CN203826715U - Waterproof anti-electric shock socket and power strip thereof - Google Patents

Abstract

The utility model provides a waterproof anti-electric shock socket and a power strip thereof. The waterproof anti-electric shock socket comprises an insulation housing, two conductive contact pieces and two connecting guide pieces; the insulation housing comprises a bottom plate, two first vertical plates and two second vertical plates; an insulation vertical plate is disposed in the insulation housing and divides an inner cavity of the insulation housing to two cavities, embedded grooves are disposed in the cavities, and the bottom plate is provided with drainage holes; the conductive contact pieces are embedded in and fixed to the embedded grooves, two side edges of each conductive contact piece are correspondingly close to the two first vertical plates, and the bottom of each conductive contact piece is provided with a water outlet; and each connecting guide piece comprises a positioning conducting plate, an internally-connected conducting elastic piece and an externally-connected conducting piece, each positioning conducting plate is attached to an inner surface of the corresponding first vertical plate, each internally-connected conducting elastic piece and the corresponding externally-connected conducting piece are connected with a lower edge of the corresponding positioning conducting plate, the internally-connected conducting elastic piece and the externally-connected conducting piece are correspondingly located in the two cavities, an inner surface of each internally-connected conducting elastic piece is provided with an insulation sheet body, and an outer surface of each internally-connected conducting elastic piece is provided with a conducting contact. The power strip comprises an insulation base, an insulation cover plate, a plurality of the waterproof anti-electric shock sockets, a first conducting plate and a second conducting plate.

Description

Waterproof electric-shock-resistant socket and insert row thereof

Technical field

The utility model relates to a kind of socket and insert row, especially a kind of waterproof electric-shock-resistant socket and insert row.

Background technology

For the ease of electricity consumption, insert row particularly has the insert row of waterproof, electroshock-proof function, day by day become people's productive life can not be scarce device, yet, in current insert row, its complex structure, be not easy to manufacture, meanwhile, when it damages, because of internal structure complexity, and the modes such as most employing is spirally connected, welding are fixed, return maintenance and brought inconvenience, cause use cost higher, to productive life, brought inconvenience.

In addition, there is in the market a kind of waterproof, Anti-electric-shock power socket, owing to being confined to internal structure, insertion that can only corresponding a kind of plug, be only suitable for inserting a kind of plug, other various plugs cannot be suitable for, and main because this product also just connects that a kind of plug size structurally designs in design, and cannot change the power line of different size.

In view of this, the design people, according to the Production design experience of being engaged in for many years this area and association area, develops a kind of waterproof electric-shock-resistant socket and insert row, the problem existing to solving prior art.

Utility model content

The purpose of this utility model is to be to provide a kind of waterproof electric-shock-resistant socket and insert row, have good waterproof, anti-leakage function, its structure is convenient to manufacture, and can be applicable to the use of various plugs, reduce use and maintenance cost, overcome the defect of prior art.

For this reason, the utility model proposes a kind of waterproof electric-shock-resistant socket, it includes:

Insulation shell, its top is opening shape, described insulation shell includes a base plate, two first risers and two second risers, described in two between the first riser, described in two, between the second riser, be and be oppositely arranged respectively, in described insulation shell, be provided with an insulation riser, described insulation riser and described the second riser are set in parallel, its inner chamber by described insulation shell is divided into two cavity volumes, in described cavity volume, be provided with an embeded slot, described embeded slot is positioned on described base plate, and described base plate is separately provided with the osculum being connected with described embeded slot;

Two conductive contact blades, described conductive contact blade takes the shape of the letter U, its correspondence is placed in described cavity volume, and be embedded in described embeded slot, the corresponding medial surface near the first riser described in two of dual-side of described conductive contact blade, its bottom is provided with an apopore, and described apopore is relative with the position of described osculum;

Two connect guide card, correspondence is positioned on the inner surface of the first riser described in two, described connection guide card includes a location conducting strip, in one, connect electroconductive elastic sheet and an external electroconductive elastic sheet, the lateral surface of described location conducting strip and the inner surface of described the first riser fit, the lower limb that connects electroconductive elastic sheet and external electroconductive elastic sheet in described is connected with the lower limb of described location conducting strip respectively, both correspondences be positioned at two described in cavity volume, and conductive contact blade is adjacent relatively and described in two, the inner surface that connects electroconductive elastic sheet in described is provided with an insulation lamellar body, its outer surface is provided with conductive contact, the corresponding through hole wearing for described conductive contact that is provided with on described location conducting strip and the first riser,

Wherein described in one, connect guide card in connect electroconductive elastic sheet and be and be oppositely arranged with the external electroconductive elastic sheet that is connected guide card described in another, the external electroconductive elastic sheet that wherein connects guide card described in one with described in another, be connected guide card in connect electroconductive elastic sheet and be and be oppositely arranged, when the upper shed of described conductive contact blade outwards struts, in described in the corresponding pressing of its dual-side, connect electroconductive elastic sheet and described insulation lamellar body, and make described conductive contact protrude out described through hole.

Waterproof electric-shock-resistant socket as above, wherein, upper shed place of described conductive contact blade is further provided with two elastic conduction bending parts, and described in two, the corresponding connection of dual-side of elastic conduction bending part and described conductive contact blade, is formed with a gap between elastic conduction bending part described in two.

Waterproof electric-shock-resistant socket as above, wherein, described elastic conduction bending part includes a lower piece, median plate body and upper piece, described lower piece is tilted to lower setting, its upper end is connected with the top edge of described conductive contact blade, its lower end is connected to the lower end of described median plate body, described median plate body and described lower piece are set in parallel, its upper end protrudes out the upper shed of described conductive contact blade, and be connected with the upper end of described upper piece, the lower end of described upper piece is positioned at the side outside of described metal lamellar body.

Waterproof electric-shock-resistant socket as above, wherein, described elastic conduction bending part and described conductive contact blade are one-body molded, and by conduction arc portion, join respectively between described median plate body and described upper piece and lower piece, between described lower piece and the top edge of described conductive contact blade.

Waterproof electric-shock-resistant socket as above, wherein, in described conductive contact blade, be further embedded and be fixed with the second conductive contact blade, described the second conductive contact blade takes the shape of the letter U, its side inwardly convexes with contact portion, the bottom of described the second conductive contact blade is provided with water flow hole, and described water flow hole is corresponding with the position of described apopore.

Waterproof electric-shock-resistant socket as above, wherein, the sidewall of described insulation riser upper end and described in each, between the first riser, be formed with middle part bayonet socket, the sidewall of described the second riser upper end and be formed with end bayonet socket between the first riser described in each, described connection guide card two ends correspondence is embedded at bayonet socket place in end described in two, and its middle part correspondence is embedded in the bayonet socket of described middle part.

Waterproof electric-shock-resistant socket as above, wherein, the side of described conductive contact blade is provided with shell fragment at the position convex near its bottom, and the corresponding recess that forms of the sidewall of described embeded slot, the corresponding clip of described shell fragment is in recess.

Waterproof electric-shock-resistant socket as above, wherein, described base plate, described the first riser, the second riser and insulation riser are formed in one, or, between described base plate and described the first riser and the second riser, between described insulation riser and described base plate, splicing is fixed respectively.

The utility model also proposes a kind of waterproof electric-shock-resistant insert row, and it includes:

One insulator foot, on described insulator foot, broad ways is provided with two groups of fitting portions side by side, described fitting portion comprises at least two location notchs that are arranged in order along described insulator foot length direction, in the same way, the bottom of described location notch is provided with water hole for the length direction of described location notch and the length direction of described insulator foot;

One insulation cover plate, the lid that described insulation cover plate can be separated is located on described insulator foot;

A plurality of above-mentioned waterproof electric-shock-resistant sockets, described in each, waterproof electric-shock-resistant socket correspondence is embedded described in each in location notch, and the first riser of described waterproof electric-shock-resistant socket is placed along the length direction of described insulator foot;

One first conducting strip, described the first conducting strip takes the shape of the letter U, it is embedded on described insulator foot, and with waterproof electric-shock-resistant socket described in each in adjacent near the lateral surface of described first riser of described insulator foot lateral wall;

One second conducting strip, described the second conducting strip takes the shape of the letter U, it is embedded on described insulator foot, and with waterproof electric-shock-resistant socket described in each in adjacent away from the lateral surface of described first riser of described insulator foot lateral wall;

Wherein, described insulation cover plate is provided with jack in the position of the upper shed corresponding to conductive contact blade described in each, and the front end of described the first conducting strip and the second conducting strip is openend, and towards the front end of described insulator foot.

Waterproof electric-shock-resistant insert row as above, wherein, described insulator foot is formed with two holding parts side by side in the position between fitting portion described in two, described holding part is along the length direction setting of described insulator foot, its described in corresponding adjacent two location notch in internal interval, be embedded with at least two ground connection conductive contact blades, described ground connection conductive contact blade is corresponding with the quantity of described location notch, described ground connection conductive contact blade is U-shaped, its upper end is openend, and the top edge of described ground connection conductive contact blade dual-side is inwardly formed with respectively protruding contact;

Wherein, on described insulator foot, be separately provided with the 3rd conducting strip, described the 3rd conducting strip be positioned at two described between holding part, it is along the length direction setting of described insulator foot, and can contact with a side of ground connection conductive contact blade described in each, described insulation cover plate is provided with the second jack corresponding to the openend of ground connection conductive contact blade described in each.

Waterproof electric-shock-resistant insert row as above, wherein, the front end of described insulator foot is separately provided with an interstar connection room, in described interstar connection room, be provided with an insulating joint, described insulating joint is concaved with a connecting groove along the length direction of described insulator foot, the notch of described connecting groove is positioned on the front end end face of described insulator foot, on its bottom land, along equilateral triangle distribution upper jack, first time jack and second time jack, in described upper jack, first time jack and second time jack, correspondence is embedded with the upper inserted sheet that can conduct electricity, first time inserted sheet and second time inserted sheet;

Wherein, the further bending in one end of described the first conducting strip is formed with one first linkage section, described the first linkage section is connected with described first time inserted sheet, one end bending of described the second conducting strip is formed with the second linkage section, described the second linkage section is connected with described second time inserted sheet, and the front end of described the 3rd conducting strip is connected with described upper inserted sheet.

Waterproof electric-shock-resistant insert row as above, wherein, described insulating joint is provided with a draw-in groove at the rear side adjacent to described bottom land, described draw-in groove is along vertical setting, its inner chimeric insulation insertion plate that has, described insulation insertion plate correspondence is pressed together on described first time inserted sheet and second time inserted sheet, and the lower surface of described insulation insertion plate is along the vertical location notch that is separately provided with, and described upper inserted sheet correspondence is embedded in described location notch.

Waterproof electric-shock-resistant insert row as above, wherein, in described insulator foot, be provided with the first insulation riser and two symmetrically arranged the second insulation risers, described the first insulation riser is along the Width setting of described insulator foot, between the front end of itself and described insulator foot, be formed with described interstar connection room, described in two, the second insulation riser is along the length direction setting of described insulator foot, and along the Width of described insulator foot, be uniformly distributed fitting portion described in corresponding formation one between the lateral wall of the second insulation riser and adjacent described insulator foot described in each;

Length direction along described insulator foot in described fitting portion is provided with at least two vertical plate parts successively, described vertical plate part is corresponding with the quantity of described location notch, it includes two inner vertical plates, described inner vertical plate parallels with described the first insulation riser, described in two, inner vertical plate arranges along the length direction interval of described insulator foot, be formed with one between the two described in location notch;

Between the outward flange of described inner vertical plate upper end and the lateral wall of described insulating body, be formed with outside fix gap, itself and described the second insulation are formed with interior location gap between riser, described the first conducting strip correspondence is determined in gap outside being embedded described in each, and described the second conducting strip correspondence is located in gap in being embedded described in each;

Wherein, described the first insulation riser is provided with the first bayonet socket corresponding to one end of described the first conducting strip, and its one end corresponding to described the second conducting strip is provided with the second bayonet socket, and its front end corresponding to described the 3rd conducting strip is provided with the 3rd bayonet socket.

Waterproof electric-shock-resistant insert row as above, wherein, described in two, between the second insulation riser, erect and have a middle part insulating barrier, described middle part insulating barrier is along the length direction setting of described insulator foot, holding part described in forming one respectively between the second insulation riser described in itself and each, in described holding part, be interval with at least two accommodating caulking grooves, described in each, accommodating caulking groove is corresponding with location notch described in adjacent each, and near described location notch medium position along its length, in described accommodating caulking groove, be embedded with described ground connection conductive contact blade, wherein, the both sides of described middle part insulating barrier are respectively equipped with a location riser in the position corresponding to accommodating caulking groove described in each, respectively be oppositely arranged two described in locate and between riser, form a caulking groove,

Wherein, described in each, caulking groove place is respectively equipped with a grounding connection conductive contact blade, described grounding connection conductive contact blade correspondence is located on riser described in being fastened on two, it includes a location division, top and the corresponding two L shaped legs of locating riser outside described in each that are fitted in, the centre of location division, described top is formed with a recess, the shape of described recess and described caulking groove matches, and correspondence is embedded in described caulking groove, and L shaped leg is symmetrical set described in two, described in two, the upper end correspondence of L shaped leg is connected in the two ends of location division, described top, both bottoms are positioned at the bottom side of ground connection conductive contact blade described in corresponding two, and contact with described ground connection conductive contact blade,

Wherein, described the 3rd conducting strip correspondence is embedded the recess place that is positioned at grounding connection contact described in each.

Waterproof electric-shock-resistant insert row as above, wherein, on described insulator foot, in the position corresponding to the second insulation riser rear end described in two, be provided with rear end insulation riser, described in the leading flank and two of described rear end insulation riser, between the second insulation riser, be formed with respectively front end bayonet socket, between its trailing flank and the rear end of described insulator foot, be formed with rear end bayonet socket, the rear end of described the first conducting strip is embedded in the bayonet socket of described rear end, and described the second conducting strip is embedded in described front end bayonet socket.

The waterproof electric-shock-resistant socket that the utility model provides, has good have waterproof, electroshock-proof function, is applicable to various home electric appliance plugs, easy to use; Because portion does not within it have pad, do not use screw, without spring, do not use instrument just can complete installation, not only easy to assembly, and reduced the generation of fault, be easy to promote.

The waterproof electric-shock-resistant insert row the utility model proposes, when specific works, in connecting groove in insulating joint, insert female, the use of can powering, it is by arranging waterproof electric-shock-resistant socket, there is good have waterproof, electroshock-proof function, be applicable to various home electric appliance plugs, easy to use; By waterproof electric-shock-resistant socket, the first conducting strip, the second conducting strip and the 3rd conducting strip, with the mode group of pegging graft, be located on insulator foot, production process is easy, and technique is simple, easy to process, and is convenient to maintenance use.

Accompanying drawing explanation

The following drawings is only intended to the utility model to schematically illustrate and explain, does not limit scope of the present utility model.Wherein:

Fig. 1 is the perspective exploded view of waterproof electric-shock-resistant socket of the present utility model.

Fig. 2 is the three-dimensional installation diagram of waterproof electric-shock-resistant socket of the present utility model.

Fig. 3 is the schematic perspective view of the insulation shell in waterproof electric-shock-resistant socket of the present utility model.

Fig. 4 is the vertical view of the insulation shell in waterproof electric-shock-resistant socket of the present utility model.

Fig. 5 is the assembled state schematic diagram of conductive contact blade, elastic conduction bending part and the second conductive contact blade in waterproof electric-shock-resistant socket of the present utility model.

Fig. 6 is the perspective exploded view of waterproof electric-shock-resistant insert row of the present utility model.

Fig. 7 is the three-dimensional installation diagram of waterproof electric-shock-resistant insert row of the present utility model, for knowing, embodies internal structure, not shown insulation cover plate.

Fig. 8 is the schematic perspective view of insulator foot in waterproof electric-shock-resistant insert row of the present utility model.

Fig. 9 is the floor map of insulator foot in waterproof electric-shock-resistant insert row of the present utility model.

Figure 10 is the sectional perspective schematic diagram of insulator foot front end in waterproof electric-shock-resistant insert row of the present utility model.

Main element label declaration:

1 waterproof electric-shock-resistant socket 11 insulation shells

111 base plate 112 first risers

113 second riser 114 insulation risers

115 cavity volume 116 embeded slots

117 middle part bayonet socket 118 end bayonet sockets

111a osculum

12 conductive contact blade 120 sides

121 apopore 122 shell fragments

13 connect guide card 131 location conducting strips

In 132, connect the external electroconductive elastic sheet of electroconductive elastic sheet 133

134 insulation lamellar body 135 conductive contacts

112a/131a through hole

14 elastic conduction bending part 141 lower pieces

142 median plate body 143 upper pieces

144 conduction arc portions

15 second conductive contact blade 151 contact portions

152 water flow hole H gaps

2 insulator foot 201 fitting portions

201a location notch 202 holding parts

202a ground connection conductive contact blade 203 interstar connection rooms

204 insulating joints

205 connecting grooves

First time jack of the upper jack 205b of 205a

The upper inserted sheet of second time jack 206a of 205c

Second time inserted sheet of first time inserted sheet 206c of 206b

207 draw-in groove 208 insulation insertion plates

2081 location notchs

21 first insulation riser 211 first bayonet sockets

212 second bayonet socket 213 the 3rd bayonet sockets

22 second insulation risers

23 inner vertical plate 231 outside fix gap

232 interior location gap 24 rear end insulation risers

241 front end bayonet socket 242 rear end bayonet sockets

The accommodating caulking groove of 25 middle part insulating barrier 26

27 location riser 271 caulking grooves

28 grounding connection conductive contact blade 281 location divisions, top

The L shaped leg of 2811 recess 282

3 insulation cover plate 31 jacks

32 second jacks

4 first conducting strip 41 first linkage sections

5 second conducting strip 51 second linkage sections

6 the 3rd conducting strips

Embodiment

For technical characterictic of the present utility model, object and effect being had more clearly, understand, below in conjunction with accompanying drawing and preferred embodiment, embodiment, structure, feature and effect to the waterproof electric-shock-resistant socket the utility model proposes and insert row, be described in detail as follows.In addition, by the explanation of embodiment, when can be to reach technological means and the effect that predetermined object takes more to be goed deep into concrete understanding to the utility model, however institute's accompanying drawing be only to provide with reference to and explanation use, be not used for the utility model to be limited.

Fig. 1 is the perspective exploded view of waterproof electric-shock-resistant socket of the present utility model.Fig. 2 is the three-dimensional installation diagram of waterproof electric-shock-resistant socket of the present utility model.Fig. 3 is the schematic perspective view of the insulation shell in waterproof electric-shock-resistant socket of the present utility model.Fig. 4 is the vertical view of the insulation shell in waterproof electric-shock-resistant socket of the present utility model.Fig. 5 is the assembled state schematic diagram of conductive contact blade, elastic conduction bending part and the second conductive contact blade in waterproof electric-shock-resistant socket of the present utility model.

As shown in Figure 1 and Figure 2, the waterproof electric-shock-resistant socket 1 the utility model proposes, it includes insulation shell 11, two conductive contact blades 12, two connect guide card 13, wherein:

Please also refer to Fig. 3 and Fig. 4, the top of described insulation shell 11 is opening shape, it includes a base plate 111, two first risers 112 and two second risers 113, described in two between the first riser 112, described in two, between the second riser 113, be and be oppositely arranged respectively, this insulation shell 11 is arranged alternately on base plate 111 successively by each first riser 112 and the second riser 113, and end to end enclosing forms, in described insulation shell 11, be provided with an insulation riser 114, described insulation riser 114 is set in parallel with described the second riser 113, its inner chamber by described insulation shell 11 is divided into two cavity volumes 115, in described cavity volume 115, be provided with an embeded slot 116, described embeded slot 116 is positioned on described base plate 111, described base plate 111 is separately provided with the osculum 111a being connected with described embeded slot, as shown in the figure, this insulation shell 11 is preferably a cuboid, its upper end is opening shape,

As shown in Figure 1, described conductive contact blade 12 takes the shape of the letter U, its correspondence is placed in described cavity volume 115, and be embedded in described embeded slot 116, the corresponding medial surface near the first riser 112 described in two of dual-side 120 of described conductive contact blade 12, its bottom is provided with an apopore 121, and described apopore 121 is relative with the position of described osculum 111a;

Described connection guide card 13 correspondences are positioned on the inner surface of described the first riser 112, it includes a location conducting strip 131, in one, connect electroconductive elastic sheet 132 and an external electroconductive elastic sheet 133, the lateral surface of described location conducting strip 131 and the inner surface of described the first riser 112 fit, the lower limb that connects electroconductive elastic sheet 132 and external electroconductive elastic sheet 133 in described is connected with the lower limb of described location conducting strip 131 respectively, both correspondences be positioned at two described in cavity volume 115, and conductive contact blade 12 is adjacent relatively and described in two, the inner surface that connects electroconductive elastic sheet 132 in described is provided with an insulation lamellar body 134, its outer surface is provided with conductive contact 135, the corresponding through hole 131a wearing for described conductive contact 135 that is provided with on described location conducting strip 131 and the first riser 112, 112a,

Wherein described in one, connect guide card 13 in connect electroconductive elastic sheet 132 and be and be oppositely arranged with the external electroconductive elastic sheet 133 that is connected guide card 13 described in another, both are positioned at a wherein cavity volume 115 relatively; And the external electroconductive elastic sheet 133 that wherein connects guide card 13 described in described in another, be connected guide card 13 in connect electroconductive elastic sheet 132 and be and be oppositely arranged, be that both are positioned at another cavity volume 115 relatively, when the upper shed of described conductive contact blade 12 outwards struts, in described in the corresponding pressing of its dual-side, connect electroconductive elastic sheet 132 and described insulation lamellar body 134, and make described conductive contact 135 protrude out described through hole 131a, 112a.In other words, as shown in the figure, described in two, connect guide card and with centrosymmetric mode correspondence, be arranged on the inner side of the first riser 112 described in two.When the upper shed of described conductive contact blade 12 outwards struts, the corresponding pressing of its dual-side wherein described in one described connection guide card 13 in the described insulation lamellar body 134 that connects electroconductive elastic sheet 132 and connect guide card 13 described in another, and make the described conductive contact 135 that connects guide card 13 described in another protrude out described through hole 131a, 112a.

As shown in Figure 1 and Figure 2, when concrete use, outside correspondence at the first riser 112 described in two arranges after neutral wire conductive, live wire conductive, when two plug terminals of attaching plug are corresponding, insert after the upper shed of conductive contact blade 12 described in two, each plug terminal correspondence struts the dual-side of each conductive contact blade 12, conductive contact described in each 135 is protruded out to described through hole 131a, 112a by each conductive contact blade 12, and correspondence is electrically connected to neutral wire conductive, live wire conductive, thus, realize the power supply to attaching plug.

It is worth mentioning that, at waterproof electric-shock-resistant socket of the present utility model, by conductive contact blade 12 and the structure that is connected guide card 13 cooperations are set, utilize the cut-off point (being insulating point) forming between the insulation lamellar body 134 of external electroconductive elastic sheet 133 inner sides and conductive contact blade 12, with the conductive contact 135 of external electroconductive elastic sheet 133 that connects guide card 13 by each after electric connection, in it, connect electroconductive elastic sheet 132 for the feature of another conductive contact blade 12 power supplies, while making two conductive contact blades 12 must work (strutting) simultaneously, could realize the electric connection state of whole waterproof electric-shock-resistant socket, therefore:

When an electric conductor (as iron nail) inserts wherein a conductive contact blade 12, these conductive contact blade 12 expansions, one side and insulation lamellar body 134 contacts that are connected guide card 13, now non-conductive, its opposite side be connected with another guide card 13 in connect electroconductive elastic sheet 132 contact, because another external electroconductive elastic sheet 132 that connects guide card 13 is not softened, in off-state, now there is no Danger Electric shock risk.As a same reason, when people's finger inserts, wherein in a conductive contact blade 12, can there is not Danger Electric shock risk yet, thereby there is good electroshock-proof function;

In addition, when current are splashed into accidentally or flow into waterproof electric-shock-resistant socket, now due to conductive contact blade 12 in the raw, be connected guide card 13 contact, therefore insulate, the situation of can not leaking electricity; When as too drastic in current, can discharge through apopore 121, osculum 111a, avoid current to flow into neutral wire conductive, the live wire conductive in waterproof electric-shock-resistant socket outside, thereby played waterproof action.

The waterproof electric-shock-resistant socket above-mentioned known, the utility model provides, easy to assembly, because portion does not within it have pad, do not use screw, without spring, do not use instrument just can complete installation, not only easy to assembly, reduce the generation of fault, be easy to promote, and there is good have waterproof, electroshock-proof function, be applicable to various home electric appliance plugs, easy to use.

Preferably, refer to Fig. 5, upper shed place of described conductive contact blade 12 is further provided with two elastic conduction bending parts 14, the corresponding connection of dual-side of elastic conduction bending part 14 and described conductive contact blade 12 described in two, described in two, between elastic conduction bending part 14, be formed with a gap H, for corresponding insertion of plug terminal of attaching plug.By elastic conduction bending part is set, when the plug terminal of attaching plug inserts in gap, can correspondingly push two elastic conduction bending parts, and by compressing elastic conduction bending part, strut the upper shed of conductive contact blade, not only make plug terminal easily insert, and guarantee to have better conductive effect.

Further, described elastic conduction bending part 14 includes a lower piece 141, median plate body 142 and upper piece 143, described lower piece 141 is tilted to lower setting, its upper end is connected with the top edge of described conductive contact blade 12, its lower end is connected to the lower end of described median plate body 142, described median plate body 142 is set in parallel with described lower piece 143, its upper end protrudes out the upper shed of described conductive contact blade 12, and be connected with the upper end of described upper piece 143, the lower end of described upper piece 143 is positioned at side 120 outsides of described metal lamellar body 12.

Wherein, described elastic conduction bending part 14 is one-body molded with described conductive contact blade 12, and by conducting electricity arc portion 144, joins respectively between described median plate body 142 and described upper piece 143 and lower piece 141, between described lower piece 141 and the top edge of described conductive contact blade 12.

As shown in Figure 1, shown in Figure 5, in described conductive contact blade 12, be further embedded and be fixed with the second conductive contact blade 15, described the second conductive contact blade 15 takes the shape of the letter U, its side inwardly convexes with contact portion 151, the bottom of described the second conductive contact blade 15 is provided with water flow hole 152, and described water flow hole 152 is corresponding with the position of described apopore 121.Thus, described conductive contact blade and the second conductive contact blade form double-decker, have increased the contact area with the plug terminal of attaching plug.

The fastness of installing in order to improve location conducting strip, preferably at the sidewall of described insulation riser 114 upper ends and described in each, between the first riser 112, be formed with middle part bayonet socket 117, the sidewall of described the second riser 113 upper ends and be formed with end bayonet socket 118 between the first riser 112 described in each, described connection guide card 13 two ends correspondences are embedded at bayonet socket 118 places in end described in two, and its middle part correspondence is embedded in described middle part bayonet socket 117.

In addition, as shown in Figure 5, in order to improve the steadiness between conductive contact blade and embeded slot, also can at the position convex near its bottom, be provided with shell fragment 122 at the side 120 of described conductive contact blade 12, and the corresponding recess (not shown) that forms of the sidewall of described embeded slot makes the corresponding clip of described shell fragment 122 in recess.

When concrete making, as shown in the figure, preferred described base plate 111, described the first riser 112, the second riser 113 and insulation riser 114 are formed in one.Certainly, in practical application, be not limited to this, such as, between described base plate 111 and described the first riser 112 and the second riser 113, between described insulation riser 114 and described base plate 111, glued joint respectively fixing.

Fig. 6 is the perspective exploded view of waterproof electric-shock-resistant insert row of the present utility model.Fig. 7 is the three-dimensional installation diagram of waterproof electric-shock-resistant insert row of the present utility model, for knowing, embodies internal structure, not shown insulation cover plate.Fig. 8 is the schematic perspective view of insulator foot in waterproof electric-shock-resistant insert row of the present utility model.Fig. 9 is the floor map of insulator foot in waterproof electric-shock-resistant insert row of the present utility model.Figure 10 is the sectional perspective schematic diagram of insulator foot front end in waterproof electric-shock-resistant insert row of the present utility model.

As Fig. 6, shown in Fig. 7, the utility model also proposes a kind of waterproof electric-shock-resistant insert row, it includes a plurality of above-mentioned waterproof electric-shock-resistant sockets 1, one insulator foot 2, one insulation cover plate 3, one first conducting strip 4 and one second conducting strip 5, wherein, on described insulator foot 2, broad ways is provided with two groups of fitting portions 201 side by side, described fitting portion comprises at least two location notch 201a that are arranged in order along described insulator foot length direction, the length direction of the length direction of described location notch 20a and described insulator foot 2 in the same way, the bottom of described location notch 201a is provided with water hole (not shown), the separated lid of described insulation cover plate 3 energy is located on described insulator foot 2, described in each, waterproof electric-shock-resistant socket 1 correspondence is embedded described in each in location notch 201a, and the first riser 112 of described waterproof electric-shock-resistant socket 1 is placed along the length direction of described insulator foot 2, described the first conducting strip 4 takes the shape of the letter U, and it is embedded on described insulator foot 2, and with waterproof electric-shock-resistant socket 1 described in each in adjacent near the lateral surface of described first riser 112 of described insulator foot lateral wall, described the second conducting strip 5 takes the shape of the letter U, and it is embedded on described insulator foot 2, and with waterproof electric-shock-resistant socket 1 described in each in adjacent away from the lateral surface of described first riser 112 of described insulator foot 2 lateral walls,

Wherein, described insulation cover plate 3 is provided with jack 31 in the position of the upper shed corresponding to conductive contact blade described in each 12, and described the first conducting strip 4, the second conducting strip 5 front ends are openend, and towards the front end of described insulator foot 2.

Referring to Fig. 8 to Fig. 9, the position of described insulator foot 2 between fitting portion described in two 201 is formed with two holding parts 202 side by side, described holding part 202 is along the length direction setting of described insulator foot 2, its described in corresponding adjacent two location notch 201a in internal interval, be embedded with at least two ground connection conductive contact blade 202a, described ground connection conductive contact blade 202a is corresponding with the quantity of described location notch 201a, described ground connection conductive contact blade 201a is U-shaped, its upper end is openend, and the top edge of described ground connection conductive contact blade 202a dual-side is inwardly formed with respectively protruding contact;

Wherein, on described insulator foot 2, be separately provided with the 3rd conducting strip 6, described the 3rd conducting strip 6 be positioned at two described between holding part 202, it is along the length direction setting of described insulator foot 2, and can contact with a side of ground connection conductive contact blade 202a described in each, described insulation cover plate 3 is provided with the second jack 32(corresponding to the openend of ground connection conductive contact blade 202a described in each and refers to Fig. 6, Fig. 7).Thus, by described holding part, ground connection conductive contact blade and the 3rd conducting strip are set, the utility model can be applicable to 3-phase plug,, for having the attaching plug of three plug terminals, has expanded range of application.

In addition, in illustrated structure, the front end of described insulator foot 2 is separately provided with an interstar connection room 203, in described interstar connection room 203, be provided with an insulating joint 204, described insulating joint 204 is concaved with a connecting groove 205 along the length direction of described insulator foot 2, the notch of described connecting groove 205 is positioned on the front end end face of described insulator foot 2, jack 205a on distributing along equilateral triangle on its bottom land, first time jack 205b and second time jack 205c, described upper jack 205a, the corresponding upper inserted sheet 206a that can conduct electricity that is embedded with in first time jack 205b and second time jack 205c, first time inserted sheet 206b and second time inserted sheet 206c (concrete structure refers to Figure 10),

Wherein, the further bending in one end of described the first conducting strip 4 is formed with one first linkage section 41, described the first linkage section 41 is connected with described first time inserted sheet 205b, one end bending of described the second conducting strip 5 is formed with the second linkage section 51, described the second linkage section 51 is connected with described second time inserted sheet 205c, and the front end of described the 3rd conducting strip 6 is connected with described upper inserted sheet 206a.

As shown in Figures 6 to 9, described insulating joint 204 is provided with a draw-in groove 207 at the rear side adjacent to described bottom land, described draw-in groove 207 is along vertical setting, its inner chimeric insulation insertion plate 208 that has, described insulation insertion plate 208 correspondences are pressed together on described first time inserted sheet 206b and second time inserted sheet 206c, and the lower surface of described insulation insertion plate 208 is along the vertical location notch 2081 that is separately provided with, described upper inserted sheet 206a correspondence is embedded in described location notch 2081, the clamping location structure that utilizes draw-in groove and insulation insertion plate to match, to avoid upper inserted sheet 206a, first time inserted sheet 206b and second time inserted sheet 206c are when frequent use, occur loosening, the situations such as loose contact.

Be preferred embodiment, in described insulator foot 2, be provided with the first insulation riser 21 and two symmetrically arranged the second insulation risers 22, described the first insulation riser 21 is along the Width setting of described insulator foot 2, between the front end of itself and described insulator foot 2, be formed with described interstar connection room 203, described in two, the second insulation riser 22 is along the length direction setting of described insulator foot 2, and along the Width of described insulator foot 2, be uniformly distributed fitting portion 201 described in corresponding formation one between the lateral wall of the second insulation riser 22 and adjacent described insulator foot 2 described in each;

The interior length direction along described insulator foot 2 of described fitting portion 201 is provided with at least two vertical plate parts successively, described vertical plate part is corresponding with the quantity of described location notch 201a, it includes two inner vertical plates 23, described inner vertical plate 23 parallels with described the first insulation riser 21, described in two, inner vertical plate 23 arranges along the length direction interval of described insulator foot 2, be formed with one between the two described in location notch 201a;

Between the outward flange of described inner vertical plate 23 upper ends and the lateral wall of described insulating body 2, be formed with outside fix gap 231, itself and described the second insulation are formed with interior location gap 232 between riser 22, described the first conducting strip 4 correspondences are determined in gap 231 outside being embedded described in each, described the second conducting strip 5 correspondences are located in gap 232 in being embedded described in each, wherein, described the first insulation riser 21 is provided with the first bayonet socket 211 corresponding to one end of described the first conducting strip 4, its one end corresponding to described the second conducting strip 5 is provided with the second bayonet socket 212, its front end corresponding to described the 3rd conducting strip 6 is provided with the 3rd bayonet socket 213, for the first conducting strip 4, the second conducting strip 5 and the 3rd conducting strip 6 correspondences wear.

In addition, as Fig. 8, shown in Fig. 9, described in two, between the second insulation riser 22, erect and have a middle part insulating barrier 25, described middle part insulating barrier 25 is along the length direction setting of described insulator foot 2, holding part 202 described in forming one respectively between the second insulation riser 22 described in itself and each, in described holding part 202, be interval with at least two accommodating caulking grooves 26, described in each, accommodating caulking groove 26 is corresponding with location notch 201a described in adjacent each, and near described location notch 201a medium position along its length, in described accommodating caulking groove 26, be embedded with described ground connection conductive contact blade 202a, wherein, the both sides of described middle part insulating barrier 25 are respectively equipped with a location riser 27 in the position corresponding to accommodating caulking groove 26 described in each, respectively be oppositely arranged two described in locate and between riser 27, form a caulking groove 271, described in each, caulking groove 271 places are respectively equipped with a grounding connection conductive contact blade 28,

Described grounding connection conductive contact blade 28 correspondences are located on riser 27 described in being fastened on two, it includes a location division, top 281 and the corresponding two L shaped legs 282 of locating riser 27 outsides described in each that are fitted in, the centre of location division, described top 281 is formed with a recess 2811, described recess 2811 matches with the shape of described caulking groove 271, and correspondence is embedded in described caulking groove 271, and L shaped leg 282 is symmetrical set described in two, described in two, the upper end correspondence of L shaped leg is connected in the two ends of location division, described top 281, both bottoms are positioned at the bottom side of ground connection conductive contact blade 202a described in corresponding two, and contact with described ground connection conductive contact blade 202a, described the 3rd conducting strip 6 correspondences are embedded recess 2811 places that are positioned at grounding connection contact 28 described in each.As shown in Figure 6, this grounding connection conductive contact blade 28 is " several " character form structure, and correspondence locates on riser 27 described in being fastened on two, to improve the electric conductivity between described the 3rd conducting strip 6 and described ground connection conductive contact blade 202a.

In order to improve the first conducting strip, the second conducting strip assembling time is stability, on described insulator foot 2, in the position corresponding to the second insulation riser 22 rear ends described in two, be provided with rear end insulation riser 24, described in the leading flank and two of described rear end insulation riser 24, between the second insulation riser 22, be formed with respectively front end bayonet socket 241, between the rear end of its trailing flank and described insulator foot 2, be formed with rear end bayonet socket 242, the rear end of described the first conducting strip 4 is embedded in described rear end bayonet socket 241, and described the second conducting strip 5 is embedded in described front end bayonet socket 242.

The waterproof electric-shock-resistant insert row the utility model proposes, when specific works, in connecting groove in insulating joint, insert female, the use of can powering, it is by arranging waterproof electric-shock-resistant socket, there is good have waterproof, electroshock-proof function, be applicable to various home electric appliance plugs, easy to use; By waterproof electric-shock-resistant socket, the first conducting strip, the second conducting strip and the 3rd conducting strip, with the mode group of pegging graft, be located on insulator foot, production process is easy, technique is simple, easy to process, because portion does not within it have pad, do not use screw, without spring, reduce the generation of fault, and be convenient to maintenance use.

The foregoing is only the schematic embodiment of the utility model, not in order to limit scope of the present utility model.Any those skilled in the art, is not departing from equivalent variations and the modification of doing under the prerequisite of design of the present utility model and principle, all should belong to the scope of the utility model protection.

Claims (16)

1. a waterproof electric-shock-resistant socket, is characterized in that, described waterproof electric-shock-resistant socket includes:

Insulation shell, its top is opening shape, described insulation shell includes a base plate, two first risers and two second risers, described in two between the first riser, described in two, between the second riser, be and be oppositely arranged respectively, in described insulation shell, be provided with an insulation riser, described insulation riser and described the second riser are set in parallel, its inner chamber by described insulation shell is divided into two cavity volumes, in described cavity volume, be provided with an embeded slot, described embeded slot is positioned on described base plate, and described base plate is separately provided with the osculum being connected with described embeded slot;

Two conductive contact blades, described conductive contact blade takes the shape of the letter U, its correspondence is placed in described cavity volume, and be embedded in described embeded slot, the corresponding medial surface near the first riser described in two of dual-side of described conductive contact blade, its bottom is provided with an apopore, and described apopore is relative with the position of described osculum;

Two connect guide card, correspondence is positioned on the inner surface of the first riser described in two, described connection guide card includes a location conducting strip, in one, connect electroconductive elastic sheet and an external electroconductive elastic sheet, the lateral surface of described location conducting strip and the inner surface of described the first riser fit, the lower limb that connects electroconductive elastic sheet and external electroconductive elastic sheet in described is connected with the lower limb of described location conducting strip respectively, both correspondences be positioned at two described in cavity volume, and conductive contact blade is adjacent relatively and described in two, the inner surface that connects electroconductive elastic sheet in described is provided with an insulation lamellar body, its outer surface is provided with conductive contact, the corresponding through hole wearing for described conductive contact that is provided with on described location conducting strip and the first riser,

Wherein described in one, connect guide card in connect electroconductive elastic sheet and be and be oppositely arranged with the external electroconductive elastic sheet that is connected guide card described in another, the external electroconductive elastic sheet that wherein connects guide card described in one with described in another, be connected guide card in connect electroconductive elastic sheet and be and be oppositely arranged, when the upper shed of described conductive contact blade outwards struts, in described in the corresponding pressing of its dual-side, connect electroconductive elastic sheet and described insulation lamellar body, and make described conductive contact protrude out described through hole.

2. waterproof electric-shock-resistant socket as claimed in claim 1, it is characterized in that, upper shed place of described conductive contact blade is further provided with two elastic conduction bending parts, described in two, the corresponding connection of dual-side of elastic conduction bending part and described conductive contact blade, is formed with a gap between elastic conduction bending part described in two.

3. waterproof electric-shock-resistant socket as claimed in claim 2, it is characterized in that, described elastic conduction bending part includes a lower piece, median plate body and upper piece, described lower piece is tilted to lower setting, its upper end is connected with the top edge of described conductive contact blade, its lower end is connected to the lower end of described median plate body, described median plate body and described lower piece are set in parallel, its upper end protrudes out the upper shed of described conductive contact blade, and be connected with the upper end of described upper piece, the lower end of described upper piece is positioned at the side outside of described metal lamellar body.

4. waterproof electric-shock-resistant socket as claimed in claim 3, it is characterized in that, described elastic conduction bending part and described conductive contact blade are one-body molded, and by conduction arc portion, join respectively between described median plate body and described upper piece and lower piece, between described lower piece and the top edge of described conductive contact blade.

5. the waterproof electric-shock-resistant socket as described in claim 1 to 4 any one, it is characterized in that, in described conductive contact blade, be further embedded and be fixed with the second conductive contact blade, described the second conductive contact blade takes the shape of the letter U, its side inwardly convexes with contact portion, the bottom of described the second conductive contact blade is provided with water flow hole, and described water flow hole is corresponding with the position of described apopore.

6. waterproof electric-shock-resistant socket as claimed in claim 5, it is characterized in that, the sidewall of described insulation riser upper end and described in each, between the first riser, be formed with middle part bayonet socket, the sidewall of described the second riser upper end and be formed with end bayonet socket between the first riser described in each, described connection guide card two ends correspondence is embedded at bayonet socket place in end described in two, and its middle part correspondence is embedded in the bayonet socket of described middle part.

7. waterproof electric-shock-resistant socket as claimed in claim 6, is characterized in that, the side of described conductive contact blade is provided with shell fragment at the position convex near its bottom, and the corresponding recess that forms of the sidewall of described embeded slot, the corresponding clip of described shell fragment is in recess.

8. the waterproof electric-shock-resistant socket as described in claim 1,6 or 7, it is characterized in that, described base plate, described the first riser, the second riser and insulation riser are formed in one, or, between described base plate and described the first riser and the second riser, between described insulation riser and described base plate, glued joint respectively fixing.

9. a waterproof electric-shock-resistant insert row, is characterized in that, described waterproof electric-shock-resistant insert row includes:

One insulator foot, on described insulator foot, broad ways is provided with two groups of fitting portions side by side, described fitting portion comprises at least two location notchs that are arranged in order along described insulator foot length direction, in the same way, the bottom of described location notch is provided with water hole for the length direction of described location notch and the length direction of described insulator foot;

One insulation cover plate, the lid that described insulation cover plate can be separated is located on described insulator foot;

A plurality of waterproof electric-shock-resistant sockets as described in claim 1 to 8 any one, described in each, waterproof electric-shock-resistant socket correspondence is embedded described in each in location notch, and the first riser of described waterproof electric-shock-resistant socket is placed along the length direction of described insulator foot;

One first conducting strip, described the first conducting strip takes the shape of the letter U, it is embedded on described insulator foot, and with waterproof electric-shock-resistant socket described in each in adjacent near the lateral surface of described first riser of described insulator foot lateral wall;

One second conducting strip, described the second conducting strip takes the shape of the letter U, it is embedded on described insulator foot, and with waterproof electric-shock-resistant socket described in each in adjacent away from the lateral surface of described first riser of described insulator foot lateral wall;

Wherein, described insulation cover plate is provided with jack in the position of the upper shed corresponding to conductive contact blade described in each, and the front end of described the first conducting strip and the second conducting strip is openend, and towards the front end of described insulator foot.

10. waterproof electric-shock-resistant insert row as claimed in claim 9, it is characterized in that, described insulator foot is formed with two holding parts side by side in the position between fitting portion described in two, described holding part is along the length direction setting of described insulator foot, its described in corresponding adjacent two location notch in internal interval, be embedded with at least two ground connection conductive contact blades, described ground connection conductive contact blade is corresponding with the quantity of described location notch, described ground connection conductive contact blade is U-shaped, its upper end is openend, and the top edge of described ground connection conductive contact blade dual-side is inwardly formed with respectively protruding contact;

Wherein, on described insulator foot, be separately provided with the 3rd conducting strip, described the 3rd conducting strip be positioned at two described between holding part, it is along the length direction setting of described insulator foot, and can contact with a side of ground connection conductive contact blade described in each, described insulation cover plate is provided with the second jack corresponding to the openend of ground connection conductive contact blade described in each.

11. waterproof electric-shock-resistant insert rows as claimed in claim 10, it is characterized in that, the front end of described insulator foot is separately provided with an interstar connection room, in described interstar connection room, be provided with an insulating joint, described insulating joint is concaved with a connecting groove along the length direction of described insulator foot, the notch of described connecting groove is positioned on the front end end face of described insulator foot, on its bottom land, along equilateral triangle distribution upper jack, first time jack and second time jack, in described upper jack, first time jack and second time jack, correspondence is embedded with the upper inserted sheet that can conduct electricity, first time inserted sheet and second time inserted sheet;

Wherein, the further bending in one end of described the first conducting strip is formed with one first linkage section, described the first linkage section is connected with described first time inserted sheet, one end bending of described the second conducting strip is formed with the second linkage section, described the second linkage section is connected with described second time inserted sheet, and the front end of described the 3rd conducting strip is connected with described upper inserted sheet.

12. waterproof electric-shock-resistant insert rows as claimed in claim 11, it is characterized in that, described insulating joint is provided with a draw-in groove at the rear side adjacent to described bottom land, described draw-in groove is along vertical setting, its inner chimeric insulation insertion plate that has, described insulation insertion plate correspondence is pressed together on described first time inserted sheet and second time inserted sheet, and the lower surface of described insulation insertion plate is along the vertical location notch that is separately provided with, and described upper inserted sheet correspondence is embedded in described location notch.

13. waterproof electric-shock-resistant insert rows as described in claim 11 or 12, it is characterized in that, in described insulator foot, be provided with the first insulation riser and two symmetrically arranged the second insulation risers, described the first insulation riser is along the Width setting of described insulator foot, between the front end of itself and described insulator foot, be formed with described interstar connection room, described in two, the second insulation riser is along the length direction setting of described insulator foot, and be uniformly distributed along the Width of described insulator foot, fitting portion described in corresponding formation one between the lateral wall of the second insulation riser and adjacent described insulator foot described in each,

Length direction along described insulator foot in described fitting portion is provided with at least two vertical plate parts successively, described vertical plate part is corresponding with the quantity of described location notch, it includes two inner vertical plates, described inner vertical plate parallels with described the first insulation riser, described in two, inner vertical plate arranges along the length direction interval of described insulator foot, be formed with one between the two described in location notch;

Between the outward flange of described inner vertical plate upper end and the lateral wall of described insulating body, be formed with outside fix gap, itself and described the second insulation are formed with interior location gap between riser, described the first conducting strip correspondence is determined in gap outside being embedded described in each, and described the second conducting strip correspondence is located in gap in being embedded described in each;

Wherein, described the first insulation riser is provided with the first bayonet socket corresponding to one end of described the first conducting strip, and its one end corresponding to described the second conducting strip is provided with the second bayonet socket, and its front end corresponding to described the 3rd conducting strip is provided with the 3rd bayonet socket.

14. waterproof electric-shock-resistant insert rows as claimed in claim 13, it is characterized in that, described in two, between the second insulation riser, erect and have a middle part insulating barrier, described middle part insulating barrier is along the length direction setting of described insulator foot, holding part described in forming one respectively between the second insulation riser described in itself and each, in described holding part, be interval with at least two accommodating caulking grooves, described in each, accommodating caulking groove is corresponding with location notch described in adjacent each, and near described location notch medium position along its length, in described accommodating caulking groove, be embedded with described ground connection conductive contact blade, wherein, the both sides of described middle part insulating barrier are respectively equipped with a location riser in the position corresponding to accommodating caulking groove described in each, respectively be oppositely arranged two described in locate and between riser, form a caulking groove,

Wherein, described in each, caulking groove place is respectively equipped with a grounding connection conductive contact blade, described grounding connection conductive contact blade correspondence is located on riser described in being fastened on two, it includes a location division, top and the corresponding two L shaped legs of locating riser outside described in each that are fitted in, the centre of location division, described top is formed with a recess, the shape of described recess and described caulking groove matches, and correspondence is embedded in described caulking groove, and L shaped leg is symmetrical set described in two, described in two, the upper end correspondence of L shaped leg is connected in the two ends of location division, described top, both bottoms are positioned at the bottom side of ground connection conductive contact blade described in corresponding two, and contact with described ground connection conductive contact blade,

Wherein, described the 3rd conducting strip correspondence is embedded the recess place that is positioned at grounding connection contact described in each.

15. waterproof electric-shock-resistant insert rows as claimed in claim 13, it is characterized in that, on described insulator foot, in the position corresponding to the second insulation riser rear end described in two, be provided with rear end insulation riser, described in the leading flank and two of described rear end insulation riser, between the second insulation riser, be formed with respectively front end bayonet socket, between its trailing flank and the rear end of described insulator foot, be formed with rear end bayonet socket, the rear end of described the first conducting strip is embedded in the bayonet socket of described rear end, and described the second conducting strip is embedded in described front end bayonet socket.

16. waterproof electric-shock-resistant insert rows as claimed in claim 14, it is characterized in that, on described insulator foot, in the position corresponding to the second insulation riser rear end described in two, be provided with rear end insulation riser, described in the leading flank and two of described rear end insulation riser, between the second insulation riser, be formed with respectively front end bayonet socket, between its trailing flank and the rear end of described insulator foot, be formed with rear end bayonet socket, the rear end of described the first conducting strip is embedded in the bayonet socket of described rear end, and described the second conducting strip is embedded in described front end bayonet socket.