KR20100012277A

KR20100012277A - Name tag structure device for the soldier equipment built in the rfid tag

Info

Publication number: KR20100012277A
Application number: KR1020080073584A
Authority: KR
Inventors: 이태섭
Original assignee: 이태섭
Priority date: 2008-07-28
Filing date: 2008-07-28
Publication date: 2010-02-08

Abstract

PURPOSE: A name tag structure device in which an RFID is built and a manufacturing method thereof are provided to precisely manage history of a name tag through the RFID by transmitting and receiving the necessary information. CONSTITUTION: A name tag structure device in which an RFID is built comprises the following: a front surface member(3) forming a base part recording basic data about a name tag; a back surface member(4) consisting of an external body of the name tag; and an RFID unit(13) built between the front surface member and the back surface member. The information about unique history, processed content or unique property is stored on the name tag.

Description

Name tag structure device for the soldier equipment built in the RFID tag}

[0001] The present invention relates to a military badge construction device with a built-in electronic tag and a method for manufacturing the same. In particular, an interior of a military badge with elasticity is provided inside an electronic tag that can transmit and receive various types of information of the military. The present invention relates to a military badge construction apparatus with an electronic tag for transmitting and receiving information and a manufacturing method thereof.

In general, soldiers are provided with various personal portable goods such as firearms, gas masks, bullet bands, sleeping bags, and military uniforms. The military personal portable goods are required to attach military badges marked with rank, name and affiliation.

By the way, most of the military personal carry goods as described above are used in many cases from the time of payment to the whole time, in the past, if the rank is raised in the process of use to replace the existing undamaged name badge with a new one There was a disadvantage to be.

Therefore, recently, in the military badges as described above, the rank display unit is stacked in two layers, and the color of the surface and the rear part can be changed so that the rank of the surface can be cut off at each promotion, so that it can be used without replacement at every promotion. A military nameplate has been proposed and used.

In addition, as another embodiment of the conventional military badges as described above, as shown in Figure 1, it can be applied to military personal portable goods to carry using a portable strap, such as a gun or gas mask, such conventional military badges (69) ) Is a front plate 72 provided with a rank display unit 70 and a base unit 71, a rear plate 73 having both ends of the front plate 72 having the same size, and the rear plate ( 73 is mainly used in the form of the fitting space 75 for fitting the carrying strap 74 of the military accessories between the front plate 72 and the rear plate 73 by fusion with both ends.

On the other hand, in order to use the conventional military accessories nameplates 69 as described above, first of all, the carrying strap 74 of military accessories received personally of the front plate 72 and rear plate 73 of the military accessories nameplate 69 Inserted in the fitting space 75 located between the fixed. Then, the rank of the recipient is entered in the rank display section 70, and the necessary information of the warden is described in the description section 71 with a sipen or other ballpoint pen.

However, in the conventional military badges as described above, since the space for describing the unique information of the military commander has limited space, the necessary history of the military command, for example, the date of receipt, the failure and the processing contents, or the unique characteristics of the military commander, etc. The information could not be recorded at all, and if the history of the military was large, the contents were important, but there was a problem that the efficiency was very low in managing the military.

Accordingly, the present invention has been made to solve the above problems of the prior art, the electronic tag is a group that can accurately manage all the history from the payment of military information to discarded through the RFID chip. An object of the present invention is to provide a nameplate rescue device and a method of manufacturing the same.

Another object of the present invention is to produce an electronic tag protection member by performing a process of wrapping the embedded electronic tag with a flexible material before manufacturing the finished product of the military badge namely using the manufactured electronic tag protection member An object of the present invention is to provide a military badge construction apparatus and a method of manufacturing the electronic tag embedded therein to complete the manufacture of the remaining military badge.

The present invention for achieving the above object is a front member consisting of a material having elasticity and a base portion for recording the basic information about the military accessories on its front surface;

A rear member coupled to the rear side symmetrically with the front member and composed of a material having elasticity to form an outer body of the military badge with the front member;

The electronic tag is built in between the front member and the rear member and comprises an electronic tag unit for receiving and transmitting information on the unique history and processing contents or the unique characteristics of the colony from the reader terminal in the internal memory. Provides a built-in military badge badge rescue device.

Another aspect of the present invention is a front member consisting of a flexible material and a base portion for recording the basic information about the military accessories on the front surface;

A first back layer portion coupled to a rear side of the front member and coated therein with a coating material or a synthetic resin inside thereof;

An electronic tag unit embedded inside the first rear layer unit and the rear member and including an electronic tag unit configured to receive and transmit information related to the unique history and processing contents or the unique characteristics of the colonel from the reader terminal in an internal memory. Provides a military tag badge rescue device with built-in tags.

Another feature of the present invention is a front member consisting of a flexible material and a base portion for recording the basic information about the military accessories on the front surface;

A first back layer part coupled to a rear side of the front member and having an inside coated with a coating material or made of synthetic resin;

A second back layer part symmetrically coupled to the first back layer part to form a fitting space part, the inside of which is coated with a coating material or made of synthetic resin;

Built in between the front member and the first back layer part or between the second back layer part and the back member, the reader transmits and receives the unique history and processing information or the information on the unique characteristics of the military to the internal memory. It provides an military tag badge rescue device with an electronic tag is configured to include an electronic tag.

Furthermore, the present invention is another aspect of the present invention comprises: a front member formed of a material having elasticity and having a base portion configured to record basic information about the military on the front surface thereof;

A third back layer part disposed between the back surface of the second back layer part and the back member and composed of a synthetic resin;

Internal memory between the front member and the first back layer portion or between the second back layer portion and the third back layer portion to receive and transmit the unique history and processing contents for the military, or information on the unique characteristics of the military, from the reader terminal. Provides a military badge badge rescue device with an electronic tag is configured to include an electronic tag to be stored in.

In addition, another feature of the present invention is to place a fabric between the front member and the back layer portion of the military badge, or the fabric between the back layer portion and another back layer portion on an electronic tag pressing mold of the pressing machine, An electronic tag fixing process of firmly fixing and attaching the electronic tag so that the electronic tag does not flow;

After fixing the electronic tag, one side of the fabric of the rear member is placed on the mold for attaching the rear member of the pressing machine, and each of the electronic tag protective members laminated on the electronic tag is placed in accordance with the set standard and then bonded. Nameplate rear member bonding process for producing a fixed rear member;

After the nameplate rear member bonding process, the fabric of the single layer or the multiple layers of the back layer bonded to the back of the front member is placed on the front member bonding mold of the pressing machine, and the fabric of the front member is placed thereon, and then the edge is bonded. A nameplate front member bonding process of producing a nameplate front member by silk printing on the front surface of the nameplate;

After attaching the nameplate front member, the rear members having the electronic tag protection member fixed thereon are placed on the final nameplate adhesive mold of the pressing machine, and the prefabricated front members corresponding to the rear member are placed thereon. Provided is a method for manufacturing an electronic tagging structure with a built-in electronic tag, including a final nameplate combining process to produce a military badges by bonding.

In the present invention as described above, by embedding an electronic tag that can transmit and receive various information of the military accessories inside the military badges with elasticity, and then transmit and receive the necessary military accessories information, from payment of military accessories information until disposal All histories can be managed precisely through electronic tags, which has the advantage of maximizing the efficiency of military management.

In addition, according to the present invention, before manufacturing the finished product of the military badges, the electronic tag protection member is manufactured by wrapping the embedded electronic tag with a flexible material in advance, and then using the manufactured electronic tag protection member. By completing the manufacture of the remaining military badges, there is little risk that the electronic tag is broken during manufacture or from external shock, so that the stored military information can be stored safely, thereby improving the lifespan of the military badges.

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

( Description of the First Embodiment )

The military nameplate 1 of the first embodiment of the present invention is composed of a flexible material, for example, a synthetic resin, as shown in FIG. 2, and a base for recording basic information, such as rank or name, on the front of the military. A front member 3 on which 2 is formed;

A rear member (4) symmetrically coupled to the front member (3) and having a stretchable material, for example, a synthetic resin and constituting the outer body of the military badge (1) together with the front member (3);

It is coupled to the rear side of the front member (3) and the first backing layer portion (6) coated with a coating material or made of synthetic resin to facilitate the insertion of military accessories such as guns or gas masks suspenders (5) and ;

Coated with a coating material which is coupled to the first back layer part 6 in a symmetrical manner with the first back layer part 6 to facilitate the insertion of military accessories 11, eg, suspenders carrying strap 5 of a firearm or gas mask. A second back layer part 7 which is made of synthetic or synthetic resin;

A fitting space portion 8 formed between the first backing layer portion 6 and the second backing layer portion 7 and fitted with a military accessory 11, for example, a suspender carrying strap 5 of a firearm or a gas mask;

A third back layer part 10 disposed between the back surface of the second back layer part 7 and the back member 4 and composed of synthetic resin;

It is built in between the front member 3 and the first back layer part 6 or between the second back layer part 7 and the third back layer part 10, so that the intrinsic history for military equipment such as firearms or gas masks, And an electronic tag unit 13 for receiving and receiving information on a receipt date, a failure and processing contents, or an inherent characteristic of the military command from the reader terminal 12 and storing it in an internal memory.

In addition, the electronic tag unit 13 may use an RFID chip, and transmits and receives various unique information of the warden by using an RF signal through the reader terminal 12.

On the other hand, looking at the manufacturing method of the first embodiment of the present invention, first, the first embodiment of the present invention proceeds to the electronic tag fixing process (S11) in the initial state (S10) as shown in FIG. Since the fabric between the front member of the nameplate and the first backing layer portion or the fabric between the second backing layer portion and the third backing layer portion is placed on the electronic tag pressing mold of the pressing machine and each of the plurality of electronic tag portions is placed thereon and embedded therein. Make sure that the electronic tag is firmly fixed so that it does not flow by car.

That is, in the electronic tag fixing process (S11), the fabric of the third back layer part 10 corresponding to the size and shape of the plurality of military badges 1 set as shown in FIG. 5 is compressed. (14) on the lower mold (15). Then, as many as the number of the electronic tag portion 13 set above the third back layer layer 10 arranged on the lower mold 15 of the high-frequency pressing machine 14, respectively, according to the standard. In addition, the fabric of the second back layer part 7 is again placed on the standard on the electronic tag part 13 arranged as described above.

Then, the electronic tag portion 13 is laminated on the original unit of the third back layer portion 10 through the above process, and the second back layer portion 7 is formed on the stacked electronic tag portions 13 as described above. When stacked, the high frequency presser 14 operates to sequentially along the edges of the fabric of the third back layer part 10, the electronic tag part 13, and the second back layer part 7, which are sequentially stacked. Since the upper mold 16 is pressed for 4 to 5 seconds with heat of ˜1200 degrees, the plurality of electronic tags fixing or protecting members having electronic tags embedded therein are manufactured.

Therefore, when using the method of the present invention as described above, the electronic tag is firmly fixed between the second back layer portion 7 and the third back layer portion 10.

On the other hand, after the electronic tag fixing process (S11) proceeds to the name plate rear member bonding process (S12) to place one surface of the back member fabric on the mold for attaching the back member of the pressing machine of the electronic tag protective member laminated thereon Each of them is placed according to the set standard and then bonded to yield a rear member to which the electronic tag protective member is fixed.

That is, during the nameplate rear member adhering process (S12), the fabric 15 of the back member 4 corresponding to the size and shape of the plurality of military accessories nameplates 1 is pressed, that is, the mold 15 of the high frequency presser 14. Position on. Then, as described above, the electronic tag protection members having the fixed number of electronic tag portions 13 fixed above the rear member 4 arranged on the mold 15 of the high frequency presser 14 are respectively positioned in accordance with the standard. . In addition, the high frequency presser 14 is operated in a state where the electronic tag protection member in which the electronic tag part 13 arranged as described above is fixed is disposed, and a rear member in which the protection members of the electronic tag part 13 are stacked. Along the edge of the fabric of 4), for example, the upper mold 16 is pressed for 6 to 7 seconds in a heat of 1000 to 1200 degrees so that they adhere to each other so that the nameplate back member is manufactured.

Then, after the nameplate rear member adhering process (S12), proceed to the nameplate front member adhering process (S13) to place the fabric of the first backing layer portion adhered to the rear surface of the front member on the front member bonding mold of the pressing machine. Placing the fabric of the front member on the top and then bonded the edge and silk-printed on the front of the nameplate to calculate the nameplate front member.

That is, in the nameplate front member adhering process (S13), the fabric of the first backing layer part 6 corresponding to the size and shape of the plurality of military accessories nameplates 1 is pressed into a pressing machine, that is, a mold of the high frequency presser 14 ( 15). Then, as described above, the distal end of the front member 3 is positioned above the first back layer layer 6 arranged on the mold 15 of the high frequency compactor 14, and the high frequency compactor 14 is operated to operate the front member. Along the edge of the fabric of (3), for example, the upper mold 16 is pressed for 4 to 5 seconds in a heat of 1000 to 1200 degrees so that they are bonded to produce a nameplate front member. Further, after calculating the nameplate front member as described above, the base portion 2 is printed on the front surface of the front member 3 by a silk screen.

On the other hand, after the nameplate front member adhering process (S13) proceeds to the final nameplate coupling process (S14) to place the rear members fixed with the electronic tag protection member on the final nameplate adhesive mold of the pressing machine, respectively, on the back member Position the pre-fabricated front member in correspondence with and bond along the edge to yield a military badge.

That is, in the final nameplate coupling process (S14), the rear member 4 produced by each separate process is placed on the mold 15 of the pressing machine, that is, the high frequency presser 14. Then, the front member 3 is positioned above the rear member 4 arranged on the mold 15 of the high frequency presser 14 as described above, and then the high frequency presser 14 is operated to cut the fabric of the front member 3. The upper mold 16 is pressed for 9 to 10 seconds along the edge of, for example, 1000 to 1200 degrees of heat so that they are glued and finally the overlord nameplate 1 is produced.

On the other hand, referring to the operation and effect of the first embodiment of the present invention, first, the first embodiment of the present invention, during manufacturing, between the front member 3 and the first back layer portion 6 or 2 The electronic tag portion 13 is embedded before attaching the back layer portion 7 and the third back layer portion 10 using the high frequency presser 14 or the adhesive, and then the front member 3 or the rear member ( The inner side of the first back layer layer 6 and the second back layer layer 7 are brought into contact with each other, and both ends in the longitudinal direction are joined by pressing or sewing to form the fitting space 8.

Then, when attaching the rear portion of the military accessories name plate (1) in which the fitting space (8) is formed by a method other than the fitting space (8), the rear portion of the military accessories (11) is adhesive or other bonding method By attaching to the military accessories (11) by combining the military badges (1).

On the other hand, in the case of using the military badge name 1 of the first date and time of the present invention using the fitting space (8), first, as shown in FIG. The suspenders carrying strap 5 is fixed in the fitting space 8 located between the front member 3 and the rear member 4 of the military badge 1. At this time, the first back layer member 6 and the second back layer member 7 coated with a coating material on the inner side of the front member 3 and the rear member 4 forming the inside of the fitting space 8. Since it is formed, even if the head of the suspenders carrying strap 5 is hard, it can be easily inserted and fixed without internal damage.

In addition, the fixed military badge 1 is described in the base unit 2 located on the front member 3 with the necessary information of the recipient with a sipen or other ballpoint pen.

On the other hand, when the military badge name 1 of the present invention is fixed in the same manner as described above using the reader terminal 12, the unique history of the military, for example, guns or gas masks, that is, the receipt date, failure and processing details or Information on the unique characteristics of the military command is loaded on the RF signal and transmitted to the electronic tag unit 13 of the military name badge.

Then, the electronic tag unit 13 is inherent in the RF signal transmitted from the reader terminal 12 through an internal antenna (not shown), for example, a unique history of the firearm or gas mask, that is, the date of receipt, the failure and the processing contents or the military command. Information about intrinsic characteristics is separated and stored in an internal memory unit (not shown).

In addition, if it is necessary to update the information on the military accessories after the process, the internal information of the electronic tag unit 13 may be updated through the reader terminal 12.

Therefore, when managing the information of military accessories using the electronic tag unit as described above, it is possible to precisely manage all the histories from the payment of the military information to the disposal through the RFID chip, thereby efficiently managing the military accessories accordingly. Done.

( Explanation of Second Embodiment )

The military badge name 1 according to the second embodiment of the present invention is composed of a flexible material, for example, a synthetic resin, as shown in FIG. 6, and a base part for recording basic information such as rank or name, etc. on the front of the military. A front member 3 on which 2 is formed;

The first backing layer portion 6 is symmetrically coupled to the first backing layer portion 6 is a coating material to facilitate the insertion of military accessories (11), for example, suspenders carrying strap (5) of firearms or gas masks. A second back layer part 7 composed of coated or synthetic resin;

Built in between the front member 3 and the first back layer part 6 or between the second back layer part 7 and the back member 4, a unique history, i.e., the date of receipt for a gun, for example a firearm or a gas mask. And an electronic tag unit 13 which receives information about a failure and processing contents or a unique characteristic of a military command from a reader terminal 12 and stores it in an internal memory.

Meanwhile, referring to the manufacturing method of the second embodiment of the present invention, first, the second embodiment of the present invention proceeds to the electronic tag fixing process (S21) in the initial state (S20) as shown in FIG. The fabric between the front member of the nameplate and the first back layer portion or the fabric between the second back layer portion and the back member is placed on an electronic tag crimping mold of the crimping machine, and a plurality of electronic tag portions are placed thereon. Firmly adhere the electronic tag to prevent flow.

That is, in the electronic tag fixing process (S21), the fabric of the second back layer part 7 corresponding to the size and shape of the plurality of military badges 1 set as shown in FIG. (14) is placed on the upper mold (15). Then, as many as the number of the electronic tag portion 13 set up above the second back layer portion 7 arranged on the mold 15 of the high-frequency pressing machine 14, as described above, respectively. In addition, the fabric of the rear member 4 is placed again on the standard on the electronic tag 13 arranged as described above.

Then, the electronic tag portion 13 is laminated on the original unit of the second back layer layer 7 through the above process, and the back member 4 is stacked on the stacked electronic tag portions 13 as described above. In this case, the high frequency presser 14 operates to sequentially stack the second backing layer part 7, the electronic tag part 13, and the back member 4, for example, in a row of 1000 to 1200 degrees. Since the upper mold 15 is pressed for 4 to 5 seconds to bond them, a plurality of electronic tags fixed or protecting members having electronic tags embedded therein are manufactured.

Therefore, when using the method of the present invention as described above, the electronic tag is firmly fixed between the second back layer portion 7 and the back member (4).

On the other hand, after the electronic tag fixing process (S21) and then proceed to the name plate front member bonding process (S22) to place the fabric of the first back layer portion bonded to the back of the front member on the front member bonding mold of the pressing machine Placing the fabric of the front member on the top and then bonded the edge and silk-printed on the front of the nameplate to calculate the nameplate front member.

That is, during the nameplate front member adhering process (S22), the fabric of the first backing layer part 6 corresponding to the size and shape of the plurality of military badges 1 is squeezed by the mold of the high frequency presser 14 15). Then, the fabric of the front member 3 is positioned above the first back layer layer 6 arranged on the mold 15 of the high frequency presser 14 as described above, and the high frequency presser 14 is operated to operate the front member ( Along the edge of the fabric of 3), for example, the upper mold 16 is pressed for 4 to 5 seconds in a heat of 1000 to 1200 degrees, so that they are bonded to produce a nameplate front member. Further, after calculating the nameplate front member as described above, the base portion 2 is printed on the front surface of the front member 3 by a silk screen.

On the other hand, after the nameplate front member adhering process (S22) proceeds to the final nameplate combining process (S23) to place the rear members fixed with the electronic tag protection member on the mold for the final nameplate adhesion of the pressing machine, respectively, on the back member Position the pre-fabricated front member in correspondence with and bond along the edge to yield a military badge.

That is, in the final nameplate combining process (S23), the rear member 4 produced by the separate process is placed on the mold 15 of the pressing machine, that is, the high-frequency pressing machine 14. Then, the front member 3 is positioned above the rear member 4 arranged on the mold 15 of the high frequency presser 14 as described above, and then the high frequency presser 14 is operated to cut the fabric of the front member 3. The upper mold 16 is pressed for 9 to 10 seconds along the edge of, for example, 1000 to 1200 degrees of heat so that they are glued and finally the overlord nameplate 1 is produced.

On the other hand, referring to the operation and effects of the second embodiment of the present invention, first, the second embodiment of the present invention, during manufacturing, the first back layer part 6 inside the front member 3 or the rear member 4 ) And the second backing layer portion 7 are embedded with the electronic tag portion 13 before attaching the second backing layer portion 7 using the high-frequency presser 14 or the adhesive, and then the inside of the front member 3 or the rear member 4 The first backside layer portion 6 and the second backside layer portion 7 are brought into contact with each other, and both ends in the longitudinal direction are joined by press or sewing stitches to form the fitting space 8.

Then, when attaching the rear portion of the military accessories name plate (1) in which the fitting space (8) is formed by a method other than the fitting space (8), the rear portion of the military accessories (11) is adhesive or other adhesive By attaching to the colonel (11) by a method, the colony nameplate (1) may be combined.

On the other hand, in the case of using the fitting space 8 of the military badge name 1 of the second date of the present invention as described above, first, as shown in Figure 8, the suspenders of the military accessories 11 individually received The strap 5 is fixed to the fitting space 8 located between the front member 3 and the rear member 4 of the military badge 1. At this time, the first back layer part 6 and the second back layer part 7 coated with a coating material are formed on the inner side of the front member 3 and the rear member 4 forming the inside of the fitting space 8. Since the head portion of the suspenders carrying strap 5 is firm, it can be easily inserted and fixed without internal damage.

In addition, the fixed military badge (1) as described above writes the rank of the recipient in the base unit (2) located on the front member (3), and the necessary information of the warlord on the base unit (2) sipen or other It is described with a ballpoint pen.

Then, the electronic tag unit 13 is inherent in the RF signal transmitted from the reader terminal 12 through an internal antenna (not shown), for example, a unique history of the firearm or gas mask, that is, a reception date, a failure, and a processing content or a military command. Information about intrinsic characteristics is separated and stored in an internal memory unit (not shown).

( Explanation of the third embodiment )

The military nameplate 1 of the third embodiment of the present invention is made of a flexible material, for example, a synthetic resin, as shown in FIG. 9, and a base for recording basic information, such as rank or name, of military accessories on its front surface. A front member 3 on which 2 is formed;

Built in between the first back layer 6 and the back member 4, the reader records information on inherent history, e.g., receipt date, failure and processing details, or inherent characteristics of the military, for example, a firearm or a gas mask. It comprises an electronic tag unit 13 for receiving and transmitting from the terminal 12 to the internal memory.

On the other hand, looking at the manufacturing method of the third embodiment of the present invention, first, the third embodiment of the present invention proceeds to the electronic tag fixing process (S31) in the initial state (S30) as shown in FIG. Since the fabric between the front member of the nameplate and the first back layer portion or the fabric between the first back layer portion and the back member is placed on the electronic tag crimping mold of the crimping machine, and a plurality of electronic tag portions are placed thereon. Make sure that the electronic tag is firmly fixed so that it does not flow by car.

That is, in the electronic tag fixing process (S31), the fabric of the first back layer part 6 corresponding to the size and shape of the plurality of military badges 1 set as shown in FIG. It is located on the mold 15 of (14). As described above, the number of electronic tag portions 13 set on the fabric of the first back layer layer 6 arranged on the mold 15 of the high frequency presser 14 is positioned according to the specifications. In addition, the fabric of the rear member 4 is placed again on the standard on the electronic tag 13 arranged as described above.

Then, the electronic tag portion 13 is laminated on the original unit of the first back layer layer 6 through the above process, and the rear member 4 is stacked on the stacked electronic tag portions 13 as described above. In this case, for example, 1000 to 1200 along the edges of the fabric of the first back layer layer 6, the electronic tag portion 13 and the rear member 4 which are sequentially stacked and arranged by operating the high frequency presser 14. Since the upper mold 16 is pressed by the heat of FIG. 4 for 5 to 5 seconds, the plurality of electronic tags fixing or protecting members having electronic tags embedded therein are manufactured.

Therefore, when using the method of the present invention as described above, the electronic tag is firmly fixed between the first back layer layer 6 and the back member (4).

On the other hand, after the electronic tag fixing process (S31) and proceeds to the final nameplate coupling process (S32) to place the rear member fixed to the electronic tag protection member on the final nameplate adhesive mold of the pressing machine, respectively and the rear member and thereon A corresponding prefabricated front member is placed and bonded along the edge to yield a military badge.

That is, in the final nameplate coupling process (S32), the rear members (4) produced by separate processes are placed on the mold (15) of the pressing machine, that is, the high frequency press (14). Then, the front member 3 is positioned above the rear member 4 arranged on the mold 15 of the high frequency presser 14 as described above, and then the high frequency presser 14 is operated to cut the fabric of the front member 3. The top mold 16 is pressed for 6 to 7 seconds along the edge of, for example, 1000 to 1200 degrees of heat so that they are glued to finally produce the monarch nameplate 1.

After the final nameplate combination process (S32), the silkscreen printing process (S33) is performed to silkscreen print the substrate on the front member of the finished military badge.

On the other hand, referring to the operation and effect of the third embodiment of the present invention, first, in the third embodiment of the present invention, the electronic tag portion 13 between the first back layer portion 6 and the rear member 4 during manufacture Then, the front member 3 and the rear member 4 are brought into direct contact with each other, and both ends of the longitudinal direction are joined with a high frequency press 14 or sewing stitch.

( Explanation of the fourth embodiment )

The military badge name 1 according to the fourth embodiment of the present invention is made of a flexible material such as synthetic resin, as shown in FIG. 11, and a base part for recording basic information such as rank or name, etc. on the front of the military. A front member 3 on which 2 is formed;

It is embedded between the front member (3) and the rear member (4) reader terminal 12 for information on the history, such as firearms or gas masks inherent in the history, such as the date of receipt, failures and processing or unique characteristics of the military It comprises an electronic tag unit 13 for receiving and storing from the internal memory.

On the other hand, in the fourth embodiment, as shown in Fig. 5, the fabric of the rear member is placed on the final nameplate adhesive mold of the pressing machine, and each of the plurality of electronic tag parts is placed thereon and embedded therein. A front member manufactured in advance corresponding to each of the electronic tag parts is positioned, and the screen members are adhered along the edges, and the screen is printed.

That is, the rear members 4 produced by the separate processes are placed on the mold 15 of the pressing machine, that is, the high frequency pressing machine 14. Then, as described above, each of the plurality of electronic tag portion 13 is positioned above the rear member 4 arranged on the mold 15 of the high frequency presser 14, and then the fabric of the front member 3 is positioned thereon. After the high frequency presser 14 is operated, the upper mold 16 is pressed along the edge of the front member 3 of the front member 3, for example, in a heat of 1000 to 1200 degrees, for 4 to 5 seconds, so that they are finally bonded to each other. 1) is manufactured.

Then, as described above, the base unit 2 is silk-screen printed on the front member 3 of the military badge name 1 completed after the final nameplate coupling process.

Here, the operations and effects of the third and fourth embodiments may be applied in the same manner, except that the first and second embodiments differ only from the stacked structure.

As described above, according to the present invention, an electronic tag capable of transmitting and receiving various kinds of information of military accessories is embedded inside the military-name badge having elasticity, and then transmitted / received necessary accessories information is discarded. All histories until now can be managed precisely through electronic tags, which can be very useful when applied to soldiers' military equipment.

1 is an explanatory diagram illustrating an example of a conventional gun name tag.

2 is an explanatory diagram for explaining a first embodiment of the present invention.

3 is a flowchart of a first embodiment of the present invention;

4 is an explanatory diagram schematically illustrating an embodiment of a first embodiment of the present invention.

5 is an explanatory diagram schematically illustrating a method of manufacturing the embodiments of the present invention.

6 is an explanatory diagram for explaining a second embodiment of the present invention.

7 is a flowchart of a second embodiment of the present invention.

8 is an explanatory diagram schematically illustrating an embodiment of a second embodiment of the present invention.

9 is an explanatory diagram for explaining a third embodiment of the present invention.

10 is a flowchart of a third embodiment of the present invention.

11 is an explanatory diagram for explaining a fourth embodiment of the present invention.

1: military name badge 2: description

3: front member 4: rear member

5: brown red strap 6: first back layer

7: second back layer portion 8: fitting space portion

10: third back layer part 11: military

12: reader terminal 13: electronic tag unit

14: crimping machine 15: lower mold

16: upper mold

Claims

A front member formed of a material having elasticity and having a base portion formed thereon for recording basic information on the military;

The electronic tag is built in between the front member and the rear member and comprises an electronic tag unit for receiving and transmitting information on the unique history and processing contents or the unique characteristics of the colony from the reader terminal in the internal memory. Built-in military badge holder.

An electronic tag unit embedded inside the first rear layer unit and the rear member and including an electronic tag unit configured to receive and transmit information related to the unique history and processing contents or the unique characteristics of the colonel from the reader terminal in an internal memory. Military badge holder with built-in tag.

The military tag badge structure of claim 2, wherein the electronic tag unit comprises an RFID chip.

Built in between the front member and the first back layer part or between the second back layer part and the back member, the reader transmits and receives the unique history and processing information or the information on the unique characteristics of the military to the internal memory. Military tag badge rescue device with an electronic tag is configured to include an electronic tag.

The military tag badge structure of claim 4, wherein the electronic tag unit comprises an RFID chip.

Internal memory between the front member and the first back layer portion or between the second back layer portion and the third back layer portion to receive and transmit the unique history and processing contents for the military, or information on the unique characteristics of the military, from the reader terminal. An military tag badge rescue device with an electronic tag configured to include an electronic tag to be stored in.

The military tag badge structure of claim 6, wherein the electronic tag unit comprises an RFID chip.

Place the fabric between the front member and the back layer of the military badge, or between the back layer and another back layer on the die for the electronic tag crimping machine of the crimping machine, and place a plurality of electronic tags on the electronic tag. An electronic tag fixing process of firmly fixing and bonding the metal tag so as not to flow;

After fixing the electronic tag, one surface of the fabric of the rear member is placed on the mold for attaching the rear member of the pressing machine, and each of the electronic tag protective members laminated thereon is positioned according to the set standard, and then bonded to the electronic tag protective member. Nameplate rear member bonding process for producing a fixed rear member;

After attaching the nameplate front member, the rear members having the electronic tag protection member fixed thereon are placed on the final nameplate adhesive mold of the pressing machine, and the prefabricated front member corresponding to the rear member is placed thereon. A method of manufacturing an electronic tag embedded military tag rescue device including a final nameplate combining process of bonding according to the name badge combination.