KR20100062355A - Rfid reader system typed eyeglasses - Google Patents

Abstract

The present invention relates to an RFID reader system, which is installed on one leg of glasses and includes a communication device capable of transmitting / receiving information from RFID; And transmissive display means for displaying the received RFID information on any one of the lenses of the spectacles.

According to the present invention, the information on the RFID tag can be obtained only by wearing glasses more conveniently than the information obtained through the conventional mobile system, but also the limitation of place and size in various fields. You can use it widely without being particular about.

Description

Glasses type RDF reader system {RFID READER SYSTEM TYPED EYEGLASSES}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile radio frequency identification (RFID) reader, and more particularly, to an RFID reader system capable of acquiring RFID tag information conveniently without restriction on the behavior of an information acquirer.

Current RFID technology incorporates the use of electromagnetic or electrostatic coupling within the radio frequency of the electromagnetic spectrum to identify objects, animals or humans. Such RFID technology is increasingly being used in the industry as a technology to replace the bar code. The advantage of this RFID technology is that there is no need for direct contact or laser scanning over the visible band.

Therefore, a system related to RFID technology is a system for attaching an RFID tag to a required target and wirelessly reading the unique ID of the RFID tag through an antenna to track the location of the target.

In general, such an RFID system includes an RFID reader, which is a device for reading and recording tag information. In particular, the mobile RFID reader provides the user with the convenience of moving, so the method of storing and transmitting data is important.

1 is a block diagram showing an RFID system including a mobile RFID reader according to the prior art. Referring to FIG. 1, an RFID system including a mobile RFID reader according to the related art includes a data server 11; A host computer 12, an RFID reader 13, and an RFID tag 14 attached to a target are included.

Referring to the operation of the RFID system according to the prior art, the RFID tag 14 attached to the target is embedded with a chip of a unique ID and an antenna for receiving / transmitting a radio signal is connected to the RFID reader 13 All the energy required for wireless communication with the antenna and for the chip of the RFID tag 14 to operate is supplied from the RFID reader 13. The RFID reader 13 receives a unique ID from its antenna (not shown) of the RFID tag 14 and transmits it to the host computer 12 connected by wire. The host computer 10 collects ID information of the RFID tag 18 transmitted from the reader 14 and stores the ID information in the storage medium of the host computer itself or in the DB server 11.

However, the conventional RFID system is very complicated, and the mobile RFID system has a disadvantage in that it is vulnerable to fast information acquisition because it is inconvenient to always hold the device by hand, and there is a significant limitation in the behavior of the information acquirer. There is a problem.

SUMMARY OF THE INVENTION An object of the present invention for solving the above problems is to obtain the information in the RFID tag much more convenient than acquiring information through a conventional mobile system, and is limited to the location and size constraints in various fields The aim is to provide an RFID system that can be used widely.

In order to solve the above problems, a first aspect of the present invention is installed on any one leg of the glasses, the communication device capable of transmitting and receiving information from the RFID; And transmissive display means for displaying the received RFID information on any one of the lenses of the spectacles.

Preferably, the display means is a TFT LCD, and the singer communication device comprises: a transmitting circuit for generating a first signal including power in the RFID; And a receiving circuit for receiving and processing a second signal transmitted by the RFID, wherein the communication device comprises: a power amplifier for amplifying the first signal to be transmitted to the RFID; And a receiving circuit transmitting the amplified first signal to the RFID and receiving and processing a second signal transmitted by the RFID.

A second aspect of the invention is an antenna surrounding at least one of the spectacle frame, the antenna for transmitting / receiving a signal to the RFID; A signal processing device connected to the antenna and processing the signal; And a transmissive display means connected to the signal processing apparatus and displaying information received from the RFID on any one of the lenses of the glasses.

Here, preferably, the transmissive display means may be a TFT LCD, and may further include a power amplifier for amplifying a signal to be transmitted to the RFID, and the signal processing apparatus may be configured to match a transmission / reception signal. Matching circuit; A reader IC connected to the matching circuit; And a microprocessor connected to the reader IC.

In addition, a third aspect of the present invention provides an antenna for transmitting / receiving a signal to RFID; A signal processing device connected to the antenna and processing the signal; And a transmissive display means for displaying information received from the RFID, wherein the antenna and the signal processing device are configured as a single box module, and the box module and the transmissive display means are foldably connected to each other. It is mounted on the side.

When the RFID reader system according to the present invention is provided, the information on the RFID tag can be obtained more conveniently by only wearing glasses than the information obtained through the conventional mobile system, and in various fields. It can be used widely regardless of location and size constraints.

In addition, if the information acquirer only looks at the object, the information is displayed on the transmissive display means installed in front of the glasses, so that the information can be recognized. It becomes possible.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a view showing the configuration of an eyeglass type RFID reader system according to the present invention. As shown in FIG. 2, the system may receive the RFID tag at one side of the leg 2 of the glasses and transmit the received signal to at least one of the communication device 100 and the lens 1 of the glasses to process the received signal. It is composed of a transmissive display means 200 for displaying an RFID signal.

As described above, in the present invention, unlike a general mobile RFID reader such as a terminal, the signal is received from the RFID tag by being attached to or mounted on the glasses to be displayed on the lens 1 portion of the glasses through the transmissive display means 200. Thus, the information acquirer has an advantage of easily acquiring the tag information only by wearing the glasses.

Here, the communication device 100 includes a transmission circuit for generating a first signal including power to the RFID, and a reception circuit 110 for receiving and processing a second signal transmitted by the RFID. It is configured to include. The receiving circuit 110 includes essential circuits of the RFID reader system except for the transmitting circuit. For example, the receiving circuit 110 includes a receiving circuit 110 for receiving data transmitted by the RFID, and a processor for processing the received data.

The transmission circuit generates a transmission signal including power and data to be sent to the RFID of the RFID reader system, and outputs the generated transmission signal. Data to be transmitted to the RFID by the transmitting circuit is provided from the receiving circuit through the connection line.

As shown in Fig. 2, the display means 200 is attached to the lens 1 of the spectacles so that the information acquirer can read the RFID tag information through the spectacles. The display means 200 is preferably a transmissive display means 200, such as a TFT LCD, which is mounted on at least one of the lenses 1 of the glasses to display the information read and processed by the receiving circuit of the RFID reader system. It will function.

The display means 200 is connected to the package of the communication circuit to display the tag information by the miniaturized light-emitting LCD, the installation and mounting position can be installed in the most suitable position in consideration of the connection configuration of the efficiency and structure of the system. Of course.

Through such a configuration, the information in the RFID tag can be obtained only by wearing glasses much more conveniently than the information obtained through the conventional mobile system, but also limited to the location and size constraints in various fields. It can be used widely.

3 is a block diagram illustrating the communication device 100 in the RFID reader system according to the present invention. As shown in FIG. 3, the communication device 100 includes a receiving circuit 110, a power amplifier, and an antenna 130, and is implemented in a single package by SIP technology. Here, the receiving circuit 110 includes essential circuits of the RFID reader system except for the power amplifier.

The power amplifier receives and amplifies a transmission signal containing power and data to be sent to the RFID reader system through the connection line. The amplified transmission signal is provided to the receiving circuit 110 through the connection line. The receiving circuit 110 transmits the amplified transmission signal to the RFID. Since the RFID reader system is separated from the receiving circuit 110 and the power amplifier 120 that consumes the most power, it is easy to separate the transmission power and the reception power.

4 is a diagram illustrating the configuration of an eyeglass type RFID reader system as another embodiment according to the present invention. As shown in FIG. 4, an antenna 130 for transmitting / receiving a signal from an RFID tag enclosed along the spectacle frame 15 and installed on at least one of the spectacle frames 15 is installed on one of the legs 2 of the spectacle frame. And a transmissive display means (200) for displaying the processed RFID information on either one of the signal processing device (150) for receiving and processing a signal from the antenna (130) and the lens (1) of the glasses.

Here, the antenna 130 is preferably used for the transmission / reception antenna 130, and is installed along at least one of the eyeglass frame 15 along the eyeglass frame 15, which is an RFID transmission / reception antenna 130 This is because the structure of the antenna frame 130 can be formed by avoiding the restriction of the size of the antenna 130 and providing the most suitable and excellent transmit / receive sensitivity.

Also, the signal processing device preferably includes a matching circuit, a reader IC, and a microprocessor. That is, the signal received from the antenna 130 is impedance-matched by the matching circuit, and the reader IC modulates the protocol to meet the standard of each protocol (protocol) so that the antenna 130 can send the RFID tag signal, and the antenna Receives a signal received from the 130 is responsible for analyzing and transmitting the first sign signal to the protocol. The microprocessor generates a signal for transmitting the data of the reader IC to the display means 200, and displays the state when the RFID tag is recognized.

In addition, it is also possible to include an interface in the system, which is for an intermediate configuration that allows the connection with the signal processing device 150 as necessary, separate from the display means 200.

As shown in Fig. 4, the system of the present invention has a structure in which the display means 200 is attached to the lens 1 of the spectacles so that the information acquirer can read the RFID tag information through the spectacles. Preferably, the display means 200 is a transmissive display means 200, such as a TFT LCD, and is mounted on at least one of the lenses 1 of the spectacles to be read and processed by the signal processing device 150 of the RFID reader system. It will display the information.

In addition, the display means 200 is connected to the package of the communication circuit to display the tag information by the miniaturized light-emitting LCD, the installation and mounting position is installed in the most suitable position in consideration of the connection configuration of the efficiency and structure of the system. Of course it can.

FIG. 5 is a diagram illustrating a configuration of an eyeglass type RFID reader system as another embodiment according to the present invention. As shown in Figure 5, the system of the present invention includes an antenna 130 for transmitting and receiving signals to the RFID; A signal processing device 150 connected to the antenna 130 to process the signal; A transmissive display means 200 for displaying the information received from the RFID is configured to include, the antenna 130 and the signal processing device 150 is composed of a single box module, the box module and the transmissive type The display means 200 is foldably connected, characterized in that mounted on the side of the glasses.

Here, the transmissive display means 200 is a device such as LCD is connected to one box module consisting of the antenna 130 and the signal processing device 150 foldable, this system is perpendicular to the lens (1) of the glasses By installing on the side of the connected leg 2, the LCD can be placed in front of the spectacle lens 1 to display the signal information received from the RFID tag.

6 is a schematic block diagram 500 of an RFID reader system in accordance with the present invention separated from glasses. As shown in FIG. 6, the system 500 of the present invention includes a box-type module composed of an antenna 130, a signal processing device 150, and a transmissive display means 200 foldably connected to the module. It is an integrated structure. The antenna 130 may be any one of a built-in type and an external type in the box type module, and a mounting structure may be installed on one side of the box type module so as to be detached / mounted on the leg 2 of the glasses.

The display means 200 is foldably mounted and connected to one side of the box-shaped module, so that when it is separated from the glasses, the display means 200 can be folded and stored in a stable state. It is located at the front of the structure so that the information acquirer can recognize by displaying the information received from the RFID tag only by wearing the glasses.

Such a system configuration is convenient to be mounted on the glasses, and if used on the glasses, the RFID information acquirer can recognize the information only by wearing it without restriction on the behavior, and can apply the system in various fields. Will be.

As described above, using the system of the present invention, it is possible to conveniently determine the type and the list of the information acquisition targets, and the information is displayed on the transmissive display means 200 installed in front of the glasses if the information acquirer only looks at the targets. The information can be recognized. When explaining the application example in the hospital, all data of the patient can be recognized by the nurse wearing glasses according to the present invention without the need for a separate device, or by staring at the patient passing by it can know all the information of the patient. . In addition, customs officials simply by wearing the glasses according to the present invention will be able to recognize the list information.

While the invention has been shown and described with respect to the specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Anyone with it will know easily.

1 is a block diagram showing an RFID system including a mobile RFID reader according to the prior art,

2 is a view showing the configuration of an eyeglass type RFID reader system according to the present invention;

3 is a block diagram illustrating a communication device in an RFID reader system according to the present invention;

4 is a view illustrating the configuration of an eyeglass type RFID reader system as another embodiment according to the present invention;

FIG. 5 is a diagram illustrating a configuration of an eyeglass type RFID reader system as another embodiment according to the present invention; FIG.

6 is a schematic block diagram of an RFID reader system according to the present invention separated from glasses.

Claims (9)

A communication device installed on one leg of the glasses and capable of transmitting / receiving information from RFID; And, Glasses type RFID reader system, characterized in that the transmission type display means for displaying the received RFID information on any one of the lenses of the glasses. The method of claim 1, And the display means is a TFT LCD. The method according to claim 1 or 2, The singer communication device includes a transmitting circuit for generating a first signal including power in the RFID; And And a receiving circuit for receiving and processing a second signal transmitted by the RFID. The method according to claim 1 or 2, The communication device includes a power amplifier for amplifying a first signal to be transmitted to an RFID; And a receiving circuit transmitting the amplified first signal to the RFID and receiving and processing a second signal transmitted by the RFID. An antenna surrounding at least one eyeglass frame and transmitting / receiving a signal to the RFID; A signal processing device connected to the antenna and processing the signal; Glasses type RFID reader system is connected to the signal processing device is characterized in that the transmission display means for displaying the information received from the RFID on any one of the lenses of the glasses. The method of claim 5, And said transmissive display means is a TFT LCD. The method of claim 5, And a power amplifier for amplifying a signal to be transmitted to the RFID. The method of claim 5, The signal processing apparatus includes a matching circuit for matching a transmission / reception signal; A reader IC connected to the matching circuit; And a microprocessor coupled to the reader IC. An antenna for transmitting / receiving a signal to the RFID; A signal processing device connected to the antenna and processing the signal; It comprises a light-emitting display means for displaying the information received from the RFID, The antenna and the signal processing device is composed of a single box module, and the box module and the transmissive display means is connected to the folding glasses type RFID reader system, characterized in that mounted on the side of the glasses.

Images