RU2215404C2 - Dripper - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: dripper has casing with inlet branch pipe and membranes arranged in casing cavity in opposed relation to one another and fixed by threaded covers with outlet branch pipes. Float is positioned between membranes. Openings of different size are formed in membrane surface. EFFECT: increased efficiency in drop irrigation of farm crops, precise water dosing and enhanced reliability in operation. 1 dwg

Description

 The invention relates to agriculture, in particular drip irrigation, and can be used for irrigation of crops, mainly orchards and vineyards.

A known outlet of drip irrigation, including a hydraulic accumulator mounted on the pipeline and drain pipes, in which, in order to improve reliability by reducing clogging and accurate dosing of the volume of water supply, the hydraulic accumulator is equipped with an elastic diaphragm that divides it into two cavities in communication with the pipeline and with the drain pipes by means of differential conical valves, while the drainage tubes have locking elements in the form of nipple tips with elastic tubes (SU, copyright certificate 923462, M.C. ³ A 01 G 25/02. Water outlet drip irrigation / I.V. Pak, A.S. Kim and A.V. Vakhin (USSR). - Application 2732330 / 30- 15. It is declared 05.03.1979. Publish. 04.30.1982. Bull. 16 // Discoveries. Inventions. - 1982. - 16).

 The disadvantages of the described outlet include the complexity of the design and clogging of the channels with mineral litter and suspensions.

The closest technical solution to the claimed object according to the totality of the signs is a dropper containing a conical body with inlet and outlet nozzles and a float installed in it, in which, in order to increase reliability and efficiency, it is equipped with a strainer, which is installed in the lower part of the case , the float is made in the shape of balls with slits - guttering disposed on the surface thereof in mutually perpendicular planes (SU, Inventor's certificate 161834, A1, M.kl ⁵ a 01 G 25/02 K.. pelnitsa / GG Galifanov and VV Vavilov (USSR) -. Application 4601803/15 Stated Publ 02.11.1988 07.01.1991 Bulletin 1 // Discoveries Inventions -....... 1991 - 1). This dropper is accepted by us as the closest analogue.

 The disadvantages of this dropper include low operational reliability and design complexity.

 SUMMARY OF THE INVENTION

 The problem to which the invention is directed is to increase the reliability of the dropper.

 EFFECT: accuracy of dosing of the volume of water supply and increase of operational reliability.

 The specified technical result is achieved by the fact that in a known dropper containing a housing with an inlet pipe and a ball-shaped float installed in the housing, according to the invention it is provided with threaded caps with outlet pipes and membranes fixed oppositely in the cavity of the housing by means of threaded caps, while the float is placed between membranes on the surface of which holes of different sizes are made.

 The invention is illustrated in the drawing, which shows a diametrical section of a dropper in its original, inoperative position.

 The dropper comprises a housing 1 with an inlet pipe 2 and threaded caps with outlet pipes 3 and 4. A float 5 in the shape of a ball is installed in the housing 1. The dropper is equipped with threaded caps with outlet pipes 3 and 4 and membranes 6 and 7. The membranes 6 and 7 in the cavity of the housing 1 are installed opposite and fixed by means of threaded caps 8 and 9 with outlet pipes 3 and 4. The float 5 is placed between the membranes 6 and 7. On the surface of the membranes 6 and 7, different-sized openings 10 and 11 are made.

 A dropper works as follows.

 Water from the pressure pipe enters the empty cavity of the housing 1 through the inlet pipe 2. As the cavity between the membranes 6 and 7 is filled, part of the water flows through the holes 10 in the cavity between the housing 1 and the threaded caps 8 and 9. Since the living section of the inlet pipe 2 is larger than the total cross-section of calibrated holes 10, then the volume in the intermembrane cavity is filled faster than the cavity between the membrane 6 and the cover 8 and between the cover 9 and the membrane 7. Water presses on the membranes 6 and 7 from the inside, simultaneously stretches them, and at the same time emya biases the float 5 upwardly. The displacement of the ball-shaped float 5 leads to the opening of the calibrated holes 11 on the membranes 6 and 7. The incoming water in the inlet pipe 2 in transit moves through the calibrated holes 11 to the inlet pipes 3 and 4 in the caps 8 and 9. When moving up the spherical float 5, through all threaded holes 10 and 11, water is poured over the membrane cavities, and from them it flows by gravity through the outlet pipes 3 and 4 to the roots of woody or other plantings. With a drop in water pressure in the drip irrigation system, a change in the rate of passage of water through holes 10 and 11 occurs, and therefore, the flow rate of the dropper changes. A change in the flow rate of the dropper can also be achieved by using only a float 5 with a large diameter. Due to the distribution of irrigation water at the outlet of the dropper into two parallel flows, its high reliability is achieved. The movement of the float 5 in the form of a ball between the membranes 6 and 7 prevents clogging of the holes 10 and 11 in them.

 The dropper, in particular its body, covers and float are made of available plastics with proven cooking technology. Membranes are made from elastic materials that are available for general engineering. The dropper provides trouble-free operation and accuracy of dispensing of the volume of water supply.

Claims (1)

 A dropper containing a housing with an inlet pipe and a ball-shaped float installed in the housing, characterized in that it is provided with threaded caps with outlet pipes and membranes fixed oppositely in the cavity of the housing by means of threaded caps, the float being placed between the membranes on the surface of which different sized holes.