RU2624418C1 - Multisection sprinkling machine of circular action - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: multisection sprinkling machine of circular action contains the central fixed support with a swivel knee and sprinkler nozzles. The nozzles are installed on the pipeline sections. The pipeline sections are successively connected to each other and placed on self-propelled trucks. The trucks are driven by an electric motor. On the free ends of each pipeline section, two eyes are welded. The eyes in their lower part are rigidly connected to each other by two bushings. The bushings on the eyes at the beginning of the section are located in one vertical plane. On the eyes at the end of the section, the bushings are located in one horizontal plane. U-shaped elements previously engaged with each other, with the stops arranged thereon, are fixed in the bushings. The cavities of adjacent pipeline sections are connected by means of rubber couplings. At the upper part of the eyes at the pipeline section end, a platform is welded. A vertical rotary axis is installed on the platform. The symmetry axis lies on one vertical axis with the hinged connection center. The upper part of the vertical rotary axis is pivotally connected to the intermediate link. The intermediate link is pivotally connected to the lower link. The lower link is hinged at the beginning of the next adjacent pipeline section. A control lever is rigidly fixed on the vertical rotary axis. The lever interacts with the control unit. The control unit is fixed with screw clamps on a horizontal rail. The horizontal rail is rigidly connected to the upper part of the platform and serves for moving the control unit over it when adjusting its sensitivity.

EFFECT: possibility of adjusting the sensitivity of the control unit, reducing the hydraulic resistance when transporting water through the pipeline.

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Description

The present invention relates to agriculture, in particular to irrigated agriculture, and can be used for irrigation of crops by sprinkling both in prepared areas and in areas that have a complex relief in the form of elevations and various slopes.

Known wheeled sprinkler pipe (RF patent No. 2323433 C2, IPC: A01G 25/09, publ. 05/20/2008 bull. No. 14 - analogue), containing sprinkler pipe, support wheels and sprinkler devices.

The disadvantage of the analogue is the impossibility of its use in unprepared areas with significant slopes and elevations.

Famous sprinkler machine "Reinke" (Product catalog "REINKE IRRIGATION SYSTEMS", p. 3-7, http://www.reinke.com/sites/default/files/images/r435-15469_russianbrochure_04.pdf - prototype), containing a central a fixed support with a rotary elbow, sprinkler nozzles and sections of the pipeline, connected in series with each other using a hinge and a rubber sleeve, with the end of each section of the pipeline located on a self-propelled cart driven by an electric motor and a control unit.

The disadvantage of this sprinkler machine is the emergence of additional hydraulic resistance due to the fact that the hook-ring hinge, made in the form of two plates welded into the pipe cavity, and with which neighboring sections of the pipeline are connected together, is placed in the cavity of the pipeline itself under the rubber sleeve . In addition, when replacing a rubber sleeve to ensure the tightness of the pipeline, you will need to unhook the hook-ring hinge, and this will require the use of additional equipment in the form of a crane, hydraulic manipulator or elevator. Also, with this machine, it is impossible to regulate the sensitivity of the control unit, which perceives the movement of an adjacent section of the pipeline and serves to control the electric motor of the truck.

An object of the invention is to reduce hydraulic resistance during the transportation of water through the pipeline of the sprinkler machine by removing from the pipeline cavity the elements used to connect adjacent sections of the pipeline, as well as providing the ability to adjust the sensitivity of the control unit that senses the movement of the neighboring section of the pipeline.

The objective is achieved in that in a multi-section sprinkler machine of circular action containing a central fixed support with a rotary elbow, sprinkler nozzles, sections of the pipeline connected in series with hinges and rubber couplings, self-propelled carts driven by an electric motor and a control unit, the free ends of each section of the pipeline are welded with two eyes, which in their lower part are rigidly connected to each other by two bushings, and on the eyes located at the beginning of the section II of the pipeline, these bushings are located in one vertical plane, in addition, on the eyes at the end of the pipeline section they are located in one horizontal plane, U-shaped elements pre-engaged with each other with stops placed on them are fixed in these bushings, thus forming , a swivel of the ring-ring type, in addition, to the upper part of the eyes located at the end of the pipeline section, a platform is welded with a vertical rotary axis mounted on it, the axis of symmetry of which located on the same vertical axis with the center of the ring-ring swivel joint, also the upper part of the rotary vertical axis is pivotally connected to the intermediate link, pivotally connected to the lower link, which in turn is pivotally mounted on the initial part of the next adjacent section of the pipeline, in addition, on the rotary the vertical axis is rigidly fixed control lever interacting with the control unit, which is fixed with screw clamps on a horizontal rail rigidly connected to the upper hour Strongly platform and serving to move on it control unit while adjusting its sensitivity.

The difference of the proposed sprinkler machine from the prototype is that the adjacent sections of the pipeline are interconnected by means of a swivel ring-ring, which is placed outside the pipeline, so that it is not a source of additional hydraulic resistance. In addition, this design of the swivel joint of pipelines allows you to easily and without involving additional equipment to replace the rubber coupling of the connecting cavity of adjacent pipelines. Also, in the proposed design, it is possible to move the control unit along a horizontal rail, on which it is fixed with screw clamps, which makes it possible to adjust its sensitivity.

In FIG. 1 shows a sprinkler machine, general view.

In FIG. 2 shows a self-propelled cart, side view.

In FIG. 3 shows the articulation of adjacent sections of the pipeline.

The proposed multi-section sprinkling machine of circular action (Fig. 1) contains a central fixed support 1 with a rotary elbow 2, sprinkler nozzles 3 mounted on sections of the pipeline 4, which are connected in series and are located on self-propelled carts 5, driven by an electric motor 6 (Fig. . 2). At the free ends of each section of the pipeline 4 (Fig. 3), two eyes 7 are welded, which in their lower part are rigidly connected to each other by two sleeves 8, and on the eyes 7 located at the beginning of the section of the pipeline 4, the sleeves 8 are located in one vertical plane, and on the eyes 7 at the end of the pipeline section, these sleeves 8 are located in one horizontal plane. In the bushings 8 are fixed U-shaped elements 9 previously hooked to each other with stops 10 placed on them, thus forming a ring-ring hinge joint. The cavities of adjacent sections of the pipeline 4 are connected by means of rubber couplings 11. On the upper part of the eyes 7 located at the end of the section of the pipeline 4, a platform 12 is welded with a vertical rotary axis 13 mounted on it, the axis of symmetry of which lies on one vertical axis with the center of the swivel ring -ring. The upper part of the rotary vertical axis 13 is pivotally connected to the intermediate rod 14, pivotally connected to the lower rod 15, which, in turn, is pivotally mounted on the initial part of the next adjacent section of the pipe 4. Also, the control lever 16 is fixed to the rotary vertical axis 13, interacting with a control unit 17, which is fixed with screw clamps 18 on a horizontal rail 19, rigidly connected to the upper part of the platform 12 and used to move the control unit 17 along it when adjusting ie its sensitivity.

The operation of the sprinkler machine proceeds as follows.

Water under pressure is supplied to the cavities of the connected sections of the pipeline 4, which are sequentially interconnected and placed on self-propelled carts 5, driven by an electric motor 6, and sprayed on the irrigated area by means of irrigation nozzles 3. At the same time, the motor 6 is turned on at the last carriage 5 , which sets the speed of movement of the machine in the area. As the trolley 5 runs forward, at the point of hinge of the ring-ring in the horizontal plane, there is a loss of alignment between the current section of the pipeline 4 and the previous section of the pipeline 4 located on the adjacent trolley 5. As a result, the lower link 15 and the intermediate link 14 act on the vertical axis 13 by turning it. Together with the vertical axis 13, the control lever 16 is also rigidly fixed on it, the displacement of which acts on the control unit 17, which, in turn, turns on the electric motor 6 of the previous carriage 5. The previous carriage 5 is mixed until the ring is at the point of articulation - the ring in the horizontal plane will not again restore alignment between adjacent sections of the pipeline 4. When moving the carts 5 along the site with irregularities and inclines, the alignment of adjacent sections of the pipeline 4 in the the vertical plane at the point of hinge of the ring-ring. In this case, the vertical axis 13 acts on the intermediate link 14 and the lower link 15, causing them to move in a vertical plane.

The sensitivity of the control unit 17 is adjusted due to the possibility of its movement along the horizontal rail 19 and fixation in the desired position by means of screw clamps 18, which allows to increase or decrease the perceived length of the control lever 16.

Using the proposed irrigation machine will reduce the amount of hydraulic resistance during transportation of water through sections of the pipeline, and will also provide the ability to adjust the sensitivity of the control unit, perceiving the movement of an adjacent section of the pipeline.

Claims (1)

A multi-section sprinkler machine of circular action, comprising a central fixed support with a rotary elbow, sprinkler nozzles, pipe sections connected in series with hinges and rubber couplings, self-propelled carts driven by an electric motor, and a control unit, characterized in that at the free ends two eyelets are welded to each section of the pipeline, which in their lower part are rigidly connected to each other by two sleeves, and on the eyes located at the beginning of the pipe section gadgets, these bushings are located in one vertical plane, and on the eyes at the end of the pipeline section they are located in one horizontal plane, U-shaped elements pre-hooked to each other with stops placed on them are fixed in these bushings, thus forming a ring-type hinge - a ring, in addition, a platform with a vertical rotary axis mounted on it, the axis of symmetry of which is located on one the vertical axis with the center of the ring-ring hinge joint, also the upper part of the rotary vertical axis is pivotally connected to the intermediate rod, pivotally connected to the lower rod, which, in turn, is pivotally mounted on the initial part of the next adjacent pipe section, in addition, on the vertical rotary the axis is rigidly fixed control lever, interacting with the control unit, which is fixed with screw clamps on a horizontal rail rigidly connected to the upper part of the platform and serves A key for moving the control unit along it when adjusting its sensitivity.

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