RU2282348C1 - Drop-type water outlet - Google Patents

Abstract

FIELD: agriculture, in particular, irrigation of farm crops, in particular, drop irrigation equipment.

SUBSTANCE: drop-type water outlet has cover with inlet aperture, membrane with concentrically arranged rows of apertures, casing with outlet aperture, float, flexible non-stretchable water-conducting thread, flexible member and drop-former.

EFFECT: stabilized irrigation norms.

6 cl, 3 dwg

Description

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

The closest analogue to the claimed object includes a drip irrigation outlet including a housing with a cover and a membrane, in which, in order to simplify the design and ensure a constant flow rate when the pressure changes, the membrane has concentrically arranged rows of holes, and the surface of the housing from the membrane side is made in the form of a series located truncated paraboloids, the number of which is a multiple of n-1 rows of holes (see SU copyright certificate No. 935011, Mcl. ³ A 01 G 25/02. Water outlet for drip irrigation / V.M. Afana Syev, A.V. Vakhin, A.I. Kartashov, A.M. Sharko (USSR) - Application No. 3239547 / 30-15; Stated January 19, 1981; Publish. June 15, 1982, Bull. No. 22).

The disadvantages of the described outlet include low operational reliability caused by clogging with vegetable impurities, suspensions and mineral debris of the outlet channel with outlet openings.

The essence of the claimed invention.

The problem to which the claimed invention is directed is to ensure a constant flow rate when the water pressure in the water supply network changes.

The technical result is the stability of the issuance of irrigation norms.

The specified technical result is achieved by the fact that in a known outlet for a drip outlet including a cover, a membrane with concentrically arranged rows of holes and a housing with steps made in the form of successively truncated paraboloids, inlet and outlet openings of the cover and the housing, respectively, according to the invention, in the cavity of the housing a float is placed under the membrane, connected through the outlet with a flexible inextensible water-conducting thread with a drop former paired with the body catfish by means of an elastic element; flexible inextensible water-conducting thread is made in the form of yarn from synthetic fiber and cotton; flexible inextensible water-conducting thread made in the form of yarn from synthetic fiber of animal hair; flexible inextensible thread made of horsehair; the elastic element is made in the form of a spring of equal resistance; the drop former is shaped into an inverted plate with an opening in the bottom.

The invention is illustrated by drawings.

Figure 1 shows the water outlet for drip irrigation, a diametrical section, the membrane and the float are in the initial, inoperative position.

Figure 2 shows the position of the membrane and the float during a hydraulic shock of water coming from the inlet in the cover.

Figure 3 shows the process of discharging water when it ceases to be supplied to the body cavity.

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

The drip irrigation outlet includes a cover 1, a membrane 2 with concentrically arranged rows of holes 3, a housing 4 made in the form of successively truncated paraboloids with ledges 5, 6, 7 and 8. The cover 1 has an inlet 9, and the housing 4 has an outlet 10 In the cavity of the housing 4 under the membrane 2 is placed a float 11. The float 11 in the form of a ball is made either hollow or from a material with a density of 0.15-0.25 t / m ³ . The water outlet is provided with a drop former 12. The drop former 12 is shaped like an inverted plate with an opening 13 in this part. The float 11 is connected through the outlet 10 by a flexible inextensible water-conducting thread 14 with a droplet former 12. The flexible thread 14 is made in the form of yarn either from synthetic fiber and cotton, or from synthetic fiber and animal hair, or from horsehair. A constant tension of the thread 14 provides the elastic element 15. The elastic element 15 is made in the form of a conical spring of equal resistance. The coils of the smallest diameter of the compression spring are located on the ledge of the droplet former 12, and the coils of the largest diameter of the elastic element 15 are located on the supporting platform 16 of the housing 4. The cover 1 with the housing 2 is associated with a dovetail grip 17.

Water outlet drip irrigation works as follows.

From the irrigation pipes of drip irrigation systems, water under pressure through the inlet 9 enters the cavity between the cover 1 and the membrane 2. Due to the rapid filling of this cavity and the hydraulic shock of the water jet, the membrane 2 stretches and points to the parabolic surfaces of the steps 5, 6 and 7 (see . sequentially figure 1 and 2). Part of the holes 3 of the membrane 2 are located above the ledges 5, 6 and 7. The remaining unused holes 3 of the membrane 2 are located above the ledge 8. Through the holes 3 of the membrane 2, the cavity of the ledge 8 is filled with the float 11 located in it. When filling the cavity 8 with water, the water pressure the cavity between the cover 1 and the membrane 2 and in the cavity between the membrane 2 and the housing 4 are aligned. The float 11 creates a buoyancy force and tries to float relative to the outlet 10. Drops of water through the hole 10 are lowered along a flexible water-conducting inextensible thread 14 and drop down on the surface of the droplet 12 into small irrigated area occupied by agricultural land. a plant.

With the steady state of operation of drip irrigation systems, the water flow enters with uniform pressure with drops within the tolerance. Due to pressure differences, the float 11 and the membrane 2 in the cavity of the housing move in the cavity of the housing 4. When the water pressure in the cavity between the cover 1 and the membrane 2 decreases, the latter returns to its original position due to its elastic qualities. The lifting of the membrane 2 upwards leads to the opening of additional holes 3 above the ledges 7, 6 and 5. The drop in water pressure above the membrane 2 leads to the filling of the cavity of the housing 4 in a larger volume. The valve 11 pops up in the cavity of the ledge 8. The thread 14 makes a reciprocating movement in the outlet 10, ensuring the removal of litter, repairs and suspensions outside the housing 4. The elastic element 15 when the float 11 floats and lowers it into the cavity of the ledge 8 holds a flexible waterproof inextensible thread 14 in a stretched position. This achieves a constant cross-section and throughput of the outlet 10 with thread 14.

When you turn off the pumping unit and the pressure relief of the water in the transit, water distribution and irrigation pipelines of the drip irrigation system, the remaining water through the holes 3 in the membrane 2 flows into the cavity of the housing 4 (see figure 3). The membrane 2 is released from the load and takes its original position (figure 1). From the cavity of the casing 4, irrigation water is supplied through the opening 10 through the opening 10 to the drop former 12 and through its opening 13 (see FIG. 3) falls onto the irrigated area. When lowering the water level, the float 11 is shifted to the hole 10, and the thread 14 under the influence of the compressed turns of the spring 15 of the elastic element is removed outside. Drop former 12 elastic element 15 is lowered down. The cavity of the housing 4 is completely freed from water. Thus, from the cavity of the housing 4 are removed mineral and vegetable waste. Flexible inextensible water-conducting thread 14 when water is discharged from the cavity of the housing 4 through the outlet 10 ensures the stability of the irrigation rate.

Claims (6)

1. A water outlet for drip irrigation, including a cover, a membrane with concentrically arranged rows of holes and a housing with ledges arranged in series as truncated paraboloids, inlet and outlet openings of the housing cover, respectively, characterized in that a float is connected in the cavity of the housing under the membrane, connected through the outlet is a flexible inextensible water-conducting thread with a drop former paired with the housing by means of an elastic element. 2. The outlet according to claim 1, characterized in that the flexible inextensible water-conducting thread is made in the form of yarn of synthetic fiber and cotton. 3. The water outlet according to claim 1, characterized in that the flexible inextensible water-conducting thread is made in the form of yarn of synthetic fiber and wool. 4. The water outlet according to claim 1, characterized in that the flexible inextensible thread is made of horsehair. 5. The outlet according to claim 1, characterized in that the elastic element is made in the form of a spring of equal resistance. 6. The water outlet according to claim 1, characterized in that the drop former is shaped like an inverted plate with an opening in the bottom.

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