CN216436154U

CN216436154U - Socket assembly of electric connector

Info

Publication number: CN216436154U
Application number: CN202122965509.8U
Authority: CN
Inventors: 冯常雄
Original assignee: Dongguan Qiuyao Electronic Technology Co ltd
Current assignee: Dongguan Qiuyao Electronic Technology Co ltd
Priority date: 2021-11-29
Filing date: 2021-11-29
Publication date: 2022-05-03
Anticipated expiration: 2031-11-29

Abstract

The utility model discloses a jack component of an electric connector, which comprises a conductive component, the conductive component comprises a cable connecting part for connecting a cable, and a connecting plate, the connecting plate is provided with a connecting hole, a conductive sleeve is arranged below the connecting plate, the upper end of the conductive sleeve is provided with a connecting post which is inserted into the connecting hole and fixedly connects the conductive sleeve on the connecting plate, the conductive sleeve is provided with a conductive step which is pressed on the bottom surface of the connecting plate from the bottom and enables the conductive step and the connecting plate to be electrically connected, the inner side of the conductive sleeve is provided with a crown spring made of conductive metal, the inner side of the upper end of the crown spring is provided with a rivet which is used for extruding and tightly fixing the crown spring on the inner wall of the conductive sleeve from the inside to the outside, the lower end sleeves of the conductive sleeve and the crown spring are sleeved with jack caps which are tightly extruded and tightly connected together from the inside to the outside, the middle part of the jack caps is provided with through holes for the conductive posts to pass through to be plugged with the crown spring, the jacks formed by the crown spring, the jack has good stability of plugging with the conductive posts of a socket, the plug and the socket are connected stably and reliably in a plugging state.

Description

Socket assembly of electric connector

[ technical field ] A method for producing a semiconductor device

The utility model relates to an electric connector's socket subassembly.

[ background of the invention ]

The energy storage connector is an important functional element on the energy storage device, the existing energy storage connector mainly comprises a plug and a socket, wherein a jack component on the plug mainly comprises a conductive part and a conductive sleeve, the conductive part is used for being connected with a cable, the conductive sleeve is used for being plugged with a conductive column of the socket to realize the electric connection of the plug and the socket, the energy storage connector is widely applied to automobiles and renewable energy power generation, the connection stability and reliability between the energy storage connector and the cable directly influence the performance of the energy storage device, and the connection performance is reduced due to the fact that the conductive sleeve and the conductive column are easy to loosen.

The utility model discloses just make based on the condition.

[ Utility model ] content

The utility model discloses a not enough of prior art has been overcome to the purpose, provides a simple structure and with lead the jack subassembly of electrical connector of electrical pillar reliable and stable of pegging graft, can be used to energy storage connector's plug, and other have the conductive sleeve and lead the connector of the grafting cooperation structure of electrical pillar.

The utility model discloses a realize through following technical scheme:

the utility model provides an electric connector's jack subassembly, includes conductive part, conductive part is including the cable connecting portion that is used for connecting the cable to and the connecting plate, be equipped with the connecting hole on the connecting plate, the connecting plate below is equipped with the conductive sleeve, the conductive sleeve upper end is equipped with inserts the spliced pole on the connecting plate of conductive sleeve fixed connection in the connecting hole, be equipped with from the basement on the conductive sleeve and press on the connecting plate bottom surface and make the two electrically conductive step of electric connection, the conductive sleeve inboard is equipped with the hat spring of making by conductive metal, the upper end inboard of hat spring is equipped with and is used for pasting the rivet on the inner wall of conductive sleeve with the hat spring from interior toward the outer extrusion tightly fixed, the lower pot head of conductive sleeve and hat spring has the jack cap that pastes tightly the inside and outside extrusion of the two together, jack cap middle part is equipped with the through-hole and supplies to lead electrical pillar and pass and hat spring and peg graft.

The jack assembly of the electric connector is characterized in that the connecting column is in interference fit with the connecting hole.

In the jack assembly of the electrical connector, the connecting column is smaller than the conductive sleeve, and a pressing step for pressing the rivet is formed on the inner side of the conductive sleeve.

According to the jack assembly of the electric connector, the connecting column is provided with the fixing hole communicated with the conductive sleeve, the nail column of the rivet is upwards inserted into the fixing hole, and the nail column of the rivet is in interference fit with the fixing hole.

According to the jack assembly of the electric connector, the through hole and the crown spring are coaxially arranged, and the aperture of the through hole is larger than the inner diameter of the insertion part of the crown spring.

The jack assembly of an electrical connector as described above, the jack cap is made of a metal material and has an annular groove that fits and presses the conductive sleeve and the lower end of the crown spring inside.

The socket assembly of an electrical connector as described above, the rivet is made of a metal material.

Compared with the prior art, the utility model discloses there is following advantage: the utility model discloses form the jack by the hat spring, through hat the spring structure, can with the socket lead electrical pillar interference fit, hat spring middle part sand grip when pegging graft and take place elastic deformation to compress tightly on leading electrical pillar, make plug and socket connect reliable and stable under the grafting state. In addition, the crown spring and the conductive sleeve are tightly fixed together through the rivet and the jack cap from the upper end and the lower end, so that when the convex strip in the middle of the crown spring is extruded and deformed in the inserting process, the two ends of the crown spring cannot be tilted to form a gap with the conductive sleeve, and the connection stability is good.

[ description of the drawings ]

The following detailed description of embodiments of the present invention is provided with reference to the accompanying drawings, in which:

fig. 1 is an exploded view of a jack assembly of an electrical connector of the present invention;

fig. 2 is a cross-sectional view of a jack assembly for an electrical connector according to the present invention.

[ detailed description ] embodiments

The invention will be further described with reference to the accompanying drawings:

as shown in fig. 1 and 2, the jack assembly of an electrical connector comprises a conductive part 1, wherein the conductive part 1 comprises a cable connecting part 11 for connecting a cable, and a connecting plate 12, a connecting hole 13 is arranged on the connecting plate 12, a conductive sleeve 2 is arranged below the connecting plate 12, a connecting post 21 inserted into the connecting hole 13 and fixedly connecting the conductive sleeve 2 to the connecting plate 12 is arranged at the upper end of the conductive sleeve 2, a conductive step 22 pressed on the bottom surface of the connecting plate 12 from the bottom and electrically connecting the conductive step and the connecting plate 12 is arranged on the conductive sleeve 2, a crown spring 3 made of conductive metal is arranged inside the conductive sleeve 2, a rivet 4 used for pressing and tightly fixing the crown spring 3 on the inner wall of the conductive sleeve 2 from inside to outside is arranged inside the upper end of the crown spring 3, a jack cap 5 used for pressing and tightly pressing the conductive sleeve 2 and the crown spring 3 from inside to outside is sleeved at the lower end of the conductive sleeve, the middle part of the jack cap 5 is provided with a through hole 51 for the conductive column to pass through and be inserted with the crown spring 3. Through hat spring 3 structure, can with the socket lead electrical pillar interference fit, hat 3 middle part sand grips 31 of spring take place elastic deformation during grafting to compress tightly on leading electrical pillar, make plug and socket connect reliable and stable under the grafting state, avoid because not hard up that vibrations etc. lead to.

In addition, through rivet 4 and jack cap 5 from upper and lower both ends with hat spring 3 and conductive sleeve 2 hug closely fixedly together for the sand grip 31 at hat spring 3 middle part when the grafting in-process is by extrusion deformation, can not lead to hat spring 3 both ends perk and with the conductive sleeve 2 between produce the clearance, its connection stability is good.

The connecting column 21 is in interference fit with the connecting hole 13, the connecting sleeve and the connecting plate can be fixedly connected through the connecting column 21 in the connecting hole 13 in a tight fit mode, and the structure is simple.

The connecting column 21 is smaller than the conductive sleeve 2, a pressing step 23 for pressing the rivet 4 is formed on the inner side of the conductive sleeve 2, the rivet 4 presses the pressing step 23, the conductive step 22 can be attached to the bottom surface of the connecting plate 12, and therefore the conductive step 22 is more stably electrically connected with the bottom surface of the connecting plate.

Be equipped with the fixed orifices 24 of intercommunication conducting sleeve 2 on the spliced pole 21, the nail post 41 of rivet 4 upwards inserts in fixed orifices 24, the nail post 41 and the fixed orifices 24 interference fit of rivet 4 can prevent that rivet 4 from loosening, still can make spliced pole 21 and connecting hole 13 be connected more stable simultaneously.

The through hole 51 and the crown spring 3 are coaxially arranged, and the aperture of the through hole 51 is larger than the inner diameter of the insertion part of the crown spring 3.

The jack cap 5 is made of a metal material and has an annular groove 52 which is used for sleeving the lower ends of the conductive sleeve 2 and the crown spring 3 at the inner sides and tightly pressing the lower ends of the conductive sleeve 2 and the crown spring 3 together, and the lower ends of the conductive sleeve 2 and the crown spring 3 are electrically connected through the contact surfaces of the conductive sleeve 2 and the crown spring and are also indirectly electrically connected through the jack cap 5. Similarly, the rivet 4 is made of a metal material, and the upper ends of the conductive sleeve 2 and the crown spring 3 are electrically connected through the contact surface of the conductive sleeve and the crown spring, and are also indirectly electrically connected through the rivet 4.

Claims

1. A receptacle assembly for an electrical connector, comprising: the conductive part comprises a conductive part (1), the conductive part (1) comprises a cable connecting part (11) for connecting a cable and a connecting plate (12), a connecting hole (13) is formed in the connecting plate (12), a conductive sleeve (2) is arranged below the connecting plate (12), a connecting column (21) which is inserted into the connecting hole (13) and fixedly connects the conductive sleeve (2) to the connecting plate (12) is arranged at the upper end of the conductive sleeve (2), a conductive step (22) which is pressed on the bottom surface of the connecting plate (12) from the bottom to enable the conductive sleeve and the connecting plate to be electrically connected is arranged on the conductive sleeve (2), a spring crown (3) made of conductive metal is arranged on the inner side of the conductive sleeve (2), a rivet (4) which is used for tightly pressing and fixing the crown spring (3) on the inner wall of the conductive sleeve (2) from inside to outside is arranged on the inner side of the upper end of the crown spring (3), and a jack cap (5) which tightly presses and tightly adheres the conductive sleeve (2) from inside to outside is arranged at the lower end of the conductive sleeve and the conductive sleeve (3), the middle part of the jack cap (5) is provided with a through hole (51) for the conductive column to pass through and be inserted with the crown spring (3).

2. The receptacle assembly of an electrical connector of claim 1, wherein: the connecting column (21) is in interference fit with the connecting hole (13).

3. The receptacle assembly of an electrical connector of claim 2, wherein: the connecting column (21) is smaller than the conductive sleeve (2), and a pressing step (23) for pressing the rivet (4) is formed on the inner side of the conductive sleeve (2).

4. A jack assembly for an electrical connector as claimed in claim 3, wherein: be equipped with fixed orifices (24) of intercommunication conductive sleeve (2) on spliced pole (21), nail post (41) of rivet (4) upwards insert in fixed orifices (24), nail post (41) and fixed orifices (24) interference fit of rivet (4).

5. The receptacle assembly of an electrical connector according to any one of claims 1 to 4, wherein: the through hole (51) and the crown spring (3) are coaxially arranged, and the aperture of the through hole (51) is larger than the inner diameter of the insertion part of the crown spring (3).

6. The receptacle assembly of an electrical connector according to any one of claims 1 to 4, wherein: the jack cap (5) is made of a metal material and has an annular groove (52) for sleeving the lower ends of the conductive sleeve (2) and the crown spring (3) on the inner side and pressing the conductive sleeve and the crown spring together.

7. The receptacle assembly of an electrical connector according to any one of claims 1 to 4, wherein: the rivet (4) is made of a metal material.