A passthrough for a barrier separating a first space from a second space includes a housing mounted to an opening that extends through the barrier. First and second doors selectively block the first and second spaces, respectively, from the opening. A frame is disposed within the housing and has first and second apertures configured to receive sealing blocks. When the passthrough is in a first state, sealing blocks seal the first and second apertures. When the passthrough is in a second state, a fluid conduit passes through the first and second apertures and sealing blocks seal the space between the first and second apertures, respectively, and the conduit.

[Object] A diaphragm can strongly be fixed to a flow path-side body by a diaphragm-holder, a thickness of the flow path-side body of an outer periphery of a diaphragm is thinned, and the flow path-side body is downsized.

[Solving Means] A diaphragm-holder abutting surface 75 is formed between a diaphragm-holder inner peripheral side ring-shaped projection 73 and a diaphragm-holder outer peripheral side ring-shaped projection 74, a diaphragm-holder inner peripheral side end surface 73s is abutted against a first fixed portion piston-side end surface 63Ap, a diaphragm-holder inner peripheral side outer peripheral surface 73o is abutted against a second fixed portion inner peripheral surface 63Bi, a diaphragm-holder outer peripheral side inner peripheral surface 74i is abutted against a body-side projection outer peripheral surface 16o, and the diaphragm-holder abutting surface 75 is abutted against the second fixed portion piston-side end surface 63Bp and a body-side projection end surface 16s.

A flow regulating switch valve includes a valve core that includes a switch assembly configured to drive a diaphragm assembly to open or close a water outlet, and also includes a flow regulating assembly that comprises a rotating ring, a sliding block, and a magnet. A control key is configured to control the switch assembly. The rotating ring is connected to the control key and includes an inclined plane that transitions from high to low and is configured to drive the sliding block to slide up and down such that the sliding block drives the magnet to move up and down. The magnet is configured to control the diaphragm assembly to regulate a size of the water outlet.

The invention relates to a pinch valve that includes: a main body having a receiving space for a tube section, wherein the receiving space comprises a lateral opening of the main body; a counter-bearing section for a compressor that moves along a actuating axis; and a closure element which is movably fastened to the main body and which is movable relative to the main body between a first position, in which the closure element closes the lateral opening of the main body at least in sections, and a second position, in which the closure element exposes an insertion opening for the tube section.

A suction valve for a dental treatment unit is connected to a downstream suction system and includes input and output conduits; a valve seat interposed therebetween; a diaphragm defining a chamber by moving between a resting position against the valve seat, blocking flow between the input and output conduits, and an active position distanced from the valve seat, allowing fluids to pass; a connecting conduit between the chamber and the output conduit and having an air entry point; and a pilot valve switched between a resting position, allowing air passage to the chamber through the connecting conduit and having a first portion, a closing point, and a second portion, and an active portion blocking air passage. A non-return valve at the entry point prevents an input flow to the connecting conduit and the upwelling of liquids from the output conduit to the pilot valve and/or the chamber.

An actuator assembly includes, a main body, a perimeter compressor, an actuator shaft, an actuator, and a sealing member. The perimeter compressor is slidable between a retracted position and an extended position. The actuator shaft extends through the main body and the perimeter compressor and is operably coupled with a proximal end of the actuator shaft to facilitate movement of the actuator shaft between the extended position and the retracted position. The sealing member includes an inner and outer portion. The inner portion is releasably coupled with the distal end of the actuator shaft and is configured to interface with the valve body. Sliding the perimeter compressor into the extended position facilitates sandwiching of the sealing member between the perimeter compressor and the valve body. Sliding the perimeter compressor into the retracted position facilitates releasement of the sealing member therefrom.

A switching valve includes a valve body, a diaphragm, and a driving assembly. The valve body includes a valve cavity, a water inlet, a first water outlet, and a second water outlet in communication with the valve cavity. The diaphragm includes two unsealing parts connected with the driving assembly and respectively arranged opposite to the first water outlet and the second water outlet. Each unsealing part can control opening or closing of the first water outlet or the second water outlet. The driving assembly can individually drive each of the unsealing parts to switch between opening and closing such that at least one of the first water outlet and the second water outlet is in an open state.

A system includes a manifold and a flow control valve. The flow control valve includes an inlet defining an inlet chamber, an outlet defining an outlet chamber, and a movable member positioned in a control chamber coupled with the inlet and the outlet. The manifold includes a valve actuator, an inlet port that connects with the inlet chamber, an outlet port that connects with the outlet chamber, and a control port that connects the valve actuator with the control chamber to cause the movable member to change from a sealed state that prevents fluid flow between the inlet and the outlet to an unsealed state that allows fluid flow between the inlet and the outlet responsive to operation of the valve actuator.

A housing having a housing body (100) carries on the outside of one of the side walls (110) a bolt (500) aligned parallel to the lid guide grooves (120) and the lid (200) carries a sleeve (222) fixed to a tab (220) projecting over the upper edge of the corresponding side wall (110) of the housing body (100) and aligned coaxially with the bolt (500). The sleeve (222) engages around the bolt (500) to form an axially and rotationally movable sliding bearing.

A pinch valve having a clamping member (300) mounted between two side walls (110) of a valve housing, the side walls extending parallel to a hose guide axis and to a plunger guide axis. Each of the side walls has a step (112) extending parallel to the hose guide axis and recessing with respect to the advancing direction of the plunger. The clamping jaws (320) of the pinch valve, upon displacement of the clamping member (300), move over the steps (112) with their outer sides, which face away from the hose guide, bearing against the side walls (110).