RU2282347C1 - Drop-type water outlet - Google Patents

Abstract

FIELD: irrigation of farm crops, in particular, drop irrigation equipment for drop irrigation of perennial plantations.

SUBSTANCE: drop-type water outlet has casing with inlet and outlet channels. Float and membrane are located within casing. Membrane is made in the form of perforated disk manufactured from material having initial shape memory. Disk of membrane is reinforced with upper and lower layers of resilient gas-expanded plastic, such as polyurethane. Casing is equipped with nozzle, which is defined by rectangular section grooves provided along logarithmic spirals diverging from outlet channel toward casing wall. Float is located within casing cavity under its flare part. Water outlet is provided with threaded cover.

EFFECT: enhanced reliability in operation, simplified manufacture process, assembly and disassembly operations owing to employment of threaded cover.

1 dwg

Description

The invention relates to irrigation of crops and can be used for boiler irrigation of perennial plantings, including fruit trees, berries, grapes, perennial herbs, etc.

A dropper is known, which contains a cover with an inlet fitting, a body inside which an elastic domed membrane is placed, in which, in order to improve the quality of irrigation, arc channels are made in the support plane of the housing base, and the outlet pipes are installed with an offset relative to the water conduit ribs and communicated with the arc channels ( SU, copyright certificate No. 1553036. A2. M.cl. ⁵ A 01 G 25/02. Dropper) A.T. Kalenikov, I.V. Dragomiretsky, A.F. Bogomazov, A.P. Maltsev (USSR). - Application No. 4291699 / 30-15; Stated 06/30/1987; Publ. 03/30/1990; Bull. No. 12).

The disadvantages of the described dropper include the tendency to clog the inlet in the membrane and a high degree of uneven delivery of the irrigation rate.

The closest analogue to the claimed object includes a drip outlet, including a housing with an inlet and outlet channel provided with a nozzle, a membrane interacting with the nozzle and having a constant open combined opening, in which, in order to increase reliability, the water outlet is equipped with a load mounted in the center of the membrane coaxially with the nozzle, which is offset inside the housing; the cargo is made in the form of a ring (SU, copyright certificate No. 1607747. A1. M.cl. ⁵ A 01 G 25/02, 02 V 1/08. Drip outlet / A.N. Prilutsky (USSR). - Application No. 4162602 / 30-15; Declared December 16, 1986; Publish. November 23, 1990; Bull. No. 43).

The disadvantages of the described water outlet include a high degree of irregularity in the delivery of irrigation norms and low operational reliability due to clogging of the combined hole in the membrane.

SUMMARY OF THE INVENTION

The problem to which the claimed invention is directed is to increase the operational reliability of a drip water outlet in a drip irrigation system.

The technical result - improving the quality of irrigation due to the uniformity of the issuance of irrigation norms.

The specified technical result is achieved by the fact that in the known drip outlet comprising a housing with an inlet and an outlet channel provided with a nozzle and a membrane interacting with it, according to the invention, the membrane is made in the form of a perforated disk made of a material with an initial shape memory and reinforced with upper and lower layers of elastic gas-filled plastic, for example polyurethane, the nozzle is presented in the form of grooves of rectangular cross-section, made along a logarithmic spiral diverging from the output channel pits in the direction of the wall of the body, in the cavity of which a float is installed under the inlet of the inlet channel.

The invention is illustrated in the drawing, which shows a diametrical section of a drip outlet.

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

The drip outlet includes a housing 1 with an input channel 2 and an output channel 3. The output channel 3 is provided with a nozzle 4. The nozzle 4 interacts with the membrane 5. The membrane 5 is made in the form of a perforated disk 6 from a material with an initial shape memory. The disk 6 is reinforced with the upper and lower layers 7 and 8 of elastic gas-filled plastic, such as polyurethane. The nozzle 4 is presented in the form of grooves of rectangular cross section. The grooves of the nozzle 4 are made with equal angular increments along logarithmic spirals diverging from the output channel 3 in the direction of the inner cylindrical wall of the housing 1. A float 10 is installed in the cavity of the housing 1 under the bell 9 of the inlet channel 2. The threaded cap 11 provides the manufacturability of the housing 1 and installation The nozzle 4 is made on the end surface of the cover 11.

Drip outlet works as follows.

Under operating pressure, irrigation water fills the cavity of the housing 1. When the water level rises, the float 10 rises to the conical surface of the bell 9 and closes the inlet 2. The bell 9 helps to quench the water flow rate from the inlet 2. The surface of the float 10 contributes to the distribution of water jets to the cylindrical wall casing 1. With steady state, the water layer and the pressure created in the cavity of the casing 1 press on the upper layer 7 of the membrane 5. Through the perforated disk 6, the lower layer 8 of the membrane 5 is tightly adjacent to the groove nozzles 4. Through the micropores of layers 7 and 8 of the membrane 5, water molecules, overcoming the resistance, uniformly enter the channels of the nozzle 4 and, accumulating in them, flow into the outlet channel 3. From channel 3, water flows in the form of drops to the irrigated area occupied with. s. cultures.

At the end of irrigation, there is a discharge of water pressure in the cavity of the housing 1. Due to the forces of gravity of the water molecule, layers 7 and 8 of gas-filled plastic pass through. Disk 6 takes its original form. The bottom layer 8 of the membrane 5 rises above the nozzle 4. When watering ceases, the cavity of the housing 1 is completely freed from water. Fine suspensions and microorganisms are collected in the upper and lower layers 7 and 8 of the membrane 5. This eliminates clogging of the grooves of the nozzle 4 and the outlet channel 4.

Thus, the described combination of essential distinguishing features ensures the achievement of the specified technical result.

Claims (1)

A drip outlet including a housing with an inlet and an outlet channel equipped with a nozzle and a membrane interacting with it, characterized in that the membrane is made in the form of a perforated disk made of a material with initial shape memory and reinforced with upper and lower layers of elastic gas-filled plastic, the nozzle is presented in in the form of grooves of rectangular cross-section, made along logarithmic spirals diverging from the output channel in the direction of the casing wall, in the cavity of which is set under the socket of the input channel flax float.