JP6772749B2 - Phone plug and phone jack - Google Patents

Description

The present invention relates to a phone plug and a phone jack.

Non-Patent Document 1 discloses a technique in which an optical fiber is inserted into a phone cable that transmits an audio signal from an audio device to an earphone, and light propagating in the optical fiber is leaked to the outside to illuminate the phone cable. There is.

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In the technique described in Non-Patent Document 1, a remote control device provided with a light source unit is interposed between the audio device and the earphone, and the phone cable from the remote control device to the earphone is configured to shine. In this case, the light source unit is located outside the audio equipment. On the other hand, in recent years, there has been a demand for a technique for incorporating a light source unit for illuminating a phone cable into an audio device.

Therefore, an object of the present invention is to provide a phone plug and a phone jack capable of causing the phone cable to emit light while incorporating a light source unit for illuminating the phone cable in an audio device.

The phone plug according to one aspect of the present invention includes a rod-shaped jack connection portion connected to a phone jack and a fiber holding portion provided at the tip of the jack connection portion. A conductive base shaft portion extending in one direction and having a first fiber insertion hole through which an optical fiber is inserted, and an outer periphery of the base shaft portion with the tip portion of the base shaft portion exposed. It has a conductive portion that covers it, and an insulating portion that is arranged between the base shaft portion and the conductive portion so that the tip portion of the base shaft portion is exposed and that insulates the base shaft portion and the conductive portion. The fiber holding portion is provided at the tip of the base shaft portion, and the fiber holding portion communicates with the first fiber insertion hole, and the optical fiber is inserted and the optical fiber is held. A second fiber insertion hole is formed.

The phone jack according to the other aspect of the present invention is a phone jack to which the phone plug according to one aspect of the present invention is connected, and the jack that the phone plug has and is provided with the fiber holding portion. The jack connection inserted from the insertion port between the insertion port where the connection portion is inserted from the fiber holding portion side, the opening provided on the side opposite to the insertion port, and the insertion port and the opening. A jack body having a first connection terminal electrically connected to the base shaft portion and a second connection terminal electrically connected to the conductive portion while forming an arrangement space in which the portion is arranged. A light source portion arranged on the opening side of the jack body, and a positioning portion that defines the position of the fiber holding portion with respect to the light source portion.

According to the present invention, it is possible to provide a phone plug and a phone jack capable of emitting light of a phone cable while incorporating a light source unit for illuminating the phone cable in an audio device.

FIG. 1 is a perspective view of an audio device equipped with a phone jack to which a phone plug according to one form is attached. FIG. 2 is a schematic view showing a connection state of the phone plug, the earphone, and the earphone cable. FIG. 3 is a vertical cross-sectional view of the fan plug according to one form. FIG. 4 is a partial cross-sectional view of the phone jack according to one form. FIG. 5 is a schematic view of the connected state of the phone plug and the phone jack. FIG. 6 is a drawing for explaining a light source unit included in the phone jack.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the description of the drawings, the same elements are designated by the same reference numerals, and duplicate description will be omitted.

[Explanation of Embodiments of the Present Invention]

First, the contents of the embodiments of the present invention will be listed and described.

The phone plug according to one form includes a rod-shaped jack connection portion connected to a phone jack and a fiber holding portion provided at the tip of the jack connection portion, and the jack connection portion is unidirectional. A conductive base portion that extends and has a first fiber insertion hole through which an optical fiber is inserted, and a conductive portion that covers the outer periphery of the base portion with the tip portion of the base portion exposed. And an insulating portion which is arranged between the base shaft portion and the conductive portion with the tip portion of the base shaft portion exposed and insulates the base shaft portion and the conductive portion, and holds the fiber. A second portion is provided at the tip of the base shaft portion, and the fiber holding portion communicates with the first fiber insertion hole so that the optical fiber is inserted and the optical fiber is held. Fiber optic insertion holes are formed.

In the above configuration, since the base shaft portion and the conductive portion are exposed, the connection terminals for the base shaft portion and the conductive portion in the phone jack can be connected to the base shaft and the conductive portion by inserting the jack connection portion into the phone jack. Is. Therefore, the audio signal from the audio device can be supplied to the phone plug with the phone jack built in the audio device. Then, by connecting the wiring line passing through the insulating tube of the phone cable to the phone plug to the base shaft portion and the conductive portion, respectively, the signal from the acoustic device can be transmitted to the earphone or the headphone.

In the above-mentioned phone plug, the optical fiber passed through the first fiber insertion hole formed in the base shaft portion can be passed through and held in the second fiber insertion hole of the fiber holding portion. Since the fiber holding part is provided at the tip of the jack connection part, for example, by arranging the light source part in the phone jack, the light from the light source part can be emitted with the jack connection part inserted in the phone jack. It is possible to input to the optical fiber held in the fiber holding portion. Therefore, if the optical fiber is passed through the phone cable, it is possible to make the phone cable emit light while incorporating a light source unit for illuminating the phone cable in the audio equipment.

An optical fiber that is held by the fiber holding portion and allows a part of the light propagating inside to leak to the outside may be further provided.

The fiber holding portion can be a capillary.

The phone jack according to one form is a phone jack to which the phone plug according to one aspect of the present invention according to one form is connected, and the jack that the phone plug has and is provided with the fiber holding portion. The jack connection inserted from the insertion port between the insertion port where the connection portion is inserted from the fiber holding portion side, the opening provided on the side opposite to the insertion port, and the insertion port and the opening. A jack body having a first connection terminal electrically connected to the base shaft portion and a second connection terminal electrically connected to the conductive portion while forming an arrangement space in which the portion is arranged. A light source portion arranged on the opening side of the jack body, and a positioning portion that defines the position of the fiber holding portion with respect to the light source portion.

In the above configuration, when the jack connection portion of the phone plug is inserted into the jack main body, the position of the fiber holding portion is defined with respect to the light source portion by the positioning portion, so that the jack connection portion provided with the fiber holding portion is provided. The position is also specified. Therefore, for example, an audio signal from an audio device can be input to the base shaft portion and the conductive portion via the first connection terminal and the second connection terminal. Further, since the phone jack is provided with a light source portion on the opening side and the position of the fiber holding portion is defined by the positioning portion with respect to the light source portion, the optical fiber held by the fiber holding portion and the light source portion can be separated from each other. Light coupling is possible, and light from the light source unit can be input to the optical fiber held in the fiber holding unit. Therefore, if the optical fiber is passed through the phone cable, the phone jack having the above configuration is built in the audio device, so that the phone cable emits light while the light source unit for illuminating the phone cable is built in the sound device. Is possible.

The positioning unit may have a guide unit that guides the fiber holding unit and holds the fiber holding unit concentrically with respect to the optical axis of the light source unit. In this case, the fiber holding portion inserted into the phone jack is guided by the guide portion and is held concentrically with respect to the optical axis of the light source portion. Therefore, the light source unit and the optical fiber held by the fiber holding unit can be more reliably photocoupled.

The positioning portion may have an axial position defining portion that defines the position of the tip portion of the fiber holding portion with respect to the light source portion in the optical axis direction of the light source portion. As a result, the light source unit and the optical fiber held by the fiber holding unit can be more reliably photocoupled.

[Details of Embodiments of the present invention]

Specific examples of embodiments of the present invention will be described below with reference to the drawings. The present invention is not limited to these examples, and is indicated by the scope of claims, and is intended to include all modifications within the meaning and scope equivalent to the scope of claims. In the description of the drawings, the same elements are designated by the same reference numerals, and duplicate description will be omitted. The dimensional ratios in the drawings do not always match those described.

FIG. 1 is a perspective view of an audio device 30 having a built-in phone jack 20 to which the phone plug 10 according to the embodiment is attached. In FIG. 1, a smartphone is illustrated as an example of the audio equipment 30. However, the audio equipment 30 is not limited to smartphones. Other examples of the audio equipment 30 include music terminals (including portable music terminals) such as mobile phones, televisions, and digital audio players. In FIG. 1, the vicinity of the mounting portion of the phone jack 20 is cut out. Unless otherwise specified, the form in which the audio device 30 is a smartphone will be described.

The audio equipment 30 has a front panel 31 and a back panel 32 that holds the front panel 31. A touch panel type screen 33 such as a liquid crystal panel is mounted on the front panel 31. The front panel 31 may be provided with a home button or the like for accessing the home screen or the like by being pressed by the user. The audio equipment 30 includes a voice reproduction device (circuit), a control unit for controlling various functions of the audio equipment 30, a storage device, and the like between the front panel 31 and the back panel 32. The phone jack 20 is attached to the back panel 32 in the vicinity of one edge of the audio equipment 30 so that the phone plug 10 can be inserted.

The phone plug 10 will be described with reference to FIGS. 1, 2 and 3. As shown in FIGS. 1 and 2, the phone plug 10 is a phone that connects the phone plug 10 with the earphone 41 for the left ear and the earphone 42 for the right ear in response to a voice signal such as music from the audio device 30. This is a phone plug 10 applied to a decoration type (or illumination type) earphone device (earphone system) in which the cable 50 shines. The phone cable 50 is branched at the branch portion 51 and is connected to the earphone 41 for the left ear and the earphone 42 for the right ear.

In this embodiment, unless otherwise specified, a phone plug and a phone jack for earphones will be described, but the phone plug and the phone jack may also be applied to headphones.

The phone plug 10 includes a rod-shaped jack connection portion 11 connected to the phone jack 20, and a capillary (fiber holding portion) 12 provided at the tip of the jack connection portion 11. The jack connection portion 11 is a plug main body of the phone plug 10, and has a base shaft portion 111, a first conductive portion 112, a second conductive portion 113, a first insulating portion 115, and a second insulating portion 116. ..

As shown in FIG. 3, the base shaft portion 111 is a conductive member extending in one direction, and a first fiber insertion hole 111a into which the optical fiber F is inserted is formed along the axis C1 of the base shaft portion 111. ing. In the form shown in FIG. 3, the diameter of the first fiber insertion hole 111a is shown to be larger than the outer diameter of the optical fiber F, but the diameter of the first fiber insertion hole 111a is the same as the outer diameter of the optical fiber F. It may be.

The base shaft portion 111 is covered with a first insulating portion 115 so as to expose the tip end portion of the base shaft portion 111. The tip of the base shaft portion 111 exposed from the first insulating portion 115 functions as, for example, the chip portion 111b to which the left audio signal is input. In the present embodiment, the first insulating portion 115 covers the base shaft portion 111 so that the rear end portion of the base shaft portion 111 is also exposed. The rear end portion of the base shaft portion 111 exposed from the first insulating portion 115 may be a region to which the first signal line 52a for transmitting the left audio signal to the earphone 41 is connected.

The first conductive portion 112 is made of a conductive material and covers the first insulating portion 115 so as to expose the tip end side of the first insulating portion 115. Therefore, the first conductive portion 112 is insulated from the base shaft portion 111 by the first insulating portion 115. The first conductive portion 112 is covered with the second insulating portion 116 so as to expose the tip end side of the first conductive portion 112. The tip end side of the first conductive portion 112 exposed from the second insulating portion 116 functions as, for example, a ring portion 112a to which a right voice signal is input. In the present embodiment, the second insulating portion 116 covers the first conductive portion 112 so that the rear end portion of the first conductive portion 112 is also exposed. The rear end of the first conductive portion 112 exposed from the second insulating portion 116 is a region to which the second signal line 52b for transmitting the right audio signal to the earphone 42 is connected.

As described above, since the first insulating portion 115 on the tip end side of the base shaft portion 111 is exposed, the outer circumference of the jack connection portion 11 between the tip portion 111b and the ring portion 112a in the axis C1 direction of the base shaft portion 111. A first insulating ring is arranged in the.

The second conductive portion 113 is made of a conductive material and has a sleeve portion 113a, a cap connection portion 113b, and a connection terminal portion 113c.

The sleeve portion 113a covers the second insulating portion 116 so as to expose the tip end side of the second insulating portion 116. Therefore, the second conductive portion 113 is insulated from the first conductive portion 112 by the second insulating portion 116. A ground signal is input to the second conductive portion 113.

Since the second insulating portion 116 on the tip end side of the base shaft portion 111 is exposed, the outer periphery of the jack connection portion 11 between the ring portion 112a and the sleeve portion 113a in the direction of the axis C1 of the base shaft portion 111 is covered. A second insulating ring is arranged.

The cap connecting portion 113b is provided integrally with the sleeve portion 113a at the rear end of the sleeve portion 113a, and covers the second insulating portion 116. Therefore, the cap connecting portion 113b is electrically connected to the sleeve portion 113a and has the same potential as the sleeve portion 113a. In the cap connecting portion 113b, the outer diameter of the connecting portion with the sleeve portion 113a may be larger than the outer diameter of the sleeve portion 113a.

The connection terminal portion 113c extends from the rear end of the cap connection portion 113b toward the rear of the cap connection portion 113b, and is provided integrally with the cap connection portion 113b. A ground signal line 52c for transmitting a ground signal to the earphone 41 and the earphone 42 is connected to the connection terminal portion 113c.

A tubular cap 13 that covers the rear end of the jack connection 11 is attached to the cap connection 113b. The cap 13 is made of an insulating material. The cap 13 is coupled to the cap connecting portion 113b on the tip opening 13a side. For example, the cap 13 and the cap connecting portion 113b can be connected by being screwed together. An insulating tube 53 constituting the earphone 41 and the phone cable 50 connecting the earphone 42 and the cap 13 is inserted into the rear end opening 13b of the cap 13. An example of the insulating tube 53 is a rubber tube. By passing the first signal line 52a, the second signal line 52b, and the ground signal line 52c through the insulating tube 53, the phone cable 50 is configured, and the left voice signal, the right voice signal, and the ground signal correspond to each other. It is transmitted to the earphone 41 and the earphone 42. The phone cable 50 may have a cover 54 for protecting the connection between the rear end opening 13b of the cap 13 and the insulating tube 53. The cap 13 may form a part of the phone plug 10. In this case, the jack connection portion 11 and the cap 13 may form the plug main body portion.

In the present embodiment, the optical fiber F is also passed through the insulating tube 53. An example of the outer diameter of the optical fiber F is 0.125 mm to 1 mm. The optical fiber F is a shining fiber in which a part of the light propagating in the optical fiber F is configured to leak to the outside while propagating. Such an optical fiber F can be manufactured by adjusting the refractive index between the core and the clad. The optical fiber F may be an optical fiber for decoration (or illumination) that illuminates the phone cable 50 by using the light propagating in the optical fiber F.

The insulating tube 53 may be configured so that the phone cable 50 shines with the light leaked from the optical fiber F. For example, the thickness of the insulating tube 53 may be such that the light leaked from the optical fiber F can pass to the outside, or the insulating tube 53 may be made of a light transmitting material. As a result, when light is input to the optical fiber F, the phone cable 50 shines.

It is preferable that the optical fibers F are evenly arranged on the earphone 41 side and the earphone 42 side in the insulating tube 53 included in the phone cable 50. For example, the optical fiber F may be branched to the earphone 41 side and the earphone 42 side at the branch portion 51. Alternatively, one optical fiber F passes through the branch portion 51, the end portion on the earphone 41 side, the branch portion 51, the end portion on the earphone 52 side, and the branch portion 51 from the cap 13 and returns to the cap 13 again. It may be arranged in 43.

In the above configuration, the base shaft portion 111, the first insulating portion 115, the first conductive portion 112, the second insulating portion 116 and the second conductive portion 113 are provided concentrically, and the base shaft portion 111, the first conductive portion 112 and The second conductive portion 113 is electrically insulated.

Further, when the rod-shaped jack connection portion 11 is viewed from the outside of the jack connection portion 11, the tip portion 111b, the ring portion 112a, and the sleeve portion 113a are arranged from the front end portion side to the rear end portion side, and the tip portion 111b is arranged. A first insulating ring formed in the exposed region of the first insulating portion 115 is arranged between the ring portion 112a and the ring portion 112a, and between the ring portion 112a and the sleeve portion 113a in the exposed region of the second insulating portion 116. A second insulating ring to be formed is arranged.

The first conductive portion 112 and the second conductive portion 113 are formed so that the ring portion 112a and the sleeve portion 113a of the first conductive portion 112 have the same diameter. Further, the tip portion 111b has a small diameter portion on the ring portion 112a side, and is formed so as to gradually increase in diameter toward the tip end side. Further, the tip portion of the tip portion 111b is formed in a conical shape.

The jack connection portion 11 which has the above configuration and is the plug main body of the phone plug 10 is, for example, a φ2.5 mm ultra-miniphone plug, a φ3.5 mm miniphone plug, a φ6.5 mm large phone plug, or the like. In a phone plug of a predetermined standard, it corresponds to a plug in which a first fiber insertion hole 111a is formed (more specifically, a rod-shaped jack connection portion of the plug).

The capillary 12 is provided at the tip end portion of the base shaft portion 111, more specifically, at the tip end portion of the tip portion 111b. The capillary 12 has a cylindrical shape having a first end 12a and a second end 12b, and the first end 12a is inserted into the chip portion 111b.

The capillary 12 is formed with a second fiber insertion hole 121 that penetrates the capillary 12 from the first end 12a to the second end 12b. In the present embodiment, the second fiber insertion hole 121 is formed concentrically with the axis C2 of the capillary 12, and the axis C2 coincides with the axis C1 of the base shaft portion 111. The second fiber insertion hole 121 communicates with the first fiber insertion hole 111a. The inner diameter of the second fiber insertion hole 121 becomes larger as it is closer to the first end 12a in a predetermined range in the axis C2 direction including the opening on the first end 12a side, and the inner diameter other than the predetermined range is the optical fiber F. It is almost the same as the outer diameter of. Therefore, by inserting the optical fiber F into the second fiber insertion hole 121 of the capillary 12, the optical fiber F is held in the capillary 12 in a state where the optical axis C3 of the optical fiber F coincides with the axis C2 of the capillary 12. To. The optical fiber F is held by the capillary 12 so that its light incident end Fa substantially coincides with the second end 12b. Examples of the material of the capillary 12 include zirconia.

Since the optical fiber F is held in the capillary 12, the optical fiber F may be a component of the phone plug 10.

The phone plug 10 is, for example, a rod-shaped member having the same outer diameter as the outer diameter of the capillary 12 (for example,) in the vicinity of the tip end portion of the first fiber insertion hole 111a formed in the base shaft portion 111 after forming the jack connection portion 11. , A wire made of a material harder than the base shaft portion 111), and then the capillary 12 is pushed in to manufacture the product. When the optical fiber F is a component of the phone plug 10, after the capillary 12 is attached to the base shaft portion 111, the first fiber insertion hole 111a and the second fiber insertion hole 121 are provided from the rear end side of the base shaft portion 111. The optical fiber F may be passed through and the optical fiber F may be held by the second fiber insertion hole 121.

Next, the phone jack 20 will be described. As shown in FIGS. 4 and 5, the phone jack 20 includes a jack main body 21, a light source unit 22, and an optical coupling unit (positioning unit) 23. FIG. 5 is a schematic view of the connection state between the phone plug 10 and the phone jack 20, and shows the connection structure between the phone plug 10 and the phone jack 20. In FIGS. 4 and 5, the cross-sectional structure of the jack main body 21 and the optical coupling portion 23 is schematically shown.

The jack body 21 is made of an insulating material and extends in one direction. The shape of the jack body 21 is not limited, but exhibits, for example, a prismatic shape. An insertion port 211a into which the jack connection portion 11 of the phone plug 10 is inserted is formed in the first end portion 211 of the jack main body 21, and the second end portion 212 on the opposite side of the first end portion 211 has an insertion port 211a. The opening 212a is formed. Further, the jack main body 21 is formed with a hole 213 for connecting the insertion port 211a and the opening 212a. Therefore, the jack body 21 of the present embodiment has a tubular shape.

The insertion port 211a, the hole 213, and the opening 212a are concentrically formed and have the same diameter. The diameter of the hole 213 is substantially the same as the outer diameter of the sleeve 113a. As a result, the jack connection portion 11 (more specifically, the region of the jack connection portion 11 on the tip side of the cap connection portion 113b) inserted from the insertion port 211a is arranged in the hole portion 213, and the hole portion 213 It is held on the inside. Therefore, the hole portion 213 is an arrangement space for the jack connection portion 11. Since the diameter of the hole portion 213 is substantially the same as the outer diameter of the sleeve portion 113a, the jack connection portion 11 is arranged in the hole portion 213 with the base shaft portion 111 concentric with the hole portion 213.

The jack main body 21 has a chip portion 111b, a ring portion 112a, and a first connection terminal T1, a second connection terminal T2, and a third connection terminal T3 that are electrically connected to the sleeve portion 113a. The first connection terminal T1, the second connection terminal T2, and the third connection terminal T3 are, for example, conductive plates. The first connection terminal T1, the second connection terminal T2, and the third connection terminal T3 are connected to the chip portion 111b, the ring portion 112a, and the sleeve portion 113a from the inner surface of the hole portion 213 to the inside of the hole portion 213. The portion is exposed and is embedded in the peripheral wall of the jack main body 21 so that a part of the portion is exposed on the outer surface of the jack main body 21 so that it can be connected externally. For example, a left audio signal, a right audio signal, and a ground signal are input to the first connection terminal T1, the second connection terminal T2, and the third connection terminal T3 in order to output audio from the audio equipment 30 to the earphone 41 and the earphone 42. Will be done. In FIG. 1, the connection wiring between the first connection terminal T1, the second connection terminal T2, and the third connection terminal T3 and the audio output unit of the audio equipment 30 is omitted.

The light source unit 22 outputs red, blue, and green combined light L input to the optical fiber F. As shown in FIG. 6, the light source portion 22 has a disk-shaped base plate 221 and a cap portion 222 fixed to the base plate 221. The base plate 221 and the cap portion 222 can be hermetically sealed, for example. The first LD chip 223a, the second LD chip 223b, and the third LD chip 223c are arranged in the space defined by the base plate 221 and the cap portion 222, and the wave optics 224 for merging them is provided. Have been placed. The first LD chip 223a, the second LD chip 223b, and the third LD chip 223c output light of different colors from red light, green light, and blue light. For example, the first LD chip 223a outputs red light, the second LD chip 223b outputs green light, and the third LD chip 223c outputs blue light.

An example of the arrangement state of the first LD chip 223a, the second LD chip 223b, the third LD chip 223c, and the combined wave optical system 224 will be described. These may be mounted on a support plate 225 arranged orthogonally to the surface of the base plate 221.

The first LD chip 223a is arranged on the support plate 225 so that the normal direction (thickness direction) of the surface of the base plate 221 is the optical axis, and the second LD chip 223b and the third LD chip 223c have their optical axes. It is arranged on the support plate 225 so as to be orthogonal to the optical axis of the first LD chip 223a.

The combined wave optical system 224 combines the first LD chip 223a, the second LD chip 223b, and the third LD chip 223c to generate red, blue, and green combined wave light L. The combined wave optical system 224 has a first wavelength filter 224a and a second wavelength filter 224b.

The first wavelength filter 224a combines the light from the first LD chip 223a and the second LD chip 223b and outputs the light to the second wavelength filter 224b side. The first wavelength filter 224a is arranged on the intersection of the optical axes of the first LD chip 223a and the second LD chip 223b and transmits the light from the first LD chip 223a while transmitting the light from the second LD chip 223b to the second wavelength. It reflects on the filter 224b side. As a result, the light from the first LD chip 223a and the second LD chip 223b is combined, and the combined light is output to the second wavelength filter 224b side.

The second wavelength filter 224b combines the combined light of the light from the first LD chip 223a and the second LD chip 223b with the light from the third LD chip 223c, and combines the light from the third LD chip 223c on the opposite side of the base plate 221 (top plate of the cap portion 222). Output to the side). The second wavelength filter 224b is arranged on the intersection of the optical axes of the first LD chip 223a and the third LD chip 223c, and transmits the light output from the first LD chip 223a and the second LD chip 223b, while transmitting the light output from the third LD chip 223c. Is reflected on the opposite side of the first wavelength filter 224a. As a result, the combined light of the light from the first LD chip 223a and the second LD chip 223b and the light from the third LD chip 223c are combined, and the combined light L is output to the top plate side of the cap portion 222.

In the arrangement state of the first LD chip 223a, the second LD chip 223b, and the third LD chip 223c described in the present embodiment, the optical axis of the first LD chip 223a is the optical axis C4 of the light source unit 22.

The top plate of the cap portion 222 (the wall portion facing the base plate 221) functions as a condensing optical system for condensing the combined wave light output from the combined wave optical system 224 and inputting it to the optical fiber F. A condenser lens 223 is provided on the optical axis C4. In the present embodiment, the condensing lens (condensing optical system) 223 is described as a part of the light source unit 22, but for example, a condensing optical system may be provided separately from the light source unit 22. In this case, it is sufficient that the top plate of the cap portion 222 is formed with a window portion through which the combined wave light passes.

In order to drive the first LD chip 223a, the second LD chip 223b, and the third LD chip 223c, the base plate 221 is provided with a plurality of lead pins 226 so as to penetrate the base plate 221 to supply electric power to them. .. When the base plate 221 has conductivity, an insulating member may be arranged between the lead pin 226 and the base plate 221. The lead pin 226 is connected to a control unit that controls various functions of the audio equipment 30. Thereby, for example, the light emitting state of the first LD chip 223a, the second LD chip 223b, and the third LD chip 223c can be controlled by the control unit according to the state of the audio output of the audio equipment 30. In FIG. 1, the connection wiring between the lead pin 226 and the control unit that controls various functions of the audio equipment 30 is omitted.

The optical coupling unit 23 positions the capillary 12 with respect to the light source unit 22 so that the combined light L output from the light source unit 22 is incident on the optical fiber F held by the capillary 12. In other words, the optical coupling unit 23 photocouples the light source unit 22 to the optical fiber F held in the capillary 12.

As shown in FIG. 4, the optical coupling portion 23 has a split sleeve (guide portion) 231 sharing an axis and a tubular portion 232. The axis of the split sleeve 231 and the tubular portion 232 is the axis C5 of the optical coupling portion 23. The optical coupling unit 23 is a member for photobonding the light source unit 22 and the optical fiber F (see FIG. 3) held by the capillary 12.

The tubular portion 232 has a first tubular portion (axial position defining portion) 232A and a second tubular portion 232B. Examples of the material of the tubular portion 232 include metal or resin. The first tubular portion 232A is provided integrally with the second tubular portion 232B on the jack main body 21 side. The first tubular portion 232A has a cylindrical shape, and the outer diameter of the first tubular portion 232A is substantially the same as the outer diameter of the capillary 12. The first tubular portion 232A has a hole portion 232a having an axis C5 as an axis.

The second tubular portion 232B has an outer diameter larger than the outer diameter of the first tubular portion 232A. Therefore, the first tubular portion 232A has a small diameter portion, and the second tubular portion 232B has a large diameter portion. The second tubular portion 232B has a hole portion 232b and a hole portion 232c whose axis is the axis C5 from the side of the first tubular portion 232A. Of the hole 232b and the hole 232c, the hole 232b on the first tubular portion 232A side communicates with the hole 232a. The diameter of the hole 232b at the boundary position between the hole 232b and the hole 232a can be the same as the diameter of the hole 232a. The diameter of the hole portion 232b is increased toward the hole portion 232c. The hole portion 232c provides a space for accommodating the light source portion 22. The inner diameter of the hole 232c is substantially equal to the outer diameter of the cap 222 of the light source 22, and the light source 22 is fitted into the hole 232c. Therefore, the second tubular portion 232B functions as a connecting portion between the optical coupling portion 23 and the light source portion 22. Since the diameters of the hole 232b and the hole 232c are different, the position of the light source portion 22 in the axis C5 direction is defined by the boundary position between the hole 232b and the hole 232c. Therefore, by fitting the light source portion 22 into the hole portion 232c, the position of the condenser lens 223 in the axis C5 direction is defined. At the position of the condenser lens 223 in the axis C5 direction, that is, the boundary position between the hole portion 232b and the hole portion 232c for defining the position, the combined light L focused by the condenser lens 223 is held by the capillary 12. The position may be any position as long as it is incident on the light incident end Fa of the optical fiber F.

The split sleeve 231 has a guide hole (insertion hole) 231a for guiding the capillary 12 with the axis C5 as the axis. The split sleeve 231 has a cylindrical shape with a part open in the circumferential direction when viewed from the axis C5 direction. In other words, the split sleeve 231 is formed by forming a notch extending along the axial direction in a part of the peripheral wall portion of the tubular body having the guide hole 231a. The first tubular portion 232A is inserted into the split sleeve 231, and one end of the split sleeve 231 is in contact with, for example, the second tubular portion 232B. The length of the split sleeve 231 in the axis C5 direction is longer than that of the first tubular portion 232A.

The split sleeve 231 has elasticity (springiness), and examples of the material of the split sleeve 231 are phosphor bronze, zirconia, and the like. The split sleeve 231 has an inner diameter slightly smaller than the outer diameter of the first tubular portion 232A and the capillary 12. The inner diameter of the split sleeve 231 corresponds to the diameter of the guide hole 231a. For example, when the outer diameters of the first tubular portion 232A and the capillary 12 are 1.25 mm, the inner diameter of the split sleeve 231 is about 1.245 mm. As a result, when the split sleeve 231 is attached to the first tubular portion 232A, the split sleeve 231 grips the first tubular portion 232A and becomes concentric with the first tubular portion 232A to the first tubular portion 232A. It is fixed. Further, when the capillary 12 is inserted into the split sleeve 231 from the side opposite to the first tubular portion 232A, the capillary 12 grips the split sleeve 231 in a state concentric with the first tubular portion 232A and the split sleeve 2331. And be retained. With the capillary 12 inserted into the split sleeve 231 the tip of the capillary 12 is in contact with the first tubular portion 232A. As a result, when the phone plug 10 is inserted into the phone jack 20, the phone plug 10 is positioned in the insertion direction in the axis C5 direction, and the position of the light incident end Fa of the optical fiber F in the optical coupling portion 23 is positioned. Is regulated.

The axis C5 of the optical coupling portion 23 (the axis of the split sleeve 231 and the tubular portion 232) coincides with the optical axis C4 of the light source portion 22 fitted and positioned in the hole portion 232c. As a result, the optical axis C4 of the light source unit 22 and the optical axis C3 of the optical fiber F held in the capillary 12 coincide with each other. Further, when the light source unit 22 is housed in the second tubular portion 232B and the phone plug 10 is inserted into the phone jack 20, the position of the condenser lens 223 and the light incident end Fa of the optical fiber F in the axis C5 direction. The position of is specified. As a result, the light source unit 22 and the optical fiber F are photocoupled. Therefore, when the combined wave light L generated by the light source unit 22 is condensed by the condenser lens 223, the condensed combined wave light L becomes. It is incident on the optical fiber F.

As shown in FIG. 1, the jack main body 21 of the phone jack 20 can be fixed so that the insertion port 211a is exposed to the outside in the vicinity of the edge portion of the back panel 32. As a result, the jack connection portion 11 of the phone plug 10 can be inserted into the insertion port 211a. The jack body 21 may be fixed via a fixing member, or may be fixed to the back panel 32 with an adhesive or the like.

As shown in FIG. 4, the light source unit 22 is housed in the second tubular portion 232B of the optical coupling unit 23, and as shown in FIG. 1, for example, the fixing member 60 is used as a back panel of the audio equipment 30. It is fixed at 32. The fixing member 60 has a flat plate portion 61 fixed to the inner surface of the back panel 32, and a support portion 62 which is erected from one edge of the flat plate portion 61 and supports the base plate 221. The flat plate portion 61 is formed with, for example, an insertion hole through which a screw is inserted, and can be fixed to the back panel 32 by the screw. The flat plate portion 61 and the support portion 62 are preferably made of a material having good thermal conductivity. This is because the fixing member 60 also functions as a heat radiating member of the light source unit 22.

The fixing position of the fixing member 60 to the back panel 32 is the first connection terminal T1, the second connection terminal T2, and the third connection terminal in a state where the second end 12b of the capillary 12 is in contact with the first tubular portion 232A. The T3 may be set so as to come into contact with the tip portion 111b, the ring portion 112a, and the sleeve portion 113a.

The phone plug 10 is provided with a capillary 12 at the tip of the jack connection portion 11, and the optical fiber F is held by the capillary 12. Therefore, by inserting the phone plug 10 into the phone jack 20 provided with the light source unit 22 and built in the acoustic device 30, the combined wave light L can be incident on the optical fiber F from the light source unit 22. Therefore, if the optical fiber F is inserted into the phone cable 50, the phone cable 50 can be illuminated.

The phone jack 20 is built in the audio equipment 30. The phone jack 20 is provided with a light source unit 22 on the side opposite to the insertion port 211a of the jack main body 21. The capillary 12 inserted into the phone jack 20 is positioned by the optical coupling unit 23 with respect to the light source unit 22. As a result, the optical fiber F inserted from the insertion port 211a of the jack main body 21 and held in the capillary 12 and the light source unit 22 are optically coupled by the optical coupling unit 23. Therefore, by outputting the combined wave light L from the light source unit 22 built in the audio equipment 30, the combined wave light L can be incident on the optical fiber F held in the capillary 12. Therefore, if the optical fiber F is inserted into the phone cable 50, the phone cable 50 can be illuminated.

Since the optical coupling portion 23 has the split sleeve 231 and the capillary 12 is held by the split sleeve 231 in a state of being in contact with the first tubular portion 232A, for example, the sound is generated according to the movement of the user carrying the audio device 30. Even if the device 30 vibrates, the position of the capillary 12 with respect to the light source portion 22 is unlikely to shift. Therefore, the combined light L from the light source unit 22 can be stably incident on the optical fiber F. In particular, like the optical coupling portion 23, the first tubular portion 232A has a second tubular portion 232B which is a connecting portion to be connected to the light source portion 22, and is integrally provided with the second tubular portion 232B. Is inserted into the split sleeve 231 and the first tubular portion 232A is gripped by the split sleeve 231. When the audio equipment 30 is not affected by vibration, the position of the capillary 12 is defined with respect to the light source portion 22. The combined light L from the light source unit 22 can be stably incident on the optical fiber F.

In the above configuration, the first tubular portion 232A inserted from one end (the end on the tubular portion 232 side) of the split sleeve 231 is arranged in the split sleeve 231, and the capillary 12 is the first tubular portion 232A. It is held by the split sleeve 231 in a state of being in contact with the split sleeve 231. Therefore, the first tubular portion 232A (more specifically, the contact surface of the first tubular portion 232A with the capillary 12) positions the second end 12b of the capillary 12 with respect to the optical axis C4 of the light source portion 22. Functions as a department. As a result, the position of the second end 12b of the capillary 12 with respect to the optical axis C4 of the light source unit 22 can be reliably defined with respect to the light source unit 22. Therefore, the combined light L from the light source unit 22 can be more reliably incident on the light incident end Fa of the optical fiber F held by the capillary 12.

Regarding the effects of the phone plug 10 and the phone jack 20, as shown in FIG. 2, the phone plug 10 to which the phone cable 50 is connected and the optical fiber F is held in the capillary 12 is the audio equipment 30. The case where it is inserted into the phone jack 20 mounted on the above will be described in more detail.

When the phone plug 10 is inserted into the phone jack 20, the jack connection portion 11 and the capillary 12 of the phone plug 10 are inserted into the jack body 21 of the phone jack 20. A split sleeve 231 of the optical coupling portion 23 is arranged on the opening 212a side of the jack main body 21. The capillary 12 is inserted into the split sleeve 231 while being guided by the split sleeve 231 until the second end 12b abuts on the end surface of the tubular portion 232. In other words, the phone plug 10 is inserted into the phone jack 20 until the second end 12b abuts on the first tubular portion 232A.

When the second end 12b is in contact with the first tubular portion 232A in the split sleeve 231, the tip portion 111b, ring portion 112a, and sleeve portion of the jack connection portion 11 arranged in the hole portion 213 of the jack main body 21. The first connection terminal T1, the second connection terminal T2, and the third connection terminal T3 are connected to 113a. Therefore, it is possible to transmit an audio signal (for example, music) from the audio device 30 to the earphone 41 and the earphone 42 via the phone plug 10 and the phone cable 50.

The inner diameter of the split sleeve 231 (diameter of the guide hole 231a) is slightly smaller than the outer diameter of the capillary 12, and the split sleeve 231 has elasticity. Therefore, the capillary 12 inserted into the split sleeve 231 is tightened and held by the split sleeve 231 in a state concentric with the axis C5 of the optical coupling portion 23. Since the axis C5 coincides with the optical axis C4 of the light source unit 22, the optical axis C4 of the light source unit 22 and the optical axis C3 of the optical fiber F held by the capillary 12 coincide with each other.

Further, when the second end 12b abuts on the first tubular portion 232A, the capillary 12 is fixed at a position where the combined light L output from the light source portion 22 is incident on the light incident end Fa of the optical fiber F. .. Therefore, by outputting the combined light L from the light source unit 22, the combined light L is incident on the optical fiber F. The optical fiber F is passed through the phone cable 50. Further, the optical fiber F is configured so that the light propagating inside leaks from the optical fiber F. Therefore, when the combined light L from the light source unit 22 is incident on the optical fiber F, the phone cable 50 emits light.

As described above, the phone plug 10 is provided with a capillary 12 at the tip of the jack connection portion 11, and the phone jack 20 is provided with the light source portion 22 and the optical coupling portion 23, so that the phone jack 20 can be used as an audio device 30. It is possible to make the phone cable 50 emit light by inserting the phone plug 10 into the phone jack 20 while incorporating it.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above embodiments, and the gist described in each claim is modified or applied to other objects without changing the gist. There may be. That is, the present invention can be modified in various ways without changing the gist of the present invention.

For example, the number and arrangement of the insulating portion and the conductive portion with respect to the base shaft portion in the jack connecting portion may be such that the jack connecting portion conforms to, for example, a 4-pole type conforming to JIS C 5325A. For example, a base shaft portion may be assigned for a microphone signal, and a third conductive portion that covers the outer periphery of the base shaft portion may be arranged between the base shaft portion and the first insulating portion via the third insulating portion. In this case, on the surface of the jack connection portion, a part of the third conductive portion is formed between the third insulating portion and the first insulating portion so that a part of the third conductive portion is exposed, and the third conductive portion is an audio signal for the left ear. Should be assigned to. Alternatively, the configuration may be such that the voice can be transmitted to only one ear instead of both ears. The number and arrangement of connection terminals of the phone jack may also be suitable for the configuration of the jack connection portion.

The light source unit may be capable of outputting light for causing the phone cable to emit light. Therefore, it is not limited to the configuration illustrated in FIG. Further, the combined wave light output by the light source unit is not limited to the combined wave light of three colors of red, blue, and green. For example, it may be a combined wave light of two colors or four or more colors. Further, the light source unit may output monochromatic light.

In the above embodiment, the optical coupling portion has been described as a positioning portion for positioning the fiber holding portion with respect to the light source portion, but the configuration of the positioning portion is such that the light output from the light source portion holds the fiber with respect to the light source portion. As long as the fiber holding portion can be positioned so as to be incident on the optical fiber held by the portion, the configuration is not limited to the illustrated optical coupling portion.

For example, in a form in which the arrangement space of the jack connection portion in the fiber main body has the same inner diameter as the outer diameter of the sleeve portion of the jack connection portion, for example, an insertion amount regulation portion that regulates the insertion amount of the jack main body is provided at the insertion port. If this is done, the tip position of the fiber holding portion with respect to the optical axis direction of the light source portion (the optical incident end of the optical fiber) while aligning the optical axis of the light source portion with the optical axis of the optical fiber held by the fiber holding portion. It is also possible to specify the position). In this case, the arrangement space of the jack connection portion and the insertion amount regulation unit function as a positioning unit, and the insertion amount regulation unit functions as an axial position regulation unit.

The inner diameter of the split sleeve (the diameter of the guide hole) as the guide portion may be substantially the same as the outer diameter of the capillary as long as the axis of the capillary (the axis of the optical fiber) can be guided so as to coincide with the axis of the light source portion. .. The configuration of the guide portion is not limited to the illustrated split sleeve, and may be, for example, a tubular body that is closed in the circumferential direction when viewed from the axial direction. As the guide portion, for example, a tubular body having the outer diameter of the fiber holding portion as the inner diameter may be provided in the opening of the jack body.

10 ... Phone plug, 11 ... Jack connection part, 12 ... Capillary (fiber holding part), 20 ... Phone jack, 21 ... Jack body, 22 ... Light source part, 23 ... Optical coupling part (positioning part), 111 ... Base shaft part, 112 ... 1st conductive part, 113 ... 2nd conductive part, 115 ... 1st insulating part, 116 ... 2nd insulating part, 211a ... insertion port, 212a ... opening, 213 ... hole (arrangement space), 231 ... split Sleeve (guide portion), 232A ... 1st tubular portion (axial position defining portion), C3 ... optical axis.

Claims (8)

The jack for connecting the other end of the phone cable, which is a rod-shaped jack connection part connected to the phone jack and one end is connected to the earphone or the headphone, to the side opposite to the side connected to the phone jack. Connection part and
A fiber holding portion provided at the tip of the jack connection portion and
With
The jack connection is
A conductive base shaft portion extending in one direction and forming a first fiber insertion hole through which an optical fiber is inserted,
A conductive portion that covers the outer periphery of the base shaft portion with the tip portion of the base shaft portion exposed,
An insulating portion that is arranged between the base shaft portion and the conductive portion with the tip end portion of the base shaft portion exposed and that insulates the base shaft portion and the conductive portion.
Have and
The fiber holding portion is provided at the tip end portion of the base shaft portion.
The said fiber holding portion communicates with the said first fiber insertion hole is formed with a second fiber insertion hole for holding the optical fiber with the optical fiber is inserted,
The jack connection portion further includes a jack insertion region including the tip portion and inserted into the phone jack.
The outer surface of the end portion of the jack insertion region opposite to the tip portion is a conductive region.
Phone plug. Further provided with an optical fiber that is held by the fiber holding portion and allows a part of the light propagating inside to leak to the outside.
The phone plug according to claim 1. The fiber holding portion is a capillary.
The phone plug according to claim 1 or 2. A phone jack to which the phone plug according to any one of claims 1 to 3 is connected.
An insertion port that the phone plug has and the jack connection portion provided with the fiber holding portion is inserted from the fiber holding portion side, an opening provided on the side opposite to the insertion port, and the insertion port. An arrangement space for arranging the jack connection portion inserted from the insertion port is formed between the opening and the first connection terminal electrically connected to the base shaft portion, and the jack connection portion is arranged. A jack body having a second connection terminal electrically connected to the conductive part,
A light source unit arranged on the opening side of the jack body and
A positioning unit that defines the position of the fiber holding unit with respect to the light source unit,
To prepare
Phone Jack. The positioning unit has a guide unit that guides the fiber holding unit and holds the fiber holding unit concentrically with respect to the optical axis of the light source unit.
The phone jack according to claim 4 . The positioning portion has an axial position defining portion that defines the position of the tip portion of the fiber holding portion with respect to the light source portion in the optical axis direction of the light source portion.
The phone jack according to claim 4 or 5 . The positioning unit is
A guide unit that guides the fiber holding unit and holds the fiber holding unit concentrically with respect to the optical axis of the light source unit.
A first tubular portion as an axial position defining portion that defines the position of the tip end portion of the fiber holding portion with respect to the light source portion in the optical axis direction of the light source portion.
A second tubular portion that accommodates the light source portion and has an outer diameter larger than that of the first tubular portion.
Have,
The first tubular portion is provided in the second tubular portion in a state concentric with the second tubular portion, and is inserted into one end side of the guide portion.
One end of the guide portion is in contact with the second tubular portion.
The phone jack according to claim 4. The light source unit
With the base plate
With the cap fixed to the base plate,
At least two LD chips housed in the space formed by the base plate and the cap,
A combined optical system that is housed in a space formed by the base plate and the cap and that combines at least two laser beams output from the at least two LD chips.
Have,
The phone jack according to claim 7.

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