and electricity meters, can be carried out not only by destroying the protective device, for example, seals, but also by non-destructive effect on the internal elements of such devices, for example, by a magnetic field inhibiting counter rotation speed. Such a field is created by strong magnets fixed to the device body. In such situations, protection against unauthorized access is determined by the fact of registration of the use of a magnetic field source.

The closest in technical essence to the claimed magnetic field indicator is the device described in Russian application No. 2002123672 Sensor for registering a ferromagnetic object [1].

The specified sensor contains a non-magnetic housing and magnetically sensitive node located inside the housing. The magnetosensitive assembly consists of a permanent ring magnet of rectangular shape and a Hall element, and the sensor housing is equipped with a frame with a groove for fixing the Hall element. The presence of other parts, in particular a printed circuit board, a sealing element, a ferromagnetic core, installed in the frame of the housing and interacting with the magnetically sensitive assembly, forms a rather complicated structure for detecting the magnetic field.

The main disadvantage of the described device is its complexity, the associated large labor costs for manufacturing and, as a result, significant financial costs in mass production for use in power distribution structures.

The problem to which the invention is directed is to develop a structurally simple and effective device that reliably detects the presence of a magnetic field, is convenient to operate, and is implemented on the basis of affordable and cheap materials.

The problem is solved due to the fact that in the magnetic field indicator containing a non-magnetic housing and a magnetically sensitive assembly located inside the housing, the housing is made in the form of a device formed by a convex hollow transparent section and a side section extending from it along the perimeter of the base, made with the possibility of hermetic fixation on the external surface mating with it, and the magnetically sensitive assembly is made in the form of a magnetically sensitive element containing a viscous mixture of magnetic particles based on binders additive element being magnetically deposited on the inner surface of the convex portion of the housing in the form of spots of arbitrary configuration, under the influence of changing magnetic fields.

At the same time, organic or synthetic additives, for example, silicone, are used as binders, and the viscosity value of the mixture is in the range from 27 x 10 ^-2 to 42 x 10 ^-2 m ² / s.

In addition, a layer of adhesive is applied to the surface of the side portion from the upper and / or lower side.

And also the body is made of polymeric materials such as high-impact polystyrene, polyvinyl chloride plastic compound or other similar materials, and its convex section has an arbitrary geometric shape, for example, a segment of a sphere, paraboloid, parallelepiped or other surface.

The result achieved with the help of this invention is to simplify the design of the magnetic field indicator and increase the degree of reliability of detecting the presence of a magnetic field during unauthorized exposure to energy consumption meters.

The inventive design is simple in form and convenient to use. Indeed, the shape of the housing, which consists of two sections that are easy to manufacture, one of which is the lateral one, which can be fixed on the surface mating with it, allows the indicator to be fixed on any surface, both flat and curved.

The result is the ability to monitor anywhere

- 1 021652 metering device, where the source of the magnetic field can be fixed.

The use of a viscous mixture of nanosubstance of magnetic particles for manufacturing a magnetically sensitive element, for example, powder based on binding prefixes, necessitates a change in the initial configuration of the element under the influence of a magnetic field. In this case, the configuration change in accordance with the laws of physics of magnetic phenomena occurs in the direction of the location of the magnet.

Considering the need to obtain, when using a viscous mixture, the effect of changing the configuration of the magnetically sensitive element, the viscosity values of the mixture used should be in the range from 27x10 ^-2 to 42x10 ^-2 m ² / s. The specified range of values is determined by the fact that at values below 27x10 ^-2 m ² / s the mixture becomes a fluid, and at values above 42x10 ^-2 m ² / s the mixture essentially becomes a solid and it is practically very difficult to change its shape.

The presence of a transparent convex hollow section, inside which a magnetically sensitive element is placed, allows it to freely change its configuration under the influence of an external magnetic field and thereby clearly demonstrate the implementation of unauthorized exposure.

Application of the adhesive substance to the side of the housing with its upper and / or lower sides, depending on the specific method of application of the proposed indicator, ensures the tightness of its fastening, and therefore the reliability of reliable results.

Moreover, on the one hand, the simplicity of the design of the device, and on the other hand, the manufacture of the indicator housing from widely available inexpensive polymeric materials, which are technologically easy to give the desired shape, make the manufacturing process of the inventive device cost-effective both in terms of labor and material resources, and financial means .

The essence of the proposed technical solution is illustrated by the following description and drawings.

In FIG. 1 is a plan view of a magnetic field indicator; in FIG. 2 is a cross-section along ΛΑ of the indicator in FIG. one.

The magnetic field indicator (Fig. 1 and 2) contains a housing 1 having a convex hollow section 2, along the perimeter of the base 3 of which a side section 4 departs. A magnetically sensitive element 5 having the shape of a spot of a certain configuration is applied to the inner surface of the section 2 (Fig. 2) . In the embodiment of FIG. 1 and 2, the execution of element 5 has the shape of a sphere segment. Since at least the convex portion 2 is made of a transparent material, the magnetically sensitive element is easily visible in its original form.

In the manufacturing process of the proposed device, its housing 1 is formed mainly in the form of a single part, however, it can be made in another way, depending on the specific technological capabilities.

Based on a binder additive, which is used as organic or synthetic additives, for example silicone, a magnetically sensitive element 5 is prepared in the form of a viscous mixture, which includes nanosubstance of magnetic particles. The resulting element is applied to the inner surface of section 2.

The surface of the side section 4 is covered with an adhesive composition, which ensures the tightness of the indicator mounting on any external surface.

A ready-to-use indicator is hermetically mounted on a controlled device in the place of a possible magnet installation. The tightness of the mount excludes access to the magnetically sensitive element, since when you try to remove the indicator, its integrity is violated, which clearly indicates an attempt to unauthorized access.

The installation of the magnet when the indicator is mounted on the device leads to the fact that under the influence of a magnetic field, the magnetically sensitive element 5 changes its configuration, transforming toward the magnet. When the magnet moves, the configuration of element 5 continues to change, however, when the magnet is removed, the element retains its changed shape, which clearly demonstrates the fact of unauthorized exposure to the device under test.

It should be noted that the proposed magnetic field indicator can be used as an integral part of a filling device, which should additionally contain a means equipped with numbered data identifying the particular device under test. The indicator and numbering device, combined into a single design, form a convenient, reliable and cheap protective device against unauthorized exposure to energy meters by a magnetic field on meters.

An example of a specific implementation.

In the course of an experimental study of the proposed magnetic field indicator, several prototypes were manufactured that were used to detect unauthorized exposure to household gas consumption meters by a magnetic field.

The samples were made of the same shape with a convex section in the form of a hemisphere with a diameter of 10 mm. Around the hemisphere circumference from its base a flat lateral section of a ring shape with a width of 3 mm departed. The casing of the samples was made by vacuum molding of polystyrene.

- 2 021652

The magnetosensitive element is based on δΐ-10 silicone grease (TU 2389-32005763458-2001) with the addition of magnetic powder corresponding to TU 6-36-05800165-1009-93. The resulting mixture was made with a viscosity of 36x10 ^-2 m ² / s, which made it possible to deposit the formed magnetically sensitive element on the inner surface of the hemisphere in the form of a round spot with a diameter of 3 mm.

To fix the indicator on the test object, a long-acting adhesive, polyacrylate dispersion, was applied, which was applied to the lower surface of the annular section.

The indicators obtained in this way were hermetically fixed on the casing of the counters and were exposed to a magnetic field created by a high-power magnet. Moreover, on different counters, the magnets were placed on different sides relative to the indicator.

In response to the applied magnetic field, the spot reacted with an appropriate response, changing its configuration and transforming in the direction of the magnet. In the case when the magnet was placed above the indicator, the spot blurred, acquiring an irregular shape.

In the process of numerous experiments, a 100% result of the indicator's response to the presence of a magnetic field was obtained.

The experiments were carried out in a climatic chamber at various temperature conditions and demonstrated the suitability of the indicator for operation under conditions of temperature changes from -40 to + 60 ° С.

Thus, the experiments showed that the use of the described indicator in the design of the filling device is able to provide reliable protection of the meter, registering any exposure to a strong magnetic field.

Claims (5)

CLAIM 1. Magnetic field indicator, containing a non-magnetic case and a magnetically sensitive unit located inside it, characterized in that the case is made as a device formed by a convex hollow transparent section and a lateral section extending from it around the perimeter of the base, which can be hermetically fixed on the mating the outer surface, and the magnetically sensitive node is made in the form of a magnetically sensitive element containing a viscous mixture of magnetic particles based on binder additives, and magnesium The sensing element is applied inside the convex part of the body in the form of a spot of arbitrary configuration, changing under the influence of a magnetic field. 2. The indicator according to claim 1, characterized in that organic or synthetic additives, such as silicone, are used as binding agents, and the viscosity of the mixture ranges from 27x10 ^-2 to 42x10 ^-2 m ² / s. 3. The indicator according to claims 1, 2, characterized in that a layer of adhesive substance is applied to the surface of the side section from the top side and / or from the bottom side. 4. The indicator in PP.1-3, characterized in that the convex part of the body has an arbitrary geometric shape, such as a segment of a sphere, paraboloid, parallelepiped or other surface. 5. The indicator according to claims 1-4, characterized in that the body is made of polymeric materials such as high impact polystyrene, polyvinyl chloride plasticate or other similar materials.