• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Device with RFID identification window RFID 1 coupled to the mouth of a shopping cart, comprising a frame 3 with a window 6 traversed horizontally by a plurality of light rays from a light curtain 39, an infrared sensor 36 configured to detect an object approaching window 6, an RFID reader 33 configured to detect and identify an EPC code of RFID tags incorporated in the objects entering or leaving the basket of the car 2 through window 6, antennas UHF 21, 24, whose radiation beams cover the space of the window 6, configured to be activated when the infrared sensor 36 detects the approaching object; and a processor 31 configured to store the objects that remain inside the cart 2 in an electronic shopping list. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2662696A1
    申请号:ES201631138
    申请日:2016-08-31
    公开日:2018-04-09
    发明作者:Javier Ferrer Alós
    申请人:Campos Tena Vicente;Herreros Marchante Ismael;
    IPC主号:
    专利说明:

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    Various vocalized 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. 16 and 19.
    In FIG. 7, you can see the covers 4 and 5 that cover the components of the lower part of the frame 3.
    The opening of the frame 3 can be carried out only if the bolt 42 is not inserted in the bolt 45, which occurs in the area of extraction of the products of the car once the purchase payment has been made.
    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 used in this exemplary embodiment are from Barco sro, FlexiRay 556º XSF-110x with a frequency range of 866-868 MHz (ETSI standard) or 902-928 MHz (FCC standard), a gain of 3 dB and an impedance of 50 Ohms, with rectangular dimensions of 155x100 mm and 3 mm thick, and a beam width of ß = 80 ° whose angle limits with the decrease in radiation power in 3 dB, both horizontally and vertically. As shown in the drawing, the calculation of two of these opposite antennas 21, 24 with an inclination angle
    image19 = 26º above the settlement plane and separated by a distance of 400 mm, converge the lower limit of its vertical beam width of radiation at a height Hv = 91 mm above the window 6 mediatrix. The same for the case of the pair of antennas 22, 23. Said inclination produces an elevation of the frame 3 at a height h2 = 43 mm in which the front antennas 23, 24, and the reflective linear 38 are housed on one side of the window 6, and in the opposite side, the rear antennas 21, 22, and the linear emitter / receiver 37 of the photoelectric curtain 39. In this preferred embodiment, the electromagnetic radiation power decreases by 50% (3 dB) at
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    steps, which is described in the flowchart of the figure that is discussed here in a simplified way: a user takes a product 100 from a store shelf with an RFID tag whose chip stores an EPC code for unique product identification. When you fly over the product with your hand to introduce it in carriage 2 through the window 6, the infrared sensor 36 converts the reflected light 360 of the product and the hand into electrical current which, finally, translates into the sending of a signal that warns to processor 31 of a nearby object. This signal activates the UHF antennas 21, 22, 23, 24 inside the frame 3. 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. 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 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). In the event that when the photoelectric curtain 39 is restored, no RFID tag is read, the system determines a product entry in carriage 2, storing a new product line introduced in a file 311 of the processor 31. On the contrary, if an RFID tag is read again when the photoelectric curtain 39 is restored, the process checks whether or not the EPC code of the new tag read corresponds to the EPC code of the product that had been entered in this event cycle previously. If it is the same ("= EPC", in the flowchart), the system suspends the entry process and continues the cycle at an earlier stage. On the other hand, if the EPC code that is now read is different from the EPC code of the product that was previously entered, and coincides with a previously registered product, the system determines a product entry action 91 and concurrently in the same cycle an action of product output 92, whose simplified procedure can be seen in the following FIG. 14. In the activity time bar graph, it can be seen that 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 that
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    权利要求:
    Claims (1)
    [1]
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    类似技术:
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    同族专利:
    公开号 | 公开日
    US20180060618A1|2018-03-01|
    ES2662696B1|2018-10-10|
    BR112019004169A2|2019-05-28|
    WO2018042068A1|2018-03-08|
    EP3509028A1|2019-07-10|
    US10073996B2|2018-09-11|
    EP3509028A4|2019-09-18|
    CN108885753A|2018-11-23|
    JP2019533263A|2019-11-14|
    JP6915062B2|2021-08-04|
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    法律状态:
    2018-07-16| PC2A| Transfer of patent|Effective date: 20180710 Owner name: IVAN JIMENEZ MORALES Effective date: 20180710 |
    2018-10-10| FG2A| Definitive protection|Ref document number: 2662696 Country of ref document: ES Kind code of ref document: B1 Effective date: 20181010 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201631138A|ES2662696B1|2016-08-31|2016-08-31|RFID WINDOW DEVICE COUPLABLE TO THE EMBOSSING OF A SHOPPING CART AND IDENTIFICATION METHOD|ES201631138A| ES2662696B1|2016-08-31|2016-08-31|RFID WINDOW DEVICE COUPLABLE TO THE EMBOSSING OF A SHOPPING CART AND IDENTIFICATION METHOD|
    CN201780014563.8A| CN108885753A|2016-08-31|2017-08-30|The open-topped equipment and recognition methods with RFID window of shopping cart or another container can be attached to|
    US15/690,706| US10073996B2|2016-08-31|2017-08-30|Device with RFID window that couples to the mouth of a shopping cart or another container and method of identification|
    PCT/ES2017/070591| WO2018042068A1|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|
    EP17845585.3A| EP3509028A4|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| BR112019004169A2|2016-08-31|2017-08-30|device with dockable rfid window on the open side of a shopping cart or other container and identification method|
    JP2019532207A| JP6915062B2|2016-08-31|2017-08-30|Devices with RFID windows that can be attached to the mouth of a shopping cart or other container, and identification methods|
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