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CN201717406U - Power socket structure - Google Patents

Power socket structure Download PDF

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Publication number
CN201717406U
CN201717406U CN2010201753725U CN201020175372U CN201717406U CN 201717406 U CN201717406 U CN 201717406U CN 2010201753725 U CN2010201753725 U CN 2010201753725U CN 201020175372 U CN201020175372 U CN 201020175372U CN 201717406 U CN201717406 U CN 201717406U
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CN
China
Prior art keywords
terminal
link slot
plastic cement
male joint
contact site
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN2010201753725U
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Chinese (zh)
Inventor
蔡闳宇
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Individual
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Individual
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Filing date
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Priority to CN2010201753725U priority Critical patent/CN201717406U/en
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Publication of CN201717406U publication Critical patent/CN201717406U/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Abstract

A power socket structure comprises: a plastic base that is internally provided with a connecting slot; at least one cathode terminal provided with a fixing part, an elastic arm and a pin; and an anode terminal provided with a fixing part, a contact part and a pin, wherein at least one side of the connecting slot is only provided with a terminal movable slot that is communicated with the connecting slot, the front end of the plastic base is provided with an insertion port of the connecting slot that can be connected with a male joint, and the surface of the male joint is provided with a groove; the fixing part is fixed with the plastic base, the elastic arm can spring at the terminal movable slot and is provided with one contact part, and the contact part is protruded to the connecting slot; in the anode terminal, the fixing part is fixed with the plastic base, and the contact part appears as a column body in the connecting slot and extends to the insertion port of the connecting slot; and at least one elastic fastener is further installed behind the contact part of the cathode terminal and provided with at least one convex part protruding to the connecting slot, and the convex part can elastically buckle the groove of the male joint.

Description

The supply socket structure
[technical field]
The utility model relates to a kind of electric connector, particularly about a kind of supply socket structure.
[background technology]
See also Fig. 1 and Fig. 2, be a kind of existing Direct current power source socket, it is in order to being electrically connected a male joint 25, and it is provided with a plastic cement seat 10, a positive terminal 15, two negative terminals 20, wherein:
Be provided with a link slot 11 in this plastic cement seat 10 and be provided with butting section 12 near the insertion mouth of this link slot 11.
This positive terminal 15 is provided with a fixed part 16 and contact site 17, and this fixed part 16 is fixing with this plastic cement seat 10, and this contact site 17 is a cylinder and is positioned in the middle of this link slot 11 and extends to insertion mouth near link slot 11.
This two negative terminal 20 is two sides of being located at this link slot 11, it is provided with a fixed part 21 and an elastic arm 22, this fixed part 21 is fixing with this plastic cement seat 10, these elastic arm 22 bendings are provided with a contact site 23 that protrudes, this contact site 23 is protruding to this link slot 11, and these elastic arm 22 tail ends are resisted against this butting section 12.
This male joint 25 is provided with a plastic body 26, a negative pole junction 27 and an anodal junction 28, this plastic body 26 is provided with columned link slot 29, this negative pole junction 27 is a cylinder sheath body and is sheathed on outside this plastic body 26, this positive pole junction 28 is fixed in this plastic body 26 and is provided with the shell fragment that is the harpoon shape and is positioned at this link slot 29, in addition, the appearance near insertion end is provided with a groove 210.
In the use, when this link slot 11 is inserted in this male joint 25, when compressing the contact site 23 of negative terminal 20, male joint 25 front ends need have enough insertion forces to back down this elastic arm 22, can be inserted to the location fast by this insertion force, this moment male joint 25 negative pole junction 27 be electrically connected with the contact site 23 of two negative terminals 20, anodal junction 28 then resilient clamp in the contact site 17 of this positive terminal 15.Because Direct current power source socket is male joint fast insert-pull preferably in the use, so can increase the useful life of Direct current power source socket.
Existingly be configured with following shortcoming, that is: after the location is inserted in male joint 25, the contact site 23 and the groove 210 of negative terminal 20 still have a segment distance, so the contact site 23 of negative terminal 20 there is no the effect of Elastic buckle groove 210, so the very first time when male joint is extracted there is no buckle strength, can't force to make the user firmly extract fast moment when extracting.
[utility model content]
Main purpose of the present utility model is to provide a kind of supply socket structure, but it is provided with a spring secures rail to sleeper Elastic buckle in the groove of this male joint appearance, more firm location is arranged after need having big withdrawal force and male joint to insert when reaching male joint and extracting.
For reaching above-mentioned purpose, the utility model socket structure includes: a plastic cement seat, be provided with a link slot in it, at least one side of this link slot only is provided with a terminal loose slot, this terminal loose slot communicates with this link slot, this plastic cement seat front end is provided with the insertion mouth of this link slot, and this link slot can connect a male joint, and this male joint appearance is provided with a groove; At least one negative terminal, it is provided with a fixed part, an elastic arm and a pin, and this fixed part and this plastic cement seat are fixed, and this elastic arm can be in this terminal loose slot springing, and this elastic arm is provided with a contact site, and this contact site is protruding to this link slot; And a positive terminal, it is provided with a fixed part, a contact site and a pin, and this fixed part and this plastic cement seat are fixed, and this contact site is that a cylinder is positioned in the middle of this link slot and to the insertion mouth extension of link slot; It is characterized in that more being provided with the contact site rear that at least one spring secures rail to sleeper is positioned at this negative terminal, this spring secures rail to sleeper is provided with at least one protuberance that is protruding to this link slot, but the groove of this this male joint of protuberance Elastic buckle.
Described supply socket structure, it is characterized in that: each only is provided with a terminal loose slot relative two sides of the link slot of this plastic cement seat, and this at least one negative terminal is two.
Described supply socket structure, it is characterized in that: this spring secures rail to sleeper links to each other with this negative terminal one, and this spring secures rail to sleeper punctures the punching press protrusion from the elastic arm of this negative terminal.
Described supply socket structure, it is characterized in that: this spring secures rail to sleeper is provided with a fixed part and is fixed in the plastic cement base rear end.
Described supply socket structure, it is characterized in that: this spring secures rail to sleeper is provided with a fixed part and at least one shell fragment, and this fixed part is fixed in the perisporium of the link slot of plastic cement seat, and this shell fragment is provided with this protuberance.
Described supply socket structure, it is characterized in that: the contact site of this negative terminal is provided with a facet and contacts with the negative pole junction of male joint.
Described supply socket structure is characterized in that: the contact site of this negative terminal is to puncture protrusion in the middle of the plate face of this elastic arm.
Described supply socket structure, it is characterized in that: the contact site front end of this positive terminal is provided with the importing inclined-plane, is provided with a chase after this importing inclined-plane.
Described supply socket structure is characterized in that: this protuberance Elastic buckle is in the chase of anodal this positive terminal of junction buckle of the groove of this male joint and male joint when this male joint is extracted.
Described supply socket structure is characterized in that: also be provided with a metal shell and be coated on outside this plastic cement seat.
Above-mentioned and other purpose of the present utility model, advantage and characteristic by in the detailed description of following preferred embodiment and with reference to graphic when can be clearer.
[description of drawings]
Fig. 1 is the sectional exploded view of existing Direct current power source socket and male joint.
Fig. 2 is the section constitutional diagram of existing Direct current power source socket and male joint.
Fig. 3 is the three-dimensional exploded view of the utility model first embodiment.
Fig. 4 is the three-dimensional combination figure of the utility model first embodiment.
Fig. 5 is terminal and the plastic cement seat combination section of the utility model first embodiment.
Fig. 6 is terminal and the plastic cement seat combination section of the utility model first embodiment.
Fig. 7 is that positioning states figure is inserted in the male joint of the utility model first embodiment.
Fig. 8 is that state diagram is extracted in the male joint of the utility model first embodiment.
Fig. 9 is that state diagram is extracted in the male joint of the utility model first embodiment.
Figure 10 is that state diagram is extracted in the male joint of the utility model first embodiment.
Figure 11 is terminal and the plastic cement seat combination section of the utility model second embodiment.
Figure 12 is that positioning states figure is inserted in the male joint of the utility model second embodiment.
Figure 13 is terminal and the plastic cement seat combination section of the utility model the 3rd embodiment.
Figure 14 is that positioning states figure is inserted in the male joint of the utility model the 3rd embodiment.
Figure 15 is terminal and the plastic cement seat combination section of the utility model the 4th embodiment.
Figure 16 is terminal and the plastic cement seat combination section of the utility model the 5th embodiment.
Figure 17 is terminal and the plastic cement seat combination section of the utility model the 6th embodiment.
Figure 18 is terminal and the plastic cement seat combination section of the utility model the 7th embodiment.
Figure 19 is terminal and the plastic cement seat combination section of the utility model the 8th embodiment.
Figure 20 is terminal and the plastic cement seat combination sectional stereogram of the utility model the 8th embodiment.
Figure 21 is terminal and the plastic cement seat combination section of the utility model the 9th embodiment.
Figure 22 is terminal and the plastic cement seat combination sectional stereogram of the utility model the 9th embodiment.
Figure 23 is the three-dimensional exploded view of the utility model the tenth embodiment.
Figure 24 is terminal and the plastic cement seat combination section of the utility model the tenth embodiment.
Figure 25 is the three-dimensional exploded view of the utility model the 11 embodiment.
Figure 26 is terminal and the plastic cement seat combination section of the utility model the 11 embodiment.
Figure 27 is terminal and the plastic cement seat combination section of the utility model the 12 embodiment.
Male joint 25 plastic bodies 26 negative pole junctions 27
Anodal junction 28 link slots 29 grooves 210
Plastic cement seat 40 link slots 41 terminal loose slots 42 terminal loose slots 43
Opening 44 abutment faces 45 insert mouthful 46 butting sections, 47 cards 48
Negative terminal 50 fixed parts 51 elastic arms 52 pins 53
Elastic card 55 contact sites 54 negative terminals 56 fixed parts 57
Elastic arm 58 contact sites 59 rears 510
Spring secures rail to sleeper 60 protuberances 61 fixed parts 62 elastic arms 63
Shell fragment 64 positive terminals 70 fixed parts 71 contact sites 72
Pin 73 draw-in grooves 74 import inclined-plane 75 chases 76
Sheath body 82 before the metal shell 80 main sheath bodies 81
[embodiment]
See also Fig. 3, Fig. 4, Fig. 5 and Fig. 6, be the utility model first embodiment, it is a direct current supply socket, and it comprises a plastic cement seat 40, two negative terminals 50, a positive terminal 70 and a metal shell 80, wherein:
Be provided with a cylindrical link slot 41 in this plastic cement seat 40, two respective side of this link slot 41 respectively are provided with a terminal loose slot 42 respectively, this terminal loose slot 42 is provided with an opening 44 and communicates with this link slot 41, the width of the opening 44 of this terminal loose slot is little than the width of terminal loose slot 42, these opening 44 2 sides form abutment face 45, these plastic cement seat 40 front ends are provided with the insertion mouth 46 of this link slot 41, and are provided with butting section 12 near this insertion mouth 46.
This two negative terminal 50 is two respective side of being located at this link slot 41, this negative terminal 50 is provided with a fixed part 51, one elastic arm 52 and a pin 53, this fixed part 51 and this plastic cement seat 40 are fixing and corresponding to the inboard of this first terminal loose slot 42, this fixed part 51 punctures and is provided with an elastic card 55 and 40 fastenings of plastic cement seat, so as to preventing that the first terminal from withdrawing from, this elastic arm 52 can be in these the first terminal loose slot 42 springing, puncture in the middle of the leading portion plate face of this elastic arm 52 and protrude a contact site 54 and middle protrusion one spring secures rail to sleeper 60 that punctures of back segment plate face, this spring secures rail to sleeper 60 an only end is connected in this elastic arm and bending and is provided with a protuberance 61 and is protruding to this link slot 41, these elastic arm 52 tail ends are resisted against the butting section 47 of plastic cement seat, the wide plate than elastic arm 52 of the plate of this contact site 54 is wide to be little, these elastic arm 52 2 sides are resisted against this abutment face 45 and are limited in this first terminal loose slot 42, and the contact site 54 of this negative terminal 50 can be protruding to this link slot 41 by this opening 44, and this elastic arm 52 can't enter this link slot 41.
This positive terminal 70 is provided with a fixed part 71, a contact site 72 and a pin 73, a draw-in groove 74 is fixed and be provided with to this fixed part 71 with this plastic cement seat, by a card 48 fastenings, this contact site 72 is a cylinder, it is positioned in the middle of this link slot 41 and extends to the insertion mouth of this link slot 41, these contact site 72 front ends are provided with and import inclined-plane 75, are provided with a chase 76 after this importing inclined-plane 75.
This metal shell 80 is provided with a main sheath body 81 and a preceding sheath body 82, and this preceding sheath body 82 is sheathed on this plastic cement seat 40 front ends, and this main sheath body 81 is sheathed on this plastic cement seat 40 upper ends and left and right side.
In the use, see also Fig. 7, when these link slot 41 location are inserted in this male joint 25, when compressing the contact site 54 of negative terminal 50, male joint 25 front ends need have enough insertion forces to back down this elastic arm 22, can be inserted to the location fast by this insertion force, this moment, anodal junction 28 resilient clamp were in the contact site 72 of this positive terminal 70 and be positioned at this chase 76 rears slightly, and the groove 210 that protuberance 61 elasticity of this spring secures rail to sleeper 60 are butted on this male joint 25 is the place ahead slightly; See also Fig. 8, when the very first time is extracted in this male joint 25, anodal junction 28 Elastic buckles of this male joint 25 in protuberance 61 Elastic buckles of the chase 76 of positive terminal 70 and this spring secures rail to sleeper 60 in the groove 210 of this male joint 25, the maximum strength of extracting need be arranged this moment, so force to make the user firmly extract fast moment when extracting; See also Fig. 9, this moment, positive terminal 70 separated with anodal junction 28, and both form, and the electricity went off, sees also Figure 10, and this moment is for extracting state.By above-mentioned action specification as can be known, the present embodiment operation is gone up and is being extracted the required strength maximum of extracting of the very first time, so force and make the user firmly extract fast moment when extracting, and because anodal can the separation earlier, so can cut off the power supply in the shortest time, avoid time of contact long and generate heat, and have in the use of this kind product.
See also Figure 11 and Figure 12, be the utility model second embodiment, it is roughly identical with first embodiment, its difference is that the contact site 72 of the positive terminal 70 of present embodiment is not provided with chase, so the contact site 72 of the anodal junction 28 clamping positive terminals 70 of male joint 25 can be preferable, and the function of buckle can be reached by spring secures rail to sleeper 60 and groove 210 buckles fully.
See also Figure 13 and Figure 14, be the utility model the 3rd embodiment, it is roughly identical with first embodiment, and its difference is that the contact site 72 of positive terminal 70 of present embodiment is longer, so the contact site 72 of the anodal junction 28 clamping positive terminals 70 of male joint 25 is more deep, more can guarantee contact.
See also Figure 15, be the utility model the 4th embodiment, it is roughly identical with first embodiment, its difference is that the terminal loose slot 42 of present embodiment only is provided with butting section 47 in the upper end, communicate with link slot 41 and whole width is all open, the contact site 54 of this two negative terminal 50 is directly to be bent to form by elastic arm 52 leading portions, and this spring secures rail to sleeper 60 then still punctures protrusion by elastic arm 52 back segment plate faces.
See also Figure 16, be the utility model the 5th embodiment, it is roughly identical with the 4th embodiment, its difference is that relative two sides of the link slot 41 of present embodiment are to be provided with the terminal loose slot 42 that lateral space varies in size, 43, this terminal loose slot 42,43 are respectively equipped with a negative terminal 50,56, this negative terminal 50 is constructed identical with the 4th embodiment, this negative terminal 56 is provided with a fixed part 57 and an elastic arm 58, this fixed part 57 is fixing with this plastic cement seat 40, this elastic arm 58 can extend to the pedestal rear end in these terminal loose slot 43 springing and reflexed, this elastic arm 58 is provided with a contact site 59 and is protruding to this link slot 41 and the plate face in these contact site 59 rears and punctures and protrude a spring secures rail to sleeper 60, this spring secures rail to sleeper 60 is provided with a protuberance 61 and is protruding to this link slot 41, this negative terminal 56 is forward springing type, and its elastic arm 58 can not produce the situation of throwing oneself on one's knees to link slot 41 bendings because of bearing insertion force.
See also Figure 17, be the utility model the 6th embodiment, it is roughly identical with the 3rd embodiment and the 5th embodiment, this negative terminal 50 is constructed identical with the 3rd embodiment, this negative terminal 56 is roughly similar with the negative terminal 55 of the 5th embodiment, and its difference is that the rear 510 of elastic arm 58 of the negative terminal 55 of present embodiment is folded to again and inserts mouthfuls 46 and be butted on fixed part 57.
See also Figure 18, be the utility model the 7th embodiment, it is roughly identical with the 6th embodiment, and its difference is that the bore of contact site 72 front ends of positive terminal 70 of present embodiment is bigger.
See also Figure 19 and Figure 20, be the utility model the 8th embodiment, it is roughly identical with the 3rd embodiment, its difference is that the spring secures rail to sleeper 60 of present embodiment and negative terminal 50 are not that integrated punching forms, present embodiment be provided with two independently spring secures rail to sleeper 60 be located at the inboard of two negative terminals 50 respectively and be positioned at contact site 54 rears, this spring secures rail to sleeper 60 is provided with a fixed part 62 and an elastic arm 63, this fixed part 62 is fixed in plastic cement seat 40 rear ends, the plate face of this elastic arm 63 punctures the protuberance 61 that formation one is protruding to this link slot 41, but the groove of these protuberance 61 these male joints of Elastic buckle.
See also Figure 21 and Figure 22, be the utility model the 9th embodiment, it is roughly identical with the 8th embodiment, its difference is that the elastic arm 63 of the spring secures rail to sleeper 60 of present embodiment is resisted against the elastic arm 52 of negative terminal 50, the plate face of this elastic arm 63 punctures and protrudes a shell fragment 64, these shell fragment 64 bendings are provided with a protuberance 61 that is protruding to this link slot 41, but the groove of these protuberance 61 these male joints of Elastic buckle.
See also Figure 23 and Figure 24, be the utility model the tenth embodiment, it is roughly identical with the 8th embodiment, its difference is that present embodiment is provided with two spring secures rail to sleepers 60, this spring secures rail to sleeper 60 is provided with a fixed part 62 and two shell fragments 64, the fixed part 62 of this two spring secures rail to sleeper 60 is symmetrically fixed on the perisporium of the link slot 41 of plastic cement seat 40, and this two shell fragment 64 respectively is provided with a protuberance 61 that is protruding to this link slot, but the groove of these protuberance 61 these male joints of Elastic buckle.
See also Figure 25 and Figure 26, be the utility model the 11 embodiment, it is roughly identical with the tenth embodiment, its difference is that present embodiment only is provided with a spring secures rail to sleeper 60, this spring secures rail to sleeper 60 is provided with a fixed part 62 and four shell fragments 64, this fixed part 62 is a square shape and the centre is provided with a circular port, this four shell fragment 64 is symmetrically set in this fixed part 62 and protruding in this circular port, the fixed part 62 of this spring secures rail to sleeper 60 is the perisporiums that are fixed in the link slot 41 of plastic cement seat 40, this four shell fragment 64 respectively is provided with a protuberance 61 that is protruding to this link slot, but these protuberance 61 Elastic buckles are in the groove of this male joint, the contact site 54 of this two negative terminal 50 is a facet in addition, so, when male joint is extracted, still can maximum output be arranged in the very first time of extracting by the groove of protuberance 61 these male joints of Elastic buckle of spring secures rail to sleeper 60, and when extracting again because the contact site 54 of this negative terminal 50 is a facet can avoid the groove 210 of buckle male joint appearance and can reduce and extract strength.
See also Figure 27, be the utility model the 12 embodiment, it is roughly identical with the 8th embodiment, its difference is that the spring secures rail to sleeper 60 of present embodiment is that cutting mode is made, this spring secures rail to sleeper 60 is provided with a fixed part 62 and an elastic arm 63, this fixed part 62 is fixed in plastic cement seat 40 rear ends, and this elastic arm 63 front ends formation one is protruding to the protuberance 61 of this link slot 41, but these protuberance 61 Elastic buckles are in the groove of this male joint.
By above explanation, the utility model can be concluded following advantage:
1, the utility model has the quick insertion and the effect of extracting fast in operation.
2, but the utility model has additional the groove 210 of spring secures rail to sleeper 60 Elastic buckles in these male joint 25 appearances, more firm location is arranged after need having big withdrawal force and male joint to insert when reaching male joint and extracting.
3, extract the very first time when this male joint 25, anodal junction 28 Elastic buckles of this male joint 25 in protuberance 61 Elastic buckles of the chase 76 of positive terminal 70 and this spring secures rail to sleeper 60 in the groove 210 of this male joint 25, the maximum strength of extracting need be arranged this moment, so force and make the user that firmly and extract fast and positive terminal 70 can separate with the anodal junction 28 of male joint 25 ahead of time and forms outage when then extracting moment when extracting.
4, the fixed part of the first terminal of the present utility model punctures and is provided with an elastic card and the fastening of plastic cement seat, withdraws from so as to preventing the first terminal.
5, the function of the utility model buckle can be reached by spring secures rail to sleeper 60 and groove 210 buckles fully, and so positive terminal 70 can not established chase 76, and the contact site 72 of the anodal junction 28 clamping positive terminals 70 of male joint 25 can be preferable.
6, the utility model can have maximum output by the groove of protuberance 61 these male joints of Elastic buckle of spring secures rail to sleeper 60 in the very first time of extracting, and when extracting again because the contact site 54 of this negative terminal 50 is a facet can avoid the groove 210 of buckle male joint appearance and can reduce and extract strength.
The specific embodiment that is proposed 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 claim, can make many variations and implement.

Claims (10)

1. a supply socket is constructed, and includes:
One plastic cement seat is provided with a link slot in the described plastic cement seat, and at least one side of this link slot only is provided with a terminal loose slot, this terminal loose slot communicates with this link slot, this plastic cement seat front end is provided with the insertion mouth of this link slot, and this link slot can connect a male joint, and this male joint appearance is provided with a groove;
At least one negative terminal, it is provided with a fixed part, an elastic arm and a pin, and this fixed part and this plastic cement seat are fixed, and this elastic arm can be in this terminal loose slot springing, and this elastic arm is provided with a contact site, and this contact site is protruding to this link slot; And
One positive terminal is provided with a fixed part, a contact site and a pin, and this fixed part and this plastic cement seat are fixed, and this contact site is that a cylinder is positioned in the middle of this link slot and extends to the insertion mouth of link slot;
It is characterized in that: also be provided with the contact site rear that at least one spring secures rail to sleeper is positioned at this negative terminal, this spring secures rail to sleeper is provided with at least one protuberance that is protruding to this link slot, the groove that this protuberance can this male joint of Elastic buckle.
2. supply socket structure as claimed in claim 1, it is characterized in that: each only is provided with a terminal loose slot relative two sides of the link slot of this plastic cement seat, and this at least one negative terminal is two.
3. supply socket structure as claimed in claim 1, it is characterized in that: this spring secures rail to sleeper links to each other with this negative terminal one, and this spring secures rail to sleeper punctures the punching press protrusion from the elastic arm of this negative terminal.
4. supply socket structure as claimed in claim 1, it is characterized in that: this spring secures rail to sleeper is provided with a fixed part and is fixed in the plastic cement base rear end.
5. supply socket structure as claimed in claim 1, it is characterized in that: this spring secures rail to sleeper is provided with a fixed part and at least one shell fragment, and this fixed part is fixed in the perisporium of the link slot of plastic cement seat, and this shell fragment is provided with this protuberance.
6. supply socket structure as claimed in claim 1, it is characterized in that: the contact site of this negative terminal is provided with a facet and contacts with the negative pole junction of male joint.
7. supply socket structure as claimed in claim 1 is characterized in that: the contact site of this negative terminal is to puncture protrusion in the middle of the plate face of this elastic arm.
8. supply socket structure as claimed in claim 1, it is characterized in that: the contact site front end of this positive terminal is provided with the importing inclined-plane, is provided with a chase after this importing inclined-plane.
9. supply socket as claimed in claim 8 structure is characterized in that: this protuberance Elastic buckle is in the chase of anodal this positive terminal of junction buckle of the groove of this male joint and male joint when this male joint is extracted.
10. supply socket structure as claimed in claim 1 is characterized in that: also be provided with a metal shell and be coated on outside this plastic cement seat.
CN2010201753725U 2010-04-16 2010-04-16 Power socket structure Expired - Fee Related CN201717406U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2010201753725U CN201717406U (en) 2010-04-16 2010-04-16 Power socket structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2010201753725U CN201717406U (en) 2010-04-16 2010-04-16 Power socket structure

Publications (1)

Publication Number Publication Date
CN201717406U true CN201717406U (en) 2011-01-19

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CN (1) CN201717406U (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102801050A (en) * 2011-05-23 2012-11-28 富士康(昆山)电脑接插件有限公司 Cable connector
CN103378477A (en) * 2012-04-17 2013-10-30 上海航天测控通信研究所 Aerospace single machine on track easy plugging mechanism
CN111200204A (en) * 2018-11-20 2020-05-26 矢崎总业株式会社 Connector with a locking member
CN111355077A (en) * 2018-12-21 2020-06-30 罗森伯格高频技术有限及两合公司 Electrical plug connector, assembly connector and circuit board arrangement

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102801050A (en) * 2011-05-23 2012-11-28 富士康(昆山)电脑接插件有限公司 Cable connector
CN103378477A (en) * 2012-04-17 2013-10-30 上海航天测控通信研究所 Aerospace single machine on track easy plugging mechanism
CN103378477B (en) * 2012-04-17 2016-03-30 上海航天测控通信研究所 A kind of aerospace unit mechanism easy to plug in-orbit
CN111200204A (en) * 2018-11-20 2020-05-26 矢崎总业株式会社 Connector with a locking member
CN111200204B (en) * 2018-11-20 2021-05-14 矢崎总业株式会社 Connector with a locking member
CN111355077A (en) * 2018-12-21 2020-06-30 罗森伯格高频技术有限及两合公司 Electrical plug connector, assembly connector and circuit board arrangement
CN111355077B (en) * 2018-12-21 2021-12-28 罗森伯格高频技术有限及两合公司 Electrical plug connector, assembly connector and circuit board arrangement
US11296465B2 (en) 2018-12-21 2022-04-05 Rosenberger Hochfrequenztechnik Gmbh & Co. Kg Electrical plug-in connection, assembly connection and circuit board arrangement

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C14 Grant of patent or utility model
GR01 Patent grant
C17 Cessation of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20110119

Termination date: 20110416