JP4352631B2 - Tag reader - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a tag reader having a reading function for an optical information recording tag and an RFID tag.
[0002]
[Prior art]
Conventionally, merchandise sales and inventory management are performed by reading a barcode or two-dimensional code printed on a label attached to the merchandise with a code reader.
[0003]
On the other hand, in recent years, an RF (Radio Frequency) ID tag is attached to a product, and information stored in the RFID tag is read by a tag reader using a radio wave signal (electromagnetic signal) to perform product sales and inventory management. Is being put into practical use. In this case, since the amount of information that can be stored in the RFID tag can be managed in a larger and finer manner compared to a barcode or the like, either a label (optical information recording tag) or an RFID tag is suitable depending on the product. A system for wearing one is considered.
[0004]
In such a system using both the tags in a mixed manner, a tag reader capable of reading the information stored in any tag has been devised. FIG. 3 is a cross-sectional view showing a configuration of a tag reader disclosed in, for example, Japanese Patent Application Laid-Open No. 12-348133. In FIG. 3, the handheld reader 1 includes an operation unit 2 that also serves as a gripping unit, for example, a display unit 3 made of liquid crystal. The operation unit 2 is provided with, for example, a plurality of key switches 4, and the operation contents are instructed by these key switches 4. In addition to the key switch 4, the operation unit 2 is provided with a switch 5 mainly for instructing to start reading.
[0005]
A printed wiring board 7 is fixed in a case 6 that forms a housing of the hand-held reader 1, and key switches 4 are mounted in a matrix on one surface of the printed wiring board 7. A two-dimensional CCD (corresponding to optical reading means) 8 is erected and mounted on the other surface of the printed wiring board 7.
[0006]
An optical system unit 9 is disposed in the opening 6 a formed at the front end of the case 6. A mirror 10 is disposed in the case 6 at a position on the optical axis of the optical system unit 9. A two-dimensional CCD 8 is positioned on the optical axis bent by the mirror 10. Accordingly, the detection object is imaged on the two-dimensional CCD 8 via the optical system unit 9 and the mirror 10.
[0007]
A hole 12 is formed in the center of the printed circuit board 11 constituting the optical system unit 9, and a plurality of illumination LEDs 13 are mounted around the hole 12. A bobbin 14 is attached to the peripheral edge of the printed wiring board 11, and a transmission antenna coil 15 is wound around the bobbin 14.
[0008]
A lens unit 16 is mounted in the hole 13 formed in the printed wiring board 11. This lens unit 16 is formed integrally with a condenser lens 16a that condenses the reflected light from the detection target and a light projection lens 16b that projects light from the illumination LED 13 to the front. . On the other hand, a bobbin 17 is mounted on the back surface of the printed wiring board 11, and a receiving antenna coil 18 is wound around the bobbin 17.
[0009]
That is, the optical axis of the optical system for reading the data of the optical information recording tag and the central axes of the transmitting antenna coil 15 and the receiving antenna coil 18 for executing communication with the RFID tag are configured to coincide with each other. Therefore, their directivity characteristics are in the same direction, and the operating environment of the hand-held reader 1 for reading information from the optical information recording tag and the RFID tag can be made the same, and any tag can be used in the same operating environment. It is possible to do.
[0010]
[Problems to be solved by the invention]
In such a configuration, the optical system unit 9 is disposed substantially at the center of the opening 6a to secure the optical path, and the antenna coils 15 and 18 are disposed in the peripheral portion thereof, whereby the optical axis of the optical system and the antenna coil 15 and 18 central axes are made to coincide.
On the other hand, in order to read the recorded information by transmitting power to the RFID tag, it is preferable to increase the antenna gain by increasing the area (opening area) formed by the loop of the antenna coils 15 and 18 as much as possible. However, the above configuration has a limit in securing a larger opening area due to structural limitations.
[0011]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a tag reader that can further increase the gain of a transmission / reception antenna and can read information on an RFID tag together with an optical information recording tag. It is to provide.
[0012]
[Means for Solving the Problems]
According to the tag reader of the first aspect, the transmission / reception antenna coil is disposed inside the impact-resistant cover attached to the opening of the main body case. That is, the impact-resistant cover is configured to cover the outer peripheral portion of the case opening with a flexible material in order to absorb an impact when the reader is accidentally dropped. Accordingly, it is possible to secure a larger opening area than in the case where the antenna coil is disposed inside the case as in the conventional case, and it is possible to sufficiently secure the gain of the transmission / reception antenna. Transmission and reading of information can be performed more reliably.
[0013]
According to the tag reader of claim 2, the transmitting / receiving antenna coil is arranged on both sides of the main loop coil and the main loop coil, and generates a magnetic field that is opposite to the direction of the magnetic field generated by the main loop coil. And a sub-loop coil arranged so as to be configured. For example, when another electronic device approaches the tag reader and the distance between the device and the transmitting / receiving antenna coil becomes short, the magnetic field generated by the transmitting / receiving antenna coil is likely to affect the operation of the approaching device. Therefore, there is a risk of hindering its operation.
[0014]
Therefore, if the sub-loop coil is configured as described above with respect to the main loop coil of the transmission / reception antenna coil, the magnetic field generated by the main loop coil is changed to the magnetic field generated by the sub-loop coil outside the main loop coil. Since it acts so as to cancel out, it is possible to prevent adverse effects on the operation even when other electronic devices are used in close proximity.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
A first embodiment of the present invention will be described below with reference to FIG. FIG. 1A is a perspective view showing the appearance of the handheld tag reader 21. 3 that are the same as those in FIG. 3 are denoted by the same reference numerals, description thereof is omitted, and only different portions will be described below. An impact-resistant cover 23 is attached to the opening 22a portion located at the front end of the case 22 of the tag reader 21 (formed substantially in the same shape as the case 6).
[0016]
The impact-resistant cover 23 is formed so as to cover the outer peripheral portion of the opening 22a with a flexible material such as rubber, for example, and absorbs an impact when the user accidentally drops the reader 21 to open the opening 22a. Is provided to prevent damage to the electronic circuit and adversely affect the internal electronic circuit. The opening 22a is provided with a step 22b for attaching the impact resistant cover 23, and the impact resistant cover 23 is attached to the step 22b by bonding or the like.
[0017]
FIG. 1B shows the back surface of the impact resistant cover 23. The shock-resistant cover 23 is embedded with a transmission / reception antenna coil 24 (shown by a broken line) at the time of formation. That is, the transmission / reception antenna coil 24 is arranged in a loop shape at a portion that contacts the end surface of the stepped portion 22b when the impact-resistant cover 23 is attached, and is molded by rubber, and both are integrally formed. Both terminals 24 a and 24 b of the transmission / reception antenna coil 24 are exposed to the outside of the impact resistant cover 23.
[0018]
Although not specifically illustrated, a connection hole is provided on the side of the step portion 22b, and when the impact resistant cover 23 is attached to the opening 22a, both terminals 24a and 24b of the transmission / reception antenna coil 24 are provided. The transmission / reception antenna coil 24 is configured to be connected to a circuit disposed inside the case 22 by being inserted into the connection hole. Further, in the state in which the impact-resistant cover 23 is attached, the optical axis of the condensing lens 16a and the central axis of the transmitting / receiving antenna coil 24 substantially coincide with each other as in the conventional tag reader 1.
The other configurations are the same as those shown in FIG. 3, and the basic reading operation and the like are the same as those of the tag reader disclosed in Japanese Patent Laid-Open No. 12-348133.
[0019]
That is, the coil loop dimension of the transmission / reception antenna coil 24 arranged inside the shockproof cover 23 is substantially the same as the outer dimension of the opening 22a, and the antenna coils 15 and 18 are placed inside the case 6 as in the conventional case. Compared with the case where it arrange | positions, it is possible to form a coil loop larger.
[0020]
According to the present embodiment configured as described above, the transmission / reception antenna coil 24 for reading information from a barcode or the like using the lens unit 16 and transmitting a power signal to receive a signal from the RFID tag. In the tag reader 21 provided with the transmission / reception antenna coil 24, the transmission / reception antenna coil 24 is disposed inside the impact-resistant cover 23 attached to the opening 22 a of the main body case 22.
[0021]
Therefore, a larger coil loop size, that is, an opening area can be ensured than in the case where the antenna coils 15 and 18 are disposed inside the case 6 as in the prior art, and the gain of the transmission / reception antenna 24 can be further increased. It becomes possible. Then, the power signal can be reliably transmitted to the RFID tag, and the information stored in the RFID tag can be read satisfactorily.
[0022]
Furthermore, the process of assembling the transmission / reception antenna can be omitted, and the assembly can be performed more easily. In addition, since the shape of the transmission / reception antenna coil 24 is substantially the same as the shape of the impact-resistant cover 23 in the portion related to the opening 22a and is stable in that state, the shape of the transmission / reception antenna coil 24 is deformed during assembly work. This can be prevented, and the communication performance with the RFID tag can be stabilized.
[0023]
(Second embodiment)
FIG. 2 shows a second embodiment of the present invention. In the second embodiment, the transmitting / receiving antenna coil 25 disposed inside the impact resistant cover 23 is composed of a main loop coil 25M and two sub-loop coils 25Sa and 25Sb disposed on both sides of the main loop coil 25M. It is a thing.
[0024]
In this case, the winding direction of the two sub-loop coils 25Sa and 25Sb is opposite to the winding direction of the main loop coil 25M. Accordingly, the directions of the currents Isa and Isb (substantially equal to the current IM) flowing through the sub-loop coils 25Sa and 25Sb are opposite to the direction of the current IM flowing through the main loop coil 25M. The direction of the magnetic field generated by the sub-loop coils 25Sa and 25Sb is also opposite to the direction of the magnetic field generated by.
[0025]
With the above configuration, the magnetic field generated by the main loop coil 25M is canceled by the magnetic field generated in the reverse direction by the sub-loop coils 25Sa and 25Sb outside the loop (in the horizontal direction in FIG. 2). However, the magnetic field strength in the region other than the nearby region necessary for transmitting power to the RFID tag is weakened.
[0026]
That is, when another electronic device (for example, another tag reader) approaches the tag reader 21, the distance between the device and the transmission / reception antenna coil 24 is shortened, so that the magnetic field generated by the transmission / reception antenna coil approaches. It is easy to influence the operation of Therefore, the transmission / reception antenna coil 25 is configured by a combination of the main loop coil 25M and the sub-loop coils 25Sa and 25Sb so that the strength of the magnetic field component in the region other than the nearby region is minimized.
[0027]
As described above, according to the second embodiment, the transmission / reception antenna coil 25 disposed inside the impact-resistant cover 23 is composed of the main loop coil 25M and the two sub-loop coils 25Sa and 25Sb. Even when the device is used in the vicinity of the tag reader 21, it is possible to prevent the magnetic field component in the region other than the nearby region where the transmission / reception antenna coil 25 is generated from adversely affecting the operation of other devices.
[0028]
The present invention is not limited to the embodiments described above and illustrated in the drawings, and the following modifications or expansions are possible.
The material of the impact resistant cover is not limited to rubber, and other materials such as resin may be used as long as they have a certain degree of flexibility.
The tag reader may be one (reader / writer) having a function of writing data to the RFID tag.
[Brief description of the drawings]
FIG. 1 is a first embodiment of the present invention, (a) is a perspective view showing the appearance of a tag reader, (b) is a view showing the back of an impact-resistant cover. FIG. 2 is a second embodiment of the present invention. FIG. 3B is a view corresponding to FIG. 1B. FIG. 3 is a cross-sectional view showing the structure of a conventional tag reader.
Reference numeral 21 denotes a tag reader, 22 denotes a case, 22a denotes an opening, 23 denotes an impact-resistant cover, 24 and 25 denote transmission / reception antenna coils, 25M denotes a main loop coil, and 25Sa and 25Sb denote sub-loop coils.

Claims (2)

Optical reading means for reading information from the optical information recording tag based on imaging by the condenser lens, and a transmission / reception antenna coil for transmitting a power signal to the RFID tag and receiving a signal from the RFID tag, In the tag reader configured so that the optical axis of the condensing lens and the central axis of the transmitting / receiving antenna coil substantially coincide with each other,
A tag reader, wherein the transmitting / receiving antenna coil is disposed inside an impact-resistant cover attached to an opening of a main body case. The transmission / reception antenna coil is disposed on both sides of the main loop coil and the main loop coil, and the sub-loop coil is disposed so as to generate a magnetic field opposite to the direction of the magnetic field generated by the main loop coil. The tag reader according to claim 1, comprising:

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