RU2275011C1 - Dropper - Google Patents

Abstract

FIELD: agricultural engineering, in particular, drop irrigation equipment.

SUBSTANCE: dropper has casing with inlet and outlet branch pipes. Float with locking member is positioned within casing. Locking member is mounted inside outlet branch pipe and consists of replaceable washer, threaded bushing and rod, said washer, threaded bushing and rod being equipped with gauged openings. Rod has annular grooves. Multiple-thread coiling is provided on internal surface of threaded bushing. Air discharge channels are provided on rod surface between annular grooves. Rod is located in cavity of threaded bushing. Lower ends of rod and bushing are closed with threaded cover having apertures for drop discharge. Upper ends of threaded bushing and rod are joined with lower surface of replaceable washer. Casing and cover with threaded bushing are connected through threaded portions on its outer end portions.

EFFECT: wider range of consumption of irrigation water, uniform discharge of precipitations, and simplified series manufacture of dropper parts.

3 cl, 1 dwg

Description

The invention relates to agriculture and can be used for drip irrigation

Known dropper [1], which includes a housing mounted in the humidifier hole and a regulating element installed in it, in which, in order to improve the reliability of flow rate stabilization, the regulating element is made in the form of rigid partitions fixed at one end to the wall of the enclosure, not reaching the opposite wall, and a flexible comb , the teeth of which are placed between the rigid partitions and also do not reach the wall of the housing.

The disadvantages of the described dropper include the low-tech design in mass production, limited functionality, a tendency to clog vegetable and mineral debris, and a limited service life.

The closest technical solution is a dropper [2], which includes a housing with inlet and outlet nozzles and a float installed in it with a locking element included in the inlet, where, with the aim of self-cleaning the dropper and simplifying its design, the housing and the float are made in the form of concentrically mounted cones, wherein the float is equipped with a second locking element included in the outlet pipe, and has a spiral protrusion on the surface; in order to control the flow rate, the second locking element is removable.

The disadvantages of the described dropper, which we adopted as a prototype, include the strictly vertical position of the body, low operational reliability, clogging of the body cavity with mineral and vegetable debris, lack of funds for removal from the chamber cavity, uneven delivery (flow) of water.

The problem to which the claimed invention is directed is stabilization of the flow rate of irrigation water regardless of the water pressure in the supply systems

The technical result is a simplification of the design, improving manufacturability and uniformity of irrigation standards in a wide range of costs.

The specified technical result is achieved by the fact that in the known dropper, comprising a housing with inlet and outlet nozzles and a float installed therein with a locking element included in the output pipe, according to the invention, a locking element in the form of washers, threaded bushings and rods, interchangeable with calibrated holes, with annular grooves located in the cavity of the threaded sleeve installed in the outlet pipe, while the lower ends of the rod and the sleeve are closed with threaded caps provided with holes for drip water outlet oh, and their upper ends are paired with a calibrated washer.

The invention is illustrated by the figure, which shows a dropper, a diametrical section.

Information confirming the possibility of implementing the claimed invention are as follows.

The dropper includes a housing 1 with an inlet pipe 2 and an outlet pipe 3. A housing 4 has a float 4 with a locking element 5. The locking element 5 is installed in the output pipe 3. The housing 1 has an opening 6 for communication with the atmosphere. The inlet pipe 2 of the housing 1 has a cavity for interfacing with the float 4. The float 4 is hollow and has the shape of a ball. The outlet pipe 3 of the housing 1 has a threaded portion 7 and an annular groove 8.

The locking element 5 is made in the form of interchangeable washers 9, a threaded sleeve 10 and a rod 11. The interchangeable washer 9 is provided with calibrated holes 12 and is placed in the annular groove 8. The rod 11 is placed in the cavity of the threaded sleeve 10. The threaded sleeve 10 on the inner surface has a multi-thread winding 13. The rod 11 is provided with annular grooves 14. On the surface of the rod 11 between the annular grooves 14 there are made air exhaust grooves 15. The lower ends of the rod 11 and the threaded sleeve 10 are closed with openings 16 for the drip outlet as a threaded cover 17. The threaded cover 17 is screwed onto the threaded portion 18 of the threaded sleeve 10. The upper ends of the threaded sleeve 10 and the rod 11 are mated to the lower plane of the interchangeable washer 9 by means of the threaded portion 7 of the housing 1 and the threaded portion 19 of the threaded sleeve 10. Parameters of the interchangeable washer 9 , the threaded sleeve 10, the rod 11 and the threaded cover 17 are selected to provide irrigation rates with flow rates from 0.1 l / h to 5.5 l / h at intervals of 0.1 and 0.5 l / h. Each group of interchangeable dropper parts has its own color scheme.

A dropper works as follows. After the preliminary cleaning of mineral and vegetable litter and microorganisms from the distribution network of the drip irrigation system, under pressure of 0.02-0.08 MPa, it is fed through a flexible pipe into the inlet pipe 2 of the housing 1. When the cavity of the housing 1 is filled with water above the removable washer 9, a float 4 floats above the interchangeable washer 9 and closes the opening of the inlet pipe 2. Air from the cavity of the housing 1 enters the atmosphere through the hole 6. The float 4 holds the hole of the inlet pipe 2 in the closed position in the cavity of the housing and 1 to as long as not violated the conditions of equilibrium, described by the law of Archimedes. From the cavity of the housing 1, through calibrated openings 12 of the interchangeable washer 9, water flows evenly into the cavity of the threaded sleeve 10 and the upper ring groove 14 of the rod 11 under the interchangeable washer 9. From this cavity, through the multi-turn turns of helical lines, water flows into the cavity of the next annular grooves 14 of the rod 11. In the second portion of the rod 11, water again moves down the helical grooves of the threaded sleeve 10. Air removal from the cavity of the threaded sleeve 10 is facilitated by the air outlet grooves 15 on the cylindrical surface of the rod 11. When filling the cavity of the threaded sleeve 10 for the first time, air exits through the holes 16 of the threaded cover 17. When the irrigation water moves in a steady state only due to gravitational forces, air droplets due to a significant difference in the densities of air and water are pushed up. The air exhaust grooves 15 are accumulators for collecting air. At overpressure, the air that is located gradually rises through the air outlet grooves 15 into the cavity under the interchangeable washer 9, and from this cavity through calibrated openings 12 enters the cavity of the housing 1, and then through the opening 6 is vented to the atmosphere. This ensures an uninterrupted and continuous supply of irrigation water only due to gravity into the cavity bounded between the last, lowest ring groove 14 on the rod 11 and the threaded cover 17. From this cavity, irrigation water with holes 16 of the specified diameter of the drops enters the surface of the irrigated area.

The dropper flow rate depends on the diameters of the calibrated holes 12 in the interchangeable washer 9 and holes 16 in the threaded cover 17.

Thus, the dropper provides a uniform flow of artificial rainfall over a wide range of flow rates (l / h) of irrigation water. The presented dropper parts do not contain metal products, are technologically advanced, do not require the most complicated apparatus for casting from plastics or low-pressure polyethylene. This achieves the conditions for mass replication.

Information sources

1. USSR author's certificate No. 908284, A 01 G 25/02, op. BI No. 8, 1982

2. USSR author's certificate No. 704540, A 01 G 25/02, op. BI No. 47, 1979

Claims (3)

1. A dropper, comprising a housing with inlet and outlet nozzles and a float installed therein with a locking element included in the output pipe, characterized in that the locking element is made in the form of interchangeable washers with calibrated holes, a threaded sleeve and a rod with annular grooves, placed in the cavity of the threaded sleeve installed in the outlet pipe, while the lower ends of the rod and the threaded sleeve are closed with a threaded cap provided with holes for the drip outlet, and their upper ends are interfaced with a replaceable joint Yuba with calibrated holes. 2. The dropper according to claim 1, characterized in that the threaded sleeve on the inner surface has a multiple threaded winding. 3. The dropper according to claim 1, characterized in that on the surface of the rod between the annular grooves are made air discharge grooves.