JP2010207376A - Article display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an article display device for managing articles by using an electromagnetic wave tag, wherein a use amount of electromagnetic tags necessary for managing articles is suppressed to reduce the management cost of articles. <P>SOLUTION: A plurality of electromagnetic wave tags 26 are provided at an article display part 18 and the article display part 18 is constituted so that articles 3 are arranged on the upper surface, the articles 3 are provided with an obstruction part 14 for obstructing electromagnetic waves, and when the articles 3 are placed on the article display part 18, the obstruction part 14 approaches at least one of the electromagnetic wave tags 26 and electromagnetic waves of the electromagnetic wave tag 26 approached to the obstruction part 14 cannot be detected by using a display part antenna 6. A detection information processing means 23 estimates the number of articles 3 displayed on the article display part 18 on the basis of a change of detection information inputted. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a product display device that is installed in a store or the like and displays products.

  Conventionally, in order to perform inventory management of products displayed on a product shelf (product display unit) in a showcase, an RFID tag (electromagnetic wave tag) attached to each product and each product shelf There is an inventory management system including an antenna unit that reads a unique number stored in an RFID tag and a computer (detection information processing means) that manages the unique number read by the antenna unit (for example, Patent Document 1).

JP 2008-206696 A (pages 3, 4 and 1)

  However, in the inventory management system described in Patent Document 1, each time a product arrives, an RFID tag must be attached to each product, and the same number of RFID tags (electromagnetic wave tags) as the number of products received There is a problem that the usage amount of the RFID tag increases and the management cost of the product increases.

  The present invention was made paying attention to such problems, and in a product display device that manages products using electromagnetic tags, suppressing the amount of electromagnetic tags used to manage products, An object of the present invention is to provide a merchandise display device that can reduce merchandise management costs.

In order to solve the above-described problem, a product display device according to claim 1 of the present invention provides:
A plurality of products, a product display unit for displaying the product, a display unit antenna provided in the product display unit for detecting electromagnetic waves emitted by the electromagnetic wave tag, and detection information based on the detection of the electromagnetic waves are input. A product display device comprising detection information processing means,
A plurality of the electromagnetic wave tags are provided on the product display unit, and the product display unit is configured such that the product is arranged on an upper surface thereof, and the electromagnetic wave is applied to an upper surface of the product display unit or the product. When an obstructing portion is provided, and when the product is arranged in the product display portion, the obstructing portion is close to at least one electromagnetic wave tag among the plurality of electromagnetic wave tags, and the electromagnetic wave is close to the obstructing portion. The electromagnetic wave of the tag cannot be detected using the display antenna, and the detection information processing means calculates the number of products of the product displayed on the product display unit based on the change of the input detection information. It is characterized by estimation.
According to this feature, when the product is arranged close to the electromagnetic wave tag in the product display part, the electromagnetic wave of the corresponding electromagnetic wave tag is disturbed by the disturbing part, and the display part antenna cannot detect the electromagnetic wave. As the detection state of the electromagnetic wave emitted from the electromagnetic wave tag changes, the detection information processing means can estimate the quantity of products arranged in the product display section by grasping the change in the input detection information. Therefore, it is possible to manage the products placed in the product display section without attaching an electromagnetic wave tag to each product, reducing the amount of electromagnetic tags used to manage the product, and managing the product cost. Can be reduced. In addition, since the electromagnetic wave tag and the display portion antenna are provided in the product display portion in a state in which they are close to each other, it is possible to prevent undetected and erroneous detection of electromagnetic waves emitted by the electromagnetic wave tag.

The product display device according to claim 2 of the present invention is the product display device according to claim 1,
The display antenna detects a damped vibration wave of an electromagnetic wave emitted by the electromagnetic wave tag, and inputs the damped vibration wave as the detection information to the detection information processing means. The number of products of the product displayed in the product display unit is estimated based on an increase or decrease in the input damped vibration wave.
According to this feature, it is possible to provide the detection information processing means with a simple configuration that simply compares the damped vibration wave, and it is possible to use a resonance tag that can be manufactured at a low cost as an electromagnetic wave tag. The installation cost of the apparatus can be reduced.

The product display device according to claim 3 of the present invention is the product display device according to claim 1,
The electromagnetic wave tag stores identification information for identifying each electromagnetic wave tag, and the display antenna detects the identification information of the electromagnetic wave tag and inputs the identification information as the detection information to the detection information processing means. The detection information processing means estimates the number of products of the product displayed in the product display unit based on the number of identification information input.
According to this feature, by grasping the increase / decrease in the number of identification information identifying each electromagnetic wave tag, it becomes possible to accurately grasp the number of electromagnetic wave tags whose electromagnetic waves cannot be detected by the disturbing part, and the electromagnetic waves cannot be detected. Based on the number of electromagnetic wave tags, the number of products displayed in the product display section can be estimated.

A product display device according to claim 4 of the present invention is the product display device according to any one of claims 1 to 3,
The condition is that the current number of products estimated when the detection information is detected using the display unit antenna is smaller than the previous number of products estimated by the detection information when detected last time. And a decrease determination unit that determines that the number of products has decreased, and a notification unit that performs notification when a value obtained by subtracting the number of the current product from the previous number of products is equal to or greater than a predetermined threshold. It is characterized by that.
According to this feature, it is possible to detect and notify that the number of products has decreased by a predetermined threshold value or more. Therefore, a product that can discriminate between an action with a high possibility of shoplifting for a large number of products such as separating products above a predetermined threshold and a behavior with a high possibility of normal shopping such as separating products with less than a predetermined threshold. A display device can be provided.

It is a perspective view which shows the goods display shelf in Example 1. FIG. It is a vertical side view which shows a goods display shelf. It is a disassembled perspective view which shows the structure of an antenna unit. It is the elements on larger scale which show the structure of an antenna unit. It is a partially broken top view which shows an antenna unit. It is a perspective view which shows the resonance tag affixed on the bottom face of goods. It is a circuit diagram which shows the structure of a resonance tag. It is a block diagram which shows the structure of a goods display shelf. It is a flowchart of the mass shoplifting monitoring process performed in a shelf control circuit. It is a figure which shows the waveform of each electromagnetic wave processed with a shelf control circuit. It is a last time state table in which tag ID of goods in Example 2 is memorized. It is a block diagram which shows the structure of a goods display shelf. It is a perspective view which shows the RFID tag affixed on the bottom face of goods. It is a circuit diagram which shows the structure of a RFID tag. (A) is a perspective view which shows the state in which the goods in Example 3 are displayed on the upper surface of a surface board, (b) is a perspective view which shows the state from which the goods were taken up from the upper surface of the surface board. . It is a perspective view which shows the obstruction part in Example 4. FIG. It is a side view which shows the up-and-down rocking | fluctuation of an obstruction part. (A) is a perspective view which shows the state in which goods are displayed on the upper surface of a surface board, (b) is a perspective view which shows the state in which goods were taken up from the upper surface of the surface board.

  EMBODIMENT OF THE INVENTION The form for implementing the goods display apparatus which concerns on this invention is demonstrated below based on an Example.

  The product display device according to the first embodiment will be described with reference to FIGS. Reference numeral 1 in FIG. 1 is a merchandise display shelf to which the merchandise display apparatus of the present invention is applied. This merchandise display shelf 1 is connected to a management computer 2. Furthermore, a monitoring camera 7 for monitoring the merchandise display shelf 1 is connected to the management computer 2. The merchandise display rack 1, the management computer 2 and the surveillance camera 7 are mainly installed in merchandise stores such as convenience stores and drug stores. Monitoring is performed for each product 3 displayed on each shelf board 4 so as to prevent mass shoplifting in which a product 3 such as a medicine is shoplifted in large quantities by a theft group or the like.

  As shown in FIG. 1, a plurality of (four in this embodiment) shelf boards 4 are attached in the vertical direction of the commodity display shelf 1. This shelf board 4 is comprised with metal materials, such as steel and aluminum. Further, the side plates 5 attached to the left and right sides of the shelf plate 4 are also made of a metal material such as steel or aluminum. Hereinafter, since each shelf board 4 has the same configuration except that the displayed products 3 are different in size, number and the like, the uppermost shelf board 4 will be described in the present embodiment.

  As shown in FIG.2 and FIG.3, the shelf board 4 is formed in the rectangular shape by planar view with a flat upper surface. On the upper surface of the shelf plate 4, an antenna unit 8 is disposed as a product detection unit in the plate-like embodiment. The antenna unit 8 includes a surface plate 18 as a product display portion formed of wood or a resin material, a bottom plate 19 formed of the same material as the surface plate 18, and a sheet-like embodiment. And a ferrite sheet 20 as a magnetic member. And the antenna unit 8 is arrange | positioned in the state which made the lower surface of the ferrite sheet 20 contact | abut on the upper surface of the shelf board 4 comprised from the metal material.

  On the upper surface of the bottom plate 19, a plurality of shelf antennas 6 are arranged in parallel in the left-right direction as display antennas in the present embodiment for managing the products 3 displayed on the upper surface of the surface plate 18. A terminal portion 19 a for connecting a connection cable 12 described later is provided at the rear end portion of the bottom plate 19.

  As shown in FIGS. 1 and 2, a warning monitor 9 is provided at the upper end of the back plate 11. As will be described later, when mass shoplifting occurs, a message such as “monitoring camera in operation” is displayed on the warning display 9 by the monitoring camera 7 on the warning monitor 9, a picture taken by the monitoring camera 7, or the like. The thief is now informed of the monitoring. Thus, the monitoring camera 7 and the warning monitor 9 constitute the notification means in this embodiment. In addition, you may alert | report that shoplifting generate | occur | produced with the sound.

  Furthermore, the inside of the bottom shelf 4 of the merchandise display shelf 1 is formed hollow, and a control unit 10 that performs monitoring processing for mass shoplifting by controlling each shelf antenna 6 is provided therein. Yes. In addition, the inside of the back plate 11 of the commodity display shelf 1 is formed to be hollow. A connection cable 12 connected to the control unit 10 is disposed inside the back plate 11, and the connection cable 12 includes an antenna unit 8 on each shelf plate 4 and a warning monitor 9 at the upper end of the back plate 11. It is extended toward and.

  The connection cable 12 is connected to a terminal portion 19 a provided on the bottom plate 19. The control unit 10 is individually connected to each shelf antenna 6 via the connection cable 12 and the terminal portion 19a, and the control unit 10 is connected to each shelf via the connection cable 12 and the terminal portion 19a. The antenna 6 can transmit and receive electromagnetic waves and can supply power. In addition, the product display apparatus in the present embodiment mainly includes the antenna unit 8 and the control unit 10 described above.

  Further, as shown in FIG. 1, the control unit 10 is connected to the management computer 2 via a connection cable 13 extending outside the commodity display shelf 1, and is connected to an indoor outlet via a power cable (not shown). Power is supplied from an external power source.

  As shown in FIG. 5, each shelf antenna 6 provided on the top surface of the bottom plate is configured as a loop antenna having a loop shape. Each shelf antenna 6 is formed in a trapezoidal shape having a substantially square shape in plan view. Specifically, each shelf antenna 6 has a front side L1 and a rear side L2 that are parallel to each other. Further, the side sides of the respective shelf antennas 6 are inclined so as to intersect with a vertical line V extending rearward from the front side of the shelf plate 4.

  In this embodiment, the side of the shelf antenna 6 intersects the perpendicular V at an angle of 10 ° to 45 °. The crossing angle may be any angle as long as the side edges of the shelf antenna 6 do not cross the perpendicular V at least at a right angle. Further, the shape and size of the shelf antenna 6 may be changed as appropriate in accordance with the dimensions of the product 3 displayed on the shelf board 4.

  And the shelf antenna 6 formed in this way is arrange | positioned on the upper surface of the bottom face board 19, with the sides adjoining, and is arrange | positioned so that the front-back direction of the trapezoid shape may become alternate. That is, the length of each front side L1 and the length of each rear side L2 in each shelf antenna 6 are arranged alternately. Note that the two shelf antennas 6 arranged at the left and right ends of the upper surface of the bottom plate 19 have sides that are parallel to the left and right sides of the shelf 4.

  As shown in FIG. 1, the product 3 is displayed on the entire upper surface of the surface plate 18 on the upper surface of the surface plate 18. As shown in FIGS. 4 and 5, a shelf-plate resonance tag 26 formed in a square shape (rectangular shape) in plan view as an electromagnetic wave tag in the present embodiment is provided on the lower surface of the surface plate 18. . The shelf resonance tags 26 are arranged in parallel across the entire surface plate 18 in the left-right direction. The shelf-plate resonance tag 26 is arranged to face the shelf antenna 6 provided on the upper surface of the bottom plate 19 by superposing the front plate 18, the bottom plate 19 and the ferrite sheet 20. .

  These shelf-plate resonance tags 26 are arranged in a plurality of rows (four rows in this embodiment) in parallel in the front-rear direction on the lower surface of the surface plate 18. In addition, the arrangement of the first and third rows in the front-rear direction and the second and fourth rows in the front-rear direction attached to the lower surface of the front plate 18 is 2 The rows and the fourth row are affixed to the lower surface of the surface plate 18 so as to be displaced in the left-right direction with respect to the first row and the third row.

  Note that the first and third row shelf resonance tags 26 are attached to the lower surface of the surface plate 18 so that the side 26 a is parallel to the side and front side of the surface plate 18. The shelf resonance tags 26 in the first row and the third row are arranged apart from the shelf resonance tags 26 adjacent in the left-right direction by a predetermined distance X. As shown in FIG. 5, the sides 26a, 26a facing each other in the front-rear direction of the first and third rows of shelf resonance tags 26 are separated by a predetermined distance Y.

  Further, the second and fourth row shelf resonance tags 26 are attached to the lower surface of the surface plate 18 in a state of being rotated 45 degrees with respect to the first and third row shelf resonance tags 26. It has been. Therefore, the side edges 26b of the second and fourth row shelf resonance tags 26 are not parallel to the side edges 26a of the first and third row shelf resonance tags 26. It is like that. By attaching the shelf resonance tag 26 to the lower surface of the front plate 18 in this way, the range in which the side edges 26a, 26b of the adjacent shelf resonance tags 26 are close to each other and parallel is reduced. In addition, a plurality of shelf-plate resonance tags 26 can be arranged on the surface plate 18.

  As shown in FIG. 5, the first and third shelf resonance tags 26 in the first row and the third row of the front plate 18 have parallel sides 26a and 26a facing each other. When the resonance tags 26 are arranged close to each other, the electromagnetic induction generated by the resonance between the coil antenna 16 and the capacitor 15, which will be described later, causes electromagnetic induction in the coil antenna 16 of the adjacent resonance tag for shelf plate 26. There is. However, in this embodiment, the adjacent side plates 26a, 26a of the adjacent shelf resonance tags 26 are separated from each other by a predetermined distance X, so that the influence of electromagnetic induction on the adjacent shelf resonance tags 26 is increased. Can be suppressed.

  Similarly, the sides 26a, 26a facing each other in the first row of shelf resonance tags 26 and the third row of resonance tags 26 for the shelf are also separated by a predetermined distance Y. The influence of electromagnetic induction on the other shelf-plate resonance tag 26 of one shelf-plate resonance tag 26 can be suppressed even between the shelf-plate resonance tag 26 and the third-row shelf-plate resonance tag 26. it can.

  Further, the side edges 26a and 26b are not parallel between the second and fourth row shelf resonance tags 26 and the first and third row resonance resonance tags 26 for the shelf. Therefore, it is possible to suppress the influence of electromagnetic induction exerted on one shelf resonance tag 26 by the other shelf resonance tag 26. Further, since the second and fourth rows of shelf resonance tags 26 are opposed to the shelf resonance tags 26 adjacent on the left and right only at a square apex in plan view, the shelf plates adjacent on the left and right. The influence of electromagnetic induction on the resonance tag 26 can be suppressed.

  As shown in FIG. 6, the product resonance tag 14 is attached to the lower surface of the product 3. The product resonance tag 14 is detected by a security gate or the like provided at an entrance of a product sales store or the like, and constitutes a part of a shoplifting prevention device that performs notification by a buzzer or the like. The product resonance tag 14 is affixed to the product 3 when the product 3 is displayed on the product display shelf 1, and is removed from the product 3 and reused when accounting at a cash register or the like.

  The product resonance tag 14 has the same configuration as the shelf resonance tag 26 attached to the lower surface of the surface plate 18. Furthermore, these resonance tags 14 and 26 have a built-in resonance circuit 17 in which a capacitor 15 and a coil antenna 16 for obtaining an induced electromotive force by a change in magnetic flux are connected in parallel. The coil antenna 16 of the resonance circuit 17 has a shape wound along the sides of the resonance tags 14 and 26. The size and shape of the coil antenna 16 are the same as the size and shape of the resonance tags 14 and 26 themselves. It is almost the same.

  Although not particularly illustrated, the product resonance tag 14 is attached to the lower surface of the product 3 via a ferrite sheet having the same configuration as the ferrite sheet 20 constituting the antenna unit 8 when the product 3 is made of metal. By doing so, the electromagnetic wave emitted from the coil antenna 16 on the metallic product 3 is not disturbed.

  When the product 3 to which the product resonance tag 14 is attached is displayed on the upper surface of the surface plate 18, the shelf resonance tag 26 and the product resonance tag 14 come close to each other. When the shelf resonance tag 26 and the product resonance tag 14 are brought close to each other, a phenomenon occurs in which it becomes impossible to receive the damped vibration wave between the shelf resonance tag 26 and the shelf antenna 6. .

  That is, reception of the damped vibration wave between the shelf resonance tag 26 and the shelf antenna 6 is obstructed by the product resonance tag 14. This product resonance tag 14 constitutes a disturbing portion in this embodiment. In this embodiment, the product resonance tag 14 forms a disturbing portion using only its metal characteristics, and the resonance function of the product resonance tag 14 itself is not particularly necessary.

  Further, as shown in FIGS. 2 and 4, when the product 3 is picked up from the upper surface of the surface plate 18, the shelf resonance tag 26 and the product resonance tag 14 attached to the lower surface of the product 3 are separated from each other. It is supposed to be. When the shelf resonance tag 26 and the product resonance tag 14 are separated from each other, the attenuation vibration wave can be received between the shelf resonance tag 26 and the shelf antenna 6.

  And the control part 10 monitors the goods 3 currently displayed on the goods display shelf 1 indirectly by detecting these resonance tags 26 for shelves with each shelf antenna 6. Specifically, as illustrated in FIG. 10, the shelf antenna 6 is configured to intermittently output a transmission electromagnetic wave that is a high-frequency electromagnetic wave (radio wave) according to the transmission enable of the control unit 10. This transmitted electromagnetic wave has a resonance frequency at which the coil antenna 16 in the resonance circuit 17 resonates. At this time, in the resonance circuit 17, the coil antenna 16 and the capacitor 15 are resonated by the transmission electromagnetic wave transmitted from the shelf antenna 6 to be coupled by electromagnetic induction.

  Further, when transmission of the transmission electromagnetic wave is stopped, a damped vibration wave as detection information in the present embodiment is induced in the product resonance tag 14 due to the resonance phenomenon of the coil antenna 16 and the capacitor 15. The shelf antenna 6 can receive the damped vibration wave of the tag according to the reception enable of the control unit 10, and receives the tag detection waveform different from the magnitude of the tag detection waveform and the previous state. Based on the number of 6, the shoplifting is monitored to perform mass shoplifting monitoring.

  Note that transmission enable and reception enable of the control unit 10 are alternately repeated, and transmission and reception by the shelf antenna 6 are alternately repeated at regular intervals. Note that the interval between transmission and reception by the shelf antenna 6 can be appropriately changed depending on the form of the store, the business hours, the type of the product 3, and the like.

  In this embodiment, the detection distance of the shelf antenna 6 is about 3 cm above the shelf antenna 6 because the transmission electromagnetic wave is used with a weak output. The detection distance of the shelf antenna 6 can be appropriately changed by adjusting the output of the transmission electromagnetic wave.

  Next, the system configuration of the commodity display device in the present embodiment will be described. As shown in FIG. 8, the control unit 10 performs control and various processes of the storage unit 22 that stores the tag detection waveform received using the shelf antenna 6 as a digital signal and each device of the product display shelf 1. And a shelf control circuit 23 as detection information processing means in the present embodiment.

  The control unit 10 is connected to a management computer 2 installed in a store office, an antenna unit 8 having a shelf antenna 6 disposed on the upper surface of each shelf board 4, and a warning monitor 9. ing. Each shelf antenna 6 of the antenna unit 8 transmits a transmission electromagnetic wave to the shelf resonance tag 26 that is individually attached to the lower surface of the surface plate 18 and receives a damped oscillation wave from the shelf resonance tag 26. Thus, the product 3 displayed on the shelf board 4 is monitored.

  Although not particularly shown in the figure, the control unit 10 includes D.I. D. S (direct digital synthesizer) and a power amplifier for obtaining a predetermined transmission power by the transmission electromagnetic wave are provided.

  In addition, although not particularly illustrated, the control unit 10 extracts only a damped vibration wave of the shelf resonance tag 26 from a plurality of types of electromagnetic waves received by the shelf antenna 6, and a shelf board extracted by the tuning circuit. A high-frequency amplifier that amplifies the damped vibration wave of the resonant tag 26, a frequency converter that converts the damped vibration wave of the shelf resonance tag 26 amplified by the high-frequency amplifier to a constant low frequency regardless of the frequency, and a frequency conversion And an intermediate frequency amplifier for amplifying the damped vibration wave of the shelf resonance tag 26 frequency-converted by the instrument to a level that can be demodulated.

  Further, the shelf control circuit 23 includes an absolute value converter that converts an absolute value of the damped vibration wave of the shelf resonance tag 26 demodulated by the intermediate frequency amplifier, and a shelf plate that has been subjected to absolute value conversion. An AD converter that performs AD conversion (analog / digital conversion) on the damped vibration wave of the resonance tag 26, and a digital that performs arithmetic processing on the tag detection waveform of the damped vibration wave of the shelf resonance tag 26 converted into a digital signal by AD conversion. And a signal processor. Therefore, the shelf control circuit 23 can handle the tag detection waveform of the damped vibration wave of the product resonance tag 14 as a digital signal. Note that the shelf control circuit 23 AD-converts only the latter half (ad1, ad2) of the tag detection waveform (see FIG. 10).

  An example of the detection of the separation of the products 3 by the shelf antenna 6 will be described. As shown in FIG. 2, when the shopper picks up the product 3 on the upper surface of the surface plate 18, the shelf control circuit 23 outputs a plurality of tag detection waveforms of the shelf resonance tag 26 when the product 3 is picked up. The separation of the product 3 is detected by receiving with one shelf antenna 6 (see FIG. 8).

  Further, for example, when the three shelf antennas 6 detect the separation of the products 3, the shelf control circuit 23 adds up the number of the shelf antennas 6 from which the separation of the products 3 is detected, and the products 3 It can also be estimated that it was picked up. Thus, the shelf control circuit 23 detects how many products 3 have been picked up by customers from each antenna unit 8 by detecting the separation of the products 3 displayed on the upper surface of the surface plate 18 in various forms. Estimated.

  Next, the monitoring process for mass shoplifting as management of the product 3 in this embodiment, which is executed by the shelf control circuit 23 of the control unit 10 in this embodiment, will be described in detail.

  In the present embodiment, for each shelf antenna 6, a transmission electromagnetic wave is transmitted to the shelf resonance tag 26 and a damped vibration wave transmitted from the shelf resonance tag 26 is received. Each shelf antenna 6 repeats transmission of a transmission electromagnetic wave and reception of a damped vibration wave at regular intervals. Then, the tag detection waveform of the damped vibration wave received this time from the shelf resonance tag 26 is compared with the tag detection waveform of the damped vibration wave received last time, and there is a difference between the two tag detection waveforms at each shelf antenna 6. Whether or not the product 3 displayed on the upper surface of the surface plate 18 is present is detected.

  Specifically, first, the shelf control circuit 23 receives a damped vibration wave by transmitting a transmission electromagnetic wave from each shelf antenna 6 to each resonance tag 26 for each shelf, and generates a tag detection waveform processed as a digital signal. It is stored in the storage unit 22 as the previous state.

  Then, the transmission electromagnetic wave is again transmitted from each shelf antenna 6 to the shelf resonance tag 26 after a certain interval, and the received digital signal of the tag detection waveform of the damped vibration wave is set as the current state and stored in the storage unit 22 last time. By comparing the magnitude of the tag detection waveform with the digital signal in the state, the shelf control circuit 23 determines whether or not the product 3 has been picked up from the upper surface of the surface plate 18.

  At this time, if the size of the tag detection waveform in the current state is smaller than the size of the tag detection waveform in the previous state, the estimated number of products 3 displayed on the upper surface of each surface plate 18 in the current state is the previous state. Thus, the shelf control circuit 23 determines that there are more than the estimated number of products 3 displayed on the upper surface of the front plate 18.

  If the size of the tag detection waveform in the current state is larger than the size of the tag detection waveform in the previous state, the estimated number of products 3 displayed on the upper surface of each surface plate 18 in the current state is the previous state. The shelf control circuit 23 determines that the number is less than the estimated number of products 3 displayed on the upper surface of the surface plate 18. That is, the shelf control circuit 23 constitutes a decrease determination unit in the present embodiment.

  In the present embodiment, the estimated number of products 3 displayed on the upper surface of each surface plate 18 in the current state of the shelf control circuit 23 is the estimated number of products 3 displayed on the upper surface of the surface plate 18 in the previous state. On the condition that it is determined that the predetermined number (predetermined threshold value) is smaller than the shelf control circuit 23, the notification that performs the operation of the monitoring camera 7 and the display of the warning monitor 9 is performed.

  Next, the mass shoplifting monitoring process executed by the shelf control circuit 23 of the control unit 10 in this embodiment will be described based on the flowchart of FIG.

  First, in step Sa01, the shelf control circuit 23 transmits a transmission electromagnetic wave from the predetermined shelf antenna 6 toward each shelf plate resonance tag 26 using each shelf antenna 6. When each shelf antenna 6 receives the damped vibration wave from each shelf resonance tag 26, the shelf control circuit 23 demodulates the damped vibration wave and then converts the tag waveform, which is the waveform of the damped vibration wave, into a digital signal. Then, the tag waveform and the shelf antenna 6 that has received the damped vibration wave are stored in the storage unit 22 in association with each other as the tag waveform of this time (when detected by the shelf antenna 6). It should be noted that transmission of electromagnetic waves transmitted from each shelf antenna 6 and reception of damped vibration waves from the resonance tag 26 for the shelf are performed in a time of about 10 milliseconds, and the shelves of all the shelf plates 4 are received in less than 1 second. Transmission / reception of the antenna 6 is completed.

  In step Sa02, the shelf control circuit 23 received the digital signal of the tag waveform received this time stored in the storage unit 22 and the previous signal received in the previous time (one second ago) and already stored in the storage unit 22. Compare with digital signal of tag waveform. Then, in each of the shelf antennas 6, it is determined whether there is a tag waveform received this time that is less than the tag waveform received last time.

  If there is even one shelf antenna 6 whose tag waveform received this time has increased by a predetermined amount from the tag waveform received last time, it is determined that the product 3 displayed on the shelf board 4 has been taken by the shopper. The process proceeds to step Sa03. In addition, if there is no shelf antenna 6 in which the tag waveform received this time has increased from the tag waveform received last time, it is determined that none of the products 3 displayed on the shelf board 4 has been taken by the shopper. , The process proceeds to step Sa06.

  When the store clerk displays the product 3 on the shelf board 4 or the like, when the product 3 is brought close to (contacts) the shelf board 4, the tag waveform received this time is reduced from the tag waveform received last time. Therefore, since it is determined that the number of products 3 displayed on the shelf board 4 has increased, the process proceeds to step Sa06.

  In step Sa03, the shelf control circuit 23 subtracts the digital signal of the tag waveform received last time from the digital signal of the tag waveform (base waveform) received this time for each of the shelf antennas 6 to obtain the difference waveform in this embodiment. A tag difference waveform is generated (see FIG. 10). The tag difference waveform is generated as a digital signal.

  In step Sa04, the shelf control circuit 23 measures the size of the tag difference waveform for each shelf antenna 6 and determines whether there is a shelf antenna 6 in which the size of the tag difference waveform is larger than a predetermined amount. Determine. In addition, the magnitude | size of the tag difference waveform when the some goods 3 are taken by the shopper from the upper surface of the surface board 18 is set as a predetermined threshold value. The predetermined threshold value can be changed as appropriate by testing the size and type of the product 3 and the number of products 3 taken in advance. In addition, when one product 3 is taken from the shelf 4 by the shopper, it is determined that it is a normal shopping act, and therefore, a predetermined threshold value is set rather than the size of the tag difference waveform detected at that time. Is set to be large.

  When there is a shelf antenna 6 in which the size of the tag difference waveform is larger than a predetermined threshold value, it is determined that the shop is a mass shoplifting in which a plurality of products 3 on the upper surface of the surface plate 18 are taken in large quantities. Proceed to step. If there is no shelf antenna 6 in which the size of the tag difference waveform is greater than the predetermined threshold, it is not determined that the shoplifting is in large quantities, and the process proceeds to step Sa06.

  In step Sa05, the shelf control circuit 23 determines that there is an abnormal situation in which a large number of products 3 are separated from the product display shelf 1, that is, mass shoplifting, and operates the monitoring camera 7 and displays the warning monitor 9. Note that the operation of the monitoring camera 7 and the display of the warning monitor 9 are automatically terminated and return to a standby state after a predetermined time has elapsed. Alternatively, a store clerk or the like may operate the monitoring camera 7 and the warning monitor 9 from the management computer 2 to return to the standby state.

  In step Sa06, the shelf control circuit 23 deletes the previously received tag waveform from the storage unit 22, and stores the tag waveform of the damped vibration wave received this time in the storage unit 22 in a state corresponding to each shelf antenna 6. The process is stored and the process is terminated, and the process returns to the step of Sa01.

  As described above, in the product display device according to the present embodiment, when the product 3 is arranged close to the shelf resonance tag 26 in the surface plate 18, the electromagnetic wave of the corresponding shelf resonance tag 26 is transmitted by the product resonance tag 14. The shelf antenna 6 cannot detect the electromagnetic wave due to the interference, the detection state of the electromagnetic wave emitted by the plurality of shelf resonance tags 26 changes, and the control unit 10 grasps the change of the input damped vibration wave. Thus, the quantity of the products 3 arranged on the surface plate 18 can be estimated. Therefore, the product 3 arranged on the surface plate 18 can be managed, and the same electromagnetic wave tag can be repeatedly used rather than attaching the electromagnetic wave tag necessary for managing the product 3 to the product side and making it disposable. It is possible to reduce the management cost of the product 3 by suppressing the amount of use of the electromagnetic wave tag. Moreover, since the shelf resonance tag 26 and the shelf antenna 6 are provided on the surface plate 18 in a state where they are close to each other, the shelf plate generated when the electromagnetic wave (radio wave) emitted from the shelf antenna 6 is too strong or too weak. The undetected and erroneous detection of the electromagnetic wave of the resonance tag 26 can be prevented.

  The shelf antenna 6 detects a damped vibration wave of the electromagnetic wave emitted by the shelf resonance tag 26 and inputs the damped vibration wave to the control unit 10 as detection information. The shelf control circuit 23 Since the number of products 3 displayed on the surface plate 18 is estimated based on the increase or decrease of the damped vibration wave, the shelf control circuit 23 is provided with a simple configuration that simply compares the damped vibration wave. It is possible to use the shelf resonance tag 26 for shelf boards that can be manufactured at low cost as an electromagnetic wave tag, and the device cost and operation cost of the commodity display device can be reduced.

  Moreover, on condition that the current number of products estimated when the damped vibration wave is detected using the shelf antenna 6 is smaller than the previous number of products estimated by the damped vibration wave at the previous detection. A shelf control circuit 23 for determining that the number of products has decreased, and a monitoring camera 7 and a warning monitor 9 for informing when a value obtained by subtracting the number of current products from the previous number of products exceeds a predetermined threshold. Furthermore, by providing, it can detect and notify that the number of goods decreased more than the predetermined threshold value. Therefore, an action that has a high possibility of shoplifting for a large amount of products 3 such as separating products 3 that are greater than or equal to a predetermined threshold is distinguished from an action that has a high probability of normal shopping such as separating products 3 that are less than a predetermined threshold. A possible commodity display device can be provided.

  Next, a commodity display device according to a second embodiment will be described with reference to FIGS. In addition, the same structure as the said Example is abbreviate | omitted.

  As shown in FIG. 13, a product RFID tag 27 as an obstructing portion in the second embodiment is individually attached to the lower surface of the product 3. The product RFID tag 27 is affixed to the product 3 when the product 3 is displayed on the product display shelf 1 at a product sales store. Further, on the lower surface of the front plate 18, a plurality of shelf RFID tags 28 as electromagnetic wave tags in the second embodiment having the same configuration as the product RFID tag 27 are provided in the same manner as the shelf resonance tag 26 in the first embodiment. It is pasted.

  As shown in FIG. 12, the system configuration of the product display device in the second embodiment is that the shelf resonance tag 26 in the first embodiment is replaced with a shelf RFID tag 28 and the product resonance tag 14 in the first embodiment. Is replaced with the product RFID tag 27, and the other system configuration is the same as that of the first embodiment (see FIG. 8).

  The product RFID tag 27 has the same configuration as the shelf RFID tag 28 attached to the lower surface of the front plate 18. As shown in FIG. 14, the RFID tags 27 and 28 include an IC chip 29 in which information is stored, and a coil antenna 30 for transmitting and receiving information stored in the IC chip 29 using electromagnetic waves. Yes. Communication is possible between the coil antenna 30 and the shelf antenna 6 using electromagnetic waves. Note that the IC chip 29 of the RFID tags 27 and 28 stores a tag ID as detection information and identification information in the present embodiment that is uniquely given to the RFID tags 27 and 28.

  More specifically, the shelf RFID tag 28 uses the transmission electromagnetic wave transmitted from the shelf antenna 6 to cause the coil antenna 30 to generate power by electromagnetic induction, operate the IC chip 29, and reply using the coil antenna 30. This is a passive RFID tag that can transmit electromagnetic waves toward the shelf antenna 6 and reads information from the IC chip 29 by the shelf antenna 6 in a non-contact manner (wireless manner). And the control part 10 monitors the goods 3 currently displayed on the goods display shelf 1 by detecting tag ID by each shelf antenna 6 from these RFID tags 28 for shelves.

  On the other hand, the IC chip 29 of the product RFID tag 27 attached to the lower surface of the product 3 stores product information such as the price, date of manufacture, manufacturer, etc. of each product. Accounting processing is possible by reading product information from the chip 29 with a POS terminal or the like. The product RFID tag 27 is affixed to the product 3 when the product 3 is displayed on the product display shelf 1, and performs accounting processing by reading the tag ID of the product RFID tag 27 when accounting at a cash register or the like. At the same time, it is removed from the product 3 after accounting and reused.

  When the product 3 to which the product RFID tag 27 is attached is displayed on the upper surface of the surface plate 18, the shelf plate RFID tag 28 and the product RFID tag 27 come close to each other. When the shelf RFID tag 28 and the product RFID tag 27 are brought close to each other, a phenomenon that electromagnetic waves cannot be transmitted and received between the shelf RFID tag 28 and the shelf antenna 6 occurs.

  That is, transmission / reception of electromagnetic waves between the shelf RFID tag 28 and the shelf antenna 6 is blocked by the product RFID tag 27. This commodity RFID tag 27 constitutes a disturbing part in this embodiment. In the second embodiment, the product RFID tag 27 forms a disturbing portion using only its metal characteristics, and the tag ID of the product RFID tag 27 itself is not particularly necessary.

  Further, when the product 3 is picked up from the upper surface of the front plate 18, the shelf RFID tag 28 and the product RFID tag 27 attached to the lower surface of the product 3 are separated from each other. When the shelf RFID tag 28 and the product RFID tag 27 are separated from each other, electromagnetic waves can be transmitted and received between the shelf RFID tag 28 and the shelf antenna 6.

  And the control part 10 indirectly monitors the goods 3 currently displayed on the goods display shelf 1 by detecting these RFID tags 28 for shelves with each shelf antenna 6. As shown in FIG. 11, the storage unit 22 according to the second embodiment stores a previous state table in which tag IDs of the previous state are stored. Each antenna unit 8 is given an antenna unit ID which is a unique ID, and the antenna unit ID is associated with the tag ID detected in the previous state together with the position of the shelf board 4 arranged. Stored in the previous state table.

  In the second embodiment, when the shelf antenna 6 detects the tag ID as the current state, a comparison process is performed in which the detected tag ID is compared with the tag ID stored in the previous state table as the current state. At this time, the number of the products 3 displayed on the upper surface of the shelf board 4 can be estimated by comparing the tag IDs of the previous state and the current state.

  Further, for example, if the arrangement of the shelf RFID tags 28 is matched to the arrangement of the products 3, the product RFID tags 27 of the products 3 and the shelf RFID tags 28 are made to correspond one-to-one. By comparing the tag IDs of the previous state and the current state, the number of products 3 displayed on the upper surface of the shelf board 4 can be accurately grasped.

  As described above, in the product display device according to the second embodiment, the shelf RFID tag 28 stores the tag ID for identifying each shelf RFID tag 28, and the shelf antenna 6 is the tag of the shelf RFID tag 28. The ID is detected, and the tag ID is input to the shelf control circuit 2310 as detection information. The shelf control circuit 23 is a product displayed on the surface plate 18 based on the number of input tag IDs. 3, the quantity of the RFID tags 28 for shelf boards whose electromagnetic waves cannot be detected by the RFID tags 27 for goods can be determined by grasping the increase / decrease in the number of tag IDs for identifying the RFID tags 28 for each shelf board. Can be accurately grasped, and the number of products 3 displayed on the surface plate 18 can be estimated based on the number of RFID tags 28 for shelf plates that cannot detect electromagnetic waves.

  Next, a commodity display device according to Embodiment 3 will be described with reference to FIG. In addition, the same structure as the said Example is abbreviate | omitted.

  As shown in FIG. 15A, the product 3 ′ in the third embodiment is different from the first and second embodiments in that the product 3 ′ itself is an obstructing portion in the present embodiment configured by a metal member that shields electromagnetic waves. Of canned beverages (canned).

  As shown in FIG. 15A, the product 3 ′ is displayed on the upper surface of the surface plate 18, so that the product 3 ′ and the shelf resonance tag 26 attached to the lower surface of the surface plate 18 are mutually connected. It comes to be close. When the shelf resonance tag 26 and the product 3 ′ are brought close to each other, the electromagnetic wave is shielded by the product 3 ′, and the shelf antenna 6 cannot detect the electromagnetic wave of the shelf resonance tag 26.

  As shown in FIG. 15 (b), in a state where the product 3 ′ is removed from the upper surface of the surface plate 18, the product 3 ′ is separated from the shelf resonance tag 26, and the shelf antenna 6 is the shelf resonance tag. 26 electromagnetic waves can be detected.

  Next, a commodity display device according to Example 4 will be described with reference to FIGS. 16 to 18. In addition, the same structure as the said Example is abbreviate | omitted.

  As shown in FIGS. 16 and 17, the obstruction part 31 is attached to the upper surface of the surface plate 18 in the fourth embodiment corresponding to the position where the shelf resonance tag 26 is disposed. The disturbing portion 31 includes a sheet base material 32 formed of a material such as a synthetic resin, a metal electromagnetic wave shielding sheet 33 that is attached to the upper surface of the sheet base material 32 and interferes with electromagnetic waves, and a lower surface that is a surface plate. And a base 34 attached to the upper surface of 18.

  Further, the sheet base material 32 is partially bent to form a bent portion 35, and the sheet base material 32 is connected to the base 34 by attaching the bent portion 35 to the base 34. ing. The sheet base material 32 is swingably moved in the vertical direction with the bent portion 35 as an axis. In the state where the product 3 ″ is not placed on the obstruction part 31, the angle θ formed by the sheet base material 32 and the base 34 is an angle equal to or less than a right angle by the restoring force of the sheet base material 32. To maintain.

  As shown in FIG. 18A, the product 3 ″ is placed on the blocking unit 31, so that the blocking unit 31 swings downward. At this time, the electromagnetic wave shielding sheet 33 comes close to the plate resonance tag 26, and the electromagnetic wave is shielded by the electromagnetic wave shielding sheet 33, so that the shelf antenna 6 cannot detect the electromagnetic wave of the shelf plate resonance tag 26.

  As shown in FIG. 18B, in the state where the product 3 ″ is removed from the upper surface of the surface plate 18, the angle θ in the direction in which the electromagnetic wave shielding sheet 33 of the disturbing portion 31 is separated from the shelf resonance tag 26. The electromagnetic wave shielding sheet 33 and the shelf resonance tag 26 are separated from each other, so that the shelf antenna 6 can detect the electromagnetic waves of the shelf resonance tag 26.

  As described above, in Example 4, it is not necessary to attach the product resonance tag 14 or the product RFID tag 27 to the product 3 ″, or to configure the product 3 ″ itself with a metal member. The amount of use of the resonance tag 14 for a product and the RFID tag 27 for a product can be reduced.

  Although the embodiments of the present invention have been described with reference to the drawings, the specific configuration is not limited to these embodiments, and modifications and additions within the scope of the present invention are included in the present invention. It is.

  For example, in the embodiment described above, the shoplifting of the product 3 is monitored by detecting the electromagnetic wave generated by the shelf resonance tag 26 by the shelf antenna 6, but the shelf board 4 is not limited to monitoring the shoplifting. By displaying the estimated number of products on the management computer 2, a store employee or the like may be used as a management device that can check the stock of the products 3 displayed on the product display shelf 1.

  Moreover, in the said Example, while making the electromagnetic wave tag into the resonance tag 26 for shelf boards, the obstruction part is made into the resonance tag 14 for goods stuck on the goods 3, and in the said Example 2, an electromagnetic wave tag is RFID for shelf boards. While the tag 28 is used as the product RFID tag 27 attached to the product 3 as the disturbing part, the structure of the disturbing part only needs to prevent the shelf antenna 6 from detecting the electromagnetic wave of the electromagnetic tag. For example, the shelf electromagnetic wave tag may be used as the shelf resonance tag 26, and the interference unit may be the product RFID tag 27, and the shelf electromagnetic tag and the interference unit may be configured by different types of tags. . Further, the disturbing portion may be anything as long as it interferes with the electromagnetic waves detected by the shelf antenna 6, and may be, for example, a coil member that cancels the magnetic field due to the electromagnetic induction effect, or a metal seal that is attached to the product 3. .

  In the above embodiment, when the shelf control circuit 23 determines that a large number of products 3 are separated from the product display shelf 1, the shelf control circuit 23 operates the monitoring camera 7 and displays the warning monitor 9. When it is determined that a large number of products 3 are separated from the product display shelf 1, only the administrator may be notified on the management computer 2.

  Moreover, in the said Example, although the shape of the shelf antenna 6 is formed in the substantially square shape by planar view, the shape of the shelf antenna 6 may be a substantially triangular shape or a substantially parallelogram shape, and is at least a shelf antenna. Any shape may be used as long as the six sides have sides intersecting the perpendicular V.

  Moreover, in the said Example, although it arrange | positions so that the front-and-back direction of the trapezoid shape of each shelf antenna 6 may become staggered, it arrange | positions only the several shelf antenna 6 in which the front side L1 is longer than the rear side L2. Alternatively, only a plurality of shelf antennas 6 whose front side L1 is shorter than the rear side L2 may be arranged.

  Moreover, in the said Example 3, although the goods 3 'which makes a canned drink (canned food) is used as an obstruction part, for example, goods 3' is made into the drug product for general sales, and this drug product is made into aluminum etc. An inner bag (aluminum pack) on which metal is vapor-deposited and a cardboard outer box for storing the inner bag may be used, and the inner bag may be used as a disturbing portion.

1 Product display shelf 2 Management computer 3 Product 3 'Product (disturbance part)
3 '' product 4 shelf 6 shelf antenna (display antenna)
7 surveillance cameras (notification means)
8 Antenna unit (product detection unit, product display device)
9 Warning monitor (notification means)
10 Control unit (product display device)
14 Resonant tag for product (disturbance part)
18 Surface plate (product display section)
19 Bottom plate 20 Ferrite sheet (magnetic member)
23 Shelf control circuit (detection information processing means, decrease determination means)
26 Resonant tag for shelf board (electromagnetic wave tag)
27 Product-use RFID tags (interfering parts)
28 RFID tag for shelf board (electromagnetic wave tag)
31 Interference part 33 Electromagnetic wave shielding sheet (interference part)

Claims (4)

A plurality of products, a product display unit for displaying the product, a display unit antenna provided in the product display unit for detecting electromagnetic waves emitted by the electromagnetic wave tag, and detection information based on the detection of the electromagnetic waves are input. A product display device comprising detection information processing means,
A plurality of the electromagnetic wave tags are provided on the product display unit, and the product display unit is configured such that the product is arranged on an upper surface thereof, and the electromagnetic wave is applied to an upper surface of the product display unit or the product. When an obstructing portion is provided, and when the product is arranged in the product display portion, the obstructing portion is close to at least one electromagnetic wave tag among the plurality of electromagnetic wave tags, and the electromagnetic wave is close to the obstructing portion. The electromagnetic wave of the tag cannot be detected using the display antenna, and the detection information processing means calculates the number of products of the product displayed on the product display unit based on the change of the input detection information. A product display device characterized by estimating.   The display antenna detects a damped vibration wave of an electromagnetic wave emitted by the electromagnetic wave tag, and inputs the damped vibration wave as the detection information to the detection information processing means. The product display device according to claim 1, wherein the number of products of the product displayed in the product display unit is estimated based on an increase or decrease of the input damped vibration wave.   The electromagnetic wave tag stores identification information for identifying each electromagnetic wave tag, and the display antenna detects the identification information of the electromagnetic wave tag and inputs the identification information as the detection information to the detection information processing means. The detection information processing means is configured to estimate the number of products of the product displayed in the product display unit based on the number of identification information input. The product display device according to 1.   The condition is that the current number of products estimated when the detection information is detected using the display unit antenna is smaller than the previous number of products estimated by the detection information when detected last time. And a decrease determination unit that determines that the number of products has decreased, and a notification unit that performs notification when a value obtained by subtracting the number of the current product from the previous number of products is equal to or greater than a predetermined threshold. The product display device according to any one of claims 1 to 3.

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