CN204651544U - Audio socket and wearable device - Google Patents

Abstract

The utility model discloses a kind of audio socket, described audio socket comprises jack body, described jack body comprises first surface and second of being oppositely arranged with described first surface, one is provided with for inserting the jack of audio jack in described jack body, described jack runs through described jack body, and on described first surface, form the first perforate being used for described audio jack and inserting, described second being formed the second perforate being used for described audio jack and inserting, in described jack, being provided with multiple electrode for conducting with described audio jack.The utility model also provides a kind of wearable device comprising described audio socket.Described audio jack can insert described jack from described first perforate or the second perforate, thus realizes the described audio socket of the two-way insertion of described audio jack, facilitates the insertion of described audio jack.

Description

Audio socket and wearable device

Technical field

The utility model relates to audio devices technical field, particularly relates to a kind of audio socket and wearable device.

Background technology

Earphone, as the peripheral audio device of intelligent terminal, has obtained and has used widely, and the audio jack of standard is generally with three lines of round end or Four wire plug.But along with progress and wearable device (the such as intelligent watch of rapid photo detector, Intelligent bracelet, and bluetooth earphone etc.) rise, the particularly microminiaturization of wearable device, the structure of the jack in the conventional audio socket that it is equipped with above and size have shown the state fallen behind.

Jack in traditional audio socket is unidirectional insertion, make its use on miniature wearable device very inconvenient, such as when wearable device is worn in wrist, just must with one hand audio jack be inserted or extract, now audio jack insertion or extract just very difficult; In addition due to the ultra-slim features of wearable device, traditional audio socket is made to be difficult to integratedly to enter.

Utility model content

The purpose of this utility model is, a kind of audio socket that can solve the problem is provided, comprise jack body, described jack body comprises first surface and second of being oppositely arranged with described first surface, one is provided with for inserting the jack of audio jack in described jack body, described jack runs through described jack body, and on described first surface, form the first perforate being used for described audio jack and inserting, described second is formed the second perforate being used for described audio jack and inserting, multiple electrode for conducting with described audio jack is provided with in described jack.

Further, in described audio socket, described jack body also comprises the 3rd, described 3rd is connected with described first surface, described jack forms first half opening be pressed into for described audio jack near the side of described first surface on described 3rd, and described first perforate is connected with the first half opening.

Further, in described audio socket, the elasticity that has of described first half opening peripheral part the 3rd can deformation.

Further, in described audio socket, described 3rd is also connected with described second face, and described jack forms second half opening be pressed into for described audio jack near the side of described second on described 3rd, and described second perforate is connected with the second half opening.

Further, in described audio socket, the elasticity that has of described second half opening peripheral part the 3rd can deformation.

Further, in described audio socket, described jack body comprises the 3rd, described 3rd is connected with the second face with described first surface respectively, described jack forms an open be pressed into for described audio jack on described 3rd, and described open is connected with the second perforate with the first perforate respectively.

Further, in described audio socket, the elasticity that has of described open peripheral part the 3rd can deformation.

Further, in described audio socket, described jack body also comprises fourth face, and described fourth face and described 3rd face are oppositely arranged, and the elasticity that has of the position that described fourth face is relative with described jack can deformation.

Further, in described audio socket, described audio socket also comprises multiple tone frequency channel wire, and multiple described tone frequency channel wire conducts according to the direction of insertion of described audio jack and multiple described Electrode selectivity.

Further, in described audio socket, described audio socket also comprises multiple first switch, multiple second switch, first impeller and the second impeller, one end of multiple described first switch connects corresponding described electrode respectively, the other end of multiple described first switch connects so that the first connected mode is corresponding with multiple described tone frequency channel wire, one end of multiple described second switch connects corresponding described electrode respectively, the other end of multiple described second switch connects so that the second connected mode is corresponding with multiple described tone frequency channel wire, multiple described electrode is sequentially arranged in described jack, described electrode is have bending camber electrode, the described electrode being positioned at two ends is greater than the described electrode being positioned at centre position, first push rod described in the described Electrode connection of wherein one end, second push rod described in the described Electrode connection of the other end, when described audio jack inserts described jack from described first perforate, the described electrode of one end promotes described first push rod, described first push rod promotes multiple described first switch and closes, when described audio jack inserts described jack from described second perforate, the described electrode of the other end promotes described second push rod, and described second push rod promotes multiple described second switch and closes.

Further, in described audio socket, multiple described first switch and multiple described second switch are arranged in order along the orientation of multiple described electrode respectively, and the order of connection of multiple described first switch and multiple described tone frequency channel wire is contrary with the order of connection of multiple described second switch and multiple described tone frequency channel wire.

Further, in described audio socket, described first push rod of connection of the described electrode of one end, the other end of the described electrode of one end connects corresponding one end of described first switch and one end of the described second switch of correspondence, described second push rod of connection of the described electrode of the other end, the other end of the described electrode of the other end connects corresponding one end of described first switch and one end of the described second switch of correspondence.

Further, in described audio socket, multiple described tone frequency channel wire is respectively Mike's line, earth connection, first sound diatom and rising tone diatom.

Further, in described audio socket, described audio socket also comprises one for detecting the detecting module of the direction of insertion of described audio jack, and described detecting module connects described electrode, and controls the connected mode of multiple described electrode and multiple described tone frequency channel wire.

Further, in described audio socket, described audio socket also comprises multiple first switch, multiple second switch, one end of multiple described first switch connects corresponding described electrode respectively, the other end of multiple described first switch connects so that the first connected mode is corresponding with multiple described tone frequency channel wire, one end of multiple described second switch connects corresponding described electrode respectively, the other end of multiple described second switch connects so that the second connected mode is corresponding with multiple described tone frequency channel wire, the voltage of the more described electrode of described detecting module, described detecting module respectively with multiple described first switch, multiple described second switch signal connects, when described audio jack inserts described jack, the described electrode of described detecting module more at least two, judge that described audio jack is inserted described jack from described first perforate and still inserted described jack from described second perforate, if described audio jack inserts described jack from described first perforate, then multiple described first switch of described detecting module control closes, if described audio jack inserts described jack from described second perforate, then the multiple described second switch of described detecting module control closes.

Further, in described audio socket, multiple described electrode is sequentially arranged in described jack, multiple described first switch and multiple described second switch are arranged in order along the orientation of multiple described electrode respectively, and the order of connection of multiple described first switch and multiple described tone frequency channel wire is contrary with the order of connection of multiple described second switch and multiple described tone frequency channel wire.

Further, in described audio socket, described detecting module comprises direct-current short circuit or impedance decision circuitry.

According to another side of the present utility model, also provide a kind of wearable device, described wearable device comprises the audio socket as above described in any one.

Further, in described wearable device, described wearable device also comprises audio decoder, and described electrode is electrically connected with described audio decoder.

Compared with prior art, the audio socket that provides of the utility model and wearable device have the following advantages:

In the audio socket that the utility model provides and wearable device, described audio socket comprises jack body, described jack body comprises first surface and second of being oppositely arranged with described first surface, one is provided with for inserting the jack of audio jack in described jack body, described jack runs through described jack body, and on described first surface, form the first perforate being used for described audio jack and inserting, described second is formed the second perforate being used for described audio jack and inserting, multiple electrode for conducting with described audio jack is provided with in described jack, in this application, described audio jack can insert described jack from described first perforate or the second perforate, thus realize the described audio socket of the two-way insertion of described audio jack, facilitate the insertion of described audio jack.

Further, described audio socket also comprises the first half opening, the second half opening or open, facilitates described audio jack to be pressed into described jack, more convenient described audio jack can be inserted described audio socket.

Further, described audio socket also comprises the 3rd and/or fourth face, the elasticity that has of described 3rd position relative with described jack with fourth face can deformation, thus can realize the ultra-thin property of described audio socket and arrange, and is conveniently integrated in wearable device by described audio socket.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the utility model first embodiment sound intermediate frequency socket;

Fig. 2 is the schematic diagram of circuit structure in the utility model first embodiment sound intermediate frequency socket;

Fig. 3 is that the utility model first embodiment sound intermediate frequency plug inserts the schematic diagram of audio socket from the first perforate;

Fig. 4 is that the utility model first embodiment sound intermediate frequency plug inserts the schematic diagram of audio socket from the second perforate;

Fig. 5 is the schematic diagram of the utility model second embodiment sound intermediate frequency socket;

Fig. 6 is the schematic diagram of the utility model the 3rd embodiment sound intermediate frequency socket;

Fig. 7 is the schematic diagram of wearable device in the utility model the 4th embodiment;

Fig. 8 is the schematic diagram of wearable device in the utility model the 5th embodiment;

Fig. 9 is the schematic diagram of wearable device in the utility model the 6th embodiment;

Figure 10 is the schematic diagram of wearable device in the utility model the 7th embodiment;

Figure 11 is the schematic diagram that the utility model the 7th embodiment sound intermediate frequency plug inserts audio socket.

Embodiment

Below in conjunction with schematic diagram, audio socket of the present utility model and wearable device are described in more detail, which show preferred embodiment of the present utility model, should be appreciated that those skilled in the art can revise the utility model described here, and still realize advantageous effects of the present utility model.Therefore, following description is appreciated that extensively knowing for those skilled in the art, and not as to restriction of the present utility model.

In order to clear, whole features of practical embodiments are not described.They in the following description, are not described in detail known function and structure, because can make the utility model chaotic due to unnecessary details.Will be understood that in the exploitation of any practical embodiments, a large amount of implementation detail must be made to realize the specific objective of developer, such as, according to regarding system or the restriction about business, change into another embodiment by an embodiment.In addition, will be understood that this development may be complicated and time-consuming, but be only routine work to those skilled in the art.

In the following passage, more specifically the utility model is described by way of example with reference to accompanying drawing.According to the following describes and claims, advantage of the present utility model and feature will be clearer.It should be noted that, accompanying drawing all adopts the form that simplifies very much and all uses non-ratio accurately, only in order to object that is convenient, aid illustration the utility model embodiment lucidly.

Core concept of the present utility model is, a kind of audio socket and wearable device are provided, described audio socket comprises jack body, described jack body comprises first surface and second of being oppositely arranged with described first surface, one is provided with for inserting the jack of audio jack in described jack body, described jack runs through described jack body, and on described first surface, form the first perforate being used for described audio jack and inserting, described second is formed the second perforate being used for described audio jack and inserting, multiple electrode for conducting with described audio jack is provided with in described jack, in this application, described audio jack can insert described jack from described first perforate or the second perforate, thus realize the described audio socket of the two-way insertion of described audio jack, facilitate the insertion of described audio jack.

Below enumerate several embodiments of described audio socket and wearable device, to clearly demonstrate content of the present utility model, will be clear that, content of the present utility model is not restricted to following examples, and other improvement by the routine techniques means of those of ordinary skill in the art are also within thought range of the present utility model.

First embodiment

Refer to Fig. 1-Fig. 4 and illustrate the first embodiment of the present utility model, wherein, Fig. 1 is the schematic diagram of the utility model first embodiment sound intermediate frequency socket; Fig. 2 is the schematic diagram of circuit structure in the utility model first embodiment sound intermediate frequency socket; Fig. 3 is that the utility model first embodiment sound intermediate frequency plug inserts the schematic diagram of audio socket from the first perforate; Fig. 4 is that the utility model first embodiment sound intermediate frequency plug inserts the schematic diagram of audio socket from the second perforate.

As shown in Figure 1, described audio socket 1 comprises jack body 100, the second face 102 that described jack body 100 comprises first surface 101 and is oppositely arranged with described first surface 101, one is provided with for inserting the jack 110 of audio jack in described jack body 100, described jack 110 runs through described jack body 100, described jack 110 forms the first perforate 111 being used for described audio jack and inserting on described first surface 101, described jack 110 forms the second perforate 112 being used for described audio jack and inserting on described second face 102, multiple electrode for conducting with described audio jack is provided with (in order to the structure of the described audio socket 1 of clear display in described jack 110, do not draw described electrode in FIG).Described audio jack can insert described jack 110 from described first perforate 111 or the second perforate 112, thus realizes the described audio socket 1 of the two-way insertion of described audio jack, facilitates the insertion of described audio jack.

Preferably, described jack body 100 also comprises the 3rd face 103, described 3rd face 103 is connected with described first surface 101, described jack 110 forms first half opening 113 be pressed into for described audio jack near the side of described first surface 101 on described 3rd face 103, described first perforate 111 is connected with the first half opening 113, setting party's toilet of described first perforate 111 is stated audio jack and is pressed into described jack 110, thus more convenient described audio jack can be inserted described audio socket 1.Preferably, the elasticity that has in described first half opening 113 peripheral part the 3rd face 103 can deformation, presses to facilitate.

In the present embodiment, described 3rd face 103 is also connected with described second face 102, described jack 110 forms second half opening 114 be pressed into for described audio jack near the side in described second face 102 on described 3rd face 103, described second perforate 112 is connected with the second half opening 114, setting party's toilet of described second half opening 114 is stated audio jack and is pressed into described jack 110, thus more convenient described audio jack can be inserted described audio socket 1.Preferably, the elasticity that has in described second half opening 114 peripheral part the 3rd face 103 can deformation, presses to facilitate.

Preferably, described jack body 100 also comprises fourth face 104, described fourth face 104 and described 3rd face 103 are oppositely arranged, and the elasticity that has of the position that described fourth face 104 is relative with described jack 110 can deformation, thus can realize the ultra-thin setting of described audio socket 1.

In fig. 2, in order to clearly display circuit structure, described jack body 100 is eliminated.As shown in Figure 2, described audio socket 1 also comprises multiple tone frequency channel wire, multiple described tone frequency channel wire is integrated in described jack body 100, in the present embodiment, described tone frequency channel wire comprises Mike's line MIC, earth connection GND, first sound diatom HPR and rising tone diatom HPL, to be respectively used to be electrically connected with Mike's terminal of described audio jack, earth terminal, the first sound channel terminal, second sound channel terminal.In the present embodiment, described audio socket 1 comprises 4 tone frequency channel wires, 4 corresponding 4 described electrodes of tone frequency channel wire, 4 terminals of described audio jack answered by 4 described electrode pairs, in other embodiment of the present utility model, described tone frequency channel wire is not limited to comprise above-mentioned 4 tone frequency channel wires, and those of ordinary skill in the art can arrange the quantity of described tone frequency channel wire and electrode according to the quantity of terminal in described audio socket 1.Multiple described tone frequency channel wire conducts according to the direction of insertion of described audio jack and multiple described Electrode selectivity.In the present embodiment, described audio socket realizes multiple described tone frequency channel wire by mechanical switch structure and multiple described Electrode selectivity conducts.

Preferably, as shown in Figure 2, described audio socket 1 also comprises multiple first K switch 1 (being 4 the first K switch 1 in the present embodiment), multiple second switch K2 (being 4 second switch K2 in the present embodiment), the first impeller 131 and the second impeller 132, and multiple described first K switch 1, multiple described second switch K2, the first impeller 131 and the second impeller 132 are integrated in described audio socket 1.One end of multiple described first K switch 1 connects corresponding described electrode 121 respectively, 122, 123, 124, the other end of multiple described first K switch 1 connects so that the first connected mode is corresponding with multiple described tone frequency channel wire, one end of multiple described second switch K2 connects corresponding described electrode respectively, the other end of multiple described second switch K2 connects so that the second connected mode is corresponding with multiple described tone frequency channel wire, described electrode 121, 122, 123, 124 are sequentially arranged in described jack 110, described electrode 121, 122, 123, 124 for having bending camber electrode, be positioned at the described electrode 121 at two ends, 124 are greater than the described electrode 122 being positioned at centre position, 123, wherein the described electrode 121 of one end connects described first push rod 131, the described electrode 124 of the other end connects described second push rod 132.Described first push rod 131 connects multiple described first K switch 1 respectively, and described second push rod 132 connects multiple described first K switch 2 respectively.

In the present embodiment, 4 described first K switch 1 and 4 described second switch K2 are respectively along described electrode 121, 122, 123, the orientation of 124 is arranged in order, 4 described first K switch 1 and described Mike's line MIC, earth connection GND, the order of connection of first sound diatom HPR and rising tone diatom HPL and 4 described second switch K2 and described Mike's line MIC, earth connection GND, the order of connection of first sound diatom HPR and rising tone diatom HPL is contrary, thus described Mike's line MIC can be realized easily, earth connection GND, the switching of first sound diatom HPR and rising tone diatom HPL.

As shown in Figure 2, described first push rod 131 of connection of the described electrode 121 of one end, the other end of the described electrode 121 of one end connects corresponding one end of described first K switch 1 and one end of the described second switch K2 of correspondence, described second push rod 132 of connection of the described electrode 124 of the other end, the other end of the described electrode 124 of the other end connects corresponding one end of described first K switch 1 and one end of the described second switch K2 of correspondence.

As shown in Figure 3 and Figure 4, in the present embodiment, described audio jack 190 comprises 4 terminals: Mike's terminal 191, earth terminal 192, first sound channel terminal 193, second sound channel terminal 194, second sound channel terminal 194 has a depression.

As shown in Figure 3, when described audio jack 190 inserts described jack 110 from described first perforate 111, the described electrode 124 of the other end is in the depression of second sound channel terminal 194, the described electrode 124 of the other end can not promote described second push rod 132, thus described second switch K2 disconnects, and described Mike's terminal 191 can extrude the described electrode 121 of one end, the described electrode 121 of one end promotes described first push rod 131, described first push rod 131 promotes multiple described first K switch 1 and closes, multiple described tone frequency channel wire is connected so that the first connected mode is corresponding with multiple described electrode, that is: described electrode 121 connects described Mike's line MIC, described electrode 122 connects earth connection GND, described electrode 123 connects first sound diatom HPR, described electrode 124 connects rising tone diatom HPL, now, Mike's terminal 191 connects described Mike's line MIC, earth terminal 192 connects earth connection GND, first sound channel terminal 193 connects first sound diatom HPR, second sound channel terminal 194 connects rising tone diatom HPL.

As shown in Figure 4, when described audio jack 190 inserts described jack 110 from described second perforate 112, the described electrode 121 of one end is in the depression of second sound channel terminal 194, the described electrode 121 of one end can not promote described first push rod 131, thus described first K switch 1 disconnects, and described Mike's terminal 191 can extrude the described electrode 124 of the other end, the described electrode 124 of the other end promotes described second push rod 132, described second push rod 132 promotes multiple described second switch K2 and closes, multiple described tone frequency channel wire is connected so that the second connected mode is corresponding with multiple described electrode, that is: described electrode 121 connects rising tone diatom HPL, described electrode 122 connects first sound diatom HPR, described electrode 123 connects earth connection GND, described electrode 124 connects described Mike's line MIC, now, Mike's terminal 191 connects described Mike's line MIC, earth terminal 192 connects earth connection GND, first sound channel terminal 193 connects first sound diatom HPR, second sound channel terminal 194 connects rising tone diatom HPL.

In the present embodiment, described audio jack 190 plug is aimed at (with the hands or with eyes being certain about rear) from described first perforate 111 or the second perforate 112 and insert described jack 110; Or described audio jack 190 is slided and is found described first half opening 113 or the second half opening 114 on described 3rd face 103, then the forward part of described audio jack 190 is pressed into described jack 110, after again continue insert described jack 110.When extracting, inverse step operates.

Second embodiment

Refer to Fig. 5, wherein, Fig. 5 is the schematic diagram of the utility model second embodiment sound intermediate frequency socket.In Figure 5, reference number represents the parts that the statement identical with Fig. 1-Fig. 4 is identical with the first execution mode.The audio socket 2 of described second embodiment is substantially identical with the audio socket 1 of described first embodiment, its difference is: described jack body 1 comprises the 3rd face 103, described 3rd face 103 is connected with the second face 102 with described first surface 101 respectively, described jack 110 forms an open 213 be pressed into for described audio jack 190 on described 3rd face 103, and described open 213 is connected with the second perforate 112 with the first perforate 111 respectively.Preferably, the elasticity that has in described open 213 peripheral part the 3rd face 103 can deformation, to facilitate the described audio jack 190 of press-in.

In the present embodiment, described audio jack 190 plug is aimed at (with the hands or with eyes being certain about rear) from described first perforate 111 or the second perforate 112 and insert described jack 110; Or described audio jack 190 is slided and is found described open 213 on described 3rd face 103, then described audio jack 190 is pressed into described jack 110.When extracting, inverse step operates.

3rd embodiment

Refer to Fig. 6, wherein, Fig. 6 is the schematic diagram of the utility model the 3rd embodiment sound intermediate frequency socket.In figure 6, reference number represents the parts that the statement identical with Fig. 1-Fig. 4 is identical with the first execution mode.The audio socket of described 3rd embodiment is substantially identical with the audio socket 1 of described first embodiment, its difference is: the switching of multiple described electrode and multiple described tone frequency channel wire adopts electrical switch, concrete, described audio socket also comprises one for detecting the detecting module 230 of the direction of insertion of described audio jack 190, described detecting module 230 connects described electrode, and controls the connected mode of multiple described electrode and multiple described tone frequency channel wire.

In the present embodiment, as shown in Figure 6, described audio socket also comprises multiple first K switch 1, multiple second switch K2, one end of multiple described first K switch 1 connects corresponding described electrode respectively, the other end of multiple described first K switch 1 connects so that the first connected mode is corresponding with multiple described tone frequency channel wire, one end of multiple described second switch K2 connects corresponding described electrode respectively, the other end of multiple described second switch K2 connects so that the second connected mode is corresponding with multiple described tone frequency channel wire, the voltage of the more described electrode of described detecting module 230, described detecting module 230 respectively with multiple described first K switch 1, multiple described second switch K2 signal connects.

In the present embodiment, described electrode 121, 122, 123, 124 are sequentially arranged in described jack 110, 4 described first K switch 1 and 4 described second switch K2 are respectively along described electrode 121, 122, 123, the orientation of 124 is arranged in order, 4 described first K switch 1 and described Mike's line MIC, earth connection GND, the order of connection of first sound diatom HPR and rising tone diatom HPL and 4 described second switch K2 and described Mike's line MIC, earth connection GND, the order of connection of first sound diatom HPR and rising tone diatom HPL is contrary, thus described Mike's line MIC can be realized easily, earth connection GND, the switching of first sound diatom HPR and rising tone diatom HPL.

Preferably, described detecting module 230 comprises direct-current short circuit or impedance decision circuitry to judge direction of insertion:

Such as, judge direction of insertion by described direct-current short circuit, HPR and HPL (the first sound channel terminal 193 of described audio jack 190 and second sound channel terminal 194) of general earphone is connected to ground wire by a load resistance such as 16 or 32 ohm.When described audio jack 190 inserts described jack 110,4 described first K switch 1 and 4 described second switch K2 are also in off-state, now the first sound channel terminal 193 and second sound channel terminal 194 are equivalent to direct current short circuit state, described detecting module 230 detects described electrode, if detect the short circuit of described electrode 121,122, then judge that described audio jack 190 inserts described jack 110 from described second perforate 112, then control closed described second switch K2, disconnect described first K switch 1, carry out correct switching and connect; If detect the short circuit of described electrode 123,124, then judge that described audio jack 190 inserts described jack 110 from described first perforate 111, then control closed described first K switch 1, disconnect described second switch K2, carry out correct switching and connect.

Such as, direction of insertion is judged by described impedance decision circuitry, because generally connect a microphone between described Mike's terminal 191 and earth terminal 192, its equiva lent impedance than much larger times of the impedance (such as hundred times or higher) between described first sound channel terminal 193 and second sound channel terminal 194, so direction of insertion can be judged by impedance.When described audio jack 190 inserts described jack 110,4 described first K switch 1 and 4 described second switch K2 are also in off-state, now the first sound channel terminal 193 and second sound channel terminal 194 are equivalent to direct current short circuit state, described detecting module 230 detects described electrode, if detect between described electrode 121,122 for high resistant time, then judge that described audio jack 190 inserts described jack 110 from described first perforate 111, then control closed described first K switch 1, disconnect described second switch K2, carry out correct switching and connect; If when to detect between described electrode 123,124 as high resistant, then judge that described audio jack 190 inserts described jack 110 from described second perforate 112, then control closed described second switch K2, disconnect described first K switch 1, carry out correct switching and connect.

4th embodiment

With reference to the schematic diagram that figure 7, Fig. 7 is wearable device in the utility model the 4th embodiment.In the figure 7, described wearable device is for being intelligent watch 10, the described audio socket 1 of the first embodiment is integrated in the sidewall of the dial plate 11 of described intelligent watch 10, the described audio socket 2 of the second embodiment is integrated on the watchband 12 of described intelligent watch 10, described wearable device also comprises audio decoder, described electrode is electrically connected with described audio decoder, and in addition, described wearable device can also comprise the master chip or function energy chip etc. that are electrically connected with described audio decoder.

In the present embodiment, the described audio socket of all right integrated 3rd embodiment of described intelligent watch 10, according to the foregoing description of the application, this is what it will be appreciated by those skilled in the art that, and therefore not to repeat here.

5th embodiment

With reference to the schematic diagram that figure 8, Fig. 8 is wearable device in the utility model the 5th embodiment.In fig. 8, described wearable device is for being integral type bluetooth earphone 20, integral type bluetooth earphone 20 comprises earplug 21 and control board 22, the described audio socket 2 of the second embodiment is integrated in the control board 22 of described integral type bluetooth earphone 20, easily described audio jack 190 can be inserted described control board 22.

6th embodiment

With reference to the schematic diagram that figure 9, Fig. 9 is wearable device in the utility model the 6th embodiment.In fig .9, described wearable device is integral type bluetooth earphone 30, integral type bluetooth earphone 30 comprises earplug 31 and control board 32, audio socket 3 is integrated on the control board 32 of described integral type bluetooth earphone 30, described audio socket 3 is substantially identical with the audio socket 1 in the first embodiment, its difference is: described audio socket 3 does not comprise described first half opening 113 or the second half opening 114, in the present embodiment, described audio jack 190 can be inserted described control board 32 easily.

7th embodiment

With reference to the schematic diagram that figure 10-Figure 11, Figure 10 are wearable device in the utility model the 7th embodiment; Figure 11 is the schematic diagram that the utility model the 7th embodiment sound intermediate frequency plug inserts audio socket.In the present embodiment, described wearable device is belt body 40, such as an Intelligent bracelet.Audio socket 4 is integrated on belt body 40, described audio socket 4 is substantially identical with the audio socket 1 in the first embodiment, its difference is: as shown in Figure 10, described audio socket 4 does not comprise described first half opening 113 or the second half opening 114, in the present embodiment, the very thin thickness of described belt body 40, the elasticity that has of the position 103a that described 3rd face 103 is relative with described jack 110 can deformation, and/or the elasticity that has of the described fourth face 104 position 104a relative with described jack 110 can deformation.As shown in figure 11, when described audio jack 190 inserts described jack 110, described audio jack 190 struts described position 103a and/or described position 104a, thus can realize the ultra-thin property setting of described belt body 40, is conveniently integrated in wearable device by described audio socket.

In the present embodiment, described audio socket 4 also can comprise described first half opening 113, second half opening 114 or open 213, and according to the foregoing description of the application, this is what those having ordinary skill in the art will appreciate that, and therefore not to repeat here.

Preferred embodiment of the present utility model is described above, but the utility model is not limited to above-mentioned scope of disclosure, such as mechanical switch structure is not limited to the structure of the first embodiment, electrical switch is not limited to the structure of the 3rd embodiment, described tone frequency channel wire is not limited to all multiplexing, and those skilled in the art can carry out suitable variation as required, such as only multiplexing one, two or three tone frequency channel wires, etc., all within thought range of the present utility model.

Obviously, those skilled in the art can carry out various change and modification to the utility model and not depart from spirit and scope of the present utility model.Like this, if these amendments of the present utility model and modification belong within the scope of the utility model claim and equivalent technologies thereof, then the utility model is also intended to comprise these change and modification.

Claims (19)

1. an audio socket, it is characterized in that, comprise jack body, described jack body comprises first surface and second of being oppositely arranged with described first surface, one is provided with for inserting the jack of audio jack in described jack body, described jack runs through described jack body, and on described first surface, form the first perforate being used for described audio jack and inserting, described second being formed the second perforate being used for described audio jack and inserting, in described jack, being provided with multiple electrode for conducting with described audio jack.

2. audio socket as claimed in claim 1, it is characterized in that, described jack body also comprises the 3rd, described 3rd is connected with described first surface, described jack forms first half opening be pressed into for described audio jack near the side of described first surface on described 3rd, and described first perforate is connected with the first half opening.

3. audio socket as claimed in claim 2, it is characterized in that, the elasticity that has of described first half opening peripheral part the 3rd can deformation.

4. audio socket as claimed in claim 2, it is characterized in that, described 3rd is also connected with described second face, described jack forms second half opening be pressed into for described audio jack near the side of described second on described 3rd, and described second perforate is connected with the second half opening.

5. audio socket as claimed in claim 4, it is characterized in that, the elasticity that has of described second half opening peripheral part the 3rd can deformation.

6. audio socket as claimed in claim 1, it is characterized in that, described jack body comprises the 3rd, described 3rd is connected with the second face with described first surface respectively, described jack forms an open be pressed into for described audio jack on described 3rd, and described open is connected with the second perforate with the first perforate respectively.

7. audio socket as claimed in claim 6, it is characterized in that, the elasticity that has of described open peripheral part the 3rd can deformation.

8. as the audio socket in claim 2-7 as described in any one, it is characterized in that, described jack body also comprises fourth face, and described fourth face and described 3rd face are oppositely arranged, and the elasticity that has of the position that described fourth face is relative with described jack can deformation.

9. as the audio socket in claim 1-7 as described in any one, it is characterized in that, described audio socket also comprises multiple tone frequency channel wire, and multiple described tone frequency channel wire conducts according to the direction of insertion of described audio jack and multiple described Electrode selectivity.

10. audio socket as claimed in claim 9, it is characterized in that, described audio socket also comprises multiple first switch, multiple second switch, first impeller and the second impeller, one end of multiple described first switch connects corresponding described electrode respectively, the other end of multiple described first switch connects so that the first connected mode is corresponding with multiple described tone frequency channel wire, one end of multiple described second switch connects corresponding described electrode respectively, the other end of multiple described second switch connects so that the second connected mode is corresponding with multiple described tone frequency channel wire, multiple described electrode is sequentially arranged in described jack, described electrode is have bending camber electrode, the described electrode being positioned at two ends is greater than the described electrode being positioned at centre position, first push rod described in the described Electrode connection of wherein one end, second push rod described in the described Electrode connection of the other end, when described audio jack inserts described jack from described first perforate, the described electrode of one end promotes described first push rod, described first push rod promotes multiple described first switch and closes, when described audio jack inserts described jack from described second perforate, the described electrode of the other end promotes described second push rod, and described second push rod promotes multiple described second switch and closes.

11. audio sockets as claimed in claim 10, it is characterized in that, multiple described first switch and multiple described second switch are arranged in order along the orientation of multiple described electrode respectively, and the order of connection of multiple described first switch and multiple described tone frequency channel wire is contrary with the order of connection of multiple described second switch and multiple described tone frequency channel wire.

12. audio sockets as claimed in claim 10, it is characterized in that, described first push rod of connection of the described electrode of one end, the other end of the described electrode of one end connects corresponding one end of described first switch and one end of the described second switch of correspondence, described second push rod of connection of the described electrode of the other end, the other end of the described electrode of the other end connects corresponding one end of described first switch and one end of the described second switch of correspondence.

13. audio sockets as claimed in claim 10, it is characterized in that, multiple described tone frequency channel wire is respectively Mike's line, earth connection, first sound diatom and rising tone diatom.

14. audio sockets as claimed in claim 9, it is characterized in that, described audio socket also comprises one for detecting the detecting module of the direction of insertion of described audio jack, and described detecting module connects described electrode, and controls the connected mode of multiple described electrode and multiple described tone frequency channel wire.

15. audio sockets as claimed in claim 14, it is characterized in that, described detecting module comprises direct-current short circuit or impedance decision circuitry.

16. audio sockets as claimed in claim 14, it is characterized in that, described audio socket also comprises multiple first switch, multiple second switch, one end of multiple described first switch connects corresponding described electrode respectively, the other end of multiple described first switch connects so that the first connected mode is corresponding with multiple described tone frequency channel wire, one end of multiple described second switch connects corresponding described electrode respectively, the other end of multiple described second switch connects so that the second connected mode is corresponding with multiple described tone frequency channel wire, the voltage of the more described electrode of described detecting module, described detecting module respectively with multiple described first switch, multiple described second switch signal connects, when described audio jack inserts described jack, described detecting module detection at least two described electrodes, judge that described audio jack is inserted described jack from described first perforate and still inserted described jack from described second perforate, if described audio jack inserts described jack from described first perforate, then multiple described first switch of described detecting module control closes, if described audio jack inserts described jack from described second perforate, then the multiple described second switch of described detecting module control closes.

17. audio sockets as claimed in claim 16, it is characterized in that, multiple described electrode is sequentially arranged in described jack, multiple described first switch and multiple described second switch are arranged in order along the orientation of multiple described electrode respectively, and the order of connection of multiple described first switch and multiple described tone frequency channel wire is contrary with the order of connection of multiple described second switch and multiple described tone frequency channel wire.

18. 1 kinds of wearable devices, is characterized in that, described wearable device comprises as the audio socket in claim 1-17 as described in any one.

19. wearable devices as claimed in claim 18, it is characterized in that, described wearable device also comprises audio decoder, and described electrode is electrically connected with described audio decoder.