MD535Z - Magnetic field indicator - Google Patents

Abstract

The invention relates to security devices, particularly devices for detecting the unauthorized access to devices accounting the consumption of resources, for example electric energy, gas, water, by the action of a magnetic field.The magnetic field indicator, according to the invention, includes a non-magnetic body, formed of at least two sections, at least one of which is made transparent, the body being made with the possibility of hermetic fixation on an outer surface, and a magnetically sensitive element containing a viscous mixture of magnetic particles on base of binder additives, applied on the inner surface of the body in arbitrary form and made with the possibility of changing the form under the action of a magnetic field.

Description

The invention relates to safety devices, in particular to devices for identifying unauthorized access to 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 energy resource consumption recording devices, in particular on household water, gas and electricity meters, which involves non-destructive action on the internal elements of these devices, for example, using a magnetic field that blocks the rotation speed of the calculating mechanism (meter). This field is created by powerful magnets, which are fixed to the body of the device. In such situations, protection against unauthorized access can be carried out using a device for recording the use of a magnetic field.

The ferromagnetic object recording transducer is known, which contains a non-magnetic body and a magnetosensitive node, located inside the body. The magnetosensitive node consists of a permanent ring magnet with a rectangular profile and a Hall element, and a groove is made in the transducer body for fixing the Hall element. Other components, in particular the printed circuit board, the sealing element, the ferromagnetic core, installed in the body casing, when interacting with the magnetosensitive node form a rather complex structure for recording the magnetic field [1].

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

The closest in technical essence to the claimed magnetic field indicator is the device consisting of a non-magnetic body with a transparent portion, made with the possibility of hermetically fixing on the outer surface, and a magnetosensitive element, containing a viscous mixture of magnetic particles based on binding additives, deposited on the inner surface of the body in an arbitrary shape and made with the possibility of changing its shape under the action of a magnetic field [2].

In the aforementioned indicator, the body is formed by a hollow convex transparent portion and a lateral portion, which starts from it on the perimeter of the base, made with the possibility of being tightly fixed to the outer surface conjugated to it.

The main disadvantage of the described construction lies in the open access to the magnetosensitive element, which makes it vulnerable to various unforeseen effects that could affect its physical and technical properties and, therefore, reduce the reliability of the indicator.

The problem that the invention solves consists in creating a simple, reliable and efficient constructive device, convenient in manufacturing and operation and achievable based on accessible and cheap materials.

The outlined problem is solved by the fact that the magnetic field indicator includes a non-magnetic body with a transparent portion, made with the possibility of hermetically fixing on an external surface, and a magnetosensitive element containing a viscous mixture of magnetic particles based on binding additives, applied to the internal surface of the body in an arbitrary shape and made with the possibility of changing shape under the action of a magnetic field, at the same time the body is formed of at least two portions, made and sealed together with the possibility of forming a closed hollow space between them, at the same time at least one of the portions is made transparent, and at least one portion of the body is made flat.

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

The tight joining of the body portions and its fixation on the outer surface is carried out by applying a layer of adhesive material to the conjugated surfaces.

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

The result of the invention consists in increasing the reliability of the construction of the magnetic field indicator and its fixation on the recording devices, which increases the degree of protection of energy resources against theft.

The hermetically sealed execution of the indicator body and the placement of the magnetosensitive element inside the body, without direct access to it, increases the reliability of the device as a whole, as it protects the magnetosensitive element against accidental mechanical actions during storage, transportation and installation on energy resource accounting devices that could affect its integrity and properties.

At the same time, the hollow closed construction allows one of the body parts to be made flat, and the other in the form of an arbitrary convex geometric figure, such as a segment of a sphere, paraboloid or other surface. As a result, the possibility of the magnetosensitive element to change its configuration under the action of an external magnetic field is ensured and, therefore, to clearly demonstrate the performance of the unauthorized action.

In addition, the possibility of placing the magnetosensitive element at any point on the inner surface of the body and making a flat portion simplifies the process of manufacturing the indicator, since applying the magnetosensitive element to a flat surface is technologically simpler and more convenient.

The proposed construction provides for the execution of the entire body or one of its portions from transparent material, but in such a way as to ensure visual control of the magnetosensitive element.

The use of a viscous mixture of magnetic particles, such as a powder based on binding additives, for the manufacture of a magnetosensitive element causes an inevitable 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's location.

Given the need to obtain the effect of changing the configuration of the magnetosensitive element when using the viscous mixture, the viscosity values of the mixture used must be within the limits of 27 x 10-2 to 42 x 10-2 m2/s. The specified range of values is determined by the fact that at values lower than 27 x 10-2 m2/s the mixture becomes fluid, and at values higher than 42 x 10-2 m2/s the mixture becomes, in essence, a solid and obtaining a change in its shape is practically very difficult.

The closed indicator body simplifies the process of fixing it on various devices, regardless of their surface configuration, by applying the adhesive material to the corresponding portion of the body so as to ensure the possibility of performing the control in any place of the verifiable recording device, where the magnetic field source can be fixed.

Moreover, on the one hand, the simplicity of the device's construction, and on the other hand, the manufacturing of the indicator body from cheap, widely available polymeric materials, to which any shape can be technologically assigned, make the manufacturing process of the claimed device less expensive both in terms of labor and material resources, as well as financial resources.

The essence of the claimed technical solution is explained by 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, in the embodiment shown in Fig. 1 and 2, comprises a body 1 having a concave convex portion 2, on the perimeter 3 of the base of which a lateral portion 4 starts. The magnetosensitive element 5, having the shape of a spot of a defined configuration, is applied to the inner surface of the portion 6, made flat (Fig. 2). The tight fixing of the convex portion 2 to the flat portion 6 by means of the lateral portion 4 creates a closed hollow space inside the body 1, in which the magnetosensitive element 5 is placed.

In the proposed embodiment, the magnetosensitive 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 clearly visible in its original shape.

In the process of manufacturing the proposed device, its body 1 is preferably formed from two hermetically joined portions, however, it can be manufactured in another form, depending on the needs and concrete technological possibilities. Based on a binding additive, organic or synthetic, such as silicone, the magnetosensitive element 5 is prepared in the form of a viscous mixture, which contains magnetic nanoparticles. The obtained element is applied to the inner surface of the body.

The outer surface of the flat portion 6 is covered with an adhesive composition that ensures the tightness of the indicator's fixation on any outer surface of the meter.

When in use, the indicator is hermetically fixed to the controlled device in place of the possible installation of the magnet. The tightness of the body excludes unauthorized access to the magnetosensitive element.

Installing the magnet when the indicator is fixed on the device leads to the fact that under the action of the magnetic field the magnetosensitive element 5 changes its configuration, transforming in the direction of the magnet. When the magnet is moved, the configuration of the magnetosensitive element 5 continues to change, while 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 part of the sealing device, which should additionally be equipped with a means of numerical data, identifying a specific device being checked. Combined into a single construction, the indicator and the means of numbering 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 concrete implementation

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

The prototypes were made of the same shape, with a convex hemispherical portion with a diameter of 10 mm with a flat lateral portion of annular shape with a width of 3 mm, starting from its base, and a flat square portion with a side of 16 mm. The convex portion of the body was made by the polystyrene vacuum forming process, and the flat square portion was cut using a standard die from 0.5 mm thick PVC.

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 surface of the flat portion in a round shape with a diameter of 3 mm.

To join the convex and square portions, as well as to fix the indicator to the tested object, long-lasting polyacrylic dispersion glue was used, which was applied to the lower surface of the annular portion and the outer surface of the square 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 magnetosensitive element reacted accordingly, changing its configuration and transforming in the direction of the magnet's placement. When the magnet was placed above the indicator, the magnetosensitive element stretched, obtaining an irregular shape.

In the process of multiple experiments, the indicator reacted 100% to the presence of the magnetic field.

The experiments were conducted in a climatic chamber at different temperature regimes, demonstrating the possibility of the indicator to function in conditions of temperature changes from -40 to +60°C.

Thus, the experiments performed have shown that the use of the indicator according to the invention 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 2002123676 A 2004.06.10

2. MD 393 Y 2011.06.30

Claims (5)

1. Magnetic field indicator, which includes a non-magnetic body with a transparent portion, made with the possibility of hermetically fixing on an external surface, and a magnetosensitive element containing a viscous mixture of magnetic particles based on binding additives, applied to the internal surface of the body in an arbitrary shape and made with the possibility of changing shape under the action of a magnetic field, characterized in that the body is formed of at least two portions, made and sealed together with the possibility of forming a closed hollow space between them, at the same time at least one of the portions is made transparent. 2. Indicator according to claim 1, characterized in that at least a portion of the body is made flat. 3. Indicator according to claims 1-2, characterized in that organic or synthetic additives are used as binding additives, for example silicone, and the viscosity of the mixture is (27…42) x 10-2 m2/s. 4. Indicator according to claims 1-3, characterized in that the sealed joining of the body portions and its fixing on the outer surface is performed by applying a layer of adhesive material on the conjugated surfaces. 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 or other similar materials.