CN204289784U - Data-interface and electronic equipment - Google Patents

Abstract

The utility model discloses a kind of data-interface and electronic equipment, this data-interface comprises the housing with interface, one end relative with this interface of housing is provided with backboard, backboard is provided with hyoplastron towards the side of interface, housing has been separated to form the first storage tank and the second storage tank by hyoplastron, and hyoplastron forms the first storage tank and is provided with the first contact site of connection first signal with the surface in the second storage tank and is connected the second contact site of earth signal; First contact site has the first end that close interface is arranged, and the second contact site has the first end of close interface setting, and the first end of the second contact site to the distance of interface is less than the distance of first end to interface of the first contact site; The first end of the first contact site and the second contact site is that spike is arranged.When the utility model solves data-interface and equipment connection to equipment release electrostatic the technical problem of damage equipment, improve the fail safe of equipment use.

Description

Data-interface and electronic equipment

Technical field

The utility model relates to a kind of data-interface and electronic equipment.

Background technology

10, upper strata in existing HDMI socket PIN golden finger and lower floor 9 PIN golden finger length are all the same, and the terminal namely near interface is concordant.And when connecting by HDMI wire, electrostatic must contact completely in two-terminal and just can release, the energy of electrostatic will be made so directly to release on the equipment be connected with this HDMI socket, and this is easy to cause equipment operation irregularity even permanent damages.

Utility model content

Main purpose of the present utility model is to provide a kind of data-interface, be intended to solve data-interface and equipment connection time to equipment release electrostatic the technical problem of damage equipment.

For achieving the above object, the utility model provides a kind of data-interface, described data-interface comprises the housing with interface, one end relative with this interface of described housing is provided with backboard, described backboard is provided with hyoplastron towards the side of described interface, housing has been separated to form the first storage tank and the second storage tank by described hyoplastron, and described hyoplastron forms described first storage tank and is provided with the first contact site of connection first signal with the surface in the second storage tank and is connected the second contact site of earth signal; Described first contact site has the first end arranged near described interface, described second contact site has the first end arranged near described interface, and the first end of described second contact site to the distance of described interface is less than the distance of first end to described interface of described first contact site; The first end of described first contact site and the second contact site is that spike is arranged.

Preferably, one end to the described hyoplastron that the thickness of slab of described hyoplastron is connected with described backboard by described hyoplastron successively decreases near one end of described interface.

Preferably, described hyoplastron is trapezoidal shape along described backboard to the cross section in the interface direction of described housing.

Preferably, the sidewall that described housing is relative with described hyoplastron is provided with at least one shell fragment, the stiff end that described shell fragment has a free end and is fixedly connected with described housing, and the stiff end of described shell fragment and free end are arranged along the backboard of described housing to interface direction.

Preferably, on the sidewall that described housing is relative with described hyoplastron, hollow out forms described shell fragment.

Preferably, the quantity of described shell fragment is three, be respectively the first shell fragment, the second shell fragment and the 3rd shell fragment, the stiff end of described first shell fragment and the 3rd shell fragment is towards described interface direction or arrange towards described backboard, and the stiff end setting direction of described second shell fragment is contrary with the stiff end setting direction in described interface direction.

Preferably, the stiff end of described first shell fragment and the 3rd shell fragment is arranged towards described interface direction, and the free end of described first shell fragment and the 3rd shell fragment is arranged towards described backboard direction; The stiff end of described second shell fragment is arranged towards described backboard direction; The free end of described second shell fragment is arranged towards described interface direction.

Preferably, on described hyoplastron, the position of corresponding described first contact site and the second contact site is provided with the mounting groove of accommodating described first contact site and the second contact site, and described first contact site and the second contact site are arranged in corresponding described mounting groove.

Preferably, described hyoplastron is provided with ten described storage tanks towards the side of described first storage tank, and along the left end of described hyoplastron to right-hand member spaced relation, is provided with described first contact site and the second contact site in described ten storage tanks; Described hyoplastron is provided with nine described storage tanks towards the side of described second storage tank, and along the left end of described hyoplastron to right-hand member spaced relation, is provided with described first contact site and the second contact site in described nine storage tanks.

In addition, for achieving the above object, the utility model also provides a kind of electronic equipment, and this electronic equipment comprises data-interface as above; Described data-interface comprises the housing with interface, one end relative with this interface of described housing is provided with backboard, described backboard is provided with hyoplastron towards the side of described interface, housing has been separated to form the first storage tank and the second storage tank by described hyoplastron, and described hyoplastron forms described first storage tank and is provided with the first contact site of connection first signal with the surface in the second storage tank and is connected the second contact site of earth signal; Described first contact site has the first end arranged near described interface, described second contact site has the first end arranged near described interface, and the first end of described second contact site to the distance of described interface is less than the distance of first end to described interface of described first contact site; The first end of described first contact site and the second contact site is that spike is arranged.

The utility model is greater than the length of the first contact site of connection first signal by the length arranging the second contact site connecting earth signal, when making this data-interface and equipment connection, first the Electro-static Driven Comb on the second contact site is fallen, again the Electro-static Driven Comb on the first contact site is fallen, avoid the first contact site and the second contact site to cause damage to equipment to equipment electric discharge simultaneously; And the second end arranging the first contact site and the second contact site is peaked shapes; when first contact site is contacted with equipment with the second contact site; atmospherical discharges can be produced by the second end in peaked shapes; avoid the first contact site and the second contact site by Electro-static Driven Comb to equipment; decrease the infringement to equipment, thus protect equipment.

Accompanying drawing explanation

Fig. 1 is the state diagram that the utility model data-interface coordinates with data connector;

Fig. 2 is the structural representation of the utility model data-interface one embodiment;

Fig. 3 is the internal structure schematic diagram of the utility model data-interface one embodiment.

The realization of the utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Embodiment

Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The utility model provides a kind of data-interface, and this data-interface can be the interface of the transmission of digital signals such as HDMI.

Referring to figs. 1 through Fig. 3, in one embodiment, data-interface comprises the housing 10 with interface, one end relative with this interface of housing 10 is provided with backboard 11, backboard 11 is provided with hyoplastron 20 towards the side of interface, and housing 10 has been separated to form the first storage tank 101 and the second storage tank 102 by hyoplastron 20.It should be noted that, the first storage tank 101 and the second storage tank 102 can mutual conduction, or the first storage tank 101 and the second storage tank 102 also can not conductings.Hyoplastron 20 forms the first storage tank 101 and is provided with the first contact site 21 of connection first signal with the surface of the second storage tank 102 and is connected the second contact site 22 of earth signal, first contact site 21 has the first end and the second end that are oppositely arranged, second contact site 22 also has relative first end and the second end, the first end of the first contact site 21 and the first end of the second contact site 22 are positioned at hyoplastron 20 one end near interface, and the second end and second end of the second contact site 22 of the first contact site 21 are positioned at one end that hyoplastron 20 is connected with backboard 11; The first end of the second contact site 22 to the distance of interface is less than the distance of first end to interface of the first contact site 21; The first end of the first contact site 21 and the first end of the second contact site 22 are that spike is arranged.

Should be understood that, data connector 100 grafting of this data-interface and its adaptation is adaptive, by this data-interface and and the data connector 100 of this data-interface adaptation to cooperatively interact the data communication that can realize between two equipment.Wherein, the first signal can be data-signal or control signal.First contact site 21 and the second contact site 22 are electric conducting material and make, and in practical application, this first contact site 21 and the second contact site 22 generally select copper sheet to make, and after making, elongated setting.When the first end of above-mentioned second contact site 22 is less than the first contact site 21 first end to the distance of interface is to realize this data-interface and equipment connection to the distance of interface, first the Electro-static Driven Comb on ground wire is fallen, and then the Electro-static Driven Comb on the first contact site 21 is fallen, avoid the second contact site 22 and the first contact site 21 discharge to equipment simultaneously and cause damage to equipment.And; when the data pin be connected with this data-interface heat being inserted or hot drawing goes out; this second contact site 22 first can contact or backed off after random with data connector 100; avoid the first contact site 21 and the second contact site 22 to be connected with data pin simultaneously and cause between two connection devices and there is voltage difference; and then cause the problem of equipment electric voltage exception, to protect this two equipment be connected.In addition, the first end of above-mentioned first contact site 21 and the first end of the second contact site 22 are that spike is arranged when being to realize this data-interface and equipment connection, by the first end of the first contact site 21 and the first end of the second contact site 22, air is discharged, avoid electrostatic signal directly to flow to equipment, equipment is impacted.

The utility model data-interface is less than the distance of first end to interface of the first contact site 21 by the distance of the first end to interface that arrange the second contact site 22 connecting earth signal, during to make this data-interface and equipment connection, first the Electro-static Driven Comb on the second contact site 22 is fallen, again the Electro-static Driven Comb on the first contact site 21 is fallen, avoid the first contact site 21 and the second contact site 22 to cause damage to equipment to equipment electric discharge simultaneously; And the first end of the first contact site 21 is set and the first end of the second contact site 22 is peaked shapes; when first contact site 21 is contacted with equipment with the second contact site 22; atmospherical discharges can be produced by the first end in peaked shapes; avoid the first contact site 21 and the second contact site 22 by Electro-static Driven Comb to equipment; decrease the infringement to equipment, thus protect equipment.

Be understandable that, for being easy to data connector 100 grafting of this data-interface and its adaptation, and be connected firmly after guarantee grafting, successively decrease to one end near interface of hyoplastron 20 in one end that the thickness of slab of hyoplastron 20 is connected with backboard 11 by hyoplastron 20, namely this hyoplastron 20 is trapezoidal shape along the cross section in the interface direction of backboard 11 to housing 10, as Fig. 3.Preferably, this hyoplastron 20 is that isosceles trapezoid is arranged along the cross section in the interface direction of backboard 11 to housing 10.The thickness of slab of this hyoplastron 20 near one end of interface and this hyoplastron 20 are thin compared with one end of backboard 11, when being to make data connector 100 grafting of this data-interface and its adaptation, reduce the resistance inserted.And the thickness of slab of this hyoplastron 20 near one end of backboard 11 and this hyoplastron 20 thicker near one end of interface, being after data connector 100 grafting in order to make this data-interface and its adaptation, making data connector 100 firm plug of this data-interface and its adaptation.

Further, referring to figs. 1 through Fig. 3, in order to make this data-interface and its adaptation data connector 100 grafting after, both fixations, the sidewall that housing 10 is relative with hyoplastron 20 is provided with at least one shell fragment 30, the stiff end that shell fragment 30 has a free end and is fixedly connected with housing 10, the stiff end of shell fragment 30 and free end are arranged along backboard 11 to the interface direction of housing 10.This shell fragment 30, for after data connector 100 grafting of this data-interface and its adaptation, compresses data connector 100, is connected firmly to make this data-interface and data connector 100.

Wherein, shell fragment 30 can be welded on the sidewall of housing 10, may also be, and on the sidewall that housing 10 is relative with hyoplastron 20, hollow out forms shell fragment 30.In the present embodiment, preferably adopt a kind of execution mode, the bed knife of shell fragment 30 can be improved.

Further, the quantity of shell fragment 30 is three, be respectively the first shell fragment 31, second shell fragment 32 and the 3rd shell fragment 33, the stiff end of the first shell fragment 31 and the 3rd shell fragment 33 is arranged towards interface direction or towards backboard 11, and the stiff end setting direction of the second shell fragment 32 is contrary with the stiff end setting direction in interface direction.Preferably, the stiff end of the first shell fragment 31 and the 3rd shell fragment 33 is arranged towards interface direction, and the free end of the first shell fragment 31 and the 3rd shell fragment 33 is arranged towards backboard 11 direction; The stiff end of the second shell fragment 32 is arranged towards backboard 11 direction; The free end of the second shell fragment 32 is arranged towards interface direction.After data connector 100 grafting of this data-interface of guarantee and its adaptation in the present embodiment, first shell fragment 31, second shell fragment 32 and the 3rd shell fragment 33 put distribution triangular in shape, to make data connector 100 socket connection of this data-interface and its adaptation more firm with the conflict of data connector 100.

Based on above-described embodiment, referring to figs. 1 through Fig. 3, in embodiment further, first contact site 21 and the second contact site 22 is conveniently set, on hyoplastron 20, the position of corresponding first contact site 21 and the second contact site 22 is provided with the mounting groove (not shown) of accommodating first contact site 21 and the second contact site 22, and the first contact site 21 and the second contact site 22 are arranged in corresponding mounting groove.

In the present embodiment, hyoplastron 20 is provided with ten storage tanks towards the side of the first storage tank 101, and along the left end of hyoplastron 20 to right-hand member spaced relation, is provided with the first contact site 21 and the second contact site 22 in ten storage tanks.Further, hyoplastron 20 is provided with nine storage tanks towards the side of the second storage tank 102, and along the left end of hyoplastron 20 to right-hand member spaced relation, is provided with the first contact site 21 and the second contact site 22 in nine storage tanks.

The utility model also provides a kind of electronic equipment, and this electronic equipment comprises above-mentioned data-interface; The detailed construction of data-interface can refer to above-described embodiment, repeats no more herein; Be understandable that, owing to employing above-mentioned data-interface in the electronic device, therefore, the embodiment of this electronic equipment comprises whole technical schemes of the whole embodiment of above-mentioned data-interface, and the technique effect reached is also identical, does not repeat them here.

These are only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model specification and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. a data-interface, it is characterized in that, described data-interface comprises the housing with interface, one end relative with this interface of described housing is provided with backboard, described backboard is provided with hyoplastron towards the side of described interface, housing has been separated to form the first storage tank and the second storage tank by described hyoplastron, and described hyoplastron forms described first storage tank and is provided with the first contact site of connection first signal with the surface in the second storage tank and is connected the second contact site of earth signal; Described first contact site has the first end arranged near described interface, described second contact site has the first end arranged near described interface, and the first end of described second contact site to the distance of described interface is less than the distance of first end to described interface of described first contact site; The first end of described first contact site and the second contact site is that spike is arranged.

2. data-interface as claimed in claim 1, is characterized in that, one end to the described hyoplastron that the thickness of slab of described hyoplastron is connected with described backboard by described hyoplastron successively decreases near one end of described interface.

3. data-interface as claimed in claim 2, is characterized in that, described hyoplastron is trapezoidal shape along described backboard to the cross section in the interface direction of described housing.

4. data-interface as claimed in claim 1, it is characterized in that, the sidewall that described housing is relative with described hyoplastron is provided with at least one shell fragment, the stiff end that described shell fragment has a free end and is fixedly connected with described housing, the stiff end of described shell fragment and free end are arranged along the backboard of described housing to interface direction.

5. data-interface as claimed in claim 4, it is characterized in that, on the sidewall that described housing is relative with described hyoplastron, hollow out forms described shell fragment.

6. data-interface as claimed in claim 5, it is characterized in that, the quantity of described shell fragment is three, be respectively the first shell fragment, the second shell fragment and the 3rd shell fragment, the stiff end of described first shell fragment and the 3rd shell fragment is towards described interface direction or arrange towards described backboard, and the stiff end setting direction of described second shell fragment is contrary with the stiff end setting direction in described interface direction.

7. data-interface as claimed in claim 6, it is characterized in that, the stiff end of described first shell fragment and the 3rd shell fragment is arranged towards described interface direction, and the free end of described first shell fragment and the 3rd shell fragment is arranged towards described backboard direction; The stiff end of described second shell fragment is arranged towards described backboard direction; The free end of described second shell fragment is arranged towards described interface direction.

8. data-interface as claimed in claim 1, it is characterized in that, on described hyoplastron, the position of corresponding described first contact site and the second contact site is provided with the mounting groove of accommodating described first contact site and the second contact site, and described first contact site and the second contact site are arranged in corresponding described mounting groove.

9. data-interface as claimed in claim 8, it is characterized in that, described hyoplastron is provided with ten described storage tanks towards the side of described first storage tank, and along the left end of described hyoplastron to right-hand member spaced relation, is provided with described first contact site and the second contact site in described ten storage tanks; Described hyoplastron is provided with nine described storage tanks towards the side of described second storage tank, and along the left end of described hyoplastron to right-hand member spaced relation, is provided with described first contact site and the second contact site in described nine storage tanks.

10. an electronic equipment, is characterized in that, described electronic equipment comprises the data-interface as described in any one of claim 1-9.