The present application is based on, and claims priority from, China Patent Application No. 202020271411.5, filed Mar. 6, 2020, the disclosure of which is hereby incorporated by reference herein in its entirety.
The present invention generally relates to a plug connector, and more particularly to a plug connector with connector position assurance element capable of maintaining a plug-in status between the plug connector with connector position assurance element, and a socket connector, and a connector assembly including the plug connector with connector position assurance element, and the socket connector.
A conventional plug connector has a buckling portion that can be buckled to a socket connector, so that the plug connector and the socket connector enter a plug-in status.
However, the above-mentioned connection method is easy to separate the plug connector from the socket connector due to a pressure of an external force.
Therefore, it is necessary to provide an innovative connector assembly, the innovative connector assembly includes a plug connector with connector position assurance element, and a socket connector. The plug connector with connector position assurance element is capable of maintaining a plug-in status between the plug connector with connector position assurance element, and a socket connector.
An object of the present invention is to provide a plug connector with connector position assurance element which is inserted into and cooperated with a socket connector. Two sides of a surface of the socket connector are recessed inward to form two connecting spaces. The plug connector with connector position assurance element includes an insulating body, a plurality of terminals, a plurality of cables and a connector position assurance element. The insulating body defines a plurality of terminal slots longitudinally penetrating through the insulating body. Two sides of an upper surface of the insulating body protrude upward to form two protruding blocks spaced from each other. Two outer surfaces of the two protruding blocks oppositely protrude outward to form two positioning blocks. The upper surface of the insulating body protrudes upward and then is bent rearward to form a buckling portion projecting into a gap between the two protruding blocks. The two protruding blocks and the buckling portion are spaced from the upper surface of the insulating body to form a positioning space among the two protruding blocks, the buckling portion and the upper surface of the insulating body. The plurality of the terminals are assembled in the plurality of the terminal slots. Two opposite ends of each terminal have a connecting end and a fitting end. The connecting ends of the plurality of the terminals are connected to the plurality of the cables. The connector position assurance element is inserted to a top of the insulating body. The connector position assurance element has a base portion. Two sides of a front surface of the base portion protrude frontward to form two sliding portions. Middles of the two sliding portions define two sliding channels longitudinally extending and transversely penetrating through the middles of the two sliding portions. Each sliding channel has a first positioning hole and a second positioning hole. A middle of the front surface of the base portion extends frontward to form an abutting block located between the two sliding portions. The abutting block is disposed corresponding to the positioning space. When the socket connector and the plug connector with connector position assurance element are disengaged, the two positioning blocks are positioned in the two first positioning holes of the two sliding portions, the abutting block are without entering the positioning space. When the plug connector with connector position assurance element is inserted into the socket connector, the connector position assurance element is pushed forward, the two first positioning holes of the two sliding portions break away from the two positioning blocks in advance, so the connector position assurance element is able to move frontward by virtue of two sliding channels of the two sliding portions passing frontward through the two positioning blocks, and the connector position assurance element is switched to buckle the two positioning blocks in the two second positioning holes of the two sliding portions, at the same time, the abutting block enters the positioning space and abuts upward against the buckling portion, so the positioning space is filled up to make the buckling portion have no way of being pressed down, front ends of the two sliding portions enter the two connecting spaces, and then a plug-in status between the plug connector with connector position assurance element, and the socket connector is maintained.
Another object of the present invention is to provide a plug connector with connector position assurance element inserted into and cooperated with a socket connector. At least one side of a surface of the socket connector is recessed inward to form at least one connecting space. The plug connector with connector position assurance element includes an insulating body, a plurality of terminals and a connector position assurance element. At least one side of an upper surface of the insulating body protrudes upward to form at least one protruding block. An outer surface of the at least one protruding block protrudes outward to form at least one positioning block. The upper surface of the insulating body protrudes upward and then is bent rearward to form a buckling portion projecting to one side of the at least one protruding block. The at least one protruding block and the buckling portion are spaced from the upper surface of the insulating body to form a positioning space among the at least one protruding block, the buckling portion and the upper surface of the insulating body. The plurality of the terminals are assembled in the insulating body. The connector position assurance element is inserted to a top of the insulating body. The connector position assurance element has a base portion. At least one side of a front surface of the base portion protrudes frontward to form at least one sliding portion. A middle of the at least one sliding portion defines at least one sliding channel longitudinally extending and transversely penetrating through the middle of the at least one sliding portion. A front end of the at least one sliding channel expands outward to form at least one first positioning hole. A top and a bottom of a middle of the at least one sliding channel expand outward to form at least one second positioning hole. A middle of the front surface of the base portion extends frontward to form an abutting block located adjacent to one side of the at least one sliding portion. The abutting block is disposed corresponding to the positioning space. When the socket connector and the plug connector with connector position assurance element are disengaged, the at least one positioning block is positioned in the at least one first positioning hole of the at least one sliding portion. The abutting block is without entering the positioning space. When the plug connector with connector position assurance element is inserted into the socket connector, the connector position assurance element is pushed forward, the at least one first positioning hole of the at least one sliding portion breaks away from the at least one positioning block in advance, so the connector position assurance element is able to move frontward by virtue of the at least one sliding channel of the at least one sliding portion passing frontward through the at least one positioning block, and the connector position assurance element is switched to buckle the at least one positioning block in the at least one second positioning hole of the at least one sliding portion, at the same time, the abutting block enters the positioning space and abuts upward against the buckling portion, so the positioning space is filled up to make the buckling portion have no way of being pressed down, a front end of the at least one sliding portion enters the at least one connecting space, and then a plug-in status between the plug connector with connector position assurance element, and the socket connector is maintained.
Another object of the present invention is to provide a connector assembly. The connector assembly includes a socket connector, and a plug connector with connector position assurance element inserted into the socket connector. Two sides of an inner surface of a top wall of the socket connector are recessed inward to form two connecting spaces spaced from each other. The plug connector with connector position assurance element includes an insulating body, a plurality of terminals, a plurality of cables and a connector position assurance element. The insulating body defines a plurality of terminal slots longitudinally penetrating through the insulating body. Two sides of an upper surface of the insulating body protrude upward to form two protruding blocks spaced from each other. Two outer surfaces of the two protruding blocks oppositely protrude outward to form two positioning blocks. The upper surface of the insulating body protrudes upward and then is bent rearward to form a buckling portion projecting into a gap between the two protruding blocks. The two protruding blocks and the buckling portion are spaced from the upper surface of the insulating body to form a positioning space among the two protruding blocks, the buckling portion and the upper surface of the insulating body. The plurality of the terminals are assembled in the plurality of the terminal slots. Two opposite ends of each terminal have a connecting end and a fitting end. The connecting ends of the plurality of the terminals are connected to the plurality of the cables. The connector position assurance element is inserted to a top of the insulating body. The connector position assurance element has a base portion. Two sides of a front surface of the base portion protrude frontward to form two sliding portions. Middles of the two sliding portions define two sliding channels longitudinally extending and transversely penetrating through the middles of the two sliding portions. Each sliding channel has a first positioning hole and a second positioning hole. A middle of the front surface of the base portion extends frontward to form an abutting block located between the two sliding portions. The abutting block is disposed corresponding to the positioning space. When the socket connector and the plug connector with connector position assurance element are disengaged, the two positioning blocks are positioned in the two first positioning holes of the two sliding portions, the abutting block is without entering the positioning space. When the plug connector with connector position assurance element is inserted into the socket connector, the connector position assurance element is pushed forward, the two first positioning holes of the two sliding portions break away from the two positioning blocks in advance, so the connector position assurance element is able to move frontward by virtue of two sliding channels of the two sliding portions passing frontward through the two positioning blocks, and the connector position assurance element is switched to buckle the two positioning blocks in the two second positioning holes of the two sliding portions, at the same time, the abutting block enters the positioning space and abuts upward against the buckling portion, so the positioning space is filled up to make the buckling portion have no way of being pressed down, front ends of the two sliding portions enter the two connecting spaces, and then a plug-in status between the plug connector with connector position assurance element, and the socket connector is maintained.
As described above, the abutting block abuts against the buckling portion by virtue of the connector position assurance element to maintain the plug-in status between the socket connector and the plug connector with connector position assurance element.
The present invention will be apparent to those skilled in the art by reading the following description, with reference to the attached drawings, in which:
With reference to
The socket connector 1 is shown as a hollow shape. The socket connector 1 defines an insertion space 11 penetrating through a rear surface of the socket connector 1. The plug connector with connector position assurance element 2 is inserted into and connected to the insertion space 11 of the socket connector 1. The insertion space 11 of the socket connector 1 is cooperated with the plug connector with connector position assurance element 2. A rear of a top wall of the socket connector 1 defines a buckling hole 12 penetrating through the top wall of the socket connector 1 along an up-down direction. The buckling hole 12 is communicated with the insertion space 11.
At least one side of a surface of the socket connector 1 is recessed inward to form at least one connecting space 13. Two sides of the surface of the socket connector 1 are recessed inward to form two connecting spaces 13. Two sides of an inner surface of the top wall of the socket connector 1 are recessed inward to form the two connecting spaces 13 spaced from each other. The two connecting spaces 13 are communicated with the insertion space 11. The insertion space 11 of the socket connector 1 is equipped with a plurality of contact pins 14. The plurality of the contact pins 14 are configured to be soldered to a printed circuit board (PCB) by use of any suitable technology. Specifically, the plurality of the contact pins 14 are configured to be soldered to the printed circuit board by use of a surface-mounted device (SMD) technology, a pin in paste (PiP) solder technology, or etc.
With reference to
With reference to
An outer surface of the at least one protruding block 212 protrudes outward to form at least one positioning block 2121. Two outer surfaces of the two protruding blocks 212 oppositely protrude outward to form two positioning blocks 2121. The two outer surfaces of the two protruding blocks 212 oppositely protrude outward to form two stopping blocks 2122. The two stopping blocks 2122 are connected with rears of the two positioning blocks 2121. Two facing surfaces of the two protruding blocks 212 are recessed oppositely to form two insertion grooves 2123. A front of a middle of the upper surface of the insulating body 21 protrudes upward and then is bent rearward to form a buckling portion 213 projecting into the gap 216 between the two protruding blocks 212. A middle of a top surface of buckling portion 213 protrudes upward to form a buckling block 2131. The buckling portion 213 projects to one side of the at least one protruding block 212. The buckling block 2131 is disposed corresponding to the buckling hole 12. The at least one protruding block 212 and the buckling portion 213 are spaced from the upper surface of the insulating body 21 to form a positioning space 214 among the at least one protruding block 212, the buckling portion 213 and the upper surface of the insulating body 21. The two protruding blocks 212 and the buckling portion 213 are spaced from the upper surface of the insulating body 21 to form a positioning space 214 among the two protruding blocks 212, the buckling portion 213 and the upper surface of the insulating body 21.
With reference to
Each terminal 22 further has a first positioning portion 2231 punched upward from a top of the front end of the fitting end 222. In each terminal 22, the first positioning portion 2231 is extended and located between the connecting end 221 and a rear end of the fitting end 222. In each terminal 22, a top of the rear end of the fitting end 222 slantwise extends frontward and upward, and then extends frontward to form a second positioning portion 2232. The second positioning portion 2232 is extended and located between the first positioning portion 2231 and the connecting end 221. The first positioning portion 2231 and the second positioning portion 2232 of each terminal 22 are arranged in one positioning slot 2111. The first positioning portion 2231 of each terminal 22 is blocked by a front end of the limiting block 2112 of the one positioning slot 2111, and the second positioning portion 2232 is arranged away from and located behind the limiting block 2112 of the one positioning slot 2111. The first positioning portion 2231 of each terminal 22 is able to resist against the front end of the limiting block 2112 of the one positioning slot 2111. The first positioning portion 2231 and the second positioning portion 2232 of each terminal 22 maintain each terminal 22 within one terminal slot 211 and the one positioning slot 2111 to be located in a constant expectation position of the one terminal slot 211 and the one positioning slot 2111 for preventing a displacement of each terminal 22. The plurality of the cables 23 are connected to the connecting ends 221 of the plurality of the terminals 22.
With reference to
The middle of the front surface of the base portion 241 extends frontward to form the abutting block 244 located between the two sliding portions 242. The abutting block 244 is disposed corresponding to the positioning space 214. Two sides of a front surface of the abutting block 244 further protrude frontward to form two insertion blocks 2441.
The connector position assurance element 24 is assembled to the two protruding blocks 212, and the connector position assurance element 24 is able to slide frontward and rearward along the two protruding blocks 212. When the connector position assurance element 24 is in the disengagement configuration status, the two positioning blocks 2121 are located to the two first positioning holes 2422 of the two sliding portions 242. When the connector position assurance element 24 is in the engagement configuration status, the two positioning blocks 2121 are located to the two second positioning holes 2423 of the two sliding portions 242. The two stopping blocks 2122 are located in the two sliding channels 2421 of the two sliding portions 242 to keep the two sliding channels 2421 moving along the outer surfaces of the two protruding blocks 212 and along a constant track, so that the connector position assurance element 24 along with a movement of the two sliding portions 242 and the two sliding channels 2421 is able to be stably switched between the disengagement configuration status and the engagement configuration status.
With reference to
With reference to
With reference to
With reference to
As described above, the abutting block 244 abuts against the buckling portion 213 by virtue of the connector position assurance element 24 to maintain the plug-in status between the socket connector 1 and the plug connector with connector position assurance element 2.
Number | Date | Country | Kind |
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202020271411.5 | Mar 2020 | CN | national |