Example aspects of a valve key, a meter valve, and a method for securing a valve key of a meter valve are disclosed. The valve key for a meter valve can comprise a key body defining an upper key body end and a lower key body end, a key head extending from the upper key body end, and a key stem extending from the lower key body end, wherein the key stem, key head, and key body define a monolithic structure, the key stem defining an extension portion and a securing portion, the securing portion defining a securing portion engagement surface.

A mix manifold (16) includes a plurality of valves to control the flow of material therethrough. First and second valves (36a, 36b) are linked for simultaneous actuation. The first and second valves each include valve members (56a, 56b) disposed within and rotatable relative to seal bodies (58a, 58b). The valve members seal against the seal bodies and the seal bodies seal against the manifold. A solvent valve (36c) also includes a valve member (56c) in a seal body (58c). The first and second valves are configured to open only when the solvent valve is closed. The solvent valve is configured to open only when the first and second valves are closed. The solvent valve can rotate between a plurality of positions to control the flow of solvent to flowpaths downstream of the first and second valves.

A Centering Electronic Rotary Valve (CERV) includes a drive system and a rotor structure comprising a rotor fluid channel input opening communicated with a rotor fluid channel output opening via a rotor fluid directional channel that is moveable via a rotor shaft. The rotor fluid channel input opening is adjacent to and aligned with one of a plurality of stator input channel bottom opening. The rotor fluid channel output opening is adjacent to and aligned with at least one of the plurality of stator output channel bottom openings. The drive system includes a motor and a microprocessor for (i) controlling the rotor shaft to rotate about an axis M and (ii) for positioning the rotor shaft at a defined circumferential position.

A valve assembly for influencing operating fluid flows in a motorized vehicle, where the valve assembly includes: A valve housing with a main housing body and a housing lid, A fluid line arrangement with at least two fluid lines, A valve body configured as tapering along an actuating axis which is accommodated rotatably about the actuating axis between at least two fluid lines of the fluid line arrangement in such a way that through rotation of the valve body about the actuating axis, a flow-connection state of the at least two fluid lines proceeding in different spatial regions with each other is modifiable, and A pre-tensioning means arranged between the housing lid and the valve body which loads the valve body along the actuating axis,
wherein it is provided that between the valve body and the main housing body there is arranged a guide shell surrounding the valve body, where the valve body is loaded through the pre-tensioning means towards the guide shell along a first pre-tensioning force path, where the guide shell is loaded through the housing lid towards the main housing body along a second pre-tensioning force path.

A valve includes a valve body including a housing. The housing has a first internal housing surface defining an internal chamber. The valve further includes a valve assembly including a cartridge and a sleeve fixedly secured to the cartridge. The sleeve has an internal sleeve surface defining an interior cavity. The valve assembly further includes a plug positioned within the interior cavity and including a plug body. The plug body has an external plug surface configured to sealingly engage the internal sleeve surface. The cartridge is removably coupled to the housing such that the sleeve is disposed within the internal chamber of the housing.

A valve assembly includes a cartridge configured to be removably coupled to a valve body. The cartridge includes a hub. The valve assembly further includes a sleeve encapsulating at least a portion of the hub and having an internal sleeve surface defining an interior cavity.

Example aspects of a valve key, a meter valve, and a method for securing a valve key of a meter valve are disclosed. The valve key for a meter valve can comprise a key body defining an upper key body end and a lower key body end, a key head extending from the upper key body end, and a key stem extending from the lower key body end, wherein the key stem, key head, and key body define a monolithic structure, the key stem defining an extension portion and a securing portion, the securing portion defining a securing portion engagement surface.

A plug for retaining a filter screen in a fluid port of a servovalve, comprises an annular body, the annular body comprising: opposed first and second axial end surfaces, a radially inner surface extending between the first and second axial end surfaces, a radially outer surface extending between the first and second axial end surfaces and at least one recess formed in the radially inner surface for receiving a tool for removing the plug from the port. A tool for removing the plug comprises a pair of handles pivotally mounted to one another about a pivot, each handle having a plug gripping portion extending therefrom beyond the pivot, each plug gripping portion comprising an outwardly projecting tooth for engaging in the recess of the plug when the plug gripping portions are moved apart by operation of the handles.

A plug for retaining a filter screen in a fluid port of a servovalve, comprises an annular body, the annular body comprising: opposed first and second axial end surfaces, a radially inner surface extending between the first and second axial end surfaces, a radially outer surface extending between the first and second axial end surfaces and at least one recess formed in the radially inner surface for receiving a tool for removing the plug from the port. A tool for removing the plug comprises a pair of handles pivotally mounted to one another about a pivot, each handle having a plug gripping portion extending therefrom beyond the pivot, each plug gripping portion comprising an outwardly projecting tooth for engaging in the recess of the plug when the plug gripping portions are moved apart by operation of the handles.

A mix manifold (16) includes a plurality of valves to control the flow of material therethrough. First and second valves (36a, 36b) are linked for simultaneous actuation. The first and second valves each include valve members (56a, 56b) disposed within and rotatable relative to seal bodies (58a, 58b). The valve members seal against the seal bodies and the seal bodies seal against the manifold. A solvent valve (36c) also includes a valve member (56c) in a seal body (58c). The first and second valves are configured to open only when the solvent valve is closed. The solvent valve is configured to open only when the first and second valves are closed. The solvent valve can rotate between a plurality of positions to control the flow of solvent to flowpaths downstream of the first and second valves.