A connector and a process for coupling a tube to another device is disclosed. The connector comprises a receptacle for receiving a first tube. The receptacle includes a socket and a modular head mated to said socket in one of a plurality of relative orientations. The modular head comprises an indexing member. A retention clip embraces the receptacle and has a leg positioned in a slot in the receptacle.

A connector and process for coupling a tube and the resulting assembly is disclosed. A receptacle includes pilot in a mounted position. The pilot is slidable from a mounting position to a final position while the pilot urges legs of a retention clip into a spread condition during a transition between the mounting position and the final position. In the final position, the pilot permits legs of the retention clip to retract to a relaxed condition and an indicator piece is visible.

A connector and process for coupling a tube and the resulting assembly is disclosed. A receptacle includes pilot in a mounted position. The pilot is slidable from a mounting position to a final position while the pilot urges legs of a retention clip into a spread condition during a transition between the mounting position and the final position. In the final position, the pilot permits legs of the retention clip to retract to a relaxed condition and an indicator piece is visible.

There is provided a hose clamp, including a plate spring body and a pair of tab portions. The plate spring body has a base portion, and arm portions. A first overlap portion and a second overlap portion are formed at the arm portions, and in a state where a diameter of the plate spring body is reduced, the first overlap portion and the second overlap portion overlap with each other in the circumferential direction of the plate spring body. Engagement portions are provided on facing surfaces of the pair of tab portions respectively, the engagement portions holding the plate spring body in a state where the diameter of the plate spring body is expanded. The engagement portions are provided at positions closer to side edge portions being opposite to facing side edge portions of the overlap portions than to the facing side edge portions.

There is provided a hose clamp, including a plate spring body and a pair of tab portions. The plate spring body has a base portion, and arm portions. A first overlap portion and a second overlap portion are formed at the arm portions, and in a state where a diameter of the plate spring body is reduced, the first overlap portion and the second overlap portion overlap with each other in the circumferential direction of the plate spring body. Engagement portions are provided on facing surfaces of the pair of tab portions respectively, the engagement portions holding the plate spring body in a state where the diameter of the plate spring body is expanded. The engagement portions are provided at positions closer to side edge portions being opposite to facing side edge portions of the overlap portions than to the facing side edge portions.

A fastening device is useful for at least one supply hose and/or at least one supply line for fastening to an industrial-robot arm with a holder, an assignable holder unit for the supply hose and/or the supply line, and a lockable tensioning element. The holder is arranged on the lockable tensioning element so that the holder, by the tensioning element being clasped and locked around the industrial-robot arm, can be fastened and/or positioned flexibly on the industrial-robot arm and thus in the event of the holder being connected to the assignable holding unit the supply hose and/or the supply line can be oriented in a specific manner.

A smart hose system includes a hose and a clamp monitor secured to the hose and in proximity to a portion of the hose at which a clamp is to be secured. The clamp monitor is configured to responsively interact with the clamp and includes a signal generator configured to provide a first response to an inquiry signal with the clamp being in a first state and provide a second response with the clamp being in a second state.

A smart hose system includes a hose and a clamp monitor secured to the hose and in proximity to a portion of the hose at which a clamp is to be secured. The clamp monitor is configured to responsively interact with the clamp and includes a signal generator configured to provide a first response to an inquiry signal with the clamp being in a first state and provide a second response with the clamp being in a second state.

A hose clamp includes a clamp main body including a ring portion and a pair of knob portions; and a holder. The holder includes a main body portion, a pair of holding walls, and an operation portion. An inner surface on a distal end side of one holding wall includes a protrusion that protrudes more largely inward than an inner surface on a distal end side of other holding wall. And in a state where the pair of knob portions are close to each other, a distal end of one knob portion in a peripheral direction is engaged with the inner surface of the one holding wall, and the other knob portion is engaged with the inner surface of the other holding wall, so that the ring portion is kept in a diameter-increased state.

A tube coupling comprising a coupling body (1) having an opened ended throughway to receive a tube (T). A collet (41) is located in the open end of the through way having a ring (52) and a plurality of flexible arms (53) extending generally axially of the ring into the throughway. The throughway has a tapered surface (43) convergent towards the open end and the collet arms have heads at their distal ends for engaging both of the tapered surface and a tube extending through the collet into the throughway to be compressed against the tube by the tapered surface with outward movement of the collet with respect of the throughway to secure the tube in the throughway. A collet lock is formed on the collet (41), the collet having a locked rotary position in which the lock holds the collet in an outward tube securing position and an unlocked rotary position in which the collet can move axially with respect to the throughway for release and engagement of a tube by the collet. One of the body (1) and the collet (41) is provided with a cam surface (46) and the other is provided with a cam follower (56), the cam surface being provided to provide the locked and unlocked positions. The disclosure also extends to the collet (41).