WO2018042068A1 - Dispositivo con ventana rfid acoplable a la embocadura de un carro de compra u otro contenedor y método de identificacion - Google Patents
Dispositivo con ventana rfid acoplable a la embocadura de un carro de compra u otro contenedor y método de identificacion Download PDFInfo
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- WO2018042068A1 WO2018042068A1 PCT/ES2017/070591 ES2017070591W WO2018042068A1 WO 2018042068 A1 WO2018042068 A1 WO 2018042068A1 ES 2017070591 W ES2017070591 W ES 2017070591W WO 2018042068 A1 WO2018042068 A1 WO 2018042068A1
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- window
- rfid
- frame
- antennas
- car
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Classifications
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07G—REGISTERING THE RECEIPT OF CASH, VALUABLES, OR TOKENS
- G07G1/00—Cash registers
- G07G1/0036—Checkout procedures
- G07G1/0045—Checkout procedures with a code reader for reading of an identifying code of the article to be registered, e.g. barcode reader or radio-frequency identity [RFID] reader
- G07G1/0081—Checkout procedures with a code reader for reading of an identifying code of the article to be registered, e.g. barcode reader or radio-frequency identity [RFID] reader the reader being a portable scanner or data reader
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06K—GRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
- G06K7/00—Methods or arrangements for sensing record carriers, e.g. for reading patterns
- G06K7/10—Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation
- G06K7/10009—Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation sensing by radiation using wavelengths larger than 0.1 mm, e.g. radio-waves or microwaves
- G06K7/10316—Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation sensing by radiation using wavelengths larger than 0.1 mm, e.g. radio-waves or microwaves using at least one antenna particularly designed for interrogating the wireless record carriers
- G06K7/10356—Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation sensing by radiation using wavelengths larger than 0.1 mm, e.g. radio-waves or microwaves using at least one antenna particularly designed for interrogating the wireless record carriers using a plurality of antennas, e.g. configurations including means to resolve interference between the plurality of antennas
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q20/00—Payment architectures, schemes or protocols
- G06Q20/08—Payment architectures
- G06Q20/20—Point-of-sale [POS] network systems
- G06Q20/208—Input by product or record sensing, e.g. weighing or scanner processing
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07G—REGISTERING THE RECEIPT OF CASH, VALUABLES, OR TOKENS
- G07G1/00—Cash registers
- G07G1/0036—Checkout procedures
- G07G1/0045—Checkout procedures with a code reader for reading of an identifying code of the article to be registered, e.g. barcode reader or radio-frequency identity [RFID] reader
- G07G1/009—Checkout procedures with a code reader for reading of an identifying code of the article to be registered, e.g. barcode reader or radio-frequency identity [RFID] reader the reader being an RFID reader
Definitions
- the object of the present invention relates to a device with an RFID window (Radio Frequency IDentif cation), that is, a radio frequency identification window, attachable to a supermarket shopping cart or another container, capable of detecting the introduction or Extraction of products with RFID tags efficiently, and with sufficient security, to allow automated payment or mere recording of the electronic shopping list that computes the device itself with RFID window, so that the list of products identified in An electronic file corresponds to the products in the cart, or in another container, that have passed through the device window, and to the identification method.
- RFID window Radio Frequency IDentif cation
- the present invention offers to the food distribution sector (supermarkets, stores, etc.), such as a drastic decrease in sales costs, reuse of personnel costs in boxes for other value-added tasks , removal of the queues in the payment boxes due to the suppression of the dismantling of the car by the customer, the scanning of products by the cashier or cashier and again the recharging of the car with the scanned products, the control of products perishable unitary in real time with the EPC code (Electronic Product Code, 'Electronic Product Code') stored in RFID tags, etc.
- EPC code Electronic Product Code, 'Electronic Product Code'
- Patent documents US 7443295 B2, US2009230643A1, US20080149710 A1, US20060208072 A1, US20030015585 A1 and PCT / US2015 / 042438 are known in the state of the art, where in some of the solutions provided coincide in the placement of UHF antennas in some or all of the side surfaces of the car at different heights, including the additional placement of an antenna on the floor of the car to increase the safety of reading RFID tags, which in any case does not occur with the necessary efficiency; and in others, the mere indication of the use of RFID sensors without the necessary description in figures of the placement of UHF or SHF antennas in the car or mobile basket, which is one of the critical factors for the effectiveness of the RFID technology In all cases, the occasional reading deficiencies, typical of RFID technology in an excessively open car geometry for the level of reliability that is required, produce a deviation from the shopping list (reading failures) that makes impracticable the payment automation to take it to a supermarket deployment level.
- the present invention offers the same advantages of automatic recording of the products introduced without scanning each product.
- the advantages offered by the present invention in the preparation of orders in electronic commerce with products labeled with RFID tags are: automatic identification and recording of the articles that pass through the window of the device, and which have just been introduced into the basket of a cart or directly in the box of an order; hands-free operator, dedicated to fit the products without scanning each item; and communication with the central system in real time of the loading of the items in the basket of a car or in the box of an order.
- the present invention offers advantages in any commercial, manufacturing or management environment, where an efficient system for the identification and recording of RFID tag products (food, manufactures, packages and postal envelopes, bags for transport) is required. of money, etc.) that are placed in a small container: a car basket, box, etc.
- the present invention solves the problems of the state of the art mentioned above, particularly in the food distribution sector, the most lagging in the adoption of RFID technology, where the forecasts of the consultants warn that the change of the identification of products with barcodes by RFID tags, will occur in the coming years thanks to the decrease in the cost of the RFID tag around 1 cent.
- a device with RFID radio frequency identification window attachable to the mouth of a shopping cart, such that it comprises a frame comprising a window (preferably of dimensions of 400x400 mm) crossed horizontally by a plurality of light rays coming from a photoelectric curtain (the photoelectric curtain must be provided with so that the light rays of said photoelectric curtain cover the entire surface of the space delimited by the window); an infrared sensor located on any one of the sides of a window frame; an RFID reader connected to at least two UHF antennas where the UHF antennas are located on opposite sides of the window frame and inclined at an angle "a" above the frame and whose radiation beams cover the window space; a processor connected to the infrared sensor, the photoelectric curtain and the RFID reader, where the infrared sensor is configured to detect at least one object approaching the window; UHF antennas are configured to activate when the infrared sensor detects the at least one approaching object; The RFID reader is configured to detect and identify a code (E
- the frame comprises a first power supply circuit configured to electrically disconnect the device with an RFID window when a plurality of carriages comprising a separating part are stacked, and a guide comprising a spring and a conductive metal part therein, where when stacking the carriages, the separating part of a first stacked carriage is configured to enter the guide of a second stacked carriage by compressing the spring with the conductive metal part, thus opening said first power supply circuit.
- the frame comprises a second power supply circuit configured to recharge an RFID window device power battery when a plurality of carriages are stacked, comprising an electrical connector, a groove connected to a positive pole and a groove connected to a negative pole, and a metallic flange connected to a positive pole and a metallic flange connected to a negative pole, where the metallic flange connected to a positive pole and the metallic flange connected to a negative pole of a first stacked carriage are configured to connect respectively to the groove connected to a positive pole and to the groove connected to a negative pole of a second stacked carriage, and in turn the electrical connector of the first stacked carriage is configured to connect to an external power supply.
- a second power supply circuit configured to recharge an RFID window device power battery when a plurality of carriages are stacked, comprising an electrical connector, a groove connected to a positive pole and a groove connected to a negative pole, and a metallic flange connected to a positive pole and a metallic flange connected to a negative pole, where the metallic
- the UHF antennas are configured to be activated during the detection of the object by the infrared sensor and while the photoelectric curtain is interrupted (therefore, no continuous radiation of the antennas is produced, thus avoiding rapid battery consumption and an environmental radiation overload that can produce unwanted neighborhood RFID tag readings), and are placed on a horizontal plane of the frame with an angle of inclination ⁇ with a value between 0 and 26 degrees and have a radiation beam width with respect to its vertical plane and its horizontal plane of ⁇ with a value between 80 and 150 degrees.
- the frame additionally comprises an LCD screen (Liquid Crystal Display, 'liquid crystal display') configured for displaying information of the objects inserted in the car, an active RFID tag configured for real-time identification and location of the car, a loudspeaker configured to issue vocalized information of interest to the car user, and a passive RFID tag configured for car identification in a payment zone.
- the RFID window device comprises at least four UHF antennas, selected between two to two, on opposite sides of the window frame, and arranged one on each side of the window frame.
- a shopping cart which has the RFID window device of the first aspect of the invention coupled.
- the carriage comprises a base, a front wall, two side walls and a rear wall where the rear wall comprises two side panels configured to open laterally and an upper panel configured to open vertically, in order to stack a carriage .
- an automatic payment point with RFID radiofrequency identification comprising the shopping cart defined in the second aspect of the invention.
- the automatic payment point comprises:
- a payment cabinet comprising:
- a floor scale connected to the computer, where the floor scale measures the weight of the car located in the bar structure;
- the computer sends to the local server: an identification number of the cabinet, the RFID code identifying a car, the weight of the car; and where the computer receives from the local server an instruction with which said computer operates the flip bar.
- the instruction received by the computer is to allow the car to exit if the weight calculated by the balance minus the car weight is equal to or approximate to the weight calculated by the central server based on the weights of the products contained in the car.
- an RFID radio frequency identification method which, by means of the RFID window device, is able to identify the products that cross the RFID window.
- the RFID identification method comprises the following phases: detecting at least one object that approaches the window of the device with an RFID window by means of the infrared sensor; in response to the detection of at least one object activate the UHF antennas; detect and identify a first code (EPC, or other type) of each RFID tag of the at least one object by means of the RFID reader and store said first code (EPC, or other type) in a processor file; In response to the interruption and restoration of the photoelectric curtain detect and identify a second code (EPC, or other type) of RFID tag.
- EPC first code
- a device with RFID radio frequency identification window attachable to a structure configured to house a container.
- the device comprises the same features as the device of the first aspect of the invention.
- a device with RFID radio frequency identification window attachable to a container comprises the same features as the device of the first aspect of the invention.
- a container structure is provided comprising the device according to the fifth aspect of the invention.
- a container comprising the device according to the sixth aspect of the invention.
- the device with RFID radio frequency identification window described in any aspect of the invention and for any embodiment can be applied to a multitude of structure and / or containers (boxes, etc.) for which it is desired to identify the products contained in the containers Therefore, the embodiments and aspects shown in this description should not limit the application of the invention to other containers with similar functionality.
- radio frequency within the UHF band 860-928 MHz has been described without this embodiment limiting the use of other frequencies such as 2.4 GHz, or even high frequencies SHF ("Super High Frequency).
- SHF Super High Frequency
- SHF antennas are used.
- the present invention is not limited to RFID chip tags integrated in different PCB (" Printed Circuit Borad ”) technologies, its design is equally effective with the emerging technology of chipless RFID tags (Chipless) printed with magnetic inks, nor is the use of the EPC (Electronic Product Code) used in this exemplary embodiment, being any other standard.
- RFID encoding Electronic Product Code
- the object of the present invention focuses exclusively on a device with an RFID window coupled to a shopping cart, or other type of container, which solves, efficiently and safely, the recording of the electronic list of products that a user introduces or removes from their cart when carrying out a conventional shopping practice without worrying about scanning any items.
- the original integration and arrangement of the sensors of the present invention represent an advance in the state of the art for the scope of that objective.
- Figure 1. 3D side view of a conventional car and another side view separately from the RFID window device.
- Figure 2. Shows the previous figure with the RFID window device already attached, as a ceiling, to the mouth of the carriage.
- Figure 3. 3D side views of the frame, and its final coupling as a roof in a conventional car. It is observed how the photoelectric curtain is arranged on the UHF antennas.
- Figure 4. It shows another embodiment in which it is observed how the photoelectric curtain is arranged on the window frame itself, instead of being arranged on the UHF antennas.
- Figure 5. Plan view of the upper part of the device with RFID window with the location and location of its components.
- Figure 6 Plan view of the lower part of the previous figure, where the wiring between the integrated electronic components is observed; the cable that leaves the device with an RFID window towards the solenoid circuit that slides a locking bolt; and the groove-flange mechanisms to interconnect devices with RFID window of stacked cars.
- Figure 7 - 3D side views of the device with RFID window coupled as a roof to a conventional car and in an open roof situation, showing the bottom of the device with RFID window with the two component access covers.
- Figure 8. 3D side view of the inclination of the UHF antennas in the frame, with the beam geometry of maximum radiation power density of the antennas in their vertical plane.
- Figure 9. 3D side view of the inclination of the UHF antennas in the frame, with the beam geometry of maximum radiation power density of the antennas in their horizontal plane.
- Figure 12. Side view of a carriage with the RFID window device with the detail of the solenoid wiring that extends or retracts a bolt for opening or closing the device with RFID window in the carriage.
- Figure 13 Shows the process of detecting a product inserted in a car with an RFID window device.
- Figure 14.- Shows the process of detecting a product extracted from a car with an RFID window device.
- Figure 15. It shows the automation of the payment of the products of a shopping cart with RFID window device, with an electronic means (bank card, mobile phone or other) through a payment cabinet, with control scale in the soil, according to the present invention.
- Figure 16. It shows a carriage with double side opening so that the carriages with an RFID window device can be stacked. Side panels and triangular top panel are observed.
- Figure 17. Plan view of two stacked cars with detailed figures of the electrical interconnection that establish the positive and negative cables of both frames for charging their batteries in parallel with an external power supply source, and the activation mechanism electrical components of the device with RFID window when released from its blockage in a car battery.
- Figure 18. Detailed drawings of the mechanism of electrical activation of the components of the device with RFID window when released from its blockage in a stack of cars. Detail of closing of the electrical power circuit with a bridge between the terminals of the positive battery cable, moved by a spring that returns to its initial state.
- Figure 19 Detailed drawings of the mechanism of electrical deactivation of the components of the RFID window device when locked in a car battery. Detail of the open electrical circuit of the power supply, with the suppression of the conductive metal part that connected the terminals of the positive battery cable, moved by the user's pushing force when stacking the car.
- Figure 20. Detailed drawings of the mechanism of electrical interconnection of the frames of the device with RFID window with stacked carriages for the connection of their batteries in parallel, preparing the car battery for recharging with an external power supply source.
- Figure 21. Shows an exemplary application of the device with RFID window, adapted to a fixed structure for the preparation of orders in an e-commerce logistics warehouse with mobile shelves of the Kiva Systems type, according to the present invention.
- FIG.2 A conventional carriage 2 with wheels is shown in FIG.2 to which the RFID window device 1 of the present invention has been attached as a ceiling.
- the RFID window device 1 comprises a frame 3 incorporating two hinges 41, which fix said frame 3 to the carriage 2 and allow the user to rotate and lift the frame 3 thanks to a handle 43 to the limit of an extendable arm 47 (up to approximate angle of 105 °) with respect to the opening surface of the carriage 2.
- the frame 3, in turn, remains locked to lift it with the handle 43 while a bolt 42 remains embedded in a bolt 45 pushed by a solenoid 46 that has been in the housing 44.
- the bolt 42 slides or retracts to lock or unlock the opening of the device with an RFID window 1 with respect to the carriage 2.
- the frame 3 has a window 6 in its central area that allows free access to the internal part of the cart basket 2.
- the surface of the space that delimits the window 6 is crossed horizontally by a plurality of rays of light coming from the beams of a photoelectric curtain 39 that serves as a barrier sensitive to the passage of any object towards the inside or outside of the carriage 2 through the window 6.
- an infrared sensor 36 comprising a emitting diode and another receiver, one next to the other.
- the frame 3 has two inclined rectangular protrusions 20 that house at least two UHF antennas 21, 24, an antenna on each inclined rectangular protuberance 20, although preferably four UHF antennas 21, 22,23,24.
- the inclined rectangular protuberance 20 located at the initial end of the frame 3 (near the handle 43) houses the rear antennas UHF 21, 22, while the end end houses the front antennas UHF 23, 24.
- the photoelectric curtain 39 may be arranged anywhere in the frame, above or below the antennas, even on the sides where there are no antennas, provided that on two of their opposite sides they cover the space that delimits the window 6.
- the frame 3 also comprises a housing 7 where electronic components such as an LCD screen 30 for displaying information of the products introduced in the basket of the car 2, offers, and any other incident or event are integrated of interest to the user of the car 2 in its purchase activity, a loudspeaker 35 and an active RFID tag 1 1 that emits a radio frequency signal that receive antennas receive at the heights of the supermarket or store, for the identification and positioning of the car 2 in real time with the object tracking technology RTLS (Real-time locating systems, 'Real Time Location Systems'), through a mobile asset tracking system in a central computer.
- RTLS Real-time locating systems, 'Real Time Location Systems'
- the frame 3 is constructed in one piece with plastic material of polyethylene, methacrylate or other of similar characteristics.
- FIG. 5 shows a plan drawing of the upper part of the frame 3 with its electronic components visible to the user: the LCD screen 30, the speaker 35, the active RFID tag 1 1, the passive RFID tag 12 for car identification 2 short distance in the payment area; the infrared sensor 36 with its two diodes, the groove connected to a positive pole 71, the groove connected to a negative pole 72 and the guide 73 which houses a spring 78 inside.
- the dimensions and geometry of the window 6, preferably square, of approximately 400x400 mm, the position and inclination of the UHF antennas 21, 22, 23 and 24 under the frame 3 and the angle and scope of the infrared sensor 36 make the device With RFID window 1 of the present invention have maximum efficiency to detect the passage of products with RFID tag through its window 6.
- the window 6 can also be rectangular, with dimensions approaching 400x400 mm which is the window size 6 more optimized for reading RFID tags with double antenna, both to resonate with the electromagnetic radiation or "far field" of the UHF antennas of the RFID 33 reader, and for inductive coupling with the magnetic field at short distance of the UHF antennas or "near field".
- the range of the dimensions of the sides of the rectangle of the window 6 which determine both the distance between the rear antennas 21, 22 and the front antennas 23, 24, as well as the width of the window 6, is between 330 and 550 mm or more, according to the dimensions of the carriage 2, with 400x400 mm being the exemplary embodiment of the present invention.
- FIG. 6 shows a plan drawing of the lower part of the frame 3 with a possible solution to the wiring of the components not visible to the user: the four inclined UHF antennas 21, 22, 23 and 24; 75 and 76 metal tabs that connect the positive wires and battery 34 negative to the terminals of its same pole in the groove connected to a positive pole 71 and the groove connected to a negative pole 72 of the RFID window device 1 of another stacked carriage 2; the separator piece 74 that is inserted into the guide 73 of another stacked carriage for electric deactivation of the device with RFID window 1; the electrical connector 77 to an external power supply source 90 for charging the batteries 34 of a car battery 2; the emitter / receiver linear 37 and the reflective linear 38 composed of catadioptric of the photoelectric curtain 39 (the reflective linear 38 is located on the side opposite to the emitter / receiver linear 37); Inside the housing 7 of the frame 3 are housed: the RFID reader 33 with anti-collision capacity and configuration, that is, with the ability to emit and receive electromagnetic radiation sequentially on each UHF
- the electrical deactivation of the device with RFID window 1 of a first carriage 2 of a row of stacked cars occurs when the carriage is introduced to the bottom of the structure that supports the row (forced by the mechanism of the purse to take out the user's currency) so that a flange of the structure would play the part of the separator 74 and be introduced in the guide 73 of the first carriage, opening the power supply circuit.
- SMA 27 connector SubMiniature version A, 'threaded connector for coaxial cable'
- a three-wire cable (VDC - Volts of Direct Current, 'Volts of Continuous Current'-, ground and signal) that terminates on the appropriate pins of the processor 31.
- VDC Volts of Direct Current
- 'Volts of Continuous Current'-, ground and signal a cable with three wires that terminates on the appropriate pins of the processor 31.
- HDMI Type A High-Definition Multimedia Interface, '' 7 "LCD screen
- Speaker 35 outputs a shielded two-wire cable that connects to the audio port of processor 31.
- Wireless communication is done through a WiFi adapter (Wireless Fidelity, standard for wireless networks) 32 connected to a USB port (Universal Bus Series, 'Universal Bus Series') of the processor 31.
- the devices are powered by the 3.7v Lithium Polymer (LiPo) battery 34 that connects to the circuit of protection of load (PCM) 29. From the battery 34 the positive and negative electrical cables 40 come out that connect in parallel to all the components that require direct feeding: LCD screen 30, processor 31 and RFID reader 33.
- LiPo Lithium Polymer
- the positive electrical cable 40 of the battery 34 that supplies power to the components first passes through the conductive metal part 79 between terminals housed in the guide 73 that opens or closes the electrical circuit as the car is stacked and locked, or is released and in use with all systems receiving battery power supply 34.
- the mechanism operates as shown in FIGs. 17 and 18.
- the processor 31 is connected to all the devices and sensors that the frame 3 incorporates, for the execution of a software that stores or eliminates in an electronic file the products with RFID label that enter or leave the basket of the car 2 through the window 6 of frame 3, prints on screen 30 of frame 3 various information of interest to the user of carriage 2; and emits from the loudspeaker 35 of the frame 3 various vocalized information of interest to the user of the carriage 2. From the processor 31 there is a cable with two wires 49 that activate the solenoid 46 of the lock 45.
- the positive cable 48 and the negative cable 50 for recharging the battery 34 leave the battery 34.
- the positive cable 48 connects with the metal flange connected to a positive pole 75, with the groove connected to a positive pole 71, and with the positive pole of the plug 77.
- the negative cable 50 connects with the metal flange connected to a negative pole 76, with the groove connected to a negative pole 72, and with the negative pole of the plug 77.
- the mechanism operates as shown in the FIGs. 17 and 20.
- FIG. 8 describes, in a preferred embodiment, the inclination of the UHF antennas 21, 22, 23 and 24 on the frame 3, and the height Hv resulting from said inclination, projecting the beam widths of the vertical plane of the antennas until their convergence on the window 6 mediatrix.
- the antennas could be located one on each side of the window frame 6.
- UHF antennas 21, 22, 23, 24 of radiation with respect to its vertical plane and its horizontal plane whose ⁇ can take any value between 80 ° and 150 ° or more, not having to be necessarily equal in both planes, and ⁇ between 0 and 26 ° or, or more embodiments with a window 6 which separates the rear side antennas 21, 22 of the front 23, 24 is greater than 400 mm.
- FIG. 9 results in a height Hh for the convergence of the limits of the two widths of the optimal horizontal radiation beam of two rectangular antennas of 155x100 mm 21, 22, with the same characteristics indicated in FIG. 8, in the same plane, aligned on its smaller side and separated by a distance of 10 mm.
- Figs. 10 and 1 1 the diagrams of far and near field radiation are described respectively, for the vertical planes V and horizontal H of the antennas 21, 22, 23, 24, with the same characteristics indicated in FIGs. 8 and 9.
- Window 6, preferably square and approximately 400x400 mm, is optimized for products to pass at a distance around half the wavelength of the UHF spectrum (900 MHz, 33 cm), and labels are used RFID whose UHF antenna element used in the tag can be in some embodiments a double resonance antenna that has sensitivity to operate in the 860-960 MHz far-field frequency band ("far field”), as in others lower of the near field (“near field”).
- Both are specifically and independently coupled to one or another field, depending on the distance, resulting in an electromagnetic coupling between the specific antenna of the RDIF tag and the antenna of the RFID reader 33 in the far field, and concurrently, a coupling inductive (exclusively magnetic field) between the other specific circuit of the RDIF tag and the antenna of the RFID reader 33 at near field distances below 20 cm (just over half of the wavelength used), which is the maximum distance at which a product with RFID tag will be placed at least one of the antennas 21, 22, 23, 24, when crossing the window 6 with dimensions of 400x400 mm in this exemplary embodiment. It is noted that in the case of using a higher frequency radiation (2.4 GHz or even greater with SHF), the dimensions of the window may be optimized to a size greater than 400 mm, and may cease to be a square window.
- FIG. 10-b A 3D drawing of a three-dimensional approximation of the maximum power lobe of the UHF 21 rear antenna is shown in FIG.
- FIG. 10 A diagram of the spirals of the magnetic field ("near field”) of the rear antenna UHF 22, limiting its effective range within the window 6 around 20 cm, limit agreed in the scientific community for a frequency of 900 MHz beyond which the sensitivity
- the RFID tag is fundamentally due to the electromagnetic coupling of the far field.
- a side view of a carriage 2 with the RFID window device 1 is shown in FIG.
- a plan drawing of the frame 3 is shown in FIG. 11-C, with an apparent superposition, not concurrent at the same time, of the near magnetic field diagrams of the four antennas UHF 21, 22, 23, 24.
- the housing 44 enclosing a solenoid 46 whose coil, magnetized with the power supply, retracts a bolt 42 releasing the bolt 45 for opening the device with RFID window 1 of the device can be seen enlarged carriage (FIG. 12-a); on the contrary, with the circuit open, bolt 42 slides in the bolt 45, driven by the internal springs or springs of the housing 44, preventing the normal opening of the device with RFID window 1 of the carriage 2.
- the housing 44 is part of the frame frame 3.
- the bolt 45 is attached to the carriage chassis 2.
- the automatic activity of the sensors controlled by the processor 31 of the device with RFID window 1 can be seen, the process of which automatically resolves the generation of a computer transaction of product entry with RFID tag in the cart 2.
- the heuristic process through which the electronic product entry transaction is determined in a file 311 of the processor 31, is performed by a specific software that listens non-linearly and recurrently to the events of the sensors through the input ports, their changes of state, the duration of the same and the unique identification data that have the labels recorded as RFID of products with EPC code.
- a flowchart in the figure shows a simplification of the main method for the control of sensory events that can ultimately determine an automatic product entry transaction 91 in the cart 2.
- the RFID tag (first EPC code) is read instantaneously before or while the user's hand crosses the window 6 with the product 100 (The method also works if one or more products are introduced at the same time, since the antennas can read one or several RFID tags at the same time), at which time the photoelectric curtain 39 is interrupted indicating the passage of object to its through.
- the interrupted photoelectric curtain 39 and the infrared sensor 36 will keep the electromagnetic radiation 200 of the UHF antennas 21, 22, 23, 24, together and in a supplementary manner, waiting to know if, after taking out the user's hand, an RFID tag (second EPC code) is re-read or not (the method also works if one or more products are removed at the same time, since the antennas can read the one or several RFID tags at a time).
- an RFID tag second EPC code
- the system determines a product entry in carriage 2, storing in a file 311 of the processor 31 a new product line introduced.
- the infrared sensor 36 is permanently active waiting for lighting alterations 360 in its radius of action, and that the RFID radiation 200 of the UHF antennas 21, 22, 23, 24 , it is only activated for the duration of the next object detection and, additionally, while the photoelectric curtain 39 is interrupted by an object passing through it.
- the photoelectric curtain 39 is permanently active signaling any passage through it.
- the automatic activity of the sensors controlled by the processor 31 can be seen, the process of which automatically resolves the generation of a product output transaction with RFID tag of the cart 2 .
- the flowchart in the figure shows a simplification of the main procedure for the control of the sensory events that can finally determine an automatic product exit transaction 92 of the cart 2.
- the user enters his hand, in this case, without any product (the case of a concurrent extraction and after a product entry in the same cycle has already been described in FIG. 13).
- the infrared sensor 36 converts the reflected light 360 of the product and the hand into electrical current which, finally, results in the sending of a signal that warns the processor 31 of a nearby object .
- This signal activates the UHF antennas 21, 22, 23, 24, which are inside the frame 3. In this case, the UHF antennas 21, 22, 23, 24, will not detect any RFID tag (a first code is not detected EPC).
- the photoelectric curtain 39 is interrupted indicating the passage of the object through it. While the user's hand is kept inside the cart 2, the interrupted photoelectric curtain 39 and the infrared sensor 36 will keep the electromagnetic radiation 200 of the UHF antennas 21, 22, 23, 24, together and in a supplementary manner, waiting to know if, after taking the user's hand, an RFID tag (second EPC code) is read again or not. In the event that when the photoelectric curtain 39 is restored, no RFID tag is read, the system leaves the exit process and is placed in an earlier stage of the cycle.
- an RFID tag second EPC code
- the process checks if said EPC code was already in the file 311 of previous entry transactions in car 2, in which case it is removed or removal of the product from carriage 2. If that EPC code is not found in the transaction list of file 311, it is taken as a fortuitous overflight reading with no effect on carriage 2.
- the infrared sensor 36 is permanently active waiting for lighting alterations 360 in its radius of action, and that the RFID 200 radiation of the UHF antennas 21, 22, 23, 24, is only active for the duration of the detection of near object and, additionally, while the photoelectric curtain 39 is interrupted by an object that passes through it.
- the photoelectric curtain 39 is permanently active signaling any passage through it.
- the rear wall comprises three panels 61, 62, 63.
- the side panels 61, 62 which open laterally, are trapezoids rectangles, with two right angles, an angle of 70 ° and another of 1 10 °.
- the triangular top panel 63 which opens vertically, is an isosceles triangle with two angles of 20 °. Thus, when the panels 61, 62, 63 are closed, the basket of the carriage 2 is left without openings.
- the hinges 67 and the stops 65 allow the panels 61, 62, 63 to be folded down.
- the carriages 2 with RFID window device 1 can be stacked as shown in FIG. 16.
- another particular embodiment contemplates only side panels.
- FIG. 15 a general and simplified description of the sequence of events that occur to resolve and automatically control the payment of the products introduced in a carriage 2 with RFID window 1 is shown, without the intervention from a shop assistant or cashier and without the need to scan every product in the car.
- the user once the purchase is finished in the store, takes his car to a payment locker 140 in the cashier zone.
- the payment cabinet 140 houses a plurality of devices that are connected to a computer inside (not drawn): an LCD screen 141; a cardholder for the introduction of a bank 142 electronic card or other electronic payment method; a luminous traffic light 143; a ticket printer 144; and an RFID tag reader 145.
- the computer is connected to two devices outside the cabinet: a floor scale 150 with a data cable 146, and with another cable 147 to a rotation motor 133 for folding or lifting 93 a bar 132 of the bar structure 130.
- the sequence is as follows.
- the user enters the carriage through the aisle created by the guides of a bar structure 130, to the top of the folding bar 132.
- the bar 131 prevents the user from passing through the aisle and stepping on the floor scale 150.
- the balance of floor 150 sends the weight of the car, with all its products inside, to the computer in the closet and it lights the traffic light 143 YELLOW.
- the RFID reader 145 of the cabinet detects the car number by the passive RFID tag 12.
- the cabinet computer initiates a payment session with the central server or HOST of the Local Network 121 by sending the following data: cabinet number, car number and weight, via the Ethernet communication cable 123.
- the payment session continues in the HOST establishing a wireless communication 201 with the WiFi adapter 32 of the device with RFID window 1, through the Access Point 122, after which, the processor (or a mini-computer) 31 of the device with RFID window 1 sends the electronic list of items recorded in its file to the HOST.
- HOST calculates the theoretical weight of the electronic list of these products according to the master table of items in a database, and adds to that weight the tare of that car according to the master table of cars in a database.
- the HOST sends an "invalid payment” signal to the computer in cabinet 140, which turns on traffic light 143 of RED, and an incident message is printed on screen 141: "NOT VALID: WAIT FOR AN ASSISTANT".
- the HOST sends an alarm to the ATM service for assistance to that closet, and concludes the payment session Yes, on the contrary, the calculated and scale weights are within the tolerated range, the HOST calculates the total amount of the purchase with the electronic list of the items and sends that amount to the closet computer that prints it on screen 141 , for example "$ 57.38".
- the user enters his bank card in slot 142, or other means of payment (contactless smartphone, etc.), establishing the HOST a conventional payment protocol.
- the HOST sends the "payment made" signal to the computer in the closet 140 together with the purchase ticket file, which produces the following events in the closet: traffic light 143 changes to GREEN , the purchase ticket is printed by the printer 144, the screen 141 prints the message: "PURCHASE CARRIED OUT", and the bar 132 is lowered 93 with the turning motor 133 which allows the carriage to be taken out of the aisle 130.
- the HOST sends, by wireless communication 201 to the processor (minicomputer) 31, the order to release the bolt 42 of the bolt 45 so that the user, once with the car in an exit zone, can knock down the device with RFID window 1 of the car (as described in FIG. 12), allowing a more comfortable discharge of the products.
- the processor minicomputer
- the bar 132 rises again 93 with the turning motor 133
- the traffic light 143 goes out
- the screen 141 prints the message: "WAITING FOR A NEW CART"
- FIG. 17 according to a preferred embodiment, a general description of the groove flange connection systems between the two racks 3 of two stacked carriages A and B is shown.
- the groove-flange connection serves to electrically connect two racks 3 or to convert a mechanical stacking signal into an electrical signal.
- the racks 3 are electrically interconnected, when stacked, by contacting the metal flange connected to a positive pole 75 and the metal flange connected to a negative pole 76, protruding inferiorly from a first carriage 2 already stacked, with the groove connected to a positive pole 71 and the groove connected to a negative pole 72 respectively of a second carriage 2 that is stacked on the first.
- FIG. 17-a shows the contact between the metal flange connected to a negative pole 76 of car B, with the groove connected to a negative pole 72 of car A, when carriage A is inserted over carriage B, as shown in the figure .
- FIG. 17-b shows a side view of the spring 78 of the carriage A which has been compressed when the separating part 74 of the carriage B opposes its advance, with the stacking of the carriage A on the carriage B.
- the conductive metal part 79 opens the circuit of the positive cable 40 that supplies electrical current to the components (see FIG. 6), so that, with the stacking, the power supply from the battery 34 to the various electronic components is interrupted, whereby the device with RFID window 1 is inactive and without battery consumption 34.
- FIG. 18-a shows a detailed description of the groove-flange mechanism that closes the power supply circuit of the components of the device with RFID window 1 with the unstacking of a carriage.
- FIG. 18-b shows a detail of the frame 3 of the carriage A stacked inside another carriage B. In that state, the spacer part 74 of the frame 3 of the carriage B has compressed the spring 78 of the carriage A, whereby the positive cable 40 of Power to the components is without contact, so the device with RFID window 1 is inactive.
- FIG. 18-b shows a detail of the frame 3 of the carriage A stacked inside another carriage B. In that state, the spacer part 74 of the frame 3 of the carriage B has compressed the spring 78 of the carriage A, whereby the positive cable 40 of Power to the components is without contact, so the device with RFID window 1 is inactive.
- FIG. 18-d shows the final situation of the unstacking of the car A on the car B, producing the complete stretching of the spring 78 with the consequent electrical contact between the positive cable 40 through the conductive metal part 79 of the spring 78, as shown in FIG. 18-e. With this contact, the circuit of the battery 34 that feeds the LCD screen 30, processor 31, RFI reader D 33, the infrared sensor 36 and the photoelectric curtain 39 is closed, restarting the system, ready for use.
- FIG. 18-c is an intermediate stage in the unstacking of carriage A.
- FIG. 19-a a detailed description of the groove-flange mechanism that opens the power supply circuit of the components of the RFID window device 1 with the stacking of a carriage is shown (FIG. 19-a).
- FIG. 19-b shows a detail of the frame 3 of the active car A before being stacked inside another car B.
- the spacer part 74 of the carriage frame 3 of the car B does not compress the spring 78 of the car A, whereby the Positive cable 40 that supplies power to the components is in contact, so the device with RFID window 1 is active.
- FIG. 19-c shows the moment at which the stacking of the car A on the car B begins, causing compression of the spring 78 and ceasing to establish electrical contact the positive cable 40 through the conductive metal part 79 of the spring 78, as shown in FIG. 19-e.
- the battery circuit 34 opens It feeds the LCD screen 30, processor 31, RFID reader 33, infrared sensor 36 and photoelectric curtain 39, deactivating all systems.
- FIG. 19-c shows the moment at which the stacking of the car A on the car B begins, causing compression of the spring 78 and ceasing to establish electrical contact the positive cable 40 through the conductive metal part 79 of the spring 78, as shown in FIG. 19-
- 19-c is an intermediate stage in stacking carriage A.
- FIG. 20 according to a preferred embodiment, a detailed description of the groove-flange mechanism is shown which, in order to recharge the batteries 34, interconnects the positive and negative poles of the batteries 34 of the stacked carriages 2. They are described as positive and negative poles only by way of explanation of the present invention since, regardless of voltage, the current supplied can be both continuous (DC) and alternating (AC).
- the RFID window device 1 has a flange at the bottom of the frame 3 that slides in its corresponding groove from the top of the frame of another car at the time of stacking.
- FIG. 20 according to a preferred embodiment, a detailed description of the groove-flange mechanism is shown which, in order to recharge the batteries 34, interconnects the positive and negative poles of the batteries 34 of the stacked carriages 2. They are described as positive and negative poles only by way of explanation of the present invention since, regardless of voltage, the current supplied can be both continuous (DC) and alternating (AC).
- the RFID window device 1 has
- FIG. 20-b shows the negative cable 50 of the metal flange connected to a negative pole 76 of a car B that makes contact with the groove connected to a negative pole 72 of a car A stacked on it.
- FIG. 20-c is analogous to the positive pole, with the positive cables 48, the metal flange connected to a positive pole 75 and the groove connected to a positive pole 71, of the carriages A and B.
- the batteries 34 which in this preferred embodiment are made of Lithium Polymer or LiPo (FIG. 20-d), with each battery 34 placing a protective circuit (PCM) 29 for charging the batteries 34.
- the electrical connector 77 of the first carriage It allows the charging of the batteries 34 of all the cars when they are correctly stacked (FIG. 20-a).
- the present invention is not limited to a shopping cart with a single basket, but it is equally effective and applicable to shopping carts with more than one basket, by simply coupling and adapting as many devices with RFID 1 window as Baskets are in cart 2.
- the device with RFID window 1 is attached to a fixed structure instead of a mobile car, and the container can be a basket, a box or any other receptacle, as shown in FIG. twenty-one
- FIG. 21-a an alternative adaptation of the device with RFID window 1 is shown on a fixed structure of pedestals 8, whose container is a box 103, of cardboard or other material, to which 94 products are introduced or removed. 100, with the same functionality and efficiency than in the case of a shopping cart 2 with device with RFID window 1, the description of which can be seen in FIGs. 13 and 14.
- FIG. 21-b An exemplary application of two devices with RFID window 1 adapted to their own fixed structure 8 on a table 101, with power supply cables 52 and data communication cables 51 between the processor 31 and FIG is shown in FIG. 21-b.
- a central server or HOST of the Local Network 121 under which there are two boxes 103 that act as containers for the products 100, with RFID tags, which are introduced or removed 94 through the window 6 of each device with RFID window 1,
- mobile shelves 102 are shown that move 95 with KIVA Systems type robots to table 101, making the articles, with RFID tags, accessible from the order to operator of the table that introduces them 94 in the box 103 corresponding to the order, with the same automation and efficiency as described in FIGs. 13 and 14.
- a screen of the central server 104 or HOST is indicating to the table operator the filling of the boxes with the introduced articles and the progress of each order, without having to scan any of the articles, which allows him Have both hands free to fit the items properly.
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Abstract
Description
Claims
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP17845585.3A EP3509028B1 (en) | 2016-08-31 | 2017-08-30 | Device with rfid window that can be attached to the open top of a shopping cart or other container and method for identification |
BR112019004169A BR112019004169A8 (pt) | 2016-08-31 | 2017-08-30 | Dispositivo com janela de rfid acoplável ao lado aberto de um carrinho de compras ou outro recipiente e método de identificação |
JP2019532207A JP6915062B2 (ja) | 2016-08-31 | 2017-08-30 | ショッピングカートまたは他の容器の口に結合可能なrfidウィンドウ付き装置、及び識別方法 |
CN201780014563.8A CN108885753B (zh) | 2016-08-31 | 2017-08-30 | 能够附接到购物手推车或另一容器的顶部开口的具有rfid窗口的设备以及识别方法 |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
ESP201631138 | 2016-08-31 | ||
ES201631138A ES2662696B1 (es) | 2016-08-31 | 2016-08-31 | Dispositivo con ventana rfid acoplable a la embocadura de un carro de compra y método de identificacion |
Publications (1)
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WO2018042068A1 true WO2018042068A1 (es) | 2018-03-08 |
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Family Applications (1)
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PCT/ES2017/070591 WO2018042068A1 (es) | 2016-08-31 | 2017-08-30 | Dispositivo con ventana rfid acoplable a la embocadura de un carro de compra u otro contenedor y método de identificacion |
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US (1) | US10073996B2 (es) |
EP (1) | EP3509028B1 (es) |
JP (1) | JP6915062B2 (es) |
CN (1) | CN108885753B (es) |
BR (1) | BR112019004169A8 (es) |
ES (1) | ES2662696B1 (es) |
WO (1) | WO2018042068A1 (es) |
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US20160117530A1 (en) * | 2014-10-28 | 2016-04-28 | Avery Dennison Retail Branding and Information Solutions | Methods for scanning and encoding a plurality of rfid tagged items |
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US10275821B2 (en) * | 2015-12-24 | 2019-04-30 | Walmart Apollo, Llc | Smart shopping cart and method of use |
FR3077404B1 (fr) * | 2018-01-31 | 2022-07-15 | Afraite Seugnet Mehdi | Methodes et systemes d'assistance a l'achat en un point de vente physique |
KR20200124265A (ko) * | 2018-03-02 | 2020-11-02 | 마르틴 에벨라인 | 적어도 1대의 운반기를 갖춘 운반장비와, 이런 운반장비를 제조, 작동 및 유지관리하는 방법 |
EP3576248B1 (en) * | 2018-05-31 | 2023-05-31 | STMicroelectronics Austria GmbH | Nfc reader |
JP7044647B2 (ja) * | 2018-06-25 | 2022-03-30 | 東芝テック株式会社 | 商品登録支援装置及びプログラム |
EP3654305B1 (de) * | 2018-11-14 | 2024-02-14 | Bizerba SE & Co. KG | Verkaufsvorrichtung zum selbst-checkout |
US11244543B2 (en) | 2019-03-27 | 2022-02-08 | Toshiba Global Commerce Solutions Holdings Corporation | Operating a self-checkout station |
TWI765218B (zh) * | 2020-01-21 | 2022-05-21 | 創意引晴股份有限公司 | 無條碼商品結帳裝置 |
JP2022053781A (ja) * | 2020-09-25 | 2022-04-06 | 東芝テック株式会社 | 無線タグ読取装置 |
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Also Published As
Publication number | Publication date |
---|---|
CN108885753B (zh) | 2022-03-25 |
CN108885753A (zh) | 2018-11-23 |
ES2662696A1 (es) | 2018-04-09 |
BR112019004169A2 (pt) | 2019-05-28 |
EP3509028A4 (en) | 2019-09-18 |
EP3509028B1 (en) | 2023-03-29 |
EP3509028A1 (en) | 2019-07-10 |
ES2662696B1 (es) | 2018-10-10 |
US10073996B2 (en) | 2018-09-11 |
JP2019533263A (ja) | 2019-11-14 |
US20180060618A1 (en) | 2018-03-01 |
BR112019004169A8 (pt) | 2023-04-25 |
JP6915062B2 (ja) | 2021-08-04 |
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