KR101192833B1 - Product Distribution Management System Using RFID Shield Room And Management Method - Google Patents

Abstract

In order to achieve the above object, the logistics management system using the RFID shielding room of the present invention is installed in the middle of a conveyor for transporting the article with the electronic tag to be recognized by the RFID reader, and the article passes through the front and rear respectively. An opening is formed, the inside of the antenna of the RFID reader is installed, the shielding room to block the outside radio waves when all the opening is closed; Front opening opening and closing means for opening and closing the front opening of the shielded room; Rear opening opening and closing means for opening and closing the rear opening of the shielding room; Entry detecting means for detecting whether the article has completely entered the front opening; Advance detection means for sensing whether the article reaches the rear opening; And closing means for sensing the closing of the rear opening and control means for controlling the front opening opening and closing means and the rear opening opening and closing means on the basis of a detection signal from each of the sensing means.

Description

Product Distribution Management System Using RFID Shield Room And Management Method

The present invention relates to a logistics management system and a management method using an RFID shielding room, in particular, a state in which an external radio wave is blocked in a logistics management system that recognizes an electronic tag attached to an article through an RFID reader while transferring the article through a conveyor. The present invention relates to a logistics management system and a management method using an RFID shielding room to recognize an electronic tag attached to an article.

RFID (Radio Frequency Identification) is a technology that can collect, store or process information of an object using radio frequency. The RFID system includes an electronic tag attached to the article by embedding information of the article, for example, color, size, and design, and an RFID reader for reading or writing the information of the electronic tag. The RFID technology is classified into a fixed, portable or mobile RFID technology according to the type of RFID reader, and classified into an active RFID technology or a passive RFID technology according to whether the electronic tag has an internal battery and a transmission device.

The RFID technology is currently being extended to various fields such as distribution, security, and safety. In particular, the RFID technology is intended to network and intelligent logistics management by replacing a system using a barcode. Conventionally, a system that attaches a bar code-labeled label to an article and reads information with a bar code reader has been used. This bar code system has a disadvantage in that the barcode recognition rate drops sharply when the label is torn or accumulated. In contrast, RFID technology has a lower recognition rate, a faster recognition speed, and a larger amount of data that can be transmitted and received than barcodes.

1 is a perspective view schematically showing a part of a conventional RFID logistics management system.

As shown in FIG. 1, in a logistics management system using RFID technology, an antenna connected by wire to an RFID reader or an RFID reader may be installed near a conveyor that carries an article tagged with an electronic tag. As the article moves, when the electronic tag enters the recognition area of the antenna of the RFID reader, the RFID reader starts reading or writing the information of the electronic tag. Based on this information, the goods can be processed, sorted or inspected.

However, in such a conventional RFID logistics management system, a recognition error or a recognition rate may be lowered due to a signal caused by another electronic tag within a transmission / reception distance rather than an electronic tag that the RFID reader wants to read. Can occur.

The present invention has been made to solve the above-described problems, RFID to improve the tag recognition rate and prevent errors caused by external signals to recognize the electronic tag attached to the article in the state of blocking external radio waves using the RFID shielding room An object of the present invention is to provide a logistics management system and management method using a shielded room.

In order to achieve the above object, the logistics management system using the RFID shielding room of the present invention is installed in the middle of a conveyor for transporting the article with the electronic tag to be recognized by the RFID reader, and the article passes through the front and rear respectively. An opening is formed, the inside of the antenna of the RFID reader is installed, the shielding room to block the outside radio waves when all the opening is closed; Front opening opening and closing means for opening and closing the front opening of the shielded room; Rear opening opening and closing means for opening and closing the rear opening of the shielding room; Entry detecting means for detecting whether the article has completely entered the front opening; Advance detection means for sensing whether the article reaches the rear opening; And closing means for sensing the closing of the rear opening and control means for controlling the front opening opening and closing means and the rear opening opening and closing means on the basis of a detection signal from each of the sensing means.

In the above-described configuration, a conveyor driving unit for driving the conveyor is further provided, and the control means controls the conveyor driving unit to control the speed of the conveyor.

According to the logistics management system and management method using the RFID shielding room of the present invention, it is possible to recognize the electronic tag attached to the article in the state of blocking the external radio with the RFID shielding room to reduce the electronic tag recognition rate and signal interference Error can be prevented.

Furthermore, the speed of the conveyor can be adjusted in the process of transferring the goods through the conveyor, so that the electronic tag can be recognized smoothly without overloading the RFID reader.

1 is a perspective view schematically showing a part of a conventional RFID logistics management system.
2 is a perspective view schematically showing a part of a logistics management system using an RFID shielding room according to an embodiment of the present invention.
3 is a side cross-sectional view taken along line AA in FIG.
4 is a longitudinal cross-sectional view taken along line BB in FIG.
5 is a perspective view showing the structure of a shutter according to an embodiment of the present invention.
Figure 6 is a schematic functional block diagram of a logistics management system using an RFID shield room in accordance with an embodiment of the present invention.
7 is a database structure diagram built on a host computer according to an embodiment of the present invention.
8 is a flowchart illustrating a logistics management method using an RFID shielding room according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the logistics management system and management method using the RFID shield room of the present invention.

2 is a perspective view schematically illustrating a part of a logistics management system using an RFID shielding room according to an embodiment of the present invention, FIG. 3 is a side cross-sectional view taken along line AA in FIG. 2, and FIG. 4 is a line BB in FIG. 2. This is a longitudinal cross-sectional view taken from. 2 to 4, the logistics management system using the RFID shielding room according to the present invention is embedded in the conveyor 250, the goods box 100, the goods box 100 for transporting the goods box 100. As a shielding wall 310 surrounding an RFID reader (not shown), a conveyor 250 and an RFID reader antenna 320 for recognizing each item or item box 100 and an electronic tag attached to each item embedded therein. The shielded room 300, the front and rear electric shutter 330 and the rear electric shutter 340 for opening and closing the shielded room 300, respectively, the entry and exit of the shielded room 300 of the goods box 100 and the rear shutter A plurality of light emitting devices and light receiving devices for detecting the closing of the 345 and a control device for controlling the conveyor 250 and the electric shutters 330 and 340 may be included.

In the above-described configuration, the conveyor 250 may be installed separated into three parts of the front and center and the rear conveyor, as shown in Figure 3, wherein the goods box 100 is transferred from the front conveyor 200 or The central conveyor 220 for transferring the goods box to the rear conveyor 240 is preferably installed inside the shielded room 300. The conveyor 250 may be formed in various forms such as a horizontal belt conveyor or a flexible conveyor.

One or more RFID reader antennas 320 (three in this embodiment) may be installed near the central conveyor 220, for example, on the left side, the right side, or above. The RFID reader (not shown) may be installed inside or outside the shielded room.

On the other hand, in general logistics management systems, passive RFID technology is often used in consideration of the price aspect. In passive RFID, an RFID reader generates an RF signal within a recognition range, and an electronic tag generates back-scattering of the signal. modulate and send back. Backscatter modulation means that an electronic tag modulates and scatters a signal generated from an antenna of an RFID reader and transmits the signal back to the RFID reader. In such a passive RFID technology, the electronic tag does not have a separate battery, but rectifies the electromagnetic wave transmitted from the RFID reader and uses it as its own power source.

In the logistics management system using the above-described method, when the goods box 100 transferred by the conveyor 250 enters the recognition range, the electronic tag 120 attached to the goods box 100 starts to be read. If there is another item box in the box, the signal may be backscattered by an electronic tag attached to the other item box, which may lead to a recognition error. In addition, when the electromagnetic wave generated from the RFID reader antenna 320 is radiated to the space and the intensity of the electromagnetic wave is weakened, there may be a problem that a recognition rate decreases.

The shielding room 300 for solving the above-described problem performs a function of preventing the external emission of the RF signal generated while the RFID reader reads the electronic tag 120 and the signal interference by the external signal. To this end, the shielding room 300 may be implemented as a shielding wall 310 capable of blocking electromagnetic waves, and openings are formed in the front and rear shielding walls 310 to form passages through which the article box 100 passes. The shielding wall 310 may be made of a metal material such as aluminum or a conductive plastic.

Next, as illustrated in FIG. 4, the electric shutters 330 and 340 may be installed at upper ends of the passages in front and rear of the shielding chamber 300. The electric shutters 330 and 340 open the shielding chamber 300 by opening a passage in the process in which the item box 100 is transferred into the shielding chamber 100, and the item box 100 completely enters the shielding chamber. By blocking the passage to close the shield room 300 performs a function to completely block the electromagnetic waves inside and outside.

5 is a perspective view showing the structure of the electric shutter 330, 340 according to an embodiment of the present invention. As shown in FIG. 5, the electric shutters 330 and 340 may include a driving motor that transmits rotational force to the shutter 332 and the rotation shaft 334 wound around the rotation shaft 334 and the rotation shaft 334. 336). The shutter 332 may be made by weaving a copper fiber or a nickel fiber having a function of blocking radio waves, and may be padded with a flexible material, for example, a rubber plate on the back side for strength reinforcement.

In another embodiment, the shutter 332 may be implemented as a conventional metal shutter which is wound on a rotating shaft by connecting a plurality of narrow and long metal plates, for example, aluminum plates, rather than a woven fabric.

Referring to FIG. 4 again, when the shutters 335 and 345 are wound on the rotation shaft 334 by the rotational force of the driving motor 336, the shielding chamber 300 is opened while being released from the rotation shaft 336. The ground shield room 300 is closed.

On the other hand, the entrance detection light emitting element and the light receiving element 350, 355 are located in place of the front shield wall, for example, the conveyor 250 in order to detect the item box 100 entering the interior of the shield room (300) It can be installed at both the bottom of the passageway in the high position or at the bottom of the inner surface.

On the other hand, the light-emitting element and the light receiving element 360, 362 for the entrance detection is in place of the rear shield wall, for example, the conveyor 220 in order to detect the article box 100 advancing out of the shield room 300 It can be installed at both the bottom of the passageway in the high position or at the bottom of the inner surface.

On the other hand, the closing detection light emitting element and the light receiving element 370, 375 is preferably installed in the lower end of the passage of the rear shielding wall in order to detect that the rear shutter 345 completely blocks the shielding room (300).

Next, the control device may be built in the shielded room 300.

6 is a schematic functional block diagram of a logistics management system using an RFID shielding room according to an embodiment of the present invention. As shown in FIG. 6, the electrical configuration of the logistics management system using the RFID shielding room of the present invention includes a shielding room entry detecting unit 410 and an item box for detecting entry into the shielding room 300 of the item box 100. Shield chamber advance detection unit 420 for detecting the advance of the shielded room 300 of the 100, rear shutter closing detection unit 430 for detecting the closing of the rear shutter 345, the motor of the front electric shutter 330 ( 470 and the motor 472 of the front electric shutter driving unit 440, the motor 472 of the rear electric shutter 340, the motor 474 of the rear electric shutter driving unit 450, and the motor 474 of the conveyor 250 that drives it and The controller 400 may control the electric shutter drivers 440 and 450 and the conveyor driver 460 based on the conveyor driver 460 and the detection signals input from the sensor.

In the above-described configuration, the shielded room entrance detecting unit 410 and the shielded room entrance detecting unit 420 may include an infrared light emitting device for generating light rays, preferably infrared rays, a light receiving device for detecting infrared rays, and a peripheral circuit thereof. have.

The rear shutter closing detector 430 may be formed of an infrared light emitting device, a light receiving device, and a peripheral circuit thereof, similarly to the shielding room entry and exit detection parts 410 and 420. Alternatively, it may comprise a mechanical switch and its peripheral circuit operated by physical contact applied when the shutter 345 is fully closed.

Subsequently, the motors 470 and 472 used for the front and rear electric shutters 330 and 340 are among the DC motors having good control characteristics due to the linear drooping characteristic of the voltage change and the linearity of the output torque versus the input current. It would be desirable to use a brushless DC motor. The electric shutter driving unit 440 and 450 for driving the limiter switch and the peripheral circuit element to stop the motor when the shutters 335 and 345 are completely closed by the motors 470 and 472. Alternatively, it may alternatively include a relay switch having a physical contact point and a peripheral circuit element thereof.

Next, the motor 474 used for the conveyor 250 may be formed of a variable speed motor, for example, a speed control motor or a BLDC motor, for which speed can be easily adjusted. The conveyor driver 460 for driving this may include an electronic switch such as a transistor or a relay switch having a physical contact and a peripheral circuit element thereof.

On the other hand, the control unit 400 may be achieved by a hardware configuration, such as a programmable logic controller (PLC), or a software configuration using a microprocessor for the automatic control and monitoring of the above-described components.

7 is a database structure diagram constructed on a host computer according to an embodiment of the present invention. As shown in FIG. 7, the host computer 500 manages articles classified by information of the electronic tag 520 read by the RFID reader 540, for example, item box information (number) and the size or color of the article. A database consisting of fields such as information (number), quantity information, and tag reading time is constructed.

Meanwhile, as shown in FIG. 6, a host computer 500 may be connected to the controller 400. The host computer 500 analyzes and determines information of an electronic tag and transmits a control signal to the controller 400. One logistics management can be done. For example, when the driving speed of the conveyor 250 is faster than the reading speed of the RFID reader 540 or when there are many electronic tags that need to be recognized, a function such as slowing down or stopping (the speed 0) of the conveyor 250 is performed. The speed control signal may be transmitted to the controller 400 by comparing and analyzing the reading speed of the RFID reader 540 and the quantity of items to be transferred.

8 is a flowchart illustrating a logistics management method using the RFID shield room 300 according to an embodiment of the present invention. Hereinafter, unless otherwise stated, the controller 400 becomes a subject and performs the logistics management method illustrated in FIG. 8.

As illustrated in FIG. 8, in the process of receiving, sorting or inspecting goods by the logistics management system using the RFID shielding room 300 of the present invention, first, the front shutter 335 of the shielding room 300 is removed in step S100. Logistics management is started by opening and closing the rear shutter 345. Subsequently, the conveyor 250 is driven in step S120 to transfer the article box 100 into the shielded chamber 300, and in step S140, it is determined whether the article box 100 has completely entered the shielded chamber 300. . For example, when the shielding room entrance detecting unit 410 includes a light emitting device and a light receiving device, when the output signal of the light receiving device is at a low level, it is determined that the article is currently entering the shielding room 300, and the light receiving device is received in this state. When the output signal of the device is converted to a high level, it is determined that the article has been completely entered into the enclosure. At this time, when it is determined that the entry is completed, the front shutter 335 is closed to block the inside and the outside of the shielding room 300 (step S160).

Next, when the shielding room 300 is blocked from the outside, the RFID reader 540 is attached to the item box 100, each item built in the item box 100, or the item box 100 and each item embedded therein. Start reading the electronic tag (dashed block).

On the other hand, the host computer determines whether the overload of the RFID reader 540, for example, the speed of the conveyor 250 is faster than the reading speed of the RFID reader 540 or the number of electronic tags that need to be read is used to provide a speed control signal. The control unit 400 may transmit. In operation S180, it is determined whether the speed control signal is received from the host computer 500, and when the operation is received, the speed of the conveyor 250 is adjusted in operation S200.

Subsequently, in step S220, it is determined whether the article box 100 has reached the rear shutter 345, and if so, the rear shutter 340 is opened (step S240). Accordingly, the article box is flown by the flow of the conveyor 250. 100 is advanced to the outside of the shield room (300). In step S260, it is determined whether the article has fully advanced to the outside of the shielded chamber 300. If the article has completely advanced, the rear shutter 345 is closed (step S280).

Next, in step S300, it is determined whether the rear shutter 345 is completely closed. As a result of the determination of step S300, when the rear shutter 345 is completely closed, the process proceeds to step S320 to open the front shutter 335, and then repeats the steps S100 and below.

The logistics management system and management method using the RFID shielding room of the present invention are not limited to the above-described embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

For example, the logistics management system using the RFID shielding room of the present invention may use a conveyor connected as a whole, in which case the shielding room 300 may be installed in the central portion of the conveyor so as not to disturb the flow of the conveyor. have.

In another embodiment, the shielded room entrance detecting unit 410, the shielded room entrance detecting unit 420, and the rear shutter closing detecting unit 430 may be formed of an ultrasonic sensor and a peripheral circuit thereof.

In another embodiment, the shutter 332 of the front and rear passages of the shielding room 300 according to the present invention is implemented in the form of a sliding door can be opened and closed in the left or right direction or up and down direction. In this case, the shutter 332 may be made of a metal material such as aluminum or a conductive plastic to block external signals.

In the second method embodiment, unlike the logistics management method of FIG. 8, in which the front shutter 335 and the rear shutter 345 are opened or closed separately, the goods are transferred into the shielded room 300 along the conveyor 250. In the process, the front and rear shutters 335 and 345 of the shielding chamber 300 are simultaneously opened and closed at the same time when the entrance to the shielding chamber 300 is completed, while determining that the article has reached the rear shutter 345. At the same time, it can be achieved by logistics management.

100: product box 120: electronic tag for the box
200: front conveyor 220: central conveyor
240: rear conveyor 250: conveyor
300: shielded room 310: shielded wall
320: antenna 330: front electric shutter
332: shutter 334: rotation axis
335: Front shutter 336: Motor
340: rear electric shutter 345: rear shutter
350: light-emitting element for entrance detection 355: light-receiving element for entrance detection
360: light emitting element for exit detection 365: light receiving element for advance detection
370: light emitting device for the closing detection 375: light receiving device for the closing detection
400: control unit 410: shielded room entry detection unit
420: shield room entrance detection unit 430: rear shutter closing detection unit
440: front electric shutter drive unit 450: rear electric shutter drive unit
460: conveyor drive unit 470, 472: motor
474: motor 500: host computer
520: Electronic Tag 540: RFID Reader

Claims (10)

It is installed in the middle of the conveyor for transporting the article attached with the electronic tag to be recognized by the RFID reader, the opening is formed in the front and rear, respectively, the antenna of the RFID reader is installed inside, A shielding room that blocks external radio waves when all are closed;
Front opening opening and closing means for opening and closing the front opening of the shielded room;
Rear opening opening and closing means for opening and closing the rear opening of the shielding room;
Entry detecting means for detecting whether the article has completely entered the front opening;
Advance detection means for sensing whether the article reaches the rear opening;
Closing detecting means for detecting closing of the rear opening;
And a control means for controlling the front opening opening and closing means and the rear opening opening and closing means based on the sensing signal from each of the sensing means. The method of claim 1,
Further comprising a conveyor driving unit for driving the conveyor,
And the control means controls the conveyor drive to control the speed of the conveyor. The method of claim 1,
The entrance detecting means, the exit detecting means and the closing detecting means are respectively composed of a light emitting element for generating infrared rays and a light receiving element for detecting infrared rays,
The entrance detecting means is installed on both sides of the lower end of the front opening,
The advance detection means is installed on both sides of the lower end of the rear opening,
The closure detection means is a logistics management system using an RFID shielding room, characterized in that installed on both sides of the lower end of the rear opening. The method of claim 1,
Wherein,
On the basis of the detection signal from the entrance detecting means, when the article completely enters the front opening, the front opening of the shielding chamber is closed.
Opening the rear opening of the shielding chamber when the article reaches the rear opening on the basis of a detection signal from the exit detecting means;
The front door opening and closing means and the rear opening opening and closing means are controlled to open the front opening of the shielding room based on a detection signal from the closing detecting means. Logistics management system. The method of claim 1,
The front opening opening means and the rear opening opening means, respectively
A rotating shaft;
A shutter wound in the form of a roll on the rotating shaft and woven from a radio wave blocking fiber,
A motor for transmitting rotational force to the rotating shaft;
It comprises a motor driving unit for driving the motor,
And the control means controls the motor driving unit so that the shutter opens or closes the front and rear openings. The method of claim 1,
The conveyor consists of three parts, front and center and rear conveyors,
The shielding room is a logistics management system using an RFID shielding room, characterized in that the built-in form of the central conveyor. 7. The method according to any one of claims 1 to 6,
And the control means controls the speed of the conveyor based on a speed control signal from a host computer that determines the overload of the RFID reader. It is installed in the middle of the conveyor for transporting the article with the electronic tag to be recognized by the RFID reader, and an opening through which the article passes is formed in the front and the rear, respectively, and an antenna of the RFID reader is installed inside, and the opening is closed. When the logistics management system is equipped with a shielded room to block external radio waves,
(A) opening the front opening of the shielding chamber and closing the rear opening in the process of transferring the goods along the conveyor;
(B) closing the front opening when the article has finished entering the shield room;
(C) opening the rear opening when an article reaches the rear opening; and
And closing the rear opening and opening the front opening (d) when the article is finished entering the outside of the shielding chamber. It is installed in the middle of the conveyor for transporting the article with the electronic tag to be recognized by the RFID reader, and an opening through which the article passes is formed in the front and the rear, respectively, and an antenna of the RFID reader is installed inside, and the opening is closed. When the logistics management system is equipped with a shielded room to block external radio waves,
(A) opening the front and rear openings of the shielding chamber in the process of transferring the goods along the conveyor;
(B) closing the front and rear openings when the article has been entered into the shielding room; and
And (c) opening the front opening and the rear opening when the article reaches the rear opening. 10. The method according to claim 8 or 9,
The speed of the conveyor is determined according to the width between the front and rear of the shield room and the reading capability of the RFID reader.

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