JP2008124622A - Portable device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a portable device improving the strength of a light transmission part. <P>SOLUTION: The light transmission part 44 is formed by mixing a plurality of optical fibers 46 with a colored resin material (black AAS resin in an embodiment of the present invention). Acrylic resin which is a transparent resin material is generally used as a resin material which transmits light, but the acrylic resin has low strength and inferior durability because of characteristics thereof. The light transmission part 44 of the present invention, however, is configured to transmit light by mixing optical fibers 46 with the black AAS resin, so that the strength can be improved as compared with the conventional acrylic resin. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a portable device provided with a light transmission part in part.

For example, a portable device of a mobile phone is provided with a light transmission part that transmits light in a part thereof, and when a light emitting body (for example, LED) provided inside the mobile phone is caused to emit light, the light is emitted from the light of the portable device. There is one that transmits information such as an incoming call without transmitting a ringing tone to the user by transmitting through the transmission unit. (Patent Document 1)
JP 2004-180068 A

  In most cases, acrylic resin, which is a transparent resin material, is used as the resin material for such a light transmitting portion. However, acrylic resin has low strength and poor durability due to its characteristics. In particular, when it is used for things that are carried in a pocket or the like on a daily basis, such as a mobile phone, external force may be applied to the portable device when it is carried and the light transmission part made of acrylic resin may be damaged. .

  An object of the present invention is to improve the strength of the light transmission part of the portable device in consideration of the above fact.

  The portable device according to claim 1 of the present invention is a portable device in which a light transmitting part that transmits light is provided in part and a light emitting body that emits light is provided therein, and the light transmitting part includes: It is formed by mixing a colored resin material with an optical fiber that transmits light.

  According to the said structure, when the light-emitting body provided in the inside of a portable device is light-emitted, an optical fibre will permeate | transmit light outside and will provide a user with some information.

  Conventionally, an acrylic resin, which is a transparent resin material, has been used for the portion that transmits light in this way, but the acrylic resin has low strength and poor durability due to its characteristics. However, it is possible to transmit light by using a colored resin material that cannot transmit light but has higher strength than acrylic and mixing an optical fiber that transmits light into the colored resin material. .

  For this reason, not only the conventionally used acrylic resin but also various resin materials can be used, and the strength of the light transmission part can be improved.

  In particular, when such a portable device is used for things that are carried on a daily basis, the opportunity to apply external force to the portable device increases. However, since the intensity | strength of a light transmissive part can be improved, damage to the light transmissive part of a portable device can be prevented.

  The portable device according to a second aspect of the present invention is the portable device according to the first aspect, wherein the portable device is formed with an opening into which the light transmitting portion is fitted, and the light transmitting portion is laser welded to the opening. It is characterized by.

  According to the said structure, the light transmissive part is joined with the opening part of the portable device by laser welding.

  That is, in consideration of the coloring material of the light transmitting portion, by providing an optical fiber in the light transmitting portion, the laser can be transmitted through the light transmitting portion, and laser welding can be performed with the adjacent opening.

  Thus, laser welding enables the waterproofness and dustproofness of the welded portion to be improved and protects the device inside the portable device as compared with vibration welding that has been conventionally used.

  In addition, when an electronic component is disposed in the portable device, the electronic component is not vibrated, so that the electronic component is not deteriorated by vibration.

  According to a third aspect of the present invention, in the portable device according to the second aspect, the light transmission portion and the opening portion are formed of the same kind of resin material.

  According to the above configuration, since the light transmitting portion and the opening are formed of the same kind of resin material, the joining portion is melted and welded in the same manner at the time of laser welding, so compared with joining of different kinds of resin materials The light transmission part and the opening can be firmly joined.

  A portable device according to a fourth aspect of the present invention is the portable device according to any one of the first to third aspects, wherein the light transmitting portion is provided with a plurality of the optical fibers, and the optical fibers are arranged in different directions. It is characterized by being.

  According to the above configuration, since the optical fibers are arranged in different directions, it is possible to confirm the transmitted light of the light transmitting portion even if the portable device is tilted.

  According to the portable device of the present invention, the strength of the light transmission part can be improved.

  A vehicle key 10 for locking and unlocking a door of an automobile in which a portable device 14 according to the present invention is employed will be described with reference to FIGS.

  As shown in FIG. 5, the vehicle key 10 is for locking and unlocking a locking / unlocking device provided on the vehicle 90, for example, a door lock 96 provided on a door 92 of the vehicle 90. 96 includes a key cylinder 94 and a locking / unlocking control unit 98 that controls locking / unlocking of the door lock 96.

  As shown in FIG. 4, the vehicle key 10 includes a portable device 12 that communicates with a locking / unlocking control unit 98 provided on the door lock 96 to lock and unlock the door lock 96 (see FIG. 5). . The portable device 12 includes a portable device 14 having a substantially rectangular parallelepiped shape formed of a resin material. Inside the portable device 14, a communication module 16, a light emitting diode (LED) 42A that emits red light as a light emitter, A light emitting diode 42B that emits blue light, a laser light emission control unit 60 that controls light emission of the light emitting diodes 42A and 42B, and the printed circuit board 20 on which the other electronic components 18 are mounted are provided.

  A battery 22 is accommodated on the back side of the printed circuit board 20 (the side on which no electronic component is mounted). The battery 22 is electrically connected to the power supply terminal of the printed circuit board 20 and supplies power to the communication module 16, the light emitting diode 42, and other electronic components 18. Details of the light emission timing of the portable device 14 and the light emitting diode 42 will be described later.

  When the communication module 16 receives a request signal for requesting transmission of the ID code from the locking / unlocking control unit 98 (see FIG. 5) provided in the door lock 96, the communication module 16 transmits the ID code recorded in advance. ing.

  As a result, as shown in FIG. 5, when the driver (user) D holds the vehicle key 10 and approaches the vehicle 90, between the portable device 12 (see FIG. 4) and the locking / unlocking control unit 98. Mutual communication takes place. The locking / unlocking control unit 98 unlocks the door lock 96 of the vehicle 90 when the mutual communication is established, that is, when the ID code transmitted from the portable device 12 matches the pre-recorded ID code.

  On the contrary, when the driver D has the vehicle key 10 and leaves the vehicle 90, the mutual communication between the portable device 12 and the locking / unlocking control unit 98 is not established. The locking / unlocking control unit 98 locks the door lock 96 of the vehicle 90 when the mutual communication is not established. Therefore, the driver D can lock and unlock the door lock 96 without touching the vehicle 90 by holding the vehicle key 10.

  As shown in FIG. 4, a mechanical key 30 is housed inside the portable device 14. The mechanical key 30 is a mechanical key provided for an emergency in the event that the mutual communication with the vehicle 90 becomes impossible due to a failure of the portable device 12 or a battery 22 running out, and the like along the direction of arrow A. It is inserted into the interior of the portable device 14 and stored. Even when the portable device 12 can communicate with the vehicle 90, the mechanical key 30 can be used.

  The mechanical key 30 includes a metal key plate 32 and a grip 33 that are inserted into a key cylinder 94 (see FIG. 5) provided on the door lock 96.

  The key plate 32 is formed with a key groove 34 extending from the front end of the key plate 32 to the rear end of the key plate 32. The groove shape of the key groove 34 is unique corresponding to the unique key number of the key cylinder 94.

  Next, the portable device 14 as a housing will be described in detail with reference to FIGS.

  As shown in FIG. 3, the rectangular parallelepiped portable device 14 is formed of a black resin material (PC-ABS resin in the present embodiment) and does not transmit light, and the non-light transmissive portion. 50 and a light transmitting portion 44 fitted in a circular opening 62 provided in 50. Further, the opening 62 is disposed at a position facing the two light emitting diodes 42A and 42B (see FIG. 4) provided inside the portable device 14.

  As shown in FIG. 2, the light transmitting portion 44 is formed by mixing a plurality of optical fibers 46 in different directions with a resin material (black PC-ABS resin in the present embodiment). The optical fiber 46 can be formed of a resin material such as polyimide, for example.

  More specifically, before the resin material (black PC-ABS resin) is poured into the mold, the optical fiber 46 is inserted into the mold in advance, and then the resin material (black PC-ABS resin) is poured into the mold. One end of the optical fiber 46 is directed to the inside of the portable device 14 (the light emitting diode 42 side), and the other end is directed to the outside of the portable device 14.

  With this configuration, when the light emitting diodes 42A and 42B emit light, the optical fiber 46 mixed in the light transmitting portion 44 can transmit light outward as indicated by arrows in FIG. In other words, by mixing the optical fiber 46 with the black PC-ABS resin, the light transmitting portion 44 can transmit light.

  Conventionally, an acrylic resin that is a transparent resin material is generally used as a resin material that transmits light, but the acrylic resin has low strength and poor durability due to its characteristics. In particular, when the driver D is used in the portable device 14 of the portable device 12 that is carried while being taken in and out of the pocket as in this embodiment, the acrylic resin may be damaged by an external force.

  However, since the light transmission portion 44 of the present invention is configured to transmit light by mixing the optical fiber 46 with black PC-ABS resin, the strength is improved as compared with the conventional acrylic resin. be able to. Further, the optical fiber 46 is mixed with black PC-ABS resin to form a cross-linked structure, and the strength can be further improved in the same manner as when glass fiber is mixed, and the light transmitting portion 44 is damaged by an external force. Can be prevented.

  In addition, the whole is not transparent or translucent like a conventional acrylic resin, but only the portion of the optical fiber 46 is transparent or translucent. For this reason, when the acrylic resin is used, the internal printed circuit board 20 and the like can be seen, whereas in the case of the light transmitting portion 44 mixed with the optical fiber 46, the internal printed circuit board 20 and the like are viewed from the outside. can not see. Thus, the appearance performance can be improved as compared with the case of using an acrylic resin.

  Further, the light transmitting portion 44 using the black PC-ABS resin is less easily noticeable than the acrylic resin which is transparent or translucent as a whole.

  On the other hand, as shown in FIG. 1, the light transmitting portion 44 and the non-light transmitting portion 50 are brought together at their respective end surfaces and joined by laser welding. That is, by irradiating the laser from the B direction shown in FIG. 1, the laser passes through the light transmitting portion 44 and reaches the end surface of the non-light transmitting portion 50, and the non-light transmitting portion 50 generates heat and The non-light transmission part 50 is joined by melting each other. It is desirable to increase the laser transmittance of the light transmitting portion 44 in consideration of the coloring material of the light transmitting portion 44, and to further increase the laser absorption efficiency in consideration of the additive of the non-light transmitting portion 50. Is desired.

  Thus, by joining one light transmitting portion 44 to be joined with light transmittance (laser transmittance) and increasing the laser absorption efficiency of the non-light transmitting portion 50, joining by laser welding becomes possible. Compared with the conventional vibration welding, the black non-light transmitting portion 50 surely generates heat, and the end surfaces of the light transmitting portion 44 and the non-light transmitting portion 50 are surely melted and joined. Thus, the electronic component 18 and the communication module 16 inside the portable device 14 can be protected.

  Further, by adopting the same kind of PC-ABS resin for the light transmitting portion 44 and the non-light transmitting portion 50, the end surfaces are melted and welded in the same manner at the time of laser welding. As compared with the above, the light transmission part 44 and the non-light transmission part 50 can be bonded firmly.

  Further, as compared with the conventional vibration welding, since it is not vibrated for welding, the electronic component 18 is not deteriorated by vibration.

  Furthermore, compared to the conventional bonding method using an adhesive, the bonding strength does not vary due to an increase or decrease in the amount of the adhesive, so that stable bonding quality can be maintained.

  Furthermore, as compared with the conventional screwing method, it is not necessary to process the mounting seat surface necessary for screwing, and since there is no screwing, the work time at the time of recycling can be shortened.

  With the above configuration, when the driver (user) D shown in FIG. 5 holds the vehicle key 10 and approaches the vehicle 90, the door lock 96 of the vehicle 90 is unlocked as described above. At this time, the laser light emission control unit 60 that has received the unlocking signal from the communication module 16 shown in FIG. 4 causes the light emitting diode 42A to emit red light, whereby one light transmission unit 44 (see FIG. 3). Transmits red light. Thereby, the driver | operator D can confirm that the door lock 96 was unlocked not by sound but by light.

  On the other hand, when the driver D shown in FIG. 5 holds the vehicle key 10 and leaves the vehicle 90, the door lock 96 of the vehicle 90 is locked as described above. At this time, the laser light emission control unit 60 that has received the locking signal from the communication module 16 shown in FIG. 4 emits blue light from the light emitting diode 42B, whereby the other light transmission unit 44 (see FIG. 3) is blue. Transmits the light. Thereby, the driver | operator D can confirm that the door lock 96 was locked not with sound but with light.

  Although the present invention has been described in detail with respect to specific embodiments, the present invention is not limited to such embodiments, and various other embodiments are possible within the scope of the present invention. It is clear to the contractor. For example, in the above embodiment, the driver confirmed unlocking or locking by changing the color of the light emitted from the light emitting diodes 42A and 42B, but instead, the light mixed in the light transmitting unit 44 is used. The driver D may confirm unlocking or locking by changing the color of the fiber 46.

  Further, in the above-described mobile phone, the case where the mobile device 14 of the present invention is employed in the mobile device 12 of the vehicle key 10 has been described. However, any mobile device having a light transmitting portion may be used. It can also be used for portable devices such as game machines and small game machines.

  Moreover, in the said implementation mobile phone, although PC-ABS resin was used as a resin material, PA resin (polyamide) etc. may be used and it is not specifically limited to PC-ABS resin.

It is sectional drawing of the site | part by which the light emitting diode which showed the portable device by which the portable device which concerns on embodiment of this invention was employ | adopted is arrange | positioned. It is sectional drawing which showed the portable machine by which the portable device which concerns on embodiment of this invention was employ | adopted, and showed the light transmissive part. It is the perspective view which showed the portable machine by which the portable device which concerns on embodiment of this invention was employ | adopted. It is the perspective view which showed the inside of the portable device by which the portable device which concerns on embodiment of this invention was employ | adopted. It is explanatory drawing which showed the portable apparatus by which the portable device which concerns on embodiment of this invention was employ | adopted, the vehicle etc. which communicate with the portable device.

Explanation of symbols

14 Portable device 42A Light emitting diode (light emitting body)
42B Light Emitting Diode (Light Emitter)
44 Light transmission part 46 Optical fiber 62 Opening part

Claims (4)

A portable device provided with a light transmitting part that transmits light in part and a light emitter that emits light inside,
The portable device, wherein the light transmission part is formed by mixing a colored resin material with an optical fiber that transmits light.   The portable device according to claim 1, wherein the portable device is formed with an opening portion into which the light transmission portion is fitted, and the light transmission portion is laser-welded to the opening portion.   The portable device according to claim 2, wherein the light transmission part and the opening part are formed of the same kind of resin material. The portable device according to any one of claims 1 to 3, wherein the light transmission unit includes a plurality of the optical fibers, and the optical fibers are arranged in different directions.

Images