MD393Z - Magnetic field indicator - Google Patents

Abstract

The invention relates to security devices, in particular to devices for identifying the unauthorized access to devices for accounting the consumption of energy resources, such as electricity, gas, water, by the influence of a magnetic field.Magnetic field indicator, according to the invention, includes a non-magnetic body, formed by a convex transparent hollow portion and a lateral portion deviating from it along the perimeter, made with the possibility of tight fixation to the outer surface, and a magnetosensitive element, containing a viscous mixture of magnetic particles on base of binding additives. The magnetosensitive element is deposited on the inner surface of the convex portion of the body in arbitrary shape and is made with the possibility of changing the shape under the influence of the magnetic field.The result of the invention is to simplify the design of the indicator and increase the accuracy of detecting the unauthorized influence by a magnetic field on the energy resources consumption accounting devices.

Description

The invention relates to safety devices, in particular to devices for identifying unauthorized access to energy resource consumption meters, such as electricity, gas, water, through the action of a magnetic field.

Methods and devices are known for establishing unauthorized action on recording devices, namely on meters after physical destruction of protective devices.

The device for monitoring the operation of the water meter is known, which contains a sealing device composed of a small cylindrical ring and a large cylindrical ring. At the same time, the small ring encompasses the head of the water meter, and the large ring encompasses a part of the water meter and the upper parts of the tightening nuts. The large and small rings are joined together by means of a flat ring, forming a single inseparable structure [1].

The described device is used to determine unauthorized access to water meter nodes after physical destruction of the sealing device.

However, this device is complicated from a constructive point of view, and its destruction in the event of unauthorized access makes the control process expensive.

It is also known that unauthorized action on household energy consumption meters can be carried out not only by destroying protective devices, such as seals, but also by non-destructive action on the internal elements of these devices, for example, with a magnetic field that slows down the speed of rotation of the meter. This field can be created by strong magnets fixed to the body of the device. In such situations, protection against unauthorized access can be carried out using a device that records the use of a magnetic field.

The closest in technical essence is the transducer for recording a ferromagnetic object, which contains a non-magnetic body and a magnetosensitive node located inside the body. The magnetosensitive node consists of a rectangular-shaped permanent ring magnet and a Hall element, and the transducer body is provided with a housing with a groove for fixing the Hall element. The presence of other components, in particular the printed circuit board, the sealing element, the ferromagnetic core, which are installed in the body housing and interact with the magnetosensitive node, forms a rather complex construction for recording the magnetic field [2].

The main disadvantage of the described device is its complexity, the consumption of an increased volume of labor for manufacturing and, consequently, significant financial expenses for mass production for use in electricity distribution structures.

The problem that the invention solves consists in creating a constructively simple and efficient device for reliably recording the presence of the magnetic field, achievable based on available and cheap materials.

The outlined problem is solved by the fact that the magnetic field indicator contains a non-magnetic body and a magnetosensitive element, at the same time the body is formed by a hollow convex transparent portion and a lateral portion, which starts from it on the perimeter, made with the possibility of tight fixation on an external surface, and the magnetosensitive element contains a viscous mixture of magnetic particles based on binding additives and is applied to the inner surface of the convex portion of the body in an arbitrary shape, being made with the possibility of changing shape under the action of the magnetic field.

Organic or synthetic additives are used as binding additives, for example silicone, and the viscosity of the mixture is (27…42) ·10-2 m2/s.

A layer of adhesive material is applied to the lateral portion, upper and/or lower part.

The convex portion of the body has an arbitrary geometric shape, for example a segment of a sphere, paraboloid.

The body is made of polymeric materials, for example shock-resistant polystyrene, plasticized with polyvinyl chloride.

The result is to simplify the construction of the magnetic field indicator, increasing the accuracy of detecting unauthorized magnetic field action on energy resource consumption recording devices.

The claimed construction is simple in form and convenient in use. Indeed, the shape of the body, which consists of two simple parts in manufacture, one of which - lateral - is made with the possibility of fixing on the surface conjugated to it, allows the indicator to be fixed on any surface, both flat and curved.

As a result, it is possible to control the recording device wherever the magnetic field source can be attached.

The use of a viscous mixture of magnetic particles, such as a powder based on binding additives, for the manufacture of the magnetosensitive element causes a mandatory change in the initial configuration of the element under the action of a magnetic field. At the same time, the change in configuration in accordance with the laws of physics of magnetic phenomena occurs in the direction of the magnet placement.

Given the need to obtain the effect of modifying the configuration of the magnetosensitive element when using the viscous mixture, the viscosity values of the mixture used must be within the limits of 27x10-2 to 42x10-2 m2/s. The specified range of values is determined by the fact that at values lower than 27x10-2 m2/s, the mixture becomes fluid, and at values higher than 42x10-2 m2/s, the mixture essentially becomes a solid and obtaining a change in its shape is practically very difficult.

The presence of the hollow convex transparent portion, on the inner surface of which the magnetosensitive element is located, allows it to freely change its configuration under the action of an external magnetic field and, therefore, to clearly demonstrate the performance of the unauthorized action.

Applying the adhesive substance to the lateral portion of the body on its upper and/or lower side, depending on the specific method of applying the proposed indicator, ensures the tightness of its fixation, and, consequently, the reliability of obtaining accurate results.

Moreover, on the one hand, the simplicity of the construction of the device, on the other hand, the manufacturing of the indicator body from cheap, widely available polymeric materials, make the manufacturing process of the claimed device less expensive, with a smaller workload.

The invention is explained with the help of the drawings in Fig. 1, 2, which represent:

- Fig. 1, top view of the magnetic field indicator;

- fig. 2, cross-section A-A of the indicator in fig. 1.

The magnetic field indicator (Fig. 1 and 2) includes a body 1, having a concave convex portion 2, on the perimeter 3 of the base of which a lateral portion 4 starts. On the inner surface of the portion 2 (Fig. 2) is applied a magnetosensitive element 5, having an arbitrary shape. In the embodiment proposed in Fig. 1 the element 5 has the shape of a segment of a sphere, since at least the convex portion 2 is made of transparent material, the magnetosensitive element is evident in its original shape.

Body 1 of the proposed device is executed according to specific technological capabilities.

Based on binding additives, namely organic or synthetic additives, such as silicone, the magnetosensitive element 5 is made in the form of a viscous mixture, the composition of which includes magnetic particles. The obtained element is applied to the inner surface of the portion 2.

The surface of the lateral portion 4 is covered with an adhesive compound, which ensures the tightness of the indicator's fixation on any external surface.

The ready-to-use indicator is hermetically fixed to the controlled device in place of the possible installation of the magnet. The tightness of the fastening excludes access to the magnetosensitive element, because when trying to remove the indicator, its integrity is violated, which clearly demonstrates an attempt at unauthorized access.

Installing the magnet on a device with a fixed indicator leads to the fact that under the action of the magnetic field the magnetosensitive element 5 changes its configuration, moving in the direction of the magnet. When moving the magnet the configuration of the element 5 continues to change, however when the magnet is removed the element retains its modified shape, which clearly demonstrates the fact of unauthorized action on the checked device.

It should be noted that the proposed magnetic field indicator can be used as a component of the sealing device, which in addition must contain a means equipped with numerical data, identifying a specific device being checked. United in a single construction, the indicator and the number means form a reliable and inexpensive protective device against unauthorized action of a magnetic field on devices for recording the consumption of energy resources.

Example of embodiment of the invention

In the process of experimental research of the proposed magnetic field indicator, several prototypes were made used to detect unauthorized magnetic field action on household gas meters.

The prototypes were made of the same shape, with a convex portion in the shape of a hemisphere with a diameter of 10 mm, on the circumference of the hemisphere from its base there was a flat lateral portion of annular shape with a width of 3 mm. The body of the prototypes was made by the process of vacuum forming polystyrene.

The magnetosensitive element was made on the basis of silicone lubricant Si-10 (TU 2389-320-05763458-2001), with the addition of magnetic powder, corresponding to TU 6-36-05800165-1009-93. The resulting mixture was prepared with a viscosity equal to 36x10-2 m2/s, which allowed the magnetosensitive element to be applied to the inner surface of the hemisphere in the form of a round spot with a diameter of 3 mm.

To mount the indicator on the tested object, long-lasting polyacrylate dispersion glue was used, which was applied to the lower surface of the annular portion.

The indicators obtained in this way were hermetically fixed on the meter body and subjected to the action of a magnetic field generated by a high-power magnet. At the same time, on different meters the magnets were placed on different sides of the indicator.

In response to the applied magnetic field, the spot reacted accordingly, changing its configuration and moving in the direction of the magnet. When the magnet was placed above the indicator, the spot stretched, obtaining an irregular shape.

In the case of multiple experiments, the indicator response was 100% for the presence of a magnetic field.

The experiments were performed at different temperatures, demonstrating the usefulness of the indicator under conditions of temperature changes from -40 to +60°C.

Thus, the experiments performed have shown that the use of the described indicator in the construction of a sealing device can provide the meter with reliable protection, recording any action on it with a strong magnetic field.

1. RU 2002107034 A 2003.11.27

2. RU 2002123676 A 2004.06.10

Claims (5)

1. Magnetic field indicator, comprising a non-magnetic body and a magnetosensitive element, characterised in that the body is formed by a hollow convex transparent portion and a lateral portion extending from it on the perimeter, made with the possibility of being sealed to an external surface, and the magnetosensitive element contains a viscous mixture of magnetic particles based on binding additives and is applied to the inner surface of the convex portion of the body in an arbitrary shape, being made with the possibility of changing shape under the action of the magnetic field. 2. Indicator according to claim 1, characterized in that organic or synthetic additives are used as binding additives, for example silicone, and the viscosity of the mixture is (27…42) ·10-2 m2/s. 3. Indicator according to claims 1, 2, characterized in that a layer of adhesive material is applied to the upper and/or lower lateral portion. 4. Indicator according to claims 1-3, characterized in that the convex portion of the body has an arbitrary geometric shape, for example of a segment of a sphere, paraboloid. 5. Indicator according to claims 1-4, characterized in that the body is made of polymeric materials, for example shock-resistant polystyrene, plasticized with polyvinyl chloride.