KR101202831B1 - Hand-held type RFID smart labeler - Google Patents

Abstract

PURPOSE: A hand hold type RFID smart labeler is provided to allow one portable device to extract information inputted in an RFID smart label and a barcode label and issue the new RFID smart label. CONSTITUTION: An RFID smart label is wound on an RFID smart label roller(110). An RFID smart label encoding unit(120) is separately located in an upper side or a lower side of a transmission line which the RFID smart label is transmitted from the RFID smart label roller. The RFID smart label encoding unit transmits and encodes the final product information to an RFID chip of the RFID smart label transmitted according to the transmission line. A signal shielding unit(140) is located between the RFID smart label roller and the RFID smart label encoding unit. The signal shielding unit prevents to transmit an encoding signal of the RFID encoding unit to the RFID smart label which is located before passing through a penetrating unit. A printing unit(130) is located in the upper side of the transmission line. The printing unit prints the final product information on the RFID smart label.

Description

Handheld RDF Smart Labeler {Hand-held type RFID smart labeler}

The present invention relates to a handheld RFID smart labeler, and more particularly, a handheld RFID capable of extracting information entered into an RFID smart label and a barcode label and issuing a new RFID smart label with a single portable device. It's about smart labelers.

Recently, RFID (Radio Frequency Identification) technology is applied in various fields. RFID refers to a next generation recognition technology that can manage information of various objects such as food, animals, and objects through IC chip and wireless.

RFID is a technology that allows the entire process from production to sale to be embedded in a microchip (IC chip) and tracked it by radio frequency.It is an 'electronic tag' or 'smart tag', 'electronic label', or 'wireless identification' Is called.

RFID has been regarded as the next generation recognition technology that will replace the bar codes generally used for goods management in the distribution field. RFID is composed of a reader and a tag providing information. The tag attached to the product contains information about the entire process of production, distribution, storage and consumption, and allows the reader to read this information through the antenna.

Existing barcodes have low storage capacity, unable to grasp real-time information, and can only read information in close proximity (within a few centimeters). On the other hand, RFID is displayed on the supermarket showcase as it is out of the factory door as a finished product. You can track the whole process. When a customer selects an item with this tag, the payment is automatically settled, as well as inventory and consumer taste management. In addition, RFID readers can read up to hundreds of RFID-tagged products in one second, so when applied to large discount stores, product prices can be counted as soon as they pass through the cash register, saving significant time and modifying or deleting information. It is also different from the barcode.

Such RFID tag technology is expected to be widely used not only in the distribution field but also in various fields such as animal tracking devices, car safety devices, personal access and access permit devices, electronic toll collection devices, and production management.

As a conventional technique using an RFID tag, only a desk model type RFID tag device having both an encoding and a reading function of an RFID tag is provided, and a portable device having only individual functions such as encoding of an RFID tag or reading of an RFID tag is provided. PDA-class RFID readers and RFID label printers are being provided, and their prices are very expensive, which places a heavy burden on the consumer to have all the individual equipment.

In addition, desk model type has both encoding and reading function of RFID tag, but transfers the product to the place where RFID equipment is located for goods input / export, inventory management, and store management due to limitation of movement. There is discomfort to be done.

Since portable RFID readers and RFID label printers have their own individual functions, collect information with an RFID reader, store the collected information on a separate PC, and then issue an RFID tag by connecting the RFID label printer to the PC. There was a hassle. As described above, since each individual equipment is separately used for encoding and reading of RFID tags, its use efficiency is very low in terms of time, space, and economy.

In particular, in the case of the portable RFID encoding device, when the product information is encoded in the RFID tag due to the small internal space for miniaturization of the device, the product information is encoded not only in the RFID tag to be encoded but also in adjacent unused RFID tags. In order to solve this problem, when the output of the encoding signal is lowered so that the encoding signal is not transmitted to an adjacent unused RFID tag, the encoding is not performed on the corresponding RFID tag.

The present invention is to solve the problems of the prior art as described above, to provide a hand-held RFID smart labeler that can issue an RFID smart label anytime, anywhere without constraints of time and place.

In particular, the present invention is to solve the problem that the product information is encoded to the adjacent unused RFID label in issuing the RFID smart label and the problem that the bad RFID label is issued because the encoding is not properly performed on the RFID label.

In addition, it provides RFID smart labeler that can encode and read RFID smart label with one device, and scan barcode data of barcode printed label and convert it into RFID smart data internally and issue it as RFID smart label. We want to provide a smart labeler.

Furthermore, it aims to provide RFID smart labeler that can efficiently manage inventory, store management and input / export of goods by collecting product information with one portable device and simultaneously editing and modifying the collected information.

The present invention to achieve the above technical problem, RFID smart label roller wound RFID smart label; An RFID encoder configured to transmit and encode final product information to an RFID chip of an RFID smart label that is spaced apart from an upper or lower portion of a transport line to which the RFID smart label from the RFID smart label roller is transported and is transported along the transport line; A through portion through which the transfer line passes is formed, and is located between the RFID smart label roller and the RFID encoding portion perpendicular to the transfer line, and is located between the RFID smart label and the RFID encoding portion before passing through the through portion on the transfer line. A signal shield to block the transmission of the encoded signal; A printer unit positioned above the transfer line and printing final product information on an RFID smart label which is encoded by the RFID encoder and transferred along the transfer line; A case in which the RFID smart label roller, an RFID encoding unit, a signal blocking unit, and a printer unit are disposed therein, and connected to an end of the transfer line and having a discharge port through which an RFID smart label is discharged; And handheld RFID smart labeler characterized in that it comprises a handle formed on the lower portion of the case.

Preferably, the RFID encoding unit includes an RFID encoding antenna for transmitting the signal of the final product information, the RFID encoding antenna may be arranged so that the signal is radiated in a direction perpendicular to the traveling direction of the transport line.

More preferably, the RFID reading unit for extracting the basic product information input to the external RFID smart label; A barcode scanner for scanning the barcode basic product information printed on an external barcode label and extracting the information; And a main controller controlling the RFID reading unit, the RFID encoding unit, the printer unit, and the barcode scanner, wherein the main controller comprises a final product based on basic product information provided through the RFID reading unit or the barcode scanner. Information may be generated, and final product information generated by controlling the RFID encoder and the printer may be encoded and printed on an RFID smart label.

Furthermore, the outer surface of the case is provided with a display unit and an input unit for receiving a control signal from the user, and the main controller generates final product information based on the basic product information based on the signal received through the input unit. This can be displayed on the display unit.

More preferably, the handle part may include a switch, and the RFID reading part, the RFID encoding part, the printer part, and the barcode scanner may be controlled by the main controller according to the operation of the switch.

Furthermore, the communication unit may further include a communication unit connected to an external server by wire or wirelessly, and the communication unit may receive basic product information from the external server or transmit the final product information to the external server.

Further, the main controller may continuously encode and print the RFID smart label according to the preset number of sheets.

The apparatus may further include a memory for storing the basic product information and the final product information. The main controller may generate the final product information by combining a plurality of the basic product information.

Preferably, the display unit may include the input unit as a touch screen.

According to the present invention, it is possible to extract the information input to the RFID smart label and barcode label with a single portable device and at the same time issuing a new RFID smart label.

In particular, due to various problems such as the encoding signal affects the corresponding RFID smart label generated at the time of RFID encoding and the adjacent unused RFID smart label, the RFID shield is introduced to solve the limitation on the miniaturization of the RFID smart label encoder. Smart labels can be encoded with more accurate information, while adjacent unused RFID smart labels have no impact on the encoded signal, improving the reliability of RFID smart label issuance.

Furthermore, one handheld RFID smart labeler according to the present invention can collect product information and edit and modify the collected information at the same time, and establish an RFID-based USN environment to manage the inventory of goods, store management and incoming / outgoing goods management. Can be effectively performed.

In addition, the handheld RFID smart labeler according to the present invention extracts the information input into the RFID smart label of the product according to the situation, as well as the information of the pre-stored product or by using the barcode information printed on the barcode label in the field immediately. Can be encoded and printed on RFID Smart Labels, enabling effective entry / exit, inventory management, and store management without time and space constraints.

Furthermore, by building an RFID-based USN environment with the handheld RFID smart labeler according to the present invention, the collected product information and newly issued product RFID smart label information can be centralized into a database or linked with a logistics system such as ERP or SCM. Thus, the efficiency can be further improved while effectively reducing the time for logistics management.

1 shows a perspective view of one embodiment of a handheld RFID smart labeler according to the invention,
2 shows a side view of the embodiment of FIG. 1,
3 shows a front view of the embodiment of FIG. 1,
4 shows a block diagram of an embodiment of a handheld RFID smart labeler according to the present invention;
Figure 5 shows an embodiment of the internal configuration of the handheld RFID smart labeler according to the present invention,
FIG. 6 shows the main components of FIG. 5 above;
7 shows an embodiment of the arrangement of the RFID encoding antenna of the RFID encoding unit according to the present invention,
8 shows a flowchart of an embodiment of an RFID smart label issuance process via a handheld RFID smart labeler according to the present invention;
9 illustrates an embodiment of a logistics management system built with a handheld RFID smart labeler in accordance with the present invention.

In order to explain the present invention, the operational advantages of the present invention and the objects achieved by the practice of the present invention, the following describes exemplary embodiments of the present invention and looks at it with reference.

First, the terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the invention, and the singular forms “a”, “an” and “the” may include plural forms as well, unless the context clearly indicates otherwise. Also in this application, terms such as "comprise" or "have" are intended to indicate that there is a feature, number, step, action, component, part, or combination thereof described on the specification, one or more other It is to be understood that the present invention does not exclude the possibility of the presence or the addition of features, numbers, steps, operations, components, parts, or a combination thereof.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The present invention is a handheld RFID smart labeler capable of extracting information input to an RFID smart label and a barcode label and simultaneously issuing a new RFID smart label with one portable device.

1 is a perspective view of an embodiment of a handheld RFID smart labeler according to the present invention.

As shown in the embodiment of Figure 1 RFID smart labeler 100 according to the present invention is a handle portion 190 is formed so that the user can grip with one hand at the bottom of the case 101 of the portable volume, RFID An outlet 170 through which an RFID smart label is issued and discharged is formed at a front portion of the case 101 of the smart labeler 100.

In this case, the RFID smart label is expressed as including both an RFID tag equipped with an RFID chip into which product information is input and a sheet on which product information is printed.

The upper part of the case 101 is equipped with a display unit 180 for displaying the RFID smart label issuing operation information, wherein the display unit 180 may serve as an input device for the user to control the RFID smart label issuing operation. It may be formed as a touch screen.

FIG. 2 shows a side view of the embodiment of FIG. 1, and FIG. 3 shows a front view of the embodiment of FIG. 1.

Looking at the embodiment of the present invention with reference to Figures 2 and 3, the upper portion of the case 101 is provided with a barcode scanner 160 to scan the barcode printed on the barcode label to extract the information of the product therefrom The front part of the case 101 is provided with an RFID reading unit 150 to read information of an input product from an RFID smart label to which information is input.

In this case, the RFID reading unit 150 reads only the data of the RIFD smart label attached to a specific article at a close distance and a multi-reading mode that simultaneously reads data of a plurality of RFID smart labels attached to various articles within a set area range. Can support

In addition, the upper portion of the handle 190 is provided with a button-type switch 191 so as to simply operate by using the user's finger holding the handle 190, the overall operation of the RFID smart labeler 100 The value is set using the touch panel of the display unit 180 and issuing a new RFID smart label or extracting the product information or RFID code from the RFID smart label 150 from which the product information is input. This operation can be conveniently performed by recognizing barcode information printed on the barcode label through the scanner 160 and simply operating the reading unit 15-button switch 191.

Only the external appearance of the embodiment of the present invention shown in FIG. 1 to FIG. 3 has a limitation in describing a specific internal configuration of the RFID smart labeler 100 according to the present invention, through the electric field diagram for each configuration therein. As the complexity increases, the overall configuration of the present invention will be described with reference to a configuration block diagram. FIG. 4 shows a configuration block diagram of an embodiment of a handheld RFID smart labeler according to the present invention.

In the RFID smart labeler according to the present invention, each component may be basically controlled through the main controller 200, and the RFID controller module 210 controlled by the main controller 200 may include an RFID encoder having an encoding antenna. The control unit 120 and the RFID reading unit 150 provided with the reading antenna encode the product information in the RFID smart label or extract the product information from the RFID smart label in which the information is input.

Furthermore, the RFID smart labeler according to the present invention is a single reading mode for reading only data of RIFD smart labels attached to a specific article at a close distance and multi-reading data of a plurality of RFID smart labels attached to several articles within a set area range simultaneously. The reading mode is supported, and the main controller 200 controls the output of the RFID reading unit 150 and the like in a single reading mode or a multi-reading mode according to a user's setting according to a situation.

In the multi-reading mode, data of a plurality of read RFID smart labels are classified so that each data is distinguished and stored in the memory 260, and when necessary, new RFID smart labels are sequentially used by using the corresponding data or all data. Can be issued by label.

In addition, the printer module 220 controlled by the main controller 200 controls the barcode scanner 160 and the printer unit 130 to recognize barcode information of a barcode label or to print product information on an RFID smart label. .

The display unit 180 is formed as a touch screen to combine the input device to display information transmitted from the main controller 200 and transmit a control signal received through the touch screen to the main controller 200.

The wired / wireless communication unit 250 is connected to an external server and receives the product information from the connected external server or transmits the issuing information of the RFID smart label to the external server.

Furthermore, the memory 260 stores operation default values of the RFID smart labeler 100 and stores information of products provided through the RFID reading unit 150, the barcode scanner 160, and an external server.

Since the RFID smart labeler according to the present invention is portable, its own power supply is required, and a power module 195 equipped with a battery is mounted inside the handle 190 to supply power to each component of the RFID smart labeler.

Since the present invention is a handheld RFID smart labeler, its main feature is to issue an RFID smart label, and to look at the main components for issuing an RFID smart label, FIG. 5 shows a handheld RFID smart labeler according to the present invention. An embodiment of the internal configuration is shown, and FIG. 6 shows the main components of FIG. 5 above.

Looking at the configuration for issuing an RFID smart label in the handheld RFID smart labeler according to the present invention with reference to Figures 5 and 6, first, an unused RFID smart label is wound on the RFID smart label roller 110, The RFID smart label is wound around the RFID smart label roller 110 in a form attached to the sheet of Fuji separately as a battery. When the RFID smart label is discharged, only the RFID smart label is discharged from the Fuji.

The RFID smart label released from the RFID smart label roller 110 moves along a transport line, where the transport line is formed in a shape in which a thin belt rotates from the RFID smart label roller 110 to the outlet 170 of the case 101. Preferably, a plurality of rollers and gears may be mounted on the conveying line so that the RFID smart label is transferred from the RFID smart label roller 110 to the outlet 170 of the case 101 by the rotation of the plurality of rollers. A track can be formed.

5 and 6, the RFID encoding unit 120 is positioned to be spaced a predetermined distance above the transport line, and the RFID smart label transferred along the transport line is located below the RFID encoding unit 120. When the RFID encoder 120 transmits the information of the corresponding product, the information of the corresponding product is encoded in the RFID chip mounted on the RFID smart label.

In particular, since the present invention is a portable labeler, it should be possible to use a small size RFID smart label. As the size of the RFID smart label becomes smaller, the size of the RFID chip mounted thereon becomes smaller, so that it is relatively difficult to encode product information on the RFID chip. Becomes difficult. In order to satisfy these conditions, the present invention installs the RFID encoder 120 as a modular small antenna and installs a predetermined distance of about 5 mm from the RFID smart label.

In order to more accurately encode the information of the product only to the corresponding RFID smart label, the present invention first applies an anti-collision anti-collision function when encoding the RFID chip of the corresponding RFID smart label, and RFID encoding. The RFID encoding antenna mounted on the unit 120 is arranged to radiate a signal in a direction perpendicular to the traveling direction of the feed line.

7 illustrates an embodiment of the arrangement of the RFID encoding antenna of the RFID encoding unit according to the present invention. As the RFID encoding antenna mounted on the RFID encoding unit 120, a dipole antenna, a monopole antenna, or the like may be used. A linear antenna is used. In the case of such a linear antenna, since the radiation direction of radio waves has a donut-shaped beam pattern in both directions with respect to the antenna, an omni-directional characteristic is used. Encoded signals affect not only smart labels but also adjacent unused RFID smart labels.

In particular, in the case of a miniaturized handheld labeler type such as the present invention, since the space is narrow during encoding, care must be taken so that the neighboring RFID smart label is not affected. In the present invention, as shown in FIG. The RFID encoding antenna of the unit 120 is disposed so that the signal is radiated in a direction perpendicular to the traveling direction of the feed line 10, and the encoded signal is placed on the RFID chip 12b of the corresponding RFID smart label 11b on the feed line 10. Is effectively transmitted so that the encoded signal is hardly transmitted to the RFID chips 12a and 12c of the adjacent RFID smart labels 11a and 11c.

Furthermore, in the present invention, the signal shield 140 is installed on the unused RFID smart label adjacent to the RFID smart label so that the transmission signal is not encoded. As shown in FIGS. 5 and 6, the signal shield 140 is shown. The through line through which the transfer line passes is formed, and is located between the RFID smart label roller 110 and the RFID encoding unit 120 perpendicular to the transfer line, and adjacent unused RFID positioned before passing through the through portion on the transfer line. Blocking the transmission of the encoded signal of the RFID encoder 110 to the smart label.

By mounting such a signal shield 140, the unused RFID smart label adjacent by the signal shield 140 even when the RFID encoding antenna 120 is not optimally arranged according to the embodiment of FIG. The problem that the encoded signal is transmitted to the RFID chip of the can be eliminated.

The signal shield 140 may be formed using a metal plate or a microwave absorbing sheet that can block an electromagnetic wave signal.

And the printer unit 130 is located on top of the transfer line adjacent to the discharge port 170 of the case 101 and encoded by the RFID encoding unit 120 and added to the RFID smart label that follows the transfer line of the product Print the information.

In addition, in order to increase the encoding efficiency and minimize the size of the RFID smart label, the position of the RFID chip in the RFID smart label is located in the front direction of the output direction of the label.

As such, the RFID smart label encoded and printed with the product information is discharged through the discharge port 170 only after the RFID smart label battery and the Fuji are separated before being discharged to the discharge port 170 of the case 101. The separated Fuji is wound on a separate roller.

As described above, the handheld RFID smart labeler according to the present invention is a portable device that extracts information input to an RFID smart label and a bar code label and simultaneously issues new RFID smart labels.

In particular, due to various problems such as the encoding signal affects the corresponding RFID smart label generated at the time of RFID encoding and the adjacent unused RFID smart label, the RFID shield is introduced to solve the limitation on the miniaturization of the RFID smart label encoder. Smart labels can be encoded with more accurate information, while adjacent unused RFID smart labels have no impact on the encoded signal, improving the reliability of RFID smart label issuance.

Hereinafter, a process of issuing an RFID smart label through a handheld RFID smart labeler and a logistics management system applying the same will be described.

8 is a flowchart of an embodiment of an RFID smart label issuing process via a handheld RFID smart labeler according to the present invention.

8 is a flow chart according to the operation of each component of the handheld RFID smart labeler according to the present invention, so refer to the configuration block diagram of the handheld RFID smart labeler according to the present invention.

First, in the foregoing description, product information is not distinguished. Hereinafter, in order to more clearly distinguish the operation of each component of the present invention, product information stored in the memory 260, the RFID reading unit 150, and the barcode scanner 160 are described. Information of the product obtained through the product is referred to as basic product information, and the product information generated through the control of the main controller 200 based on the basic product information will be referred to as the final product information.

The user selects whether to use the pre-stored basic product information or the new new basic product information. When using the pre-stored basic product information (S110), the user extracts data on the basic product information stored in the memory 260 (S120). In the case of using the new new basic product information (S100), the basic product information input to the RFID label of the corresponding product is extracted through the RFID reading unit 150 (S120) or the barcode printed on the barcode label (the barcode scanner ( Recognizing through the step 160, basic product information may be extracted (S120). The basic product information may be information selected from among information stored in the memory 260 and information acquired through the RFID reading unit 150 and the barcode scanner 160 or may include both of them. In addition, basic product information obtained through the RFID reading unit 160 and the barcode scanner 160 may be stored in the memory 260.

When the data of the basic product information is prepared, it is determined whether to process the data of the prepared basic product information (S130). For example, when the processing of the basic product information is required, the basic product information is modified or inputted by a user. By adding (S135) to generate the data of the final product information (S140), if the processing of the basic product information is not necessary immediately the basic product information is generated as the data of the final product information (S140).

 When the data of the final product information is generated, the RFID smart label is transferred to the RFID encoding unit 150 along the transport line, and the signal for the final product information is transmitted from the RFID encoding unit 150 to be encoded in the RFID smart label (S150). )do.

Then, when the RFID smart label encoded with the final product information is transferred along the transfer line to reach the printer unit 130, the printer unit 130 prints additional information on the RFID smart label based on the final product information (S160). .

In addition, if it is determined whether to issue a plurality of RFID smart labels continuously with the same final product information (S170), and if it is not necessary to continuously issue a single sheet (S171), the RFID smart label is separated from Fuji (S172) to discharge the RFID smart labeler outlet ( Although the RFID smart label discharged through 170) and issued to the target article is attached (S190), if a plurality of consecutive publications are required, the required number of sheets may be designated (S173). The process of encoding the RFID smart label (S150), printing the additional information on the RFID smart label (S160), and separating the RFID smart label from the Fuji (S172) are repeatedly performed. In this case, a serial number issued may be additionally encoded and printed on the RFID smart label that is issued continuously as many times as the number of copies.

As described above, the handheld RFID smart labeler according to the present invention extracts the information inputted into the RFID smart label of the product according to the situation as well as the information of the pre-stored product or uses the barcode information printed on the barcode label in the field immediately. Product information can be created, encoded, and printed, enabling effective entry / exit, inventory management, and store management without time and space constraints.

9 illustrates an embodiment of a logistics management system built with a handheld RFID smart labeler in accordance with the present invention.

Since the handheld RFID smart labeler according to the present invention can build an RFID-based USN environment, a plurality of users in a large store or a large distribution warehouse are handheld RFID smart labelers 100a, 100b, and the like. .., 100n), the information of each product collected in the separated places and RFID smart label information of the newly issued product is centralized to the central management server 500 or linked to the logistics system such as ERP, SCM, logistics management The efficiency can be further improved while reducing the time effectively.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments described in the present invention are not intended to limit the technical idea of the present invention but to explain, and the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be construed as being included in the scope of the present invention.

100: handheld RFID smart labeler,
110: RFID smart label roller, 120: RFID encoding unit,
130: printer portion, 140: signal shield,
150: RFID reading part, 160: barcode scanner,
170: discharge port, 180: display unit,
190: handle portion, 200: main controller,
210: RFID controller module, 220: printer module,
250: communication unit, 260: memory.

Claims (9)

An RFID smart label roller on which the RFID smart label is wound;
An RFID encoder configured to transmit and encode final product information to an RFID chip of an RFID smart label that is spaced apart from an upper or lower portion of a transport line to which the RFID smart label from the RFID smart label roller is transported and is transported along the transport line;
A through portion through which the transfer line passes is formed, and is located between the RFID smart label roller and the RFID encoding portion perpendicular to the transfer line, and is located between the RFID smart label and the RFID encoding portion before passing through the through portion on the transfer line. A signal shield to block the transmission of the encoded signal;
A printer unit positioned above the transfer line and printing final product information on an RFID smart label which is encoded by the RFID encoder and transferred along the transfer line;
A case in which the RFID smart label roller, an RFID encoding unit, a signal blocking unit, and a printer unit are disposed therein, and connected to an end of the transfer line and having a discharge port through which an RFID smart label is discharged; And
Handheld RFID smart labeler, characterized in that it comprises a handle formed on the lower portion of the case. The method of claim 1,
The RFID encoding unit,
Including an RFID encoded antenna for transmitting a signal of the final product information,
The RFID-encoded antenna is a handheld RFID smart labeler, characterized in that the signal is disposed in the direction perpendicular to the traveling direction of the transfer line. The method of claim 1,
An RFID reading unit for extracting basic product information input to an external RFID smart label;
A barcode scanner for scanning the barcode basic product information printed on an external barcode label and extracting the information; And
Further comprising a main controller for controlling the RFID reading unit, RFID encoding unit, printer unit and barcode scanner,
The main controller generates final product information based on basic product information provided through the RFID reading unit or the barcode scanner, and encodes the final product information generated by controlling the RFID encoding unit and the printer unit to an RFID smart label. And printing a handheld RFID smart labeler. The method of claim 3, wherein
The outer surface of the case is provided with a display unit and an input unit for receiving a control signal from the user,
The main controller generates final product information based on the basic product information based on a signal received through the input unit, and displays the final product information on the display unit. The method of claim 3, wherein
The handle portion is provided with a switch,
And the RFID reading unit, the RFID encoding unit, the printer unit and the barcode scanner are controlled by the main controller according to the operation of the switch. The method of claim 3, wherein
Further comprising a communication unit connected to the external server by wire or wirelessly,
The communication unit receives the basic product information from the external server or handheld RFID smart labeler, characterized in that for transmitting the final product information to the external server. The method according to any one of claims 3 to 6,
The main controller,
Handheld RFID smart labeler, characterized in that for continuously encoding and printing the RFID smart label according to a predetermined number of copies. The method according to any one of claims 3 to 6,
Further comprising a memory for storing the basic product information and the final product information,
The main controller generates the final product information by combining a plurality of the basic product information. The method of claim 4, wherein
The display unit includes a handheld RFID smart labeler, characterized in that including the input unit.

Images