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Title: Drip irrigation system for agriculture
Claims: What I claim and desire to secure by Letters Patent is: 1. A drip irrigation system for agriculture, comprising: (a) a plurality of water distribution lines adapted for extending across an area for growing crops; said lines being arranged in at least first and second separate groups thereof, wherein the lines in each of the groups are interconnected; (b) a water source of pressurized, substantially unfiltered water selectively communicating with said water distribution lines; (c) a plurality of water emitters connected with and spaced along each of said lines for discharging the water in said lines into the soil of the crop growing area; said emitters each having an orifice sized to generally allow foreign materials in said substantially unfiltered water to pass therethrough; (d) a water distributor including: (1) an outlet portion with first and second outlet ports connected with said first and second water line groups, respectively, and which has a hollow housing portion wherein said first and second ports are disposed, said housing portion having a cylindrical bore; (2) a sequencing valve having a cylindrical rotor with a hollow interior and which is coaxially mounted within said bore of the housing for turning of the rotor therein, said rotor having a dispensing port in the wall thereof selectively and cyclically alignable with one of said first and second ports in said housing portion for directing water therethrough while simultaneously closing the other of said first and second ports, said cylindrical rotor being adapted to index between said first and second ports and sequentially and individually communicate said first and second water distribution line groups with said water source, whereby surges of pressurized, substantially unfiltered water rush cyclically through said lines to alleviate clogging of the orifices by foreign material in the water; and (3) an inlet portion connected with said water source, and wherein said inlet portion leads into the hollow interior of said cylindrical rotor. 2. A system as set forth in claim 1 including: (a) a motor having a substantially constant rotational shaft speed; (b) an indexing mechanism interconnecting said motor and said rotor. 3. A system as set forth in claim 2 wherein said indexing mechanism comprises: (a) a resilient member having first and second ends; said resilient member first end being connected with said motor; (b) first and second friction plates having mating releasably engaging surfaces; said first friction plate being connected to said rotor for rotation and axial translation therewith, and said second friction plate being mounted in said housing portion and stationary with respect to said first friction plate; said resilient member second end being connected with said first friction plate, whereby motor rotation tenses said resilient member and applies a resilient torque to said first friction plate and sequentially rotates said rotor in a step-by-step fashion. 4. A system as set forth in claim 1 including: (a) a surge chamber connected with said housing and adapted for receiving the water therein; said surge chamber being closed with an air cushion volume above the free surface of the water therein for alleviating hydraulic pounding in said water distribution lines. 5. A system as set forth in claim 4 wherein: (a) said surge chamber includes a removable vent cap for adjusting the air cushion volume. 6. A system as set forth in claim 1 wherein said sequencing valve includes: (a) a rotor having a dispensing port therein selectively and cyclically aligning with one of said first and second ports for directing water therethrough, and simultaneously closing the other of said first and second ports. 7. A system as set forth in claim 1, wherein in each of said groups, said lines are adjacently disposed. 8. A drip irrigation system for agriculture, comprising: (a) a plurality of water distribution lines adapted for extending across an area for growing crops; said lines being arranged in at least first and second separate groups thereof, wherein the lines in each of the groups are interconnected; (b) a water source of pressurized, substantially unfiltered water selectively communicating with said water distribution lines; (c) a plurality of water emitters connected with and spaced along each of said lines for discharging the water in said lines into the soil of the crop growing area; said emitters each having an orifice sized to generally allow foreign materials in said substantially unfiltered water to pass therethrough; (d) a water distribution including: (1) an inlet portion thereof connected with said water source; (2) an outlet portion with first and second outlet ports connected with said first and second water line groups, respectively, said outlet portion having a hollow housing portion in which said first and second ports are disposed; (3) a sequencing valve disposed between said inlet and outlet portions and which indexes between said first and second ports and individually communicates said first and second water distribution line groups with said water source, whereby surges of pressurized, substantially unfiltered water rush cyclically through said lines to alleviate clogging of the orifices by foreign material in the water, said sequencing valve having a rotor mounted in said housing portion for rotation, said rotor having a dispensing port therein selectively and cyclically aligning with one of said first and second ports for directing water therethrough, and simultaneously closing the other of said first and second ports; (4) a motor having a substantially constant rotational shaft speed; (5) an indexing mechanism interconnecting said motor and said rotor, said indexing mechanism having first and second friction plates with mating releasably engaging surfaces, said first friction plate being connected to said rotor for rotation and axial translation therewith, and said second friction plate being mounted in said housing portion and stationary with respect to said first friction plate; (6) a resilient member having first and second ends, said resilient member being connected with said motor and with said resilient member second end being connected with said first friction plate, whereby motor rotation tenses said resilient member and applies a resilient torque to said first friction plate and sequentially rotates said rotor in a step-by-step fashion. 9. A system as set forth in claim 8 wherein: (a) said resilient member comprises a helical coil spring. 10. A system as set forth in claim 9 including: (a) means adjusting the effective length of said coil spring for controlling the indexing of said sequencing valve. 11. A system as set forth in claim 10 wherein: (a) said friction plate surfaces each include a preselected number of radially oriented, inclined teeth which are resiliently urged into a mating position by the coil spring. 12. A system as set forth in claim 8 including: (a) an oil bath housing encasing said friction plates and said coil spring. Other info: Inventors: Sample, Larry E. (Las Vegas, NV, US) Application Number: 907686 Filing Date: 1978-05-19 Publication_date: 1980-03-04 Assignee: Primary Class(es): 239/66 239/450 Other Classes: US Patent Ref:
Other Refs: Primary Examiner: Saifer, Robert W. Assistant Examiner: Attorney: Fishburn, Gold & Litman |
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