TW201018016A - Connector - Google Patents

Abstract

The present invention relates to a connector. The connector includes an insulating body, a shell and a fixing bar disposed between the insulating body and the shell. The insulating body includes a front surface, a back surface and two side surfaces. The insulating body defines a receiving space extending from the side surface thereon and a first through grooves for communicating with the receiving space. Two symmetrical first spring plates extend from the shell housing the insulating body to the receiving space. The fixing bar cinctures the insulating body and extends to the first through grooves. A second spring plate extends from the fixing bar closing to the first spring plate to the space between the first spring plate and the side surface. The connector can help the first spring plate to reset.

Description

201018016 IX. Description of the invention: [Technical field to which the invention pertains] • The present invention relates to a connector. [Prior Art] Connectors are widely used in electronic devices such as computers, and multiple different electronic devices can be connected through the connection of data lines to realize data exchange. The data line generally has a data line connector connected to the connector, and the outer wall of the data line connector is covered with a metal layer. The connector comprises an insulating body and a metal casing, the insulating body comprising two oppositely disposed front and back faces, two oppositely disposed top and bottom faces and two oppositely disposed sides. The front surface of the insulating body is recessed inwardly with a receiving space for receiving the data line connector. The two sides also have a through groove on one side of the front surface, and the through groove extends from the side to the receiving space. The metal casing is sleeved on the insulating body, and the metal casing extends two symmetric first elastic pieces in a direction corresponding to the receiving space, when the data wire connector is inserted into the receiving space. The data line connector forcibly deforms the first elastic piece, and the deformation of the first elastic piece fixes the data line connector in the receiving space. At the same time, the first elastic piece is in contact with the metal layer. When the outer casing is connected to the grounding end of the circuit board, the noise signal mask of the connector can be realized. However, when the first elastic piece is repeatedly used, its elasticity gradually fails, so that the first elastic piece is difficult to be reset after being pressed by the data line connector, and cannot be effectively contacted with the data line connector. Therefore, the data cable connector cannot be made effective. 7 201018016 At the same time, the connector cannot effectively mask the noise signal. SUMMARY OF THE INVENTION In view of the above, it is necessary to provide a connector for effectively shielding a noise signal. The connector includes an insulating body and a casing. The insulating body includes two opposite front and back faces, two a pair of oppositely disposed top and bottom surfaces and two oppositely disposed sides. The front surface of the insulating body is recessed with a receiving space, and the two side lines further have a side-side extension a first through slot to the receiving space. The insulating body has a ring groove surrounding the insulating body, the ring groove is connected to the two sides through the back surface and the two sides, and the outer sleeve is Provided on the insulating body, the outer casing extends two symmetrical first elastic pieces in a direction corresponding to the receiving space at a position corresponding to the through-groove. The connector further comprises a disposed between the insulating body and the outer casing. a fixing strip, the fixing strip includes a fixing portion and two fastening portions extending from the two ends of the T fixing portion, the fixing portion is engaged with the smashing groove, the buckle portion extends to the first through groove and The first _ shrapnel is adjacent, the The buckle/0 extends in a direction of the first elastic piece to extend a second elastic piece extending between the first elastic piece and the side surface. Compared with the prior art, the connector provided by the present invention passes through the first elastic piece and the A second elastic piece is disposed between the side surfaces to help the first elastic piece to be reset when the first elastic piece fails or the elasticity is insufficient, so that the first elastic piece can be effectively contacted with the data wire joint inserted into the connector, thereby effectively realizing [Embodiment] 8 201018016 The embodiments of the present invention will be further described in detail with reference to the accompanying drawings. Referring to FIG. 1 and FIG. 2, a connector 100 according to an embodiment of the present invention is provided. The utility model comprises an insulating body 10, a casing 20 and a fixing strip 30. The casing 20 is wrapped around the insulating body 10, and the fixing strip 30 is disposed between the insulating body 10 and the casing 20. The insulating body 10 is substantially rectangular parallelepiped. The utility model comprises two oppositely disposed front faces 11 and back faces 12, two oppositely disposed top faces 13 and bottom faces 14 and two oppositely disposed side faces 15. The insulating body 10 has an inwardly directed face 11 a recessed space 111 for accommodating a data line connector (not shown), and a plurality of contact strips 112 on one side of the receiving space 111. The bottom surface 14 extends in a direction away from the insulating body 10 The pin 141 is integrally formed with the contact strip 112. The insulating body 10 further includes two symmetrically disposed first through slots 151, and the two first through slots 151 are respectively disposed on the two sides. 12 is adjacent to one side of the front surface 11 , and the first through slot 151 extends from the side surface 12 to the receiving space 111. In the embodiment, the insulating body 10 further includes two sides 12 along the two sides 12 The recess 152 is disposed between the first through slot 151 and the front surface 11 and is connected to the first through slot 151. The insulating body 10 further has a ring groove 16 surrounding the insulating body 10, and the ring groove 16 is connected to the two first through grooves 151 via the back surface 12 and the two side surfaces 15. The outer casing 20 includes a first side wall 21 corresponding to the top surface 13, two second side walls 22 corresponding to the two side surfaces 15, and a third side wall 26 corresponding to the back surface 12. Each of the second side walls 22 has a second 9 201018016 channel 23, a first elastic piece 24 and a protrusion 25. The two second through grooves 23 are symmetrically disposed on the second side wall 22 and correspond to the position of the first through groove 151. The first elastic piece 24 extends from the side of the second through groove 23 adjacent to the front surface 11 toward the receiving space 111 at an angle. In the present embodiment, the first elastic piece 24 is a "V" shaped elastic piece, and the convex portion 241 of the first elastic piece 24 faces the accommodation space 111. It can be understood that when the data cable connector is inserted into the receiving space 111, the data cable connector forces the first elastic piece 24 to deform, and the first elastic piece 24 is deformed to fix the data wire connector to the housing space. 111. The protrusion 25 extends from the second side wall 22 toward the side of the front surface 11 in a direction away from the second side wall 22, and corresponds to the notch 152. In the present embodiment, the outer casing 20 is made of metal. The housing 20 can also have a plurality of solder fillets. When the solder fillets are soldered to a circuit board, the grounding function of the housing 20 can be achieved. In this embodiment, the outer casing 20 is directly disposed on the circuit board to implement the fixing and grounding functions. The fixing strip 30 includes a fixing portion 31 and a locking portion 32. The fixing portion 31 has a substantially U-shape and corresponds to the annular groove 16 and is embedded in the annular groove 16. The thickness of the fixing portion 31 is slightly larger than the depth of the annular groove 16. It can be understood that when the fixing strip 30 is inserted into the annular groove 16, the fixing portion 31 can resist the inner wall of the outer casing 20, thereby preventing the outer casing 20 from being relatively insulated. The main body 10 is shaken. The latching portion 32 is bent from the end of the fixing portion 31 toward the receiving space 111 and extends into the receiving space 111. The latching portion 32 is adjacent to the first elastic piece 24, and the latching portion 32 is adjacent to the top surface 13 and the first elastic piece 24 is adjacent to the bottom surface 14. A second elastic piece 321 is extended in the direction of the bottom surface 14 , and the second elastic piece 321 extends between the first elastic piece 24 and the side surface 15 of the 201018016. The second elastic piece 321 is '' The v-shaped elastic piece has a convex portion 322 facing the receiving space 1] L1. In the embodiment, the fixing strip 30 is made of metal. It can be understood that the fixing strip 30 can also be made of other conductive materials. Referring to FIG. 3 and FIG. 4, when the connector 1 is assembled, the fixing strip 30 is first assembled in the outer casing 2, and the second elastic piece 321 is inserted into the first elastic piece 24 and Between the side faces 15 , the assembled outer casing 2 and the tamping purlin 30 are mounted on the insulating body 1 , and the protrusions 25 correspond to the notches 152 ′ the first elastic piece 24 and the buckle portion 32 . Corresponding to the first through slot 151; adjusting the fixing strip 30' to correspond to the annular groove 16. When the first elastic piece 24 is deformed by the data line joint, the second elastic piece 321 will also receive the first The deformation of the elastic piece 24 causes deformation, and when the data line connector is pulled out, the second elastic piece 321 will speed up the first The spring piece 24 recovers. Therefore, when the first elastic piece 24 fails, the second elastic piece 321 also returns the first elastic piece 24 to the receiving space in. 连接 The connector provided by the present invention is compared with the prior art. By providing a second elastic piece between the first elastic piece and the side surface, the first elastic piece can be reset when the first elastic piece fails or the elasticity is insufficient, so that the first elastic piece can be inserted with the material inserted into the connector. The wire connector is effectively contacted, thereby effectively implementing the mask of the noise signal. In summary, the present invention has indeed met the requirements of the invention patent, and the patent application is filed according to law. However, the above is only a preferred implementation of the present invention. In this way, the scope of the patent application in this case cannot be limited. Any equivalent modifications or variations made by those skilled in the art to the spirit of the present invention are included in the scope of the following patent application. Fig. 1 is an exploded perspective view of a connector according to an embodiment of the present invention. Fig. 2 is an exploded perspective view of the connector of Fig. 1. Fig. 3 is a perspective view of the connector of Fig. 1. FIG. 4 is a structural schematic view of the assembled structure of the connector of FIG. 1. [Main component symbol description] 〇 connector 100 insulating body 10 housing 20 fixing strip 30 front surface 11 back surface 12 top surface 13 bottom surface 14 side surface 15 Ring groove 16 accommodating space 111 contact strip 112 pin 141 first through groove 151 notch 152 first side wall 21 second side wall 22 second through groove 23 first elastic piece 24 protrusion 25 third side wall 26 convex portion 241 ' 322 fixed Second elastic piece 31 321 fastening portion 32 12

Claims (1)

201018016 X. Patent application scope: -1.- Kind of connection n 'It includes m body and - casing, the dragon edge body includes two opposite δ and the front and back sides, two oppositely disposed top and bottom faces and two a side surface of the opposite body, the front surface of the insulating body is recessed inwardly with a receiving space, and the sides of the two sides adjacent to the front surface further have a first through slot extending from the side to the receiving space, the outer casing The outer casing of the insulating body is disposed at a position corresponding to the through-groove to extend two symmetrical first-spring pieces in a direction close to the receiving space, and the improvement is that the connecting connector further comprises: a strip between the insulating body and the outer casing, the insulating body having a ring groove surrounding the insulating body, the ring groove is connected to the two first through grooves via the surface and the two sides, the fixing strip includes a fixing portion and two fastening portions extending from the two ends of the fixing portion, the fixing portion is engaged with the ring groove, and the locking portion extends to the first through groove and adjacent to the first elastic piece, the card The buckle portion extends in a direction close to the first elastic piece a second elastic piece between the first elastic piece and the side surface. _ 2. The connector of claim j, wherein a side of the receiving space is provided with a plurality of contact strips extending from a plurality of pins away from the insulating body, the pin It is an integral structure with the contact strip. The connector of claim </ RTI> wherein the insulating body advance comprises two notches recessed inwardly along the two sides, the mouth being disposed between the first through slot and the front surface, and The first through-plane 1 includes a first side wall corresponding to the top surface, and two second side walls respectively corresponding to the two sides And a third sidewall corresponding to the back surface. ... 13 201018016 ...the connection described in item 4 of the patent scope has a second through slot T and a first side wall gamma (4) "the first through slot is disposed on the second side wall, and = the position of a through slot Correspondingly, the first elastic piece extends from the one side of the second through groove to the direction of the receiving space at a constant angle. 6. The connector of the third aspect of the patent application scope is缺 对应 对应 对应 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳 外壳The connector of the first aspect of the invention, wherein the outer casing is made of a gold shield, such as the connector of claim 1, wherein the thickness of the fixing portion is slightly larger than the depth of the annular groove. The connector of the first aspect of the invention, wherein the second elastic piece is a ν-shaped elastic piece, and the convex portion of the second elastic piece faces the receiving space. The connector of the item, wherein the fixing strip is made of a conductive material. Item 11. The patentable scope of the connector, wherein the conductive material is a metal.