TWM422805U - Receptacle connector - Google Patents

Description

M422805 V. New description: [New technical field] This creation involves a kind of connector', especially related to a socket connector with a magnetic block. [Prior Art] According to the continuous development of electronic products, the connection between various electronic products and their peripheral devices is more and more complicated, and it is common to connect between electronic products and their peripheral devices through connectors. Connection method. The connector is an input/output connector, and includes a socket connector disposed in an electronic component and a plug connector disposed in the other electronic component, and the socket connector and the plug connector can realize two electrons. Electrical connection between components and signal transmission. In order to make the connection between the socket connector and the plug connector more reliable, a conventional design is to provide a magnet in the plug connector, and a magnetic block is arranged in the socket connector, and the magnet in the plug connector is adsorbed. The magnetically conductive blocks in the socket connector make the two connector connections more reliable and stable. However, although the magnet and the magnetic conductive block are disposed in the connector by the magnet adsorption principle, the connection between the male and female connectors can be strengthened. However, the magnetic conductive block disposed in the socket connector needs to be fixed by dispensing. The socket connector increases the manufacturing process of the connector and reduces the production efficiency. [New Content] The purpose of this creation is to provide a magnetically permeable block that is directly attached to the socket connector without the need for a glued fixed socket connector. In order to achieve the above object, the socket connector provided by the present invention comprises an insulating body, a terminal group and a magnetic conductive block, and a plurality of terminal slots are formed on the insulating body, the terminal group is clamped on the insulating body and each terminal is respectively fixed to a terminal. In the slot, the 3 M422805 2 body is provided with a - holding portion, a domain portion ... (4) is mounted on the insulative body with the f magnetic block; the magnetic blocking block is provided with a snap portion, a holding = a boss 2 The catching portions are buckled with each other, and the retaining portion is retained against the inner wall of the retaining portion. ^别-Placed in the chute and blocked in the block as described above. 'The original socket connector is snapped by the snap portion and the retaining portion, and the retaining portion is held on the lower surface of the resisting portion, and the two bosses are left and right. The ends are respectively placed in the sliding groove to be held on the inner wall of the blocking portion, so that the magnetic guiding block is directly fixed on the insulating body, thereby improving production efficiency and reducing cost. [Embodiment] The technical contents, structural features, achieved goals, and effects of the present invention are described in detail below, and are described in detail below with reference to the drawings. Referring to FIG. 4 to FIG. 4 , the socket connector includes an insulative housing 10 , a terminal set 20 , and a magnetic conductive block 3 . The terminal set 2G is clamped on the insulating body 1 , and the magnetic conductive block 30 is clamped. At the front end of the insulating body 10. Please refer to the first, second, and third and fourth figures. The insulative housing (7) has a block-shaped base body 11'. The front end of the base U protrudes upwardly and rearwardly with a latching cymbal 12, and the front surfaces of the base body 11 are respectively forwardly forward. The connecting portion η is formed, and the middle portion of the front surface of the body 11 is provided with a plate 14 extending upward from the τ to the upper surface of the holding block 12; the connecting portion 13, the convex plate 14 and the base body u respectively define a receiving groove b. The left and right ends of the front surface of the holding block 12 are respectively extended forwardly and then oppositely extended to the inner side of the connecting portion 13 of the second retaining portion m'. The arcuate card 131 is protruded inwardly, and the upper left end of the convex plate 14 is protruded to the left. Forming a resisting portion 141. The resisting portion ^ and the retaining block 12* are surrounded by a sliding slot 16 that communicates with the receiving groove 15. As shown in the fifth figure, the front surface of the convex plate 14 defines a plurality of 4 M422805 holding grooves 17 extending from the top to the bottom of the base body u, and a plurality of terminal slots 18 are respectively opened from the front side groove wall of the holding groove 17 to the rear. The terminal groove 18 extends rearward to the rear surface of the base 11 and communicates with the holding groove 17. The front surface of the convex plate 14 is respectively provided with a through groove 19 corresponding to a holding groove 17 and connected to the outside and communicating with the outside. Referring to the second and third figures, the terminal set 20 is integrally formed on the insulating body 10 and includes a power terminal 21, a ground terminal 22, and a signal terminal 23. The power terminal 21 has a strip-shaped base arm 210. The left and right ends of the base arm 210 extend vertically downward to form a contact arm 211. The lower end of the lower end of the contact arm 211 extends downwardly and then extends upwardly away from the contact arm 211 to form an elastic body. The crimping portion 212 of the base end 210 of the power terminal 21 extends horizontally and then extends downward to form a grounding terminal 22; the signal terminal 23 includes a strip-shaped contact arm 231 extending vertically downward and a contact arm 231 The central portion of the lower end is bent downward to form an elastic crimping portion 232. Referring to the first to fourth figures, the magnetic conductive block 30 is made of a magnetic conductive material. In this embodiment, the magnetic conductive block 30 is made of a magnetic conductive metal material, and has a main board 31 and a main board. The two ends of the 31 are respectively protruded outwardly and outwardly to form a boss 32. The two bosses 32 and the main plate 31 enclose a receiving slot 33 opposite to the protruding plate 14; 31 and a slot 311 communicating with the receiving groove 33. A retaining portion 34 is formed on the side of the boss 32. The lower end of each of the bosses 32 extends outwardly to form a latching portion 35 opposite to the latching portion 131. The latching portion 35 is provided with a latching portion 35. The guide slope 351 is inclined downward and outward, and the lower end of the guide slope 351 is arcuately connected to the lower side of the engaging portion 35. When the socket connector is assembled, the terminals of the terminal group 20 are integrally formed in a terminal slot 18, specifically, the contact arm 211 of the power terminal 21 and the contact arm 231 of the signal terminal 23 are respectively inserted into a card holder. In the slot 17, the crimping portion 212 of the power terminal 21 and the crimping portion 232 of the signal terminal 23 are connected to a corresponding circuit board (not shown) by a crimping method 5 M422805; then, the magnetic conductive block 30 is accommodated. The groove 33 is disposed on the rear side of the positioning body 30 from the bottom, and the receiving groove 33 corresponds to the convex plate 14. The two bosses 32 slide upward along the receiving groove 15, and the engaging portion 35 follows the clamping. The portion 131 is moved and guided by the guide inclined surface 351 to slide over the latching portion 131. Finally, the latching portion 35 and the latching portion 131 are engaged with each other, and the retaining portion 34 is retained on the lower surface of the resisting portion 141. The left and right ends are respectively received in a sliding slot 16 and are retained on the inner wall of the blocking portion 121. In operation, the terminals of the mating connector (not shown) pass through the slot 311 and the slot 19 to contact the contact arms of the terminal block 20 for signal transmission. As described above, the original socket connector is engaged with the latching portion 131 by the latching portion 35, and the retaining portion 34 is retained on the lower surface of the resisting portion 141. The left and right ends of the two bosses 32 are respectively accommodated in a chute. The inside of the retaining portion 121 is retained in the inner wall of the retaining portion 121, so that the magnetic conductive block 30 is directly fixed to the insulative housing 10, thereby improving production efficiency and reducing cost. [Simple description of the drawing] The first figure is a perspective view of the creative socket connector. The second figure is an exploded perspective view of the socket connector shown in the first figure. The third figure is an exploded perspective view of another angle of the insulative housing of the receptacle connector shown in the first figure. The fourth figure is a partial cross-sectional view of the socket connector shown in the first figure. The fifth figure is a partial enlarged view of the socket connector A shown in the fourth figure. [Main component symbol description] Insulating body 10 Base 11 Holding block 12 Retaining part 121 6 Connecting part 13 Retaining part convex plate 14 Resisting part receiving groove 15 Chute holding groove 17 Terminal groove through groove 19 Terminal group power supply terminal 21 Base arm contact arm 211, 231 crimping part 212 grounding terminal signal terminal 23 crimping part magnetic conducting block 30 main board slot 311 boss receiving groove 33 holding part engaging part 35 guiding inclined surface

Claims (1)

M422805, the scope of application for patents: 1. A socket connector comprising: an insulative housing having a plurality of terminal slots formed therein; a terminal block, being clamped on the insulative housing, each terminal being respectively held in a terminal slot; and a magnetically conductive The block is arranged at the front end of the insulating body. 2. The socket connector of claim 1, wherein the insulative housing has a base body, and a middle portion of the front end of the base body protrudes upwardly and rearwardly, and a connecting portion is respectively protruded forwardly to form a connecting portion. a central portion of the front surface of the base body is provided with a convex plate extending from the bottom to the upper surface of the holding block; the connecting portion, the convex plate and the base body respectively define a receiving groove, and the left and right ends of the front surface of the holding block respectively extend forward and then relatively inward A retaining portion is formed, and an arc-shaped retaining portion is respectively protruded inwardly of the connecting portion, and an upper end of the convex plate protrudes to form a resisting portion, and the resisting portion and the holding block respectively surround the receiving slot Chute. 3. The socket connector of claim 2, wherein the magnetic conductive block has a main board, and the left and right ends of the main board protrude outwardly and outwardly to form a boss, and the two protrusions are integrated with the main board. a receiving slot opposite to the convex plate; a corresponding slot on the main board defines a slot extending through the main board and communicating with the receiving slot; and a side of the boss is provided with a retaining portion extending from the bottom to the top, two The lower end of the boss extends outwardly to form a latching portion opposite to the latching portion. The latching portion is provided with a downwardly inclined guiding slope, and the lower end of the guiding slope is arc-shapedly connected to the lower side of the engaging portion. 4. The socket connector of claim 3, wherein the terminal set is integrally formed on the insulative housing, and includes a power terminal, a ground terminal, and a signal terminal, wherein the power terminal has a base arm The left and right ends of the base arm respectively extend vertically downward to form a contact arm, and a lower end of the lower end of the contact arm extends downwardly and then extends upward away from the contact arm to form an elastic crimping portion; the base arm of the power supply 8 M422805 terminal One end of the upper end extends horizontally and then extends downward to form the grounding terminal; the signal terminal includes a vertically downwardly extending contact arm and a crimping portion formed by a meandering downwardly extending from a lower end of the lower end of the contact arm. 5. The socket connector of claim 4, wherein the front surface of the convex plate of the insulating body defines a plurality of holding grooves extending from the top to the bottom to the base body, and the rear side groove wall of the retaining groove is downward. A plurality of terminal slots are respectively opened, and the terminals of the terminal group are integrally formed in a terminal slot, and the contact arms of the power terminal and the contact arms of the signal terminals are respectively inserted into a holding slot. 6. The socket connector of claim 5, wherein the front surface of the convex plate respectively defines a through groove corresponding to the holding groove and communicating with the holding groove and communicating with the outside, the magnetic conductive A slot is formed in the corresponding slot on the block.