RU2126079C1 - Laminated structure and method of its use - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this is intended for designing protective containers and protective rooms. Incorporated in laminated structure as integral component is signalling mat. This signalling mat is produced of one or several insulated electrically conducting threads, wires, etc. or of one or several light-conducting optical fibres. Thread or threads, optical fibre or optical fibres are arranged in the form of continuous cells, loops or nests which are produced by knitting or embroidery. Laminated structure has at least one external layer or sheet which is connected with signalling mat. Aforesaid embodiment of laminated structure is used for designing shell of container or room so that articles contained in container or room are protected from unauthorized access to them. EFFECT: higher efficiency. 9 cl, 8 dwg

Description

 The present invention relates to a layered structure. In addition, the present invention relates to the use of a layered structure in the construction of the container shell or in the construction of a room or room intended for storage of objects attractive for theft, etc.

 In connection with the growth of criminal activity, along with others, there remains an urgent need for more advanced forms of transportation and storage of valuable objects and various types of objects attractive for theft.

 One example of areas requiring particularly high security is the transportation of money between different geographical locations. In such cases, it is necessary to take many costly security measures in order to adequately protect values from possible theft and robbery. The cost of implementing such protection is quite significant, and the design of the appropriate means of transport is complicated.

 One way to solve the above problems is the presence in the appropriate transport container, which may take the form of a suitcase, one or more destructive elements, actuated to disable the contents of the container, in case of any attempt by an outsider to open the container and remove its contents. The fact that in the event of an unauthorized attempt to open the container, its contents are destroyed and become unusable, will be deterrent only until some “inventor” offers a method to prevent the actuation of destructive elements.

 One specific example of a transport container is a banknote carrying case. The use of spray cans in a suitcase, actuated in such a way that in case of an unauthorized attempt to open the suitcase, banknotes are filled with paint, leads to the fact that banknotes cannot be used as legal tender.

 From the foregoing, it should be clear that there is a need to create a hard-to-open container that should be as light as possible.

 The container, of course, must be equipped with a reliable alarm system or security system, at least some parts of which would be inside the case. The system is designed so that the destructive element (or destructive elements) would always be activated before the security system of the destructive element could be neutralized by unauthorized means, and earlier than the values stored in the container could be illegally removed. To prevent the neutralization of the security system, for example, using the so-called high-speed means, it must have a short response time.

 Such security systems and destructive elements are well known and commercially available, so there is no need to consider them here in more detail. However, it should be noted that even if the security system fails to try to open the container, it will provide the cracker with only a very short, limited period of time to try to open the container before the destructive element is activated.

 The main objective of the present invention is the creation of a specially designed layered structure, which could be successfully used in the construction of the wall or shell of a safe container, room or room. This goal is achieved due to the layered structure described in the claims and the method of its use.

 So, for example, from the many advantages provided by the present invention, it should be noted that the structure can be made thin and light, which, in turn, reduces the weight of the transport container in which it is used.

 The present structure is designed in such a way that it can successfully withstand such external influences as a magnetic field, static electricity, etc.

 The stratified structure can be given rigidity or strength, allowing you to make a self-supporting container from it.

 The layered structure may have the necessary shape and curvature, allowing containers of the most complex shapes to be made from this structure.

 If it is necessary to supplement an existing structure with a protective shell, then this can easily be done using such a layered structure. Individual corners of a layered structure, for example, can be made in advance.

The following is a detailed description of the present invention with examples of its implementation with reference to the accompanying figures of the drawings, in which:
FIG. 1 is a perspective view showing the construction of a layered structure according to the present invention;
FIG. 2 is a cross section of a layered structure;
FIG. 3 schematically shows one method of weaving a signal mat;
FIG. 4 is a perspective view of a transport protective container constructed from laminate structures according to the present invention;
FIG. 5 is a cross section of one embodiment of an opening lap joint between the layered structures of the container shown in FIG. 4;
FIG. 6 is a cross-sectional view of a cable opening in a structure according to the present invention;
FIG. 7 is a schematic perspective view showing a spatial structure assembled from the layered structures of the present invention; and
FIG. 8 is a schematic cross section of one corner portion of the structure shown in FIG. 7.

 The layered structure 10 includes a first outer sheet or layer 1, a signal mat 2, and a second outer sheet or layer 2 (see FIG. 1 or 2).

 The first outer sheet 1 consists, for example, of a fiberglass or textile mat, although other types of mats, fabrics or sheet materials may be used. The outer layer 1 may also be coated with paint or gel.

 The signal mat 2 is intended to detect or detect an attempt to make a hole in the layered structure 10. The signal layer / signal mat / 2 consists of a fine mesh net, for example, knit, chain or weave. The material used as the electrically conductive material may be in the form of wires, fibers, or strips of metal or electrically conductive plastic material, which in this description will be called filaments. "Threads" 5 of the material used are coated with an insulating layer. These threads may consist, for example, of copper threads coated with an insulating varnish, such as is commonly used in small electric motors. One non-limiting example of possible mesh weaves is mesh weaving of varnished copper wire having a diameter of 0.3 mm and a density or mesh size of about 1 mm. Optical fibers can also be used.

 In FIG. 3 shows very schematically a weaving method for the signal mat 2 according to the present invention. The signal mat 2, partially shown in FIG. 3, is a knitted weave. When it is knitted with one single thread 5, two ends remain at the mat, creating a continuous electrical circuit. Alternatively, the mat 2 can be connected from double strands 5, 5 ', giving two continuous electrical circuits. In accordance with one embodiment of the present invention, the aforementioned electrical circuits can be connected together so that the mat 2 will have one electrical circuit in which currents flow in different directions along parallel threads 5, 5 ′. This connection 6 of parallel threads 5, 5 ′ is shown schematically in FIG. 3, and the arrows show an electric current flowing in opposite directions along the yarn 5, 5 'along the cells, loops or eyes of the mat 2.

 Thus, the signal layer / signal mat / 2 consists of a thin-cellular material, and the main distinguishing feature of the mat is that it is connected from one or more insulated conductive filaments, and that the filament (or filaments) is located (arranged) so that they form together whole cells, loops or eyes, for example, those obtained by knitting, embroidery or fabric of filament material. This also applies to the use of fiber. Cells, loops and eyes can be formed by at least two parallel threads.

 The signal mat according to the present invention is extremely resistant to disturbances such as electromagnetic fields, static electricity, etc.

 The main technical requirements for the signal layer 2, such as the density of cells, the number of electrical circuits provided, the flexibility of the mat, etc., are the factors that determine the choice of the appropriate manufacturing method. One or more electrical signals are transmitted through the mat 2, and any attempt to make a hole in the layered structure 10 will lead to the breaking of the strand or strands in the mat, causing an interruption of the electrical signal and an alarm. The same goes for using fiber and passing through a mat of light signals.

 The second outer layer or sheet 3 is constructed in a similar convenient manner or in the same way as the first outer layer or sheet 1.

 In most cases, the laminar structure 10 is used so that the outer sheet 1 forms the outer surface of the container, and the second sheet or layer 3 forms the inner surface of the specified container, and the finish and design of the corresponding outer layers or sheets may vary accordingly.

 In the manufacture of the layered structure 10, sheets 1-3 are joined together in some suitable manner, for example by gluing, injection molding, or injection molding. In this case, to obtain a rigid layered structure can be used many different adhesive binders, for example, polyester resin or other resins. In the process of manufacturing a layered structure, in addition to a flat shape, many other shapes can be given. For example, a protective container or case may be made of two individually bent layered sections superimposed on each other at the junction. An example of a transport container or case 20 constructed in this way is shown in FIG. 4.

 The suitcase 20 shown in FIG. 4 is constructed from two laminated sections 10a and 10b specially formed in accordance with the present invention, which are configured so that when the case is closed, the laminated sections overlap in the overlap zone 21, which provides the smallest possible gap or gap 22 between the overlapping portions. The luggage case 20 is usually provided a handle 23 glued from the outside, as well as hinged means, locking devices, etc., which are fixed in a way that eliminates the need for punching holes in the layered sections. Inside the overlap zone 21, a number of electrical contact devices or detectors 24 and 25 are installed, with the device 24 carrying a strip 26 attached to the layered section 10a, and the device 25 carrying the next strip 27 glued to another layered section 10b. The strips 26 and 27 preferably extend around the entire perimeter of the container 20, and the required number of electrical contact devices 24, 25 with their help is installed around the perimeter of the container. The protected cavity is formed by interconnecting the respective signal mats 2 of the layered sections 10a and 10b, as well as the contact devices 24 and 25, so as to form one or more electrical signal circuits. The chain (or chains) breaks (or breaks) when the yarn 5, 5 ′ in the mat 2 is split or cut as a result of an attempt to make a hole in the container, and the mat 2, which should be obvious, extends over the entire surface of the container. In addition, in the overlap zone 21, the mat is overlapped. The signal chain will also be broken when trying to expand the gap 22 by bending to the sides of the overlapping parts of the respective laminated sections in order to illegally open the container 20. When trying to expand the gap 22, the distance between the devices 24 and 25 will change and thereby break the electric circuit.

 Inside the container 20 are an electronics unit and one or more ampoules or cartridges that contain a destructive substance, such as paint. The electronics unit is designed to actuate cans or ampoules immediately when the circuit breaks, to disable or render useless the values stored in the container 20. The alarm system or electronics unit is turned on and off by the corresponding code system with a high degree of protection. Naturally, the container or suitcase 20 should also contain a power source. Therefore, you can pre-set the time after which the destructive element will be activated or triggered, which is an additional stress factor for people trying to illegally open the container.

 Regarding the safety of the container 20 according to the present invention, it has been found that the signal mat 2 according to the present invention having a plurality of interconnected cells, loops or eyes, in addition to the above-described intrusion protection function, should work as a particularly effective protection against external disturbances , for example, in the form of all kinds of magnetic fields, electrostatic fields, etc. This second function is achieved due to the fact that the stresses or disturbances created by external influences are suppressed by the layered structure so quickly that they allow the response time of the electronics unit to be so small that it is impossible to neutralize the destructive element even by firing, for example, with quick-fire weapons, a device driving a destructive element. Due to the very fast suppression of disturbing signals, the risk of triggering a sensitive element as a result of a false alarm with the indicated external disturbances is significantly reduced. A thread (wire, fiber, tape, etc.) and an electric circuit are in most cases sufficient protection against external disturbances in the form of powerful magnetic fields and transient voltages. Meanwhile, the design of two mutually parallel filaments connected in an electric circuit, the current in which flows in opposite directions, provides even better resistance to external disturbances. Thus, the signal mat 2 according to the present invention will effectively protect against electronic and information equipment located in a container constructed from the laminated sections 10 according to the present invention.

 It should be understood that through the use of a layered structure according to the present invention in many different ways, any improved protection system can be constructed.

 It is clear that the above container or suitcase 20 can be successfully used for the safe transportation of valuable goods.

 In FIG. Figure 6 shows an example of a hole made in one layered section 10 for a signal-transmitting cable 30. In the case shown, the overlap zone 31 is conveniently made in the mat 2 so that it makes it impossible to make a hole in the layered structure 10 without causing an alarm. In the case of a knitted mat 2, the overlapping zone can be made of a sufficiently large size by connecting the so-called buttonhole in the signal mat. Shown in FIG. 6, the cable hole can be used, for example, together with the protective case 20 described above.

 In FIG. 7 shows an example of a protective room or room 40 constructed from the laminate sections 10 according to the present invention. When constructing the room 40, it is preferable to ensure that the joining areas of the laminate sections include overlapping zones 41 (FIG. 8) so that the mat 2 is continuous as described on the example of the case 20. Despite the fact that this is not visible in the drawing, each overlapping connection is conveniently equipped with bend-indicating contact devices similar to the embodiment described on the case 20. Some overlapping joints can also be glued together. The overlapping of adjacent laminate sections at the corners of the structure of room 40 can be simplified by separate corner laminate strips 10c. Layered strips 10c or corner corner strips can be placed inside the respective laminated sections 10. The design of room 40 is provided with a door 42 or some similar entrance, around which means should also be provided for determining the overlap and bending of the layered section.

 Thus, the laminate structure 10 according to the present invention can be used in the construction of containers, rooms and other rooms that it is desirable to protect, for example, from making holes in the structure. If a hole is made in the layered structure of the present invention, a destructive element will be activated to turn the stored material into valueless or worthless. In places of joints and doors, protection is provided against drilling holes due to overlap, and in case of attempts to split the joint, electrical contacts are provided that work to break the electrical circuit. These electrical contacts are conveniently connected in series with signal mats to reduce the number of current circuits. Corner wall sections are used to create overlapping zones in the corners of a room or container.

 The laminar structure according to the present invention can be used, for example, in the construction of containers or suitcases for transporting valuable items, for example, for transporting money, protective containers for motor vehicles, airplanes, weapon storage systems, inexpensive bank safes, etc. The container may include at least two layered structures.

 Still according to the present invention, a layered structure can be used to create a shell around various containers, places and rooms, which will make unauthorized access impossible without activating an alarm system or a destruction system.

 It should be understood that the layered structure of the present invention can be constructed in various ways. In the simplest case, the layered structure will consist of only one signal layer and one outer sheet or layer, provided that the signal layer (or mat) is effectively and satisfactorily glued to the outer layer. If necessary, the layered structure may include additional layers or sheets of various types. The materials used may also be different. As a non-limiting example, it is convenient that the layered structure has a thickness of the order of 5 mm. Moreover, it can often be convenient for the layered structure to be opaque. The signal mat is suitably sintered, fused, or firmly adhered to a layered structure. The layered structure may also be provided with stiffening means.

 In cases where the layered structure contains optical fiber instead of electrically conductive filaments, the rest of the peripheral equipment should, of course, be adapted to the use of optical fiber, and the above description regarding electric current circuits should be made for light signal transmission circuits.

 Given all of the above, the present invention is not limited to the above description and illustrated variants of its implementation, since various modifications and changes are possible within the scope of the attached claims.

Claims (9)

 1. A layered structure for the manufacture of protective containers and protective rooms, which integrally includes a signal mat made of one or more insulated conductive filaments, characterized in that the filament or filaments are arranged or arranged so that continuous cells, loops or eyes are formed similar to those formed by knitting or embroidery.  2. The structure according to claim 1, characterized in that the cells, loops or eyes are formed by at least two parallel filaments, which are mutually connected at their free ends with the formation of an electric circuit in which the current flows along parallel filaments in mutually opposite directions.  3. The structure according to claim 1 or 2, characterized in that it has at least one outer sheet or layer, which is combined with a signal mat.  4. The structure according to any one of claims 1 to 3, characterized in that it has a flat, curved or angular shape.  5. A method of using a layered structure, characterized in that the layered structure according to any one of claims 1 to 4 is used to construct the shell of the container or room so that the objects contained therein are protected from unauthorized access.  6. The method according to claim 5, characterized in that the layered structures are combined with the overlap, and the signal mats are connected to each other.  7. The method according to p. 5 or 6, characterized in that the corner wall sections are used to create overlapping combined zones in the corners of the room or container.  8. The method according to claim 5, characterized in that the container includes at least two layered structures that overlap each other in the overlap zone, and means are provided in the indicated overlap zone for detecting attempts to separate the layered structures in the overlap zone.  9. The method according to claim 8, characterized in that the signal mats and detection means are mutually connected to one or more electrical circuits, and an unauthorized rupture of one or more electrical circuits activates an element provided in the container that destroys items stored in the containers.

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