CN205406905U - Electric connector assembly - Google Patents

Abstract

The utility model provides an electric connector assembly contains: electric connector and movable gate. This movable gate includes: first gate plate and second gate plate, wherein this first gate plate permits relative this second gate plate to move. When this first gate plate position during in the primary importance, the first molding sluice gate of this first gate plate overlaps and aligns with this electric connector's the position to the interface, and then with the first type external connection ware of this first molding sluice gate joint, maybe when this first gate plate during in the second place, this second to interface and frame of this electric connector model sluice gate position overlapping and align, and then with this second sluice gate joint second type external connection ware of modelling.

Description

Electric coupler component

Technical field

This utility model is about a kind of electric coupler component, especially with regard to the electric coupler component that a kind of alternative is docked with one first type aerial lug or a Second-Type aerial lug.

Background technology

Recently as the development of AV device, user constantly promotes for the requirement of audio-visual output quality.Therefore, AV device now possesses the coffret of HDMI and Displayport mostly, to reach also can possess digital image and the acoustical signal of high-quality under high-speed transfer.DisplayPort and HDMI belongs to differing transmission protocols, therefore must be respectively provided with the socket connector meeting HDMI coffret in traditional AV device and meet the socket connector of DisplayPort coffret.But, although the size dimension of both docking ports is slightly different for DisplayPort and HDMI socket connector, and the number of terminal and allocation position all have a little difference, such as: arrange the configuration of 10 terminals and 9 terminals of lower row on adopting in the coffret of HDMI, and adopt upper and lower row to be all the configuration of 10 terminals in DisplayPort coffret.While it is true, such difference as indicated above is also little.Therefore, along with the lightening development of AV device, now have been developed in a kind of integrated electric connector for socket, have the definition of pin position of HDMI and Displayport coffret concurrently, HDMI pin connector and Displayport pin connector grafting can be provided respectively.

For HDMI pin connector and Displayport pin connector, both must carry out grafting with a specific direction and integrated electric connector for socket.But, owing to the size dimension of docking port of Displayport pin connector is more than the size dimension of the docking port of HDMI pin connector, making in known integrated electric connector for socket, the size dimension of docking port is with the docking port of Displayport pin connector for benchmark.That is, user can only be judged from the outward appearance of the docking port of integrated electric connector for socket the direction of insertion of Displayport pin connector, but the direction of insertion of HDMI pin connector cannot be determined without doubt.Furthermore, in known integrated electric connector for socket, the hyoplastron of docking adopts the configuration identical with the hyoplastron of tradition HDMI socket connector, and it is arranged above below two oblique angles as birectangular structure.Therefore, when HDMI pin connector reversely inserts in integrated electric connector for socket, the hyoplastron in electric connector for socket easily damages because of shock.

Additionally, for nonspecific user, it is impossible to judge currently to use HDMI pin connector still to use Displayport pin connector and electric connector for socket grafting according to the outward appearance of integrated electric connector for socket, cause the inconvenience in use.On the other hand, being HDMI pin connector or Displayport pin connector to judge the pin connector inserted, be usually provided with a detection terminal at integrated electric connector for socket, this detection terminal is generally located on the corner areas of electric connector for socket.Upon assembly, this detection terminal can be shielded the extruding of housing and elastic deformation downwards, until just can release accordingly after arriving an ad-hoc location and the contacting of shield shell, and then elastic return.But, if it is improper to assemble angle, it is easy to cause this detection terminal to produce lateral displacement after the extruding being shielded housing, even if causing that this detection terminal arrives this ad-hoc location and also cannot successfully separate with shield shell, and then the problem that signal shorts occurs.

In view of this, in known integrated electric connector for socket, there is also shortcomings to be improved, it is necessary to provide the integrated electric connector for socket of a kind of improvement, to solve the problem existing for known technology.

Utility model content

For solving above-mentioned technical problem, the purpose of this utility model is in that to provide a kind of electric coupler component, comprises electric connector and movable type gate.By the several various sizes of moulding sluice gate that movable type gate of the present utility model provides, and control the movement of this gate plate, can select that this various sizes of moulding sluice gate corresponds to the position of the docking port of this electric connector, must use should the aerial lug of moulding sluice gate and be correctly inserted into the effect in direction reaching to be explicitly indicated user.

Another object of the present utility model is in that to provide a kind of electric coupler component, all presents the structure at oblique angle by the hyoplastron of electric connector is set to corner so that even if without the damage causing hyoplastron when reversely being inserted by aerial lug.

Another object of the present utility model is in that to provide a kind of electric coupler component, by changing the structure of the shield shell of electric connector, make when signal terminal is assembled in this shield shell, this signal terminal will not produce the interference in structure with this shield shell, thus avoid this signal terminal, because of the extruding of this shield shell, the problem such as lateral displacement or deformation occurs.

For reaching above-mentioned purpose, this utility model provides a kind of electric coupler component, comprises: an electric connector, is arranged in a frame of an electronic installation and is outwardly formed a docking port；And a movable type gate, it is installed on this electric connector, make this docking port selectivity docking one first type aerial lug or a Second-Type aerial lug of this electric connector, to carry out signal transmission, this movable type gate includes: one first gate plate, forms at least one wiper and one first moulding sluice gate；nullOne second gate plate，Connect this frame and this electric connector of this electronic installation respectively，This second gate plate includes: at least one sliding tray，It is formed on this second gate plate，This at least one wiper making this first gate plate is slidably connected this at least one sliding tray，Allow for this first gate plate to move along this at least one sliding tray relative to this second gate plate，Wherein when this first gate plate moves to a primary importance，This first moulding sluice gate of this first gate plate and the location overlap of this docking port of this electric connector and align，And then engage this first type aerial lug with this first moulding sluice gate，Maybe when this first gate plate moves to a second position from this primary importance，This first gate plate moves towards the direction of this docking port away from this electric connector and this docking port of this electric connector and the location overlap of one second moulding sluice gate of this frame of this electronic installation and align，And then engage this Second-Type aerial lug with this second moulding sluice gate.

In the middle of this utility model preferred embodiment therein, this first gate plate is arranged between this frame and this second gate plate.

In the middle of this utility model preferred embodiment therein, when this first gate plate is positioned at this primary importance, this first moulding sluice gate of this first gate plate, this second moulding sluice gate of this frame and the location overlap of this docking port three of this electric connector and align.

In the middle of this utility model preferred embodiment therein, this the second gate plate forms a plate and an opening further, this connecting plate is connected for fixing with this electric connector, and this opening is to should this second moulding sluice gate of this docking port of electric connector and this frame.

In the middle of this utility model preferred embodiment therein, the size of this second moulding sluice gate of this frame being smaller in size than this electronic installation of this first moulding sluice gate of this first gate plate, and the size of this docking port of this electric connector is equal to the size of this second moulding sluice gate of this frame of this electronic installation.

In the middle of this utility model preferred embodiment therein, this the second gate plate also comprises at least one upper washer and at least one lower gear plate, lay respectively at the two ends of this at least one sliding tray, it is prevented that this at least one wiper of this first gate plate slides into outside this at least one sliding tray.

In the middle of this utility model preferred embodiment therein, this the first gate plate also comprises a grip part, its one end is connected with this first gate plate, the other end extends through the window formed in this frame of this electronic installation, this grip part is imposed on for an applied external force, make this grip part move in this window, and then drive this first gate plate to move on this second gate plate.

In the middle of this utility model preferred embodiment therein, this the first gate plate forms at least one spacing hole and this second gate plate is also integrally formed at least one elastic arm with to should at least one spacing hole, wherein one end of this at least one elastic arm is free end and forms a barb, when this first gate plate is positioned at this primary importance, this barb snap fit of this at least one elastic arm is in this at least one spacing hole of this first gate plate, and then stop that this first gate plate freely slides into this second position, and when this grip part is subject to the effect of this applied external force, release this barb of this at least one elastic arm snap fit to this at least one spacing hole of this first gate plate, allow for this first gate plate to move to this second position from this primary importance.

In the middle of this utility model preferred embodiment therein, this first type aerial lug is a kind of HDMI connector, and this Second-Type aerial lug is a kind of Displayport adapter.

In the middle of this utility model preferred embodiment therein, this electric connector comprises: multiple terminals；One insulating body, is used for housing the plurality of terminal；And a shield shell, for being set in this insulating body and defining the size of this docking port, and fixing with this second gate plate it is connected.

In the middle of this utility model preferred embodiment therein, this insulating body comprises the hyoplastron that one day, this docking port protruded out, this hyoplastron forms a upper surface and a lower surface, and the both sides of this hyoplastron comprise the ramp and a lower inclined plane that are connected respectively, this ramp be connected with the edge of this upper surface and between accompany an acute angle, and this lower surface is connected with the edge of this lower surface and between accompany another acute angle.

In the middle of this utility model preferred embodiment therein, the plurality of terminal comprises a detection terminal, this detection terminal comprises a welding ends, fixing end and an elastic connecting contravention, this fixing end is for being assembled in this insulating body, when this docking port of this electric connector docks this Second-Type aerial lug, this elastic connecting contravention is used in electrical contact with Second-Type aerial lug to receive a feedback signal being used for this Second-Type aerial lug of identification.

In the middle of this utility model preferred embodiment therein, when this docking port of this electric connector docks this first type aerial lug, this elastic connecting contravention of this detection terminal is not in electrical contact with this first type aerial lug.

In the middle of this utility model preferred embodiment therein, on the one of this shield shell, roof comprises a fluting and a dividing plate being connected with this fluting, this dividing plate relative to this shield shell this on roof outwardly, make when this insulating body is sheathed enter this shield shell time, this elastic connecting contravention of this detection terminal from the assembling space below this dividing plate by and with this dividing plate at a distance of one first fore-and-aft distance.

In the middle of this utility model preferred embodiment therein, on the one of this shield shell, roof comprises a fluting and a dividing plate being connected with this fluting, this dividing plate with this on roof copline, when this insulating body is sheathed enter this shield shell after, this elastic connecting contravention position of this detection terminal is outside this shield shell, and with this dividing plate at a distance of one second fore-and-aft distance, and the end of this detection terminal internal bend towards this shield shell this fluting by this shield shell extend to this inside of shield casings.

For reaching above-mentioned purpose, this utility model provides a kind of electric coupler component, comprise: an electric connector, form a docking port, one first type aerial lug or a Second-Type aerial lug is docked for selectivity, to carry out signal transmission, including multiple terminals, comprise at least one terminal for being electrically connected with this first type aerial lug and at least one terminal for being electrically connected with this second aerial lug；One insulating body, is used for housing the plurality of terminal；And a shield shell, for being set in this insulating body, wherein the plurality of terminal includes a detection terminal, this detection terminal comprises a welding ends, one fixing end and an elastic connecting contravention, this fixing end is for being assembled in this insulating body, and this elastic connecting contravention is used in electrical contact with this Second-Type aerial lug to receive a feedback signal being used for this Second-Type aerial lug of identification, and roof comprises a fluting and a dividing plate being connected with this fluting on the one of this shield shell, and this elastic connecting contravention of this detection terminal and this dividing plate are at a distance of a fore-and-aft distance, and the end of this elastic connecting contravention of this detection terminal is corresponding to this fluting of this shield shell.

In the middle of this utility model preferred embodiment therein, this electric coupler component also comprises: a movable type gate, is installed on this electric connector, and this movable type gate includes: one first gate plate, forms at least one wiper and one first moulding sluice gate；nullOne second gate plate，Connect a frame and this electric connector of an electronic installation respectively，This second gate plate includes: at least one sliding tray，It is formed on this second gate plate，This at least one wiper making this first gate sheet is slidably connected this at least one sliding tray，Allow for this first gate plate to move along this at least one sliding tray relative to this second gate plate，Wherein when this first gate plate moves to a primary importance，This first moulding sluice gate of this first gate plate and the location overlap of this docking port of this electric connector and align，And then engage this first type aerial lug with this first moulding sluice gate，Maybe when this first gate plate moves to a second position from this primary importance，This first gate plate moves towards the direction of this docking port away from this electric connector and this docking port of this electric connector and the location overlap of one second moulding sluice gate of this frame of this electronic installation and align，And then engage this Second-Type aerial lug with this second moulding sluice gate.

Accompanying drawing explanation

Fig. 1 shows the part explosive view of the electric coupler component according to the first preferred embodiment of the present utility model；

Fig. 2 and Fig. 3 show respectively the electric coupler component of Fig. 1 assemble with frame after the first illustrative view and the second illustrative view；

Fig. 4 and Fig. 5 shows the illustrative view of the movable type gate of Fig. 2 and Fig. 3 respectively；

Fig. 6 shows the part explosive view of the electric connector of the electric coupler component of Fig. 1；

Fig. 7 shows the partial enlarged drawing of the part A of Fig. 1；

Fig. 8 shows generalized section during this electric connector and the first type aerial lug grafting of Fig. 1；

Generalized section when Fig. 9 shows this electric connector of Fig. 1 with Second-Type aerial lug grafting；

Figure 10 shows the part explosive view of the electric connector of the electric coupler component according to the second preferred embodiment of the present utility model；And

Figure 11 shows the assembling schematic diagram of the electric connector of the electric coupler component according to the 3rd preferred embodiment of the present utility model.

Drawing reference numeral:

10 electric coupler components

100 movable type gates

200,400,600 electric connector

110 first gate plates

120 second gate plates

111 the first noumenons

112 first moulding sluice gates

113 grip parts

114 spacing holes

115 wipers

Bottom 116

121 second bodies

122 connecting plates

123 sliding trays

124 openings

125 elastic arms

1251 barb

Washer on 126

127 lower gear plates

210,410,610 shield shell

220,420 insulating body

230,430 terminal

211, roof on 411,611

212 docking ports

213,413,613 dividing plate

214,614 fluting

215 assembling spaces

221 pedestals

222 hyoplastrons

2221 upper surfaces

2223 ramps

240,440,640 detection terminal

241 welding ends

242 fixing ends

243,443,643 elastic connecting contravention

2431,4431,6431 end

244 terminal surfaces

250 terminal bases

20 frames

21 second moulding sluice gates

22 windows

30 circuit boards

P1 primary importance

The marginal dimension of S1 the first moulding sluice gate

The marginal dimension of S2 the second moulding sluice gate

C1 the first type aerial lug

C2 Second-Type aerial lug

H1 the first fore-and-aft distance

H2 the second fore-and-aft distance

The corresponding amplifier section to Fig. 7 of A

D1 first direction

Θ acute angle

Φ acute angle

Detailed description of the invention

In order to above-mentioned and other purpose of the present utility model, feature, advantage can be become apparent, hereafter especially exemplified by this utility model preferred embodiment, and institute's accompanying drawings will be coordinated, be described in detail below.

Refer to Fig. 1, its display part explosive view according to the electric coupler component 10 of the first preferred embodiment of the present utility model.This electric coupler component 10 is arranged in the frame 20 of an external electronic, and comprises movable type gate 100 and electric connector 200.This movable type gate 100 is connected with the frame 20 of this electronic installation, and method of attachment between the two can adopt the modes such as welding, gluing, mechanism type clamping.In addition, the assembling mode of this electric coupler component 10 is: the docking port of this electric connector 200 is directed towards outside the frame 20 of this electronic installation, and is connected fixing with the upper roof of the shield shell 210 of this electric connector 200 for the one of this movable type gate 100 horizontal-extending connecting plate 122, the connected mode of this movable type gate 100 and this electric connector 200 can adopt traditional spot welding or the very fast laser weld of speed of production.This electric connector 200 of the present utility model is a kind of integrated socket connector, has two distinct types of adapter definition of pin position concurrently, makes this docking port alternative of this electric connector 200 dock with one first type aerial lug or a Second-Type aerial lug.For example, this electric connector 200 of the present utility model has the definition of pin position of two kinds of coffrets of HDMI and Displayport concurrently, can respectively with HDMI pin connector and Displayport pin connector grafting, to carry out signal transmission.Additionally, this electric connector 200 is positioned at the inside of this electronic installation and combines with a circuit board 30, compound mode between this electric connector 200 and this circuit board 30 can adopt surface mount (SurfaceMountTechnology, or the method such as plug-in unit (Dualin-linePackage, DIP) SMT).

Refer to Fig. 2 and Fig. 3, Fig. 2 and Fig. 3 show respectively the electric coupler component 10 of Fig. 1 assemble with frame 20 after the first illustrative view and the second illustrative view.This movable type gate 100 comprises the first gate plate 110 and the second gate plate 120, wherein this first gate plate 110 is arranged between this second gate plate 120 and this frame 20, and this first gate plate 110 can move up and down by this second gate plate 120 relatively, and this movable type gate 100 concrete structure will in subsequent detailed description.This first gate plate 110 at this movable type gate 100 has the first moulding sluice gate 112 that opening size is less, and this frame 20 has a window 22 and an opening size the second moulding sluice gate 21 that relatively this first moulding sluice gate 112 is big, wherein the docking port 212 of this electric connector 200 is arranged on the position corresponding to this second moulding sluice gate 21.This first gate plate 110 also comprises a grip part 113, one end of this grip part 113 is connected with this first gate plate 110, the other end extends through this window 22 of this frame 20 to this frame 20, an applied external force is executed in this grip part 113 for user, make this grip part 113 move up and down in this window, and then drive this first gate plate 110 to move up and down the second position P2 to the primary importance P1 of relatively this window 22 lower limb or this window 22 top edge at this second gate plate 120.

As shown in Figure 2, when the grip part 113 of this first gate plate 110 of this movable type gate 100 is moved to this primary importance P1, this the first gate plate 110 is displaced between this second moulding sluice gate 21 of this frame 20 and this docking port 212 of this electric connector 200, until this first moulding sluice gate 112 of this first gate plate 110, this the second moulding sluice gate 21 of this frame 20, the location overlap of this docking port 212 three of this electric connector 200 and alignment, and then restriction user only can use this first type aerial lug of the marginal dimension S1 meeting this first moulding sluice gate 112 directly to engage with this first moulding sluice gate 112, and then this electric connector 200 of grafting.As shown in Figure 3, when this grip part 113 of this first gate plate 110 of this movable type gate 100 is moved upward to this second position P2 towards one away from the first direction D1 of this docking port 212 of this electric connector 200 from this primary importance P1, the location overlap of this docking port 212 of this electric connector 200 and the second moulding sluice gate 21 of this frame 20 of this electronic installation and aliging, and this first gate plate 110 is not overlapping with the position of this second moulding sluice gate 21 of this frame 20, allowing for user uses this Second-Type aerial lug of the marginal dimension S2 meeting this second moulding sluice gate 21 directly to engage with this second moulding sluice gate 21, and then this electric connector 200 of grafting.

In the present embodiment, the marginal dimension S2 of this second moulding sluice gate 21 of this frame 20 is equivalent to the marginal dimension of the docking port 212 of this electric connector 200, and both sizes are equivalent to the marginal dimension of the docking port of Displayport adapter, and the marginal dimension S1 of this first moulding sluice gate 112 of this first gate plate 110 less than the marginal dimension S2 of this second moulding sluice gate 21 of this frame 20 and is equivalent to the docking port size of HDMI connector.

Refer to the schematic diagram that Fig. 4 and Fig. 5, Fig. 4 and Fig. 5 show the movable type gate 100 of Fig. 2 and Fig. 3 respectively.This first gate plate 110 of this movable type gate 100 and this second gate plate 120 preferably adopt the structural integrity molding of single plate formula.This first gate plate 110 comprises the first noumenon the 111, first moulding sluice gate 112, grip part 113, a pair spacing hole 114 and pair of sliding sheet 115, and this second gate plate 120 comprises the second body 121, pair of sliding groove 123, opening 124, a pair elastic arm 125, washer 126 and a pair lower gear plate 127 on a pair.This first moulding sluice gate 112 of this first gate plate 110 is the position closing opening in these the first noumenon 111 central authorities, and the opening shape of this first moulding sluice gate 112 is same as the gabarit of docking port of HDMI pin connector.This grip part 113 of this first gate plate 110 is by being formed after being bent the upper end of this first noumenon 111, makes this grip part 113 big to being perpendicular to this first noumenon 111.Spacing hole 114 is positioned at the opposite sides of this first noumenon 111 by this of this first gate plate 110, and with this of this second gate plate 120, elastic arm 125 is correspondingly arranged.Wiper 115 is positioned at the opposite sides of this first noumenon 111 by this of this first gate plate 110, and with this of this second gate plate 120, sliding tray 123 is correspondingly arranged.Sliding tray 123 is formed by reversely being bent by the plate being positioned at opposite sides of this second body 121 by this of this second gate plate 120, by wiper 115 is arranged in the inner by this of this first gate plate 110, make this of this first gate plate 110 both sides that sliding tray 123 to be formed by wiper 115 and this respectively to be slidably connected, allow for this first gate plate 110 this second gate plate 120 relative and along this, sliding tray 123 is moved up and down.In addition, the two ends up and down of sliding tray 123 are respectively arranged with this by this of this second gate plate 120, and to upper washer 126 and this is to lower gear plate 127, wherein this to upper washer 126 and this be formed by the position panel-bending in four corners of this second body 121 lower gear plate 127, for limiting this sliding path to wiper 115 of this first gate plate 110, and prevent this from wiper 115 being skidded off from this sliding tray 123 opening over and under.This opening 124 of this second gate plate 120 is positioned at the lower section of this second body 121, and this opening 124 is set to should this second moulding sluice gate 21 (as shown in Figures 2 and 3) of this docking port 212 of electric connector 200 and this frame 20.The size of the docking port 212 being sized larger than this electric connector 200 of this opening 124, size more than the size of this first moulding sluice gate 112 of this first gate plate 110 and this second moulding sluice gate 21 more than this frame 20.

Again, this of this second gate plate 120 is to elastic arm 125, and its one end is connected with this second body 121 of this second gate plate 120, and the other end is free end and has a barb 1251.As shown in the 2nd and 4 figure, when this first gate plate 110 of this movable type gate 100 moves to this primary importance P1, the barb 1251 of elastic arm 125 can be temporarily hooked in this of this first gate plate 110 in spacing hole 114 by this of this second gate plate 120, and then stop that this first gate plate 110 freely slides into this second position P2, and this first gate plate 110 is maintained on this primary importance P1.As depicted in figs. 3 and 5, when this grip part 113 is subject to the effect of this applied external force, this of this second gate plate 120 is to elastic arm 125 elastic deformation and moving towards the opposite side relative to this first gate plate 110 due to pushing of this first gate plate 110, and then release this this snap fit to spacing hole 114 to this first gate plate 110 of this barb 1251 to elastic arm 125, until when this first gate plate 110 arrives this second position P2, elastic arm 125 is elastically restored to the state before being squeezed by this, the bottom 116 making this first gate plate 110 is resisted against this this barb 1251 to elastic arm 125, and then stop that this first gate plate 110 freely slides into this primary importance P1.

Refer to Fig. 6, the part explosive view of the electric connector 200 of the electric coupler component 10 of its display Fig. 1.This electric connector 200 comprises shield shell 210, insulating body 220, multiple terminal 230 and terminal base 250.The plurality of terminal 230 comprises 10 terminals being positioned at row and is positioned at 10 terminals of lower row and is positioned at the detection terminal 240 of side, wherein on this combined symbols of row's terminal and lower row's terminal share in this first type aerial lug and the terminal definition of pin position that is electrically connected with this second aerial lug.This detection terminal 240 comprises welding ends 241, fixing end 242 and elastic connecting contravention 243.This fixing end 242 is used for being assembled in this insulating body 220, this welding ends 241 for being assembled in this circuit board 30 (see Fig. 1), and this elastic connecting contravention 243 is in electrical contact with aerial lug to receive a feedback signal.When assembling, the plurality of terminal 230 is assembled in this insulating body 220 after being first inserted on this terminal base 250 more together.This shield shell 210 is for being set in outside this insulating body 220 and define the size of this docking port 212.

As shown in Figure 6, this insulating body 220 comprises pedestal 221 and a hyoplastron 222.This hyoplastron 222 is to be protruded out forward by a surface of this pedestal 221 to be formed.Being formed with multiple terminal conduit on this pedestal 221 and this hyoplastron 222, for housing a part for each the plurality of terminal 230, and the contact surface of the plurality of terminal 230 is exposed to outside hyoplastron 222.This hyoplastron 222 comprises upper surface 2221 and the lower surface (not being shown in figure) relative to this upper surface 2221, and the left and right sides of this hyoplastron 222 forms the ramp 2223 connected for about a pair and lower inclined plane (not being shown in figure) respectively, i.e. every one end of the left and right sides of this hyoplastron 222 trimming all up and down.Every a pair this ramp 2223 is connected with the edge of this both upper surface 2221 and accompanies an acute angle theta between this ramp 2223 and this upper surface 2221, and this lower inclined plane is connected with the edge of this lower surface and accompanies another acute angle Φ between this lower inclined plane and this lower surface.In this utility model, if when user (namely as shown in Figure 3 this first gate plate 110 at this second position P2) when this movable type gate 100 is opened, namely lack and the instruction in HDMI socket connector grafting direction, by the problem left and right sides of this hyoplastron 222 being arranged these two pairs of ramps 2223 and this lower inclined plane can be avoided causing this hyoplastron 222 to damage because the direction of HDMI socket connector mistake in is inserted this electric connector 200.

As shown in Figure 6 and Figure 7, wherein Fig. 7 show this electric connector 200 of Fig. 6 assemble after the partial enlarged drawing of part A.The upper roof 211 of this shield shell 210 comprises fluting 214 and the dividing plate 213 being connected with these fluting 214 both sides of the edge, and wherein this fluting 214 and dividing plate 213 are to be correspondingly arranged with this detection terminal 240.During in order to avoid this shield shell 210 level to set this insulating body 220 of access, this detection terminal 240 produces the interference in structure with this shield shell 210, therefore by this dividing plate 213 this shield shell 210 relative this on roof 211 outwards and vertical to prominent, make when this insulating body 220 is sheathed enter this shield shell 210 time, this elastic connecting contravention 243 of this detection terminal 240 from the assembling space 215 below this dividing plate 213 by and with this dividing plate 213 at a distance of one first fore-and-aft distance H1.By the raised design of this this dividing plate 213, in an assembling process, this detection terminal 240 wants first deliberately pressure could group to enter after making its elastic deformation without design as known, without the problem of permanent deformation occurs because of accident collision, and when this detection terminal 240 arrives a location, outside this terminal surface 244 of this detection terminal 240 can be exposed to this shield shell 210 by this fluting 214, make when specific aerial lug (such as Displayport adapter) touches the end 2431 of elastic connecting contravention 243 of this detection terminal 240, this elastic connecting contravention 243 elastically deformable of this detection terminal 240 and upwards lifting.It should be noted that, when this detection terminal 240 does not contact with this Second-Type aerial lug (such as HDMI connector), the terminal surface 244 of this detection terminal 240 and upper roof 211 copline of this shield shell 210.

Refer to Fig. 8 and Fig. 9, generalized section when its this electric connector 200 showing Fig. 1 respectively and the first type aerial lug and Second-Type aerial lug grafting.As shown in Figure 8, when this electric connector 200 and the first type aerial lug C1 (such as HDMI connector) grafting, first type aerial lug C1 will not be in electrical contact with this detection terminal 240 of this electric connector 200, electrically link circuit board via this detection terminal 240 of this electric connector 200, make this electronic installation that this electric connector 200 is set to the pattern of HDMI connector.But, as shown in Figure 9, when this electric connector 200 docks with this Second-Type aerial lug C2 (such as Displayport adapter), this elastic connecting contravention 243 of this detection terminal 240 can be in electrical contact to receive a feedback signal being used for this Second-Type aerial lug of identification with the housing of Second-Type aerial lug C2, electrically link circuit board via this detection terminal 240 of this electric connector 200, make this electronic installation just this electric connector 200 from the pattern that the patten transformation of this HDMI connector is Displayport adapter.

Refer to Figure 10, its display part explosive view according to the electric connector of the electric coupler component of the second preferred embodiment of the present utility model.The electric coupler component of the second preferred embodiment of the present utility model is similar in appearance to the electric coupler component 10 of the first preferred embodiment, comprise movable type gate and electric connector equally, wherein the movable type gate of the second preferred embodiment is same as the movable type gate 100 of the first preferred embodiment, therefore not in this to go forth.Additionally, the electric connector 400 of the second preferred embodiment comprises shield shell 410, insulating body 420 and multiple terminal 230, wherein this shield shell 210 and this insulating body 220 of this shield shell 410 of the electric connector 400 of the second preferred embodiment electric connector 200 of being same as first preferred embodiment same with this insulating body 420, and this shield shell 410 has the dividing plate 413 relatively going up roof 411 outwardly equally, make when this insulating body 420 is sheathed enter this shield shell 410 time, this elastic connecting contravention 443 of this detection terminal 440 passes through from the assembling space below this dividing plate 413 and with this dividing plate 413 at a distance of a fore-and-aft distance, and then avoid this detection terminal 440 in an assembling process that elastic deformation occurs.As shown in Figure 10, the electric connector 400 of the second preferred embodiment and electric connector 200 difference of them of the first preferred embodiment: the end 4431 being in that the detection terminal 440 of this electric connector 400 is reversely to be bent to form by by one end of elastic connecting contravention 443, and then make this detection terminal 440 structurally have preferably steadiness, and make produce between this detection terminal 440 and aerial lug preferably effect in electrical contact.

Refer to Figure 11, its display assembling schematic diagram according to the electric connector of the electric coupler component of the 3rd preferred embodiment of the present utility model.The electric coupler component of the 3rd preferred embodiment of the present utility model is similar in appearance to the electric coupler component 10 of the first preferred embodiment, comprise movable type gate and electric connector equally, wherein the movable type gate of the 3rd preferred embodiment is same as the movable type gate 100 of the first preferred embodiment, therefore not in this to go forth.Electric connector 200 difference of them of the electric connector 600 of the 3rd preferred embodiment and the first preferred embodiment: on the one of the shield shell 610 of this electric connector 600, roof 611 comprises fluting 614 and the dividing plate 613 being connected with these fluting 614 two edges.This dividing plate 613 with this on roof 611 copline, when insulating body is sheathed enter this shield shell 610 after, this elastic connecting contravention 643 of this detection terminal 640 is outside this shield shell 610, and with this dividing plate 613 at a distance of one second fore-and-aft distance H2, and the end 6431 of this detection terminal 640 internal bend towards this shield shell 610 this fluting 614 by this shield shell 610 extend to this shield shell 610 inside.Pass through said structure, make by sheathed for insulating body enter this shield shell 610 time, the end 6431 of this detection terminal 640 can elastic and upwards lifting, make this detection terminal 640 will not be received the inside to this shield shell 610, and then inside assembling angle can avoided improper and cause this detection terminal 640 to be stuck in this shield shell 610, in turn result in this detection terminal 640 in electrical contact with this this shield shell 610.

In sum, in electric coupler component of the present utility model, by the several various sizes of moulding sluice gate that movable type gate provides, and control the movement of this gate plate, can select that this various sizes of moulding sluice gate corresponds to the position of the docking port of this electric connector, must use should the aerial lug of moulding sluice gate and be correctly inserted into the effect in direction reaching to be explicitly indicated user.More particularly, when this first gate plate 110 of this movable type gate 100 moves to this primary importance P1, represent that instruction user must use the first type aerial lug, and when this first gate plate 110 of this movable type gate 100 moves to this second position P2, represent that instruction user must use Second-Type aerial lug.Furthermore, when this first gate plate 110 is when this primary importance P1, user can judge the grafting direction of the first type aerial lug according to the shape of this first moulding sluice gate 112, and then avoids the problem of HDMI pin connector mistake anti-plug.

From the above mentioned only in order to explain preferred embodiment of the present utility model; it is not intended to tool this utility model to be done any pro forma restriction; be with; all have under identical utility model spirit, done relevant any modification of the present utility model or become furthermore, all must include being intended in the category of protection at this utility model.

Claims (29)

1. an electric coupler component, it is characterised in that comprise:

One electric connector, is arranged in a frame of an electronic installation and is outwardly formed a docking port；And

One movable type gate, is installed on this electric connector, makes this docking port selectivity docking one first type aerial lug or a Second-Type aerial lug of this electric connector, and to carry out signal transmission, this movable type gate includes:

One first gate plate, forms at least one wiper and one first moulding sluice gate；

One second gate plate, connects this frame and this electric connector of this electronic installation respectively, and this second gate plate includes:

At least one sliding tray, it is formed on this second gate plate, this at least one wiper making this first gate plate is slidably connected this at least one sliding tray, allows for this first gate plate and moves along this at least one sliding tray relative to this second gate plate, wherein

When this first gate plate moves to a primary importance, this the first moulding sluice gate of this first gate plate and the location overlap of this docking port of this electric connector and align, and then engage this first type aerial lug with this first moulding sluice gate, maybe when this first gate plate moves to a second position from this primary importance, this the first gate plate moves towards the direction of this docking port away from this electric connector and this docking port of this electric connector and the location overlap of one second moulding sluice gate of this frame of this electronic installation and align, and then engage this Second-Type aerial lug with this second moulding sluice gate.

2. electric coupler component as claimed in claim 1, it is characterised in that this first gate plate is arranged between this frame and this second gate plate.

3. electric coupler component as claimed in claim 1, it is characterized in that, when this first gate plate is positioned at this primary importance, this first moulding sluice gate of this first gate plate, this second moulding sluice gate of this frame and the location overlap of this docking port three of this electric connector and align.

4. electric coupler component as claimed in claim 1, it is characterized in that, this the second gate plate forms a plate and an opening further, and this connecting plate is connected for fixing with this electric connector, and this opening is to should this second moulding sluice gate of this docking port of electric connector and this frame.

5. electric coupler component as claimed in claim 1, it is characterized in that, the size of this second moulding sluice gate of this frame being smaller in size than this electronic installation of this first moulding sluice gate of this first gate plate, and the size of this docking port of this electric connector is equal to the size of this second moulding sluice gate of this frame of this electronic installation.

6. electric coupler component as claimed in claim 1, it is characterized in that, this the second gate plate also comprises at least one upper washer and at least one lower gear plate, lays respectively at the two ends of this at least one sliding tray, it is prevented that this at least one wiper of this first gate plate slides into outside this at least one sliding tray.

7. electric coupler component as claimed in claim 1, it is characterized in that, this the first gate plate also comprises a grip part, its one end is connected with this first gate plate, the other end extends through the window formed in this frame of this electronic installation, impose on this grip part for an applied external force, make this grip part move in this window, and then drive this first gate plate to move on this second gate plate.

8. electric coupler component as claimed in claim 7, it is characterized in that, this the first gate plate forms at least one spacing hole and this second gate plate is also integrally formed at least one elastic arm with to should at least one spacing hole, wherein one end of this at least one elastic arm is free end and forms a barb, when this first gate plate is positioned at this primary importance, this barb snap fit of this at least one elastic arm is in this at least one spacing hole of this first gate plate, and then stop that this first gate plate freely slides into this second position, and when this grip part is subject to the effect of this applied external force, release this barb of this at least one elastic arm snap fit to this at least one spacing hole of this first gate plate, allow for this first gate plate to move to this second position from this primary importance.

9. electric coupler component as claimed in claim 1, it is characterised in that this first type aerial lug is a kind of HDMI connector, this Second-Type aerial lug is a kind of Displayport adapter.

10. electric coupler component as claimed in claim 1, it is characterised in that this electric connector comprises:

Multiple terminals；

One insulating body, is used for housing the plurality of terminal；And

One shield shell, for being set in this insulating body and define the size of this docking port, and fixing with this second gate plate is connected.

11. electric coupler component as claimed in claim 10, it is characterized in that, this insulating body comprises the hyoplastron that one day, this docking port protruded out, this hyoplastron forms a upper surface and a lower surface, and the both sides of this hyoplastron comprise the ramp and a lower inclined plane that are connected respectively, this ramp be connected with the edge of this upper surface and between accompany an acute angle, and this lower surface is connected with the edge of this lower surface and between accompany another acute angle.

12. electric coupler component as claimed in claim 10, it is characterized in that, the plurality of terminal comprises a detection terminal, this detection terminal comprises a welding ends, fixing end and an elastic connecting contravention, this fixing end is for being assembled in this insulating body, when this docking port of this electric connector docks this Second-Type aerial lug, this elastic connecting contravention is used in electrical contact with Second-Type aerial lug to receive a feedback signal being used for this Second-Type aerial lug of identification.

13. electric coupler component as claimed in claim 12, it is characterised in that when this docking port of this electric connector docks this first type aerial lug, this elastic connecting contravention of this detection terminal is not in electrical contact with this first type aerial lug.

14. electric coupler component as claimed in claim 12, it is characterized in that, on the one of this shield shell, roof comprises a fluting and a dividing plate being connected with this fluting, this dividing plate relative to this shield shell this on roof outwardly, make when this insulating body is sheathed enter this shield shell time, this elastic connecting contravention of this detection terminal from the assembling space below this dividing plate by and with this dividing plate at a distance of one first fore-and-aft distance.

15. electric coupler component as claimed in claim 12, it is characterized in that, on the one of this shield shell, roof comprises a fluting and a dividing plate being connected with this fluting, this dividing plate with this on roof copline, when this insulating body is sheathed enter this shield shell after, this elastic connecting contravention position of this detection terminal is outside this shield shell, and with this dividing plate at a distance of one second fore-and-aft distance, and the end of this detection terminal internal bend towards this shield shell this fluting by this shield shell extend to this inside of shield casings.

16. an electric coupler component, it is characterised in that comprise:

One electric connector, forms a docking port, docks one first type aerial lug or a Second-Type aerial lug for selectivity, to carry out signal transmission, including:

Multiple terminals, comprise at least one terminal for being electrically connected with this first type aerial lug and at least one terminal for being electrically connected with this Second-Type aerial lug；

One insulating body, is used for housing the plurality of terminal；And

One shield shell, is used for being set in this insulating body, wherein

The plurality of terminal includes a detection terminal, this detection terminal comprises a welding ends, one fixing end and an elastic connecting contravention, this fixing end is for being assembled in this insulating body, and this elastic connecting contravention is used in electrical contact with this Second-Type aerial lug to receive a feedback signal being used for this Second-Type aerial lug of identification, and roof comprises a fluting and a dividing plate being connected with this fluting on the one of this shield shell, and this elastic connecting contravention of this detection terminal and this dividing plate are at a distance of a fore-and-aft distance, and the end of this elastic connecting contravention of this detection terminal is corresponding to this fluting of this shield shell.

17. electric coupler component as claimed in claim 16, it is characterised in that this first type aerial lug is a kind of HDMI connector, this Second-Type aerial lug is a kind of Displayport adapter.

18. electric coupler component as claimed in claim 16, it is characterized in that, this insulating body comprises the hyoplastron that one day, this docking port protruded out, this hyoplastron forms a upper surface and a lower surface, and the both sides of this hyoplastron comprise the ramp and a lower inclined plane that are connected respectively, this ramp be connected with the edge of this upper surface and between accompany an acute angle, and this lower surface is connected with the edge of this lower surface and between accompany another acute angle.

19. electric coupler component as claimed in claim 16, it is characterised in that when this docking port of this electric connector docks this first type aerial lug, this elastic connecting contravention of this detection terminal is not in electrical contact with this first type aerial lug.

20. electric coupler component as claimed in claim 16, it is characterized in that, this dividing plate relative to this shield shell this on roof outwardly, make when this insulating body is sheathed enter this shield shell time, this elastic connecting contravention of this detection terminal from the assembling space below this dividing plate by and with this dividing plate at a distance of one first fore-and-aft distance.

21. electric coupler component as claimed in claim 16, it is characterized in that, this dividing plate with this on roof copline, when this insulating body is sheathed enter this shield shell after, this elastic connecting contravention position of this detection terminal is outside this shield shell, and with this dividing plate at a distance of one second fore-and-aft distance, and this end of this detection terminal the internal bend towards this shield shell this fluting by this shield shell extend to this inside of shield casings.

22. electric coupler component as claimed in claim 16, it is characterised in that also comprising: a movable type gate, be installed on this electric connector, this movable type gate includes:

One first gate plate, forms at least one wiper and one first moulding sluice gate；

One second gate plate, connects a frame and this electric connector of an electronic installation respectively, and this second gate plate includes:

At least one sliding tray, it is formed on this second gate plate, this at least one wiper making this first gate plate is slidably connected this at least one sliding tray, allows for this first gate plate and moves along this at least one sliding tray relative to this second gate plate, wherein

When this first gate plate moves to a primary importance, this the first moulding sluice gate of this first gate plate and the location overlap of this docking port of this electric connector and align, and then engage this first type aerial lug with this first moulding sluice gate, maybe when this first gate plate moves to a second position from this primary importance, this the first gate plate moves towards the direction of this docking port away from this electric connector and this docking port of this electric connector and the location overlap of one second moulding sluice gate of this frame of this electronic installation and align, and then engage this Second-Type aerial lug with this second moulding sluice gate.

23. electric coupler component as claimed in claim 22, it is characterised in that this first gate plate is arranged between this frame and this second gate plate.

24. electric coupler component as claimed in claim 22, it is characterized in that, when this first gate plate is positioned at this primary importance, this first moulding sluice gate of this first gate plate, this second sluice gate of this frame and the location overlap of this docking port three of this electric connector and align.

25. electric coupler component as claimed in claim 22, it is characterized in that, this the second gate plate forms a plate and an opening further, and this connecting plate is connected for fixing with this electric connector, and this opening is to should this second moulding sluice gate of this docking port of electric connector and this frame.

26. electric coupler component as claimed in claim 22, it is characterized in that, this the second gate plate also comprises at least one upper washer and at least one lower gear plate, lays respectively at the two ends of this at least one sliding tray, it is prevented that this at least one wiper of this first gate plate slides into outside this at least one sliding tray.

27. electric coupler component as claimed in claim 22, it is characterized in that, the size of this second moulding sluice gate of this frame being smaller in size than this electronic installation of this first moulding sluice gate of this first gate plate, and the size of this docking port of this electric connector is equal to the size of this second moulding sluice gate of this frame of this electronic installation.

28. electric coupler component as claimed in claim 22, it is characterized in that, this the first gate plate also comprises a grip part, its one end is connected with this first gate plate, the other end extends through the window formed in this frame of this electronic installation, impose on this grip part for an applied external force, make this grip part move in this window, and then drive this first gate plate to move on this second gate plate.

29. electric coupler component as claimed in claim 28, it is characterized in that, this the first gate plate forms at least one spacing hole and this second gate plate is also integrally formed at least one elastic arm with to should at least one spacing hole, wherein one end of this at least one elastic arm is free end and forms a barb, when this first gate plate is positioned at this primary importance, this barb snap fit of this at least one elastic arm is in this at least one spacing hole of this first gate plate, and then stop that this first gate plate freely slides into this second position, and when this grip part is subject to the effect of this applied external force, release this barb of this at least one elastic arm snap fit to this at least one spacing hole of this first gate plate, allow for this first gate plate to move to this second position from this primary importance.