Liquid distribution system for irrigation and the like
First Claim
Patent Images
1. An electrically controlled liquid distribution system comprising:
- a central sequencing control station including circuit means for providing a command voltage during timed intervals;
means for distributing the liquid including a piping path having an upstream side and a downstream side, the piping path including a valve station located at a remote distance from the central station;
the valve station including control voltage receiving means, a remote control valve having an impedance therein, and a network having a network input coupled to the control voltage receiving means and a network output loaded by the impedance of the remote control valve;
the remote control valve, when properly functioning, being actuated in response to a turn-on level of current being supplied from the network to flow through the impedance of the remote control valve;
conductor means for connecting the circuit means in the central station to the command voltage receiving means;
the network including an electrical switching device having open and closed operating conditions, and the loaded network defining a transadmittance that is controlled in accordance with the operating condition of the electrical switching device; and
the valve station further including transducer means responsive to the liquid in the piping path on the downstream side of the remote control valve for controlling the switching device to provide local fault-sensing feedback control over the current flowing through the impedance of the remote control valve.
0 Assignments
0 Petitions
Accused Products
Abstract
An electrically controlled liquid distribution system for irrigation and the like comprises a central sequencing control station for controlling a remote valve station. The valve station provides local fault-sensing feedback control over actuation current supplied to a remote control valve therein. Conductor means, preferably comprising a single pair of conductors, connect the central station to the remote valve station. In one embodiment, the feedback control results in a change in current level flowing in the conductors after the remote control valve opens, and circuitry in the central station detects this change in current level to control an indicator.
22 Citations
11 Claims
-
1. An electrically controlled liquid distribution system comprising:
-
a central sequencing control station including circuit means for providing a command voltage during timed intervals; means for distributing the liquid including a piping path having an upstream side and a downstream side, the piping path including a valve station located at a remote distance from the central station; the valve station including control voltage receiving means, a remote control valve having an impedance therein, and a network having a network input coupled to the control voltage receiving means and a network output loaded by the impedance of the remote control valve;
the remote control valve, when properly functioning, being actuated in response to a turn-on level of current being supplied from the network to flow through the impedance of the remote control valve;conductor means for connecting the circuit means in the central station to the command voltage receiving means; the network including an electrical switching device having open and closed operating conditions, and the loaded network defining a transadmittance that is controlled in accordance with the operating condition of the electrical switching device; and the valve station further including transducer means responsive to the liquid in the piping path on the downstream side of the remote control valve for controlling the switching device to provide local fault-sensing feedback control over the current flowing through the impedance of the remote control valve. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. An electrically controlled liquid distribution system comprising:
-
a central sequencing control station including circuit means for providing a command voltage during timed intervals; means for distributing the liquid including a piping path having an upstream side and a downstream side, the piping path including a valve station located at a remote distance from the central station; the valve station including a remote control valve having an impedance therein, the remote control valve, when functioning properly, opening in response to a turn-on level of current flowing through its impedance and remaining open so long as a lower holding level of current flows through its impedance; a single pair of conductors connecting the circuit means in the central station to the valve station; the valve station further including a parallel circuit comprising a switch and a current limiting impedance;
the parallel circuit being connected in series with one of the conductors and with the impedance of the remote control valve, the switch having a closed condition of operation whereby the current-limiting impedance is shorted out and the command voltage causes the turn-on level of current to flow through the impedance of the remote control valve, the switch having an open condition of operation whereby the current-limiting impedance limits the current flowing through the impedance of the remote control valve to the holding level;the valve station further including transducer means positioned in the piping path on the downstream side of the remote control valve for controlling the operating condition of the switch to provide local fault-sensing feedback control over the current flowing through the impedance of the remote control valve; and the circuit means in the central station further including means for detecting a change in current flowing to the valve station. - View Dependent Claims (8, 9)
-
-
10. An electrically controlled liquid distribution system comprising:
-
a central sequencing control station including circuit means for providing a command voltage during timed intervals; means for distributing the liquid including a piping path having an upstream side and a downstream side, the piping path including a valve station located at a remote distance from the central station; the valve station including a remote control valve having an impedance therein, the remote control valve, when functioning properly, opening in response to a turn-on level of current flowing through its impedance; a single pair of conductors connecting the circuit means in the central station to the valve station; the valve station further including a transducer switch;
an electronic switch connected in series with one of the conductors and with the impedance of the remote control valve, the electronic switch having a control signal input and being responsive to a gating control signal applied to its control signal input to switch from an open to a closed operating condition and thereby conduct a turn-on level of current to the impedance in the remote control valve; and
timing circuit means for supplying the gating control signal, the timing circuit means receiving operating power from the central station via the single pair of conductors and providing the gating control signal to cause the electronic switch to switch first to its closed operating condition, the timing circuit including means responsive to the transducer switch for terminating the gating control signal after a predetermined delay interval in the event that the transducer switch is not operated; and
whereinthe transducer switch is positioned to respond to the liquid in the piping path on the downstream side of the remote control valve so as to provide local faultsensing feedback control over the current flowing through the impedance of the remote control valve. - View Dependent Claims (11)
-
Specification