A smart valve positioner is provided with a local user interface with but-tons and a display inside a positioner housing under a housing cover for locally operating the valve positioner. The valve positioner is further provided with a detector detecting whether the housing or the housing cover is open or closed. The operation mode of the local user interface is configured to be different depending on whether the housing or housing cover is open or closed. For example, a larger variety of operations may be available when the housing or housing cover is open.

A showerhead bracket having a fluid inlet, a fluid outlet, a valve and a valve housing. The valve may be operably connected between the fluid inlet and the fluid outlet. The valve includes a valve inlet port, a low flow exit port and a high flow exit port. The valve housing is disposed between the fluid inlet and the valve inlet port. The valve can selectively rotate within the valve housing.

A showerhead bracket having a fluid inlet, a fluid outlet, a valve and a valve housing. The valve may be operably connected between the fluid inlet and the fluid outlet. The valve includes a valve inlet port, a low flow exit port and a high flow exit port. The valve housing is disposed between the fluid inlet and the valve inlet port. The valve can selectively rotate within the valve housing.

A control assembly that is configured to operate large, heavy duty flow controls. The control assembly may include a main support and a thin plate disposed on the main support, the thin plate having four sides forming a mounting surface, the thin plate also having lateral slots that extend lengthwise in a first direction between two of the sides and are arranged so adjacent lateral slots are spaced apart from one another in a second direction perpendicular to the first direction.

A chromatography column distribution system includes a set of first bed support ribs extending radially from an inner, first radial position near the center of the plate to an outer radial position nearer to the periphery of the plate and at least one set of intermediate bed support ribs starting at an intermediate radial position and extending to an outer radial position nearer to the periphery of the plate. Channels are formed between adjacent bed support ribs. The desired local effective channel height varies in accordance with a predetermined formula from the first radial position to the outer radial position. The transverse cross-sectional areas of the ribs or the channels are adapted such that the actual local effective channel height is within 15% of the desired local effective channel height over portions of the distribution system situated between the first radial position and the outer radial position. The length of the portions correspond to at least 80% of the distance between the first and outer radial position and the outer radial position.

A cup intermediate portion and a cup lower portion surround a substrate. The cup intermediate portion is arranged above an upper surface of the cup lower portion. A sidewall surrounds the cup intermediate portion and the cup lower portion. A spacing between the upper surface of the cup lower portion and a lower surface of the cup intermediate portion gradually decreases outward from an outer peripheral portion of the substrate while a clearance is formed between the lower surface of the cup intermediate portion and the upper surface of the cup lower portion in respective outer peripheral portions of the cup intermediate portion and the cup lower portion. An inner peripheral surface of the sidewall is spaced apart from the clearance outside the clearance and surrounds the clearance.

Automated fluid handling system comprising a housing and two or more fluid handling units arranged as interchangeable modular components with an external fluidics section and an internal non fluidics section, and wherein the housing comprises a liquid handling panel with two or more of component positions for receiving said interchangeable modular components such that the external fluidics section is separated from the non fluidics section by the liquid handling panel.

A incubator chamber comprises a base, lid and plurality of trays, each of which are stackable upon one another in an open or closed configuration. A clamp could be provided having an interior cavity sized and dimensioned to simultaneously receive a portion of a perimeter of each of a base and a lid.

The present invention provides a sub-frame (10) for a valve body (12) having two or more location surfaces (14, 16), said sub-frame (10) comprising a first and a second portion (10a, 10b) having mutually confronting contact surfaces (18a, 18b), sides (20a, 20b) and front and back surfaces (22a, 22b) and mutually confronting engagement surfaces (24a, 24b and 26a, 26b) wherein said mutually confronting contact surfaces (18a, 18b) are shaped to engage with each other upon placement together of the two portions (10a, 10b) and said mutually confronting engagement surfaces (24a, 24b and 26a, 26b) are shaped to engage with one or other of said one or more location surfaces (14, 16) on the valve body (12).

A reversible bonded microfluidic structure comprises an overhanging cap or gasket structure atop a continuous microfluidic channel wall. An overhanging gasket structure may reduce stress concentrations at the edge of the channel wall and can permit improved reversible adhesion of the channel wall and adjacent dry adhesive fibers. In one example, reversible adhesion of the overhanging channel wall gasket and adjacent dry adhesive fibers may approach 1 MPa in axial loading. An overhanging gasket structure of the microfluidic channel wall may comprise a single fiber that is continuous around the perimeter of the desired microfluidic channel shape, and may define a self-sealing gasket which will contain fluid. The overhanging gasket structure may be surrounded by further overhanging or undercut dry adhesive fibers to enhance the adhesion and help make the rest of the surface more tolerant to defects and surface roughness.