RU2300877C1 - Dropping bottle - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: dropping bottle comprises watering pipeline provided with outlet port and device for filling the watering pipeline with water. The device is made of a sleeve finned from the outer side. The finned surface is conjugated with the inner side of the pipeline. The ring grooves interposed between the pairs of the ribs are made of rings arranged at the ends of the sleeves and are connected with its space through radial openings. The outlet port made in the wall of the watering pipeline provided with a ring groove at one of the ends of the sleeve is connected with the labyrinth passage. The sleeve mounted in the space of the watering pipeline is locked by means of a bandage that embraces the outer side of the watering pipeline and is mounted on the second end of the sleeve. The entering chamfering of the bandage lies above the outlet port of the watering pipeline. The second ring groove interposed between the pairs of the ribs on the outer side of the sleeve is provided with the valve made of a flexible cord. The cord embraces the outer side of the sleeve in the ring groove. The bandage and the wall of the pipeline is provided with a conical opening. The top of the conical opening is oriented in radial opening in the second ring groove. The angle at the top of the conical opening in the bandage is equal to 45-70°. When pressure of water does not exceed 0.02 MPa, the dropping bottle provides droplet spraying, and when the pressure in the pipeline is 0.05-0.08 MPa, it provides finely divided spraying.

EFFECT: increased crop capacity.

3 cl, 4 dwg

Description

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

A water outlet of an irrigation pipeline is known, including a housing with a drain hole and a fastener connecting the housing to the pipeline, in which, in order to increase operational reliability, the housing is formed by two sidewalls connected by a vault consisting of a front horizontal part and a rear curved part smoothly conjugated with it directed by convexity outward, while the outlet of the housing is placed therein opposite the rear curvilinear part of the arch; the fasteners are made in the form of a plate placed on the inside of the pipeline and connected to its last body by means of screws made flush, while the plate is equipped with a protrusion with an oblique cut located behind the inlet (SU, copyright certificate No. 1501981 A1, M.cl. ⁴ А01G 25/02 Water outlet of the irrigation pipeline / MP Penzin, B. A. Averin, A. A. Rakov, V. I. Maksimov (USSR) - Application No. 4297651 / 30-15; filed August 17, 1987 ; publ. 08.23.1989, bull. No. 31).

The disadvantages of the described water outlet of the irrigation pipeline, as applied to the problem we are solving, include limited functionality and high cost associated with low manufacturability in mass production.

The closest analogue to the claimed object includes a dropper, including a swinging tank having an outlet and a device for filling it with water, connected to an irrigation pipe, in which, in order to simplify the design and ensure self-cleaning, the device for filling the tank with water is made in the form of the rocker arm pipeline, at one end of which there is a pin entering the hole of the irrigation pipeline, and a container is placed on the other, while in the rocker arm n channel connected with the tank and irrigation pipeline (SU, copyright certificate No. 923467. M. class ³ A01G 25/02. Dropper / N.A. Kukharev (USSR). - Application No. 3220229 / 30-15; stated 15.12. 1980; publ. 04/30/1982, bull. No. 16).

The disadvantages of the described dropper, adopted by us as the closest analogue, include limited functionality and low technological reliability. With differences in water pressure in the irrigation pipe, the device for filling water is taken out of operation. For its operation requires strict horizontal installation of the bracket 9 to install the rocker arm 1.

The essence of the claimed invention.

The problem to which the claimed invention is directed is to expand the functionality of droppers.

The technical result is an increase in crop yields.

The specified technical result is achieved by the fact that in the known dropper, including an irrigation pipe having an outlet and a device for filling with water, according to the invention, the device for filling with water is made in the form of a sleeve with ribbing of the outer surface, interfaced with ribbing with the inner wall of the irrigation pipeline, while grooves between pairs of ribs in the form of rings at the ends of the sleeve are hydraulically connected to its cavity by radial holes, the outlet in the wall of the irrigation pipe An ode with an annular groove at one end of the sleeve is mated with a labyrinth channel, the sleeve in the cavity of the irrigation pipe is fixed with a bandage covering the outer surface of the irrigation pipe and installed over the annular groove at the second end of the sleeve, and the lead-in facet of the bandage is located above the outlet of the irrigation pipe, the second ring the groove between the pairs of ribs on the outer surface of the sleeve is provided with a valve in the form of an elastic bundle covering the outer surface of the sleeve in the annular groove ke, and in the bandage and the wall of the irrigation pipe a conical hole is made, the top of which is oriented into the radial hole of the second annular groove; the labyrinth channel on the outer surface of the sleeve is made in the form of annular grooves between adjacent petals; the thickness of the rings forming the annular grooves at the ends of the liner, and the thickness of the petals of the labyrinth channel are referred to as (4 ... 6): 1; the angle at the top of the conical hole in the brace is made equal to 45 ... 70 °.

The invention is illustrated by drawings.

Figure 1 shows a dropper, a longitudinally vertical section.

In Fig.2 is a section aa in Fig.1, a transverse vertical section of the irrigation pipe, the sleeve with radial holes connecting the cavity of the sleeve with an annular groove between the pairs of ribs.

Figure 3 is a section bB in figure 1, a transverse vertical section of the irrigation pipeline with its outlet openings under the entry annular chamfer of the bandage and the annular groove of the labyrinth channel on the outer surface of the sleeve.

Figure 4 - section bb in figure 1, a transverse vertical section of the irrigation pipeline with a conical hole in the bandage for fine irrigation of agricultural cultures.

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

The dropper includes an irrigation pipe 1 having one outlet 2 or a group thereof to change the range of irrigation rates (l / h). The dropper is equipped with a device 3 for filling the outlet opening with irrigation water 2. The device 3 is made in the form of a sleeve with fins 4, 5, 6 and 7 on the outer surface. The fins 4-7 are associated with the inner wall of the irrigation pipe 1. The annular grooves 8 and 9 between the pairs of ribs in the form of rings of fins 4, 5 and 6, 7 at the ends of the sleeve of the device 3 are hydraulically connected with its cavity by radial holes 10 and 11. The inner diameter of the sleeve equal to the inner diameter of the irrigation pipe 1. The outer diameter of the rings of fins 4-7 is 4 ... 8% more than the inner diameter of the irrigation pipe 1. The diameter of the holes 10 is greater than the diameter of the holes 11 by 2 ... 4 times with an equal number. The outlet 2 in the wall of the irrigation pipe 1 with the annular groove 8 is interfaced with a labyrinth channel 12. The labyrinth channel 12 on the outer surface of the sleeve of the device 3 is made in the form of a group of annular grooves 13, 14, 15, 16, 17, 18, 19 and 20 between adjacent petals 21. The thickness of the ribs 4-7, forming annular grooves 8.9 at the ends of the sleeve of the device 3, and the thickness of the petals 21 of the labyrinth channel 12 are referred to as (4 ... 6): 1.

The sleeve of the device 3 in the cavity of the irrigation pipe 1 is fixed by a band 22. The band 22 covers the outer surface of the irrigation pipe 1. The band 22 is installed above the annular groove 9 and through the wall of the irrigation pipe 1 is mated with the annular edges of the fins 6 and 7. The entrance chamfer 23 of the band 22 is placed above the outlet 2 of the irrigation pipe 1. Said second annular groove 9 between the pairs of fins disks 6 and 7 on the outer surface of the sleeve of the device 3 is provided with a valve 24. The valve 24 is made in the form of an elastic go harness. The harness of the valve 24 covers the outer surface of the sleeve between the fins 6 and 7 and overlaps the radial holes 11 in the annular groove 9. In the brace 22 there is a conical hole 25. The top of the conical hole 25 is oriented into the radial hole 11 in the second annular groove 9. The angle α at the apex conical holes 25 in the brace 22 is made equal to 45 ... 70 °. The sleeve of the device 3 and the bandage 22 are placed on the inner and outer surfaces of the irrigation pipe 1 during its continuous production. The length of the irrigation pipeline 1 - 400 ± 0.5 m. The internal diameter of the pipeline 1/2. The wall thickness of the pipeline 1 is 0.8 ± 0.05 mm.

A dropper works as follows.

Let us consider the operation of a dropper in the operating modes of drip irrigation and fine irrigation.

When irrigation water is supplied to the irrigation water pipeline under a pressure of 0.02 MPa ± 0.005 MPa, it fills the annular groove 8 through the radial holes 10. Due to the water pressure in the groove 8, the wall of the pipeline 1 rises above the annular edge of the fins 5 and fills the cavity of the annular groove 13 of the labyrinth channel 12. From the annular groove 13, water flows sequentially into the grooves 14, 15, 16, 17, 18, 19 and 20, bending the petals 21 in the direction of the water flow. With the passage of the water flow in each groove 13 (14, 15, 16, 17, 18, 19, 20) of the labyrinth channel 12, a pressure loss of 0.0025 MPa occurs. From the last annular groove 20 between the lobe 21 and the fins 6, water under pressure of less than 0.0025 MPa through one or a group of outlet 2 enters the surface of the irrigated field.

The flow rate of water through the outlet 2 can be increased by raising the pressure of the drip irrigation system to a pressure of water up to 0.04 ± 0.005 MPa. In the specified hydraulic mode, the valve 24 tightly covers the holes 11 in the annular groove 9 and prevents access of irrigation water to the conical hole 25.

When cultivating agricultural crops crops in an arid climate, more damage to plants and their crops is exerted not by the lack of available soil moisture (HB should be more than 70%), but by drought and burns by the wind at a speed of more than 5 m / s, relative humidity below 40% and high positive temperature ( more than + 25 ° C).

When laying out the irrigation pipeline, the conical holes 25 (see Figs. 1 and 4) are oriented upward. The water pressure regulator in the drip irrigation system raises the pressure to 0.06 MPa. At this pressure, water through the radial holes 10 fills the annular groove 8, and along the labyrinth channel 12 - the cavity of the annular grooves 13-20. The wall of the irrigation pipe 12 bends outward in diametrical directions. Outlets 2 are pressed against the surface of the entry chamfer 23 of the brace 22 and block the water outlet. At the same time as water enters the radial holes 10, it presses on the surface of the elastic harness of the valve 24 through the radial holes 11. Water at the indicated pressure fills the cavity of the annular groove 9. From the annular groove 9 under the operating pressure, it enters the conical hole 25, where, due to the conical solution surface (bell) water is divided into fine droplets and released into the atmosphere to a height of 0.6 ... 1.4 m. Drops of water settle on the leaf surface of vegetable and other crops, moisturize them and create a microclimate at the level of the surface of the soil and the surface air layer. This eliminates the wilting of plants in adverse periods.

To combat the agricultural either pests and pathogens introduce either a herbicide, a fungicide or a pesticide into the irrigation water.

To destroy and suppress weeds in the bands occupied by seedlings of vegetable crops, when rainfall occurs and it is impossible to maintain manual and mechanized weeds, a herbicide is introduced.

Thus, the described dropper at a water pressure of up to 0.02 MPa provides drip irrigation, and at a water pressure of 0.05 ... 0.08 MPa in the irrigation pipeline, fine sprinkling of agricultural crops is provided. cultures.

Bandages 22 at the end of the irrigation season do not interfere with the winding of the irrigation pipeline 1 into the drums for subsequent transportation and storage of droppers in the warehouse during the inter-irrigation period.

Claims (4)

1. A dropper comprising an irrigation pipe having an outlet and a device for filling it with water, characterized in that the device for filling with water is made in the form of a sleeve with ribbing of the outer surface, paired with a ribbing with the inner wall of the irrigation pipeline, while the annular grooves between the pairs of ribs in the form of rings at the ends of the sleeve are hydraulically connected with its cavity by radial holes, the outlet in the wall of the irrigation pipe with an annular groove at one end of the sleeve is mated by a labyrinth valve, the sleeve in the cavity of the irrigation pipe is fixed with a bandage covering the outer surface of the irrigation pipe, the bandage is installed above the annular groove at the second end of the sleeve, and the entry chamfer of the bandage is placed above the outlet of the irrigation pipe, the second ring groove between the pairs of ribs on the outer surface of the sleeve a valve in the form of an elastic bundle covering the outer surface of the sleeve in the annular groove, and in the brace and the wall of the irrigation pipe a tapered hole whose apex is oriented in a radial bore of the second annular groove. 2. The dropper according to claim 1, characterized in that the labyrinth channel on the outer surface of the sleeve is made in the form of a group of annular grooves between adjacent petals. 3. The dropper according to claim 1, characterized in that the thickness of the rings forming the annular grooves at the ends of the sleeve, and the thickness of the petals of the labyrinth channel are referred to as (4-6): 1. 4. The dropper according to claim 1, characterized in that the angle at the top of the conical hole in the bandage is made equal to 45-70 °.

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