JP2011075360A - Specimen treatment system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a specimen treatment system that forms the reading window of an RF tag into the optimum shape in order for reducing the effect on a magnetic field by a metal body in the reading of the RF tag, thereby enhancing a reading ratio and also preventing the misreading of the adjacent RF tag. <P>SOLUTION: The constitution of the specimen treatment system is achieved by shielding the adjacent RF tag by the metal body by forming the reading window of the RF tag into the optimum shape as the notch of the metal body. By this constitution, the magnetic field certainly arrives at the RF tag without being affected by the metal body, so that reading becomes possible. Further, the metal body shields the magnetic field with respect to the adjacent RF tag, thereby misreading can certainly be prevented. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a sample processing system that prevents an erroneous reading of an RF tag by optimizing the structure of a reading window of the RF tag.

  When an RF tag is attached to and transported in a sample container for sample transport, if there is a metal body between the RF tag and the RF reader, the magnetic field is blocked and reading is impossible. Therefore, a reading window is opened in the metal body between the RF tag and the RF reader so that the reading can be performed. . In general, the metal body may be separated so as not to be affected by the metal body, or a sheet such as an electromagnetic absorber may be attached to the metal body so as not to be affected. If the reading window is enlarged at the same time, the RF tag of the adjacent sample container is also read, which may cause misreading and affect subsequent processing, and an optimum shape is required. As for the reading of the RF tag, for example, the one described in Patent Document 1 is known.

JP 2005-30855 A

  In the technique described in Patent Document 1, there is a description about the reading position of the RF tag, but there is no description about the influence on the metal body and the adjacent RF tag with respect to the reading. An object of the present invention is to provide an optimum shape in which a metal body between an RF tag and an RF reader does not affect the reading of the RF tag or the adjacent RF tag.

  The configuration of the present invention can be realized by setting the reading window of the RF tag so that the three sides of the rectangle are the same as the shape of the RF tag with respect to the size of the RF tag, and the remaining one side is larger than the RF tag. Specifically, the direction of the adjacent RF tag is the same as the shape, and it is more effective to take a larger value in a direction perpendicular to this direction. In addition, regarding the influence of reading of adjacent RF tags, there is an effect of preventing misreading by utilizing the shielding effect of the metal body.

  As described above, since the magnetic field between the RF tag and the RF reader is surely generated, reading is possible. Moreover, since the adjacent direction can be shielded by a metal body, reading of an RF tag that is not a target can be prevented.

It is a schematic diagram which shows one Example of this invention. It is a schematic diagram which shows one Example of this invention. It is a table | surface which shows one Example of this invention. It is a schematic diagram which shows one Example of this invention. It is a schematic diagram which shows one Example of this invention. It is a schematic diagram which shows one Example of this invention. It is a schematic diagram which shows one Example of this invention. It is a schematic diagram which shows one Example of this invention. It is a schematic diagram which shows one Example of this invention.

  A schematic diagram of the present invention is shown in FIG.

  FIG. 1 is a diagram in which an antenna 1 is surrounded by a metal material 2 on four sides, and a gap 3 exists between the antenna 1 and the metal body 2. At this time, when the reading operation of the RF tag 4 is performed, the reading is not possible and the reading distance 5 is affected by the influence of the metal body 2. FIG. 2 is a diagram in which one side of the metal material 2 is removed. In the reading operation of the sample A and the sample B of the RF tag 4 in FIG. 3, the reading distance 5 in the reading operation depends on the number of metal materials 2 surrounding the four sides of the antenna 1. Show the impact. When the four sides of the antenna 1 are surrounded by the metal body 2 and the gap 3 between the antenna 1 and the metal body 2 is 1 mm, the reading distance 5 of the RF tag 4 of the sample A is 0 mm and the reading operation is impossible, and the RF tag 4 of the sample B Is 13 mm. When the reading operation of the RF tag is similarly performed in the state of FIG. 2, the reading distance 5 of the RF tag 4 of sample A is 28 mm, and the reading distance 5 of the RF tag 4 of sample B is 39 mm. Similarly, the reading distance 5 of the RF tag 4 when the metal body 2 is surrounded by two sides with respect to the antenna 1 is 5 mm for the sample A RF tag 4 and 39 mm for the sample B RF tag 4. The reading distance 5 is the same as when surrounded by 2, and the influence of the metal body 2 is completely unaffected by removing one side that surrounds the four sides.

  FIG. 4 shows an embodiment. The reading window of the antenna 1 is provided in the metal body 2, and the reading operation of the RF tag 4 mounted in the transport container 11 is performed on the transport belt 10 (non-metal body). At this time, the RF tag 4 is not affected by the metal body 2 by notching one of the four sides surrounded by the antenna 1 as shown in FIG. Can be read. Further, if one side to be cut is set in a direction perpendicular to the transport direction, it is effective when the sample container 4 is adjacent. FIG. 6 shows prevention of reading of the adjacent RF tag. When the transport container 11 is adjacent, when the RF tag 4 is read, if an RF tag 40 other than the reading target is read, a reading error or misreading occurs, which hinders subsequent processing. By setting the reading window of the metal body 2 to an optimum size, only the RF tag 4 to be read is read, and the RF tag 40 that is not to be read is shielded by the metal body 2 and cannot be read, so reading errors and misreading are prevented. Can do. As shown in FIG. 7, when the reading window is large, it is also possible to prevent reading of the adjacent RF tag 40 by attaching the metal body 21 in the vicinity of the antenna 1. Further, as shown in FIG. 8, the same effect of preventing reading of the RF tag 40 can be obtained even when the metal body 21 or the like cannot be attached by providing an angle to the antenna 1. As shown in FIG. 9, since the reading position of the RF tag 4 is fixed by attaching the stopper 30 for reading positioning and the stopper 31 for waiting for conveyance, reading of the RF tag 40 can be surely prevented. In this case, there is no problem as long as the size of the reading window of the antenna 1 is within the distance between the stopper 30 and the stopper 31. Further, by alternately controlling the stopper 30 and the stopper 31, the conveyance to the reading position becomes possible.

DESCRIPTION OF SYMBOLS 1 Antenna 2 Metal material 3 Crevice 4,40 RF tag 5 Reading distance 10 Belt 11 Transport container 21 Metal body 30 Positioning stopper 31 Standby stopper

Claims (4)

  A specimen processing system characterized by a structure in which an RFID antenna is not affected by a metal body in an RF tag reading operation. In the sample processing system according to claim 1,
1. A sample processing system, wherein one side of a metal body surrounding an RF tag reading antenna is cut out larger than the other three sides. In the sample processing system according to claim 1,
A specimen processing system using a metal body in the vicinity of an RF tag other than a reading position to prevent misreading of adjacent RF tags. In the sample processing system according to claim 3,
A specimen processing system using a stopper mechanism to determine a reading position of an RF tag.

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