CN204517058U - There is the cable structure of charging flowing deixis - Google Patents

Abstract

The utility model discloses a kind of cable structure with charging flowing deixis, it comprises cable, the first connector plug, the second connector plug, indicating member and flowing instruction optical cable, indicating member is provided with at least two and has emitting components luminous in turn, emitting components can also change frequency luminous in turn according to the size of charging current, flowing instruction optical cable has and emitting components optical fiber cable one to one, on optical fiber cable all equally spaced be formed with hollow structure bubble and be wound in cable and form luminous zone outward; When filling, emitting components is luminous in turn, its light enters into optical fiber cable and makes bubble place present bright state, during different time, the position of luminous bubble also in change in turn and the frequency of change also in change, make luminous zone present the charging indicating status of line of flow proterties, have aesthetic feeling and innervation, substitute traditional LED light source with luminous bubble simultaneously, both saved electric energy, can bend arbitrarily again, and be more easy to check.

Description

There is the cable structure of charging flowing deixis

Technical field

The utility model relates to a kind of cable structure, espespecially relates to a kind of cable structure with charging indication function.

Background technology

By the progress along with science and technology, 3C electronic product, except compactization day by day, also develop towards touch control operation mode, makes 3C electronic product, such as hand-held device, such as flat computer, intelligent mobile phone or audio and video player are the indispensable carry-on articles of daily life.In fact, namely with flat computer, such as iPad, intelligent mobile phone, such as iPhone, audio and video player, such as iPod series of products are example, this flat computer, intelligent mobile phone and audio and video player all have respective charger and transmission cable, to charge and transfer of data to prior hand held devices.

The charging circuit of aforementioned touch-type handheld device all in be built on the printed circuit board (PCB) of device inside itself, so, user only needs the connector plug connector plugging slot of hand-held device being plugged in charger, power supply can be passed through cable, and the rechargeable battery of hand-held device inside charges, and whether rechargeable battery has filled full, on the whole be the screen by waking hand-held device up, such as touch screen or pressing keys mode, with the charged state on view screen shown by pattern, and be the waste avoiding power supply, so screen is when setting-up time arrives, can extinguish immediately, so that user must wake the screen of hand-held device every now and then up with aforementioned mode of operation, whether can observe rechargeable battery fills full, and constantly annoying user.

No doubt itself namely charging indicator light is provided with at some hand-held device, but user's hand-held device that to be protective price not striking, often hand-held device is put protection leather sheath, make charging indicator light crested, and directly cannot observe charged state.In addition, some power-supply adapter (power adapter) is also provided with charging indicator light at present, but power-supply adapter must be plugged in the socket of wall or extended line, that is power-supply adapter is fixed in power source supply end, but not hand-held device end, i.e. likely crested thing, such as desk covered, and outside being difficult to directly to observe, and observes by the power-supply adapter beyond the hand-held device that charges, also be not inconsistent the use habit of directly observing, and acomialy give full play to deixis.

Probe into its because of, be that the cable of the power-supply adapter used at present is without deixis, so that user must wake the screen of hand-held device repeatedly up, and the charging indicator diagram shown by view screen, be very inconvenient, and urgently improve.

For the foregoing reasons, the applicant is through long-term investigation and production practices, develop the cable structure with charging flowing deixis, its whole cable structure when charging presents the charging indicating status of line of flow proterties, the blank of prior art is compensate for by less structural modification, start novel charging indicating status pattern, and achieve positive beneficial effect.

Utility model content

The purpose of this utility model is to provide a kind of cable structure with charging flowing deixis, and its whole cable structure when charging presents the charging indicating status of line of flow proterties, elegant in appearance and be easy to check.

To achieve these goals, the utility model provides a kind of cable structure with charging flowing deixis, and it comprises cable, the first connector plug, the second connector plug, indicating member and flowing instruction optical cable, establishes multiple conducting wires in described cable; Described first connector plug comprises body and connecting portion, and is coupled to described cable one end; Described second connector plug is coupled to the described cable other end; Described indicating member is fixedly arranged in described body, described indicating member has at least two and to be coupled on a circuit board and on described body, to have emitting components luminous in turn, described circuit board is with on the power circuit of connection between described cable and described first connector plug, and controlling described emitting components frequency luminous in turn by the comparison of circuit for detecting to electric current of described circuit board, described cable has the function of transfer of data; Described flowing instruction optical cable has and described emitting components optical fiber cable one to one, the all equally spaced bubble being formed with hollow structure on optical fiber cable described in each, described optical fiber cable is wound in outside described cable, described optical fiber cable and described cable gathering form cable core, and described bubble to be from first to last distributed on described cable core and to form luminous zone.

Preferably, described emitting components is LED.

Preferably, described optical fiber cable and the described cable core of the stranded formation of described cable gathering, described luminous zone in the shape of a spiral.

Preferably, described optical fiber cable and described cable gathering parallel arrangement form described cable core, and described luminous zone is linearly.

Preferably, the protective layer of described cable core also coated one deck translucent construction outward.

Preferably, described first connector plug is expansion connector specification.

Preferably, described first connector plug is the USB connector of standard, Apple, Type-C, Lightning, Mini or Micro specification.

Preferably, described emitting components is indicator light or liquid crystal display.

Preferably, described second connector plug is the USB connector of standard, Apple, Type-C, Lightning, Mini or Micro specification, to be plugged in the connector plugging slot of computer or power-supply adapter.

Preferably, the surface of described emitting components is polychrome structure.

Compared with prior art, when adopting the cable structure with charging flowing deixis of the present utility model to charge, when charging, emitting components can not only be luminous in turn, and its frequency luminous in turn can also be changed according to the size of charging current, simultaneously also because the utility model has and this emitting components optical fiber cable one to one, and all equally spaced bubble being formed with hollow structure on optical fiber cable described in each, described optical fiber cable is wound in outside described cable, and described optical fiber cable and described cable gathering form cable core, described bubble to be from first to last distributed on described cable core and to form luminous zone, when adopting the cable structure with charging flowing deixis of the present utility model to charge, emitting components can be luminous, therefore when the light sent when each emitting components enters into the optical fiber cable corresponding with it, due to the bubble being formed with hollow structure equally spaced on optical fiber cable, therefore the light entered in optical fiber cable will reflect at bubble place, thus make the outgoing of part light go out bubble, and then make the bubble place of optical fiber cable present bright state, simultaneously, because the luminous in turn and frequency of luminescence of emitting components all in charging process can change along with the change of charging current, therefore in charging process, along with the change of charging current, the position of luminous bubble also in change in turn and the frequency of change also in change, and to be from first to last distributed on cable core due to all bubbles of optical fiber cable and to form luminous zone, thus the luminous zone making bubble be formed presents the charging indicating status of line of flow proterties, start novel charging indicating status pattern, for the basis that the charging indicating status pattern of further continual exploitation line of flow proterties provides, meanwhile provide and have aesthetic feeling and dynamic visual effect, the apparent indicating effect provided than existing charging indicating status is easy to check more, substitute traditional LED light source with luminous bubble simultaneously, both electric energy was saved, can bend arbitrarily again.

Accompanying drawing explanation

Fig. 1 is the stereogram that the utility model has cable structure first embodiment of charging flowing deixis.

Fig. 2 is the cutaway view Amplified image along A-A line in Fig. 1.

Fig. 3 is the structural representation of optical fiber cable in Fig. 2.

Fig. 4 is that the utility model has the emitting components of cable structure of the charging flowing deixis theory structure schematic diagram corresponding with optical fiber cable.

Fig. 4 a is the spiral structural representation of luminous zone that the utility model has the cable structure of charging flowing deixis.

Fig. 4 b is that the utility model has the linearly structural representation of the luminous zone of cable structure of charging flowing deixis

Fig. 5 is the close-up schematic view of the utility model first connector.

Fig. 6 is the close-up schematic view of another embodiment of the utility model first connector.

Fig. 7 is the three-dimensional exploded view that the utility model has cable structure second embodiment of charging flowing deixis.

Fig. 8 a is the utility model first connector plug is the structural representation of standard USB plug.

Fig. 8 b is the utility model second connector plug is the structural representation of standard USB plug.

Fig. 9 is the embodiment that the utility model first attachment plug is standard USB plug, the second connector plug is the USB plug of Micro specification.

Embodiment

With reference now to accompanying drawing, describe embodiment of the present utility model, element numbers similar in accompanying drawing represents similar element.

As shown in Figures 1 and 2, the cable structure that the utility model has charging flowing deixis has in one the cable establishing multiple conducting wires, the wire forming this cable is the power line 1a of charging and the data wire 1b of transmission data, one end of said power 1a and data wire 1b couples one first connector plug 11, this first connector plug 11 has a body 111 and a junction 112, this connecting portion 112 interface meets hand-held device, the flat computer that such as American apple company (Apple Inc.) produces, such as iPad, intelligent mobile phone, such as iPhone, audio and video player, expansion connector (Dock Connector) specification that such as iPod series of products adopt.The other end of said power 1a and data wire 1b is then coupled to a power-supply adapter 2, so that after converting alternating current to direct current, and be supplied to prior hand held devices by this first connector plug 11, so that hand-held device charges, only this is the charging modes for known charge device hand-held device, does not intend repeating at this.Below in conjunction with Fig. 3-Fig. 7, one detailed description is done to the cable structure with charging flowing deixis of the present utility model:

Continue composition graphs 1-Fig. 7, the utility model has the first connector 11 of the cable structure of charging flowing deixis in appropriate location, such as body 111 end face comprises an indicating member 12 further, this indicating member 12 is fixedly arranged in body 111 with flush type shoot mode, this indicating member 12 is provided with at least two and is coupled to circuit board 121 and has emitting components 122 luminous in turn at body 111, as shown in the figure, this emitting components 122 exposes to body 111 end face, only not as limit, this emitting components 122 is also built-in in body 111, wherein, this circuit board 121 is with the power circuit of connection between this cable 1 and first connector plug 11, and by the luminous in turn frequency of the emitting components 122 relatively controlling indicating member of circuit for detecting 123 pairs of electric currents of circuit board 121, thus all emitting components 122 speed luminous is in turn changed along with the change of electric current, particularly, the present embodiment is chosen to be, lasting charging current along with the charging interval becomes large gradually, the luminous in turn frequency of emitting components 122 is faster, otherwise it is then slower.

Continue shown in composition graphs 4, the utility model also comprises flowing instruction optical cable, described flowing instruction optical cable has and described emitting components 122 optical fiber cable 1c one to one, the all equally spaced bubble 100 being formed with hollow structure on optical fiber cable 1c described in each, described optical fiber cable 1c is wound in outside described cable 1, described optical fiber cable 1c and described cable 1 are gathered and are formed cable core 200, and described bubble 100 to be from first to last distributed on described cable core 200 and to form luminous zone 300; Particularly, the present embodiment is three for emitting components 122 and is described, because emitting components 122 is three, therefore with its one to one optical fiber cable 1c also there are three, those skilled in the art are under the prerequisite of technical scheme provided by the utility model, the quantity of required emitting components 122 can be selected without the need to any performing creative labour according to actual needs, therefore no longer describe in detail at this.

Continue shown in composition graphs 1-Fig. 4 b, when adopting the cable structure with charging flowing deixis of the present utility model to charge, because the utility model has three emitting components 122, when charging, these three emitting components 122 can not only be luminous in turn, and its frequency luminous in turn can also be changed according to the size of charging current, the present embodiment is chosen to be as from the foregoing, lasting charging current along with the charging interval becomes large gradually, the luminous in turn frequency of emitting components 122 is faster, simultaneously also because the utility model has and this emitting components 122 three optical fiber cable 1c one to one, and all equally spaced bubble 100 being formed with hollow structure on optical fiber cable 1c described in each, described optical fiber cable 1c is wound in outside described cable 1, and described optical fiber cable 1c and described cable 1 are gathered and are formed cable core 200, described bubble 100 to be from first to last distributed on described cable core 200 and to form luminous zone 300, when adopting the cable structure with charging flowing deixis of the present utility model to charge, emitting components 122 can be luminous, therefore when the light sent when each emitting components 122 enters into the optical fiber cable 1c corresponding with it, due to the bubble 100 being formed with hollow structure equally spaced on optical fiber cable 1c, therefore the light entered in optical fiber cable 1c will reflect at bubble 100 place, thus make the outgoing of part light go out bubble, and then make bubble 100 place of optical fiber cable 1c present bright state, simultaneously, because the luminous in turn and frequency of luminescence of emitting components 122 all in charging process can accelerate along with the increase of charging current, therefore in charging process, increase along with during the charging interval, the electric current of charging increases gradually, the position of luminous bubble 100 is also in change in turn and the frequency of change is more and more faster (namely, the luminous in turn speed goes of bubble 100 is fast), and to be from first to last distributed on cable core 200 due to all bubbles 100 of optical fiber cable 1c and to form luminous zone 300, thus the luminous zone 300 making bubble 100 be formed presents the charging indicating status of line of flow proterties, meanwhile provide and have aesthetic feeling and dynamic visual effect, the apparent indicating effect provided than existing charging indicating status is easy to check more.

Preferably, for the ease of installing and saving cost, described emitting components 122 is preferably LED; The utility model is also made to have the longer life-span and reduce energy consumption by LED as emitting components 122.

Continue shown in composition graphs 4a, mobility and aesthetic property is had more in order to make indicating effect of the present utility model, more be convenient to check, described cable core 200 is by described optical fiber cable 1c and described cable gathering is stranded is formed, due to optical fiber cable 1c and cable gathering stranded time, optical fiber cable 1c is coated on outside cable by spiral, thus make luminous zone 300 in the shape of a spiral, Fig. 4 a gives the schematic diagram of spiral helicine luminous zone 300, when in charging process, spiral helicine luminous zone 300 will present the linear indicating status of spiral helicine flowing, full of moving sense and have aesthetic feeling, also be convenient to check simultaneously.

Continue shown in composition graphs 4b, have more intuitive to make indicating effect of the present utility model and flow linear, simultaneously also for ease of manufacturing, described optical fiber cable 1c and described cable gathering parallel arrangement form described cable core 200, due to optical fiber cable 1c and cable gathering parallel arrangement, therefore luminous zone 300 is linearly, Fig. 4 b gives the schematic diagram of the luminous zone 300 of linearity, when in charging process, the linear indicating status of flowing that the luminous zone 300 of linearity will present linearity, simplicity generosity and be easy to check.

Preferably; in order to protect cable core 200 of the present utility model; the protective layer 1d of the outer also coated one deck translucent construction of described cable core 200; the protective layer of translucent construction had both protected cable core 200 can not be damaged; effectively extend useful life of the present utility model, also ensure that simultaneously luminous energy that the bubble 100 of optical fiber cable 1c sends view by people.

As shown in Figure 5, this emitting components 122 is indicator light, when the power supply by cable core 200 forward passes through indicator light by the circuit for detecting 123 of circuit board 121, it demonstrates redness, now luminous zone 300 presents redness, and namely this represent during cable core 200 charged by the rechargeable battery in connecting portion 112 hand-held device of the first connector plug 11; If indicator light demonstrates green, now luminous zone 300 presents green, then the electric quantity of rechargeable battery represented in hand-held device is already saturated, and this circuit for detecting 123 namely representing circuit board 121 cuts off the power supply supply of connecting portion 112, but allows indicator light demonstrate green; Now, hand-held device first connector plug 11 directly can be detached rear use by user.

In addition, this emitting components 122 is not limited with aforementioned indicator light, and also must adopt liquid crystal display (LCD) for it during its actual enforcement, the equivalence also belonging to emitting components practices.

Especially, when this first connector plug 11 is implemented, be not limited with aforementioned expansion connector, as shown in Figure 6, the another embodiment of this first connector plug 11 can be the USB connector plug of standard, Apple, Type-C, Lightning, Mini or Micro specification, using the use as power supply supply or transfer of data.

Preferably, described second connector plug is the USB connector of standard, Apple, Type-C, Lightning, Mini or Micro specification, to be plugged in the connector plugging slot of computer or power-supply adapter.

As shown in Figure 7, it is the three-dimensional exploded view of the utility model cable structure second embodiment, cable core 200 structure of this embodiment is identical with the first embodiment shown in Fig. 1-Fig. 5, cable one end of this cable core 200 is connected with the first connector plug 11, and the other end is connected with the second connector plug 13.Before address, be good with expansion connector or USB connector when this first connector plug 11 is implemented, second connector plug 13 is then good with USB connector, this second connector plug 13 directly can be plugged in the USB slot of computer, so that hand-held device carries out charging or transfer of data, such as, synchronously process; Or this second connector plug 13 directly can be plugged in the connector plugging slot 21 that power-supply adapter 2 is preset, so that hand-held device charges.

Preferably, Fig. 8 a gives the first connector plug 11 of the present utility model for which is provided with the structural representation of three emitting components 122 during standard USB plug.

Preferably, in order to increase display effect, the second connector plug 13 of the present utility model also can be arranged and optical fiber cable emitting components one to one; As Fig. 8 b gives the second connector plug 13 for arranging the structural representation of three emitting components 122 during standard USB plug.

Continue shown in composition graphs 9, this embodiment gives the embodiment that the utility model first attachment plug 11 is standard USB plug, the second connector plug 13 is the USB plug of Micro specification, in this embodiment, the first connector plug 11 is arranged three emitting components 122, second connector plug 13 and emitting components 122 is not set.

Preferably, described emitting components is polychrome structure.

Shown in composition graphs 1-Fig. 9, when adopting the cable structure with charging flowing deixis of the present utility model to charge, when charging, emitting components 122 can not only be luminous in turn, and its frequency luminous in turn can also be changed according to the size of charging current, simultaneously also because the utility model has and this emitting components 122 optical fiber cable 1c one to one, and all equally spaced bubble 100 being formed with hollow structure on optical fiber cable 1c described in each, described optical fiber cable 1c is wound in outside described cable 1, and described optical fiber cable 1c and described cable 1 are gathered and are formed cable core 200, described bubble 100 to be from first to last distributed on described cable core 200 and to form luminous zone 300, when adopting the cable structure with charging flowing deixis of the present utility model to charge, emitting components 122 can be luminous, therefore when the light sent when each emitting components 122 enters into the optical fiber cable 1c corresponding with it, due to the bubble 100 being formed with hollow structure equally spaced on optical fiber cable 1c, therefore the light entered in optical fiber cable 1c will reflect at bubble 100 place, thus make the outgoing of part light go out bubble, and then make bubble 100 place of optical fiber cable 1c present bright state, simultaneously, because the luminous in turn and frequency of luminescence of emitting components 122 all in charging process can change along with the change of charging current, therefore in charging process, along with the change of charging current, the position of luminous bubble 100 also in change in turn and the frequency of change also in change, and to be from first to last distributed on cable core 200 due to all bubbles 100 of optical fiber cable 1c and to form luminous zone 300, thus the luminous zone 300 making bubble 100 be formed presents the charging indicating status of line of flow proterties, start novel charging indicating status pattern, for the basis that the charging indicating status pattern of further continual exploitation line of flow proterties provides, meanwhile provide and have aesthetic feeling and dynamic visual effect, the apparent indicating effect provided than existing charging indicating status is easy to check more, substitute traditional LED light source with luminous bubble simultaneously, both electric energy was saved, can bend arbitrarily again.

The utility model discloses, and is preferred embodiment, the change of every local or modification and come from technological thought of the present utility model and be easy to by the people that has the knack of this technology to know by inference, all de-claim categories of the present utility model.

Separately, the principle of luminosity of the emitting components 122 involved by the utility model and concrete structure, be well known to those of ordinary skill in the art, be no longer described in detail at this.

Above disclosedly be only preferred embodiment of the present utility model, certainly can not limit the interest field of the utility model with this, therefore according to the equivalent variations that the utility model claim is done, still belong to the scope that the utility model is contained.

Claims (10)

1. there is a cable structure for charging flowing deixis, it is characterized in that, comprising:

Cable, establishes multiple conducting wires in described cable;

First connector plug, described first connector plug comprises body and connecting portion, and is coupled to described cable one end;

Second connector plug, described second connector plug is coupled to the described cable other end;

Indicating member, described indicating member is fixedly arranged in described body, described indicating member is provided with at least two and is coupled on a circuit board and on described body, has emitting components luminous in turn, described circuit board is with on the power circuit of connection between described cable and described first connector plug, and controlling described emitting components frequency luminous in turn by the comparison of circuit for detecting to electric current of described circuit board, described cable has the function of transfer of data; And

Flowing instruction optical cable, described flowing instruction optical cable has and described emitting components optical fiber cable one to one, the all equally spaced bubble being formed with hollow structure on optical fiber cable described in each, described optical fiber cable is wound in outside described cable, described optical fiber cable and described cable gathering form cable core, and described bubble to be from first to last distributed on described cable core and to form luminous zone.

2. there is the cable structure of charging flowing deixis as claimed in claim 1, it is characterized in that: described emitting components is LED.

3. have the cable structure of charging flowing deixis as claimed in claim 1, it is characterized in that, described optical fiber cable and the described cable core of the stranded formation of described cable gathering, described luminous zone in the shape of a spiral.

4. have the cable structure of charging flowing deixis as claimed in claim 1, it is characterized in that, described optical fiber cable and described cable gathering parallel arrangement form described cable core, and described luminous zone is linearly.

5. there is the cable structure of charging flowing deixis as claimed in claim 1, it is characterized in that, the protective layer of described cable core also coated one deck translucent construction outward.

6. have the cable structure of charging flowing deixis as claimed in claim 1, it is characterized in that, described first connector plug is expansion connector specification.

7. have the cable structure of charging flowing deixis as claimed in claim 1, it is characterized in that, described first connector plug is the USB connector of standard, Apple, Type-C, Lightning, Mini or Micro specification.

8. have the cable structure of charging flowing deixis as claimed in claim 1, it is characterized in that, described emitting components is indicator light or liquid crystal display.

9. there is the cable structure of charging flowing deixis as claimed in claim 1, it is characterized in that, described second connector plug is the USB connector of standard, Apple, Type-C, Lightning, Mini or Micro specification, to be plugged in the connector plugging slot of computer or power-supply adapter.

10. have the cable structure of charging flowing deixis as claimed in claim 1, it is characterized in that, described emitting components is polychrome structure.