Claims
- 1. An electrical connector assembly comprising:a female connector assembly comprising: a female base portion; a cylindrically-configured housing portion extending from said base portion and comprising a first annular wall defining a chamber; an electrically conductive pin disposed centrally of said base portion and said housing portion and extending axially therethrough; a second annular wall extending from the housing portion first annular wall inwardly and normal to the housing portion first annular wall to define a central opening; and arc-shaped opposed claws extending longitudinally from the housing portion first annular wall and the second annular wall and provided with inwardly extending opposed fingers, said claws being pivotally movable about their respective junctures with said housing portion annular walls; and a male connector assembly comprising: a male base portion; an annular retention ring fixed on said male base portion and extending circumferentially completely therearound; a cylindrically-configured barrel portion extending from said male base portion; and an electrically conductive wire extending centrally and axially through said male base portion, and said barrel portion, and having in said barrel portion a sleeve portion open at one end to receive said pin; wherein upon urging said male connector assembly into said female connector assembly, a leading edge of said annular retention ring engages said arc-shaped claw fingers to force said claws in directions away from each other to permit said retention ring to slide past said claw fingers, to permit said male connector assembly barrel portion to pass through said female connector assembly second annular wall central opening, to permit entry of said pin into said sleeve portion open end; and wherein upon an operator's squeezing of said housing portion of said female connector assembly, said claws pivot from said junctures of said claws and said female connector assembly annular walls, to move in directions away from each other, to permit said claw fingers to disengage from said retention ring, to permit said male connector assembly to be withdrawn from said female connector assembly, to disconnect said pin from said sleeve.
- 2. The electrical connector assembly in accordance with claim 1 wherein:said female connector assembly base portion, housing portion, annular walls, and claws comprise a single, unitary molded first piece; and said male connector assembly base portion, retention ring, and barrel portion comprise a second single, unitary molded piece.
- 3. The electrical connector assembly in accordance with claim 2 wherein said first and second unitary pieces are molded of a plastic material.
- 4. The electrical connector in accordance with claim 1 wherein said housing portion first annular wall defining the chamber is compressible into the chamber by the operator's squeezing to cause said claws to pivot.
- 5. An electrical connector assembly for joining a first cable end and a second cable end comprising:a female base portion for joining with said first cable end; a housing portion extending from said female base portion, said housing portion having a cylindrically-configured wall defining a chamber; at least one electrically conductive pin disposed within said female base portion and extending therethrough into said defined chamber, said at least one pin provided for communicating with said first cable end; an inwardly extending wall extending normally inwardly from said housing portion cylindrically-configured wall and defining a central opening therein; arc-shaped opposed claws extending longitudinally from said housing portion cylindrically-configured wall and said inwardly extending wall and provided with inwardly extending opposed fingers, said arc-shaped claws being pivotally movable about their respective junctures with said housing portion walls; a male base portion for joining with said second cable end; a retention ridge fixed on said male base portion and extending circumferentially completely therearound; a barrel portion extending from said male base portion; and at least one electrically conducting sleeve positioned in said barrel portion and open at one end for receiving said one pin, said at least one electrically conducting sleeve being provided for communicating with said second cable end; wherein upon urging said barrel portion into said defined central opening, a leading edge of said retention ridge engages said claw fingers to force said claws outward to permit said retention ridge to slide past said claw fingers and to permit reception of one electrically conducting pin within one electrically conducting sleeve open end; and wherein upon an operator's squeezing said housing portion, said claws pivot from said junctures of said claws and said cylindrically-configured housing portion wall and said inwardly extending wall to move outward and to permit said claw fingers to disengage from said retention ridge, to permit said sleeve housing to be withdrawn from said defined central opening and said one electrically conducting pin to be removed from said electrically conducting one sleeve.
- 6. The electrical connector assembly in accordance with claim 5 wherein:said female connector assembly base portion, housing portion, inwardly extending wall, and claws comprise a first single, unitary molded piece; and said male connector assembly base portion and retention ridge comprise a second single, unitary molded piece.
- 7. The electrical connector assembly in accordance with claim 6 wherein said first and second unitary pieces are molded of a plastic material.
- 8. The electrical connector in accordance with claim 5 wherein said housing portion wall defining the chamber is compressible into the chamber by the operator's squeezing to cause said claws to pivot.
STATEMENT OF GOVERNMENT INTEREST
The invention described herein may be manufactured and used by and for the Government of the United States of America for Governmental purposes without the payment of any royalties thereon or therefor.
US Referenced Citations (1)
| Number |
Name |
Date |
Kind |
|
4431244 |
Anhalt et al. |
Feb 1984 |
A |