Two problems with existing electronically controlled mixing valves for domestic use is their size and difficulty accessing and repairing them. Their size means that they often become hidden behind wall linings, and because of the way in which they are plumbed into the pipework of a house, they are difficult to access and remove for repair or replacement. Disclosed is a compact and replaceable mixing valve cartridge that can be mated to a fixed fitting that is permanently plumbed into the pipework of a house. The compact size allows the cartridge to be positioned behind the type of removable face plates that are often installed over existing manually operated mixing valves. Simplified valve actuators and a compact mixing and temperature sensing configuration have facilitated the compact size. The valve cartridge can simply be accessed, unbolted and removed, without the need for extensive plumbing re-work.

A guiding plate for coupling a plurality of hydraulic valves and a plurality of hose fittings which comprises a plate, and an identifying mark. The plate includes a plurality of apertures corresponding to the plurality of hydraulic calve and is positionable over the plurality of hydraulic valves. The identifying mark on the plate for each of the plurality of apertures, the identifying mark indicating the sequence of coupling of each hydraulic valve from the plurality of hydraulic valves with each hose fitting form the plurality of hose fittings.

[Object] It is an object of the present invention to provide a valve structure capable of fixing a first connecting port of a first valve box block and a second connecting port of a second valve box block to each other when the first valve box block, a first driving portion block, the second valve box block and a second driving portion block are fixed to each other by bolts. [Solving means] A first valve box bolt insertion hole 113 is formed in the first valve box block 110, a first driving portion bolt fixing hole 123 is formed in the first driving portion block 120, a second valve box bolt insertion hole 213 is formed in the second valve box block 210, and a second driving portion bolt fixing hole 223 is formed in the second driving portion block 220. The first valve box block 110 and the first driving portion block 120 are fixed to each other by a first bolt 130, the second valve box block 210 and the second driving portion block 220 are fixed to each other by a second bolt 230, and the first connecting port 111 and the second connecting port 211a, 211b are fixed to each other by a clamp member 10.

A unitized valve body for use in an automatic transmission includes a plurality of valve bores and a plurality of hydraulic passages. Each valve bore is configured to receive a valve. The plurality of hydraulic passages are in fluid communication with the valve bores and arranged parallel to each other. The plurality of valve bores extend normal to the hydraulic passages and are arranged above and below the hydraulic passages.

A valve base 15 has: a valve base body 20 on which a pin insertion hole 65 and a board installing hole 38 are formed; a board assembly 42 having a board 43 provided with a plurality of output terminals and a board connector 44 provided with a plurality of input terminals; a plurality of coupling terminals provided on the board 43 at intervals and connected to the input terminals of the board connector 44 of another adjacent board assembly 42; an output wiring connecting the output terminals and the input terminals; and a coupling wiring connecting the coupling terminals to the input terminals. A plurality of output pins 61 to 63 constituting the output terminals are provided on the board assembly 42. A manifold solenoid valve is formed by a plurality of valve bases on which solenoid valves are mounted.

A valve base 15 has: a valve base main body 20 on which a connector accommodating portion 37 and a board installing hole 38 are formed; a board assembly 42 provided with a plurality of output terminals and a plurality of input terminals connected to the output terminals by output wirings, and attached to the board installing hole 38; a relay connector 41 provided with a solenoid-side connection portion connected to a solenoid terminal and a board-side connection portion connected to the output terminals, and attached to the connector accommodating portion 37; and a through hole 55 provided on the valve base main body 20 so as to communicate with the connector accommodating portion 37, and exteriorly exposing a part of the relay connector 41. A manifold electromagnetic valve is formed by striking the valve bases 15 against each other. A type of solenoid valve is indicated by the relay connector 41 attached to the valve base 15.

A fluid control apparatus has a reduced number of components and enables simple alteration such as increasing or decreasing the number of lines. Chanel blocks on a lower stage include a plural-line (three-line) passage block disposed over a plurality of lines. The plural-line passage block receives an upper stage over three lines, with each of the lines including an inlet extension of a flow rate controller, and two inlet-side on-off valves arranged in series with the inlet extension. The plural-line passage block has longitudinal passages and transverse passages therein. The longitudinal passages are in communication with passages of the fluid control devices arranged in series per line. The transverse passages are in communication with passages of fluid control devices arranged in adjacent lines.

A flow substrate mounting structure comprising a fastener aperture and an alignment feature, wherein the alignment feature comprises at least one of an alignment pin removably coupled with the flow substrate mounting structure, an alignment slot, and an alignment step. A structure for coupling a plurality of flow substrates comprising a flow substrate mounting structure comprising a first fastener aperture, and a second fastener aperture, wherein the first fastener aperture is configured to couple with a first fastener and the second fastener aperture is configured to couple with a second fastener, wherein an alignment fixture is used to align the flow substrate mounting structure with the plurality of flow substrates.

A fluid routing plug for use with a fluid end section. The fluid end section being one of a plurality of fluid end sections making up a fluid end side of a high pressure pump. The fluid routing plug is installed within a horizontal bore formed in a fluid end section and is configured to route fluid throughout the fluid end section.

In a hydraulic unit, which is for a hydraulic brake system, that has a hydraulic block and at least one valve device, the valve device includes a hydraulic cartridge with a valve seat and with a movable closing body for blocking and opening the valve seat, and a magnet assembly with a magnet coil for generating a magnetic force for moving the closing body. The magnet assembly is integrated into the hydraulic block, and the valve device has a permanent magnet in order to assist the movement of the closing body by means of magnetic force.