CN202856002U - Socket for electrical connection - Google Patents

Abstract

Provided is a socket for electrical connection, comprising an insulating base having a base which frontal part is provided with a bearing portion extending to the groove of a groove body, a groove body which is provided with a groove and located in front of the insulating base and has an opened front end, at least one row of terminals which are arranged at the insulating base body in a spaced manner and are provided with a contact part to expose one side of the bearing portion of the insulating base, and a flexible cover structure which is provided with a cover surface, a right side surface, and a left surface, and arranged upon the groove body, and forms a connecting groove with the groove body, wherein the flexible cover structure can float up and down relative to the groove body, thereby increasing or decreasing the height of the connecting groove. When the flexible cover structure is located at the contracting point relative to the groove body, the overall height can be decreased. When the flexible cover structure is located at the point of use relative to the groove body, the connecting groove can insert a joint for electrical connection. Therefore, the thickness of the electronic product is substantially reduced, thereby realizing the thin and light effect.

Description

Electric-connected socket

Technical field

The utility model refers in particular to a kind of electric-connected socket that fluctuates relevant for a kind of electric connector.

Background technology

Network circuit adopts the RJ45 joint RJ45 socket of pegging graft, see also Fig. 1, be known RJ45 joint 10 and RJ45 socket 15, this RJ45 joint 10 be an en plaque and above be provided with an Elastic buckle 11, this RJ45 socket 15 is provided with a link slot 16, these link slot 16 upper limbs are provided with draw-in groove 17, when this RJ45 joint inserts this RJ45 socket 15, but this draw-in groove 17 of Elastic buckle 11 buckles.

The thickness of slab of RJ45 joint 10 is very thick and be provided with again an Elastic buckle 11 above it, so these RJ45 socket 15 whole heights are very high.

Because electronic product is day by day compact, such as panel computer or ultrathin notebook PC reduces product thickness all as much as possible, to reach purpose easy to carry, because RJ45 socket 15 is essential outfits, so if can reduce the reduction that the height of RJ45 socket 15 then can reach product thickness.

The utility model content

Main purpose of the present utility model is to provide a kind of electric-connected socket, by the relative characteristics that fluctuate of groove body of removable cover structure, can obviously reduce the thickness of electronic product, reaches frivolous effect.

For achieving the above object, the utility model provides a kind of electric-connected socket, and it includes: an insulating base frame, and this insulating base frame is provided with a base portion, and this base portion leading portion is provided with a carrier; One groove body, it is provided with a groove and is positioned at this insulating base frame the place ahead, and the front end of this groove body is open, and this carrier extends to the groove of this groove body; At least one row's terminal is located to spaced arrangement this insulating base frame, and this terminal is provided with the carrier one side that a contact site exposes this insulating base frame; And removable cover structure, it is provided with a capping and left and right side, it is located on this groove body, this removable cover structure forms a link slot with this groove body, this removable cover structure relatively this groove body fluctuates, the height of this link slot increased or dwindle, when this removable cover structure can reduce whole height when this groove body is positioned condensation point relatively, when this removable cover structure relatively this groove body be positioned at when using this link slot and can insert a joint and be electrically connected.

In described electric-connected socket, this carrier is en plaque and is positioned at this groove body inner space or bottom.

In described electric-connected socket, this groove body is an insulating base, and this groove body and this insulating base frame are one-body molded, and this carrier is en plaque and is the groove floor of this groove body, and namely the groove floor of this carrier and this groove body is integral.

In described electric-connected socket, this groove body is a metal pedestal, and this groove body and a metal-back are one-body molded, and this metal-back coats this insulating base frame, and this carrier is en plaque ground and is positioned at this groove body inner space.

In described electric-connected socket, up and down springing or the not springing of this at least one row's terminal.

In described electric-connected socket, this electric-connected socket can be RJ45, USB2.0/3.0, HDMI, Display port, e-SATA ... etc. the outer electric-connected socket of pegging graft of various I/O.

In described electric-connected socket, this removable cover is configured to movable metallic lid.

In described electric-connected socket, the capping of this removable cover structure is provided with a clamping part, but this clamping part snap-fitting.

In described electric-connected socket, this removable cover structure is provided with movable metallic lid and a plastic cement removable cover, and this plastic cement removable cover is located at the capping inner face of this movable metallic lid, and this plastic cement removable cover is provided with a clamping part, but this clamping part snap-fitting.

In described electric-connected socket, this plastic cement removable cover fits in capping inner face and the mutual snaps into position of movable metallic lid.

In described electric-connected socket, this removable cover is constructed relatively this groove body fastening in condensation point and is used point.

In described electric-connected socket, the front and back section of at least one side in the left and right sides of this removable cover structure and this groove body respectively is provided with the mutual fastening of two stuck points of consistency from top to bottom, when two stuck point consistency from top to bottom fastening of section before and after this removable cover structure and this groove body, relative this groove body fastening of this removable cover structure is in the condensation point, when two stuck point above this groove body of two stuck point fastenings of this removable cover structure below, relative this groove body fastening of this removable cover structure is in using point.

In described electric-connected socket, relative this groove body fastening of this removable cover structure is when this condensation point, this removable cover structure can the back segment top stuck point be relatively up the pivot stuck point of this groove body leading portion top of stuck point fastening of making the leading portion below of this groove body of rotating shaft, when this joint inserted link slot, this removable cover structure was take the stuck point of this groove body back segment top of stuck point fastening that the stuck point below the leading portion makes the back segment below as relative this groove body of rotating shaft up pivots again.

In described electric-connected socket, at least one side in the left and right sides of this removable cover structure is provided with two and extends to the perforate of epimere by the lower end, this face is formed before, during and after three sections shell fragments, this front and rear sections shell fragment is respectively equipped with two stuck points.

In described electric-connected socket, this removable cover structure can be limited in the use point when this groove body is to top offset relatively, can't be again toward top offset.

In described electric-connected socket, this at least one side in groove body left and right sides is provided with a recess, this removable cover structure at least one side lower end, the left and right sides bends inwards and is provided with a banking stop, this banking stop is corresponding to this recess upper and lower displacement, and this removable cover structure is subjected to spacing and can't be again toward top offset when this banking stop is butted on this recess upper limb.

In described electric-connected socket, be provided with anti-retrogression structure between this removable cover structure and this groove body, can not withdraw from forward again after making this removable cover structure be combined in from front to back this groove body.

In described electric-connected socket, when relative this groove body of this removable cover structure fluctuated, it is spacing that this removable cover is configured to these groove body front and back.

In described electric-connected socket, this groove body is provided with an elastic construction, by the elastic force of this elastic construction make this removable cover structure relatively this groove body be positioned condensation point or use point.

In described electric-connected socket, this groove body is provided with an elastic construction and a movement, this movement is provided with a chute, this chute is a circulating path, the upper end of this chute is that a cusp and lower end are provided with fastening point, the circulating path of this chute is provided with a plurality of unidirectional fixture blocks and forms the path of a unidirectional slip, this removable cover structure is provided with a guide rod, this guide rod slides up and down to be sticked in this chute, by the elastic force of this elastic construction make this removable cover structure relatively this groove body be positioned to use a little and this guide rod is positioned at the upper end of this chute, when depressing that even this guide rod of this removable cover structure is prolonging that chute slides and fastening in this fastening point, relative this groove body of this removable cover structure this moment is positioned the condensation point, even break away from this fastening point when pressing again this guide rod of this removable cover structure, the upward sliding by the elastic force of this elastic construction and be positioned at again the upper end of this chute.

In described electric-connected socket, the contact site of this row terminal is 8 and up and down springing, for meeting the RJ45 specification.

In described electric-connected socket, this at least one side in groove body left and right sides is provided with a concave surface, the hypomere of this concave surface is provided with a convex globoidal, the salient point of this convex globoidal forms a stuck point, at least one side in the left and right sides of this removable cover structure is provided with an elastic card, the latter end of this elastic card is arcuation and forms a protuberance, this elastic card snaps in this concave surface and slides up and down, when relative this groove body of this removable cover structure is positioned at this condensation point, the protuberance of this elastic card is positioned under this stuck point and is the fastening state, when relative this groove body of this removable cover structure was positioned at this use point, the protuberance of this elastic card crosses stuck point and elasticity is butted on the epimere of convex globoidal and is the fastening state.

In described electric-connected socket, this groove body is provided with an elastic construction, elastic force by this elastic construction makes relative this groove body of this removable cover structure be positioned to use a little, this at least one side in groove body left and right sides is provided with a recess, this recess is provided with at least one fixture block, this fixture block epimere is the inclined-plane and the lower end is the card face, at least one side in the left and right sides of this removable cover structure is provided with at least one elastic clamping hook and the rear end is provided with at least one shell fragment, the lower end of this elastic clamping hook is banking stop, but the card face of this fixture block lower end of banking stop snap fit of this elastic clamping hook, this shell fragment is used against this insulating base frame this removable cover structure elastic force forward is provided, when relative this groove body of this removable cover structure is positioned at this condensation point, the card face of this fixture block lower end of banking stop snap fit of this elastic clamping hook, this elastic construction is compressive state; When using, this removable cover is constructed to pusher, this moment, this elastic clamping hook broke away from the card face of snap fit fixture block lower end, this elastic clamping hook is positioned at this fixture block one side, and the elastic force that this removable cover structure is made progress by this elastic construction boosts and upwards floats, and oneself is positioned at this fixture block top when the banking stop of this elastic clamping hook lower end is limited in the upper limb of recess, so resilience by this shell fragment, this removable cover structure is replied forward former anterior position, and at this moment, this removable cover structure is unsteady this use point that is positioned of this groove body relatively.

Electric-connected socket as described, wherein this groove body is provided with an elastic construction, elastic force by this elastic construction makes relative this groove body of this removable cover structure be positioned to use a little, this at least one side in groove body left and right sides is provided with a salient point, two sides respectively are provided with a chute and a shell fragment about this movable metallic lid, this this salient point of chute clamping, the upper and lower side of this chute respectively is provided with a location recess, but this salient point fastening is in this location indentations, this shell fragment is used against this insulating base frame this removable cover structure elastic force forward is provided, when relative this groove body of this removable cover structure is positioned at this condensation point, the salient point fastening of this removable cover structure is in the location indentations of chute upper end, and this elastic construction is compressive state; When using, this removable cover is constructed to pusher, this moment, this salient point broke away from the location indentations of chute upper end, the elastic force that this removable cover structure is made progress by this elastic construction boosts and upwards floats, when salient point was positioned at the chute lower end, by the resilience of this shell fragment, this salient point was that fastening is in the location indentations of chute lower end again, at this moment, relative this groove body of this removable cover structure floats and is positioned to use a little.

The utility model can obviously reduce the thickness of electronic product by the relative advantage that fluctuates of groove body of removable cover structure, reaches frivolous effect.

Above-mentioned and other purpose of the present utility model, advantage and characteristic are by in the detailed description of following preferred embodiment and with reference to the accompanying drawings can be clearer.

Description of drawings

Fig. 1 is the stereogram of known RJ45 joint and RJ45 socket.

Fig. 2 is the three-dimensional exploded view of the utility model the first embodiment.

Fig. 3 is the condensation point three-dimensional combination figure of the utility model the first embodiment.

Fig. 4 is the condensation point front sectional elevation of the utility model the first embodiment.

Fig. 5 is the condensation point side cutaway view of the utility model the first embodiment.

Fig. 6 is the use point front sectional elevation of the utility model the first embodiment.

Fig. 7 is the use point side cutaway view of the utility model the first embodiment.

Fig. 8 is the use side view of the state of the utility model the first embodiment.

Fig. 9 is the use side view of the state of the utility model the first embodiment.

Figure 10 is the use side view of the state of the utility model the first embodiment.

Figure 11 is the use side view of the state of the utility model the first embodiment.

Figure 12 is the use side view of the state of the utility model the first embodiment.

Figure 13 is the use side view of the state of the utility model the first embodiment.

Figure 14 is the use side view of the state of the utility model the first embodiment.

Figure 15 is the three-dimensional exploded view of the utility model the second embodiment.

Figure 16 is the condensation point three-dimensional combination figure of the utility model the second embodiment.

Figure 17 is the condensation point front sectional elevation of the utility model the second embodiment.

Figure 18 is the use point three-dimensional combination figure of the utility model the second embodiment.

Figure 19 is the use point front sectional elevation of the utility model the second embodiment.

Figure 20 is the three-dimensional exploded view of the utility model the 3rd embodiment.

Figure 21 is the condensation point three-dimensional combination figure of the utility model the 3rd embodiment.

Figure 22 is the condensation point three-dimensional combination figure of the utility model the 4th embodiment.

Figure 23 is the three-dimensional exploded view of the utility model the 5th embodiment.

Figure 24 is the condensation point three-dimensional combination figure of the utility model the 5th embodiment.

Figure 25 is the condensation point front sectional elevation of the utility model the 5th embodiment.

Figure 26 is the condensation point end view of the utility model the 5th embodiment.

Figure 27 is the use side view of the state of the utility model the 5th embodiment.

Figure 28 is the use point front sectional elevation of the utility model the 5th embodiment.

Figure 29 is the use point end view of the utility model the 5th embodiment.

Figure 30 is the three-dimensional exploded view of the utility model the 6th embodiment.

Figure 31 is the condensation point three-dimensional combination figure of the utility model the 6th embodiment.

Figure 32 is the condensation point front sectional elevation of the utility model the 6th embodiment.

Figure 33 is the condensation point end view of the utility model the 6th embodiment.

Figure 34 is the use side view of the state of the utility model the 6th embodiment.

Figure 35 is the use side view of the state of the utility model the 6th embodiment.

Figure 36 is the use side view of the state of the utility model the 6th embodiment.

Figure 37 is the three-dimensional exploded view of the utility model the 7th embodiment.

Figure 38 is the condensation point front sectional elevation of the utility model the 7th embodiment.

Figure 39 is the use point front sectional elevation of the utility model the 7th embodiment.

Figure 40 is the use point front sectional elevation of the utility model the 8th embodiment.

Figure 41 is the condensation point side cutaway view of the utility model the 9th embodiment.

Figure 42 is the three-dimensional exploded view of the utility model the tenth embodiment.

Figure 43 is the condensation point three-dimensional combination figure of the utility model the tenth embodiment.

Figure 44 is the movement plane graph of the utility model the tenth embodiment.

Figure 45 is the three-dimensional exploded view of the utility model the 11 embodiment.

Figure 46 is the condensation point three-dimensional combination figure of the utility model the 11 embodiment.

Figure 47 is the three-dimensional exploded view of the utility model the 12 embodiment.

Figure 48 is the condensation point three-dimensional combination figure of the utility model the 12 embodiment.

Figure 49 is the condensation point front view of the utility model the 13 embodiment.

Figure 50 is the condensation point side cutaway view of the utility model the 13 embodiment.

Figure 51 is the condensation point end view of the utility model the 13 embodiment.

Figure 52 is the use point front side figure of the utility model the 13 embodiment.

Figure 53 is the use point end view of the utility model the 13 embodiment.

Figure 54 is the use point front side figure of the utility model the 14 embodiment.

Figure 55 is the condensation point front view of the utility model the 15 embodiment.

Figure 56 is the condensation point end view of the utility model the 15 embodiment.

Figure 57 is the use point front side figure of the utility model the 15 embodiment.

Figure 58 is the use point end view of the utility model the 15 embodiment.

Figure 59 is the condensation point front view of the utility model the 16 embodiment.

Figure 60 is the use point front side figure of the utility model the 16 embodiment.

Figure 61 is the use point front side figure of the utility model the 17 embodiment.

Figure 62 is the condensation point front view of the utility model the 17 embodiment.

Figure 63 is the condensation point front sectional elevation of the utility model the 18 embodiment.

Figure 64 is the condensation point end view of the utility model the 18 embodiment.

Figure 65 is the condensation point side cutaway view of the utility model the 18 embodiment.

Figure 66 is the use point front sectional elevation of the utility model the 18 embodiment.

Figure 67 is the use point end view of the utility model the 18 embodiment.

Figure 68 is the use point side cutaway view of the utility model the 18 embodiment.

Figure 69 is the condensation point front sectional elevation of the utility model the 19 embodiment.

Figure 70 is the use point front sectional elevation of the utility model the 19 embodiment.

Embodiment

See also Fig. 2 to Fig. 5, be the first embodiment of the present utility model, it is a RJ45 socket, and it comprises an insulating base frame 20, a groove body 65, row's terminal 30 and removable cover structure, wherein:

This groove body 65 is positioned at these insulating base frame 20 the place aheads and both are one-body molded for plastic cement, it is open that this groove body 65 is provided with a groove 66 and front end and upper end, this insulating base frame 20 is provided with a base portion 21, these base portion 21 the place aheads are provided with a carrier 27, this carrier is en plaque ground and is the bottom surface of this groove 66, namely this carrier 27 is integral with the groove floor of this groove body 65, this insulating base frame 20 is provided with row's terminal groove 22, this row terminal groove 22 extends to this carrier 27 by base portion 21 rear ends, the groove body 65 of this one and insulating base frame 20 left and right sides respectively are provided with a recess 23, one draw-in groove 24, four stuck points 25, this recess 23 is positioned at the lower end, stage casing and up extends a height, this draw-in groove 24 is positioned at this recess 23 tops, it is strip and vertically extends, this four stuck point 25 is four circular holes, each two and consistency from top to bottom of section before and after it is positioned at, end face and left and right sides rear end all are provided with flange 26 in addition.

This row terminal 30 is 8, this row terminal groove 22 is fixed in its assembling, this terminal 30 is provided with an extension 31, a fixed part 32, a pin 33 and a contact site 34, this fixed part 32 is fixing with terminal groove 22, this extension 31 is connected in fixed part 32 front ends and extends to forward carrier 27, this contact site 34 punctures from extension 31 plate faces and protrudes above the carrier 27, this contact site 34 is bullet up and down, this row contact site 34 meets the RJ45 specification, and these pin 33 bendings are vertically stretches out below, insulating base frame 20 rear ends.

This removable cover structure is provided with movable metallic lid 40 and one plastic cement removable cover 50, and this movable metallic lid 40 is provided with a capping and left and right side and is

Shape, its left and right side respectively is provided with two and extends to the perforate 41 of epimere by the lower end, before this face is formed, in, rear three sections shell fragments, this stage casing is provided with an elasticity overhead kick 42 and lower edge are level toward inner bending one banking stop 45, before being somebody's turn to do, back segment is respectively equipped with two stuck points 43 of consistency from top to bottom, this stuck point 43 is protruding inside dome, the left and right side approaches the upper end and respectively is provided with an elasticity overhead kick 44 in addition, this plastic cement removable cover 50 is located at the capping inner face of this movable metallic lid 40, these plastic cement removable cover 50 left and right sides are provided with a clamping part 52 in the middle of respectively being provided with two draw-in grooves 51 and leading portion, the draw-in groove 51 of this plastic cement removable cover 50 can't withdraw from forward for elasticity overhead kick 44 buckles of movable metallic lid 40, but this clamping part 52 buckles one RJ45 joint.

This removable cover structure is by by on the front groove body 65 and insulating base frame 20 that then is assembled in this one, this movable metallic covers 40 rear ends to terminating in this flange 26, this removable cover structure and 65 of this groove bodies are provided with anti-retrogression structure, namely these elasticity overhead kick 42 snap fits are in this draw-in groove 24, can not withdraw from forward again after making this removable cover structure be combined in from front to back this groove body 65, this this four stuck point 25 of four stuck points, 43 fastenings, 45 pairs of this banking stops should recess 23, this removable cover structure is located on this groove body 65, this removable cover structure forms a link slot 29 with this groove body 65, this removable cover structure relatively this groove body 65 fluctuates, the height of this link slot 29 is increased or dwindle, when this removable cover structure can reduce height when this groove body is positioned condensation point relatively, when this removable cover structure relatively this groove body float and be positioned at when using this link slot and can insert a RJ45 joint and be electrically connected.

See also Fig. 4 and Fig. 5, when two stuck points 43 of this removable cover structure and these groove body 65 front and back sections, 25 consistency from top to bottom fastening, this plastic cement removable cover 50 is against this groove body 65, and relative these groove body 65 fastenings of removable cover structure this moment can reduce whole height in the condensation point; See also Fig. 6 and Fig. 7, when two stuck point 25 of these groove body 65 tops of two stuck points, 43 fastenings of this removable cover structure below, this removable cover is constructed to float and is positioned at groove body 65 tops, relative these groove body 65 fastenings of this removable cover structure this moment are in using point, this link slot 29 becomes large, can insert a RJ45 joint 10 and be electrically connected.

When relative this groove body 65 of this removable cover structure fluctuates, the recess 23 that 45 pairs of the banking stops of this removable cover structure should groove body 65 and elasticity overhead kick 42 snap fits of this removable cover structure are in the draw-in groove 24 of this groove body 65, so it is spacing that this removable cover is configured to these groove body 65 front and back, can only fluctuate.

By above structure, see also Fig. 4 and Fig. 5, removable cover structure relatively these groove body 65 fastenings can reduce whole height when condensation point, see also Fig. 8, RJ45 joint 10 will insert when using, be first and tilt to insert, then as shown in Figure 9, this movable metallic lid 40 is up lifted, the stuck point 43 (a point in the diagram) that this moment, this movable metallic lid 40 can the back segment top is relative up the pivot stuck point 25 of this groove body leading portion top of stuck point 43 fastenings of making the leading portion below of this groove body 65 of rotating shaft, then as shown in figure 10, when this RJ45 joint 10 inserts link slot, this movable metallic lid 40 is relative up pivot the again stuck point 25 of this groove body 65 back segments top of stuck point 43 fastenings of making the back segment below of this groove body 65 take the stuck point 43 of leading portion below as rotating shaft (the b point in the diagram), and this moment, this banking stop 45 was limited in groove 23 upper limbs.

See also Figure 11, when this RJ45 joint 10 is extracted link slot, only need this movable metallic lid 40 is depressed, namely get back to such as Fig. 4 and Fig. 5 state, removable cover structure relatively these groove body 65 fastenings reduces whole height in condensation point.

See also Figure 12, can also point in the use 100 and first this movable metallic lid 40 up be lifted, make RJ45 joint 10 be easy to insert link slot.

See also Figure 13 and Figure 14, for the utility model is installed in state on the ultrathin notebook PC 105, as shown in figure 13, when not using, these movable metallic lid 40 upper surfaces a little less than ultrathin notebook PC 105, as shown in figure 14, this movable metallic lid 40 floats and can insert RJ45 joint 10 when being positioned to use point and be electrically connected.

By the relative advantage that fluctuates of groove body of removable cover of the present utility model structure, can obviously reduce the thickness of ultrathin notebook PC about 1/4, reach frivolous effect.

Moreover, when the utility model is installed in panel computer or other electronic products, all can obviously reduce the product integral thickness, reach frivolous effect.

See also Figure 15, be the second embodiment of the present utility model, it is a RJ45 socket, it comprises an insulating base frame 20, a groove body 65, row's terminal 30 and removable cover structure, wherein roughly identical with the first embodiment, its difference is: this removable cover structure only is provided with movable metallic lid 40, and its capping is convex and form a clamping part 47, but this clamping part 47 buckles one RJ45 joint; The left and right sides of this groove body 65 respectively is provided with two spring location notchs 28, and these spring location notch 28 lower ends are opened and the upper end is provided with a socket post 201 sockets one spring 60, and these spring 60 lower ends compress the banking stop 45 of movable metallic lid 40.

See also Figure 16 and Figure 17, compress the banking stop 45 of movable metallic lid 40 by these spring 60 lower ends, so the capping of this movable metallic lid 40 is not condensed state against groove body 65 upper ends when using, see also Figure 18 and Figure 19, but when the RJ45 joint inserts link slot 29 this movable metallic lid 40 of jack-up and be the use state.

See also Figure 20 and Figure 21, be the 3rd embodiment of the present utility model, it is roughly identical with the second embodiment, and its difference is that the capping leading portion of this movable metallic lid 40 is that both sides are concave surface 471 and form a clamping part 47, but this clamping part 47 buckles one RJ45 joint.

See also Figure 22, be the 4th embodiment of the present utility model, it is roughly identical with the second embodiment, the capping leading portion that its difference is this movable metallic lid 40 reflexed one plate 472 and form a clamping part 47 in two side direction link slots, but this clamping part 47 buckles one RJ45 joint.

See also Figure 23 and Figure 24, be the 5th embodiment of the present utility model, it is roughly identical with the second embodiment, its difference is that spring location notch 28 upper ends of this groove body 65 are for open, the elastic force of this spring 60 upwards, these groove body 65 left and right sides tow side sections respectively are provided with a salient point 202, two sides respectively are provided with two inside Access Divisions 48 about this movable metallic lid 40, one chute 49 and a shell fragment 401, this each Access Division 48 clampings one spring 60, this this salient point 202 of chute 49 clampings, the upper and lower side of this chute 49 is provided with location indentations 491,492, but these salient point 202 fastenings are in this location indentations 491,492, this shell fragment 401 is located at tail end, and these shell fragment 401 elasticity compress the flange 26 of two rear flank ends about this insulating base frame.

See also Figure 25 and Figure 26, the capping of this movable metallic lid 40 is not condensed state against groove body 65 upper ends when using, and salient point 202 fastenings this moment are in the location indentations 491 of chute 49 upper ends, and spring 60 is compressive state; See also Figure 27, when using, this movable metallic is covered 40 to pusher, this moment, this salient point 202 broke away from location indentations 491, these movable metallic lid 40 elastic force that made progress by this spring 60 boost and upwards float, when salient point 202 is positioned at chute 49 lower end, again by the resilience of this shell fragment 401, this salient point 202 is that fastening is in the location indentations 492 of chute 49 lower ends, such as Figure 28 and shown in Figure 29, at this moment, these movable metallic lid 40 relative these groove bodies 65 are positioned to use a little, and this link slot 29 can insert the RJ45 joint and be electrically connected.

See also Figure 30, Figure 31 and Figure 32, be the 6th embodiment of the present utility model, it is roughly identical with the 5th embodiment, its difference is that the recess 23 of these groove body about 65 two sides respectively is interval with four fixture blocks 203, these fixture block 203 epimeres are the inclined-plane and the card face of lower end and vertical plane are less than 90 degree, this insulating base frame 20 respectively is provided with a springing groove 204 near the both sides, rear end, two sides respectively are provided with four above-below directions about this movable metallic lid 40 elastic clamping hook 402 and rear end are provided with two shell fragments 401, the lower end of this four elastic clamping hook 402 is provided with a banking stop 45, this banking stop 45 is less than 90 degree with vertical plane, but the card face of these four fixture blocks, 203 lower ends of banking stop 45 snap fits of this four elastic clamping hook 402, this two shell fragment 401 stretches into two springing grooves 204 of this insulating base frame 20.

See also Figure 31 to Figure 33, the capping of this movable metallic lid 40 is not condensed state against groove body 65 upper ends when using, but this moment these these four fixture blocks, 203 lower ends of four elastic clamping hooks, 402 snap fits the card face, spring 60 is compressive state; See also Figure 34, when using, this movable metallic is covered 40 to pusher, the card face that this moment, this four elastic clamping hook 402 broke away from snap fit four fixture blocks 203 lower ends, each elastic clamping hook 402 is between two fixture blocks 203, as shown in figure 35, these movable metallic lid 40 elastic force that made progress by this spring 60 boost and upwards float, as shown in figure 36, oneself is positioned at four fixture blocks, 203 tops when the banking stop 45 of four elastic clamping hooks, 402 lower ends is limited in the upper limb of recess 23, so resilience by this shell fragment 401, this movable metallic lid 40 is replied forward former anterior position, at this moment, these movable metallic lid 40 relative these groove bodies 65 float and are positioned to use a little, and this link slot 29 can insert RJ45 joint 10 and be electrically connected.

Because the card face of these fixture block 203 lower ends and vertical plane are less than 90 degree, and banking stop 45 and the vertical plane of these elastic clamping hook 402 lower ends are less than 90 degree, so very firm on the condensation point location during card face of banking stop 45 snap fit fixture blocks 203 lower ends of elastic clamping hook 402, avoid this movable metallic lid 40 to open to the left and right, in addition, the upper limb of this recess 23 and vertical plane also are less than 90 degree, so the upper limb of this this recess 23 of banking stop 45 snap fits is also very firm when using point, this two shell fragment 401 stretches into two springing grooves 204 of this insulating base frame 20.

See also Figure 37, Figure 38 and Figure 39, be the 7th embodiment of the present utility model, it is roughly identical with the first embodiment, its difference is that the recess 23 of these groove body about 65 two sides respectively established one in the front and back section, be provided with a concave surface 208 between two recesses 23, the hypomere of this concave surface 208 is provided with a convex globoidal 205, the salient point of this convex globoidal 205 is stuck point 206, the banking stop 45 of this movable metallic lid 40 is also respectively established one to should two recesses 23 for the front and back section, be provided with an elastic card 404 between two banking stops 45, the latter end of this elastic card 404 is arcuation and forms a protuberance 405, and this elastic card 404 snaps in this concave surface 208.

See also Figure 38, the capping of this movable metallic lid 40 is not condensed state against groove body 65 upper ends when using, and the protuberance 405 of this elastic card 404 was positioned at stuck point 206 times and was the fastening state this moment; See also Figure 39, when using, this removable cover structure is upwards lifted, this moment, the protuberance 405 of this elastic card 404 was crossed stuck point 206 and elasticity is butted on the upper end of convex globoidal 205 and is the fastening state, and this two banking stop 45 also is limited in the upper limb of this two recess 23, at this moment, these movable metallic lid 40 relative these groove bodies 65 float and are positioned to use a little, and this link slot 29 can insert RJ45 joint 10 and be electrically connected.

See also Figure 40, be the 8th embodiment of the present utility model, it is roughly identical with the first embodiment, its difference is that these banking stop 45 ends upwards bend a vertical plate 46, the recess upper limb of this groove body 65 is provided with a draw-in groove 209, when this movable metallic lid 40 relative these groove bodies 65 float when being positioned to use point, but these vertical plate 46 snap fits are avoided this movable metallic to cover 40 and are opened to the left and right in this draw-in groove 209.

See also Figure 41, be the 9th embodiment of the present utility model, it is roughly identical with the first embodiment, its difference is that 21 times side spaces of base portion of this insulating base frame 20 are provided with a circuit board 80, row pin 82, a plurality of coil 84 and an adhesive body 86, this row terminal 30, row's pin 82 and a plurality of coil 84 all are electrically connected this circuit board 80, this adhesive body 86 fills up 21 times side spaces of base portion, each terminal 30 is electrically connected with at least one coil 84 first, be electrically connected to a pin 82, so setting can reach better high-frequency transmission effect again.

See also Figure 42, Figure 43 and Figure 44, be the tenth embodiment of the present utility model, it is roughly identical with the 5th embodiment, its difference is that this groove body 65 more is provided with a movement 210 except being provided with an elastic construction, this movement 210 is provided with a chute 211, this chute 211 is an obcordate circulating path, the upper end of this chute 211 is that a cusp and lower end are provided with a fastening point 213, the circulating path of this chute is provided with a plurality of unidirectional fixture blocks 215 and forms unidirectional sliding path such as the direction of arrow of Figure 44, oblique line in the diagram represents this a plurality of unidirectional fixture blocks 215, movable metallic lid about 40 one sides are provided with a shell fragment 406, these shell fragment 406 ends are provided with a guide rod 407 and are sticked in this chute 211 and slide up and down, when these movable metallic lid 40 relative these groove bodies 65 being floated be positioned this use point by the elastic force of the spring 60 of this elastic construction, this guide rod 407 is positioned at the upper end of this chute 211, when depressing that even this movable metallic lid 40 these guide rods 407 are prolonging that chute 211 slides and fastening in this fastening point 213, this moment, these movable metallic lid 40 relative these groove bodies 65 were positioned the condensation point, even break away from this fastening point 213 when pressing again these movable metallic lid 40 these guide rods 407, the upward sliding by the elastic force of this elastic construction and be positioned at again the upper end of this chute 211 becomes the use state once again.

See also Figure 45 and Figure 46, be the 11 embodiment of the present utility model, it is roughly identical with the tenth embodiment, its difference is that these movable metallic lid about 40 one sides only are provided with a guide rod 407, this guide rod 407 is not connected in a shell fragment, so this movable metallic does not cover 40 front and back springing relatively, this movable metallic covers 40 rear ends and be provided with the springing groove 204 that two shell fragments 401 stretch into this insulating base frame as the 6th embodiment.

By above structure, when this guide rod 407 was prolonging chute 211 and slides up and down, this movable metallic lid 40 can fluctuate and move forward and backward.

See also Figure 47 and Figure 48, be the 12 embodiment of the present utility model, it is roughly identical with the 11 embodiment, and its difference is that this removable cover structure is provided with movable metallic lid 40 and one plastic cement removable cover 50 as the first embodiment.

See also Figure 49 to Figure 53, be the 13 embodiment of the present utility model, it is a USB3.0 socket, and it comprises an insulating base frame 20, a groove body 65, row's terminal 30, row's terminal 35 and removable cover structure, wherein:

This insulating base frame 20 is provided with a base portion 21, and these base portion 21 the place aheads are provided with a carrier 27, and the Thickness Ratio carrier 27 of this base portion 21 is large.

This groove body 65 is a metal pedestal, this groove body 65 and a metal-back 70 are one-body molded, this metal-back 70 coats this insulating base frame 20, this groove body 65 is provided with a groove 66, this carrier 27 is the inner space that en plaque is positioned at this groove body 65, the bottom surface of this groove body 65 punctures to groove 66 and is provided with projectedly two Elastic buckles 72, but the hole clipping of described two Elastic buckle buckle one USB joints.

This row's terminal 30 and row's terminal 35 are all assembled and are fixed in this insulating base frame 20, this terminal 30 be provided with one up and down the contact site 34 of springing protrude this carrier 27 one sides, this terminal 35 be provided with one can not springing contact site 39 slightly be depressed in this face of carrier 27, contact site 39 is positioned at contact site 34 the place aheads.

This removable cover is configured to movable metallic lid 40, it is roughly identical with the second embodiment, but do not establish clamping part on it, this movable metallic lid 40 equally only relatively this groove body 65 fluctuate and can not move forward and backward, the left and right sides fastening of same relatively this groove body 65 of the left and right sides of this movable metallic lid 40 is in condensation point and use point, and be limited in the use point, both fastenings and limit configuration are roughly identical with the first embodiment, the left and right sides that is movable metallic lid 40 is provided with four stuck points 43 and three banking stops 45, the left and right sides of this groove body 65 is provided with four stuck points 75 and three recesses 77, but this this four stuck point 25 of four stuck points, 43 fastenings, this three banking stop 45 can slide up and down in this three recess 77, and this recess 77 is a perforate.

See also Figure 49 to Figure 51,40 relative these groove body 65 fastenings of this movable metallic lid see also Figure 52 and Figure 53 in the condensation point, and these movable metallic lid 40 relative these groove body 65 fastenings are in the use point, and link slot 29 can insert a USB joint and is electrically connected at this moment.

See also Figure 54, be the 14 embodiment of the present utility model, it is roughly identical with the 13 embodiment, is provided with the hole clipping of two Elastic buckles, 410 buckle USB joints but its difference is the capping of this movable metallic lid 40.

See also Figure 55 to Figure 58, be the 15 embodiment of the present utility model, it is roughly identical with the 13 embodiment, its difference is that present embodiment is depositing plate type, these groove body 65 left and right sides respectively are provided with a fishplate bar section 73 and fix with the circuit board that will weld, unsteady direction and the 13 embodiment of this movable metallic lid 40 are reverse, see also Figure 55 and Figure 56, these movable metallic lid 40 relative these groove body 65 fastenings are in the condensation point, see also Figure 57 and Figure 58,40 relative these groove body 65 fastenings of this movable metallic lid are in using point, and link slot 29 can insert a USB joint and is electrically connected at this moment.

See also Figure 59 and Figure 60, be the 16 embodiment of the present utility model, it is a HDMI (High Definition Multimedia Interface) (High Definition Multimedia Interface, be called for short HDMI) socket, it comprises an insulating base frame 20, a groove body 65, two row's terminals 30 and removable cover structure, it is roughly identical with the 13 embodiment, wherein:

This insulating base frame 20 is provided with a base portion 21, and these base portion 21 the place aheads are provided with a carrier 27, and the Thickness Ratio carrier 27 of this base portion 21 is large, and carrier 27 left and right sides are the inclined-plane that inside contracts.

This groove body 65 is a metal pedestal, this groove body 65 and a metal-back 70 are one-body molded, this metal-back 70 coats this insulating base frame 20, this groove body 65 is provided with a groove 66, this carrier 27 is the inner space that en plaque is positioned at this groove body 65, and the bottom surface of this groove body 65 punctures to groove 66 and is provided with two Elastic buckles 72 and the left and right sides hypomere is the inclined-plane 74 that inside contracts.

This two rows terminal 30 is all assembled and is fixed in this insulating base frame 20, this terminal 30 be provided with one up and down the contact site 34 of springing expose this carrier 27 one sides, contact site 34 of this two rows terminal 30 be arranged in respectively these carrier 27 top and bottom and mutually about stagger, arranging terminal 30 this on is that 10 row's of descending terminals are 9.

This removable cover is configured to movable metallic lid 40, this movable metallic lid 40 equally only relatively this groove body 65 fluctuate and can not move forward and backward, the left and right sides fastening of same relatively this groove body 65 of the left and right sides of this movable metallic lid 40 is in condensation point and use point, and is limited in the use point.

See also Figure 59,40 relative these groove body 65 fastenings of this movable metallic lid see also Figure 60 in the condensation point, and these movable metallic lid 40 relative these groove body 65 fastenings are in the use point, and link slot 29 can insert a USB joint and is electrically connected at this moment.

See also Figure 61 and Figure 62, be the 17 embodiment of the present utility model, it is a Displayport socket, it comprises an insulating base frame 20, a groove body 65, two row's terminals 30 and removable cover structure, it is roughly identical with the 16 embodiment, wherein difference be present embodiment groove body 65 left and right sides hypomeres only a side be the inclined-plane 74 that inside contracts, carrier 27 left and right sides are provided with protuberance 271, two row's terminals 30 and are all 10.

See also Figure 63 to Figure 68, be the 18 embodiment of the present utility model, it is a depositing plate type RJ45 socket, it comprises an insulating base frame 20, one groove body 65, one row's terminal 30 and removable cover structure, it is roughly identical with the first embodiment and the 15 embodiment, wherein this groove body 65 is that a metal pedestal and metal-back 70 are constructed integratedly, its difference is that the carrier 27 of the insulating base frame 20 of present embodiment fits in the groove floor of the groove body 65 of metal, see also Figure 63 to Figure 65, these movable metallic lid 40 relative these groove body 65 fastenings are in the condensation point, see also Figure 66 to Figure 68,40 relative these groove body 65 fastenings of this movable metallic lid are in using point, and link slot 29 can insert a RJ45 joint and is electrically connected at this moment.

See also Figure 69 and Figure 70, be the 19 embodiment of the present utility model, it is roughly identical with the first embodiment and the 18 embodiment, the groove body 65 of present embodiment be same as the first embodiment ground and insulating base frame 20 one-body molded, be provided with in the same manner a metal-back 70 with the 18 embodiment in addition and coat groove bodies 65 and insulating base frames 20.

In addition, characteristics of the present utility model also can be applicable to the e-SATA socket.

The specific embodiment that proposes in the detailed description of preferred embodiment is only in order to be easy to illustrate technology contents of the present utility model; and be not with the utility model narrow sense be limited to this embodiment; in the situation that does not exceed spirit of the present utility model and following application protection range, can make many variations and implement.

Claims (24)

1. electric-connected socket is characterized in that it includes:

One insulating base frame, this insulating base frame is provided with a base portion, and this base portion leading portion is provided with a carrier;

One groove body, it is provided with a groove and is positioned at this insulating base frame the place ahead, and the front end of this groove body is open, and this carrier extends to the groove of this groove body;

At least one row's terminal is located to spaced arrangement this insulating base frame, and this terminal is provided with the carrier one side that a contact site exposes this insulating base frame; And

One removable cover structure, it is provided with a capping and left and right side, it is located on this groove body, this removable cover structure forms a link slot with this groove body, this removable cover structure relatively this groove body fluctuates, the height of this link slot increased or dwindle, when this removable cover structure can reduce whole height when this groove body is positioned condensation point relatively, when this removable cover structure relatively this groove body be positioned at when using this link slot and can insert a joint and be electrically connected.

2. electric-connected socket as claimed in claim 1 is characterized in that, this carrier is en plaque ground and is positioned at this groove body inner space or bottom.

3. electric-connected socket as claimed in claim 1, it is characterized in that this groove body is an insulating base, this groove body and this insulating base frame are one-body molded, this carrier is en plaque and is the groove floor of this groove body, and namely the groove floor of this carrier and this groove body is integral.

4. electric-connected socket as claimed in claim 1 is characterized in that, this groove body is a metal pedestal, and this groove body and a metal-back are one-body molded, and this metal-back coats this insulating base frame, and this carrier is en plaque ground and is positioned at this groove body inner space.

5. electric-connected socket as claimed in claim 1 is characterized in that, up and down springing or the not springing of this at least one row's terminal.

6. electric-connected socket as claimed in claim 1 is characterized in that, this electric-connected socket can be the outer electric-connected socket of pegging graft of I/O of RJ45, USB2.0/3.0, HDMI, Display port, e-SATA.

7. electric-connected socket as claimed in claim 1 is characterized in that, this removable cover is configured to movable metallic lid.

8. such as claim 1 or 7 described electric-connected sockets, it is characterized in that the capping of this removable cover structure is provided with a clamping part, but this this joint of clamping part buckle.

9. electric-connected socket as claimed in claim 1, it is characterized in that this removable cover structure is provided with movable metallic lid and a plastic cement removable cover, this plastic cement removable cover is located at the capping inner face of this movable metallic lid, this plastic cement removable cover is provided with a clamping part, but this this joint of clamping part buckle.

10. electric-connected socket as claimed in claim 9 is characterized in that, this plastic cement removable cover fits in capping inner face and the mutual snaps into position of movable metallic lid.

11. electric-connected socket as claimed in claim 1 is characterized in that, this removable cover is constructed relatively this groove body fastening in this condensation point and is used point.

12. electric-connected socket as claimed in claim 11, it is characterized in that, the front and back section of at least one side in the left and right sides of this removable cover structure and this groove body respectively is provided with the mutual fastening of two stuck points of consistency from top to bottom, when two stuck point consistency from top to bottom fastening of section before and after this removable cover structure and this groove body, relative this groove body fastening of this removable cover structure is in this condensation point, when two stuck point above this groove body of two stuck point fastenings of this removable cover structure below, this removable cover structure relatively this groove body fastening uses a little in this.

13. electric-connected socket as claimed in claim 12, it is characterized in that, relative this groove body fastening of this removable cover structure is when this condensation point, this removable cover structure can the back segment top stuck point be relatively up the pivot stuck point of this groove body leading portion top of stuck point fastening of making the leading portion below of this groove body of rotating shaft, when this joint inserted link slot, this removable cover structure was take the stuck point of this groove body back segment top of stuck point fastening that the stuck point below the leading portion makes the back segment below as relative this groove body of rotating shaft up pivots again.

14. electric-connected socket as claimed in claim 13 is characterized in that, at least one side in the left and right sides of this removable cover structure is provided with two and extends to the perforate of epimere by the lower end, this face is formed before, during and after three sections shell fragments, this front and rear sections shell fragment is respectively equipped with this two stuck point.

15. electric-connected socket as claimed in claim 1 is characterized in that, this removable cover structure can be limited in this use point when this groove body is to top offset relatively, can't be again toward top offset.

16. such as claim 1 or 15 described electric-connected sockets, it is characterized in that, this at least one side in groove body left and right sides is provided with a recess, this removable cover structure at least one side lower end, the left and right sides bends inwards and is provided with a banking stop, this banking stop is corresponding to this recess upper and lower displacement, and this removable cover structure is subjected to spacing and can't be again toward top offset when this banking stop is butted on this recess upper limb.

17. electric-connected socket as claimed in claim 1 is characterized in that, is provided with anti-retrogression structure between this removable cover structure and this groove body, can not withdraw from forward after making this removable cover structure be combined in from front to back this groove body again.

18. electric-connected socket as claimed in claim 1 is characterized in that, when relative this groove body of this removable cover structure fluctuated, it is spacing that this removable cover is configured to these groove body front and back.

19. electric-connected socket as claimed in claim 3 is characterized in that, this groove body is provided with an elastic construction, by the elastic force of this elastic construction make this removable cover structure relatively this groove body be positioned this condensation point or use point.

20. electric-connected socket as claimed in claim 1, it is characterized in that, this groove body is provided with an elastic construction and a movement, this movement is provided with a chute, this chute is a circulating path, the upper end of this chute is that a cusp and lower end are provided with fastening point, the circulating path of this chute is provided with a plurality of unidirectional fixture blocks and forms the path of a unidirectional slip, this removable cover structure is provided with a guide rod, this guide rod slides up and down to be sticked in this chute, by the elastic force of this elastic construction make this removable cover structure relatively this groove body be positioned the upper end that this use point and this guide rod are positioned at this chute, when depressing that even this guide rod of this removable cover structure is prolonging that chute slides and fastening in this fastening point, relative this groove body of this removable cover structure this moment is positioned this condensation point, even break away from this fastening point when pressing again this guide rod of this removable cover structure, the upward sliding by the elastic force of this elastic construction and be positioned at again the upper end of this chute.

21. electric-connected socket as claimed in claim 1 is characterized in that, the contact site of this row terminal is 8 and up and down springing, meets the RJ45 specification.

22. electric-connected socket as claimed in claim 3, it is characterized in that, this at least one side in groove body left and right sides is provided with a concave surface, the hypomere of this concave surface is provided with a convex globoidal, the salient point of this convex globoidal forms a stuck point, at least one side in the left and right sides of this removable cover structure is provided with an elastic card, the latter end of this elastic card is arcuation and forms a protuberance, this elastic card snaps in this concave surface and slides up and down, when relative this groove body of this removable cover structure is positioned at this condensation point, the protuberance of this elastic card is positioned under this stuck point and is the fastening state, when relative this groove body of this removable cover structure was positioned at this use point, the protuberance of this elastic card crosses stuck point and elasticity is butted on the epimere of convex globoidal and is the fastening state.

23. electric-connected socket as claimed in claim 3, it is characterized in that, this groove body is provided with an elastic construction, elastic force by this elastic construction makes relative this groove body of this removable cover structure be positioned to use a little, this at least one side in groove body left and right sides is provided with a recess, this recess is provided with at least one fixture block, this fixture block epimere is the inclined-plane and the lower end is the card face, at least one side in the left and right sides of this removable cover structure is provided with at least one elastic clamping hook and the rear end is provided with at least one shell fragment, the lower end of this elastic clamping hook is banking stop, but the card face of this fixture block lower end of banking stop snap fit of this elastic clamping hook, this shell fragment is used against this insulating base frame this removable cover structure elastic force forward is provided, when relative this groove body of this removable cover structure is positioned at this condensation point, the card face of this fixture block lower end of banking stop snap fit of this elastic clamping hook, this elastic construction is compressive state; When using, this removable cover is constructed to pusher, this moment, this elastic clamping hook broke away from the card face of snap fit fixture block lower end, this elastic clamping hook is positioned at this fixture block one side, and the elastic force that this removable cover structure is made progress by this elastic construction boosts and upwards floats, and oneself is positioned at this fixture block top when the banking stop of this elastic clamping hook lower end is limited in the upper limb of recess, so resilience by this shell fragment, this removable cover structure is replied forward former anterior position, and at this moment, this removable cover structure is unsteady this use point that is positioned of this groove body relatively.

24. electric-connected socket as claimed in claim 3, it is characterized in that, this groove body is provided with an elastic construction, elastic force by this elastic construction makes relative this groove body of this removable cover structure be positioned to use a little, this at least one side in groove body left and right sides is provided with a salient point, two sides respectively are provided with a chute and a shell fragment about this movable metallic lid, this this salient point of chute clamping, the upper and lower side of this chute respectively is provided with a location recess, but this salient point fastening is in this location indentations, this shell fragment is used against this insulating base frame this removable cover structure elastic force forward is provided, when relative this groove body of this removable cover structure is positioned at this condensation point, the salient point fastening of this removable cover structure is in the location indentations of chute upper end, and this elastic construction is compressive state; When using, this removable cover is constructed to pusher, this moment, this salient point broke away from the location indentations of chute upper end, the elastic force that this removable cover structure is made progress by this elastic construction boosts and upwards floats, when salient point was positioned at the chute lower end, by the resilience of this shell fragment, this salient point was that fastening is in the location indentations of chute lower end again, at this moment, relative this groove body of this removable cover structure floats and is positioned to use a little.

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