RU2153198C1 - Method for checking integrity of threaded joint of guarded object - Google Patents

Abstract

FIELD: security. SUBSTANCE: method involves mounting an identification member between bodies of threaded joint and guarded object in region without direct access. Shape of identification member is altered, when threaded joint is mounted. Hole, which is provided in threaded joint body, provides possibility to record image of deformed identification member. Said image is stored and matched to identification member optical image which is read upon checking. Recording, storage and matching are performed by automatic optical device. EFFECT: simplified design and increased reliability of check operation. 2 cl, 4 dwg

Description

 The invention relates to means for identifying protected objects, and more particularly to means for controlling unauthorized access to a protected object.

 As a rule, this kind of control is carried out by sealing or installing various seals on those areas of the protected object through which access to its contents is made. In the control process, the state of seals or seals is assessed relative to their initial state and a conclusion is made about the absence or presence of access (access attempts) to the protected object.

 For such control, additional elements are also used, deformable during installation or opening of locking and sealing devices. In particular, a method for monitoring the integrity of a threaded connection, implemented in one of such devices according to US Pat. RF N 2011231, IPC G 09 F 3/03, 1992, consists in the use of an identification element in the form of a casing, mounted on a threaded bolt-nut type connection from the nut side and crimped in the gap between the eyes of the protected object and the nut. Without mechanical deformation of the casing and its removal, it is impossible to remove the threaded connection. Monitoring the presence of the casing or its condition allows us to conclude about the integrity of the threaded connection.

 Nevertheless, there is a possibility of restoration of the destroyed identification element of this type, although it is associated with significant time and labor costs.

 A known method of monitoring the integrity of the security threaded connection, which consists in registering by the automatic optical device a unique optical image of an identification element that completely blocks access to the bolt head of the threaded connection, which is irreversibly destroyed when trying to access the bolt head. This method is implemented in a device for sealing (certificate of the Russian Federation for utility model N 6257, IPC G 09 F 3/00, 3/03, 1997).

 However, due to the external placement of the identification element, the probability of its mechanical damage that may occur during transportation or other movement of the protected object, i.e. not related to unauthorized autopsy attempts.

 A similar method for monitoring the integrity of a threaded connection, implemented in a locking and sealing device (certificate of the Russian Federation for utility model N 7538, IPC G 09 F 3/03, 1997), consists in the formation of a unique optical image of the identification element, which serves as a portion of the connecting body subjected to random deformation and fixed relative to the bolt-nut pair, in registering a unique optical image of the identification element, in remembering and comparing it with that recorded in the process e monitoring optical manner using automatic optical device. When you try to remove the threaded connection, a unique optical image is irreversibly destroyed, which is objectively fixed during its control by an automated optical device. This method is selected as a prototype of the claimed invention.

 However, this method is difficult to implement, because It requires quite complex manipulations to form a unique optical image, which, moreover, is not completely protected from damage during accidental mechanical influences.

 The task is to create a simple and reliable way to control the threaded connection of the protected object, which provides reliable protection of the unique optical image from influences that can cause its irreversible change that is not associated with unauthorized exposure.

 In the first embodiment, the task is solved by the fact that in the method of controlling the threaded connection of the protected object, according to which a unique optical image of the identification element is formed, it is registered, stored and compared with the automatic optical device registered in the process of optical identification of the identification element, according to the invention, the identification element is placed between the bodies of the threaded connection element and the protected object in the area closed to free access blunt and providing arbitrary deformation of the identification element when installing a threaded connection, and a unique optical image of the portion of the deformable identification element is recorded through an opening made in the body of the threaded connection element, providing optical probe radiation access to the specified section.

 As an identification element, a conventional gasket washer mounted under the head of the bolt can be used. An insert made of a material that is transparent to optical probe radiation can be used, installed in a groove made under the inspection hole in the lower part of the bolt head, or another similar body that experiences deformation effects when the bolt is twisted, the nature of which remains unchanged in the future.

 In the second embodiment, the internal part of the body of the threaded connection, randomly deformed when the threaded connection is installed, is used as an identification element, the access of optical probing radiation is provided through an opening made in the body of the threaded connection element.

 The technical result consists in the fact that when forming a unique optical image, no additional manipulations are required, except for the direct installation of a threaded connection, and the placement of an identification element in a zone closed to external mechanical influences makes the unique optical image less vulnerable to external mechanical influences.

 Variants of the method can be quite a lot.

 Figure 1 shows an embodiment of the method, where a washer 3 is installed between the cap 1 of the bolt and the surface of the protected object 2, which performs the function of an identification element, which deforms when the bolt is twisted. An inspection hole 4 is used to register a unique optical image of the washer 3 region formed in this way. Between the washer 3 and the surface of the object 2, a washer-grover 5 can be additionally installed, which impedes unscrewing of the bolt, and the head of the bolt can be made with a protective collar 6 that determines the maximum level to which the bolt is screwed.

 In FIG. Figure 2 shows a variant with an insert made of a material transparent to optical probe radiation, which acts as an identification element. Between the cap of the bolt 1 and the surface of the protected object 2, an insert 6 is placed in the groove of the cap of the bolt made under the inspection hole 4, which deforms when the bolt 1 is tightened. Its deformed surface is visible through the inspection hole 4.

 With a more complex refinement of the threaded connection element, for example, by making a viewing hole 7 in the bolt 1, partially capturing its threaded part, it is possible to flush it with a liner 8 made of a material transparent to optical probing radiation, with a reflective surface 9 in its recessed part (see Fig. 3).

 A thin-walled metal cylinder can be installed in the inspection hole 7 made in this way and its deformation can be recorded from the inside of its cavity.

 If such a viewing hole 7 forms a thin wall 10 with the threaded part of the bolt 1 (see Fig. 4), which deforms when the bolt is screwed, then such a wall can serve as an identification element.

 The method according to option 1 is as follows. One or another identification element is added to the threaded connection element (bolt or nut) prepared in advance, which has an inspection hole, and the threaded connection is established on the protected object. When screwing the threaded connection, the identification element undergoes mechanical deformation and remains in this state. An automatic optical device directs a light beam through the inspection hole, and then records the light radiation reflected from the surface of the deformed identification element, which is stored in the memory of this device as a unique optical image of the identification element of this threaded connection. It can be converted into a form convenient for long-term storage, and used in the future for comparison with the optical identification of the same identification element registered during the control process. With the coincidence of the optical images, a conclusion is made about the integrity of the controlled threaded connection.

 The creation of such a multifunctional automatic optical device is today a feasible task. An example of such a device is an automated optical image recognition device according to US Pat. No. 4,637,055. However, a device specially designed for these purposes based on well-known principles will be most preferable (see, for example, RF patent N 2117989, IPC G 09 F 1996). .

 Option 2 (Fig. 4) differs only in that as an identification element, instead of an additional element, a portion of the own body of the threaded element is used. All other manipulations are carried out similarly.

 Obviously, for a uniform installation of an automatic optical device, the presence of adjustment grooves, holes or the like on the surface of the threaded element or the surface of the protected object is necessary.

Claims (2)

 1. A method for monitoring the integrity of the threaded connection of the protected object, according to which a unique optical image of the identification element is formed, it is registered, stored and compared with the automatic optical device registered during the optical image verification process, characterized in that the identification element is placed between the bodies of the threaded connection element and protected object in an area closed to free access and providing arbitrary deformation June of the identification element when installing the threaded connection, and a unique optical image of the portion of the deformable identification element is recorded through the hole made in the body of the threaded connection element, providing access to the optical probe radiation to the specified area.  2. A method for monitoring the integrity of the threaded connection of the protected object, according to which a unique optical image of the identification element is formed, it is registered, stored and compared with the automatic optical device registered in the optical image verification process, characterized in that the internal part of the body is used as the identification element threaded connection, deformable randomly when installing a threaded connection, optical access someone probing radiation which provide a through hole formed in the body of the threaded connection element.

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