RU2607672C1 - Magnetic field exposure indicator - Google Patents

Abstract

FIELD: instrument making.

SUBSTANCE: invention can be used for prevention and detection of improper use of meters, to indicate unauthorised magnetic field exposure on meters. Present invention consists in that indicator of magnetic field exposure includes: housing 100 (600, 700) with cavity 1010 (6010, 7010), open on one side, where on inner walls 1020 (6020, 7020) of housing 100 (600, 700) formed by said cavity there are support ribs 1030 (6030, 7030); lock 200 (300, 800), having on one of its sides located mainly flush with upper part of said cavity 1010 (6010, 7010) lock crossbar (2010, 3010, 8010), and on sides – fixation petals 2020 (3020, 8020) configured for interaction with said support ribs 1030 (6030, 7030) of housing 100 (600, 700) in order to prevent extraction of lock 200 (300, 800) from said cavity 1010 (6010, 7010) after locking; wherein housing 100 (600, 700) and lock 200 (300, 800) comprise aligned holes 1050 (6060, 7060) and 2040 (3040, 8030) for passing a flexible element, and lock 200 (300, 800) has slots to accommodate flexible element deformed during locking. Magnetic field exposure indicator also comprises at least one display element 2030 (3030, 6050, 7050) in form of magnetic strips arranged: either on at least one mainly flat side of lock 200 (300), and/or on at least one mainly flat side of housing 600 (700) inside said cavity 6010 (7010); wherein in all cases housing 100 (600, 700) is made from non-magnetically sensitive material and is transparent.

EFFECT: increased reliability of indicator of magnetic field exposure and providing protection against unauthorised opening, removal of immediate vicinity of controlled object or re-installation of magnetic field exposure indicator.

9 cl, 18 dwg

Description

FIELD OF TECHNOLOGY

The claimed invention relates to devices for preventing the inappropriate use of metering devices, detecting the improper use of metering devices and can be used to indicate unauthorized exposure to magnetic meters on metering devices, in particular, thermal energy meters, meters for water consumption, electricity.

BACKGROUND

There is a known problem of improper use of metering devices, such as water, electricity, heat meters, by exposing them to a magnetic field, for example, a field possessed by neodymium and other magnets used by unscrupulous consumers to unauthorized users to affect metering devices and impair the operation of their metering mechanisms.

The prior art various methods and devices for preventing the misuse of metering devices by indicating exposure to a magnetic field.

So, from the patent US 4450504 A (application 429346, 09/30/1982; Honeywell, Inc.) (D1), an electric meter is known that contains an easily destructible element, usually a container of brittle glass, filled with paint, which is destroyed by external exposure to the counter. The solution known from D2, however, cannot be used as a means of indicating exposure to a magnetic field.

From US Pat. No. 4,542,337 A (Application 429345, 09/30/1982; Honeywell, Inc.) (D2), an electric meter is known comprising a steel ball arranged in such a way as to close the signal circuit. When changing the position of the ball (including due to exposure to a magnetic field), the signal circuit opens, which indicates any effect on the counter. The main disadvantage of the known solution is that, with certain efforts, the ball can be returned to its original position to close the circuit, and the consequences of unauthorized exposure will be hidden.

From patent GB 2326243 A (application 9803028.1, 12.02.1998; applicant ABB METERING SYSTEMS LIMITED) (D3), an electric meter is known, on the rotating element of the counting mechanism of which a magnetic suspension is placed, the influence of which violates its structure by a magnetic field, making it possible identify this kind of impact. The solution known from D3 is quite difficult to operate, since placement of a magnetic suspension requires direct access to the counter's counter mechanism, while a simpler solution is to place an indicator of magnetic influence outside the counter case.

Also known is the solution described in patent CA 1277385 C (application CA 536625, 05/07/1987; Micro-Port International Ltd.) (D4). The solution known from D4 is a counter indication circuit, containing, in particular, a magnetically sensitive element, a random number generator, and a display. When the magnetically sensitive element is exposed to a magnetic field, a trigger signal is received at the input of the random number generator, which causes the generator to send a signal to the display input to display the generated random number, which indicates an unauthorized exposure. The disadvantages of the solution known from D4 are, in particular, the need for continuous monitoring of the display for the timely fixation of magnetic influences, as well as the complexity of the design of the counter.

The known solution described in the application EP 2455767 A1 (publ. 23.05.2012; GENERAL ELECTRIC COMPANY) (D5). In this solution, it is proposed to use a magnetic field sensor acting on the counter. When a magnetic field is applied to the counter, the sensor provides an analog voltage signal proportional to the strength of the magnetic field, which is then converted into a digital signal and stored in memory, which allows remote monitoring of changes in the magnetic field acting on the counter. When exposure to a magnetic field is detected whose strength exceeds a predetermined threshold, an alarm is triggered. The disadvantages of the solution known from D5 are the excessive complexity of the sensor design and the deterioration of its operational characteristics.

No less effective, but simpler solutions are known, such as, for example, the solution described in the application WO 2008078108 A2 (published on July 3, 2008; POLYMETERS RESPONSE INTERNATIONAL LIMITED and others) (D6). The solution described in D6 is, in particular, a metal element fixed in the first mechanical state and made with the possibility of passing into another mechanical state (for example, to bend or, conversely, to bend) under the influence of a magnetic field. This solution, despite its simplicity, has some disadvantages, which are manifested, in particular, during installation of the device.

Even more effective solutions are those related to sensor-mounted devices. Such devices include, in particular, the solutions described in patents MD2270 B1 (application s20020282, 11.28.2002; LABORATORUL INTERNATIONAL DE SUPRACONDUCTIBILITATE SI ELECTRONICA SOLIDULUI AL ACADEMIEI DE STIINTE) (D7), WO 2004017085 A1 (publ. 26.02; 2004; BOSCH GMBH ROBERT et al. (D8), PL 210182 B1 (application 374397, 04/14/2005; KONSORCJUM BADAWCZO-ROZWOJOWE MAGNETO and others) (D9), MD393 Y (application s20100179, 10.27.2010; CORENCOV Alexandr and others. ) (D10), UA 72937 U (application u201111640, 03/10/2011; TOB NPF POLYUS-N) (D11), UA 72449 U (application u201114133, 11/30/2011; CONSORTIUM BADAVCHO-RZOZOYOVE MAGNETO SP.J) (D12 ), RU 117643 U1 (application 2011132677/28, 08/03/2011; Kazavchinsky Dmitry Yuryevich et al.) (D13), RU 133620 U1 (application 2013117460/28, 04/16/2013; Maltsev Yuri Sergeevich and p) (D14), RU 138074 U1 (Application 2013136952/28, 08.07.2013;. Ltd. "Consolidation") (D15). In the most general case, the solutions described in documents D7-D15 are indicators of exposure to a magnetic field, containing either a magnetic suspension placed in a closed container with a visually transparent case, or magnetic films, and such indicators of exposure to a magnetic field are usually placed on an adhesive base, which in some cases contains a magnetically conductive substrate for an indicator of exposure to a magnetic field, and the adhesive base is provided with elements that are visually apparent when the adhesive base is removed from the surface the span on which the magnetic field exposure indicator was placed. Such devices are simple to manufacture and operate and have acceptable magnetic field detection characteristics. However, such solutions have several disadvantages. The main disadvantage is that the adhesive base of such devices when subjected to heat treatment can lose their adhesive properties, which will remove such a device from the immediate vicinity of the meter and thereby hide the fact of unauthorized exposure to it with a magnetic field at the time of monitoring. Another disadvantage is the lack of protection of the indicating element itself from any impact due to which an attacker can degrade its performance.

At the same time, various sealing devices with a high level of protection against opening, removal from the immediate vicinity of the controlled object or unauthorized reinstallation are known.

So, from the patent RU 2338268 C2 (application 2006144533/12, 12/14/2006; LLC Alfa-Siltek) and patent RU 68890 (application 2007502533, 07.25.2007; LLC Alfa-Siltek) (D16-17), a seal is known indicator, intended for use in conjunction with a flexible element, comprising a housing and an insert. The housing consists of a bottom, first, second, third and fourth walls forming a cavity open on one side. Holes are made in the first and third walls. The insert consists of a crossbar and a rack designed to deform and fix a flexible element in the body cavity. The insert has a crossbeam and two racks with holes, in each of which, together with the corresponding holes of the first and third walls of the housing, it is simultaneously possible to arrange a rectilinearly flexible element.

From patent RU 2516805 C2 (application 2011130022/12, 07.26.2010; LLC Kazavchinsky Dmitry Yuryevich et al.) (D18), a sealing device is known which consists of a housing that contains a blind cavity, in the upper part of which there is an opening, and its side the surfaces contain at least two stops, and a movement limiter, which are located in the blind cavity from the side of the hole, while the front and opposite end surfaces contain two holes that are coaxial, and a fixing element, the side surfaces of which it contains at least two elastic teeth that are directed along the direction of movement of the fixing element, moreover, one end of the fixing element contains a cover that overlaps the plane of the hole, and the opposite end contains a slot, the inlet of which is located on the side of the base of the fixing element, the hole contains stops, and both ends of the locking element, which are formed by a slot, are spring loaded with a flat compression spring, which contains a rod from the side of the base of the blind cavity Shade, one end of which has a continuation beyond the border of the spring, and the opposite contains a wedge-shaped end, and contains holes that are located on the same axis as the holes, and a flexible handle. At the same time, the impossibility of moving the movement of the locking element when it is fixed in the dead cavity of the body, which makes it impossible for the unauthorized removal of the sealing device from the sealing object, is achieved.

Finally, from the patent RU 103217 U1 (application 2010152111/12, 21/21/2010; CJSC Engineering Industrial Concern "STRAZH") (D19), a control seal of polymer material is known containing a housing with a cavity open on one of its sides and an insert installed in the cavity of the housing with the possibility of longitudinal movement, in the form of a latch and a transverse crossbar placed on the outside of the housing, while on the inner side walls of the housing there are supporting ribs, and on the lateral faces of the retainer are reciprocal locking petals made with the possibility of control glue or elastoplastic deformation during the longitudinal movement of the insert and interacting with the supporting ribs of the housing, through holes are made in the front sides of the housing for passing the sealing wire or other element, characterized in that the latch is made in the form of a plate with sections of different widths and longitudinal slots on its front sides for placement of the sealing wire in them, while the locking petals are made on a narrower section of the plate located in the bottom of the housing.

However, sealing devices known from documents D16-D19 do not have indication elements for detecting exposure to a magnetic field and, accordingly, cannot be used as devices for indicating a magnetic field.

At the same time, the sealing device described in D19 can be taken as the closest analogue (prototype).

SUMMARY OF THE INVENTION

The objective of the claimed invention is to create a reliable indicator of exposure to a magnetic field.

The technical result is to increase the reliability of the indicator of exposure to a magnetic field and to provide protection against unauthorized opening, removal from the immediate vicinity of the controlled object or reinstall the indicator of exposure to a magnetic field, as well as to provide reliable protection of the indicator element of the indicator of exposure to a magnetic field from unauthorized harmful effects.

The claimed technical result is achieved due to the fact that the indicator of exposure to the magnetic field comprises a housing with a cavity open on one side, in which supporting ribs are formed on the internal walls of the housing formed by said cavity; a latch comprising a locking bar on one of its sides, and lobes arranged on the sides to interact with said support ribs of the housing in such a way as to prevent the latch from being removed from the cavity after locking; moreover, the housing contains openings for the passage of the flexible element, and the latch contains slots for placement in them deformable during locking of the flexible element; wherein the indicator of exposure to the magnetic field differs from the prototype in that it further comprises at least one indicating element in the form of a magnetic strip, located either on at least one predominantly flat side of the latch, or on at least one the predominantly flat side of the housing within said cavity; moreover, the housing is made of non-magnetosensitive material and is made transparent, at least in part, in such a way as to provide visual access to the said indicating elements.

BRIEF DESCRIPTION OF THE DRAWINGS

Illustrative embodiments of the present invention are described below in detail with reference to the accompanying drawings, which are incorporated herein by reference, and in which:

In FIG. 1 shows a cross-sectional view of a case of an indicator of exposure to a magnetic field according to a first alternative embodiment of the invention.

In FIG. 2-3 depict variants of a magnetic indicator indicator retainer according to a first alternative embodiment of the invention.

In FIG. 4-5, indicators of exposure to a magnetic field according to a first alternative embodiment of the invention are shown with the variants of clamps installed therein.

In FIG. 6-7 show a case of a magnetic field indicator according to a second alternative embodiment of the present invention.

In FIG. 8 depicts a magnetic field indicator clip according to a second alternative embodiment of the invention.

In FIG. Figures 9-13 show products — clamps for an indicator of exposure to a magnetic field — being variants of clamps of an indicator of exposure to a magnetic field according to a first alternative embodiment of the invention.

In FIG. 14-18 depict articles - indicators of exposure to the magnetic field assembly, which are variants of the indicator of exposure to the magnetic field according to any embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION

The following are embodiments of the present invention, revealing examples of its implementation in private versions. However, the description itself is not intended to limit the scope of the rights granted by this patent. Rather, it should be assumed that the claimed invention can also be carried out in other ways in such a way that it will include different elements and conditions or combinations of elements and conditions similar to the elements and conditions described herein, in combination with other existing and future technologies.

In a first alternative embodiment of the present invention, there is provided an indicator of exposure to a magnetic field, which comprises a housing with a cavity open on one side, in which support ribs are formed on the internal walls of the housing formed by said cavity; a latch containing on one of its sides a flange that is flush with the upper part of the cavity and the lobes on the sides are arranged to interact with said support ribs of the housing in such a way as to prevent the latch from being removed from the cavity after locking; moreover, the housing contains openings for the passage of the flexible element, and the latch contains slots for placement in them deformable during locking of the flexible element; wherein the indicator of exposure to the magnetic field differs from the prototype in that it further comprises at least one indicating element in the form of a magnetic strip located on at least one predominantly flat side of the latch; moreover, the housing is made of non-magnetosensitive material and is made transparent, at least in part, so as to provide visual access to the said indicating element.

In particular embodiments of the first alternative embodiment of the present invention, the indicator described above is provided, the magnetic strip of the indicating element of which contains a magnetic film containing a region deformable by a magnetic field, or a magnetic film containing an image deformable by a magnetic field. In other particular embodiments of the first alternative embodiment of the present invention, the indicator described above is provided, the indicator element of which is rigidly fixed to the latch by means of an adhesive base, which is, by way of example, but not limitation, a double-sided adhesive tape.

In a second alternative embodiment of the present invention, there is provided an indicator of exposure to a magnetic field, which comprises a housing with a cavity open on one side, in which support ribs are formed on the internal walls of the housing formed by said cavity; a latch containing on one of its sides a flange that is flush with the upper part of the cavity and the lobes on the sides are arranged to interact with said support ribs of the housing in such a way as to prevent the latch from being removed from the cavity after locking; moreover, the housing contains openings for the passage of the flexible element, and the latch contains slots for placement in them deformable during locking of the flexible element; wherein the indicator of exposure to the magnetic field differs from the prototype in that it further comprises at least one indicating element in the form of a magnetic strip placed on at least one predominantly flat side of the housing inside the cavity; moreover, the housing is made of non-magnetosensitive material and is made transparent, at least in part, so as to provide visual access to the said indicating element.

In particular embodiments of the second alternative embodiment of the present invention, the indicator described above is provided, the magnetic strip of the indicating element of which contains a magnetic film containing a region deformable by a magnetic field, or a magnetic film containing an image deformable by a magnetic field. In other particular embodiments of the second alternative embodiment of the present invention, the indicator described above is provided, the magnetic strip of which is rigidly fixed to the side of the housing with a transparent double-sided adhesive tape or with a transparent laminate film.

In FIG. 1, by way of example, but not limitation, a section 100 of a magnetic field indicator according to a first alternative embodiment of the invention is shown in section. As can be seen from FIG. 1, the body 100 of the indicator of exposure to the magnetic field contains a cavity 1010, open on one side of the body 100 (not shown in FIG.), Forming inside the body 100 the inner walls 1020 of the body 100, in which the supporting ribs 1030 are made. The body 100 is made of non-magnetically sensitive material, preferably plastic or other similar material, and contains a transparent region 1040, designed to provide visual access to the indicating element after locking the exposure indicator by a magnetic field. The housing 100 also contains through holes 1050 for passing through them a flexible element for fixing the indicator of exposure to a magnetic field on the meter or in the immediate vicinity of the meter. In turn, the flexible element is, for example, a sealing wire or other similar element, thin enough to ensure its reliable placement in the slots and strong enough not to be torn during the locking process.

In FIG. 2, by way of example, but not limitation, depicted is a magnetic indicator 200 of a magnetic field indicator according to a first embodiment of the invention. As can be seen from FIG. 2, the latch 200 comprises on one of its sides a locking bar 2010 designed to prevent the longitudinal movement of the latch 200 in the cavity 1010 of the housing 100 after locking the exposure indicator by a magnetic field. When locking, the locking bar 2010 is placed flush with the upper part of the said cavity 1010 of the housing. This placement additionally ensures the reliability of the indicator of exposure to the magnetic field after it is locked, because in the case of placing the 2010 bar outside the case 100, the attacker would still have the opportunity to pry it and try to remove the latch. The latch 200 also contains locking petals 2020, made with the possibility of elastic or elastoplastic deformation during the longitudinal movement of the latch 200 in the cavity 1010 of the housing 100 during the locking process. Locking the indicator of exposure to a magnetic field is the moment of fixing the fixing lobes 2020 in the supporting ribs 1030 of the housing 100. The retainer 200 also contains through holes 2040 made so as to be aligned with the through holes 1050 of the housing 100 before locking and to allow a flexible element to pass through them. This is necessary so that when locking the flexible element, passed through the through holes 1050, is deformed and located in the slots 2050 of the retainer 200. Finally, the retainer 200 contains an indicating element 2030, which is, for example, a magnetic strip, which in private versions of the first alternative of an embodiment of the present invention comprises a region 2031 deformable by a magnetic field. Region 2031 is at least a portion of a magnetic strip containing a magnetic film , the composition and structure of which are widely known from the prior art and, accordingly, are not further described. When a magnetic field acts on a magnetic strip, and hence on region 2031 (on a magnetic film), the structure of region 2031 is deformed, for example, by changing the "color" of the region from dark to light or by violating the geometric shape of the region, which indicates unauthorized exposure magnetic field on the meter. The indicating element 2030 is rigidly fixed to the latch 200 by means of an adhesive base, in particular, double-sided adhesive tape (double-sided tape). An additional fixation for the indicating element 2030 is its placement between the latch 200 and the wall of the housing 100. In this case, the indicating element 2030 is rigidly fixed to the latch 200 so that at the time of locking they are parallel to the transparent region 1040, which provides visual access to the indicating element 2030 in the process monitoring the operation of the meter. The indicating element 2030 may also contain a magnetic or non-magnetic base (not shown in the drawing). A magnetic base, which is, for example, a thin base made of magnetic vinyl or other magnetic material, serves to lower the sensitivity threshold of the magnetic film. The non-magnetic base is used to enable reuse of the magnetic film by restoring or routinely changing the color or structure of the area 2031 using a special magnetic seal at the disposal of the controlling organization.

In FIG. 3, by way of example, but not limitation, another embodiment of the magnetic field indicator indicator latch 300 of the first embodiment is shown. As can be seen from FIG. 3, the latch 300, as well as the latch 200, comprises on one of its sides a locking bar 3010 designed to prevent the longitudinal movement of the latch 300 in the cavity 1010 of the housing 100 after locking the exposure indicator by a magnetic field. When locking, the locking bar 3010 is flush with the upper part of the housing cavity 1010. This placement additionally ensures the reliability of the indicator of exposure to the magnetic field after it is locked, because if the crossbar 3010 was placed outside the casing 100, the attacker would still have the opportunity to pry it and try to remove the latch. The latch 300, as well as the latch 200, contains locking lobes 3020, made with the possibility of elastic or elastoplastic deformation during the longitudinal movement of the latch 300 in the cavity 1010 of the housing 100 during the locking process. Locking the indicator of exposure to the magnetic field is the moment of fixing the lobes 3020 in the supporting ribs 1030 of the housing 100. The latch 300, in addition to the latch 200, also contains through holes 3040, which are arranged so as to be aligned with the through holes 1050 of the housing 100 before locking and provide Pass through them a flexible element. This is necessary so that when locking, the flexible element passed through the through holes 1050 is deformed and located in the slots 3050. Finally, the difference between the latch 300 and the latch 200 is that the latch 300 contains an indicator element 3030, which is, for example, a magnetic strip which, in particular embodiments of the first alternative embodiment of the present invention, comprises an image 3031 deformable by exposure to a magnetic field. Image 3031 represents at least an hour s magnetic stripe formed magnetic film, the composition and structure of which are well known in the art and accordingly will not be further described. When the magnetic field acts on the image 3031, the image structure 3031 is deformed, for example, by changing the “color” of the image from dark to light or by violating the geometric shape of the image 3031, which indicates an unauthorized exposure to the meter in the magnetic field. In this case, the indicating element 3030 is rigidly fixed to the latch 300 by means of an adhesive base, in particular a double-sided adhesive tape (double-sided tape). An additional fixation for the indicating element 3030 is its placement between the latch 300 and the wall of the housing 100. In this case, the indicating element 3030 is rigidly fixed to the latch 300 so that at the time of locking they are parallel to the transparent region 1040, which provides visual access to the indicating element 3030 in the process monitoring the operation of the meter. The indicating element 3030 may also contain a magnetic or non-magnetic base (not shown in the drawing). A magnetic base, which is, for example, a thin base of magnetic vinyl or other magnetic material, serves to reduce the sensitivity threshold of the magnetic film. The non-magnetic base serves to enable the reuse of the magnetic film by restoring or planned changing the color or structure of the image 3031 using a special magnetic seal at the disposal of the controlling organization.

In FIG. 4-5, by way of example, but not limitation, indicators of exposure to the magnetic field 400 and 500 according to the first alternative embodiment of the invention are shown respectively with the variants of the clips 200 and 300 installed therein, respectively. As can be seen from FIG. 4-5, the magnetic field indicator according to the first alternative embodiment of the present invention comprises a housing 100 comprising a cavity 1010 open on one side of the housing 100 (not shown in FIG.) In which a latch 200 or 300 is fixed, so that the fixing petals 2020 (3020) are fixed in the supporting ribs 1030 in the inner walls 1020 formed by the cavity 1010 inside the housing 100. The housing 100 is made of a non-magnetically sensitive material, preferably plastic or other similar material, and contains a transparent an area 1040 intended to provide visual access to the indicating elements 2030 or 3030 after locking the exposure indicator by a magnetic field. As can be seen from FIG. 4-5, the location of the indicating elements on the latches 200 or 300 is made so that when locking the indicating elements are opposite the transparent region 1040 of the housing 100. It should be noted, however, that the housing 100 can be made completely transparent, which will provide visual access to the indicating element 2030 (3030) at any location on the retainer 200 (300). It should also be understood that transparency is understood as such transparency that provides visual access to the indicating element and full transparency of the material of the housing 100 is not necessarily such transparency. The housing 100 also contains through holes 1050 for passing through them a flexible element for fixing the exposure indicator with magnetic field on the meter or in the immediate vicinity of the meter. As can be seen from FIG. 4-5, the latches 200 and 300 contain through holes 2040 and 3040, which are designed so as to allow passage through them and through the holes 1050 of the flexible element before locking, and after locking, to ensure the deformation of the missed flexible element and its placement in the slots 2050 and 3050.

In FIG. 6-7, by way of example, but not limitation, respectively shown are cases of a magnetic field indicator indicator 600 and 700 according to a second alternative embodiment of the present invention. As can be seen from FIG. 6-7, the housings 600 and 700 contain cavities 6010 and 7010, respectively, open on one side of the housings 600 and 700 (not shown in FIG.), Forming inside walls 600 and 700 of the inner walls 6020 of the housing 600 and the inner walls 7020 of the housing 700 , in which, respectively, support ribs 6030 and 7030 are made. The cases 600 and 700 are made of non-magnetically sensitive material, preferably plastic or other similar material, and contain transparent regions 6040 and 7040, respectively, designed to provide visual access to the indicating elements 6 050 and 7050, respectively. The indicating elements 6050 and 7050 are, for example, magnetic strips, which, in particular embodiments of the second alternative embodiment of the present invention, contain a region 6051 and an image 7051 that are deformable when subjected to a magnetic field, respectively. Region 6051 is at least a portion of a magnetic strip containing a magnetic film whose composition and structure are widely known in the art and, accordingly, are not further described. When a magnetic field acts on a magnetic strip, and hence on region 6051 (on a magnetic film), the structure of region 6051 is deformed, for example, by changing the "color" of the region from dark to light or by violating the geometric shape of the region, which indicates unauthorized exposure magnetic field on the meter. In turn, the image 7051 represents at least a portion of the magnetic strip formed by a magnetic film, the composition and structure of which are widely known in the art and, accordingly, are not further described. When a magnetic field acts on an image 7051, the image structure 7051 is deformed, for example, by changing the “color” of the image from dark to light or by violating the geometric shape of image 7051, which, as in the case of region 6051, also indicates an unauthorized exposure to the magnetic field to the meter. The indicating elements 6050 and 7050 are rigidly fixed on one of the walls of the housings 600 or 700, respectively, inside the cavities 6010 and 7010. The fixing is carried out by, for example, a transparent double-sided film or laminate film with the side containing region 6051 or image 7051, respectively, i.e. . with the help of tools that provide rigid fixing and, at the same time, do not impede visual access to the indicating elements. In this case, the indicating elements 6050 and 7050 are fixed in the aforementioned manner inside the cavities 6010 and 7010, respectively, opposite the transparent regions 6040 and 7040, respectively. An additional fixation for the indicating elements 6050 and 7050 is placing them between the latch 800 and the wall of the corresponding housing 600 or 700. The indicating elements 6050 and 7050 may also contain a magnetic or non-magnetic base (not shown in the drawing). A magnetic base, which is, for example, a thin base made of magnetic vinyl or other magnetic material, serves to lower the sensitivity threshold of the magnetic film. The non-magnetic base serves to enable reuse of the magnetic film by restoring or scheduled color change of the area 6051 or image structure 7051 using a special magnetic seal at the disposal of the controlling organization. At the same time, the cases 600 and 700 can be made completely transparent, i.e. areas 6040 and 7040 will occupy the entire area of the buildings 600 and 700, respectively. The cases 600 and 700 at the same time contain through holes 6060 and 7060, designed to pass through them a flexible element for fixing the indicator of exposure to a magnetic field on the meter or in the immediate vicinity of the meter. The housings 600 and 700 also contain through holes 6060 and 7060, designed to pass through them a flexible element for fixing the indicator of exposure to a magnetic field on the meter or in the immediate vicinity of the meter.

Finally, in FIG. 8, by way of example, but not limitation, the latch of an indicator of exposure to a magnetic field according to a second alternative embodiment of the invention is shown. As can be seen from FIG. 8, the latch 800 comprises on one of its sides a locking bar 8010 designed to prevent the longitudinal movement of the latch 800 in the cavity 6010 of the housing 600 or in the cavity 7010 of the housing 700 after locking the indicator of exposure to the magnetic field. When locking, the locking bar 8010 is flush with the upper part of the cavity 6010 of the housing 600 or the cavity 7010 of the housing 700. This placement additionally ensures the reliability of the indicator of exposure to the magnetic field after it is locked, because if the 8010 bar was placed outside of the buildings 600 and 700, the attacker would still have the opportunity to pry it and try to remove the latch. The latch 800 also contains locking lobes 8020, made with the possibility of elastic or elastoplastic deformation during the longitudinal movement of the latch 800 in the cavity 6010 of the housing 600 or in the cavity 7010 of the housing 700 during the locking process. Locking the indicator of exposure to a magnetic field is the moment of fixing the lobes 8020 in the supporting ribs 6030 of the housing 600 or 7030 of the housing 700. The latch 800 also contains through holes 8030, made so as to be aligned with the through holes 6060 of the housing 600 or 7060 of the housing 700 until the indicator is locked exposure to a magnetic field. This is necessary so that when locking, the flexible element, passed through the through holes 6060 (7060) and 8030, is deformed and located in the slots 8040. In the assembled state, the latch 800 is placed in the cases 600 or 700 in a manner similar to the placement of the latches 200 and 300 in the case one hundred.

In turn, in FIG. Figures 9-13 show finished products — clamps for an indicator of exposure to a magnetic field — being variants of clamps of an indicator of exposure to a magnetic field according to a first alternative embodiment of the invention. In FIG. 9-10, depicting latches with indicating elements containing deformable regions under the influence of a magnetic field, and in FIG. 11-13 depict latches with indicating elements containing deformable images under the influence of a magnetic field (in this case, geometric figures).

In FIG. 14-18 depict finished products — indicators of exposure to a magnetic field assembly — being variants of an indicator of exposure to a magnetic field according to any embodiment of the invention. Accordingly, in FIG. 14-15, indicators of exposure to a magnetic field are depicted, the indicating elements of which contain areas that are deformed under the influence of a magnetic field, and in FIG. Figures 16-18 show indicators of exposure to a magnetic field, the indicating elements of which contain images that are deformed under the influence of a magnetic field (in this case, geometric figures).

The present description of the implementation of the claimed invention demonstrates only private embodiments and does not limit other embodiments of the claimed invention, since possible other alternative embodiments of the claimed invention, not beyond the scope of the information set forth in this application, should be obvious to a person skilled in the art, having the usual qualifications for which the claimed invention is designed. Thus, it will be obvious to a person skilled in the art having the usual qualifications that, for example, the declared magnetic impact indicator may contain more than one indicating element, while one indicating element may be placed inside the latch housing cavity on the inside of the housing wall, and another indicating element can be placed on the latch in such a way as to be visually accessible when examining the indicator of exposure to a magnetic field from the opposite side of the housing.

Claims (12)

1. The use of an indicating element, which is a magnetic strip with a magnetic field formed and deformed under the influence of a magnetic field, an area and / or image as a part of a sealing device, comprising a housing with a cavity containing supporting ribs and with fixing holes, and containing a latch with fixing latching in the supporting ribs petals and mounting holes. 2. The use according to claim 1, characterized in that the sealing device is a sealing device comprising a body with a cavity open on one side, in which support ribs are formed on the internal walls of the body formed by said cavity; a retainer comprising on one of its sides a retaining beam placed mainly flush with the upper part of the cavity, and on the sides there are locking tabs adapted to interact with said support ribs of the housing in such a way as to prevent the release of the retainer from the cavity after locking; moreover, the housing and the latch contain coaxially made holes for passing the flexible element, and the latch contains slots for accommodating a flexible element that is deformed in the process of locking. 3. An indicator of exposure to a magnetic field, comprising a housing with a cavity open on one side, in which support ribs are formed on the internal walls of the housing formed by said cavity; a latch comprising a locking bar on one of its sides, and lobes arranged on the sides to interact with said support ribs of the housing in such a way as to prevent the latch from being removed from the cavity after locking; moreover, the housing and the latch contain coaxially made holes for the passage of the flexible element, and the latch contains slots for accommodating a flexible element that is deformable during the locking process, characterized in that the locking bar is made so as to be predominantly flush with the upper part of the cavity, and an indicator exposure to a magnetic field further comprises at least one indicating element in the form of a magnetic strip, located: or on at least one predominantly flat side of the latch; and / or on at least one predominantly flat side of the housing inside said cavity; moreover, in all cases, the casing is made of non-magnetosensitive material and is made transparent, at least partially, so as to provide visual access to the indicated indicating elements placed in such a way as to be located within the transparent part of the casing. 4. The indicator according to claim 3, characterized in that said magnetic strip of the indicating element comprises a magnetic film containing a region deformable by a magnetic field, or a magnetic film containing an image deformable by a magnetic field. 5. The indicator according to any one of paragraphs. 3 or 4, characterized in that the said indicating element is rigidly attached to the latch using an adhesive base. 6. The indicator according to claim 5, characterized in that the adhesive base is formed by a double-sided adhesive tape. 7. Indicator according to any one of paragraphs. 3 or 4, characterized in that the said indicating element is rigidly fixed to the inner side of the housing inside the said cavity of the housing. 8. The indicator according to claim 7, characterized in that the fixing of the indicating element is carried out using a transparent double-sided adhesive tape or using a transparent laminate film. 9. A method for detecting inappropriate use of a meter, in which the indicator of exposure to a magnetic field according to any one of paragraphs. 3-8 are placed in the immediate vicinity of the meter and / or attached to the meter and at least visually record changes in the indicating element of the indicated indicator of exposure to the magnetic field after improper use of the meter, and improper use of the meter is the effect on the meter .

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