Abstract: A connector with a lock mechanism includes a connector 10 and a counterpart connector 20. A connector main body 11 of the connector 10 has an annular groove 113. An inner sleeve 17 and an outer sleeve are arranged movably in an axial direction on an outer circumferential surface of the connector main body 11 and outside the inner sleeve 17, respectively. The outer sleeve 13 has a locking pin 15 projecting from an inner circumferential surface close to a front end of the outer sleeve 13. A ball accommodation hole 22, an inlet groove 26, and a circumferential direction groove 28 are formed in a tubular member 21 of the counterpart connector 20. When the connector main body 11 is inserted into the tubular member 21, an engaging ball 23 accommodated in the ball accommodation hole 22 becomes engaged with the annular groove 113 and the locking pin 15 becomes engaged with the inlet groove 26, allowing the connectors to be connected with each other.

Abstract: A connector with a lock mechanism includes a connector 10 and a counterpart connector 20. A connector main body 11 of the connector 10 has an annular groove 113. An inner sleeve 17 and an outer sleeve are arranged movably in an axial direction on an outer circumferential surface of the connector main body 11 and outside the inner sleeve 17, respectively. The outer sleeve 13 has a locking pin 15 projecting from an inner circumferential surface close to a front end of the outer sleeve 13. A ball accommodation hole 22, an inlet groove 26, and a circumferential direction groove 28 are formed in a tubular member 21 of the counterpart connector 20. When the connector main body 11 is inserted into the tubular member 21, an engaging ball 23 accommodated in the ball accommodation hole 22 becomes engaged with the annular groove 113 and the locking pin 15 becomes engaged with the inlet groove 26, allowing the connectors to be connected with each other.

Abstract: A coil spring 213 is sandwiched between a coil spring adjoining wall 202a of the female plug shell 202 and the edge of the large ring of the slide sleeve 203 and is held inside of the slide cover 215 in which the coil spring 213 can expand and contract freely. Sliding of the slide cover 215 in the positive direction of the x axis is restricted because the coil spring 213 or the slide sleeve 203 is adjacent to the coil spring adjoining wall 202a, and sliding in the negative direction of the x axis is restricted by a caulking 210. The caulking 210 caulks its bottom part, or the end part 215b which is placed at the opposite side of the opening part of the slide cover 215, to inside of the female plug 200. By applying this calking 210, problems described above can be solved.

Abstract: A coil spring 213 is sandwiched between a coil spring adjoining wall 202a of the female plug shell 202 and the edge of the large ring of the slide sleeve 203 and is held inside of the slide cover 215 in which the coil spring 213 can expand and contract freely. Sliding of the slide cover 215 in the positive direction of the x axis is restricted because the coil spring 213 or the slide sleeve 203 is adjacent to the coil spring adjoining wall 202a, and sliding in the negative direction of the x axis is restricted by a caulking 210. The caulking 210 caulks its bottom part, or the end part 215b which is placed at the opposite side of the opening part of the slide cover 215, to inside of the female plug 200. By applying this calking 210, problems described above can be solved.

Abstract: A cable stripper for removing covers or jackets of, for instance, a coaxial cable including circular blades rotatably installed on action levers which are pivoted together with an operating lever that is pivotally mounted to a stripper main body, and a lower blade linked to a lower cutter lever provided in the stripper main body. The circular blades bite into the cover of a cable inserted into the stripper main body when the operating lever is pivoted toward the stripper main body, thus making circumferential cuts of different depths in the cover by rotating the stripper main body about the axis of the cable; and in addition, when the lower cutter lever is pressed, the lower blade bites into the covering so that a straight cut in the axial direction of the cable is also made in the covering.

Abstract: A cable stripper, which makes both the circumferential and axial cuts in the covering of a cable by a simple operation, including a cable guide with slits, operation levers that have three circular blades which are parallel with one another, and a lower blade. The edges of the circular blades are oriented perpendicular to the axis of the cable that is brought into the cable guide, and the edge of the lower blade is oriented parallel with the axis of the cable. The circumferential cuts of the cable is formed when the circular blades are moved into the cable guide through the slits by a spring force and turned around the cable, and the axial cut of the cable is formed, when the cable is pulled out from the cable guide, by the lower blade that is projected into the cable guide.