RU2132608C1 - Variable flow rate sprinkler unit - Google Patents

Abstract

FIELD: agriculture, in particular, equipment used in irrigated agriculture. SUBSTANCE: sprinkler unit has pipe with nozzle and standard sensor. Needle-type member is positioned within nozzle for regulating nozzle effective section by wind flow and kinematically connected with standard sensor. Needle section is less than that of nozzle opening. Needle is mounted for displacement within nozzle to its outlet opening during irrigation into the wind and away from outlet opening during irrigation downwind. EFFECT: increased efficiency by uniform irrigation at movement of wind in any direction. 2 dwg

Description

 The invention relates to agriculture and can be used in irrigated agriculture.

 Known sprinkler apparatus with a varying angle of inclination of the trunk to the horizon depending on the direction and speed of the wind, containing a hull, a trunk and a sail sensor kinematically connected with the nozzle (SU 1212378 A, 23.02.86).

The disadvantage of this known sprinkler apparatus is that when the wind is strong, the trunk of the apparatus tilts down at an acute angle (α = 17 ^o ), while the water jet does not have time to spray onto the drops and, falling on the soil and plants, damages them.

 Closest to the proposed one is a variable-rate sprinkler, including a barrel with a nozzle, a sail sensor and an element placed inside the nozzle to regulate its flow area under the influence of wind and kinematically connected with the sail sensor (SU 1658914 A1, 06/30/91).

 The disadvantage of this known sprinkler apparatus is the non-uniformity of irrigation irrigation along the irrigated area in the wind and against the wind, since with an approximately equal irrigation area in the first case, the consumption is less, and in the second more.

 The present invention is to ensure uniformity of irrigation in the irrigated area both in the wind and against the wind.

 The problem is solved in that in a sprinkler apparatus with a variable flow rate, including a barrel with a nozzle, a sail-sensor and an element placed inside the nozzle to regulate its flow area under the influence of wind and kinematically connected with the sail-sensor, according to the invention, said element is made a needle having a cross section smaller than the nozzle outlet and mounted to move inside the nozzle to its outlet when watering against the wind and from the outlet when watering the wind.

 The invention is illustrated in the drawing, where in FIG. 1 shows a sprinkler apparatus, a longitudinal section; in FIG. 2 - irrigated area.

 The variable-flow sprinkler apparatus contains a barrel 1 on which a nozzle 2 is fixed. A sail sensor 3 is mounted on the barrel 1, to which, through the levers 4, 5 and the hydraulic booster 6, a regulating nozzle passage 2 is connected with a needle 7, the cross-section of which is smaller than the cross-sectional area section of the outlet nozzle 2.

 Sprinkler apparatus with variable flow rate is as follows.

При поливе по ветру парус-датчик 3 отклоняется в сторону сопла 2 и через рычаги 4, 5 и гидроусилитель 6 перемещает регулирующую иглу 7 от выходного отверстия, увеличивая таким образом проходное сечение сопла 2, а следовательно, и расход воды, т.к. орошаемая при поливе по ветру площадь

Интенсивность дождя

где Q₁ - расход воды при поливе по ветру, ρ₁ - интенсивность дождя при поливе по ветру. При работе дождевального аппарата против ветра парус-датчик 3 отклоняется от сопла 2, кинематически связанная с ним игла 7 перемещается к выходному отверстию сопла 2, уменьшая проходное сечение сопла 2, а следовательно, и пропускную способность. При этом площадь орошения

а интенсивность дождя

где Q₂ - расход воды при поливе против ветра, ρ₂ - интенсивность дождя при этом.In the absence of wind, the control needle 7 is in the neutral position and the sprinkler irrigates the area of the circle

When watering in the wind, the sail-sensor 3 deviates towards the nozzle 2 and through the levers 4, 5 and the hydraulic booster 6 moves the control needle 7 from the outlet, thereby increasing the passage section of the nozzle 2 and, consequently, the water flow, because wind irrigated area

Rain intensity

where Q ₁ - water flow when watering in the wind, ρ ₁ - rain intensity when watering in the wind. When the sprinkler apparatus is operating against the wind, the sail sensor 3 deviates from the nozzle 2, the needle 7 kinematically connected to it moves to the outlet of the nozzle 2, reducing the nozzle 2 throughput, and therefore the throughput. Moreover, the irrigation area

and rain intensity

where Q ₂ is the water flow during irrigation against the wind, ρ ₂ is the rain intensity in this case.

This sprinkler apparatus with a transitional flow rate allows to achieve the condition ρ ₁ = ρ ₂ , i.e. provides uniform irrigation in any wind direction over the entire irrigation area.

Claims (1)

 Variable-flow sprinkler apparatus including a barrel with a nozzle, a sail sensor and an element placed inside the nozzle to regulate its flow area under the influence of wind and kinematically connected with the sail sensor, characterized in that said element is made in the form of a needle having a cross section smaller than the outlet nozzle and installed with the possibility of movement inside the nozzle to its outlet when watering against the wind and from the outlet when watering in the wind.

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