JP2011250047A - Non-contact communication medium reading auxiliary tool - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a non-contact communication medium reading auxiliary tool capable of improving communication sensitivity between a non-contact communication medium and a reader/writer even in the case where the non-contact communication medium is arranged inside a concrete body.SOLUTION: The non-contact communication medium reading auxiliary tool is a cylindrical auxiliary tool which is arranged between a non-contact communication medium embedded in a concrete body and a reader/writer which reads the information recorded in the non-contact communication medium or causes the non-contact communication medium to record information, for improving communication sensitivity between the non-contact communication medium and the reader/writer. It is used in such condition as installed on the surface of the concrete body.

Description

  The present invention relates to a non-contact communication medium reading aid, and in particular, a non-contact communication medium using a 2.45 GHz band radio wave as a communication means is embedded in a material having a high dielectric constant such as concrete. The present invention relates to an auxiliary tool for improving communication sensitivity when reading a contact communication medium.

  A non-contact communication medium that records various data such as the history of the manufacturing process related to the concrete product itself and concrete placement is embedded in the concrete body, and if necessary, the information recorded on the non-contact communication medium is read, Alternatively, it has been proposed to manage the product of the concrete body by recording information on the non-contact communication medium. (See Patent Document 1)

  A non-contact communication medium (RFID tag) is normally used by being attached to the surface of an article or a container storing the article. Logistics, inventory management, entry / exit management, etc. are the most common applications.

  Since such a non-contact communication medium mainly assumes the exchange of radio waves in the air, it is generally arranged and used so as to be exposed on the surface of the product. When reading information recorded on a non-contact communication medium or recording information on the non-contact communication medium, a transceiver called a reader / writer is used. Radio waves (linearly polarized waves and circularly polarized waves) emitted from the reader / writer are irradiated from the antenna unit provided in the reader / writer and reach the non-contact communication medium via the air. An electromotive force is generated in the non-contact communication medium by the arrived radio wave, the circuit is activated, and then the information recorded on the chip is transmitted, thereby realizing information transmission with the reader / writer.

  When there is only an air layer between the reader / writer and the non-contact communication medium, the radio wave (linearly polarized wave / circularly polarized wave) emitted from the reader / writer is irradiated in a radial manner, to a greater or lesser extent. The Similarly, radio waves returning from the non-contact communication medium are also irradiated radially.

  In recent years, in order to realize various traceability, a method for embedding a non-contact communication medium inside an article has been started for the purpose of preventing mistakes or malicious replacement. In particular, as disclosed in Patent Document 1, there is one in which a non-contact communication medium is embedded in a concrete body.

  When a non-contact communication medium is embedded in a substance, an interface having a different dielectric constant is formed with the air layer. Since the speed of radio waves mainly changes depending on the dielectric constant of the substance that passes through, the radio wave passes through two layers with different dielectric constants (here, a substance in which an air layer and a non-contact communication medium are embedded). Refraction occurs.

  The dielectric constant of air is about 1, and the second dielectric constant is the lowest after vacuum. For this reason, the radio wave radiated from the non-contact communication medium is refracted in the direction of opening toward the extended line of the interface at the interface between the substance and air. As a result, the intensity of the radio wave reaching the reader / writer is reduced, which is a cause of a reduction in the communication distance between the non-contact communication medium and the reader / writer. In particular, this problem becomes significant when the dielectric body has a high dielectric constant.

JP 2008-137284 A

  The problem to be solved by the present invention is to solve the above-mentioned problems and improve the communication sensitivity between the non-contact communication medium and the reader / writer even when the non-contact communication medium is arranged inside the concrete body. It is to provide a non-contact communication medium reading aid that can be used.

  In order to solve the above-mentioned problems, the invention according to claim 1 is a non-contact communication medium embedded in a concrete body, and reads information recorded on the non-contact communication medium or records information on the non-contact communication medium. A cylindrical auxiliary tool that is disposed between the reader / writer and increases the sensitivity of communication between the non-contact communication medium and the reader / writer, and is installed on the surface of the concrete body. A non-contact communication medium reading aid.

  The invention according to claim 2 is the non-contact communication medium reading aid according to claim 1, wherein the cylindrical shape has a height X of 5 to 160 mm and a diameter Y of 80 to 160 mm. .

According to a third aspect of the present invention, in the non-contact communication medium reading aid according to the first aspect, the height X (mm) and the diameter Y (mm) of the cylindrical shape are expressed by the following formulas 1 and 2, Alternatively, any one of Formulas 3 and 4 is satisfied.
Y ≧ −1.25X + 178.75 (80 ≦ X <143) (Equation 1)
Y ≦ −1.25X + 218.75 (80 ≦ X <175) (Expression 2)
Or Y ≧ −1.25X + 268.75 (100 ≦ X ≦ 165) (Equation 3)
Y ≦ −1.25X + 308.75 (100 ≦ X ≦ 165) (Formula 4)

  According to a fourth aspect of the present invention, in the non-contact communication medium reading aid according to any one of the first to third aspects, a metal layer is formed on at least one of the inner and outer surfaces of the cylindrical shape. It is characterized by that. In addition, the auxiliary tool in this invention includes the case where it forms with a metal material altogether.

  According to the invention of claim 1, between a non-contact communication medium embedded in a concrete body and a reader / writer that reads information recorded on the non-contact communication medium or records information on the non-contact communication medium A non-contact communication medium which is disposed on the surface of the concrete body and is used as a cylindrical auxiliary tool which increases the sensitivity of communication between the non-contact communication medium and the reader / writer Since it is a reading aid, the radio wave escaping along the surface of the concrete body (interface with the air layer) can be captured and repelled by the aid and effectively guided toward the reader / writer. Thereby, even when the non-contact communication medium is arranged inside the concrete body, it is possible to improve the communication sensitivity between the non-contact communication medium and the reader / writer.

  According to the second aspect of the present invention, since the height of the cylindrical shape of the auxiliary tool is 5 to 160 mm and the diameter is 80 to 160 mm, the communication sensitivity between the non-contact communication medium and the reader / writer is effectively improved. It becomes possible.

  According to the invention according to claim 3, the height X (mm) and the diameter Y (mm) of the cylindrical shape of the auxiliary tool satisfy either of the above-described formula 1 and formula 2, or formula 3 and formula 4, It is possible to effectively improve the communication sensitivity between the non-contact communication medium and the reader / writer.

  According to the invention of claim 4, since the assisting tool has a metal layer formed on at least one of the inner and outer surfaces of the cylindrical shape, the reader / writer can effectively emit radio waves radiated from the non-contact communication medium. It becomes possible to lead to.

It is a figure explaining the usage method or test method regarding the non-contact communication medium reading auxiliary | assistance tool of this invention. It is the schematic which shows the non-contact communication medium reading aid of this invention. It is a photograph which shows a mode that the test method regarding the non-contact communication medium reading aid of this invention is implemented. It is a graph which shows the result of the test method regarding the non-contact communication medium reading aid of this invention.

Hereinafter, the present invention will be described in detail using preferred examples.
As shown in FIG. 1, the present invention relates to a non-contact communication medium embedded in a concrete body, and a reader / writer for reading information recorded on the non-contact communication medium or recording information on the non-contact communication medium. Is a cylindrical auxiliary tool that increases the sensitivity of communication between the non-contact communication medium and the reader / writer, and is used by being installed on the surface of the concrete body. It is a contact communication medium reading aid.

  Specifically, as shown in FIG. 2, the non-contact communication medium reading aid has a metal layer such as aluminum or iron on at least one surface inside or outside the cylindrical shape. For example, a metal sheet such as aluminum is attached to the inside of a cylindrical base made of resin such as vinyl chloride. Of course, it is also possible to form the whole cylindrical auxiliary tool as a metal ring member.

  A preferable aspect is described about the size (cylinder-shaped diameter Y and height X) of a non-contact communication medium reading assistance tool. However, the said diameter Y means the diameter in the part by which a metal layer is arrange | positioned, and when sticking a metal sheet on the inner surface of a cylindrical base | substrate, the said diameter Y means a cylindrical internal diameter.

  The size of the non-contact communication medium reading aid according to the present invention depends on the depth of the non-contact communication medium in the concrete body, or the communication sensitivity of the non-contact communication medium and reader / writer. Is also affected. As a range in which the communication sensitivity between the non-contact communication medium and the reader / writer is improved to a practical level by a test as will be described later by the present inventors, the height X of the cylindrical shape is 5 to 160 mm, The diameter Y is 80 to 160 mm.

In addition, the height X (mm) and the diameter Y (mm) of the cylindrical shape satisfy the following formulas 1 and 2 or formulas 3 and 4, and the non-contact communication medium and the reader / writer It has been confirmed that the communication sensitivity with is improved.
Y ≧ −1.25X + 178.75 (80 ≦ X <143) (Equation 1)
Y ≦ −1.25X + 218.75 (80 ≦ X <175) (Expression 2)
Or Y ≧ −1.25X + 268.75 (100 ≦ X ≦ 165) (Equation 3)
Y ≦ −1.25X + 308.75 (100 ≦ X ≦ 165) (Formula 4)

A more preferable range in which the communication sensitivity can be further improved is a range that satisfies any of the following formulas 5 and 6, or formulas 7 and 8.
Y ≧ −1.25X + 188.75 (100 ≦ X ≦ 140) (Equation 5)
Y ≦ −1.25X + 208.75 (100 ≦ X ≦ 140) (Expression 6)
Y ≧ −1.25X + 278.75 (100 ≦ X ≦ 140) (Expression 7)
Y ≦ −1.25X + 298.75 (100 ≦ X ≦ 140) (Equation 8)

  2.45 GHz band radio waves used for reading and writing non-contact communication media have the property of reflecting on a metal surface, etc., so contact with reader / writers using the metal surface having the above conditions as an auxiliary tool By installing it between the medium, radio waves that open (escape) on the extended line of the interface can be captured and repelled, and can be effectively blown toward the reader / writer. As a result, the communication distance is improved, that is, the embedded depth of the non-contact communication medium can be set deep.

  As shown in FIG. 1, the method of using the non-contact communication medium reading aid of the present invention is such that the auxiliary tool of the present invention is arranged on the surface of a concrete body embedded with the non-contact communication medium, and the reader / writer is placed thereon. Place. With this configuration, the radio wave transmitted from the non-contact communication medium escapes along the surface of the concrete body (interface with the air layer), is captured and rebounded by the auxiliary tool of the present invention, and the direction of the reader / writer It is possible to guide effectively. Thereby, even when the non-contact communication medium is arranged inside the concrete body, it is possible to improve the communication sensitivity between the non-contact communication medium and the reader / writer.

  Further, the auxiliary tool of the present invention contributes not only to reading information recorded on the non-contact communication medium but also to efficiently propagating radio waves generated by the reader / writer toward the non-contact communication medium. It is also effective when recording information on a contact communication medium.

Next, the test method for confirming the effect and the result of the non-contact communication medium reading aid of the present invention will be described.
As shown in FIG. 1, a rectangular concrete block was prepared. The size of the block is set to a size of 250 × 250 mm on the surface (measurement surface) on which the reader / writer is arranged.

  Inside the concrete block, a deformed reinforcing bar with a diameter of 13 mm is arranged, a spacer is arranged on a part of the reinforcing bar, and a surface that can be read in the reader / writer direction is faced on the spacer, and a non-contact communication medium ( Hitachi, Ltd. (Muchip) was fixed.

  The spacer was made of mortar and prepared three levels of thickness 8 mm, 11 mm, and 21 mm. The reader / writer used was “manufactured by Hitachi, antenna-integrated high-output type SH07”.

  90 mm, 104 mm, 113 mm, and 127 mm were prepared as the distance (embedding depth) from the measurement surface of the concrete block to the reinforcing bar.

  As the auxiliary tool, a plastic member made of vinyl chloride having a cylindrical shape was prepared, and an auxiliary tool in which an aluminum tape was attached to the inner surface of the cylinder was prepared. As the size of the cylindrical shape, the diameter (inner diameter) Y is 5 levels of 83, 108, 131, 155, and 180 mm, and the height X is 5, 10, 20, 30, 40, 50, 60, 70. , 80, 90, 100, 110, 120, 130, 140, 150, 160 mm, 17 levels were prepared.

  FIG. 3 shows a state in which a test is being performed, and Tables 1 to 5 below show the test results. FIG. 4 further represents the results of Table 5 in a graph. In addition, the evaluation of communication sensitivity evaluated the situation where the reader / writer can read the information of the non-contact communication medium in four stages: very good (◎), good (○), unstable (△), and impossible (×). . And in Table 5, what was evaluated as “◯” or more in the four tests of Tables 1 to 4 is indicated by “●”, and all evaluations as “△” or more in the four tests. Displayed with “▲”.

Further, in Tables 1 to 4, the reading distance d shown in FIG.
・ Table 1: d = 69mm (rebar position 90mm, spacer 21mm)
Table 2: d = 83 mm (rebar position 104 mm, spacer 21 mm)
-Table 3: d = 105mm (rebar position 113mm, spacer 8mm)
Table 4: d = 116 mm (rebar position 127 mm, spacer 11 mm)

  From the table 5 and the graph of FIG. 4, it is easily understood that the preferred range of the assisting tool is a cylindrical height X of 5 to 160 mm and a diameter Y of 80 to 160 mm. It can also be easily understood that suitable ranges of the height X and the diameter Y are present in the band-like regions shown in the above formulas 1 to 8 (for example, a range satisfying the formulas 1 and 2).

  As described above, according to the present invention, even when a non-contact communication medium is arranged inside a concrete body, the non-contact communication medium can improve the communication sensitivity between the non-contact communication medium and the reader / writer. A reading aid can be provided.

Claims (4)

Arranged between a non-contact communication medium embedded in a concrete body and a reader / writer that reads information recorded on the non-contact communication medium or records information on the non-contact communication medium;
A cylindrical auxiliary device for increasing the sensitivity of communication between the non-contact communication medium and the reader / writer,
A non-contact communication medium reading aid that is used by being installed on the surface of the concrete body.   The contactless communication medium reading aid according to claim 1, wherein the cylindrical shape has a height of 5 to 160 mm and a diameter of 80 to 160 mm. In the non-contact communication medium reading aid according to claim 1, the height X (mm) and the diameter Y (mm) of the cylindrical shape are any of the following formulas 1 and 2 or formulas 3 and 4. A non-contact communication medium reading aid characterized by satisfying the above.
Y ≧ −1.25X + 178.75 (80 ≦ X <143) (Equation 1)
Y ≦ −1.25X + 218.75 (80 ≦ X <175) (Expression 2)
Or Y ≧ −1.25X + 268.75 (100 ≦ X ≦ 165) (Equation 3)
Y ≦ −1.25X + 308.75 (100 ≦ X ≦ 165) (Formula 4)   The contactless communication medium reading aid according to any one of claims 1 to 3, wherein a metal layer is formed on at least one of the inside and outside of the cylindrical shape. Media reading aid.

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