UA122167U - Drop water - Google Patents

Abstract

The drip trap contains a housing with inlet and outlet ducts housed in a membrane housing with a permanently open calibrated opening which interacts with the outlet duct in the presence of pressure. The membrane has a calibrated slit in the section inclined to the center of the membrane.

Description

The useful model belongs to agriculture and can be used for drip irrigation.

The closest to the claimed technical solution is a drip outlet containing a body with an inlet channel and an outlet channel equipped with a nozzle, a membrane that interacts with the nozzle and has a constantly open calibrated hole, in which, in order to increase the reliability of operation, the outlet is equipped with a load installed in the center of the membrane is coaxial with the nozzle, which is displaced inside the body; the load is made in the form of a ring (ZO, author's certificate Mo 1607747 A1, IPC 7 AOTO 25/02, VO5B 1/08. Drip water release / A.N. Prylutskyi (USSR). -

Application No. 4162602 / 30-15; declared on 16.12.1986; published 23.11.1990, Bull. Mo 43 // Discovery.

Inventions. - 1990. - Mo 43).

Disadvantages of the described droplet water release are the destruction of the membrane when hitting the nozzle and a short range of irrigation water pressure.

The proposed technical solution is aimed at solving the problem of increasing the reliability of drip water discharge.

The task of a useful model is to increase the reliability of drip water discharge and improve its operational properties.

The problem is solved by the fact that a drip outlet containing a housing with inlet and outlet channels, a membrane placed in the housing with a constantly open calibrated hole, which interacts with the outlet channel in the presence of pressure, according to a useful model, in order to increase reliability in operation, the membrane has a calibrated slot in the cross-section inclined to the center of the membrane.

The technical result is a reduction in the ability of water outlet elements to clog, an increase in flow uniformity, and an expansion of the operating pressure range of the drip outlet.

The essence of the useful model is explained by the drawings, which show: in fig. 1 shows a cross-section of a drip outlet, its static position; in fig. 2 shows a cross-section of the drip outlet, its working position.

The drip outlet contains a housing 1 with inlet 2 and outlet Z channels, between which a membrane 4 of elastic material is placed. Membrane 4 has a permanently open calibrated

From hole 5 and calibrated gap 6, which in cross-section has an inclination to the center of the membrane.

Water release works as follows. Under the influence of the pressure in the irrigation pipeline, water passes into the inlet channel 2, then through the calibrated hole 5, then through the gap between the membrane 4 and the housing 1 into the outlet channel 3. At the same time, the membrane is under the influence of the pressure drop created when water passes through the calibrated hole 5. As a result of the pressure drop, membrane 4 bends, blocking the outlet channel and causing water hammer. After the membrane 4 covers the output channel C, the water flow stops and the pressure drop no longer affects the membrane. Under the action of the force of elasticity and hydraulic shock, the membrane 4 is straightened, giving the opportunity for water to pass through the water outlet. This process is repeated periodically.

The constant vibration of the membrane 4 with the phenomenon of water hammer prevents clogging of the water outlet elements. As the water pressure in the irrigation pipeline increases, the gap opens, causing additional water to flow into the outlet channel. Thanks to this, the uniformity of the flow is ensured and the operating range of the droplet water discharge is extended.

Claims (1)

USEFUL MODEL FORMULA 45 A drip outlet containing a housing with inlet and outlet channels, a membrane placed in the housing with a constantly open calibrated opening that interacts with the outlet channel in the presence of pressure, which is distinguished by the fact that the membrane has a calibrated slot in the cross-section, inclined to the center of the membrane.