A flow control system for controlling flow in a system of valves connected to a splitter wherein a pressurized fluid is supplied to the splitter by a motor-driven pressurizer, the flow control system comprising: a plurality of flow sensors connected individually at an output of one of the valves to measure output flow from connected valve; a plurality of flow controllers connected individually to one of the valves for outputting a control signal controlling an opening angle of that particular valve in response to an output from a flow sensor connected at the output of that particular valve and an outlet setpoint provided for that particular valve; a main pressure sensor for measuring pressure of fluid output from the pressurizer; a main flow controller for adjusting operation of the motor driving the pressurizer; and a main system controller configured to set the main pressure setpoint based on the control signals.

An electrically-controlled water flow regulator for use with a poultry watering system receives potable water at a first, high flow rate and reduces the water flow rate of the water provided to watering valves that dispense water to the flock within a poultry house. A variable control valve uses a needle-shaped cone to engage a mating port inside the housing of the regulator. A motor controls the linear movement of the control valve in incremental steps to adjust the water flow rate provided to the flock. A feedback component enables the variable control valve to maintain the water flow rate at a desired set point for the flock. The desired set point for the flock is controlled or automated to match the growth of the flock over their growth cycle. An electrical controller and suitable cabling enable multiple regulators to be controlled efficiently and cost-effectively.

The present invention relates to methods for operating and controlling flow control systems. The method includes sensing an actual medium flow through a pipe part and outputting an electrical signal indicative of the sensed actual medium flow; comparing the sensed medium flow with a set medium flow and outputting a control signal; using an orifice adjusting system to adjust an adjustable orifice in a pipe part in response to the control signal; and performing a correction of a characteristic curve. The method can include setting an upper limit for medium flow to V.sub.max wherein V.sub.max is less than a maximum medium flow.

An electrically-controlled water flow regulator for use with a poultry watering system receives potable water at a first, high flow rate and reduces the water flow rate of the water provided to watering valves that dispense water to the flock within a poultry house. A variable control valve uses a needle-shaped cone to engage a mating port inside the housing of the regulator. A motor controls the linear movement of the control valve in incremental steps to adjust the water flow rate provided to the flock. A feedback component enables the variable control valve to maintain the water flow rate at a desired set point for the flock. The desired set point for the flock is controlled or automated to match the growth of the flock over their growth cycle. An electrical controller and suitable cabling enable multiple regulators to be controlled efficiently and cost-effectively.

A pneumatic valve arrangement for a pneumatically operated field device, such as a control device, of a processing plant, such as a chemical plant, a foodstuff processing plant, a power plant or the like is disclosed. The valve arrangement may include an air supply conduit for receiving pressurized air from a source of pressurized air, a control air conduit for aerating and venting a pneumatic actor of the field device, and a venting conduit for discharging pressurized air to a pressure sink, such as the atmosphere; a venting valve for opening and/or closing the venting conduit and an aerating valve for opening and/or closing the air supply conduit; and a pivotable carrier lever for common actuation of the aerating valve and of the venting valve, wherein the carrier lever holds the venting valve in its closed position while it opens the aerating valve from its closed position.

Embodiments of a fluid flow regulating device and methods of using the same are described. Certain embodiments manages fluid flow between one or more input ports and output ports at least partly in response to fluid pressure changes and/or by a mechanism driven by fluid flow, optionally without using electrical power.

The present invention relates to methods for operating and controlling flow control systems. The method includes sensing an actual medium flow through a pipe part and outputting an electrical signal indicative of the sensed actual medium flow; comparing the sensed medium flow with a set medium flow and outputting a control signal; using an orifice adjusting system to adjust an adjustable orifice in a pipe part in response to the control signal; and performing a correction of a characteristic curve. The method can include setting an upper limit for medium flow to Vmax wherein Vmax is less than a maximum medium flow.

An electrically-controlled water flow regulator for use with a poultry watering system receives potable water at a first, high flow rate and reduces the water flow rate of the water provided to watering valves that dispense water to the flock within a poultry house. A variable control valve uses a needle-shaped cone to engage a mating port inside the housing of the regulator. A motor controls the linear movement of the control valve in incremental steps to adjust the water flow rate provided to the flock. A feedback component enables the variable control valve to maintain the water flow rate at a desired set point for the flock. The desired set point for the flock is controlled or automated to match the growth of the flock over their growth cycle. An electrical controller and suitable cabling enable multiple regulators to be controlled efficiently and cost-effectively.

An electrically-controlled water pressure regulator for use with a poultry watering system receives potable water at a first high pressure level and reduces the water pressure level of the water provided to watering valves that dispense water to the flock within a poultry house. A variable control valve uses a needle-shaped cone to engage a round port inside the housing of the regulator. A stepper motor controls the liner movement of the control valve in incremental microsteps to adjust the water pressure level provided to the flock. A feedback component enables the variable control valve to maintain the water pressure level at a desired set point for the flock. The desired set point for the flock is controlled or automated to match the growth of the flock over their growth cycle. An electrical controller and suitable cabling enable multiple regulators to be controlled efficiently and cost-effectively.

A bypass valve and a valve assembly including a bypass valve are disclosed. The bypass valve includes a manifold having 4 ports and a valve stem including two sealing elements disposed along the valve stem length. The valve stem may be displaced to a first valve position and a second valve position to selectably place combinations of ports in fluid communication with each other.