JP3134611U - Handheld testing machine - Google Patents

Abstract

Provided is a hand-held tester that can simplify a test process, is inexpensive and easy to measure.
A test set includes a test set and a measurement host. The test set includes an absorber, a transmission antenna, and an RFID tag. The absorber is provided around the interior of the test set. Provided on the opposite side of the test set and the measurement host is electrically connected to the test set, thus facilitating the search for the optimal location of the RFID tag.
[Selection] Figure 2

Description

  The present invention relates to a hand-held tester, where an RFID tag and a transmission antenna are installed on the opposite side of the test set so that the optimum RFID tag attachment position of the case can be detected. Or it relates to a hand-held tester that can be adapted to similar items.

The technology of RFID (Radio Frequency Identification) has matured and its application range is becoming wider.
In addition, the world's largest retailer Wal-mart requires suppliers to attach RFID tags to package cases and cardboard. Significant growth is expected for the needs of RFID package cases around the world.
Furthermore, RFID tag pasting work tends to gradually move from a distribution center to a package case manufacturer, and the development of RFID tag package case technology cannot be delayed.

The RFID tag package case does not require the RFID tag to be attached to the package case, and the volume of the package case differs from the contents, so the RFID tag application position is also different, and the optimal application position depends on the test. To improve the reading efficiency.
This test technology currently measures the position of each point on the case with software and hardware such as RFID readers, spectrum analyzers and frequency-related peripheral components, and further uses the spectrum analyzer to measure the signal strength. By analyzing and obtaining the minimum reflected power or the strongest response signal, the optimum attachment position of the RFID tag is found.

  However, the test method for finding the optimum attachment position of the RFID tag is complicated, and the value of these meters and equipment is high, and the measurement point cannot be freely moved even during measurement.

  The present invention has been made in view of the above-described drawbacks, and is intended to provide a hand-held tester that can simplify the test process, is inexpensive, and is easy to measure.

  The main purpose of the present invention is to install the RFID tag and the transmitting antenna on the opposite side of the test set so that the intensity of the sensing signal on the outer surface of each part on the package case can be detected, and the optimum attachment position of the RFID tag is determined. It is to provide a hand-held testing machine that is useful for searching and improves convenience and practicality.

  The next purpose of the present invention is to provide an absorbing material in the test set to avoid frequency interference during the test, improve the reading efficiency, and reliably detect the sensing signal on the outer surface of each part on the package It is possible to provide a hand-held testing machine that can improve practicality.

  Another object of the present invention is to simplify the test process and structure, so that the measurement point can be moved freely during the test and each position of the case can be measured one by one, improving the overall convenience and practicality. The purpose is to provide a hand-held testing machine.

  To achieve the above object, the present invention has a test set and a measurement host, and the test set is provided with an absorber, a transmitting antenna and an RFID tag, and the absorber is provided around the inside of the test set. The transmitting antenna and the RFID tag are provided on opposite sides of the test set, and the measurement host is electrically connected to the test set, so that it is easy to find the optimum application position of the RFID tag. Is to provide.

The device of the present invention has the following advantages.
(1) Since the test set can detect the intensity of the sensing signal on the outer surface of each location on the package case by installing the RFID tag and the transmitting antenna on the opposite side of the test set, the optimum attachment position of the RFID tag is found. This is particularly beneficial and can improve the reading efficiency of the RFID package case.
(2) The test set can detect the response signal strength at each position on the package in accordance with various commercially available RFID readers and RFID tags, can be applied to a predetermined frequency or multi-frequency, and various package cases, For example, it can be adapted to the contents of different materials such as metal, liquid, glass and plastic.

Embodiments of a hand-held testing machine according to the present invention will be described below with reference to the drawings.
Referring to FIGS. 1 to 3, the handheld tester of the present invention has a test set 10 and a measurement host 30.
The test set 10 is provided with an absorbent material 11, a transmission antenna 12, and an RFID tag 13. The absorber 11 is provided around the inside of the test set 10, and the transmission antenna 12 and the RFID tag 13 are provided on the opposite side of the test set 10.
The relative distance (the length of the test set) between the transmitting antenna 12 and the RFID tag 13 is about 5 cm to 70 cm, and the distance is determined according to the measurement frequency.
The RFID tag 13 is a passive tag, and the passive tag generates power by external electromagnetic induction or electromagnetic induction to transfer data, and does not require a battery, has a small volume, a low price, and a long life. Can be achieved.
In addition, the passive tag is a passive tag that can be read, written, written, and written once, and its frequency usage range is about 400 MHZ to 2.5 GHZ.
The measurement host 30 includes a control unit, a switching unit, an amplifier, and an attenuator.
The measurement host 30 is electrically connected to the test set 10 and can control the test set 10.
As a reading mechanism for activating the test set 10, the test set 10 reads the numerical value of the object 20 to be measured, and then forwards it to the measurement host 30 for processing.

Referring to FIG. 3, the present invention is characterized by providing an absorbent 11 around the interior of the test set 10 to avoid frequency interference during the test and improve reading efficiency, and to measure 20 That is, it is possible to reliably detect the sensing signal on the outer surface of each of the above locations.
Further, the RFID tag 13 and the transmission antenna 12 are installed on the opposite side of the test set 10, and the test set 10 is flatly attached on the object 20 to be measured (in this embodiment, a cardboard case).
The position of the RFID tag 13 on the test set 10 is brought close to the surface of the object 20 to be measured, and the intensity of the sensing signal on the outer surface of each part on the object 20 to be measured is detected to increase the volume of the package case. In addition to finding out the problem of the reading rate due to the different contents and finding the optimum attachment position of the RFID tag and improving the reading rate, the effect of the RFID package case is achieved.
Further, the RFID tag 13 can be changed to a similar product of a different manufacturer on the market and used as a test in different application examples.

  With reference to FIGS. 1 to 3, the object 20 to be measured in the measurement is positioned in front of the test set 10. The measurement host 10 is electrically connected to the test set 30, and the measurement host 30 controls the test set 10 and reads the measured data as a reading mechanism that activates the test set 10. Alternatively, the measurement host 30 can be further connected to other related equipment to read the measurement data. At the time of measurement, the test set 10 is attached as flatly as possible on the object 20 to be measured. The position of the RFID tag 13 on the test set 10 is as close as possible to the surface of the object 20 to be measured. Further, the strength of the signal is detected on the object 20 to be measured on the test set 10 one by one, and the optimum attachment position of the RFID tag 13 is found.

  The configuration described above is merely a description of a preferred embodiment of the present invention, and does not limit the features of the present invention. Of course, modifications and substitutions appropriately made by those skilled in the art are included in the present invention. .

1 is a perspective external view of an embodiment according to the present invention. It is a figure which shows the use condition of the Example which concerns on this invention. It is sectional drawing which shows the use condition of the Example which concerns on this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Test set 11 ... Absorber 12 ... Transmission antenna 13 ... RFID tag 20 ... Object to be measured 30 ... Measurement host

Claims (6)

Including test set and measurement host,
The test set includes an absorber, a transmission antenna, and an RFID tag.
The absorber is provided around the inside of the test set, and the transmitting antenna and the RFID tag are provided on the opposite side of the test set,
In addition, the handheld tester is characterized in that the measurement host is electrically connected to a test set, and therefore, it is easy to find the optimum attachment position of the RFID tag.   The hand-held testing machine according to claim 1, wherein the length of the test set is 5 cm to 70 cm.   The handheld testing machine according to claim 1, wherein a frequency range of the RFID tag is between 400 MHZ and 2.5 GHZ.   A test set of a hand-held testing machine including an absorbent material, a transmission antenna, and an RFID tag, wherein the absorbent material is provided around the inside of the test set, and the transmission antenna and the RFID tag are provided on the opposite side of the test set.   The test set for a hand-held testing machine according to claim 4, wherein the length of the test set is 5 cm to 70 cm.   The test set of a hand-held tester according to claim 4, wherein the frequency range of the RFID tag is between 400 MHZ and 2.5 GHZ.

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