CZ34760U1 - Continuous identification system - Google Patents

Description

Field of technology

The technical solution relates to a system for continuous identification of objects, especially purchased or stored goods for the purpose of its identification.

Prior art

Cases of the use of RFID (Radio Frequency Identification) identification technology in the prevention of counterfeiting, tracking of property or persons, or in the control of access to reserved areas are known from the prior art. RFID identification technology uses electromagnetic waves to identify them. The simplest RFID system contains 2 components: an RFID tag with an integrated antenna and an RFID sensor.

The RFID tag could be likened to a barcode label on an item, except that the RFID tag consists of integrated circuits that provide data storage and communication with the RFID sensor. The RFID tag is unique for each type of product. The RFID sensor is a radio frequency transmitter and receiver. The sensor ensures communication with the RFID tag, reading data from the relevant RFID tags and subsequent transfer of data to a computer, where further data processing takes place. The advantages of RFID identification technology are the ability to identify goods without the need for direct visibility, which is necessary, for example, for optical barcode readers.

The solution of the application of the invention number: PV 2010-281 entitled "Method of perimeter security using RFID acceleration detectors" is known, where the use of RFID technology for security of property is. The so-called RFID acceleration detectors are used here. One or more accelerator detectors are attached to the fence or gate. The vibrations that occur when the intruder overcomes the fence are detected by an RFID acceleration detector and then the data is sent for further evaluation. The advantage of using RFID acceleration detectors is the possibility of eliminating interfering influences, such as vibrations from passing cars, wind or hail.

RFID identification technology is also used for automatic time registration systems at sporting events. For example, U.S. Patent 7,748,383 addresses the placement of an RFID tag in a shoe. The shoe with the integrated RFID tag registers the RFID sensor at the start and then the RFID sensor at the finish. In this way, time can be measured automatically. It is also known from European Patent Application No. EP 16170864.9 to place an RFID tag in an athlete's bib.

Currently, RFID tags can be used as one-time identification tags for product labeling, thanks to minimizing the cost of manufacturing an RFID tag and its miniaturization. Chinese Utility Model Application No. 202533979 addresses the production of an RFID tag by printing with a conductive ink containing carbon or silver particles. U.S. patent application US 2011/052792 addresses the fabrication of an electronic circuit with conductive paint directly on the film to be coated. Improvements in the field of packaging films with an integrated RFID tag are addressed by Patent No. 306134 entitled "Method of manufacturing an intelligent packaging based on a film provided with an identification RFID tag".

RFID technology is also used to increase transport security. For example, when transporting blood, it is essential that the identification label on the blood container accurately describes the contents of the bottle. The use of RFID technology, where the RFID tag is pressed into the package, prevents any unauthorized manipulation of the labels of the containers, which significantly increases the safety of transport. The method of manufacturing an encapsulated RFID tag is addressed in US 2007/0139202 A1. Specific solutions for containers intended for the transport of blood-based products

- 1 CZ 34760 UI of derivatives is addressed by the document EP 3243497 entitled "Arrangement of an RFID tag on a bottle for products based on blood derivatives and its use".

It is clear from the above solutions that RFID tags are used as an identification means for its further use according to the method of scanning and the purpose of obtaining information. When solving the identification of goods, especially when shopping or sorting goods, the technology of scanning barcodes is known today, where each object must be manually attached to a barcode reader or vice versa. The condition for the functionality of barcode scanning is the direct visibility of the barcode on the object.

The essence of the technical solution

The mentioned disadvantages of goods identification are eliminated by the technical solution of the system for continuous object identification, which is provided with a UHF RFID tag and contains an information display, which is provided with an information system for reading and recognizing UHF RFID tags and further comprises a conveyor. provided with an identification tunnel, the inner surfaces of which are provided with at least one identification antenna adapted to transmit a signal to the space of the identification tunnel perpendicular to its longitudinal axis. In the event of a signal impact on the UHF RFID tag, the UHF RFID tag is activated and the contained information is transmitted to the information system and is displayed on the information display.

It is expedient for the object identification system to be provided with a catch basket for securing the object.

Furthermore, it is expedient for each inner surface of the identification tunnel to be provided with at least one RFID identification antenna, the RFID identification antennas being displaced relative to one another in a horizontal and / or vertical plane, preferably rotated 90 ° relative to the longitudinal axis of the tunnel, preferably embodiments, the identification RFID antennas are displaced by a distance of 0.1 m to 1 m in the horizontal plane.

It is expedient for the identification tunnel to be made of a material which does not transmit an RFID signal outside the internal environment of the identification tunnel.

Explanation of drawings

Figure 1 schematically shows a system for continuous identification with RFID identification antennas.

Example of implementing a technical solution

The object 5, which is provided with a UHF RFID tag 51, is placed on the conveyor 2. The conveyor 2 ensures a smooth movement through the identification tunnel 1, the inner surfaces of which always contain at least one RFID identification antenna 11. The conveyor 2 is represented by a standard belt conveyor or a commonly used cash register. bands in stores. The hollow block identification tunnel 1 is made of a material that does not transmit an RFID signal outside the internal environment of the identification tunnel 1, thereby preventing external interference of the RFID signal. In this present example, the identification tunnel 1 comprises four identification RFID antennas 11. In a preferred embodiment, the identification RFID antennas 11 are shifted relative to each other in both the horizontal and the vertical planes. In the most preferred embodiment, they are displaced relative to each other in the vertical plane by 90 ° and in the horizontal plane by 0.5 m.

The object 5 passing through the tunnel receives an RFID signal from the RFID identification antenna U, which is located on the right inner surface of the identification tunnel 1. In case the UHF RFID tag 51 is located on the surface of the object 5, which is scanned by the signal, the UHF is RFID tag 51 is activated and loaded

-2GB 34760 UI identifier in UHF RFID tag 51 and then to transfer data to the information system 4 for further processing.

If the UHF RFID tag 51 is not located on the scanned side of the object 5, no action may take place and the object 5 proceeds through the tunnel 1 to another RFID identification antenna 11, which is for example located on the ceiling of the identification tunnel 1 and is shifted by 0.5 m. Again, an RFID signal is transmitted, which impinges on the upper surface of the object 5. If a UHF RFID tag 51 is placed on this surface of the object 5, it is activated by the transmitted signal and by reading and transmitting data for further processing. If the UHF RFID tag 51 is not located here, the object 5, which continuously passes through the identification tunnel 1, is scanned by another RFID identification antenna 11. In this way, the object 5 passes through the identification tunnel 1, and is sequentially scanned from all sides by the RFID identification antennas 11 which are for example, 0.5 m apart, and in the case of activation of the UHF RFID tag 51, the information contained in the UHF RFID tag 51 is transmitted and processed. This information is processed in the information system 4 and then displayed for the buyer and seller on the information display 6.

After passing the object 5 through the identification tunnel 1, the object 5 is moved to the catch basket 3.

Industrial applicability

The system for continuous identification is a very effective way of identification and subsequent processing of information and it is possible to use it in all sections of the business route, both at the receipt of goods and at its sale to the customer.

Claims (6)

CLAIMS FOR PROTECTION A system for the continuous identification of an object (5) provided with a UHF RFID tag (51), comprising an information display (4) provided with an information system (41) for reading and recognizing UHF RFID tags and further comprising a conveyor (2) characterized in that the conveyor (2) is provided with an identification tunnel (1), the inner surfaces of which are provided with at least one identification antenna (11) adapted to transmit a signal to the space of the identification tunnel (1) perpendicular to its longitudinal axis, Upon activation of the UHF RFID tag (51) by the impact of the signal on the UHF RFID tag (51), the information contained in the UHF RFID tag (51) is transmitted to the information system (4) and is displayed on the information display (6). Continuous identification system according to claim 1, characterized in that the conveyor (2) is provided with a catch basket (3) for securing the object (5). Continuous identification system according to claim 1 or 2, characterized in that each inner surface of the identification tunnel (1) is provided with at least one RFID identification antenna (11), the RFID identification antennas (11) being offset relative to each other in a horizontal and / or vertical plane. Continuous identification system according to one of Claims 1 to 3, characterized in that the RFID identification antennas (11) are rotated relative to the longitudinal axis of the tunnel by 90 ° relative to one another. Continuous identification system according to one of Claims 1 to 4, characterized in that the RFID identification antennas (11) are offset from one another in a horizontal plane by a distance of 0.1 m to 1 m. Continuous identification system according to one of Claims 1 to 5, characterized in that the identification tunnel (1) is made of a material which does not transmit an RFID signal outside the internal environment of the identification tunnel (1).