JP2011041201A - Metallic casing with built-in noncontact communication section - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a metallic casing with a built-in noncontact communication section capable of preventing the noncontact communication section including an IC chip and an antenna from being damaged and destroyed by an external force, capable of performing communication while the noncontact communication section is arranged in the metallic casing, and furthermore capable of performing communication from all directions by widening the directivity of the antenna of the noncontact communication section. <P>SOLUTION: The metallic casing 10 with a built-in noncontact communication section includes: a metallic casing having an outer peripheral surface formed of a metallic mounting material and a housing space formed in the casing; and a noncontact-type IC tag arranged in the housing space. In the metallic casing with a built-in noncontact communication section, a conductive material extended from an antenna constituting the noncontact-type IC tag extends from the inside of the casing to the outside of the casing, and an insulating base material is interposed between the conductive material and the casing in a portion where the conductive material faces the casing. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention provides an IC chip and an antenna in order to receive information from the outside using electromagnetic waves or radio waves as a medium, and to transmit information to the outside, such as an information recording medium for RFID (Radio Frequency IDentification) applications. The non-contact communication part built-in type metal housing | casing which incorporated the non-contact communication part comprised.

The IC tag is provided with an inlet composed of a base material, an antenna provided on one surface thereof and connected to each other, and an IC chip. When receiving an electromagnetic wave or a radio wave from an information writing / reading device, the IC tag Due to this, an electromotive force is generated in the antenna, the IC chip in the IC tag is activated by this electromotive force, and information in the IC chip is converted into a signal, and this signal is transmitted from the antenna of the IC tag.
Such an IC tag is attached to a casing constituting a box, container, container, etc. used for storing or storing an important article, for example. It is being used for the purpose of accurately managing articles by recording information about articles on an IC chip.

 In order for the IC tag to operate, electromagnetic waves or radio waves transmitted from the information reading / writing device must be sufficiently taken into the antenna of the IC tag, and an electromotive force greater than the operation electromotive force of the IC chip must be induced. However, when the IC tag is attached to the surface (outer surface) of the metal casing, in information communication using electromagnetic waves as a medium, the magnetic flux is parallel to the surface of the casing on the surface of the metal casing. There is a problem that the magnetic flux across the antenna of the IC tag is reduced, the induced electromotive force is lowered, the operating electromotive force of the IC chip is lowered, and the IC chip is not operated. In addition, when the IC tag is attached to the surface (outer surface) of a metal housing, in information communication using radio waves as a medium, the resonant frequency of the antenna shifts, so the induced electromotive force generated in the IC tag antenna decreases, There was a problem that the IC chip would not operate because it was below the operating electromotive force of the IC chip.

 Therefore, it has been studied to attach an IC tag to the surface of a metal housing through a magnetic material. In this case, it is very difficult to adjust the directivity of the antenna of the IC tag. Has a problem that it cannot receive radio waves from the information writing / reading device. For this reason, it may be necessary to change the orientation of the housing to which the IC tag is attached or the information writing / reading device so as to be able to communicate, improving work efficiency and storing in the housing. In some cases, it is difficult to accurately manage the goods. Therefore, for the purpose of managing goods, the IC tag attached to the surface of a metal housing should have a wide antenna directivity (weak directivity) to enable communication from all directions. Is desired.

 As an IC tag with a wide antenna directivity, for example, by using a plurality of individual tags composed of an antenna and a communication module, by arranging these individual tags in different directions on one surface of the substrate, A multi tag that can communicate in all directions is disclosed (for example, see Patent Document 1).

Japanese Patent Laying-Open No. 2005-094474

  However, since the multi tag disclosed in Patent Document 1 requires a plurality of individual tags and requires a space for providing the individual tags, the manufacturing cost is increased and the directivity of the multi tag is increased. In order to make it wide, there was a problem that it was difficult to adjust the arrangement of the antennas of each individual tag.

 Further, when the IC tag is attached to the surface (outer surface) of the housing, the IC chip may be damaged or destroyed by an external force, and information written on the IC chip may be damaged. Furthermore, there is a possibility that information relating to an article written in the IC chip and stored in the housing may be falsified or the IC tag may be forged.

Therefore, in order to prevent such a problem from occurring, it is necessary to dispose the IC tag in the housing so that the IC tag is not exposed to the outside.
However, when the IC tag is placed in a metal casing, radio waves do not enter the casing due to the effect of electrostatic shielding. Therefore, radio waves transmitted from the information reading / writing device are applied to the IC tag antenna. There is a problem that information cannot be communicated with the outside of the housing via radio waves.

  The present invention has been made in view of the above circumstances, and prevents a non-contact communication unit including an IC chip and an antenna from being damaged or destroyed by an external force. Non-contact communication unit built-in type metal housing that enables communication in a state where it is placed in a non-contact communication unit, and further widens the directivity of the antenna of the non-contact communication unit and enables communication from all directions. The purpose is to provide a body.

  The non-contact communication unit built-in type metal housing of the present invention is arranged in a metal housing having a metal outer surface forming an outer peripheral surface and having a storage space formed therein, and the storage space. A non-contact communication part built-in type metal housing comprising a non-contact communication part comprising an IC chip and an antenna, wherein the conductor extending from the antenna is from the inside of the housing An insulating base material is interposed between the conductor and the casing at a portion extending to the outside of the casing and facing the conductor and the casing.

According to the non-contact communication unit built-in type metal casing of the present invention, the metal outer covering material forms the outer peripheral surface, and the metal casing in which the storage space is formed, and the storage space A non-contact communication part built-in type metal housing provided with a non-contact communication part provided with an IC chip and an antenna, wherein a conductor extended from the antenna is disposed inside the housing Since the insulating base material is interposed between the conductor and the casing at a portion extending from the casing to the outside of the casing and facing the conductor and the casing, the casing of the conductor Since the portion protruding from the antenna functions as an extension portion of the antenna, the non-contact communication portion is disposed via the portion protruding from the conductor housing while the non-contact communication portion is disposed in the storage space of the metal housing. Information can be read from or written to the IC chip. In addition, the directivity of the antenna of the non-contact communication unit can be widened by the portion protruding from the housing of the conductor. Therefore, information can be read from or written to the IC chip of the non-contact communication unit by the information reading / writing device from all directions, that is, all directions of 360 ° with respect to the housing. Therefore, it is possible to accurately manage articles stored in the non-contact communication part built-in type metal casing, and it is possible to improve the work efficiency.
Further, according to the metal housing with a built-in non-contact communication portion of the present invention, the non-contact communication portion is disposed in the housing space of the housing, so that the IC chip is damaged or destroyed by an external force. Thus, the information written on the IC chip can be prevented from being damaged, the information on the article written in the IC chip and stored in the housing is falsified, and the non-contact communication unit Since it is possible to prevent forgery, the non-contact communication unit can be more effectively protected, and as a result, information about the article written on the IC chip can be protected.

It is a schematic perspective view which shows 1st embodiment of the non-contact communication part built-in type metal housing of this invention. It is a schematic perspective view which shows 1st embodiment of the non-contact communication part built-in type metal housing of this invention. It is a schematic perspective view which shows the 1st example of the non-contact-type IC tag arrange | positioned in the housing | casing of the non-contact communication part built-in type metal housing of this invention. It is a schematic perspective view which shows the 2nd example of the non-contact-type IC tag arrange | positioned in the housing | casing of the non-contact communication part built-in type metal housing of this invention. It is a schematic perspective view which shows 2nd embodiment of the non-contact communication part built-in type metal housing | casing of this invention.

An embodiment of a metal housing with a built-in non-contact communication unit of the present invention will be described.
This embodiment is specifically described for better understanding of the gist of the invention, and does not limit the present invention unless otherwise specified.

(1) First Embodiment FIG. 1 is a schematic perspective view showing a first embodiment of a metal housing with a built-in non-contact communication unit of the present invention. FIG. 2 is a schematic perspective view showing a first embodiment of a non-contact communication unit built-in type metal housing of the present invention.
In this embodiment, the case where the metal case which comprises a non-contact communication part built-in type metal case is a duralumin case is illustrated.
A metal housing 10 with a built-in non-contact communication unit according to this embodiment includes a metal housing (duralumin case) 11, a non-contact IC tag 12 disposed in the housing 11, and a non-contact IC tag. 12 and a conductor 13 extended from an antenna constituting 12.

The casing 11 has a rectangular parallelepiped shape, and is roughly configured by a first casing 14 that forms a lid and a second casing 15 that forms a main body.
The first housing 14 and the second housing 15 are flat-bottomed concave housings, and are ones whose one surface (the surface facing the outer surfaces 14e and 15e forming the flat bottom) is open. .
The first housing 14 and the second housing 15 are connected by a hinge 16 so that the second housing 15 can be opened and closed with respect to the first housing 14. The first housing 14 and the second housing 15 are integrated by combining the open sides of the first housing 14 and form one storage space 17 therein.

The first housing 14 is schematically configured from a metal frame assembly 14F and metal surface mount members 14A, 14B, 14C, 14D, and 14E interposed between the frames of the frame assembly 14F. ing. More specifically, between each frame of the frame assembly 14F assembled in a rectangular parallelepiped shape, a metal outer covering material 14A that forms the outer surface 14a, a metallic outer covering material 14B that forms the outer surface 14b, A metal surface covering material 14C forming the side surface 14c, a metal surface covering material 14D forming the outer surface 14d, and a metal surface covering material 14E forming the outer surface 14e are interposed.
In the present invention, the cover materials 14A, 14B, 14C, 14D, and 14E and the frame assembly 14F are collectively referred to as a cover material, and the outer surfaces (outer side surfaces 14a, 14b, 14c, 14d, and outer surface 14e of these cover materials. Etc.) form the outer peripheral surface of the first housing 14.

On the other hand, the second housing 15 is roughly composed of a metal frame assembly 15F and metal surface covering materials 15A, 15B, 15C, 15D, and 15E interposed between the frames of the frame assembly 15F. It is configured. More specifically, between each frame of the frame assembly 15F assembled in a rectangular parallelepiped shape, a metal surface material 15A that forms the outer surface 15a, a metal surface material 15B that forms the outer surface 15b, A metal cover material 15C forming the side surface 15c, a metal cover material 15D forming the outer surface 15d, and a metal cover material 15E forming the outer surface 15e are interposed.
In the present invention, the cover materials 15A, 15B, 15C, 15D, 15E and the frame assembly 15F are collectively referred to as a cover material, and the outer surfaces of these cover materials (outer surfaces 15a, 15b, 15c, 15d, outer surface 15e). Etc.) form the outer peripheral surface of the second housing 15.

In addition, a tiltable handle 18 is provided on the outer surface 14 a of the first housing 14.
Furthermore, a locking tool 19 for locking the second housing 15 to the first housing 14 is provided on the outer surface 14 a of the first housing 14 and the outer surface 15 a of the second housing 15. ing.

 As shown in FIG. 3, the non-contact type IC tag 12 is roughly composed of a film-like or sheet-like base material 21 having a rectangular shape in plan view, an IC chip 22, and an antenna 23. Further, the IC chip 22 and the antenna 23 are provided on one surface 21a of the base member 21 and are electrically connected to each other. The antenna 23 is a dipole that is opposed to each other and has a feeding point (a portion connected to the IC chip 22) on the opposite side, and is composed of a pair of radiating elements 24, 24 having a triangular surface shape. It is an antenna.

This non-contact type IC tag 12 is arranged on the bottom surface 14f of the first housing 14 (the bottom surface inside the first housing 14) via a film-like or sheet-like magnetic base material 31 having a rectangular shape in plan view. Has been.
Thereby, the non-contact type IC tag 12 is arranged in the storage space 17 of the housing 11.

Further, a conductor 13 extends from one of the radiating elements 24 constituting the antenna 23 of the non-contact type IC tag 12, and this conductor 13 extends from the inside of the housing 11 to the outside of the housing 11. It protrudes outside the body 11. Here, the conductor 13 is provided continuously with one of the radiating elements 24 constituting the antenna 23.
More specifically, as shown in FIG. 2, the conductor 13 has the bottom surface 14 f of the first housing 14, the inner surface 14 g of the first housing 14, The opening edge part 14h of one housing | casing 14 is extended in order, and the front-end | tip part 13 is arrange | positioned so that the exterior of the housing | casing 11 may protrude. The conductor 13 is not insulated from the bottom surface 14f of the first housing 14, the inner side surface 14g of the first housing 14, and the opening edge 14h of the first housing 14 so as to be in direct contact. Is arranged through. For example, the conductor 13 is disposed on the opening edge 14 h of the first housing 14 via the insulating base material 32. In addition, when the second casing 15 is locked to the first casing 14 and these casings are integrated, an insulating base material is also provided in a portion of the second casing 15 that contacts the conductor 13.

 The amount of protrusion of the conductor 13 with respect to the housing 11 is not particularly limited, but is appropriately adjusted according to communication characteristics (resonance frequency, communication distance, directivity, etc.) required for the antenna 23.

 Examples of the conductor 13 include metal wires such as copper wires, aluminum wires, and iron wires.

 As materials for the cover materials 14A, 14B, 14C, 14D, 14E and the cover materials 15A, 15B, 15C, 15D, 15E, duralumin such as A2017 (duralumin), A2024 (super duralumin), A7075 (super duralumin), Examples include aluminum, copper, iron, and stainless steel.

 As the base material 21 of the non-contact type IC tag 12, a base material made of a polyester resin such as polyethylene terephthalate (PET), glycol-modified polyethylene terephthalate (PET-G), polybutylene terephthalate (PBT), polyethylene naphthalate (PEN) or the like. A substrate made of a polyolefin resin such as polyethylene (PE) or polypropylene (PP); a substrate made of a polyfluorinated ethylene resin such as polyvinyl fluoride, polyvinylidene fluoride or polytetrafluoroethylene; nylon 6, nylon 6, Base material made of polyamide resin such as 6; Base material made of vinyl polymer such as polyvinyl chloride (PVC), ethylene-vinyl acetate copolymer, polyvinyl alcohol, vinylon; Polymethyl methacrylate, polyethyl methacrylate, poly acrylic Base material made of acrylic resin such as ethyl and polybutyl acrylate; Base material made of polystyrene; Base material made of polycarbonate (PC); Base material made of polyarylate; Base material made of polyimide; Fine paper, thin paper, glassine A substrate made of paper such as paper or sulfuric acid paper is used.

 The IC chip 22 is not particularly limited and may be a non-contact type IC tag, a non-contact type IC label, or a non-contact type as long as information can be written and read out in a non-contact state via the antenna 23. Anything applicable to RFID media such as an IC card can be used.

 The antenna 23 of the non-contact type IC tag 12 is formed on the one surface 21a of the base material 21 using a polymer type conductive ink in a predetermined pattern by a printing method such as screen printing or ink jet printing, or One obtained by etching a conductive foil or one obtained by metal plating.

 Examples of polymer-type conductive inks are those in which conductive fine particles such as silver powder, gold powder, platinum powder, aluminum powder, palladium powder, rhodium powder, carbon powder (carbon black, carbon nanotube, etc.) are blended in the resin composition Is mentioned.

If a thermosetting resin is used as the resin composition, the polymer conductive ink becomes a thermosetting type capable of forming a coating film forming the antenna 23 at 200 ° C. or less, for example, about 100 to 150 ° C. The electric current path of the coating film forming the antenna 23 is formed by the contact of the conductive fine particles forming the coating film with each other, and the resistance value of the coating film is on the order of 10 ⁻⁵ Ω · cm.
Further, as the polymer type conductive ink in the present invention, known ones such as a photocuring type, a penetrating drying type, and a solvent volatilization type are used in addition to the thermosetting type.

 The photocurable polymer type conductive ink contains a photocurable resin in the resin composition and has a short curing time, so that the production efficiency can be improved. Examples of the photocurable polymer conductive ink include, for example, a thermoplastic resin alone or a blend resin composition of a thermoplastic resin and a crosslinkable resin (especially a crosslinkable resin composed of polyester and isocyanate) and 60 masses of conductive fine particles. % Or more and 10% by mass or more of a polyester resin, that is, a solvent volatile type or a crosslinked / thermoplastic combined type (however, the thermoplastic type is 50% by mass or more), or a thermoplastic resin Or a blend resin composition of a thermoplastic resin and a crosslinkable resin (especially a crosslinkable resin composed of polyester and isocyanate), in which a polyester resin is blended in an amount of 10% by mass or more, ie, a crosslinkable type or a crosslinkable / thermal A plastic combination type is preferably used.

Examples of the conductive foil forming the antenna 23 include copper foil, silver foil, gold foil, platinum foil, and aluminum foil.
Furthermore, examples of the metal plating that forms the antenna 23 include copper plating, silver plating, gold plating, and platinum plating.

 According to this non-contact communication part built-in type metal case 10, the non-contact type IC tag 12 is placed in the storage space 17 of the case 11 composed of the first case 14 and the second case 15 made of metal. A conductor 13 that is disposed and extends from the radiating element 24 of the antenna 23 of the non-contact type IC tag 12 and extends from the inside of the housing 11 to the outside of the housing 11 protrudes to the outside of the housing 11, 13 is disposed on the bottom surface 14f of the first housing 14, the inner side surface 14g of the first housing 14, and the opening edge portion 14h of the first housing 14 via an insulating base material. Since the portion of the body 13 that protrudes from the housing 11 functions as an extension of the antenna 23 of the non-contact IC tag 12, this extension can be achieved even when the first housing 14 and the second housing 15 are integrated. With respect to the IC chip 22 of the non-contact type IC tag 12 via the (conductor 13). On that can read or write information, it is possible to increase the directivity of the antenna 23. Therefore, information can be read from or written to the IC chip 22 of the non-contact type IC tag 12 by the information reading / writing device from all directions, that is, all directions of 360 ° with respect to the housing 11. become. Therefore, the articles stored in the non-contact communication part built-in type metal casing 10 can be accurately managed, and the work efficiency can be improved.

 Further, according to the non-contact communication part built-in type metal case 10, the non-contact type IC tag 12 is disposed in the storage space 17 of the case 11, so that the IC chip 22 may be damaged by an external force. It is possible to prevent the information written on the IC chip 22 from being damaged and being damaged, and the information on the article written in the IC chip 22 and stored in the housing 11 is falsified. And the non-contact IC tag 12 can be prevented from being counterfeited, so that the non-contact IC tag 12 can be protected more effectively, and as a result, the information on the article written on the IC chip 22 is protected. can do.

 In this embodiment, the case where the non-contact type IC tag 12 including the base material 21, the IC chip 22, and the antenna 23 is incorporated as the non-contact communication unit is illustrated. It is not limited to. In the present invention, the non-contact communication unit may be a non-contact type IC label, or may include an IC chip and an antenna provided directly in the housing.

Moreover, in this embodiment, although the case where the external shape housing | casing 11 was used was illustrated, this invention is not limited to this. In the present invention, the shape of the housing is appropriately determined according to the shape of the article housed therein.
Further, in this embodiment, the first casing 14 composed of the outer covering materials 14A, 14B, 14C, 14D, and 14E and the frame assembly 14F, the outer covering materials 15A, 15B, 15C, 15D, and 15E, and the frame assembly 15F. However, the present invention is not limited to this. In the present invention, the cover material is not composed of a separate cover material and a frame, but may be an integral one.

 Moreover, in this embodiment, although the case where the housing | casing 11 was comprised from the 1st housing | casing 14 and the 2nd housing | casing 15 which were connected by the hinge 16 was illustrated, this invention is not limited to this. In the present invention, any member may be used as long as a part of the cover material constituting the housing is detachably provided and the article can be accommodated by removing the part. For example, as the housing, a part of the cover material is provided so that it can be opened, a part of the cover material is provided so as to be slidable, and a screw-type lid is provided on a part of the cover material In other words, it may be openable and closable.

 Moreover, in this embodiment, the case where the non-contact type IC tag 12 was arrange | positioned through the magnetic base material 31 on the bottom face 14f of the 1st housing | casing 14 (bottom surface inside the 1st housing | casing 14) was illustrated. However, the present invention is not limited to this. In the present invention, as long as the non-contact type IC tag is arranged in the casing, it may be arranged in any part in the casing. Furthermore, the non-contact type IC tag arranged in the housing may be covered with a covering material or the like in order to prevent damage or destruction.

 In the present invention, as shown in FIG. 4, the non-contact type IC tag 12 covered with a covering material 33 made of silicone rubber or vulcanized rubber having elasticity and flexibility may be used. In this way, the non-contact type IC tag 12 is arranged directly on the bottom surface 14f of the metal first housing 14 (the bottom surface inside the first housing 14) without interposing the magnetic base material 31. can do.

The covering material 33 is made of elastic or flexible silicone rubber or vulcanized rubber, and is preferably silicone rubber from the viewpoint of excellent weather resistance, heat resistance, chemical resistance, flexibility, and the like.
As the silicone rubber, any of the millable types may be used, for example, a heat vulcanization type silicone compound manufactured by Toray Dow Corning Co., Ltd., and the product names thereof are “SH831U”, “SH841U”, “SH851U”. , “SH861U”, “SH871U”, “SH881U”, “SH35U”, “SH55UA”, “SH75UN”, “SE4705U”, “SE4706U”, “SE1185U”, “SE1186U”, “SE1187U”, “SH502U A / B ", DY32-1005U", "DY32-1000U", "DY32-5013U", "DY32-6014U", "DY32-7040U", "DY32-8013U", "SH745U", "SH746U", "SH747U", etc. Is mentioned.

 Examples of vulcanized rubber include natural rubber (NR), isoprene rubber (IR), butadiene rubber (BR), styrene butadiene rubber (SBR), chloroprene rubber (CR), acrylonitrile butadiene rubber (NBR), and butyl rubber (IIR). , Ethylene / propylene rubber (EPM, EPDM), Urethane rubber (U), Chlorosulfonated polyethylene (CSM), Chlorinated polyethylene (CM), Acrylic rubber (ACM), Epichlorohydrin rubber (CO, ECO), Fluoro rubber (FKM) ) Or other rubber vulcanized.

 Moreover, in this embodiment, although the case where the conductor 13 was provided continuously with one of the radiation elements 24 which comprises the antenna 23 was illustrated, this invention is not limited to this. In the present invention, as shown in FIG. 4, a conductor 34 is wound around the outer periphery of one end of the non-contact type IC tag 12, and one end of the conductor 34 is opposed to one end of the radiating element 24. The other end side of the conductor 34 may be arranged so as to extend from the inside of the housing 11 to the outside of the housing 11.

 Moreover, in this embodiment, although the case where the non-contact type IC tag 12 having the antenna 23 composed of a dipole antenna composed of a pair of radiating elements 24 and 24 having a triangular surface shape is provided is illustrated, It is not limited to this. In the present invention, the antenna may be a dipole antenna, a meandering dipole antenna, or a monopole antenna, one of which has a triangular frame shape.

Next, with reference to FIGS. 1-3, the management method of the articles | goods using the non-contact communication part built-in type metal housing | casing 10 is demonstrated.
First, the housing 11 is opened and the article is stored in the first housing 14.
Next, in a state where articles are stored in the first housing 14, the second housing 15 is locked to the first housing 14 by the locking tool 19, and these housings are integrated.

 In this state, the conductor 13 protrudes from the housing 11, and the portion of the conductor 13 protruding from the housing 11 functions as an extension of the antenna 23. Therefore, the information reading is performed via the extension (conductor 13). / Reading or writing information on the IC chip 22 of the non-contact type IC tag 12 by a writing device (not shown) is performed in a non-contact manner, and articles stored in the housing 11 are individually managed.

 The information written in the IC chip 22 of the non-contact type IC tag 12 includes the identification number, manufacturer, manufacturing place, date of manufacture, owner, storage place, case of the non-contact communication unit built-in type metal casing 10. Examples include the type of article stored in the body 11, the identification number of the article, the manufacturer, the manufacturing place, the manufacturing date, the owner, and the storage place.

 Thus, according to the article management method using the non-contact communication part built-in type metal casing 10, the portion of the conductor 13 protruding from the casing 11 functions as an extension of the antenna 23, and this extension Since the directivity of the antenna 23 of the non-contact type IC tag 12 can be widened through the portion (conductor 13), the non-contact type IC tag 12 is disposed in the storage space 17 of the metal casing 11. In addition, information can be read from or written to the IC chip 22 of the non-contact type IC tag 12, and information reading / writing can be performed from all directions, that is, all directions of 360 ° with respect to the housing 11. The information can be read from or written to the IC chip 22 by the embedded device. Therefore, the articles stored in the housing 11 can be managed accurately and the work efficiency can be improved. In particular, according to the article management method using the non-contact communication part built-in type metal casing 10, even when a large number of casings that are difficult to distinguish at a glance are stacked, The case can be reliably identified, and the articles stored in the case can be managed individually.

(2) Second Embodiment FIG. 5 is a schematic perspective view showing a second embodiment of the non-contact communication unit built-in type metal housing of the present invention.
5, the same components as those of the first embodiment shown in FIGS. 1 and 2 are denoted by the same reference numerals, and the description thereof is omitted.
The non-contact communication part built-in type metal case 40 of this embodiment constitutes a metal case 11, a non-contact type IC tag 12 arranged in the case 11, and a non-contact type IC tag 12. It is roughly composed of a conductor 41 extended from the antenna.

 This non-contact communication part built-in metal housing 40 is different from the above-described non-contact communication part built-in metal housing 10 in that the conductor 41 is based on one end of the radiating element 24 as a base end. The bottom surface 14 f of the first housing 14, the inner side surface 14 g of the first housing 14, and the opening edge portion 14 h of the first housing 14 extend in this order, and the tip end portion 41 a thereof passes through the insulating base material 42. It is a point arranged on the outer surface 14 d of the body 11. Further, the tip 41a of the conductor 41 forms a dipole antenna.

 According to this non-contact communication unit built-in type metal housing 40, the bottom surface 14 f of the first housing 14, the inner side surface 14 g of the first housing 14, Since the front end portion 41a of the conductor 41 is disposed on the outer surface 14d of the casing 11 through the insulating base material 42 through the opening edge portion 14h of the casing 14 in order, the front end portion of the conductor 41 Since 41a functions as an extension part of the antenna 23, a non-contact type IC can be obtained through this extension part (the tip part 41a of the conductor 41) even when the first casing 14 and the second casing 15 are integrated. Information can be read from or written to the IC chip 22 of the tag 12, and the directivity of the antenna 23 of the non-contact type IC tag 12 can be widened. Therefore, information can be read from or written to the IC chip 22 of the non-contact type IC tag 12 by the information reading / writing device from all directions, that is, all directions of 360 ° with respect to the housing 11. become. Therefore, the articles stored in the non-contact communication part built-in type metal casing 40 can be managed accurately, and the work efficiency can be improved.

DESCRIPTION OF SYMBOLS 10 ... Metal housing | casing with a non-contact communication part built-in type, 11 ... Case, 12 ... IC tag, 13 ... Conductor, 14 ... 1st housing | casing, 15 ... 1st Two housings, 16 ... hinge, 17 ... storage space, 18 ... handle, 19 ... locking tool, 21 ... base material, 22 ... IC chip, 23 ... Antenna, 24 ... Radiating element, 31 ... Magnetic substrate, 32 ... Insulating substrate, 33 ... Covering material, 34 ... Conductor, 40 ... Non-contact communication part built-in type metal Manufacturing case, 41... Conductor, 42.

Claims (1)

A metal casing that forms an outer peripheral surface, and a metal casing in which a storage space is formed; a non-contact communication unit that is disposed in the storage space and includes an IC chip and an antenna; A non-contact communication part built-in type metal housing comprising:
A conductor extended from the antenna extends from the inside of the housing to the outside of the housing, and a portion between the conductor and the housing is located between the conductor and the housing. A metal housing with a built-in non-contact communication unit, characterized in that an insulating base material is interposed in the metal housing.

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