SU1029914A1 - Irrigation meter - Google Patents

Description

about

Yu

: p X) Invention-e relates to agriculture and can be used for irrigating gardens. A pulsed dropper is known, including a housing with an elastic membrane P, the disadvantage is that it excludes the possibility of uniformly wetting the irrigated garden, since the degree of filling of such dispensers with water varies depending on the height position of each of them relative to the pumping station. An irrigation dispenser is also known that provides a constant volume of water discharge independently. from the supplied pressure and are made in the form of a pneumohydroaccumulator connected to a pressure network and having two tanks: the top one is air and the bottom one is water, separated by a throat with a shut-off valve floating in the bottom vessel. The disadvantage of the known dzator is the impossibility of its use for combined irrigation - drip and fine. The purpose of the invention is to expand the operational capabilities by using it for drip and fine irrigation. The goal is achieved by the fact that both tanks are equipped with tubes with locking devices with control mechanisms that are vertically upwardly upward, and the tube that is removed from the water tank is equipped with a deflector. FIG. 1 shows an irrigation dispenser, vertical section; on . 2 is a section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one; in fig. 4 shows a section B-D in FIG. 1. FIG. 5 a section of YYY in FIG. 1. The irrigation metering device is suspended from the trellis wire 1 and is connected to the irrigation tube 2 by a nozzle 3 via a detachable hollow base, which connects from the plate 4 with an axial hole and a socket for the nozzle 3 and the cover 5 ,, screwed onto the plate 4 and onto the waste neck; About the dispenser and provided with holes for discharging water from the dispenser to the atmosphere. Inside the split center there is a rubber diaphragm 6 the edges of which are clamped between the plate 4 and the lid 5 with an axial hole which is bordered on the bottom by an annular protrusion resting on the bottom of the plate 4 (Fig.1 / when the diaphragm is not under pressure from either the bottom or the top. In the axial hole of the diaphragm .6, there is an end of the cup 7 delivered with the top hole with an axial hole in the bottom and with holes in its wall to enter the dispenser from the irrigation network In order to prevent water from entering into a jam at a very low flow rate E of the irrigation network, a spring 8 and a rubber stopper 9, tightly seated in it, are capable of expanding under the pressure of water from below, are inserted into the cup 7. Pnevmogidroakkumul dispenser consists of a water chamber 10 and a nail chamber 11, the capacity of which is less than the capacity of the water chamber 10. Water on the chamber 10 consists of a housing 12 with a water outlet hole 13 and with a short wide discharge neck-:; com BOTTOM, on which a detachable base with diaphragm 6 is mounted, and a conical cover 14 with a narrow air duct. The top of the neck on which an air chamber 11 is mounted, consisting of a housing 15 and a conical cover 16 with an air duct hole 17. In a water chamber 10 there is a free-floating float valve 18 of a vortex type, for example, from foam, with a metal plate attached to it, giving it stability, and conventionally depicted lying on the cup 7, since there is no water in the chamber. To release water from chamber 10 through an opening 13, a water supply pipe 19 is attached to this opening, and to release 3 an atmosphere of air from chamber 11 through an opening 17, an air-conducting pipe 20 is attached to this opening. The pipes are provided with shut-off; tubes 19 with a cork gate 21), and the upper end of tube 20 with a cork valve 22. These taps are equipped with forked levers on the heads of their conical jams, which sit in their rectangular cases with through-going through holes the upper crown tubes 19 and 20. From above, a tubular one hundred to 23 is inserted into the casing tap housing 21, with a baffle nozzle 24 mounted on its upper end. In figures 1-3, the dispenser is shown with a closed tap 21 and an open cork tap 22, which secured to the shield 25 in the rectangular holes in this shield, and their plugs are spring-loaded using an elastic plate 26 and a clamping screw 27 screwed into the shield 25, and lubricated, for example with a solidol. On the fixed trellis wire 1, the flap 25 is fastened with clamping pins 28. The control mechanism in the form of a trailing wire 29 is designed to control the cork cock 21, and the traction wire control mechanism 30 to control the air cork cock 22. These traction wires are passed through the slots of the forked ends of the levers of the cork cranes, and the position of the ends of the levers on the t-wire wires are fixed by cylindrical clamps 31, which are strung on them and secured with clamping screws. Wires 1, 29, and 30 are tensioned to one side of the trellis posts and can be fastened to them in the position shown in FIG. 1, wire clips that are on a trellis wire 1 are crammed into a pole to failure, and on traction wires 29 and 30 with gaps providing for their mobility, and lubricating these guide brackets with solid oil; 20-25 dispensers are attached to the traction wires, Each tree irrigates one tree, and the independent movement of each of these wires to both sides is ensured by a counterweight hanging from one end and mounted on the other KoHue automated hydraulic traction device, to which two such traces are attached rollers from irrigated trees standing in the same row on either side of it, i.e. it serves 40-50 dispensers. For surface irrigation, a low-pressure pump is installed in the pumping station of the irrigation system, and for fine irrigation, a pump with a higher head is installed, and the pumping capacity is taken into account that during the surface irrigation and the garden irrigation, they fill all the irrigated garden metering units into the specified the period at different times, first close, and at the end the most remote, with a gradual decrease in the flow rate supplied to the network, to zero and with a corresponding gradual increase in the developed head. Surface irrigation garden feed. drip irrigation is produced by continuously operating a pump with the cork valve 21 closed and the cork valve 22 open, as they are shown in Figures 1-3. In this case, the water filling of the water chamber 10 ka xdogo of the dispenser will start only after the pressure in the nozzle 3 compresses and pushes the rubber stopper 9 above the holes in the wall of the glass 7, and the opening of the discharge neck of the water chamber 10 will be closed with a diaphragm b much earlier this, since at the slightest head in the pipe 3, the diaphragm 6 rises up to the stop at the end of the discharge neck. As the water chamber 10 is filled with water, air flows out of it into air chamber 11 through the upper chamber. air duct, and from 11 to air outlet; The ferrue through the opening 17, the air guide tube 20 and the air plug valve 22. Only after the water level in the water chamber 10 rises almost to its air guide neck, the float valve 18 rises to the position in which it is shown in FIG. 1 is dotted, and hermetically digs this neck. After the chamber is filled with water 10, all the dispensers of the irrigation system, i.e. after the pump starts to idle, having developed a maximum pressure, simultaneously and instantly close its outlet valve and open the valve to empty the irrigation network. Due to this, in all elements of the irrigation network laid in the ground and fitted with plunts on the upper slope ends, a practically free-flow mode of water movement down the slope will be established, and in the irrigation tubes 2 suspended from the trellis wires 1, there will be a vacuum, corresponding to the height their NSSch underground network elements. As a result, the diaphragm 6 of all dispensers is lowered to the position shown in FIG. 1, and water from all dispensers for several seconds will pour out through the slit openings of the lids 5 screwed onto the plate 4. Having kept the outlet valve of the pump closed and the waste open for 20-30 seconds without stopping the pump, the first of them is instantly opened and the second simultaneously closed, after which the dryers again begin to fill with water. For subsequent fine irrigation of the garden, the air plug valve .22, as well as the water plug valve 21, located on the shield 25 and secured with an elastic plate 26 and the clamping screw 27, is turned to the closed position, for which the lever of the fuse tube 30 moves to the left by moving the wire 30 from the position shown in FIG. 1, turn on SO. With fine, as with surface irrigation, the pump that supplies water to the irrigation network, works continuously. In this case, the filling of the water chamber 10 of each dispenser in the first cycle is the same as with surface irrigation, with the only difference that the air displaced by water from the water chamber 10 into the air chamber 11 does not go out into the atmosphere, and the pressure in Both cells are gradually aerostatic from atmospheric to finely dispersed, exceeding optimal for nozzle 24 and equal to the ratio of the total capacity of chambers 10 and 11 to the capacity of chamber 11. After filling the water chamber 10 with water almost to its air-conducting one. the neck valve 18 closes it, and therefore the possibility of water getting into the chamber 11 is excluded. After filling all the dispensers of the irrigation system with water, i.e. after the flow rate of the water supplied by the pump to the irrigation network reaches zero, and the pressure developed by it reaches the Maximum, the outlet valve of the pump is instantly closed, and the water slug taps 21 of all the metering systems of the system with the help of traction wires 29 simultaneously and almost just as quickly open for a few seconds, during which time there are rugs of water.

located in the dispensers, is discharged through the deflector nozzles 24 in the form of an aerosol onto the treetops, and the ngshor in the dispensers falls below the opto-. Minimum for deflector nozzles.

Application of irrigation dispenser for surface irrigation of gardens

the norms of drip irrigation combined with a scientific research institute with fine irrigation will significantly reduce the water consumption of irrigated gardens and increase:.; their yield compared to yield with other methods of irrigation.

21

eleven

/

Riga.1

21

FIG. 2

22

12//

29

Rig.Z

sixteen

/

/

Claims (1)

(57) IRRIGATING DISPENSER, made in the form of a pneumohydroaccumulator, connected to a pressure irrigation network and having two tanks: the lower water and the upper - air, separated by a neck with a shut-off valve floating in the lower tank, located on the other hand that, in order to expand operational capabilities through the use of drip and fine irrigation, both tanks are equipped with vertically raised tubes with locking devices having a control mechanism *, and the tube removed from the dropsy oh capacity, equipped with a deflector. 5 ω s