KR101205791B1 - Object proximity sensor features an RFID tag reader - Google Patents

Abstract

According to an aspect of the present invention, there is provided an RFID tag reader, comprising: a loop-type short-range UHF antenna receiving an RF signal when the RFID tag is attached to an object; An RF signal sensing unit configured to recognize a proximity of an object to which an RFID tag is attached through an RF signal received from the loop type near UHF antenna and output a proximity signal; An RFID tag reader module activated through a proximity signal output from the RF signal sensing unit to collect the RFID tag information; And a short-range communication module configured to transfer the RFID tag information collected from the RFID tag reader module to a portable terminal.

Description

Object proximity sensor features an RFID tag reader

The present invention relates to an RFID tag reader having an object proximity recognition sensor function, and recognizes that an object tagged with an RF signal sensing unit is close to an RF signal received from a loop type near UHF antenna to activate an RFID tag reader module. The present invention relates to an RFID tag reader having a proximity sensor function.

Radio Frequency IDentification (RFID) stores information on the entire process of production, distribution, storage, and consumption in tags and / or chips attached to products, and enables RFID transceivers to It is a technology implemented to read the information stored in the tag, to connect to the satellite or mobile communication network and integrate with the information system to utilize the read information.

1 is a block diagram of a general RFID system.

As shown in FIG. 1, the RFID system 100 includes an RFID tag 10 corresponding to a transponder (general term for a wireless transceiver for automatically returning a specific signal in response to an external signal) and the RFID tag. A tag antenna 20 for transmitting and receiving a radio frequency (RF) signal (hereinafter referred to as an "RF signal") and an RFID information received from the RFID tag 10 RFID reader (or RFID reader) 30 or the like. In addition, the RFID reading device 30 may be linked with at least one information processing system (eg, a server having a database) according to an application method of the RFID system.

The RFID tag 10 generally consists of a single chipset (eg, an integrated circuit) including an antenna, which records information in an integrated circuit and transmits the information to the RFID reader through the antenna.

RFID can be classified into passive RFID, semi-passive RFID, and active RFID according to the power used. The RFID that reads and communicates information of the chip only by the power of the reader is called passive RFID.

Semi-passive RFID is a battery with a tag that uses its power to read information from the chip and a reader to communicate with it. In addition, active RFID means that the power of the tag is both used to read the information of the chip and communicate the information. Passive RFID is common, and unless otherwise noted, the RFID tag is a passive RFID tag.

RFID tags are also classified into low frequency tags (LFID), high frequency tags (HFID) and ultra high frequency tags (UHFID) according to the frequency band used for communication instead of power. Here, in the case of the ultra high frequency RFID having the UHFID, there is a problem in that an area that is not recognized is generated when a tag of an area not recognized or a tag is recognized at a fixed position due to a wide recognition distance. In addition, the conventional RFID reader has a problem in that the tag recognition operation and the loading operation is performed separately when the object is picked up and loaded, and thus the work efficiency decreases accordingly.

Accordingly, the present invention is to solve the problems posed by the prior art, the present invention relates to an RFID tag reader having an object proximity sensor function, by receiving an RF signal with a loop type near UHF antenna, the conventional UHF If the reader recognizes the RFID tag in an area that is not applicable due to the wide recognition distance or when the RFID tag is recognized in a fixed position, an object proximity recognition sensor that can improve the RFID tag information collection performance by preventing the unrecognized area from occurring. The purpose is to provide a RFID tag reader with a function.

In addition, the present invention activates the RFID tag reader module by recognizing the proximity of the RFID tag attached object in the RF signal sensing unit to the RF signal received from the loop type UHF antenna, when the RFID tag attached object approaches It is an object of the present invention to provide an RFID tag reader having an object proximity recognition sensor function capable of dynamically extending the operating time of the reader by activating the RFID tag reader module only.

In addition, the present invention consists of a glove-type wearable reader to be mounted on the hand, the RFID tag recognition operation and loading operation is performed at the same time to provide an RFID tag reader with an object proximity recognition sensor function that can maximize the efficiency of the operation. There is a purpose.

According to an aspect of the present invention, there is provided an RFID tag reader, comprising: a loop-type short-range UHF antenna receiving an RF signal in proximity to an object to which an RFID tag is attached; An RF signal sensing unit configured to recognize a proximity of an object to which an RFID tag is attached through an RF signal received from the loop type near UHF antenna and output a proximity signal; An RFID tag reader module activated through a proximity signal output from the RF signal sensing unit to collect the RFID tag information; And a short range communication module configured to transfer the RFID tag information collected from the RFID tag reader module to the portable terminal, wherein the RFID tag reader has a proximity sensor function.

The RFID tag reader may be a glove type wearable reader mounted on a hand.

The RFID tag reader module may further include: a receiving unit receiving a proximity signal output from the RF signal sensing unit; A collecting unit collecting RFID tag information attached to the object through the proximity signal received from the receiving unit; And a transmitter for transmitting the RFID tag information collected from the collector to the short range communication module.

The apparatus may further include a power supply unit supplying power to activate the RFID tag reader module when a proximity signal is output from the RF signal sensing unit.

The short range communication module may transmit the RFID tag information to a portable terminal through any one of Bluetooth, UWB, Zigbee, and binary CDMA communication network.

As described above, the present invention relates to a tag reader having an object proximity recognition sensor function, and by receiving an RF signal with a loop type near UHF antenna, in the case of a conventional UHF reader due to a wide recognition distance, When recognizing an RFID tag or recognizing an RFID tag at a fixed location, an area that is not recognized can be prevented from occurring, thereby improving information collection performance of the RFID tag.

In addition, the present invention activates the RFID tag reader module by recognizing the proximity of the RFID tag attached object in the RF signal sensing unit to the RF signal received from the loop type UHF antenna, when the RFID tag attached object approaches Only by activating the RFID tag reader module has the effect of dynamically extending the operating time of the reader.

In addition, the present invention is made of a glove-type wearable reader to be mounted on the hand, the RFID tag recognition operation and the loading operation is made at the same time has the effect of maximizing the efficiency of the operation.

1 is a block diagram of a general RFID system according to the prior art.
2 is a schematic block diagram of an RFID tag reader having an object proximity sensor according to an embodiment of the present invention.
3 is a detailed block diagram of an RFID tag reader module employed in an RFID tag reader having an object proximity recognition sensor function according to an exemplary embodiment of the present invention.
4 is a block diagram of an RFID tag reader having a proximity sensor function of the glove-type wearable type mounted on the hand according to the embodiment of the present invention.

Matters regarding the operational effects including the technical configuration of the RFID tag reader with the proximity sensor function according to the present invention will be clearly understood by the following detailed description with reference to the drawings in which preferred embodiments of the present invention are shown.

Referring to FIG. 2, the present invention provides a loop-type near UHF antenna 110 and a loop-type near UHF antenna 110 that receive an RF signal when the RFID tag reader approaches an object with an RFID tag. The RF signal sensing unit 120 recognizes the proximity of an object with an RFID tag through an RF signal received from the RF signal sensing unit 120 and outputs a proximity signal, and is activated through the proximity signal output from the RF signal sensing unit 120. And a near field communication module (150) for transmitting the RFID tag reader module (130) for collecting the RFID tag information and the RFID tag information collected from the RFID tag reader module (130) to the portable terminal (160). It may be made of an RFID tag reader 100 having an object proximity recognition function.

Here, the RFID tag reader 100 having the object proximity recognition sensor function may be formed of a glove type wearable reader 100 mounted on a hand as shown in FIG. 4. In this case, the wearable is in the original sense of "wearable", the wearable reader 100 is used as a wearable reader 100 in a shape suitable for various wearing methods.

Meanwhile, the RFID tag reader 100 having an object proximity recognition sensor function according to the present invention is provided as a glove-type wearable reader 100 to fit a work environment for picking up and loading an object, but the RFID tag reader having the object proximity recognition sensor function ( In addition to gloves, 100 may be mounted on clothing and accessories such as belts, bracelets, anklets, watches, shoes, socks, and the like.

 The loop type near UHF antenna 110 receives an RF signal in the proximity of an object to which an RFID tag is attached. At this time, the short-range UHF antenna 110 is a microwave antenna 110, the wavelength is from 1m to 10cm, the frequency uses a radio wave from 300 to 3000 megacycles. Because of the shorter wavelength and stronger directivity than VHF, the reach is limited but can have more channels. In addition, an advantage of the near UHF antenna 110 is that the wavelength band is short due to the high frequency of this region. This is because the transmitter and receiver equipment can be made small by using a radio wave having a short wavelength. Also, in two-way radio communications and cordless telephones, UHF signals propagate out of the line of sight, which generally means that radio waves do not travel far without interference in long distance transmissions. Many public and operator communications are based on this UHF and include commercial services such as GMRS, PMR446 and UHF CB. When you want to send out radio wave out of line of sight, use repeater to retransmit. The short-range UHF antenna 110 is provided in a loop type to improve reception sensitivity.

The RF signal sensing unit 120 outputs a proximity signal by recognizing that an object attached to the RFID tag is close by the RF signal received from the loop type UHF antenna 110. That is, the RF signal sensing unit 120 outputs the proximity signal to the RFID tag reader module 130.

The RFID tag reader module 130 is activated through a proximity signal output from the RF signal sensing unit 120 to collect the RFID tag information.

The RFID tag reader module 130 may include a receiver 131, a collector 132, and a transmitter 133.

The receiver 131 receives a proximity signal output from the RF signal sensing unit 120. The collector 132 collects RFID tag information attached to the object through a proximity signal received from the receiver 131. The transmitter 133 transmits the RFID tag information collected from the collector 132 to the short range communication module 150.

The RFID tag reader module 130 is activated by receiving power through the power supply unit 140 when a proximity signal is output from the RF signal sensing unit 120.

The short range communication module 150 transmits the RFID tag information collected from the RFID tag reader module 130 to the portable terminal 160. In this case, the short range communication module 150 may transmit the RFID tag information to a portable terminal 160 such as a mobile phone, a smart phone, or a tablet PC through any one of Bluetooth, UWB, Zigbee, and binary CDMA communication network.

As described above, the present invention relates to a tag reader 100 having an object proximity recognition sensor function, and by receiving an RF signal with a loop type near UHF antenna 110, in the case of the conventional UHF reader 100, wide recognition. When recognizing an RFID tag in an area that is not applicable due to the distance or when the RFID tag is recognized at a fixed location, an unrecognized area may be prevented from occurring, thereby improving information collection performance of the RFID tag.

In addition, the present invention by activating the RFID tag reader module 130 by recognizing that the RF signal received from the loop-type short-range UHF antenna 110 is close to the object attached to the RFID tag in the RF signal sensing unit 120, An RFID tag reader module 130 may be activated only when an object with an RFID tag approaches to dynamically extend an operating time of the reader 100.

In addition, the present invention is made of a glove-type wearable reader 100 to be mounted on the hand, the RFID tag recognition operation and the loading operation can be made at the same time to maximize the efficiency of the operation.

In the above, the preferred embodiment of the present invention has been described in detail, but it will be understood by those skilled in the art that various modifications and equivalent other implementations are possible.

Accordingly, the scope of the present invention should not be limited to the disclosed embodiments but should be regarded as belonging to various modifications and improvements of those skilled in the art using the basic concept of the present invention as defined in the following claims, or the scope of the present invention. .

100: RFID tag reader with proximity sensor
110: near UHF antenna 120: RF signal sensing unit
130: RFID tag reader module 150: short range communication module
160: portable terminal

Claims (5)

RFID tag reader,
A loop-type near UHF antenna receiving an RF signal when the RFID tag is attached to an object;
An RF signal sensing unit configured to recognize a proximity of an object to which an RFID tag is attached through an RF signal received from the loop type near UHF antenna and output a proximity signal;
A power supply unit supplying power to activate an RFID tag reader module when a proximity signal is output from the RF signal sensing unit;
An RFID tag reader module which is activated by receiving power from the power supply unit and collects the RFID tag information; And
It includes a short-range communication module for transmitting the RFID tag information collected from the RFID tag reader module to the portable terminal,
The RFID tag reader module,
Receiving unit for receiving the proximity signal output from the RF signal sensing unit,
A collecting unit collecting RFID tag information attached to the object through the proximity signal received from the receiving unit;
And a transmitter for transmitting the RFID tag information collected from the collection unit to the short range communication module.
The method of claim 1,
The RFID tag reader is an RFID tag reader having a proximity sensor function, characterized in that the glove-type wearable reader to be mounted on the hand.
delete delete The method of claim 1,
The short range communication module is an RFID tag reader having an object proximity sensor function, characterized in that for transmitting the RFID tag information to a portable terminal through any one of Bluetooth, UWB, Zigbee, binary CDMA communication network.

Images