SU865226A1 - Metering device to feed distributors - Google Patents

Description

(34; DROPPER

t

The invention relates to agricultural amelioration, in particular to drip irrigation, and can be used for irrigation of orchards and vineyards.

A dropper is known, including an accumulator hydroaccumulator connected by a pressure network, an overflow valve installed in its lower part, and a pressure damping chamber, provided at the outlet with a diaphragm valve and communicated with distribution pipes 1.

However, such a dropper is sensitive. is solid .. to the geodesic head, does not provide uniform moisture and has a complex control system.

Another dropper is also known, including a body and an elastic valve 2.

The disadvantage of this dropper is the presence of a command pulse generator, the difficulty of transmitting

from it, the pressure drop signal is not in systems with large slopes and an extended pipeline segment.

The purpose of the invention is to simplify the design, stabilize the flow rate and increase reliability when operating on turbid water.

The goal is achieved by the fact that the body is made in the form of a vortex chamber with a tangential entrance and

fO with a raised cylindrical protrusion having a radial and axial bore communicated with the atmosphere, and the elastic valve is made in the form of a flat tape fixed at one end to

15 protrusion, tangent to its surface, and the other - directed in the direction of rotation of the water flow.

In this case, the elastic valve eacrvp flax on the ledge with the help of elastic

Claims (2)

20 bows with an internal retainer, kench clocked with it by means of longitudinal grooves on the protrusion. 38 Ha of FIG. shows dropper, cross section; in fig. 2 - the same longitudinal incision. The dropper consists of a body 1, made in the form of a cylindrical vortex chamber, with a tangential inlet through the nozzle 2, an elastic valve 3, made in the form of a flat tape, for example, from rubber and an elastic stopper semi-ring 4. Inside the body there is a cylindrical protrusion 5 with a radial 6 and an axial 7 apertures connecting the internal cavity of the housing with the atmosphere. The housing is sealed with a cover 8. One end of the elastic valve 3 is closed tangentially on the cylindrical protrusion, and the other remains free and is directed in the direction of rotation of the water flow. The retaining ring 4 has an internal retainer 9 S in the form of an oval or triangular protrusion, which contacts one of the circumferential grooves 10 on the cylindrical surface of the protrusion 5. The dropper works as follows. When water is supplied through the nozzle 2, it fills the cavity of the body I, twists in it in the direction, indicated by the nominal arrow, and through the holes 6 and 7 flows into the atmosphere. When the flow rotates, the velocity head, acting on the surface of the elastic valve 3, presses it to the cylindrical surface of the arm 5 and closes the radial opening 6, stopping the outflow of water into the atmosphere. When the valve is closed, the flow of water through the nozzle 2 is stopped, the speed of the inertial rotation of the closed volume of the water in the casing is gradually reduced, and the velocity pressure of the water on the surface of the elastic valve is reduced. Due to the elasticity of the material, the valve 3 begins to gradually straighten and opens the opening 6. Then the entire cycle of filling-draining is repeated. With a change in the operating pressure, both the outflow rate and, consequently, the volume of the outburst, and the speed of rotation of the water in the vortex chamber and, consequently, the pause between the outliers, change. Thus, regardless of the operating pressure, the average dropper flow rate remains constant. You can change the average flow rate of the dropper by mixing in any fixed position of the locking half-ring with an elastic valve during the installation of the dropper. Large bore sections in the dropper allow watering with turbid, untreated water with solid particles up to 2.5 mm. The use of a dropper of the proposed design will enable to increase the reliability of its work. Claim 1. Dump, comprising a housing and an elastic valve, characterized in that, in order to simplify the design, stabilize the flow rate and increase reliability when working on turbid water, the housing is designed as a vortex chamber with a tangential inlet and axially cylindrical vertical having radial and axial holes communicated with the atmosphere, and the elastic valve is made in the form of a flat tape, one end fixed on the protrusion tangently to its surface, and the other directed in the direction of rotation of the flow of water. 2. A dropper according to claim 2, which is tactile, in order to be able to pre-install the dropper at a predetermined flow rate, the elastic valve is fixed on the protrusion using an elastic half ring with an internal retainer in contact with it by means of longitudinal ditches. Sources of information taken into account in the examination 1. The author's certificate of the USSR 554844, cl. A 01 G 25/02, 1976. 2. Authors certificate USSR 665855, cl. A 01 G 25/02; 1977 Shrototip)