DE102008063981A1 - Electronic security system for electronically protecting e.g. book in enclosed area, has presence sensor arranged at predetermined location, where waste paper basket is provided with presence sensor and arranged at portion inside room - Google Patents

Abstract

The security system has a unit (10) arranged at a movable object (50), where the unit includes data content. A presence sensor is arranged at a predetermined location and includes a reading device, where a waste paper basket is provided with the presence sensor. The data content of the unit is readable within the waste paper basket, where the waste paper basket is arranged at portion inside a room. The reading device is coupled with an antenna. The unit includes a radio frequency identification (RFID) transponder (11) and is embedded in a two-part plastic housing. An independent claim is also included for a method for electronically protecting a movable object.

Description

electronic Security system as well as means for it, and procedures for electronic security of moving objects

The The invention relates to an electronic security system with a Means which is arranged on a movable object and Data content includes, wherein the electronic security system continues a presence sensor, wherein the presence sensor is formed is the data content of the agent read out. The invention relates a means for an electronic security system with wirelessly readable data content, as well as a method for electronic security of moving objects.

systems for electronic security of movable objects are for example called EAS. EAS stands for the English term: "electronic article surveillance", the in German-speaking areas as electronic article security, or electronic goods security system is called. With goods security system called facilities in shops to secure the goods or to prevent theft. Goods are equipped with RFID transponders in housings, which either remain on the product and bypass a deactivation at the checkout by detection devices z. B. detected at the output can be attached to the goods or so that special Solvents are needed for removal.

One movable object is for example a product or another physical or material object based on its nature is suitable and intended for trading. Of the Trade in the goods takes place on a trade area. On the trading area goods are offered for sale. Also For example, a loaned goods, is a moving object. This is, for example, in terms of time and possibly also spatially Limited rental provided. For example, in libraries to view individual books as a loaned material, which of visitors borrowed from the library and also moved within the library can be. Also exhibits for example in a museum are moving objects, only frequently with the restriction that exhibits are not be moved by visitors to the exhibition within the exhibition allowed to. A commercial space, a library or also an exhibition or a museum is one in any way enclosed area or enclosed in any manner Room with entrances and exits.

From the publication: Klaus Finkenzeller; Manual RFID; 2nd Edition; Verlag Carl Hanser; 2000; Page 11-39 , EAS systems for securing goods are known, which are formed from RFID transponders and from readers for these RFID transponders. Each RFID transponder comprises an inductive coupler, which acts as a transmitting and receiving antenna of the RFID transponder. Each reader also includes an inductive coupler which is located at entrance or exit areas of a commercial space or space, and is referred to as an antenna. The antenna coupled to the reader is arranged there so that an effective range of the antenna must be traversed by each person who enters or leaves the commercial area or the room. If an RFID transponder is located in the effective range of the antenna of the reading device, the RFID transponder inductively draws electrical energy by means of the electromagnetic field formed by the antenna of the reading device. With this electrical energy of the RFID transponder is operated. If the RFID transponder is supplied with electrical energy, it sends a signal, which is received and evaluated by the reader. The EAS system described by Finkenzeller includes only the information: RFID transponder in the effective range of the antenna of the reader, or RFID transponder not in the effective range of the antenna of the reader. If an RFID transponder is within the effective range of the reader's antenna, an alarm occurs.

adversely it is, for example, that with it only the moving objects be detected, which still adheres to the RFID transponder. moreover The moving objects are only when leaving the commercial area or the room. It takes place accordingly an external border surveillance. That can be too late be. In addition, was the RFID transponder deliberately removed, or if he lost, the movable object can be ignored be stolen from the EAS system.

Further are known as thief traps. In case of a thief trap a moving object as bait for one Thief designed and, for example, with predetermined chemical substances marked. When a thief comes in contact with the object Adhere to it the chemical substances, and the thief can be convicted.

adversely this is because an item to be protected from theft must be marked, causing the object to be protected is changed. Therefore, this method is not suitable for protection or to secure an entire stock that has a variety of moving Includes items.

It is therefore the object of the invention to propose a solution which the security level to avoid theft improved moving objects.

These Task is through the actions of the independent Claims solved. These directly or indirectly subordinate claims form these measures in an advantageous manner.

to The solution to the problem is an electronic security system proposed, with a means which arranged on a movable object is and which data content includes. Next is in the proposed electronic security system a presence sensor provided which is designed to read out the data contents of the means. The presence sensor is disposed at a predetermined location. With the accession senor is a predetermined reception area within which the data contents of the means are readable are. The predetermined reception area spans a proportion of space within a room. The presence sensor determines whether within of the predetermined reception range is one, several or none Means is located. Located within the predetermined receiving range at least a means, its data contents of the means by the Presence sensor read out.

Of the For example, space is a sales area, a library or a museum or other designated space within which moving objects are in front of one unauthorized misappropriation. With this Solution, it is possible to enter the place moving object is already inside the room determine. This, in turn, has the advantage of being long before the movable object is removed from the room, lockable is that he was moved unjustifiably.

A advantageous development of the electronic security system provides to couple the agent with a sensor. The sensor senses whether the agent is still on the moving object, or whether the agent has been removed from the movable object. This information is provided by the sensor to the agent, so that this Information, as well as the other data stored in the medium, can be read out of the means by means of the antenna. reaches a remote from the movable object means in the space portion of the space formed by the reception area of the antenna is, it can already be determined in the room, if a Means was removed from a moving object. This information then allows early within the room Recognition of an impending theft. Advantage of this is that the thief is still in the room at the time of this detection, and not already left the room, or just leaves.

Prefers the presence sensor comprises a reader, which with at least one antenna is coupled.

Prefers is the sensor as a magnetic sensor, a conductor loop or as a capacitive sensor is formed.

According to one Further training of the electronic security system is planned to put the agent in a case. This is a mechanical protection given the means that prevents destruction of the agent. Such a housing may be a smart label and a perforation or an adhesive layer for fixing the housing to the have movable object. Also, the case can be formed of a two-part plastic housing, which a first housing part and a second housing part includes. Preferred in the embodiment as a two-part Plastic housing by means of a connection of the two housing parts the housing is arranged on the movable object. In order to a variety of other sensor technologies is also usable. So can be, for example, by means of a needle similar trained steel pin, on the first half of the housing is fixed and with the second half of the housing cooperates such that thus the two-part housing is arranged on the movable object, an electromechanical Actuate switch as sensor. Even sensors whose ohmic Resistance value depends on the condition of the two Housing halves are changed to each other usable as sensors.

A Further training of the electronic security system continues to form the means with an RFID transponder. This opens up the possibility of the data contents of the means wirelessly read an inductive coupling, as well as the means over to supply the same inductive coupling with electrical energy.

Of the English term Radio Frequency Identification (RFID) means in the German language, identification with the help of electromagnetic waves. This gives the RFID transponder an opportunity automatically and contactless objects and also to identify and locate living things. In addition to the non-contact identification and localization of Objects by means of RFID transponder and an automatic Capture and storage of data possible.

One RFID system includes an RFID transponder located on or in the Object or the living being and this or this unique features. Furthermore, the RFID system comprises a reading device for reading the data of the RFID transponder, such as a individual identifier. The reader contains a Software that controls the actual reading process and interfaces to other data processing systems and databases.

The Reader generates by means of the antenna an electromagnetic High frequency field of short range. This antenna is preferable formed from at least one induction coil, so that an inductive Coupling is formed. This not only transmits data but also the RFID transponder is supplied with energy. Should to Example larger ranges of the RFID transponder be achieved, is proposed active transponder with its own To use power supply.

Of the RFID transponder comprises an antenna which with the RFID transponder coupled, an analog circuit for receiving and transmitting of data, as well as a digital circuit and a permanent one Memory for storing digital data. RFID transponders can also include a rewritable memory in which during the life of the RFID transponder information is stored can.

A RFID communication works as described below Principle. The reader generates a high-frequency electromagnetic Field which illuminates the antenna of the RFID transponder. In the Antenna of the RFID transponder creates an induction current as soon as the antenna gets into the electromagnetic field. The induction current is rectified and with this a capacitor is charged, which as a buffer for the electrical energy serves. This electrical energy is used as a power supply for used the components of the RFID transponder. In so-called active RFID transponders is also a battery provided to form the power supply of the RFID transponder. Semi-active RFID transponders also include a battery in these only the supply of digital circuits and Memory with electrical energy forms.

Of the by means of the high-frequency electromagnetic field activated RFID transponder receives commands from the reader that this in modulates the electromagnetic field. The RFID transponder generates an answer and modulates this by field weakening means a non-contact short circuit or by reflection of the emitted by the reader electromagnetic field. Thus, the RFID transponder sends to Example its own fixed serial number, more Numbers of the movable goods or of the goods, or others of Reader queried data. Thus, the RFID transponder forms even no electromagnetic field, but changed only the electromagnetic transmission field of the reader.

The Task is also solved by a method for electronic Securing movable objects, where an agent to a movable object is arranged, and an alarm is triggered can when the agent is removed from the movable object and / or the means is stored at a predetermined location. alternative For this purpose, an alarm can be triggered even if the agent remains on the mobile object but on one predetermined location is determined or no longer determined. This is the case, for example, if an exhibition object was removed in a museum from his exhibition site and on another place was spent in the museum. this makes possible early detection of intentional theft and thus increases the level of security to prevent theft. Preferably, the means comprises electronically readable data wherein the predetermined location or the exhibition location preferably by means of a presence sensor is electronically monitored.

With the measures described above it is possible Read data content from the mean, if the mean in the effective range of the presence sensor passes. Another advantage must be for the proposed security system does not design bait, and so that no single moving object is sacrificed, but every object to be secured can be taken alone be secured.

above is the invention in its basic training and Operation described. The following is based on an embodiment and by means of 8 figures, the invention further explained. It shows,

the 1 an RFID transponder in a smart label,

the 2 an RFID transponder in a housing with magnetic sensor,

the 3 the RFID transponder off 1 after forcible removal from a moving object,

the 4 the RFID transponder off 2 after forcible removal from the moving object,

the 5 the RFID transponder off 1 in an active or semi-active version,

the 6 the RFID transponder off 2 in an active or semi-active version,

the 7 Proportion of space within a room,

the 8th an EAS system with data processing equipment

The 1 shows a means 10 and an RFID transponder 11 in a housing designed according to a smart label 20 , With the RFID transponder 11 is an antenna 30 coupled, which according to a coil for inductive coupling or a dipole antenna for receiving electromagnetic waves in the smart label housing 20 is arranged. In addition, the RFID transponder includes 11 a sensor 40 in the illustrated embodiment at the outer edges of the smart label housing 20 according to a conductor loop 45 is arranged. The thin foil-like embodiment of the smart label housing 20 Includes for attaching the Smart Label housing 20 on a moving object 50 a perforation 55 , The housing 20 is by means of a plastic band 57 or another mechanically strong and tear-resistant material with the movable object 50 coupled. The perforation 55 is between the antenna 30 and the sensor 40 or its conductor loop 45 arranged such that a violent tearing of the plastic tape 57 and thus removing the Smart Label housing 20 from the movable object 50 to a tearing and thus a severing of the conductor loop 45 of the sensor 40 leads.

Will the RFID transponder 11 in a violent way from the moving object 50 removed to the moving object 50 unnoticed to be transported out of the room, the RFID transponder becomes 11 not only of the moving object 50 but it must also be deposited within the room to the moving object without the RFID transponder 11 out of the room. This shows the advantage of the principle described here. It is preferred at locations which "hide" a violently remote RFID transponder 11 and its housing 20 particularly suitable, a presence sensor 130 comprising an antenna 160 and a reader coupled thereto 140 arranged, or it will be the antenna 160 together with a reader 140 arranged. The places vary in different rooms. For example, in dressing rooms or in baskets within a commercial area, antennas can 160 for the reader 140 to be ordered. Also the arrangement of the antennas 160 in shelves or reading areas of a library is possible. In museums it is possible the antennas 160 in the vicinity of the places of exhibition of the movable objects 50 to arrange.

Will be a violently removed RFID transponder 11 in the effective range of the antenna 160 deposited, receives the RFID transponder 11 over the electromagnetic field of the antenna 160 inductively electrical energy and sends information to the reader 140 , The reader 140 or a downstream data processing device 190 is the mounting location of the antennas 160 made known so that the information of the RFID transponder 11 a location information can be assigned. Is there an RFID transponder? 11 with its housing in the effective range of an antenna 160 , so an alarm can be triggered.

The sensor 40 senses the state of attachment of the RFID transponder 11 on the moving object 50 , The sensor 40 thus provides additional information, which by means of the RFID transponder 11 to the reader 140 be transmitted. For example, a data depth of one bit, with the values 0 or 1, is sufficient for this information. The information transponder on the mobile object can already be used with this data depth 50 , or transponder not on the moving object 50 describe sufficiently.

Will the RFID transponder 11 forcibly from the moving object 50 removed, so carries the RFID transponder 11 the information "Transponder not on the object" with it. If the RFID transponder arrives 11 in an effective range of an antenna 160 of the reader 140 This information is sent to the reader 140 transmitted. The reader 140 or also a downstream data processing device 190 is the mounting location of the antennas 160 made known so that the information of the RFID transponder 11 a location information can be assigned. Is the RFID transponder located? 11 with his case 20 in the effective range of an antenna 160 and is this forcibly of the moving object 50 removed, an alarm can be triggered.

The illustrated embodiment of the 1 shows the case 20 of the RFID transponder 11 designed as a so-called smart label. A smart label is a paper-thin transponder design. This will be the antenna 30 of the RFID transponder 11 For example, by screen printing or etching applied to a thin plastic sheet such as a conductor. This film is laminated with a paper layer. Also the sensor 40 which with the RFID transponder 11 coupled is included by means of a conductor loop 45 formed according to the variants just described. To put the smart label on the moving object 50 to arrange is for example a hole punching 55 provided by which by means of a plastic tape, or other tear-resistant material, the smart label is coupled to the movable object. The tearing off of the smart label then leads to the tearing of the smart label and thus to the severing of the conductor loop 45 , It is the one with the RFID transponder 11 coupled antenna 30 placed on the Smart Label so that it can not be cut by tearing off the Smart Label.

In another embodiment of the smart label is provided to coat the smart label with an adhesive and so form the smart label as an adhesive label, wherein when tearing the label from the goods also the conductor loop 45 is severed.

This in 2 schematically illustrated embodiment shows the housing 20 of the RFID transponder 11 as a break-proof plastic housing. This makes it possible to combine other types of fastening and sensor technologies. So is the RFID transponder with unbreakable plastic housings 11 with magnetic sensors 80 or coupled with capacitive sensors. In particular, if the case 20 is made in two parts. In this case, a first housing part 60 the RFID transponder 11 and the one with the RFID transponder 11 coupled sensor 40 , A second housing part 70 includes a permanent magnet 90 , The housing 20 becomes on the moving object 50 attached in such a way that in the attached state of the permanent magnet 90 the magnetic sensor 80 stimulates. Both housing parts of the movable object 50 also removes the magnetic sensor 80 from the permanent magnet 90 not stimulated anymore. The sensor then forms the value "Transponder not on the object". If the RFID transponder arrives 40 in an effective range of an antenna 160 of the reader 140 This information is sent to the reader 140 transmitted. This information can be used to trigger an alarm, as described above.

With capacitive sensors this can be solved in a similar way. This is done on each housing part 60 / 70 a capacitor plate of the capacitive sensor is formed. If the two housing parts are arranged on the moving object, the capacitance of the capacitor thus formed is highest. If the capacity decreases, this is the RFID transponder 11 removed from the goods.

The two-piece housing variant not only leaves the exemplified magnetic sensors or capacitive sensors but basically also allows other sensor technologies use. Which sensor technologies are used is also depending on the type and material of the movable object, since this can affect the effectiveness of the sensors.

The 2 thus shows another embodiment of the housing 20 for the RFID transponder 11 , Regardless of the other embodiment of the housing 20 is the one in the 2 shown RFID transponder 11 also with an antenna 30 coupled. In this embodiment is as a housing 20 for the RFID transponder 11 a solid plastic housing provided. This is with a first housing part 60 and a second housing part 70 educated. In the first housing part 60 is the RFID transponder 11 , the conductor loop 45 for the sensor 40 , as well as the sensor 40 embedded. The sensor 40 is in this embodiment as a magnetic sensor 80 educated. In the second housing part is a permanent magnet 90 arranged. The second housing part 70 is with the first housing part 60 so connected that with the connection also an attachment of the housing 20 on the goods 50 is possible. An intentional, unintentional or unauthorized disconnection of the housing 20 from the goods 50 This leads to a separation of the two housing parts 70 and 60 from each other. Are both housing parts 60 and 70 connected, it is in the first housing part 60 arranged magnetic sensor 80 so in the force field 100 of the permanent magnet 90 arranged that by means of the magnetic force of the permanent magnet 90 the sensor 40 responds. This means the magnetic sensor 80 , which is formed, for example, as a reed contact, closes an electrical contact as long as the magnetic force of the permanent magnet 90 acts on the reed contact. This is the sensor conductor loop 40 closed. A violent separation of the two housing parts 60 and 70 from each other leads to a resolution of the force field 100 and thus to an opening of the electrical contact in the magnetic sensor 80 ,

The consequences of forcibly removing the RFID transponder 11 from the movable object 50 is for the embodiment of 1 in the 3 shown. The 3 shows one of the holes 55 outgoing cracking 110 through the smart label housing 20 of the RFID transponder 10 and thus a separation of the conductor loop 45 of the sensor 40 ,

The situation is similar in 4 shown embodiment 2 after removing the RFID transponder 11 from the movable object 50 , There is the second housing part 70 separated from the first housing part 60 what a resolution of the force field 100 between the permanent magnet 90 and the magnetic sensor 80 leads. The magnetic field sensor 80 opens the one formed by him Contact after the elimination of the magnetic force field 100 , causing the conductor loop 45 of the sensor 40 is disconnected. Accordingly, for the embodiments of the 1 to 4 after the separation of the RFID transponder 11 with his case 20 from the movable object 50 , the RFID transponder 11 the information "conductor loop interrupted" and thus, "RFID transponder is no longer on the moving object" imprinted.

The 5 and 6 show embodiments of the already in 1 and 2 shown means 10 with an additional power supply 120 which is formed from a battery. The additional energy supply 120 allows longer ranges between the RFID transponders 11 and a reader 140 associated antenna 160 , The by means of the antenna 160 Electrically transmitted energy to the transponder becomes active with active RFID transponders 10 with an additional power supply 120 used only as a wakeup signal. The operation of the RFID transponder 10 takes place by means of the additional power supply 120 ,

The 7 shows an example of the dressing rooms 150 within a trading area readers in particular their antennas 160 include. For example, it is advantageous in the clothing trade, preferably in the area of the locker room 150 an antenna 160 the readers 140 to order and so a "trap" for violent of the goods 50 remote RFID transponders 10 to build. In the environment of the changing rooms, various places are possible to which readers 140 but above all their antennas are unobtrusively mountable. This is how, for example, the floor of a dressing room 150 provided with an antenna, so that the entire changing room is illuminated by the antenna. Also in the locker room 150 arranged paper or garbage bin 170 can be used as an antenna of a reader 140 be formed, in which case, for example, the entire trash 170 from the antenna 160 is illuminated. Furthermore, under the partitions 180 which each individual dressing room 160 surround, antennas 160 to be ordered. The clever attachment of the readers 140 , or their antennas 160 causes according to the principle of the trap position that the separated RFID transponder 11 in the reception area of such an antenna 160 and thus the RFID transponder 11 can be read out. Because the RFID transponder 11 then the information "Transponder no longer s.der commodity" carries in itself, this information to the reader 140 transmitted, or from the reader 140 from the RFID transponder 11 read.

The 8th shows a system with the RFID transponder 11 which in the housing 20 is embedded. The RFID transponder 11 is in the effective range of the antenna 160 of the reader 140 stored. The reader 140 is with a data processing device 190 coupled. By means of the data processing device 190 is a data management operated, which sites of individual readers 140 and their antennas 160 are made known. By means of a comparison of the data can be so with the data processing device 190 quickly determine if the RFID transponder 11 from the movable object 50 was replaced, and where the RFID transponder 11 located. According to predetermined or predeterminable criteria, an alarm device can use this data by the data processing device 200 to be activated.

10

medium

11

RFID transponder

20

casing

30

antenna of the RFID transponder

40

sensor

45

conductor loop of the sensor

50

Goods / Portable object

55

perforation

60

first housing part

70

second housing part

80

Magnetic sensor / reed contact

90

permanent magnet

100

magnetic force field

110

cracking

120

additional power supply

130

presence sensor

140

reader

150

changing room

160

antenna of the reader

170

waste paper bin

180

partition wall

190

Data processing device

200

alarm device

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited non-patent literature

• - Klaus Finkenzeller; RFID Handbook; 2nd Edition; Verlag Carl Hanser; 2000; Page 11-39 [0005]

Claims (11)

Electronic security system with, a means ( 10 ) which on a moving object ( 50 ) and data content, and a presence sensor ( 130 ), whereby the presence sensor ( 130 ) the data contents of the agent ( 10 ), characterized in that the presence sensor ( 130 ) is arranged at a predetermined location, wherein with the presence sensor ( 130 ) a predetermined reception range is formed, within which the data contents of the means ( 10 ) are readable, wherein the predetermined receiving range ( 170 ) spans a proportion of space within a room. Electronic security system according to claim 1, characterized in that the means ( 10 ) with a sensor ( 40 ), and the sensor ( 40 ) Provides information as to which part of the data content of the agent ( 10 ) and this information is a state of arrangement of the agent ( 10 ) on the movable object ( 50 ). Electronic security system according to one of the preceding claims, characterized in that the presence sensor ( 130 ) a reader ( 140 ) which is connected to at least one antenna ( 160 ) is included. Electronic security system according to claim 2, characterized in that the sensor ( 40 ) is a magnetic sensor, or a conductor loop, or a capacitive sensor. Electronic security system according to one of the preceding claims, characterized in that the means ( 10 ) in a housing ( 20 ), which is a smart label and a perforation ( 55 ) or an adhesive layer for fixing to the movable object ( 50 ) or the means ( 10 ) in a housing ( 20 ), which is a two-part plastic housing with a first housing part ( 60 ) and a second housing part ( 70 ) and wherein with a connection of the two housing parts ( 60 . 70 ) the housing 20 on the moving object ( 50 ). Electronic security system according to one of the preceding claims, characterized in that the means ( 10 ) an RFID transponder ( 11 ). Medium ( 10 ) for an electronic security system with wirelessly readable data content, characterized in that the means ( 10 ) a sensor ( 40 ), which provides information which part of the data content of the agent ( 10 ), and this information is a state of arrangement of the agent ( 10 ) on a movable object ( 50 ). Medium ( 10 ) according to claim 6, characterized in that the sensor ( 40 ) is a magnetic sensor, or a conductor loop, or a capacitive sensor. Method of electronically securing moving objects, in which a means ( 10 ) on a movable object ( 50 ) and an alarm can be triggered if the agent ( 10 ) of the movable object ( 50 ) and / or the agent ( 10 ) is stored at a predetermined location. Method according to claim 8, characterized in that the means ( 10 ) includes electronically readable data. Method according to claim 9, characterized in that the predetermined location is determined by means of a presence sensor ( 130 ) is monitored electronically.