RU2520984C2 - Front sprinkler unit - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: front sprinkler unit comprises an irrigation pipeline made sectional and equipped with sprinkler nozzles, the wheel bearings, the drive, placed in the middle of the central section, and couplings for connecting the sections. The irrigation pipeline is mounted on the brackets of the drive trucks and the support wheels mounted on the aisles of agricultural crops at a height of 2.0-2.5 m above the soil surface. The bracket of the central drive truck has triangular swinging boom staked forward for fixing cables-guyropes connected to the brackets of the drive trucks and the support wheels of the side sections, the engine designed to transmit torque to the drive trucks by a drive shaft mounted on the suspension bearings placed on the brackets of the drive trucks and the support wheels using the chain transmissions. In the outermost drive truck on the bracket the drive drum is mounted with wound flexible supply hose hydraulically connected to the supply pipe of the irrigation pipeline. The drum drive is made from the internal combustion engine through the chain transmission and the coupling clutch. The sprinkler nozzles connected hydraulically through the take-off connections to the irrigation pipeline comprise a distribution chamber with two upper sprinkler trunks having in the inner cavity the lead bars with left-side winding and a lower sprinkler trunk with the lead bar with left-side winding. The pitch of the lead bar of the lower sprinkler trunk is smaller than the pitch of the lead bar of the upper trunks, the length of the upper sprinkler trunks is greater than the length of the lower sprinkler trunk.

EFFECT: increased productivity and quality of irrigation.

6 dwg

Description

The invention relates to agriculture, namely to means of irrigation of agricultural crops, mainly by sprinkling in mobile irrigation equipment.

A wide-wheel sprinkler is known, made sectional and equipped with sprinkler nozzles, wheel bearings, a drive located in the middle of the central section, and couplings for connecting the sections, while in each section the water supply pipe is made of low-pressure polyethylene pipes connected in series with couplings, and placed in the cavity of the bearing element formed by C-shaped bent profiles, the ends of which are connected by flanges, while the hub of each wheel pair covers the bearing element, and d sprinkler nozzles are connected to the water supply pipeline by means of nipples placed between the shelves of adjacent C-shaped bent profiles of the bearing element, with each wing connected to the central section provided with a limit torque coupling (RU, patent for invention No. 2250602).

The disadvantages of the wide wheel sprinkler include the limited height of the irrigated crops, the formation of a moistened soil surface in the area where the support wheels are located, which, when moving the sprinkler, causes a rut and leads to significant difficulty in moving.

This disadvantage leads to a curvature of the pipeline and significantly reduces the operational reliability of the sprinkler. In addition, there is no possibility of increasing the energy and vitality of irrigation water.

Known wheeled sprinkler pipe, made sectional and equipped with sprinkler nozzles, wheel bearings, a drive located in the middle of the Central section and couplings for connecting sections, while the couplings for connecting sections of the pipeline are each in the form of two concentric pipes with flanges mounted for rotation one relative to the other and interconnected by means of a spring-loaded clamp, while the flange of the outer pipe is fixed in the flange of the inner pipe by means of a retaining ring, and the inner diameter of the inner pipe is equal to the inner diameter of the conduit (SU, copyright certificate No. 1402297).

The disadvantages of this wheeled sprinkler pipe include the limited height of the irrigated crops, the formation of a moistened soil surface in the area where the support wheels are located, which causes the formation of a rut when moving the wheeled sprinkler pipe, which makes it difficult to move, which causes the pipe to bend and reduces the operational reliability of the wheeled sprinkler pipe . In addition, there is no possibility of increasing the energy and vitality of irrigation water.

A sprinkler assembly is known, including an irrigation pipe made sectionally and equipped with sprinkler nozzles, wheel bearings, a drive located in the middle of the central section and couplings for connecting the sections, while the irrigation pipe is mounted on the brackets of the drive trolleys and support wheels mounted on the rows between crops of crops , at a height of 2.0-2.5 m from the surface of the soil, while the bracket of the central drive trolley has a pivoted triangular boom for crepe In the central drive trolley, an engine with a gearbox is installed on the central drive trolley, which is designed to transmit torque from the engine to the drive trolleys using a drive shaft mounted on outboard bearings located on the drive brackets trolleys and support wheels, the drive on the wheels of the drive trolleys is made using chain gears, from the side opposite to the direction of movement of the sprinkler, to the irrigation sprinkler nozzles are connected to the pipeline by means of swivel clamps and supply tubes, the length of which is longer than the radius of the support wheels of the drive trolleys, the nozzles are made deflector, and the nozzle supply cavity has an internal screw guide with left-hand winding, the nozzle body has an elliptical shape, guide ribs are made on the bottom of the case which divide the internal cavity of the housing into diverging compartments, the internal cavity of the compartments having a groove made along a helical line with ostoronney winding (RU, patent №2402198 IPC A01G 25/09).

The disadvantages of this sprinkler unit are the irregularity of irrigation with deflector sprinkler nozzles, the lack of irrigation when the sprinkler unit is moving, the insignificant range of irrigation water supply by the deflector nozzles, which increases the number of changes in the positions of the sprinkler unit and reduces its productivity.

We have accepted this sprinkler aggregate as the closest analogue.

The invention consists in the following.

The problem to which the invention is directed is to provide the ability to irrigate crops while moving the front sprinkler, improve the quality of irrigation with irrigation water with increased energy and vitality.

The technical result is an increase in productivity and crop yields.

The specified technical result is achieved by the fact that in the front sprinkler unit, including the irrigation pipe, made sectional and equipped with sprinkler nozzles, wheel bearings, a drive located in the middle of the central section and couplings for connecting the sections, while the irrigation pipe is mounted on the brackets of the drive trolleys and support wheels mounted on the aisles of crops at a height of 2.0 ... 2.5 m from the soil surface, and the bracket of the central drive trolley has an extension hinged forward triangular pivoting boom for attaching extension cables connected to the brackets of the drive trolleys and the support wheels of the side sections, an engine designed to transmit torque to the drive trolleys using a drive shaft mounted on outboard bearings mounted on the brackets of the drive trolleys and support wheels with the help of chain transmissions, according to the invention, a drive drum with a coiled flexible supply hose, hydraulically connected irrigation with the inlet pipe of the irrigation pipe, the drum drive is made from the internal combustion engine through a chain gear and clutch, the sprinkler nozzles hydraulically connected through the branch pipes to the irrigation pipe include a distribution chamber with two upper sprinkler trunks having screw guides in the inner cavity with left-hand winding and a lower sprinkler barrel with a screw guide with left-hand winding, while the pitch of the screw guide of the lower rain the evalum trunk is less than the pitch of the screw guide of the upper trunks, the length of the upper sprinkler trunks is greater than the length of the lower sprinkler trunk.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by all the features of the claimed invention.

Therefore, the claimed invention meets the requirement of "Novelty" under applicable law.

The invention is illustrated by drawings.

Figure 1 shows the design of the front sprinkler unit - rear view.

In Fig.2 - the same is a top view.

Figure 3 is a view A in figure 1.

Figure 4 is a view In figure 1.

Figure 5 - sprinkler nozzle, a cross section.

In Fig.6 - view C in Fig.5.

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

The front sprinkler unit includes a supply pipe 1, an irrigation pipe 2 with branch pipes 3. The irrigation pipe 2 is supported by drive carts 4 having a chain drive 5, and support wheels 6 with brackets 7. The central cart 8 is a drive. A drive hydraulic motor 9 is installed on it, using the pressure of irrigation water from the irrigation pipe 2. The drive hydraulic motor 9 is equipped with a gear 10. An arm with a triangular pivoting boom forward is mounted on the drive trolley 8. The drive trolleys 4 and the support wheels 6 have brackets 12 for attaching the irrigation the pipeline 2 and outboard bearings on which the drive shaft 13 is mounted. The front part of the triangular boom 11 is connected by extension cables 14 to the brackets 7 of the support wheels bis brackets 12 drive carts 4. Sprinkler nozzles 15 are installed on the branch pipes 3, having a distribution chamber 16 with two upper sprinkler shafts 17 having screw guides 18 with left-hand winding in the inner cavity and a lower sprinkler barrel 19 with the screw guide 20 in the inner cavity.

Sprinkler nozzles 15 are fixed on the branch pipes 3 using thread 21.

Sprinkling trunks 17 have screw guides 18 in the inner cavity with a greater winding pitch than screw guides 20. The length of the sprinkling trunks 17 is greater than the length of the sprinkler barrel 19. Outlets 3 with sprinkler nozzles 15 are installed on the irrigation pipe 2 using swivel clamps 22. Inlet branch 1 irrigation pipe 2 is connected to a flexible supply hose 23 wound on a drum 24 and having a drive through a chain gear 25 from an internal combustion engine 26 mounted on an arm 27.

The front sprinkler unit operates as follows.

Before starting work, the front sprinkler unit is installed on the field so that the drive trolleys and support wheels are located on the aisles of crops or planting, the supply pipe 1 opposite the nearest hydrant. In this case, the distance from the edge of the field to the axis of the irrigation pipe 2 should correspond to the irrigation zone with irrigation nozzles 15. A flexible inlet hose 23 is connected to the inlet pipe 1, and the end of the inlet hose 23 is connected to the hydrant of the closed irrigation network.

The water supply to the irrigation pipe 2 is turned on. Water flows through the branch pipes 3 from the sprinkler nozzles 15. In the distribution chamber 16, the flow is distributed and the water flows into two sprinkler shafts 17 and into the sprinkler barrel 19. In the sprinkler barrel 17, the water interacts with the screw guide 18 and acquires a rotational motion counterclockwise. At the same time, water changes its structure, and its energy and vitality increase. A rotating stream in the atmosphere is destroyed and enters the soil surface in small drops, which ensures uniform soil moisture without disturbing its structure.

The length of the sprinkler shafts 17 and the pitch of the screw guides 18 provides a significant length of irrigation water supply. Water entering the sprinkler barrel 19 interacts with the screw guide 20 and acquires a counterclockwise rotation, which leads to a change in the structure of water and an increase in its energy and vitality. Since the pitch of the screw guide 20 is much smaller than the pitch of the screw guide 18, the flow rotation speed will be much greater than the flow rate from the barrel 19, therefore, the rotating flow from the barrel 19 is destroyed into fine droplets and its flight range will be less than from the barrel 17. As a result of the supply of irrigation water from the trunks 17, 19, the soil will be uniformly moistened with water with increased energy and vitality.

At the same time, water from the irrigation pipe 2 will be supplied to the hydraulic motor 9, from which torque will be transmitted through the chain drive 5 to the drive trolleys 4, and the front sprinkler unit will move to the next hydrant, where the flexible supply hose 23 is switched. depends on the irrigation norm and is regulated by interchangeable sprockets on the chain drive 5. As soon as the front sprinkler unit reaches the end of the irrigated field, it is rebuilt to move in the opposite direction equalization. To do this, the rotary boom 11 is rotated 180 ° and fixed in this position to the drive carriage 8. The branch pipes 3 are rearranged in the irrigation pipe by 180 ° as well and secured with clamps 22 at the holes in the irrigation pipe 2. In this case, the sprinkler nozzles 15 are installed on branch pipes 3 trunks 17, 19 up. The straightness of the irrigation pipe 2 is checked, and if necessary, it is leveled with extension cables 14. In this position, the front sprinkler is ready to move in the opposite direction. On the drive hydraulic motor 9 is installed reverse movement in the opposite direction. The flexible inlet hose 23 is connected to the inlet pipe 1 and the nearest hydrant. Watering begins when moving in the opposite direction.

The location of the drive and support wheels on a dry surface of the soil significantly reduces the necessary effort to move the front sprinkler and prevents the formation of a track from the support wheels.

The location of the irrigation pipeline 2 at a height of 2.0 ... 2.5 allows you to irrigate tall crops. The use of sprinkler nozzles 15, providing increased energy and vitality of the water, increases crop yields and product quality.

Fine sprinkling does not cause disturbance of the soil structure and preserves its fertility.

Claims (1)

A front sprinkler unit, including an irrigation pipe made in section and equipped with sprinkler nozzles, wheel bearings, a drive located in the middle of the central section, and couplings for connecting the sections, while the irrigation pipe is mounted on the brackets of the drive trolleys and support wheels mounted on the rows of agricultural crops crops at a height of 2.0 ... 2.5 m from the surface of the soil, and the bracket of the central drive trolley has a forward triangular pivoting boom for mounting ya ropes-braces connected to the brackets of the drive trolleys and the support wheels of the side sections, an engine designed to transmit torque to the drive trolleys using a drive shaft mounted on outboard bearings placed on the brackets of the drive trolleys and support wheels using chain gears, characterized the fact that at the extreme drive trolley on the bracket there is a drive drum with a wound flexible inlet hose hydraulically connected to the inlet pipe of the irrigation pipe, the drum drive is made from an internal combustion engine through a chain transmission and clutch, sprinkler nozzles hydraulically connected through branch pipes to the irrigation pipe include a distribution chamber with two upper sprinkler trunks having screw guides with left-hand winding in the inner cavity and a lower sprinkler barrel with screw guide with left-hand winding, while the pitch of the screw guide of the lower sprinkler barrel is less than the step of the screw guide top trunks, the length of the upper sprinkler trunks is greater than the length of the lower sprinkler trunk.

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