CN203536675U - Coaxial connector - Google Patents
Coaxial connector Download PDFInfo
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- CN203536675U CN203536675U CN201320561461.7U CN201320561461U CN203536675U CN 203536675 U CN203536675 U CN 203536675U CN 201320561461 U CN201320561461 U CN 201320561461U CN 203536675 U CN203536675 U CN 203536675U
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- contact site
- coaxial connector
- insulating body
- moved end
- carrier
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Abstract
The utility model provides a coaxial connector, comprising an insulating body, a static terminal and a movable terminal, wherein the insulating body is provided with at least one stopping part, the static terminal is fixed on the insulating body and is provided with a first contact part, and the movable terminal is fixed on the insulating body and provided with a second contact part and is positioned below the stopping part. Before the coaxial connector is welded on a circuit board, the second contact part is positioned above the first contact part, and the stopping part stops the second contact part to move upward. When a docking device is inserted in the coaxial connector, the docking device presses the movable terminal down, and the movable terminal moves downward to enable the second contact part to disconnect with the first contact part. When the docking device leaves the coaxial connector, the second contact part upwardly abuts against the first contact part. According to the coaxial connector, the insulating body is provided with the at least one stopping part, the stopping part stops the second contact part of the movable terminal to move upward, so that good contact between the movable terminal and the static terminal is ensured.
Description
Technical field
The utility model relates to a kind of coaxial connector, espespecially a kind of coaxial connector with switch.
Background technology
A kind of coaxial connector, as Fig. 9, use for a pair of connection device M and peg graft from top to bottom, comprise an insulating body a, realize a static terminal b and the sub-c in a moved end of switching function, described insulating body a has a cavity volume a1, described static terminal b and the sub-c in described moved end are individually fixed in described insulating body a, and described static terminal b has one first contact site b1 and enters in described cavity volume a1, and the sub-c in described moved end has one second contact site c1 and enters in described cavity volume a1.Before described coaxial connector is welded in a circuit board, described the second contact site is overlapped in the upper surface of described the first contact site.At described coaxial connector, be fixedly welded on after circuit board N, when docking facilities M inserts described coaxial connector downwards for the first time, described docking facilities M presses down described the second contact site c1, the downward strain of described the second contact site c1, under backward with described the first contact site b1 generation scraping, crossed over described the first contact site b1, make described the second contact site c1 be positioned at described the first contact site b1 below, until described the second contact site c1 and described the first contact site b1 depart from, form and open circuit.When described docking facilities M leaves after described coaxial connector, upwards there is elastic recovery in described the second contact site c1 owing to not exerted pressure by external force, the first contact site b1 and form path described in butt so described the second contact site c1 makes progress.But, when described docking facilities M presses down described the second contact site c1, described the second contact site c1 produces downward active force to described the first contact site b1, simultaneously, described the first contact site b1 produces reaction force upwards to described the second contact site c1, at described coaxial connector, be welded in the process of described circuit board N, described insulating body a is subject to thermal softening, reaction force making progress described in so described the second contact site c1 is subject to and being upturned, cause described the second contact site c1 with the described first contact site b1 of very little active force contact below or even disengage completely with it, thereby cause the sub-c in described moved end and described static terminal b loose contact.
For this reason, be necessary to design a kind of new coaxial connector to address the above problem.
Summary of the invention
The purpose of this utility model is to provide a kind of coaxial connector that guarantees moved end and static terminal good contact.
For achieving the above object, the utility model is by the following technical solutions:
A coaxial connector, in order to be welded in a circuit board and to peg graft downwards for a docking facilities, comprising: an insulating body, is provided with at least one stop section; One static terminal, is fixed on described insulating body, and described static terminal is provided with one first contact site; One moved end, is fixed on described insulating body, and described moved end is provided with one second contact site, is positioned at below, described stop section; Before described coaxial connector is welded in described circuit board, described the second contact site is in described the first contact site top, and the second contact site moves up described in the block of described stop section; When described docking facilities inserts described coaxial connector, described docking facilities presses down described moved end, and described moved end moves down described the second contact site and described the first contact site are departed from; When described docking facilities leaves after described coaxial connector, described the second contact site the first contact site described in butt that makes progress.
Further, described stop section is connected to the end of described the second contact site.
Further, described the second contact portion fork-shaped Cheng Liangge branch, described insulating body corresponding described in each branch be respectively equipped with described stop section.
Further, described insulating body is provided with a slot to make way between two described stop sections, and described slot to make way is positioned at directly over described the first contact site.
Further, before described coaxial connector is welded in described circuit board, described the second contact site is overlapped on described the first contact site.
Further, described the first contact site one side has one first guiding face, and described the second contact site is overlapped on described the first guiding face, makes described the first guiding face guide described the second contact site and moves down.
Further, described the second contact site is provided with one second guiding face coincideing with described the first guiding face, and described the second guiding face is overlapped on described the first guiding face.
Further, the end face of described the second contact site is lower than the end face of described the first contact site.
Further, described insulating body is provided with a fixed part for fixing described static terminal, from described fixed part one side, extends to form a support portion, and described the first contact site is overlapped on described support portion.
Further, described static terminal and described moved end all coordinate the moulding of described insulating body and are embedded in described insulating body.
Further, described insulating body is provided with a carrier, between described carrier and its below object, there is gap, described moved end is provided with the elastic arm being connected with described the second contact site and engages described carrier, when described elastic arm is pressed down, described elastic arm drives described carrier to move down together, and carrier supports its below object and excessively moves down to prevent described the second contact site described in mat.
Further, described below object is circuit board.
Further, described carrier comprises and is positioned at a base portion of described moved end below and from the upwardly extending protuberance of described base portion, described moved end is provided with a hole and engages with described protuberance.
Further, described base portion comprises the elastic portion being connected with described insulating body and the extension extending from described elastic portion, and the thickness of described elastic portion is thinner than described extension.
Further, described extension has one first lower surface being connected with described elastic portion, and one second lower surface being connected with described the first lower surface, and described the second lower surface to the distance between the object of described below increases gradually along the direction near described static terminal.
Further, described the second lower surface is inclined-plane, and when described carrier supports its below during object, described the second lower surface is a horizontal plane and described below object supports.
Compared with prior art, the utility model is pressed in described the second contact site top because described insulating body is provided with described stop section, described in the block of described stop section, the second contact site moves up, therefore can prevent that described the second contact site is upturned, thereby guarantee described moved end and described static terminal good contact.
[accompanying drawing explanation]
Fig. 1 is the decomposing schematic representation of the utility model coaxial connector and circuit board;
Fig. 2 is the inverted decomposing schematic representation of coaxial connector in Fig. 1;
Fig. 3 is that the utility model coaxial connector is unkitted the three-dimensional cutaway view into static terminal and moved end;
Fig. 4 is that the utility model coaxial connector packs the three-dimensional cutaway view after static terminal and moved end into;
Fig. 5 is the section plan of the utility model coaxial connector;
Fig. 6 is that docking facilities inserts the section plan before the utility model coaxial connector;
Fig. 7 is that docking facilities inserts the section plan after the utility model coaxial connector;
Fig. 8 is that docking facilities leaves the section plan after the utility model coaxial connector;
Fig. 9 is the constitutional diagram that the utility model coaxial connector is welded in circuit board;
Figure 10 is the section plan of coaxial connector in prior art.
The drawing reference numeral explanation of embodiment:
| |
200 | |
300 | ? | ? |
| Lower |
1 | Accepting |
11 | |
12 |
| Receiving |
13 | Inclined |
14 | The first fixed |
15 |
| The second fixed |
16 | |
17 | |
18 |
| |
181 | |
182 | |
1811 |
| |
1812 | |
1813 | The first |
1814 |
| The second |
1815 | ? | ? | ? | ? |
| |
2 | The |
21 | The first guiding |
211 |
| Connecting |
22 | First connects |
23 | The |
24 |
| Moved |
3 | The |
31 | |
311 |
| |
312 | The second guiding |
313 | |
32 |
| |
321 | |
322 | Second connects |
33 |
| The |
34 | ? | ? | ? | ? |
| Upper |
4 | |
40 | |
41 |
| |
42 | Locating |
43 | |
44 |
| |
45 | Slot to make |
46 | ? | ? |
| Shell | 5 | |
51 | |
52 |
| |
511 | |
521 | ? | ? |
[embodiment]
For ease of better understanding the purpose of this utility model, structure, feature and effect etc., existing the utility model is described in further detail with embodiment by reference to the accompanying drawings.
Please refer to Fig. 1 and Fig. 6, the utility model coaxial connector, in order to be welded on a circuit board 200, and peg graft downwards for a docking facilities (not shown) with a contact pin 300, comprise: an insulating body, by insulating base 1 once and be installed in insulating base 4 on one on described lower insulating base 1 and form; A static terminal 2 and moved end 3 of realizing switching function, be fixed in described lower insulating base 1; One shell 5, is coated on described upper insulating base 4 and described lower insulating base 1.
Please refer to Fig. 1 to Fig. 2, described lower insulating base 1 is roughly tetragonal body structure, described lower insulating base 1 is provided with in middle position end face and the bottom surface that a receiving space 13 runs through described lower insulating base 1, described receiving space 13 has four sidewalls, for convenience of described upper insulating base 4, be assembled in smoothly on described lower insulating base 1, the inclined plane 14(that wherein upper end of two relative described sidewalls is made into tilt towards described receiving space 13 that is to say, described receiving space 13 internal diameters from top to bottom diminish gradually), for guiding described upper insulating base 4; From two other relative described sidewall, extend to form one first fixed part 15 and one second fixed part 16, from described the first fixed part 15 1 sides, extend to form a support portion 17 and be positioned at described receiving space 13, from described the second fixed part 16 1 sides, extend to form a carrier 18 and be positioned at described receiving space 13.
Please refer to Fig. 1, Fig. 2, Fig. 6, described carrier 18 comprises a base portion 181 and from described base portion 181, extends upward a protuberance 182 of formation, described base portion 181 sizes are greater than described protuberance 182, described base portion 181 comprises the elastic portion 1811 being connected with described insulating body and the extension 1812 extending to form from described elastic portion 1811, the thickness of described elastic portion 1811 is thinner than described extension 1812, the width of described elastic portion 1811 is narrower than described extension 1812 simultaneously, thereby guarantees that described elastic portion 1811 has good elasticity.Described extension 1812 is provided with to a recess 1813 of the direction depression near described elastic portion 1811 away from one end of described elastic portion 1811.Described extension 1812 has one first lower surface 1814 being connected with described elastic portion 1811, and one second lower surface 1815 being connected with described the first lower surface 1814, between described the second lower surface 1815 and its below object, there is gap, and described the second lower surface 1815 to the distance between the object of described below increases gradually along the direction near described support portion 17, described the second lower surface 1815 is inclined-plane, when described carrier 18 supports its below during object, described the second lower surface 1815 is a horizontal plane and described below object supports, in the present embodiment, described below object is that circuit board 200(is certain, in other embodiments, described below object also can be the diapire of described lower insulating base 1 or other), described the first lower surface 1814 is also inclined-plane, and described the first lower surface 1814 to the distance between described below object (being circuit board 200) increases gradually along the direction away from described support portion 17.
Please refer to Fig. 2, the relative both sides of described lower insulating base 1 bottom surface are concaved with respectively an accepting groove 11, and it is positioned at a side of described receiving space 13 and is communicated with described receiving space 13, and it is trapezoidal and interior narrow outer wide that described accepting groove 11 is.Four corners of described lower surface 12 are concaved with respectively a holding slot 12.
Please refer to Fig. 1 to Fig. 2, described static terminal 2 is provided with one first contact site 21, the relative both sides of described the first contact site 21 have respectively one first guiding face 211, in the present embodiment, described the first guiding face 211 is inclined-plane, and between described inclined-plane and described the first contact site 21 end faces, form an obtuse angle, that is to say, described the first contact site 21 is to its edge direction thickness attenuation gradually.From described the first contact site 21 horizontal-extendings, form a junction 22, from the relative both sides of described connecting portion 22, towards the direction horizontal-extending away from described the first contact site 21, form one first respectively and connect material portion 23, from described connecting portion 22, bend downwards and form one first weld part 24 towards the direction horizontal-extending near described the first contact site 21.
Please refer to Fig. 1 to Fig. 2, described moved end 3 is provided with one second contact site 31, from described the second contact site 31 horizontal-extendings, form an elastic arm 32, from the relative both sides of described elastic arm 32, towards the direction horizontal-extending away from described the second contact site 31, form one second respectively and connect material portion 33, from described elastic arm 32, bend downwards and form one second weld part 34 towards the direction horizontal-extending near described the second contact site 31.
Please refer to Fig. 1 and Fig. 5, described the second contact site 31 bifurcateds are formed with two branches 311, described branch 311 ends convex with a projection 312 towards described the first guiding face 211, described protruding 312 bottom surface has the second guiding face 313(identical with described the first guiding face 211, and described the second guiding face 313 is parallel with described the first guiding face 211).
Please refer to Fig. 1 and Fig. 4, described elastic arm 32 is provided with a hole 321, and for engaging with described protuberance 182, described elastic arm 32 is provided with a compression zone 322 and supplies the described contact pin 300 of described docking facilities to press down between described hole 321 and described crotch.
Please refer to Fig. 1, Fig. 2 and Fig. 6, described upper insulating base 4 is roughly column, the central authorities of described upper insulating base 4 offer a docking chamber 40 for described contact pin 300 insertions of described docking facilities, the inwall 41 in described docking chamber 40 is turbination and (that is to say, the size in described docking chamber 40 from top to bottom diminishes gradually), in order to guide described contact pin 300 to insert.Described upper insulating base 4 has a lower wall surface 42, for being overlapped in the end face of described lower insulating base 1, described lower wall surface 42 convexes with two locating pieces 43 downwards, the outside of described locating piece 43 is skewed, to match with described inclined plane 14, between two described locating pieces 43, be upwards recessed to form a depressed part 44 and connect with the described chamber 40 of docking, the size of described depressed part 44 is slightly larger than described moved end son 3 and described static terminal 2.From two described locating pieces 43, extend to form two described branches 311 of relative corresponding described moved end, two stop sections 45 3, gap between two described stop sections 45 forms a slot to make way 46 and is communicated with described depressed part 44, described slot to make way 46 is positioned at directly over described first contact site 21 of described static terminal 2, in order to described the first contact site 21 of stepping down, avoid described stop section 45 to touch described the first contact site 21.
Please refer to Fig. 1 and Fig. 2, described shell 5, for metal material punching press forms, has the function of ground connection.Described shell 5 comprises a sleeve part 51 setting up and down and a base plate 52, and described sleeve part 51 is connected down on the ground with described base plate 52 smooth transition.The appearance of described sleeve part 51 is provided with Access Division 511 use for docking facilities buckle, and in the present embodiment, described Access Division 511 is for being located at an annular groove of described sleeve part 51 peripheries.Described base plate 52 has towards inner bending and horizontally extending four grounding legs 521.
Please refer to Fig. 1, Fig. 5 and Fig. 6, during assembling, first, described static terminal 2 is oppositely arranged with described moved end 3, and described static terminal 2 all coordinates the moulding of described lower insulating base 1 with described moved end 3 and is embedded in (that is to say, described static terminal 2 and described moved end 3 all adopt insert molding mode to be fixed in described lower insulating base 1) in described lower insulating base 1.So described the first contact site 21 is overlapped on described support portion 17, described connecting portion 22 is fixed on described the first fixed part 15, and described first connects material portion 23 ends exposes described lower insulating base 1, and described the first weld part 24 enters described accepting groove 11.Two described the first contact sites 21 of described branch 311 clamping of described the second contact site 31, described the second guiding face 313 is overlapped on described the first guiding face 211 and makes the end face of described the second contact site 31 lower than the end face of described the first contact site 21, described elastic arm 32 is positioned at described base portion 181 tops of described carrier 18, described hole 321 engages with described protuberance 182, described second connects material portion 33 ends exposes described lower insulating base 1, and described the second weld part 34 enters described accepting groove 11.
Secondly, described upper insulating base 4 adopts insert molding mode to be fixed in the described sleeve part 51 of described shell 5.
Then, described upper insulating base 4 is mounted on described lower insulating base 1 together with described shell 5.So, described docking chamber 40 is communicated with described receiving space 13, corresponding described two inclined planes 14 of described locating piece 43 pack described receiving space 13 into, described stop section 45 is positioned at described branch 311 tops of described the second contact site 31 and the end that described stop section 45 is connected to described branch 311, the coated described lower insulating base 1 of described base plate 52, described grounding leg 521 enters in described holding slot 12, thereby described grounding leg 521 can work to clamp described upper insulating base 4 and described lower insulating base 1, make the two in conjunction with more closely reliable.
Please refer to Fig. 1 and Fig. 6, then, the described coaxial connector assembling is put into high temperature tin stove, described the first weld part 24 is welded in to described circuit board 200 with described the second weld part 34, described coaxial connector is welded on described circuit board 200, meanwhile, described support portion 17 is connected on described circuit board 200.This process, in tin stove, temperature is very high, described lower insulating base 1 is subject to thermal softening, because described coaxial connector is not fixedly welded on described circuit board 200 (not shown) before, further, before described docking facilities is pegged graft described coaxial connector for the first time, described the second contact site 31 is positioned at described the first contact site 21 tops, in the present embodiment, described the second contact site 31 is overlapped on described the first contact site 21 (in other embodiments, described the second contact site 31 also can the unsettled top in described the first contact site 21), particularly, described the second guiding face 313 is overlapped on described the first guiding face 211, therefore avoided that described moved end son 3 causes because plastic cement is softening downward-sloping or fall, and cause described moved end 3 final with described static terminal 2 butt positive force deficiencies and the phenomenon of loose contact.
Please refer to Fig. 6 to Fig. 7, when described coaxial connector is welded in after described circuit board 200, when described docking facilities inserts described coaxial connector downwards for the first time, described contact pin 300 enters described receiving space 13 until press down described compression zone 322(now through described docking chamber 40, the longitudinal center line L of described contact pin 300 is through described carrier 18), described compression zone 322 is subject to the pressure of described contact pin 300 to move downward and drive described carrier 18 to move down, the downward strain of described the second contact site 31 and moving down simultaneously, and under the guiding of described the first guiding face 211, crossed over described the first contact site 21, make described the second contact site 31 be positioned at described the first contact site 21 belows, and then described the second contact site 31 departs from described the first contact site 21.
After described the second contact site 31 moves down and departs from described the first contact site 21, described carrier 18 can block described in moved end 3 excessively move down, particularly, because described elastic portion 1811 provides elasticity, therefore described carrier 18 can move down together along with described the second contact site 31, described the first lower surface 1814 contacts described circuit board 200 at first with the intersection of described the second lower surface 1815, and it is produced to block effect, along with described the second contact site 31 continue move down, described the second lower surface 1815 from left to right (according to the direction in Fig. 6) sequentially contacts with described circuit board 200, until described the second lower surface 1815 is a horizontal plane and described circuit board 200 supports, therefore described carrier 18 can not move down again, and then due to the block effect of described carrier 18, described moved end 3 also no longer moves down.
Please refer to Fig. 8, subsequently, described contact pin 300 is upwards extracted described coaxial connector (being that described docking facilities leaves after described coaxial connector), described the second contact site 31 is owing to not exerted pressure by external force and elastic recovery upwards occurs, because described elastic portion 1811 provides elasticity, also there is elastic recovery in described carrier 18, described the second contact site 31 upwards described in butt the first contact site 21(that is to say, the bottom surface of the first contact site 21 described in the end face butt of described the second contact site 31).
Please refer to Fig. 7 and Fig. 8, after this, when described docking facilities inserts described coaxial connector, described the second contact site 31 forms and opens circuit with described the first contact site 21 disengagings, when described docking facilities leaves described coaxial connector, described the second contact site 31 is the first contact site 21 described in butt upwards, make to have formed prestressing force between described static terminal 2 and described moved end 3, the positive force that provides described the first contact site 21 and described the second contact site 31 to connect, further, be to provide the upwards positive force of the first contact site 21 described in butt of described the second contact site 31, thereby can be when described coaxial connector work, rely on this positive force to maintain the electric connection of 31 of described the first contact site 21 and described the second contact sites, thereby make described static terminal 2 and described moved end 3 keep electrically conducting.
The utlity model has following beneficial effect:
1. described the first contact site 21 1 sides due to described static terminal 2 have one first guiding face 211, described the second contact site 31 that can guide described moved end 3 moves down, thereby can realize described the second contact site 31 to move to described the first contact site 21 belows and depart from described the first contact site 21, be that described moved end son 3 can depart from smoothly with described static terminal 2, thereby guarantee good switching function.
2. because described insulating body is provided with described support portion 17, described first contact site 21 of described static terminal 2 is overlapped on described support portion 17, thereby described the first contact site 21 of described support portion 17 support, prevents that described static terminal 2 is out of shape downwards.
3. because coordinating respectively the moulding of described insulating body to be embedded in described insulating body, described static terminal 2 and described moved end 3 (that is to say, described static terminal 2 and described moved end 3 all adopt insert molding technique to be fixed in described insulating body), therefore can facilitate described moved end son 3 and described static terminal 2 to be installed in described insulating body, and this structure is easily manufactured and dimensionally stable, has improved product quality and production efficiency.
4. the described elastic arm 32 due to described moved end 3 drives described carrier 18 to move down together, described in mat carrier 18 support its below object (in the present embodiment below object be circuit board 200, in other embodiment, can be other) to prevent that described moved end 3 from excessively moving down, therefore described moved end 3 prevents that without separately establishing a structure described moved end 3 from excessively moving down, thereby described moved end son 3 is simple in structure.
5. because being provided with described stop section 45, described insulating body is pressed in described the second contact site 31 tops, described in 45 blocks of described stop section, the second contact site 31 moves up, therefore can prevent that described the second contact site 31 is upturned, thereby guarantee described moved end son 3 and described static terminal 2 good contacts.
More than describing in detail is only the explanation of the preferred embodiment of the utility model, non-so limit to the scope of the claims of the present utility model, so the equivalence techniques that all this creation of utilization specifications and diagramatic content are done changes, and is all contained in the scope of the claims of the present utility model.
Claims (16)
1. a coaxial connector, in order to be welded in a circuit board and to peg graft downwards for a docking facilities, is characterized in that, comprising:
One insulating body, is provided with at least one stop section;
One static terminal, is fixed on described insulating body, and described static terminal is provided with one first contact site;
One moved end, is fixed on described insulating body, and described moved end is provided with one second contact site, is positioned at below, described stop section;
Before described coaxial connector is welded in described circuit board, described the second contact site is in described the first contact site top, and the second contact site moves up described in the block of described stop section;
When described docking facilities inserts described coaxial connector, described docking facilities presses down described moved end, and described moved end moves down described the second contact site and described the first contact site are departed from;
When described docking facilities leaves after described coaxial connector, described the second contact site the first contact site described in butt that makes progress.
2. coaxial connector as claimed in claim 1, is characterized in that: described stop section is connected to the end of described the second contact site.
3. coaxial connector as claimed in claim 1, is characterized in that: described the second contact portion fork-shaped Cheng Liangge branch, described insulating body corresponding described in each branch be respectively equipped with described stop section.
4. coaxial connector as claimed in claim 3, is characterized in that: described insulating body is provided with a slot to make way between two described stop sections, and described slot to make way is positioned at directly over described the first contact site.
5. coaxial connector as claimed in claim 1, is characterized in that: before described coaxial connector is welded in described circuit board, described the second contact site is overlapped on described the first contact site.
6. coaxial connector as claimed in claim 5, it is characterized in that: described the first contact site one side has one first guiding face, described the second contact site is overlapped on described the first guiding face, makes described the first guiding face guide described the second contact site and moves down.
7. coaxial connector as claimed in claim 6, is characterized in that: described the second contact site is provided with one second guiding face coincideing with described the first guiding face, and described the second guiding face is overlapped on described the first guiding face.
8. coaxial connector as claimed in claim 6, is characterized in that: the end face of described the second contact site is lower than the end face of described the first contact site.
9. coaxial connector as claimed in claim 1, is characterized in that: described insulating body is provided with a fixed part for fixing described static terminal, from described fixed part one side, extends to form a support portion, and described the first contact site is overlapped on described support portion.
10. coaxial connector as claimed in claim 1, is characterized in that: described static terminal and described moved end all coordinate the moulding of described insulating body and be embedded in described insulating body.
11. coaxial connectors as claimed in claim 1, it is characterized in that: described insulating body is provided with a carrier, between described carrier and its below object, there is gap, described moved end is provided with the elastic arm being connected with described the second contact site and engages described carrier, when described elastic arm is pressed down, described elastic arm drives described carrier to move down together, and carrier supports its below object and excessively moves down to prevent described the second contact site described in mat.
12. coaxial connectors as claimed in claim 11, is characterized in that: described below object is circuit board.
13. coaxial connectors as claimed in claim 11, is characterized in that: described carrier comprises and is positioned at a base portion of described moved end below and from the upwardly extending protuberance of described base portion, described moved end is provided with a hole and engages with described protuberance.
14. coaxial connectors as claimed in claim 13, is characterized in that: described base portion comprises the elastic portion being connected with described insulating body and the extension extending from described elastic portion, and the thickness of described elastic portion is thinner than described extension.
15. coaxial connectors as claimed in claim 14, it is characterized in that: described extension has one first lower surface being connected with described elastic portion, and one second lower surface being connected with described the first lower surface, described the second lower surface to the distance between the object of described below increases gradually along the direction near described static terminal.
16. coaxial connectors as claimed in claim 15, is characterized in that: described the second lower surface is inclined-plane, and when described carrier supports its below during object, described the second lower surface is a horizontal plane and described below object supports.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320561461.7U CN203536675U (en) | 2013-09-11 | 2013-09-11 | Coaxial connector |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320561461.7U CN203536675U (en) | 2013-09-11 | 2013-09-11 | Coaxial connector |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN203536675U true CN203536675U (en) | 2014-04-09 |
Family
ID=50422852
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201320561461.7U Expired - Fee Related CN203536675U (en) | 2013-09-11 | 2013-09-11 | Coaxial connector |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN203536675U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107425381A (en) * | 2017-04-01 | 2017-12-01 | 广东杰思通讯股份有限公司 | Coaxial connector |
| CN113725662A (en) * | 2020-05-26 | 2021-11-30 | 富士康(昆山)电脑接插件有限公司 | Coaxial connector and method of manufacturing the same |
-
2013
- 2013-09-11 CN CN201320561461.7U patent/CN203536675U/en not_active Expired - Fee Related
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107425381A (en) * | 2017-04-01 | 2017-12-01 | 广东杰思通讯股份有限公司 | Coaxial connector |
| CN107425381B (en) * | 2017-04-01 | 2019-08-09 | 广东杰思通讯股份有限公司 | Coaxial connector |
| CN113725662A (en) * | 2020-05-26 | 2021-11-30 | 富士康(昆山)电脑接插件有限公司 | Coaxial connector and method of manufacturing the same |
| CN113725662B (en) * | 2020-05-26 | 2023-07-18 | 富士康(昆山)电脑接插件有限公司 | Coaxial connector and method of manufacturing the same |
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