HU225394B1 - Alarming seal system and method for protecting goods - Google Patents

Abstract

SUMMARY OF THE INVENTION The present invention relates to an alarm seal system for the protection of property, in particular to its containers or storage rooms, primarily to railway fittings, containers, closed carriage vehicles, buildings and to store value or means of transport service, such as coin boxes, safes, and the like. secured on the storage or storage space of the property to be protected, on its door or on the entrance or at an entrance such that the two ends of the seal loop (6) are secured in a housing (8) while being wound on the tabs of the door, door or door seal (2, 4 or 4); The recess housing (8) comprises an intrusion detection unit (10), a communication unit (12) connected to one, and an associated power supply unit (14). a seal communication unit (12) is connected to a communication unit (22) of a receiver unit (18) via a radio frequency channel (16), which is connected to a display unit (22) and / or a loudspeaker (28). HE

Description

The invention, on the other hand, is a method of applying an alarm seal system, wherein an alarm seal is applied, and an intrusion, i.e., cutting, damaging or changing the position of the loop (6) in a receiver unit (18) is detected and issued. After the seal (s) are inserted, the data input unit (30) formed on the receiver unit (18) is armed by providing the identification data of the seal (s) and the operative condition of the seal (s) is checked by the receiver unit (18). The data entry unit (30) is then used to provide information on the location of each asset to be protected. Preferably, an alphanumeric keypad or keyboard is used to provide identification or asset location information.

The most preferred field of application of the invention is to individually seal the doors of the wagons of a railway train with a receiver (18) located on the locomotive.

BACKGROUND OF THE INVENTION The present invention relates to an alarm seal system for sealing property or storage areas of property, in particular railway fittings, containers, closed box body vehicles, buildings and devices for storing or transporting value, such as coin bags, safes, and a method of sealing the system.

One well-known method of protecting property is to place it in a lockable container or room and seal the door of the container with a lock. Originally designed as a lead seal, the seal is used to indicate the opening of a protected container door. The design and material of the seal have changed considerably over time, and are now made of materials that are easier to handle than lead. Such a seal is known, for example, from HU-173 889, which is used to seal gas meter counters. Whatever material or construction we choose, the basic requirement for a seal is that the seal must undergo irreversible changes when the door is opened. Because of the simplicity and versatility of these solutions, they have the great disadvantage that they are known to the competent authorities only after the seal has been checked, so that the necessary measures are taken relatively late, which gives a significant advantage to an unauthorized intruder.

Another way to protect property is to operate an alarm system. The alarm system, in its simplest form, consists of a beacon and a beacon where the beacon is located near the object to be protected and the beacon is located near the personnel you wish to alarm. In special cases, the two locations may be coincident with, for example, car alarms or on-site burglar alarms, or they may be spaced apart, as exemplified by alarm and / or fire alarm equipment in U.S. Patent No. 203,417. Alarm systems, by eliminating the aforementioned drawback of a simple mechanical seal, immediately indicate the intrusion. However, they have the disadvantage that guarding different types of objects requires different types of sensors, so we cannot speak of a universal type.

An alarm system of the beacon-receiver type is also disclosed in EP 0 978 812 A2, the essential element of which is an electronic seal with a loop, the two ends of the loop being fixed in a seal housing. The loop is threaded through the tabs or openings of a door and window. The seal includes a sensor that alerts a receiver with a visual and acoustic display through a communication unit in the event of a loop failure.

It is also known for protecting electronically protected fiber optic seal locking devices according to Hungarian patent application P 98 00070, which has a multi-channel fiber optic loop and an associated electronic unit for radio frequency reading, remote alarm and two-way communication. The connection between the optical cable and the electronic unit is characterized by the fact that the electronic unit periodically transmits visible light through the optical fibers, which light pulses do not reach the target in the event of optical fiber damage and thus penetration can be detected both visually and electronically.

A common disadvantage of the above-mentioned solutions is that the alarm occurs only when the loop or optical fiber is cut or severely damaged, although in most cases it would be advantageous to perform the alarm even when the seal is simply removed, i.e. at the beginning of an attempt to dismantle it. It would cost.

A further disadvantage of the above solutions is that they do not take advantage of the possibility of directly sealing and verifying the seals and of the location of each item of property to be protected by a receiver equipped with a data entry unit, thus shortening the time required to actually use the system.

HU 225 394 Β1

The present invention is based on the discovery that the novel use of a suitably designed alarm seal or alarm seal system would provide additional advantages over known solutions, providing a widely used, easy-to-use, yet effective asset protection device that provides an immediate alarm. so that the location of the event causing the alarm is also identified.

Our goal is to create a security system that can determine the dates and locations of incidents so that actions following an incident can be prevented in a timely manner.

The invention thus relates, on the one hand, to an alarm seal system for the protection of property, which is suitable for storing or storing property, particularly railroad fittings, containers, closed box vehicles, buildings and valuables, such as coin bags, trolleys. The system comprises at least one looped seal affixed to a door, door, door, or entrance of the property or storage room of the property to be protected such that the two ends of the loop of the seal are secured in a sealing house while the door, door or door is threaded. the seals on the tabs of the seal or the corresponding openings. The seal housing includes an intrusion detection unit, a communication unit associated therewith, and a power supply unit associated therewith. The communication unit of the seal is connected via a radio frequency channel to a communication unit of a receiver unit, which is connected to a display unit and / or a loudspeaker unit. The seal penetration detection unit includes circuits for detecting loop breakage, damage or pulling out of the seal housing. According to the invention, the seal penetration unit comprises a position switch for sensing the spatial position of the seal housing.

The invention, on the other hand, is a method of using an alarm seal system for protecting property comprising at least one loop seal. The seal is affixed to a door, door, door, or entrance of the store or storage room of the property to be protected by securing the two ends of the loop of the seal in a seal house while threading through the tabs of the door, door, or entrance seal. The seal housing includes an intrusion detection unit, a communication unit associated therewith, and a power supply unit associated therewith, wherein the communication unit of the seal is connected to a communication unit of a receiver via a radio frequency channel. The communication unit is connected to a display and / or acoustic unit and wherein the seal penetration detection unit comprises circuits for detecting loop breakage, damage or pulling out of the seal housing. In the method, the seals are armed after they have been applied by providing the identification data of the seals by means of a data input unit formed on the receiver unit, and the operational condition of the seals is checked by the receiver unit. Preferably, the credentials are entered using a keypad or keyboard with alphanumeric characters. The data entry unit then provides information about the location of each asset to be protected.

In a most preferred embodiment of the system, the seal penetration detection unit comprises a position switch for sensing the spatial position of the seal housing. The latter solution is useful when attempting to move the object to be protected with the seal. For example, with a closed fuel tank or safe, or with a purse. The position switch can be adjusted to suit your needs, so that the position switch only activates and issues an alarm when the seal is tilted, which can be delayed for a certain period of time. The purpose of the delay is to ensure that the intended movement of the object, such as a moving train, does not give false alarms at a given application.

Of course, the detector unit may also include circuits suitable for both types of intrusion attempts mentioned above.

It is advantageous and, at the same time, the most common case where multiple seals are assigned to a single receiver in the system. In this case, the receiver unit comprises a data storage unit, which unit contains unique identification data of the seals belonging to the receiver unit. Typically, such an application is where the doors of wagons of a train are individually sealed with a receiver unit located at the train driver. Because the receiver can identify the individual seals, it is immediately possible to determine which wagon has been accessed in the event of an alarm.

A further preferred form of data storage unit is suitable for storing system arming time and / or alarm location and time data so that it can be archived and subsequently processed. If the system receiver includes a computer interface, events can be documented and printed.

A possible embodiment of the invention will now be described with reference to the figure, wherein Figure 1 shows a very preferred embodiment of the alarm seal system, but is not limited to the embodiment shown herein.

As shown in Figure 1, the system comprises at least one seal and a receiver unit 18. The seal loop 6 is threaded through the sealing tabs 2 and 4 on the door, entrance or doorway of the object to be protected. Such seal latches 2 and 4 can be placed on most openable shapes such that one of the seal latches 2 is on one segment of the openable shape, e.g., door frame, fuel tank wall, etc., and the other.

GB 225 394 Β1 seal lock tab for other segment of the openable design, such as door leaf, fuel cap etc. is fixed. There are some applications where 2 and 4 seal lock tabs are not formed, but the corresponding loops are attached to corresponding corresponding openings, such as rings of money bags. The two ends of the loop 6 are preferably fixed to a seal housing 8 so that one end is fixedly connected and the other end extensively attached thereto. It is preferable that the seal housing 8 is cylindrical in shape and resistant to conventional cutting tools due to its size and material. Inside the seal housing 8, an intrusion detection unit 10 is connected to the two ends of the loop 6 to detect changes in the state of the loop 6. Such changes may include cutting, shorting, damaging the loop 6 or pulling it out of the housing 8. The intrusion detection unit 10 may include a position switch 32 which closes circuits depending on the inclination of the housing 8. Such a position switch 32 is most easily constructed using a commercially available mercury switch. The intrusion detection unit 10 is coupled to a communication unit 12, each of which receives the energy required for its operation from a power supply unit 14. The power supply unit A14 contains a battery or a battery that provides the seal with an independent power supply for a long time. The communication unit 12 communicates with the communication unit 22 of a receiver 18 via a radio frequency data transmission channel 16. In the present embodiment, the communication unit 22 is connected to a display unit 20, a data storage unit 24, a data input unit 30 and a sounding unit 28. The power supply of said units is also provided by an energy supply unit 26. By default, the communication between the two communication units 12 and 22 is unidirectional, i.e., the communication unit 12 of the seal provides signals to the communication unit 22 of the receiver 18. Higher protection requirements, such as interference protection, or if the desired range is increased in the circumstances, can be bidirectional. In this case, both the communication unit 12 in the seal and the communication unit 22 in the receiver unit 18 act as transceivers.

After the seals are applied, the alarm seal system is armed via the data input unit 30 of the receiver 18. The data entry unit 30 may be, for example, a conventional keypad or keyboard with appropriate alphanumeric characters. The data entry unit 30 also serves to enter other data, such as the identification data of each seal. After arming, the receiver 18 checks that the seal circuits are in working order. It can then be fixed to placements, such as the exact location, number, etc. of the property. relevant data. The communication unit 12 outputs response signals depending on the state of the intrusion detection unit 10, position switch 32 and power supply unit 14. Based on the presence or absence of response signals, the receiver unit 18 determines the condition of the seal and decides on the alarm. An alarm signal is generated in the receiver unit 18 when the housing 8 is damaged or its position is changed over a period of time or the power supply is interrupted. In the event of an alarm, the system emits an acoustic alarm using its sounding unit 28 and displays on the display unit 20 which seal is associated with the alarm and also registers the event with its exact time. By connecting the receiver 18 to a computer, the data can also be archived. The receiver unit can distinguish more than a thousand seals, which makes the system capable not only of simultaneously protecting a specific property, but also of operating in a larger region, even at a national level.

The receiver unit 18 is located within a certain distance from the seals in its system or at a practically unlimited distance from the receiver unit dancing to a person in charge of monitoring the system. Experimental results show that there is an optimum distance of 60 km between the seal and the receiver 18. To bridge a greater distance, the communication units 22 of the receivers 18 must be provided with a transceiver, and the receivers 18 must be installed approximately twice the range (e.g., 2 * 60 = 120 km). In this way, any long data transmission channel can be established. Since the receiver 18 can distinguish the seals assigned to its system, in the event of an alarm, the person who detects the alarm can read the exact location of the alarm from the display unit 20 and take the necessary action. Such action may be to go to the scene and establish the cause of the alert, or notify the competent authority (police, fire brigade, ambulance), the owner of the protected property or commence remedial action.

An advantage of the alarm seal system of the present invention is that it provides an instant alert upon the occurrence of an event, which may not only be a competent or unauthorized opening, but may also be a relocation, moving, or requesting assistance. The system allows immediate recording of all events that occur, by recording locations and times, and as a result events become preventable.

Claims (12)

1. An alarm seal system for the protection of property, for sealing the storage or storage of property, in particular railway fittings, containers, closed box body vehicles, buildings and valuables, such as coin bags, safes, containing at least one hood, , which is a seal on the door of the storage or storage room of the property to be protected, EN 225 394 Β1 is secured to a door or doorway such that the two ends of the seal loop are secured in a seal housing while being threaded through the door or door or door seal seal tabs or corresponding apertures, the seal housing includes an intrusion detection unit, an associated communication unit, and a power supply unit associated therewith, wherein the seal communication unit is connected via a radio frequency channel to a communication unit of a receiver unit communicating with a display unit and / or a loudspeaker unit, and wherein the seal penetration detection unit is interrupted, comprising detecting circuits for detaching from the seal housing, characterized in that the seal penetration detection unit (10) comprises a position switch (32) for detecting the spatial position of the seal housing (8). rtalmaz. Alarm seal system according to claim 1, characterized in that a plurality of seals are associated with a single receiving unit (18), wherein a receiving unit (24) is arranged in the receiving unit (18), which data unit (24) is attached to the receiving unit (18). ) contains the unique identification of the seals. Alarm seal system according to claim 2, characterized in that the data storage unit (24) comprises data relating to the arming time of the system and / or the location and time of the alarms. 4. Alarm seal system according to any one of claims 1 to 3, characterized in that the receiver (18) comprises a computer interface. 5. A method of applying an alarm seal system to protect property comprising at least one looped seal affixed to a door, door or window of a container or storage room of the property to be protected such that the two ends of the seal loop are contained in a seal housing. secured while being threaded through the seal lock tabs of the door, door, or entrance, or corresponding apertures, the seal housing includes an intrusion detection unit, a related communication unit, and a power supply unit associated therewith, wherein the seal unit communicates via a radio frequency channel. the communication unit of the receiver unit, which is connected to the display unit and / or the acoustic unit of the communication unit, and where the seal penetration detection unit of the seal breaks the loop, comprising detecting circuits for detecting or removing the seal from the housing, characterized in that the seal (s) is armed by providing the identification data of the seal (s) via a data input unit (30) formed on the receiver (18), preferably alphanumeric characters; checking the operative condition of the seal (s) with the receiver unit (18), and providing the data input unit (30) with information about the location of each property to be protected. Method according to claim 5, characterized in that the alarm is triggered by an intrusion generated by the seal penetration detection unit (10) and detected by the communication unit (22) of the receiving unit (30). Method according to claim 5, characterized in that the alarm is triggered by the response of the seal communication unit (12) to the signal of the receiver unit (30). The method of claim 5, wherein the alarm is issued based on a missed response signal from the seal communication unit (12). Method according to claim 5, characterized in that the alarm is issued based on the state of the seal power supply unit (14). Method according to claim 5, characterized in that the seal penetration detection unit (10) comprises a position switch (32) for detecting the spatial position of the seal housing (8) and the alarm is issued based on the state of the seal position switch (32). A method according to claim 5, characterized in that a plurality of receivers (18) are chained to create an alarm network of any range. A method according to claim 5, characterized in that the seals are located on the door of rail vehicle wagons and the receiver unit is located in the driver's cab of the train locomotive.