	US 12,261,382 B1
	Vibration resistant socket terminal and plug terminal
Desui Guo, Hebi (CN); Jincan Kang, Hebi (CN); Yanpeng Wang, Hebi (CN); Wujun Wang, Hebi (CN); Guoqiang Chen, Hebi (CN); Sai Chen, Hebi (CN); Pingtang Zhao, Henan (CN); Houkun Li, Hebi (CN); Xin Wang, Hebi (CN); Jianli Kang, Hebi (CN); Shuisheng Chen, Hebi (CN); Hailing Cui, Hebi (CN); Ruiyang Xia, Hebi (CN); and Shanlin Ping, Hebi (CN)
Assigned to Henan THB Electric Co., LTD., Henan (CN)
Filed by Henan THB Electric Co., LTD., Henan (CN)
Filed on Jul. 1, 2024, as Appl. No. 18/760,825.
Claims priority of application No. 202311246068.3 (CN), filed on Sep. 26, 2023.
Int. Cl. H01R 13/00 (2006.01); H01R 13/05 (2006.01); H01R 13/11 (2006.01)

CPC H01R 13/112 (2013.01) [H01R 13/05 (2013.01); H01R 2201/26 (2013.01)]

16 Claims

1. A connector terminal comprising a vibration-resistant socket terminal, wherein an interior of the socket terminal (1) is provided with a first vibration damping body (4), and an exterior of the socket terminal (1) is provided with a vibration damping arm (3); the socket terminal (1) comprises a base body (17), an upper spring plate (12) and a lower spring plate (16) are relatively arranged on the base body (17), the first vibration damping body (4) is provided inside the base body (17), and the vibration damping arm (3) is provided on the exteriors of the upper spring plate (12) and the lower spring plate (16); a socket tail portion (11) is provided on the base body (17), the base body (17) and the socket tail portion (11) are integrally formed, the interior of the base body (17) is a cavity, a folded edge (15) and a clamping block (13) are provided on the base body (17), the clamping block (13) and the folded edge (15) respectively clamp a front portion and a bottom portion of the first vibration damping body (4), so that the first vibration damping body (4) is tightly fitted with the upper spring plate (12) and the lower spring plate (16), and the clamping block (13) and the vibration damping arm (3) are matched in a locking manner; and the vibration damping arm (3) comprises connecting plates (36), a back plate (35) is provided on the connecting plates (36), the two connecting plates (36) are connected into one body through the back plate (35), the two connecting plates (36) and the back plate (35) form a U-shaped hole, the U-shaped hole is sleeved on the socket terminal (1), a front-end clamping plate (34) is provided at an open end of the U-shaped hole, the front-end clamping plate (34) and the clamping block (13) are matched in a locking manner, a top bend (33) configured to clamp the first vibration damping body (4) is provided at a top portion of the back plate (35), each connecting plate (36) at a top portion is connected to a vibration damping plate (31) and the vibration damping plate (31) is fitted with the upper spring plate (12) or the lower spring plate (16).