A low pressure operable, diaphragm-type logical product AND element includes a plurality of parallel pressure relief passages each of which may be closed by an external signal-actuated diaphragm to increase the pressure of an outlet which may be connected to several pure fluidic logic elements when all of the relief passages are closed. The logical summation element further incorporates an impedance matcher.

An improved valve arrangement for distributing liquid and/or gaseous subsces from a plurality of substance storing vessels to a processing vessel utilizing fluidic pressure control valves. A common conduit line runs through a block and has an output end connectable to a receiving vessel, the line has a series of openings along one surface of the block. Flexible membranes disposed above the openings of the common conduit line and similar openings in the block surface connected to the supply conduit lines control the fluid communication between the supply conduits and the common conduit.

An instrument valve manifold 10, 210 interfaces between a flowline control manifold CM and one or more pressure transmitter units T1, T2. The instrument valve manifold includes a monolithic body 32,232 that defines a mating surface 34,234 having a low pressure port 52, 252 and a high pressure port 54, 254, a low pressure plenum 58, 258 and a high pressure plenum 60,260, and at least one equalizing valve pocket 96, 296 for receiving an equalizing valve 100, 300. Fluid passageways in the body 32, 232 extend from the low pressure input port to the low pressure plenum and from the high pressure input port to the high pressure plenum. The instrument valve manifold reduces the size and weight of components connected to the control manifold, reduces the moment arm of the combined weight of the instrument valve manifold and the transmitter on the control manifold, and distributes the weight substantially equally about the plane of symmetry 30 of the control manifold.

A two-piece, modular valve manifold adapted to be positioned between a main flowline and a pressure sensor to control fluid flow from the main flowline to the sensor, the manifold comprising a first module that adapts to a pressure sensor, such as a differential pressure transmitter, and a second module that is connected to a source of process fluid, the second module containing a block valve system, the first module containing an equalizer valve system and a vent valve system, the modules being connected together whereby process fluid can be transferred through the first module to the second module and ultimately, to the pressure sensor.

A valve manifold for interfacing between a flowline control manifold and first and second pressure sensor units, the manifold having a monolithic body defining a mating surface for mating with the process control manifold and an instrument face for mating with the first and second pressure sensor units, the body having a peripheral wall with a first portion thereof being on the opposite side of the instrument face with respect to the mating face, the first portion of the peripheral wall forming an equalizing valve pocket surface for high and low pressure equalizing valve pockets carrying high and low pressure equalizing valves, respectively. High and low pressure fluid passageways extend from the mating surface to the equalizing valve pockets. The high pressure fluid passageway communicates with a high pressure plenum in the instrument face while the low pressure fluid passageway communicates with a low pressure plenum formed in the instrument face. An equalizing fluid passageway interconnects the high pressure and low pressure equalizing valve pockets. A gauge pressure passageway is connected to the high pressure fluid passageway and is in open communication with a second high pressure plenum formed in the instrument face. A block valve selectively controls flow through the gauge pressure passageway.