• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    An irrigation system of the type comprising a plurality of nozzles spaced along a pipeline fed at one end from a source of supply of irrigation liquid, which latter may be purely water or may be water with additives, in which in order to avoid different spray rates due to a loss in pressure along the pipeline each nozzle is provided with a valve and an associated resilient subsidiary reservoir, the valves operating to close off the nozzles while all the subsidiary reservoirs charge up to the line pressure and then, when a control valve diverts the source of supply to a discharge outlet all the nozzles receive liquid in the same pressure from their associated subsidiary reservoir; when the subsidiary reservoirs are all back at atmospheric pressure the cycle recommences.
    公开号:SU890959A3
    申请号:SU772559009
    申请日:1977-12-29
    公开日:1981-12-15
    发明作者:Каттанео Мауризио;Масоеро Ренцо
    申请人:Фиат Сочиета Пер Ациони (Фирма);
    IPC主号:
    专利说明:

    one
    The invention relates to agriculture, namely to the field of irrigated agriculture, and can be used in automated irrigation systems.,
    A well-known irrigation system includes a pipeline with sprinklers installed on it, which, during operation of the system, continuously spray water coming from a water source l,
    However, when using long pipelines, the system creates a drop in water pressure between its beginning and end, and as a result, the amount of water sprayed by the sprinklers installed at the end of the pipeline will be less than that sprinkled by the sprinklers located at the beginning.
    The closest in technical essence to the proposed is an irrigation system including a pipeline connected to the source
    water, consistently located on the pipeline spray nozzles with storage tanks made with the possibility of alternate connection with the spray nozzle and the pipeline, and located between the spray nozzle and storage tank distribution devices 22.
    10 V. of the known system, the amount of water accumulated in the storage tanks depends on the time of filling the capacity of the spray device working in adverse conditions.
    15 conditions.
    The purpose of the invention is to ensure uniform irrigation by independent. from the position of the nozzle in the pipeline for supplying a predetermined amount of water to it.
    The goal is achieved by the fact that storage tanks are located on the pipeline in series with the spray nozzles,
    25. Distribution devices are inserted into the pipeline and are each in the form of a diaphragm valve with a free flexible diaphragm installed in the pipeline with the ability to block the flow area of the pipeline or the inlet of the spray nozzle. Kah FIG. Figures 1 and 2 show the proposed irrigation system with different variants of its implementation. The irrigation system includes a water source 1 connected to a pump 2 and a pipe 3. The pump is connected by a pipe 4 to a control valve 5, has a housing 6 and a cover 7 with a connecting element 8 to which the pipeline 4 is attached. The connecting element 8 has an internal connected to the valve chamber 9, in which the plunger 10 is installed with the adjusting head 11 with a screw screwed into the housing 5, and pressed by the spring 12, the valve housing 6 has two connecting elements 13 and 14, the first of which 15 connected to kame valve 9 through two perpendicular channels 15 and channels 16 and 17 entering the chamber 9.
    The channel 17 is located coaxially 4 through the chamber 9 with a drain channel 18 connected to a source of water 1, a pipe 19 is connected to the element 3, connected to a distribution device made in the form of a double-seated diaphragm valve 20 mounted with a spraying nozzle 21 screwed in by inserting 22 into the housing 23 of the valve 20. The housing 23 has a connecting element through which the conduit 19 is connected, which is connected to the internal channel 25 of the housing 23, passing into the chamber 26 of the housing 23. The chamber 26 has an annular shoulder 27, on which is supported by a membrane 28. The insert 22 has an internal channel 29 connected to the nozzle 21, a chamber 26 connected to the drain channel 30 that passes through a connecting element 31 connected to a pipe 32 connected to a similar spray nozzle 33. The connecting element 31 has a branch 34 which ends with an elastic storage tank 35. After the last spray nozzle, the pipeline ends with a plug 36.
    By turning the head 11, the plunger 10 is lowered down to the overlap of the channel 16. At the same time, the channel 17 and the channel 18 open, since the neck of the plunger is smaller than its rest body
    Water under pressure in the pipe 19 passes through the valve 5, the channels 1 17 and 18 ogragno to the water source 1.
    This causes a pressure drop in the pipe I9 and the membrane 28 under the action of the pressure difference in the pipe 19 and the chamber 26 bends from the neck of the channel 24, allowing water to escape through the spray nozzle 21. The pressure, the pressure of which the water sprays, does not depend on the position of the valve 20 on the pipe 19 and depends on the pressure of water in the tank 35. When all the containers are completely empty, the control valve opens again when the head 11 is screwed in and the cycle repeats.
    The system variant of FIG. 2 differs from the first only in the design of the valve, which operates automatically. Said valve 37 comprises a housing 38, which are staggered. A cap 39 is screwed into a smaller step, having full 9. The system operates as follows. When unscrewing the head 11, the plunger 10 moves away from the cover 7 to the position shown in FIG. 1, and the channel 16 is connected to the cavity of the element 8. The water flow from the water source 1 is pumped by the pump 2 through the pipeline 4 to the chamber 9, and from there through the channel 16, the element 13 to the pipeline 19 and the channel 25. At the same time, the water passing through the channel 25, presses the membranes 28 against the collar 27. The flexibility of the membrane allows its peripheral parts to bend so that water under pressure bends around the edges of the membrane and through channel 30 through outlet 34 enters the tank 35 and then into pipeline 32 to the next section of pipeline. At the next spray nozzle, the same process takes place, but since the end of the pipeline is closed by a plug 36, the capacity of this spray nozzle is filled to the maximum pressure created by pump 2. During the filling of the containers, the inlets of all the spray nozzles remain closed by their membranes. After filling, the accumulating connection element 40, which is connected to the chamber 41, formed by a plug 39 and a smaller step of the housing 38. In a larger step 42 of the housing, a threaded plug 43 is installed, which also has a hollow connecting element 44 with a spindle 45 passing through a narrow channel between the steps housing and located in it with a gap. The spindle is fixed to an elastic ring valve 46 with a spring 47, which is compressed by a plug 39 so that the valve closes the message between the chamber 41 and the larger stage of the body 42,
    The spindle 45 is fitted with a membrane 48, the edges of which are located between the body of the larger stage and the plug 43, when the plug is screwed into a position where it divides the cavity of the larger stage of the body into two chambers, one located between the membrane 48 and the connecting stage channel and the second chamber 49 between membrane and cap 43, connected to the pipeline, on which the spray nozzles are located. Between the pump 2 and the valve 37 (Fig. |) Installed the throttle valve 50.
    Irrigation system in this embodiment works as follows.
    Water from pump 2 enters valve 37 through element 40, passes through chamber 41 and exits through connecting element 13 into pipe 19. Spring 47 presses elastic valve 46 to the throat of the channel, connecting the chamber of valve 37 steps and water cannot escape from chamber 41 in this direction. The spray nozzle 21 works in the same way as in the described embodiment. Water from the last nozzle enters chamber 49. The pressure in the chamber grows until it exceeds the division of spring 47. Shndel 45 moves to the left together with valve 46, which opens the connection between the chambers of the membrane and water enters the drain. This causes a pressure drop in the pipe 19 and the operation of the nozzles 21. When the pressure drops in the last nozzle tank, the pressure in the chamber 49 of the control valve drops, the spring 47 displaces the element 40 to its original position and closes the connection between the steps of the valve 37. Water re-enters the pipe 19. To speed up the cycle of operation, the pipes 19 can be made elastic.
    The use of the invention will ensure uniformity of irrigation and, consequently, increase the yield of agricultural crops.
    权利要求:
    Claims (2)
    [1]
    1. Bel V.V. and others. Sprinkling machines. M., 1957, p. 79.
    [2]
    2. USSR author's certificate t 454876, cl. A 01 G 25/06, 1973.
    类似技术:
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    SU107803A1|1956-11-30|A device that automatically adjusts the flow of a jet in long-range sprinklers
    同族专利:
    公开号 | 公开日
    BR7708217A|1978-08-01|
    LU78782A1|1978-04-17|
    DK544077A|1978-07-01|
    SE446422B|1986-09-15|
    MX148746A|1983-06-10|
    US4176791A|1979-12-04|
    BE862207A|1978-06-22|
    IE46219B1|1983-04-06|
    GB1589529A|1981-05-13|
    IE46219L|1978-06-30|
    FR2375819A1|1978-07-28|
    DE2758709C2|1983-03-24|
    NL185052C|1990-01-16|
    FR2375819B1|1983-06-17|
    NL185052B|1989-08-16|
    DK153972C|1989-03-28|
    IL53534D0|1978-03-10|
    ES465543A1|1978-09-16|
    AU505453B2|1979-11-22|
    PT67454B|1979-05-25|
    GR64155B|1980-02-05|
    DK153972B|1988-10-03|
    IL53534A|1981-03-31|
    IT1061205B|1983-02-08|
    OA05936A|1981-06-30|
    DE2758709A1|1978-07-06|
    JPS5386344A|1978-07-29|
    AR213556A1|1979-02-15|
    ZA777285B|1978-10-25|
    EG14245A|1983-12-31|
    SE7713841L|1978-07-01|
    PT67454A|1978-01-01|
    AU3203777A|1979-07-05|
    NL7714201A|1978-07-04|
    引用文献:
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    GB664102A|1948-12-17|1952-01-02|Rohrbau Mannesmann G M B H|Device adapted for the intermittent delivery of water for instance, for rain or sprinkling plants|
    DE1200053B|1958-10-13|1965-09-02|Fmc Corp|Valve for controlling the liquid delivery of sprinklers arranged on lines|
    US3294290A|1965-04-06|1966-12-27|Dole Valve Co|Valve assembly controlling flow into, and discharge from, a fluid measuring chamber|
    US3321138A|1965-09-16|1967-05-23|Walter A Curry|Sprinkler control means and combination|
    US3353712A|1966-02-09|1967-11-21|Walker Mfg Co|Fluid dispensing system incorporating a fluid accumulator|
    US3818928A|1972-02-03|1974-06-25|Cvc Co|Hydropneumatic capacitor|
    US3794245A|1972-05-26|1974-02-26|Williamson Built Inc|Intermittent sprinkler and system|
    US3788544A|1973-02-02|1974-01-29|O Koskinenm|Agricultural irrigation system|
    US3848808A|1973-05-31|1974-11-19|Wham O Mfg Co|Water squirt toy with protective sleeve|
    US3976250A|1973-11-14|1976-08-24|Bentzinger Harlan A|Irrigation device|
    FR2267029B1|1974-04-09|1977-10-14|Carpano & Pons|
    US3960297A|1974-06-24|1976-06-01|Westates Space-Era Products, Inc.|Liquid measuring devices|IT1159874B|1978-07-04|1987-03-04|Fiat Spa|FLOW RATE FLUID SELF-CLEANING VALVE FOR IRRIGATION SYSTEMS|
    BG29733A1|1979-08-21|1981-02-16|Georgiev|Apparatus for impulse sprinkling|
    IL63434D0|1981-07-27|1981-10-30|Mekler Dan|Apparatus and method for drip irrigation|
    WO1992005384A1|1986-11-03|1992-04-02|Students Peter A|Multi-orifice manifold for balancing discharge of liquified gases|
    US4865254A|1987-06-09|1989-09-12|Kragle George D|Two-head shower arm|
    IT1223015B|1987-10-29|1990-09-12|Enichem Agricoltura Spa|DEVICE FOR PULSATED DISPENSING OF AN IRRIGATION LIQUID AND IRRIGATION SYSTEMS THAT INCORPORATE THE DEVICE|
    US5249745A|1991-09-19|1993-10-05|Giacomo Bertolotti|Fluid distribution system|
    IT1251938B|1991-10-17|1995-05-27|Enichem Agricoltura Spa|DEVICE FOR PULSED DISPENSING OF AN IRRIGATION LIQUID AND IRRIGATION SYSTEMS THAT INCORPORATE THE DEVICE|
    IT1252631B|1991-12-04|1995-06-19|Enichem Agricoltura Spa|BY-PASS REGULATING THE RETURN FLOW OF A PILOT VALVE INSERTED IN AN IRRIGATION NETWORK|
    US5531381A|1994-10-05|1996-07-02|Ruttenberg; Gideon|Pulsating drip laterals|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    IT70139/76A|IT1061205B|1976-12-30|1976-12-30|SELF-PILOTED IRRIGATION SYSTEM|
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