Abstract: A switchable adapter for a suction tube has a manifold, a switching base rotatably connected to a pivot portion of the manifold, an air-tight component mounted between the pivot portion of the manifold and the switching base, and a cover mounted on an end of the pivot portion. The switching base has two connecting tubes. When the switching base pivots relative to the pivot portion of the manifold, the connecting tubes alternatively communicate with the manifold by rotation of the switching base. Thus, the switchable adapter is switched to allow the suction tube to suck sputa out of a trachea of a patient.

Abstract: A switchable adapter for a suction tube has a manifold, a switching base rotatably connected to a pivot portion of the manifold, an air-tight component mounted between the pivot portion of the manifold and the switching base, and a cover mounted on an end of the pivot portion. The switching base has two connecting tubes. When the switching base pivots relative to the pivot portion of the manifold, the connecting tubes alternatively communicate with the manifold by rotation of the switching base. Thus, the switchable adapter is switched to allow the suction tube to suck sputa out of a trachea of a patient.

Abstract: An isolation valve for a closed suction device has a body and a valve. The body has a communicating channel, a patient end connector, a breathing circuit connector and a suction tube connector. The communicating channel has a chamber and an opening. The patient end connector, the breathing circuit connector and the suction tube connector are radially formed on and protrude from the external surface of the communicating channel and communicate with the chamber of the communicating channel. The valve is rotatably connected to the body and has an isolation pipe and a control button. The isolation pipe is rotatably mounted in the chamber of the communicating channel via the opening and has a communicating hole, an inlet hole and a sucking hole.