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    • 24. 发明申请
    • Quick-Locking Coaxial Connector
    • US20190020149A1
    • 2019-01-17
    • US15995806
    • 2018-06-01
    • CommScope Technologies LLC
    • Jianping WuHongjuan AnJien Zheng
    • H01R13/623H01R13/627H01R13/15
    • A quick-locking male connector includes: an inner contact; an insulator, wherein the inner contact resides within the insulator; an outer contact, wherein the insulator resides within the outer contact; a spring basket with a plurality of spring fingers, the spring basket abutting a forward end of the outer contact; an elastic claw with at least radially-inward one tooth and a radially-outward nub, wherein the spring basket resides within the claw, and wherein a gap exists between the at least one tooth and the spring fingers; a connector body attached to the outer contact; and a coupling nut having at least one radially-inward extending nub. The coupling nut is movable between a rear unsecured position, in which the nub of the coupling nut is rearward of the nub of the claw, and a forward secured condition, in which the nub of the coupling nut engages the nub of the claw and forces the at least one tooth of the claw radially inward to engage with a thread of an outer conductor body of a mating female connector inserted into the gap between the spring fingers and the tooth of the claw. The spring fingers of the spring basket apply radially-outward pressure to the outer conductor body of the mating female connector.
    • 25. 发明公开
    • PUSH-PULL COAXIAL CONNECTOR
    • US20240145987A1
    • 2024-05-02
    • US18366857
    • 2023-08-08
    • CommScope Technologies LLC
    • Jin LiuHongjuan AnJien ZhengYujun Zhang
    • H01R13/62H01R24/40
    • H01R13/62H01R24/40H01R2103/00
    • The present disclosure relates to a push-pull coaxial connector comprising: an external conductor, where the external conductor is configured to internally receive the matching external conductor of a mating connector, with concave parts or through holes on the inner surface of the side wall of the external conductor that house retainers and corresponding matching concave parts on the outer surface of the side wall of the mating external conductor, of which, there are one or more protrusions on the outer surface of the side wall of the external conductor; a sleeve surrounding the external conductor, where the sleeve is able to slide between the front position and rear position along the external conductor and is able to rotate around the circumference of the external conductor, of which, there are one or more corresponding notches to receive one or more protrusions on the rear surface of the sleeve; wherein, when the sleeve is at the front position, one or more protrusions are staggered away from one or more notches and abutted on the rear surface of the sleeve to prevent the sleeve from moving backward, and at this point, part of the retainer is in the concave part or through hole of the external conductor and part of it is in the mating concave part of the mating external conductor, thus maintaining the connection between the coaxial connector and mating connector; wherein, when the sleeve is at the rear position, one or more protrusions are received in one or more corresponding notches, and at this point, the retainer fully leaves the matching concave part of the mating external conductor, thus separating the coaxial connector and the mating connector. The push-pull coaxial connector uses a simple concave-convex structure, which locks the front and rear positions of the push-pull structure of the coaxial connector and it has a simple structure and is low-cost.
    • 27. 发明授权
    • Coaxial and cluster connector assemblies
    • US11637387B2
    • 2023-04-25
    • US17345221
    • 2021-06-11
    • CommScope Technologies LLC
    • JianPing WuYujun ZhangLei TieJien Zheng
    • H01R9/05H01R24/40H01R13/518H01R13/639H01R13/627H01R107/00
    • The present disclosure relates to a coaxial connector assembly comprising a first connector and a second connector adapted to be connected with each other, and a locking mechanism adapted to lock and unlock a connection between the first connector and the second connector. The locking mechanism includes a first locking member having at least one elastic snap-fit element and a second locking member having a locking element adapted to be snap-fitly engaged with the at least one elastic snap-fit element. The first locking member is disposed on an outer periphery of the first connector, and the second locking member is disposed on an outer periphery of the second connector. The elastic snap-fit element is constructed as a cantilever that extends axially toward a direction remote from the second connector, so that it is movable between an unlocking position and a locking position along a radial direction. In the unlocking position, the elastic snap-fit element is pressed down, so that the elastic snap-fit element is disengaged from the locking element, and in the locking position, the elastic snap-fit element springs back to its initial state, so that the elastic snap-fit element is snap-fitly engaged with the lock element.