KR102215036B1 - RFID reader device including movable reader terminal selectively connected with gate antenna, and cattle traceability system using the same - Google Patents

Abstract

The RFID reader of the present invention is installed in a gate, a gate antenna capable of data communication with an RFID tag passing through the gate, a portable RFID terminal capable of data communication with the RFID tag through an internal antenna, and the gate antenna and the portable It includes a port switching switch for selectively connecting and disconnecting the RFID terminal. According to the present invention as described above, it is not necessary to perform a separate network construction on the gate.

Description

An RFID reader device including a movable reader terminal selectively connected with gate antenna, and cattle traceability system using the same.

The present invention relates to an RFID reader in which a portable terminal is selectively connected to a gate antenna, and a livestock individual history management system using the same. More specifically, in installing an antenna having a unidirectional directivity on a gate, the gate structure is By installing a plurality of gate antennas accordingly, and connecting a plurality of gate antennas to one portable RFID terminal, separate power supply and network construction are not required to the gate, and mobility is provided by mounting a moving means on the gate and using a traction means. At this time, it relates to a livestock entity history management system including an RFID reader that enhances the mobility of the gate by connecting a portable terminal as necessary even when networking is difficult because power is not separately supplied to the gate.

In general, farmhouses that raise livestock such as cows and pigs attach identification tags that record livestock individual history information to the ears of livestock to facilitate management.

Recently, according to the development of various wireless communication technologies, various types of identification tags have been developed to increase the efficiency of livestock individual management by incorporating wireless communication technology into identification tags for managing livestock individuals.

Among livestock entity management technologies incorporating such wireless communication, a technology for managing livestock entity history to which RFID (Radio Frequency IDentification) technology is applied is widely adopted based on various advantages.

RFID technology refers to a technology that recognizes information from a long distance using wireless communication. This requires an RFID tag and an RFID reader. The RFID tag consists of an integrated circuit and an antenna, and records information in the integrated circuit and transmits the information to the RFID reader through the antenna. This information is used to identify the object to which the RFID tag is attached.

RFID readers can be classified into portable RFID readers and fixed RFID readers that are constantly installed at the gate.

The portable RFID reader is equipped with an internal antenna and a network communication means, so it is very convenient to manage the individual history of livestock. However, it is not enough to manage gates or large farms where livestock frequently move using portable RFID readers. Therefore, there is a limit to the use of several portable RFID readers in order to effectively check the gate when a large number of livestock passes through it at once.

On the other hand, in a fixed RFID reader, which is installed on a gate and is used to constantly manage individual history information of livestock passing through the gate, power supply means and network means must be separately constructed. In the outer area where it is difficult to install a fixed RFID reader on a large farm, the cost burden of such additional installation is high.

Therefore, the present invention has been conceived to solve the problems of the prior art as described above, and an object of the present invention is to provide an individual history of livestock through connection with a portable RFID reader without having a separate power supply means and network means at the gate. It is to provide an RFID reader that can collect information and a livestock entity history management system using the same.

Another object of the present invention is to provide an RFID reader that can easily connect or separate and use one or more RFID antennas and a portable RFID reader installed on a gate as needed, and a livestock entity history management system using the same.

Another object of the present invention is to provide an RFID reader capable of providing a power supply means and a network means to a movable gate when mobility is imparted to the gate, and a livestock entity history management system using the same.

According to a feature of the present invention for achieving the above object, the livestock entity history management system of the present invention processes the data signal received from the RFID tag through an RFID tag attached to a livestock and an internal antenna to provide livestock entity history. An RFID reader that outputs information, and a livestock entity history management server that receives and monitors the livestock entity history information through a wired/wireless network and serves a client, wherein the RFID reader includes a portable RFID terminal having a fixed RFID gate of the gate. By having a structure that is selectively separated and coupled through an antenna and a port switching switch, the portable RFID terminal normally receives and processes the data signal through the internal antenna, and after being connected to the gate antenna through the port switching switch May receive and process the data signal through the gate antenna.

According to another feature of the present invention, the RFID reader of the present invention is installed on a gate, a gate antenna capable of data communication with an RFID tag passing through the gate, a portable RFID terminal capable of data communication with the RFID tag through an internal antenna, And a port switching switch selectively connecting and separating the gate antenna and the portable RFID terminal.

As described above, according to the configuration of the present invention, the following effects can be expected.

First, it is economical because it is not necessary to separately provide a power supply means and a network means in the gate where the antenna is installed.

Second, when providing mobility by installing wheels on the gate and towing using a vehicle, the portable terminal can be connected as needed even when the network is difficult because power is not supplied to the gate separately, thereby enhancing the mobility of the gate. There is.

1 is a block diagram showing the configuration of a livestock individual history management system according to the present invention.
2 is a perspective view showing the configuration of a gate antenna installed on a gate according to the present invention.
3 is a perspective view showing the configuration of a port switching switch selectively connected to a terminal according to the present invention.
4 is a perspective view showing a moving means and a traction means of a gate according to the present invention.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms different from each other, and only these embodiments make the disclosure of the present invention complete, and common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to the possessor, and the invention is only defined by the scope of the claims. In the drawings, the sizes and relative sizes of layers and regions may be exaggerated for clarity of description. The same reference numerals refer to the same components throughout the specification.

Hereinafter, a preferred embodiment of an RFID reader in which a portable terminal according to the present invention having the above configuration is selectively connected to a gate antenna, and a livestock entity history management system using the same will be described in detail with reference to the accompanying drawings.

1 and 2, the livestock individual history management system 1000 of the present invention, the RFID tag (T) attached to the livestock, an RFID reader 100 that receives and processes a data signal from the RFID tag (T) , And a livestock entity history management server 200 connected to the RFID reader 100 using a wired/wireless network.

The RFID tag T is not shown in the drawing, but an RFID IC chip containing livestock object history information, and livestock object history information from the RFID IC chip when livestock passes through the gate G, the RFID reader 100 It may include an RFID antenna to communicate with, and a molding base on which the RFID IC chip and the RFID antenna are mounted.

The RFID reader 100 includes an RFID tag T passing through the gate G by being installed at the gate G, a gate antenna 110 capable of receiving data, and an RFID tag T through an internal antenna A. A portable RFID terminal 120 capable of receiving and processing data, and a port switching switch 150 selectively connecting and disconnecting the gate antenna 110 and the portable RFID terminal 120 may be included.

The gate antenna 110 may include one or more first to fourth antennas 110a to 110d that are interconnected through a cable. It may be installed to be changeable to an appropriate number according to the structure and size of the gate (G).

For example, if the gate antenna 110 includes a loop-shaped antenna having a predetermined inductance and resistance, even if the magnetic field formed by the loop radiation is uniformly formed, an area that cannot be recognized according to the position of the RFID tag T is Can exist. As described above, since the gate antenna 110 has a recognition range limited to a specific region, at least one gate antenna 110 needs to be installed at a predetermined position according to the structure and size of the gate G. On the other hand, if the transmission/reception direction can be changed according to the movement of livestock passing through the gate antenna 110, the function can be realized as one gate antenna 110.

When a livestock to which the RFID tag T is attached passes through the gate G, livestock individual history information may be received through an external gate antenna 110. Alternatively, livestock entity history information may be received through the internal antenna A of the terminal 120. Therefore, the portable RFID terminal 120 is selectively separated and coupled through the gate antenna 110 installed on the gate G and the port switching switch 150, so that the portable RFID terminal 120 normally uses the internal antenna A. The data signal may be received through the gate antenna 110 while receiving a data signal through the port switching switch 150 and after being connected to the gate antenna 110 through the port switching switch 150.

The portable RFID terminal 120 basically has a data processing module 122 that processes all data received from the RFID tag T through an internal antenna A or an external gate antenna 110, and an internal antenna ( A data receiving module 124 receiving data through A) and a switch switching module 126 receiving data through the gate antenna 110 may be included.

The portable RFID terminal 120 may further include a network communication module 128 having an interface function that transmits data to the livestock entity history management server 200 through wired/wireless communication by interworking with the network mobile communication network N. . It may further include a display module 132 for directly displaying received and stored data. Although not shown in the drawing, a memory for storing unique identification information of the RFID tag T may be further included, or a user interface including a button, a touch pad, a key input window, or other input means may be further included.

In the present invention, the data reception module 124 describes only data reception, but is not limited thereto and is interpreted as including all data transmission and reception throughout the invention. For example, a data signal is encoded and modulated according to the control of the data receiving module 124, converted into an analog signal, and then output, and the output analog signal is radiated by frequency up-conversion and power amplification, or vice versa. After receiving and amplifying power, down-converting, converting into a digital signal, demodulating and decoding, and providing.

When the switch switching module 126 is connected to the gate antenna 110 through the port switching switch 150, the portable RFID terminal 120 may automatically switch the antenna so that the gate antenna 110 can be used. That is, when the switch switching module 126 is connected to the port switching switch 150 through a dedicated cable, the switch switching module 126 is an antenna so that the portable RFID terminal 120 is switched exclusively to the external gate antenna 110. Can be converted. Conversely, when the port switching switch 150 is separated, the switch switching module 126 allows the portable RFID terminal 120 to be switched to the internal antenna (A) dedicated mode.

The port switching switch 150 performs a function of setting a path so that a specific antenna is selectively connected to the switch switching module 126 among the external first to fourth antennas 110a to 110d.

For example, referring to FIG. 3, when the port changeover switch 150 uses a 4 port switch, each output port 154a to 154d is sequentially switched with the switch switching module 126 to transmit and receive data. Make it possible. The switch switching module 126 enables only a predetermined antenna among the plurality of antennas 110a to 110d to be operated at a specific point in time, so that the number of antennas is not limited, and data can be processed in real time.

Accordingly, the port switching switch 150 includes one input port 152 corresponding to the portable RFID terminal 120, and a plurality of output ports corresponding to the plurality of first to fourth antennas 110a to 110d ( 154a to 154d).

Livestock entity history management server 200 collects livestock entity history information from each portable RFID terminal 120 through a network mobile communication network (N), continuously monitors the presence or absence of diseases of livestock, and makes data at regular intervals. And provide it to the client.

Meanwhile, referring to FIG. 4, the gate G of the present invention may further include a moving means Ga. When the gate G is composed of a pair of vertical frames and a horizontal frame that connects the vertical frames to allow livestock to pass, wheels may be mounted under the vertical frame. For example, it is possible to move the gate G to a desired location by attaching a wheel to the gate G. Alternatively, the gate G may be moved using the traction means Gb. For example, the gate G may be moved by connecting it to a traction means Gb such as a vehicle.

In this way, if the moving means Ga is installed on the gate G and connected to the traction means Gb, the total number of gates G can be reduced due to mobility. When moving the gate by attaching the moving means to the gate (G), it is more difficult to install a separate power supply means or network means in the gate (G).

At this time, the portable RFID terminal 120 of the present invention is selectively separated and connected to the movable gate G, thereby enhancing the function of the gate G, which does not have a power supply means and a network means by itself.

As described above, the present invention installs a connector in a portable RFID terminal and selectively connects it to a gate antenna using a port switching switch on the connector, so that data communication with an RFID tag is usually performed using an internal antenna, Later, it can be seen that the configuration used exclusively for the gate antenna is a technical idea. Within the scope of the basic technical idea of the present invention, many other modifications may be made to those of ordinary skill in the art.

1000: Livestock entity history management system
100: RFID reader 110: gate antenna
110a to 110d: first to fourth antennas
120: portable RFID terminal 122: data processing module
124: data receiving module 126: switch switching module
128: network communication module 132: display module
150: port changeover switch 152: input port
154a to 154d: output port
200: livestock object history management server
A: Internal antenna G: Gate
Ga: Vehicle Gb: Towing
N: network mobile network T: RFID tag

Claims (11)

As a livestock individual history management system for livestock farms with a gate including a means of movement to be movable,
RFID tags attached to livestock;
A portable RFID terminal that processes a data signal received from the RFID tag through an internal antenna or processes a data signal received from an RFID tag passing through the gate through a gate antenna installed in the gate, and outputs livestock individual history information ; And
Including; a livestock entity history management server that receives and monitors the livestock entity history information transmitted through a wired or wireless network, and serves to a client,
The portable RFID terminal has a structure that is selectively separated and coupled through the gate antenna and a port switching switch, and usually receives and processes the data signal through the internal antenna, and is connected to the gate antenna through the port switching switch. Thereafter, an antenna switching is automatically performed to receive and process the data signal through the gate antenna, thereby providing a power supply means and a network means for the gate antenna,
The port switching switch includes an output port connected to the gate antenna and an input port connected to the portable RFID terminal, and the output port is interlocked with the gate antenna number, and the plurality of output ports are sequentially switched, At a specific point in time, only one of the plurality of gate antennas is operated and a path is set to be connected to the portable RFID terminal. The method of claim 1,
The gate includes a wheel, livestock individual history management system, characterized in that the traction is possible to be connected to the vehicle. delete delete The method of claim 1,
The RFID tag,
An RFID IC chip containing the livestock individual history information;
An RFID antenna that enables the livestock individual history information to communicate with the gate antenna or the internal antenna; And
And a molding base on which the RFID IC chip and the RFID antenna are mounted. As an RFID reader for managing livestock individual history of livestock farms with a gate including a means of movement to be movable,
A gate antenna installed on the gate and capable of data communication with an RFID tag passing through the gate;
Processes the data signal received from the RFID tag through an internal antenna, or receives a data signal from the RFID tag passing through the gate through the gate antenna, and serves as a livestock entity history management server serving a client through a wired or wireless network. A portable RFID terminal for transmitting livestock entity history information; And
Including; a port switching switch for selectively connecting and separating the gate antenna and the portable RFID terminal,
The portable RFID terminal normally receives and processes the data signal through the internal antenna, and then automatically receives and processes the data signal through the gate antenna after being connected to the gate antenna through the port switching switch. By performing the switching, providing a power supply means and a network means for the gate antenna,
The port switching switch includes an output port connected to the gate antenna and an input port connected to the portable RFID terminal, and the output port is interlocked with the gate antenna number, and the plurality of output ports are sequentially switched, An RFID reader, characterized in that, at a specific point in time, only one of the plurality of gate antennas is operated and a path is set to be connected to the portable RFID terminal. The method of claim 6,
The portable RFID terminal,
A data receiving module for receiving the data through the internal antenna;
A switch switching module for receiving the data through the gate antenna;
A data processing module that processes the data;
A network communication module for transmitting the data through a network mobile communication network; And
RFID reader comprising a; display module for displaying the data. delete The method of claim 7,
The portable RFID terminal further includes a connector, and when the port switching switch is connected to the connector through a dedicated cable, the switch switching module automatically switches the antenna from the internal antenna only to the gate antenna only. RFID reader. The method of claim 9,
The gate antenna includes a plurality of antennas that are changeable according to the structure and size of the gate,
The port switching switch, wherein the RFID reader comprises one input port corresponding to the portable RFID terminal and a plurality of output ports corresponding to the plurality of antennas. delete

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