A connection system including a male connector portion and a female connector portion each including a housing, a valve disposed within the housing, a valve actuator operably connected to the valve, and a housing extension, the housing extension from the male connector portion being configured to interact with the valve actuator of the female connector portion to open the valve of the female connector portion during mating of the male and female connector portions.

A connection system including a male connector portion and a female connector portion each including a housing, a valve disposed within the housing, a valve actuator operably connected to the valve, and a housing extension, the housing extension from the male connector portion being configured to interact with the valve actuator of the female connector portion to open the valve of the female connector portion during mating of the male and female connector portions.

A coupling assembly (10) is reconfigurable among three states. In a disconnected state, a spring-biased lock indicator (20) is in a first lock indicator position, and the lock indicator includes a restriction member (40) that in the first lock indicator position retains an actuator in a first actuator position such that a valve is in a closed position and a locking pin is in a retracted position. In a connected/valve-closed state, the lock indicator (20) is in a second lock indicator position in which the restriction member (40) permits movement of the actuator (30), but with the actuator (30) still being in the first actuator position such that the valve is in the closed position and the locking pin (46) is in the retracted position. In a connected/valve-open state, the lock indicator (20) is in the second lock indicator position to permit movement of the actuator (30), and now with the actuator (30) being in the second actuator position such that the valve is in the open position and the locking pin (46) is in an extended position to lock a second coupling assembly to the coupling assembly to form a unisex coupling connection.

A coupling assembly (10) is reconfigurable among three states. In a disconnected state, a spring-biased lock indicator (20) is in a first lock indicator position, and the lock indicator includes a restriction member (40) that in the first lock indicator position retains an actuator in a first actuator position such that a valve is in a closed position and a locking pin is in a retracted position. In a connected/valve-closed state, the lock indicator (20) is in a second lock indicator position in which the restriction member (40) permits movement of the actuator (30), but with the actuator (30) still being in the first actuator position such that the valve is in the closed position and the locking pin (46) is in the retracted position. In a connected/valve-open state, the lock indicator (20) is in the second lock indicator position to permit movement of the actuator (30), and now with the actuator (30) being in the second actuator position such that the valve is in the open position and the locking pin (46) is in an extended position to lock a second coupling assembly to the coupling assembly to form a unisex coupling connection.

Fluid coupling devices can be configured for use in fluid systems for purposes of providing a single-use, aseptic disconnection functionality that can substantially limit fluid spillage when being disconnected. In some embodiments, the coupling portions cannot be functionally reconnected to each other after being disconnected from each other. The coupling portions can be identical to each other in some embodiments. A retainer component of the fluid coupling devices can be removably engaged with the coupling portions while the coupling portions are abutted against each other in an operative arrangement.

The present disclosure provides a communicating structure applied to a first communicating body and including a door assembly. The door assembly is assembled in the first communicating body, and includes a door movably connected to the first communicating body, and a connecting structure allowing movement of the door. The connecting structure includes an actuating portion, and the door is provided with a connecting portion. The actuating portion is for acting on the connecting portion or performing a lever operation on the connecting portion so as to move the door.

The present disclosure provides a communicating structure applied to a first communicating body and including a door assembly. The door assembly is assembled in the first communicating body, and includes a door movably connected to the first communicating body, and a connecting structure allowing movement of the door. The connecting structure includes an actuating portion, and the door is provided with a connecting portion. The actuating portion is for acting on the connecting portion or performing a lever operation on the connecting portion so as to move the door.

A connection system including a male connector portion and a female connector portion each including a housing, a valve disposed within the housing, a valve actuator operably connected to the valve, and a housing extension, the housing extension from the male connector portion being configured to interact with the valve actuator of the female connector portion to open the valve of the female connector portion during mating of the male and female connector portions

A divisible valve connector for connecting two fluid conduits is provided. The connector may have a first component defining a first fluid connection and a second component defining a second fluid connection. The first component may include a first valve body section and a first shaft section while the second component may include a second valve body section and a second shaft section. The first component and second component may be configured to releasably interlock together to form the valve connector and, when interlocked, the first shaft section and second shaft section form a unitary shaft rotatable between an opened position and a closed position.

Fluid coupling devices can be configured for use in fluid systems for purposes of providing a single-use, aseptic disconnection functionality that can substantially limit fluid spillage when being disconnected. In some embodiments, the coupling portions cannot be functionally reconnected to each other after being disconnected from each other. The coupling portions can be identical to each other in some embodiments. A retainer component of the fluid coupling devices can be removably engaged with the coupling portions while the coupling portions are abutted against each other in an operative arrangement.