NL1009332C2 - Theft prevention system for retail premises uses unit which combines functions of bar code reader and deactivation circuit for radio frequency loop labels - Google Patents

Abstract

The shop has detection gates (2) near the exits (1). These gates detect products being carried out before the radio frequency responder labels have been deactivated. At the check-out (3), each purchased object is passed over a unit (4) which scans the bar code label using a laser beam and also applies a pulse of high power radio frequency pulse to short circuit the circuit in the label.

Description

DEVICE AND METHOD FOR READING A BARCODE LABEL AND DEACTIVATING A MONITORING LABEL

The present invention relates to reading a barcode label and deactivating a surveillance label on a product.

Such a device is considered to be known from United States Patent Specification 5,059,951. A barcode reader for reading a barcode label affixed to a product is provided with an antenna system for emitting electromagnetic radiation. The antenna system is connected to a monitoring system located outside the scanner, which is used in known manner to deactivate surveillance labels affixed to an article. The advantage of this known device is that the deactivation of a surveillance label and the reading of a barcode label can be carried out essentially in the same place, ie at the checkout. A drawback of the known device, however, is that only the antenna system is arranged in the barcode reader, while the major part of the monitoring system is arranged outside it, which takes up a lot of (checkout) space and, moreover, makes the entire system vulnerable. Moreover, the known device is difficult to transport.

The object of the present invention is to overcome these drawbacks. The invention therefore relates to a device for reading a barcode label and deactivating a surveillance label on a product, comprising: - a house provided with at least one window; laser light transmitters mounted in the housing for transmitting laser light through the window; 1.0 0 9 332 2 - laser light receiving means disposed in the house for receiving laser light reflected from a barcode label; - electromagnetic radiation transmitting means arranged in the housing for emitting electromagnetic radiation; control means arranged in the housing for controlling the laser light transmitting means, laser light receiving means and electromagnetic radiation transmitting means.

By all installing laser light transmitting means, laser light receiving means, electromagnetic radiation transmitting means and the control means in the housing, a very compact, robust and easy to transport device is provided. Moreover, this achieves that all parts of the device can be fed in a simple manner with one power source.

In a preferred form of the invention, the control means alternately switch on and off the laser light transmitting means and / or the laser light receiving means on the one hand and the electromagnetic radiation means on the other. The alternating switching on and off has the advantage that when the electromagnetic radiation transmitting means emit radiation, the laser light transmitting and / or receiving means are switched off, so that damage to the laser light transmitting and receiving means, which are very sensitive to electromagnetic radiation, is avoided. One of the consequences of this is that the laser light transmitting and receiving means have a longer service life, which has great advantages in, for example, the retail business. This is particularly important in the present invention, since all parts are mounted in the housing itself.

In another preferred embodiment of the invention, the control means, after reading a barcode label correctly, switch off the laser light transmitting means and / or laser light receiving means, then on the electromagnetic radiation means and, after any deactivation of the associated active monitoring label, then the electromagnetic radiation.

In a further embodiment of the invention, the control means comprise one central processing means, ie the control of the laser light transmitting means, laser light receiving means and electromagnetic radiation transmitting means takes place from one central processing member. This has the advantage that the limited space available in the barcode reader is used optimally.

In another embodiment of the invention, the electromagnetic radiation transmitting means comprise a loop-shaped electromagnetic radiation antenna, which is preferably arranged around the window of the housing. This has, inter alia, the advantage that the antenna can be arranged in a simple manner in the barcode readers already known.

In a further preferred form of the invention, the radiation antenna is directly connected to a printed circuit board of the control means. By connecting the radiation antenna directly to the printed circuit board (printed circuit board) of the control means, maintenance and interference-sensitive connections between the antenna and the control means are reduced.

Moreover, the inductance and the resistance of the antenna and control means decrease.

In a further embodiment of the invention, electromagnetic radiation receiving means can be coupled to the control means for receiving electromagnetic radiation transmitted by a surveillance label. By also providing the device with receiving means for electromagnetic radiation, it can be checked whether the deactivation of an active surveillance label has succeeded or not. This has, inter alia, the advantage that the correct operation of the monitoring system is verifiable.

In a further embodiment of the invention, the control means can be coupled to communication means for communication between the control means and a main computer arranged outside the house, the communication means preferably comprising transmitters and receivers for wireless communication. By communication between the device and a preferably computerized main computer! data from the device and from the database, such as for example product data, are compared with each other in order to improve the operation. Thanks to wireless communication, the devices are highly transportable and flexible to use within the store.

The present invention also relates to a method for reading a barcode label and deactivating a surveillance label, comprising the following steps: a) enabling laser light transmitting means for transmitting a laser light and laser light receiving means for receiving reflected laser light ; b) determining the associated barcode from the laser light reflected from the barcode label; c) switching off the laser light transmitting means and / or the laser light receiving means; d) switching on electromagnetic radiation transmitting means for emitting electromagnetic radiation; e) sending a deactivation signal; f) switching off the electromagnetic radiation transmitting means.

In a further embodiment of the invention, the method after step d) comprises the following additional steps: - determining the presence of an active monitoring label (di); - if a surveillance label is present, continue with step e), otherwise switch off (dii) 1 of the electromagnetic radiation transmitting means and continue with step a).

1009332 i

J

5

In a further embodiment of the invention, the method after step e) comprises the following additional steps: - determining the presence of an active monitoring label (egg); - continue with step e) in the presence of an active monitoring label, otherwise continue with step f).

After step e), a further embodiment of the invention comprises the following additional steps: - determining the presence of an active monitoring label (egg); - increasing (eii) the energy content of the electromagnetic radiation to be emitted in the presence of an active monitoring label and continuing with step e), otherwise continuing with step f).

According to a further embodiment of the invention, the method also comprises comparing the barcode associated with a product and the presence or absence of a protection label with pre-stored product information.

In a further embodiment of the invention, the method also comprises signaling the successful decoding of a barcode label, the deactivation of a protection label and / or the determination of the presence of a protection label.

Further features, advantages and the like will be elucidated on the basis of the drawings, in which: figure 1 shows a view of a shop using the combined barcode reader and guard label deactivator; figure 2 shows a more detailed view of a preferred form of the combined barcode reader and deactivator; figure 3 is a view of figure 2, wherein a product provided with a barcode label and a surveillance label is moved over the device; 1 0 09332 6 - figure 4 shows a schematic block diagram of the components of the device; figure 5 shows a block diagram of the method according to the invention; Figure 6 shows a block diagram of a further embodiment of the method of figure 5; and figure 7 is a block diagram of a further embodiment of the method of figure 6.

Figure 1 shows a view of a shop or supermarket at the location of its exit. In many cases, the cash registers are located near the exit where items or products to be purchased by a customer are settled. The store is equipped with a theft protection system, also known as a 15 EAS (Electronic Article Surveillance) system. To this end, detection gates 2 are fitted at the doors of the entrance and / or exit 1, which the customer passes when entering or leaving the store. The detection ports 2 transmit and receive an electromagnetic field, with which the presence of an active surveillance label applied to a product can be detected. Such a security tag is affixed to at least some of the products in the store to be protected against theft, and is composed of a substantially flat printed circuit. The printed circuit preferably has a multilayer structure with a dielectric substrate, conductive layers of which are provided on both sides. These conductive layers with a dielectric in between form a cycle of a capacitor and a coil, also referred to as an LC circuit. The LC circuit preferably has a resonance frequency of approximately 8.2 MHz. When an item with an active surveillance label is brought out through, for example, a customer via the detection ports 2, the surveillance label is detected, a warning signal is given, for example a siren or flashing light, and the customer can be arrested by the shop staff.

1009332 7

When a customer wants to legally bring out a product or item, that is, when the customer has paid for it, the security label must either be physically removed or deactivated. A drawback of physically removing a security tag is that it is cumbersome and the item can be damaged thereby. The removal also takes a considerable amount of time. Therefore, it is preferable to deactivate a guard label. In a known solution for deactivating monitoring labels, the monitoring label contains an area in which the distance between the conductors on opposite sides of the dielectric substrate is reduced. Due to the reduced distance, when applying an electromagnetic field with a relatively high energy content, the LC circuit will be induced, with voltages of up to several hundred volts occurring. As a result of breakdown in the dielectric, a short circuit then occurs in the LC circuit of the monitoring label, as a result of which it is deactivated. It is noted that deactivation can also be performed in other ways.

A customer places the articles to be purchased on an endless belt 5 of a cash register 3. A cashier (not shown) moves (figure 3) each time an article 25 17 past an upright window 7 or a horizontal window 8 of a combined deactivator and barcode reader 4 (hereinafter referred to as combined scanner 4 for short). In another embodiment, the combined scanner 4 is included in the top of the cash register 3, whereby the upright window 7 has been omitted. A further embodiment relates to a combined hand scanner, which can be brought manually to the article 17 to be settled. Figure 3 shows how an article 17 with a barcode label 15 on the underside 35 applied is moved over the window 12 of the combined scanner 4. It is noted here that the barcode label may, in addition to being in the form of a label affixed to the article 17, also form part of the (printing on the) printing of the article 17. After reading the barcode label 15, determine the the associated barcode and the deactivation of the active monitoring label 16 present, the cashier handles a subsequent article 10. In the above manner, therefore, in one act, that is, the movement of an article 17 over! a window 12 of a scanner 4, both determining the barcode of a barcode label 15 affixed to a product 17 and deactivating the monitoring label 16.

Figure 3 shows an article 17, where the barcode label 15 and the surveillance label 16 are affixed to the article 17 at different locations. However, it is also possible to affix the barcode label 15 over the surveillance label 16, so that the latter is hidden from the view of the customer.

Via connection 6 between scanner 4 and cash register 7 and via connection 8 between a (storage medium of a) host computer and the cash register 7, on which storage medium data is stored, such as the price of the product associated with a particular barcode, name of the product , etc., the cash register 7 is informed that the client wants to buy a certain product with a certain price. Connections 6 and 8 are preferably performed wirelessly for optimum flexibility in placing the equipment.

Figure 4 schematically shows the construction of the combined scanner 4. The scanner 4 is controlled by a control in the form of a central microcontroller 20. The microcontroller 20 is connected via connection 23 to deactivation circuits 24, which in turn are coupled to an antenna 13. The deactivation circuits include, among other things, a pulse generator, with which an electromagnetic signal (electromagnetic field) is emitted via antenna 13. The microcontroller 35 is coupled via connection 25 to the laser light transmitter (s) and laser light receiver (s). Preferably, the microcontroller 20 is also linked via connection 27 to presence detection equipment 28 for detecting the presence or absence of an active (i.e., non-deactivated) monitoring tag 16. The presence detection equipment 28 is connected to a separate antenna (not shown) or to a common antenna 13 which is also coupled to the deactivation circuits 24. Preferably, the microcontroller 20 is also connected via connection 29 to signaling means 30, such as, for example, a loudspeaker for outputting a sound signal.

Furthermore, the microcontroller 20 is coupled to a single power supply 21, which also supplies the other components of the scanner 4 with power supply. Finally, the microcontroller 20 can be connected via connection 22 to the outside world (outside the housing 10 of the scanner 4), for example with a cash register 7 or an external host computer 9.

In a further preferred embodiment of the invention, an antenna 13 is arranged in the horizontal part of the housing 10 of the combined scanner 4, mainly along the edges of the window 12 thereof. The antenna is directly connected, i.e. without additional wiring, to (the deactivation circuits of) the printed circuit 14. This causes less inductance and resistance of the antenna 13. 25 In the housing 10 of the scanner 4, therefore, the integrated functions of reading barcode labels and deactivating surveillance labels. This has the advantage, and in particular that the scanner 4 can be of very compact design. Moreover, this has the advantage over, for example, scanners in which the deactivation circuit 24 is placed outside the housing 10, that the scanner 4 according to this embodiment is easy to transport and is moreover insensitive to malfunction, since all the parts required for scanning and deactivation are located within the housing 10 of the scanner 4. It is also an advantage that it is possible to suffice with fewer components, such as for instance a single power supply 1009332 10 21 instead of two separate power supplies, whereby an economic advantage can be obtained.

In order to provide, in addition to the above advantages, an increased life of the laser light transmitter and receiver of the scanner 4, the deactivation of a surveillance label 16 and the reading of a barcode label 15 is performed alternately, that is, one after the other. When this is carried out simultaneously, the life of the laser light transmitter and / or receiver can be limited by the large currents (many amperes) that will run in the deactivator.

Figure 5 shows a flow chart in which the method according to the invention is explained. In step a), microcontroller 20 switches the laser-15 light transmitter for transmitting laser light and the laser light receiver for receiving laser light reflected by a barcode label 15. By moving an article 17 provided with a barcode label 15 along the window 12 of the scanner 4, the barcode corresponding to the laser light reflected from the article 17 (b) is determined in a conventional manner. Optionally, after reading the barcode label, it can be verified (b1) whether a correct barcode associated with the barcode label has been determined. If not (N), an attempt is again made to determine the 25 barcode (b). If the barcode has not yet been determined after a preset number of attempts, it is possible, for example, to manually enter the barcode or article data, after which the next article is processed. Otherwise (Y), the laser light transmitters and / or laser light receivers are then turned off (c), after which the microcontroller 20 controls the deactivation circuit 24, which in turn applies voltage to the antenna 13 (d). The antenna 13 hereby emits an electromagnetic signal which induces the active monitoring label 16, if any, applied to the article 17, so that, if the deactivation is correctly operated, a short circuit occurs in the LC circuit, as a result of which the monitoring label 16 is deactivated. . Subsequently (f) the microcontroller 20 switches off the deactivation circuit 24, after which a subsequent article can be processed.

Figure 6 shows a flow chart for a further embodiment of the invention. After the aforementioned step d), it is first determined i whether there is an active surveillance label 16 on the article 17 (di). When a monitoring label 16 is present (Y), a deactivation signal (e) is sent, which deactivates the monitoring label 16, at least when correctly functioning. However, if it is determined that there is no guard label 16 (N) on the article 17, the microcontroller 20 disables the deactivation circuits 24 and the cashier can handle a subsequent article.

Determination of the presence of a surveillance label 16 takes place with a receiver 28, which is connected via connection 27 to the microcontroller 20 of the scanner 4. First, the microcontroller 20 controls the deactivation circuit 24 via connection 23, whereby antenna 13 produces an electromagnetic signal. whose energy content is, however, less than that of a deactivation signal. The LC circuit of the monitoring label 16 is induced by this signal, but no short-circuit will occur. The receiver 28, which is preferably also mounted in the housing 10 of the scanner 4, detects the presence or absence of an active monitoring tag 16 and sends information about it via connection 27 to the micro-30 controller 20, which then determines that at presence of an active monitoring label 16, this must be deactivated and, in the absence of an active monitoring label 16, the deactivation circuits 24 can be deactivated. Then it is switched on (a) to switch on the laser light receivers for reading the barcode label 15 of a subsequent product.

Figure 7 shows a flow chart of a further preferred embodiment of the invention, in which between the sending of a deactivation signal (e) and the deactivation of the deactivation circuit 24 (f) in the above manner, the presence of a surveillance label 16 is determined. If the monitoring label is no longer present or is at least deactivated (N), the deactivation of the deactivation circuits 24 (f) is continued. However, if an active monitoring label 16 is still present (Y), it can be concluded that deactivation of the monitoring label 16 in 10 step (e) was unsuccessful. Therefore, a deactivation signal is again emitted, preferably with a larger energy content, in order to try again to deactivate the guard label 16. This is repeated until the monitoring label 16 is actually deactivated, or, when the monitoring label 16 is difficult or impossible to deactivate, for example, until a predetermined number of repetitions has been reached. After this, the deactivation circuits 24 are turned off and the next article is handled. If, after a predetermined number of repetitions, the deactivation of a particular security label is unsuccessful, a warning signal can be issued, after which the security label can be removed manually by authorized shop personnel. Hereafter is continued with the handling of a subsequent article.

Preferably, the microcontroller 20 sends information about the presence or absence of an active monitoring tag 16 to the host computer 9. The host computer 9 compares this information with product data previously stored in the memory or on the storage medium of the host computer 9. This product data consists, for example, of relationships between barcodes and the names and prices of the associated articles. In this way it can be checked, for example, whether a previously agreed percentage of the products is actually provided with surveillance labels by the supplier.

In a further embodiment the microcontroller thus communicates with the host computer 9 after correctly determining a barcode -10 09 3 32 13. If it appears that the article 17 associated with the determined barcode is of a type that does not have a monitoring label 16, for example because it is an inexpensive item, the procedure of deactivating the guard tag (steps cf in the block diagrams of figures 4, 5 and 6) can be omitted, which increases the speed of handling of a customer.

►10 0 9 3 3 2 »

Claims (17)

Device for reading a barcode label and deactivating a security label on a product, comprising: - a house provided with at least one window; 5. laser light transmitting means disposed in the housing for transmitting laser light through the window; laser light receiving means arranged in the housing for receiving laser light reflected by a barcode label; 10. electromagnetic radiation transmitting means disposed in the housing for the emission of electromagnetic radiation; control means arranged in the housing for controlling the laser light transmitting means, laser light receiving means and electromagnetic radiation transmitting means. 2. Device as claimed in claim 1, wherein the control means alternately switch on and off the laser light transmitting means and / or the laser light receiving means on the one hand and the electromagnetic radiation transmitting means on the other hand. 3. Device as claimed in claim 2, wherein the control means after correctly reading a barcode switching off the laser light transmitting means and / or laser light receiving means 25, then switching on the electromagnetic radiation transmitting means and then switching off the electromagnetic radiation means after deactivation of the associated monitoring label. Device as claimed in any of the foregoing claims, wherein the control means comprise one central processing member. The device of any preceding claim, wherein the electromagnetic radiation transmitting means comprises looped electromagnetic radiation antenna. 6. Device as claimed in claim 5, wherein the radiation antenna is arranged around the window of the housing. Device as claimed in claim 5 or 6, wherein the radiation antenna is directly connected to a printed circuit board of the control means. 8. Device as claimed in any of the foregoing claims, wherein electromagnetic radiation receiving means can be coupled to the control means for receiving electromagnetic radiation transmitted by a surveillance label. 9. Device as claimed in any of the foregoing claims, wherein communication means can be coupled to the control means for connecting the control means to a main computer arranged outside the housing. 10. Device as claimed in claim 9, wherein the communication means comprise transmitters and receivers for wireless communication. 11. Device as claimed in any of the foregoing claims, further comprising signaling means for signaling correct reading of a barcode and / or deactivation of a surveillance label. A method for reading a barcode label and deactivating a monitoring label, comprising the following steps: a) turning on laser light transmitting means 30 for transmitting a laser light and laser light receiving means for receiving reflected laser light; b) determining the associated barcode from the laser light reflected from the barcode label; c) switching off the laser light transmitting means and / or the laser light receiving means; d) switching on electromagnetic radiation transmitting means for emitting electromagnetic radiation; 1009332 ί e) sending a deactivation signal; f) switching off the electromagnetic radiation transmitting means. 13. Method as claimed in claim 12, after step d) the following additional steps comprising of: - determining the presence of a! active surveillance label (di); - if a surveillance label is present, continue with step e), otherwise switch off (dii) of the electromagnetic radiation transmitting means and continue with step a). Method according to claim 12 or 13, after step e) the following additional steps comprising of: - determining the presence of an active monitoring label (egg); continue with step e) in the presence of an active surveillance label, otherwise continue with step f). Method according to claim 12 or 13, after 20 step e) the following additional steps comprising: - determining the presence of an active monitoring label (ei) / - increasing it in the presence of an active monitoring label (eii) of the energy content of the electromagnetic radiation to be transmitted and continuing with step e), otherwise continuing with step f). 16. A method according to any one of claims 12-15, comprising comparing the barcode associated with a product and the presence or absence of a protection label with pre-stored product information. A method according to any one of claims 12-16, wherein the determination of a barcode indicates the deactivation of a protection label and / or the determination of the presence of a protection label. 1 0 09332 i