Some embodiments include a fluid valve assembly with an outlet base dimensioned to be positioned through a drain in a fluid tank, and a float assembly including a moveable float. The moveable float can form a fluid-tight seal at a first end when the moveable float is coupled to the outlet base, and a flow opening when the moveable float is at least partially decoupled from the outlet base. Some embodiments include a housing positioned with the moveable float, where the housing encloses a suction device coupled to a moveable piston. Some embodiments include an actuable diaphragm positioned in the outlet base, and a compressed air tube or passageway coupled to one side the actuable diaphragm. In some embodiments, the actuable diaphragm is configured and arranged to be actuated by compressed air to move the moveable piston.

A valve comprises a housing in which a movable valve element having first and second valve members is disposed. A plurality of ports are disposed in the housing, and first and second seal portions are connected to the housing. At least one of the first seal portion and the first valve member is deformable such that, when only the first seal portion is in a sealed configuration with the first valve member, deformation allows the second seal portion to be brought into a sealed configuration with the second valve member, and/or at least one the second seal portion and the second valve member is deformable such that, when only the second seal portion is in a sealed configuration with the second valve member, deformation allows the first seal portion to be brought into a sealed configuration with the first valve member.

A valve comprises a housing in which a movable valve element having first and second valve members is disposed. A plurality of ports are disposed in the housing, and first and second seal portions are connected to the housing. At least one of the first seal portion and the first valve member is deformable such that, when only the first seal portion is in a sealed configuration with the first valve member, deformation allows the second seal portion to be brought into a sealed configuration with the second valve member, and/or at least one the second seal portion and the second valve member is deformable such that, when only the second seal portion is in a sealed configuration with the second valve member, deformation allows the first seal portion to be brought into a sealed configuration with the first valve member.

A gripping device for an endoscope insertion tube utilizing first and second arms that are hingedly attached to one another. Each arm includes an opening to accommodate the insertion tube of an endoscope such that the endoscope insertion tube spans both arms. First and second jaws are associated with first and second arms and are positioned in opposition to one another. The movement of the arms toward one anther causes the jaws to engage the insertion tube which is guided through the arms by the apertures found in the arms.

A gripping device for an endoscope insertion tube utilizing first and second arms that are hingedly attached to one another. Each arm includes an opening to accommodate the insertion tube of an endoscope such that the endoscope insertion tube spans both arms. First and second jaws are associated with first and second arms and are positioned in opposition to one another. The movement of the arms toward one anther causes the jaws to engage the insertion tube which is guided through the arms by the apertures found in the arms.

Wearable rubber parts for fluid handling systems include a four layer structure, wherein the inner most layer of the four layer structure is a polyurethane layer. The polyurethane can be millable polyurethane. The polyurethane used in the inner most layer can be produced by reacting diisolcyanate with a polyester and/or polyether polyols and a chain extender. The wearable rubber part can be an expansion joint, a pinch valve, or a hose.

Wearable rubber parts for fluid handling systems include a four layer structure, wherein the inner most layer of the four layer structure is a polyurethane layer. The polyurethane can be millable polyurethane. The polyurethane used in the inner most layer can be produced by reacting diisolcyanate with a polyester and/or polyether polyols and a chain extender. The wearable rubber part can be an expansion joint, a pinch valve, or a hose.

A housing for an electronic element comprises a wall separating an exterior space and an inner space, an opening between the exterior and inner spaces, and an elastically deformable sealing valve configured to be removably inserted in the opening. The sealing valve comprises an insert part for insertion into the opening and a support part for arrangement against the outer surface of the wall. The sealing valve forms a path in a longitudinal direction from an inlet opening in the support part to an outlet opening in the insert part. The support part comprises a first surface part for arrangement against the outer surface of the wall, and the insert part comprises a second surface part for arrangement against the inner surface of the wall. The first and second surfaces parts form a groove extending circumferentially along an outer surface of the sealing valve transverse to the longitudinal direction.

A housing for an electronic element comprises a wall separating an exterior space and an inner space, an opening between the exterior and inner spaces, and an elastically deformable sealing valve configured to be removably inserted in the opening. The sealing valve comprises an insert part for insertion into the opening and a support part for arrangement against the outer surface of the wall. The sealing valve forms a path in a longitudinal direction from an inlet opening in the support part to an outlet opening in the insert part. The support part comprises a first surface part for arrangement against the outer surface of the wall, and the insert part comprises a second surface part for arrangement against the inner surface of the wall. The first and second surfaces parts form a groove extending circumferentially along an outer surface of the sealing valve transverse to the longitudinal direction.

A device and method for selectively closing and opening a flow path through a sealing element. The device includes second and third tubulars positioned within a bore of a first tubular. A sealing element having a bore is positioned between the second and third tubulars within the bore of the first tubular. The sealing element may be connected to one or both of the tubulars. Bores of the second and third tubulars communicate with the bore of the sealing element to provide a flow path. Movement of the third tubular with respect to the second tubular buckles the sealing element inward to selectively close a portion of the flow path. The third tubular may be moved away from the second tubular to reopen the flow path. The sealing element may engage a structure within the bore of the sealing element to selectively close the flow path through the sealing element.