RU2358331C1 - Electronic seal - Google Patents

Abstract

FIELD: physics; signalling.

SUBSTANCE: present invention relates to provision for automatic monitoring of the state of locking and sealing devices. The electronic seal comprises a case and a piece of cable, consisting of an outer shell, surrounding at least one inner conductor. One end of the cable is rigidly tied to the case and is joined to a unit for monitoring integrity of the cable. The other working end of the cable, after fitting on a lockable object, is attached to a locking mechanism put inside the case. The device also contains means of storing sealing information and data exchange with a portable and/or stationary reading device. One inner conductor is made from electroconductive non-metallic material, with high value of relative elongation, stretched in the initial position and forms an electrical loop with another conductor, made, for example from a copper wire, and/or the outer shell of the cable. The above mentioned loop is electrically connected to the unit for monitoring integrity of the cable. There are two more versions of implementing the invention.

EFFECT: improvement operational technical characteristics of the electronic seal and increased durability of the locking element.

7 cl, 7 dwg

Description

The invention is intended to provide automated monitoring of the status of locking and sealing devices used as security devices against unauthorized entry, and can be used to seal vehicles, wagons, containers, garages, warehouses, etc.

Known fixture for a piece of cable (p. RF 2210690, publ. 08/20/2003), comprising a housing and a steel cable made with the possibility of passing through the eyes of a lockable object, while the first end of the cable is rigidly sealed in the housing, and the second end of the cable is passed through case and clamped in it using clamping elements. This device contains an electronic tag (EM) located on the housing and configured to transmit a signal about the violation of the integrity of the cable, while on the outer surface of the cable a resistive layer having a predetermined resistance is applied, the outer strands of the first and second ends of the cable through, respectively, the first and the second contacts are connected to a bridge circuit connected to the control unit, wherein the bridge circuit and the control unit are made in EM or in the form of a separate electronic unit electrically connected to the EM.

The disadvantage of this device is the design complexity and the possibility of false alarms due to random external factors in operating conditions, as the resistive layer controlling the integrity of the cable is located on its outer side.

Known electronic seal (p. US 6420971 from 07.16.2002.), Selected as a prototype, including a locking element consisting of an outer shell surrounding at least one inner core, and a housing that connects to the locking element and forms a seal in a closed state; Means of monitoring the integrity of the inner core and the preparation of relevant data; microprocessor for collecting and processing this data; an infrared emitter controlled by a microcontroller for transmitting processed data to a remote reader, while the microcontroller activates the integrity control device of the inner core at predetermined intervals and records any change in the state of the core as an event, as a result of which the infrared emitter starts transmitting clock pulses for in order to initiate data exchange with a remote reader.

The disadvantage of this device is the need for continuous monitoring of the locking element, which greatly complicates the electronic component of the seal and requires the use of an autonomous battery.

The objective of the invention is to improve the operational and technical characteristics of the electronic seal by eliminating the need for continuous monitoring of the integrity of the locking element and increasing the resistance of the locking element to attempts to covertly violate its integrity in order to falsify the sealing information, without the need for an autonomous power source.

To solve the problem below, several versions of the electronic seal are proposed.

First option.

An electronic seal includes a housing and a piece of cable, consisting of an outer shell surrounding at least one inner core, while one end of the cable is rigidly fixed in the housing and connected to the cable integrity control unit, the other working end of the cable, after installation on a lockable object , is fixed by a locking mechanism located in the housing, means for storing filling information and exchanging data with a portable and / or stationary reader. The seal is distinguished by the fact that at least one inner core is made of an electrically conductive non-metallic material having a high elongation, is stretched in the initial state and forms an electrical circuit with another conductive core made, for example, of a copper conductor, and / or external a sheath cable, wherein said circuit is electrically connected to a cable integrity control unit. The inner core of non-metallic material can be made of conductive silicone.

The second option.

An electronic seal includes a housing and a piece of cable, consisting of an outer shell surrounding at least one inner core, while one end of the cable is rigidly fixed in the housing and connected to the cable integrity control unit, the other working end of the cable, after installation on a lockable object , is fixed by a locking mechanism located in the housing, means for storing filling information and exchanging data with a portable and / or stationary reader. The seal is distinguished by the fact that at least one inner core is made of a material with a high elongation, is stretched in the initial state, the cable integrity control unit is equipped with a spring-controlled switching mechanism, while one end of the inner core is fixed to the working end cable, and the other end of the core is connected to the spring of the switching mechanism, which in the initial state is compressed under the action of compressive forces in the core.

In this case, the switching mechanism can be made in the form of an open section of the electric circuit, the spring has a conductive pad, which, when the spring is weakened, closes the mentioned section of the circuit. Or the switching mechanism can be made in the form of a section of the electric circuit, the spring has a pointed protrusion, which, when the spring is weakened, will destroy the said section of the circuit.

The third option.

An electronic seal includes a housing and a piece of cable, consisting of an outer shell surrounding at least one inner core, while one end of the cable is rigidly fixed in the housing and connected to the cable integrity control unit, the other working end of the cable, after installation on a lockable object , is fixed by a locking mechanism located in the housing, means for storing filling information and exchanging data with a portable and / or stationary reader. The seal is distinguished by the fact that the inner core consists of several insulated electrical conductors visually indistinguishable from each other, connected to the cable integrity control unit, while at least one conductor forms an electrical circuit with another conductor and / or an outer cable sheath, which In this case, it is also electrically connected to the cable integrity control unit. Conductors not included in the aforementioned circuit can form their own electrical circuits isolated from other conductors.

The essence of all three options for electronic sealing is that a high degree of resistance to attempts to restore the integrity of the locking element after it has been bitten or torn is achieved, thereby increasing the degree of confidence in the sealing system due to the increased resistance to falsification and elimination of the "human factor" during verification. In addition, the developed seal may not contain autonomous batteries and complex electronics, including a microcontroller. Checking the seal is carried out by the reader. The seal does not have any special sensors, but there is a special electric circuit, depending on the integrity of which the data transmitted to the reader change in a certain way.

The invention is illustrated by the following drawings:

Figure 1 - the General structure of the electronic seal,

Figure 2 - cable seal with an inner core of conductive non-metallic material with a high value of elongation,

Figure 3 - cable seal with a spring and contact areal,

Figure 4 - seal cable with a spring and a pointed protrusion,

Figure 5 - cable seal with many conductors,

6 is an example 1 of a circuit for connecting conductors,

7 is an example 2 of a circuit for connecting conductors.

In the drawings, the positions indicated:

1 - cable

2 - outer sheath of the cable

3 - inner core

4 - seal body

5 - cable integrity control unit

6 - means of storage of filling information and data exchange

7 - locking mechanism

8 - the working end of the cable

9 - spring

10 - conductive pad

11 - section of the electrical circuit in the control unit of the integrity of the cable (contact "1" and "2")

12 - pointed protrusion of the spring

13 - many identical conductors.

The options for the execution of the seal and the principle of its operation in each of the options are described below.

The electronic seal (Fig. 1) consists of a housing 4, a cable 1, an integrity control unit 5 of a cable 1, a means for storing sealing information and exchanging data 6 with a portable and / or stationary reader (not shown in Fig.). The cable 1 consists of an outer shell 2 and an inner core 3, while one end of it is rigidly fixed in the housing 4, connected to the integrity control unit of the cable 1, and the other, the working end 8 of the cable, after installation on a lockable object, is fixed by a locking mechanism 7, located in the housing 4.

In the first embodiment (Fig. 2), the filling of the inner core 3 is made of an electrically conductive non-metallic material with a high elongation, for example, of conductive silicone, in the initial state it is stretched and forms an electrical circuit with another conductive core made, for example, of a copper conductor ( in Fig.), and / or the outer sheath of the cable 1, while the specified circuit is electrically connected to the integrity control unit of the cable 5. The integrity of the circuit is controlled by internal electronics Lomb of electric circuit parameters. When biting the cable 1, the inner core 3 ceases to experience tensile force and contracts to its normal state. Thus, inside the outer sheath 2 of the cable 1 in the areas adjacent to the place of snacking, the core 3 will be absent. This will significantly complicate the possibility of gluing the core 3 in order to hide its gap.

In the second embodiment (FIG. 3), the seal is filled with at least one inner core 3 made of a material with a high elongation, for example, silicone, and is stretched in the initial state, the integrity control unit 5 of the cable 1 is equipped with a spring 9, this one end of the inner core 3 is fixed to the working end 8 of the cable 1, and the other end of the core 3 is connected to the spring 9 of the integrity control unit 5 of the cable 1, which in the initial state is compressed by compressive forces in the core 3, the spring 9 has a contact conductive pad 10 which Paradise when loosening the spring 9 has the ability to close the electrical circuit in the control unit 5 of the integrity of the cable 1. When biting the cable 1, the inner core 3 ceases to experience tensile force and is compressed to its normal state. As a result, inside the sheath 2 of the cable 1 in the areas adjacent to the place of the snack, the core 3 will be absent. In turn, the spring 9 ceases to experience compressive force and straightens. At the end of the spring 9 there is a contact pad 10, which closes the contacts “1” and “2” of the circuit 11 with an uncompressed spring. It is difficult to return the spring-loaded contact to its original position, because for this, it is necessary to pull the inner core 3 from the outer shell 2, which is practically impossible.

Or (Fig. 4), the inner core 3 is made of a material with a high elongation, for example, silicone, and is stretched in the initial state. The control unit 5 of the integrity of the cable 1 is equipped with a spring 9, while one end of the inner core 3 is fixed to the working end of the cable 1, and the other end of the core 3 is connected to the spring 9 of the control unit 5 of the integrity of the cable 1, which in the initial state is compressed by compressive forces core 3, while the spring 9 has a pointed protrusion 12. When biting the cable 1, the inner core 3 ceases to experience tensile force and contracts to its normal state. As a result, inside the sheath 2 of the cable 1 in the areas adjacent to the place of the snack, the core 3 will be absent. In turn, the spring 9 stops experiencing compressive force and straightens, cutting the circuit 11 in the area between the contacts "1" and "2". Even if you manage to pull the inner core 3 from the outer shell 2 and re-compress the spring 9, it will be impossible to restore the cut section of the circuit 11 located inside the seal body 4.

In the third embodiment (Fig. 5), the inner core 3 consists of several visually indistinguishable from each other insulated electrical conductors 13 connected to the integrity control unit 5 of the cable 1, while at least one conductor forms an electrical circuit with another conductor (Fig. .6) and / or the outer sheath of the cable 2, which in this case is also electrically connected to the integrity control unit 5 of the cable 1. Conductors not included in the aforementioned circuit can form their electrical ntury (Figure 7). The electrical contact of the circuit with a conductor not included in it is fixed by the built-in electronics as a violation of the integrity of the cable. When biting the cable 1, the integrity of the circuit is violated. To restore the circuit, only those conductors that belong to this circuit must be connected. Not allowed electrical contact of the circuit "1" - "2" and conductors having a common point "3" (Fig.6). Also, none of the circuits should have electrical contact with another circuit (Fig.7). The probability of random correct connection of conductors decreases with increasing number of conductors in the core.

Thus, this electronic seal has several advantages:

- the possibility of automated non-visual control of the integrity of the locking element,

- a high degree of resistance to attempts to covertly restore the integrity of the locking element after biting or tearing,

- eliminates the need for continuous monitoring of the integrity of the locking element,

- the ability to work without an autonomous battery,

- simplicity of design.

Claims (7)

1. An electronic seal, comprising a housing and a piece of cable, consisting of an outer shell surrounding at least one inner core, while one end of the cable is rigidly fixed in the housing and connected to the cable integrity control unit, the other working end of the cable, after installation on a lockable object, fixed by a locking mechanism located in the housing, means for storing sealing information and exchanging data with a portable and / or stationary reading device, characterized in that at least one internal the sludge is made of an electrically conductive nonmetallic material with a high elongation, in the initial state it is stretched, and forms an electrical circuit with another conductive core made, for example, of a copper conductor, and / or an outer cable sheath, while the specified circuit is electrically connected to the unit control the integrity of the cable. 2. The device according to claim 1, characterized in that the inner core of non-metallic material is made of conductive silicone. 3. An electronic seal, including the housing and the length of the cable, consisting of an outer shell surrounding at least one inner core, while one end of the cable is rigidly fixed in the housing and connected to the cable integrity control unit, the other working end of the cable, after installation on a lockable object, fixed by a locking mechanism located in the housing, means for storing sealing information and exchanging data with a portable and / or stationary reading device, characterized in that at least one internal the sludge is made of a material with a high relative elongation, in the initial state it is stretched, the cable integrity control unit is equipped with a spring-controlled switching mechanism, while one end of the inner core is fixed to the working end of the cable, and the other end of the core is connected to the spring of the switching mechanism, which in the initial state is compressed under the action of compressive forces in the vein. 4. The device according to claim 3, characterized in that the switching mechanism is made in the form of an open section of the electric circuit, the spring has a conductive pad, which, when the spring is weakened, can close the said section of the circuit. 5. The device according to claim 3, characterized in that the switching mechanism is made in the form of a section of an electric circuit, the spring has a pointed protrusion, which, when the spring is weakened, destroys the said section of the circuit. 6. An electronic seal, including the housing and the length of the cable, consisting of an outer shell surrounding at least one inner core, while one end of the cable is rigidly fixed in the housing and connected to the cable integrity control unit, the other working end of the cable, after installation on a lockable object, fixed by a locking mechanism located in the housing, means for storing sealing information and exchanging data with a portable and / or stationary reading device, characterized in that the inner core consists of several some visually indistinguishable from each other insulated electrical conductors connected to the cable integrity control unit, at least one conductor forms an electric circuit with another conductor and / or external cable sheath, which in this case is also electrically connected to the integrity control unit wire rope. 7. The device according to claim 6, characterized in that the conductors not included in the aforementioned circuit can form their own electrical circuits isolated from other conductors.

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