RU2122783C1 - Cantilevered sprinkler - Google Patents

Abstract

FIELD: agriculture, in particular, front sprinkling equipment. SUBSTANCE: sprinkler has double-armed girder mounted on central part of supporting car. Each arm of girder has rotary unit and sections with water supply pipeline having sprinkler nozzles. Girder sections are provided with units for rotation and fixation of sections in operating and transport position. Rotary unit is formed as polygonal member and its joining part is formed as construction defined by rigidly connected rectangles positioned in common plane and having common lower base. Rectangles are mounted so that their larger side is positioned in vertical plane to provide joining of any girder section. End section of girder arm is equipped with helical hanger for water supplying pipeline, whose one end rests upon smaller face of prism. Bases of prism are defined by scalene rectangular triangles and mounted in vertical position with their larger side. Prism upper rib is connected with water supplying pipeline by cables. Each rectangle of joining part of rotary unit and related rectangles of joining bases of girder sections are made congruent. Rotary units with general-purpose joining part allow working width of sprinkler unit to be regulated and modifications with low material usage to be provided due to decreased arm length by removing girder sections adjacent to rotary unit. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 2 cl, 5 dwg

Description

 The invention relates to agriculture and can be used in console type irrigation machines that irrigate frontally in motion.

 Known two-console sprinkler unit DDA-100MA, consisting of a two-console farm with sprinkler nozzles mounted on a tractor, a pumping unit and a hydraulic system [1].

 The disadvantage of this design is its increased material consumption, low maneuverability and mobility due to the large dimensions, since the farm does not fold into a transport position with a decrease in size.

Known self-propelled sprinkler machine having a two-console spatial truss with nozzles mounted on a chassis with drive and support wheels, driven by an engine and water supply through a hose. In the transport position, the truss consoles are installed in the longitudinal direction with the rotation of each console 90 ^o from the working position [2].

 The disadvantage of this design is the limited technological capabilities and high material consumption.

 The aim of the invention is to expand the technological capabilities of the unit and reduce its material consumption.

 This goal is achieved in that each console of the farm is equipped with a universal rotary assembly, which is a structure separate from the farm - a assembly to which any section of the console can be connected. For this, the connecting part of the rotary assembly is made of several rigidly connected rectangles lying in the same plane and having one common lower base, and the rectangles are arranged vertically on the larger side, which ensures the connection of any section of the truss console, and the last section is made with a screw suspension, water pipe which at one end rests on the smaller face of the prism, the bases of which are versatile right-angled triangles located at a larger ny in a vertical plane, and the upper cross member is connected by cables with a water pipeline.

 The presence of swivel assemblies at the farm consoles with a universal connecting part allows to reduce (increase) the working width, which extends the technological capabilities of the unit, since it can provide irrigation of sections of different widths. Reducing the length of the consoles due to the removal of sections, starting from the middle, reduces the material consumption of the modifications, since existing machines of this class of modification receive by removing sections that are more distant from the middle, which are lighter than the sections located in the middle of the machine.

 In FIG. 1 shows a General view of the unit sprinkler console type; in FIG. 2 - view A of the unit; in FIG. 3 is a general view of a rotary assembly with a connecting part; in FIG. 4 - connecting the intermediate section to the rotary node; in FIG. 5 - transport position of the sections of the farm consoles.

 The sprinkler aggregate of the cantilever type includes a support and running carriage 1, which has a front driving wheel 2 and two supporting wheels 3. The driving wheel has a hydromechanical drive 4. A frame 5 is rigidly fixed to the carriage, to which the rotary nodes 7 are attached by hinges 6 from two sides.

 To each rotary node 7 is rigidly attached in a known manner, for example, by step ladders 8, a truss console consisting of the first 9, intermediate 10 and end 11 sections. On the rotary node, the first section 9 of the console is rigidly attached by step ladders 8. Both consoles are made truss sectional type, with the possibility of their mutual rotation. Thus, the intermediate section 10 is connected to the first section 9 using two hinges 12, and the end section is also hinged to the intermediate section. The hinges are located on opposite sides of the console sections in a checkerboard pattern, which allows you to rotate the sections in a horizontal plane in different directions relative to each other when storing them in a transport position. The end section is made of cable-stayed construction and includes a rotary frame 13 in the form of a prism, supporting cables 14 and a water supply pipe 15, which ends with a conical adapter with a nozzle.

 The first sections of the trusses are fixed in the working position by two braces 16, which are attached at one end to the frame 5 and the other to the truss sections.

 The total rigidity of the farm, as a single design, in the working position is carried out by locks 17 and 18.

 The water supply pipeline of each console consists of separate water distribution pipes 15, 19, 20, connected together in series by flexible hoses 21, 22 at the turning points of the sections, and can be laid along the upper or lower planes of the sections with fastening to the structural elements of the sections by known methods.

 When placing pipelines at the bottom of the farm, they are equipped with openers 23 on which sprinkler nozzles 24 are installed.

 In another embodiment, when the water supply pipeline is located on the upper plane of the truss sections, the nozzles are installed without openings, directly on the pipeline.

 The drive wheel 2 with a hydromechanical drive 4 is mounted in a frame 25, pivotally connected to the supporting-running trolley. The direction of movement of the unit is set by the carrier 26 with a support shoe 27 moving along the furrow 28. The water supply pipe 29 from the hydrant to the machine is connected to the stand 30 and then to the flexible hose 31 and the water pipes of the consoles and the hydraulic drive.

 Each rotary node 7 is made of a rigid structure, its connecting part includes interconnected rails and racks forming rectangles. To the largest, formed by the crossbars 32, 33 and racks 34, 35, the first section 9 of the console is attached by step ladders 8.

 An intermediate 10 section can be attached to the rectangle formed by the crossbars 33, 36 and the uprights 37, 38, and the end section can be attached to the crossbars 33, 39 and the uprights 40, 41. The number of rectangles lying in one plane, the connecting part of the rotary node corresponds to the number of sections in the truss console and have one lower base - the crossbar 33. The rectangle racks have a longer length than the crossbars, that is, they are located vertically on the larger side.

 The first 9 and intermediate 10 sections of each console are made in the form of separate spatial tetrahedral trusses of rigid welded construction in the form of truncated pyramids, the longitudinal axis of which is located horizontally, and the bases of the pyramids are rectangles, the large sides of which occupy a vertical position in working condition. The cross section of each section decreases along its length in the direction from the beginning to the end of the console, forming a truss in the form of a beam of equal resistance.

The upper longitudinal beam 42, like the lower longitudinal beam 43, in the vertical plane has a tilt angle α to the longitudinal axis of the section, and in the horizontal plane, angle β.
The first larger rectangle of the first section 9 of the truss with which it is attached to the rotary assembly 7 has a height H and a width B, i.e. the same dimensions as the larger rectangle of the rotary assembly. The first rectangle of the intermediate section 10 has the same dimensions as the second rectangle of the rotary assembly, etc., i.e. each rectangle of the connecting part of the rotary assembly and, accordingly, the connecting rectangles of the truss sections are congruent with a module equal to zero.

 The last rectangle of any section and the first rectangle of the next section are also congruent, interconnected on one side by hinges, and on the other with a lock and represent a rigid structure in working position.

где
H, B - высота и ширина прямоугольника присоединительного основания первой секции или высота и ширина наибольшего присоединительного прямоугольника поворотного узла;
H_i, B_i - то же, i-й секции фермы;
L - длина отдельной секции;
i - порядковой номер секции, начиная от первой, присоединяемой к поворотному узлу;
α, β - углы наклона верхней и нижней продольных балок к продольной оси секций фермы в вертикальных и горизонтальных плоскостях.The rectangles of the connecting bases of sections 9, 10, 11 of each console have dimensions of the sides, determined by the following relationships:

Where
H, B - the height and width of the rectangle of the connecting base of the first section or the height and width of the largest connecting rectangle of the rotary assembly;
H _i , B _i - the same, i-th section of the farm;
L is the length of an individual section;
i - serial number of the section, starting from the first one, attached to the rotary node;
α, β are the angles of inclination of the upper and lower longitudinal beams to the longitudinal axis of the truss sections in vertical and horizontal planes.

 The sprinkler console unit operates as follows.

 Water under pressure from the hydrant of the closed irrigation network through the pipe 29 and the rack 30 is supplied to the unit. Further, part of it is fed into a hydromechanical drive 4, which rotates the drive wheel 2, mounted in the frame 25. The rest of the water under pressure through a flexible hose 31 is supplied to the water pipes 20, 19, 15, openings 23 and is sprayed in the form of rain on the field with nozzles 24 . When the drive wheel rotates, the unit begins to move frontally, irrigating in motion. As soon as the unit has passed the set distance, it automatically stops. The pipeline 29 is disconnected from the hydrant and move it forward along the irrigation to the next hydrant. After opening the hydrant, the process of movement and watering resumes. The direction of the rectilinear movement of the unit is set by a carrier 26 with a support shoe 27, which moves along the bottom of the furrow 28.

At the end of the section for moving to the next hydrant line, the pipeline 29 is disconnected from the unit strut 30. The operator opens the locking locks and rotates the console sections 9, 10, 11 sequentially, starting from the terminal 11, at an angle of 90 ^o relative to each other and contacts with the side faces and fixes them in transport position among themselves. Then, the braces are disconnected from the longitudinal beam of the support-traveling carriage 1 and the entire folded console is rotated together with the rotary assembly 7 in hinges 6 towards the support wheels 3 and the first section 9 is fixed to the frame beam 5 by a lock (not shown conventionally).

 The console can be moved to the transport position starting from the first section.

 The second console is similarly put into transport position.

 It is possible to turn the truss sections in the transport position due to the fact that the water pipelines 15, 19, 20 are connected by flexible hoses 21, 22 and 31. Next, the unit is moved to the next position by the tractor, clinging to the carrier earring 26; shoe 27 is raised to the transport position. After the sections are folded into the transport position, the maneuverability of the unit will increase sharply, since the dimensions allow it to be moved without fear of forest protection plantings, power lines, buildings or other obstacles that may occur during transportation.

 At a new position, the console sections are moved to the working position, fixing their rigidity with braces 16 and locks 17, 18. Connect the displaced pipeline 29 to the rack 30 and the hydrant, carry out all the necessary technological operations, supply water and the unit starts irrigation in motion.

 To obtain modifications of the machine with a reduced working width, the length of the truss arms is reduced by one, two or more sections. For example, the first sections 9 are removed from the unit on both sides. Then the step ladders 8 are disconnected from the rotary assembly 7 and the first section 9 is released from the hinges 12. The second section 10 is fastened with a large rectangle, the step ladders 8 are attached to the posts 37, 38 and the crossbars 33, 36 of the rotary node 7. Connect the flexible hoses 31 to the water supply pipe 19, carry out the necessary installation and connection works and the unit with a shortened farm is ready to work.

 To obtain modifications of the machine of even shorter lengths, the first 9 and second 10 sections are removed, and the next section is connected to the rotary assembly, in our case the end section. Then the frame 13 with ladders 8 is attached to the posts 40, 41 and the crossbars 33, 39.

 To the crossbars 32, 33 and racks 34, 35, only the first section 9 is attached.

 All modifications are formed due to the dismantling of the first sections from the support-running trolley, which have a large mass. Thus, the proposed design modifications have less weight, and therefore material consumption, compared with other machines, the modifications of which are obtained by removing the extreme, lighter panels.

 The adopted design of the rotary assembly 7 provides its versatility and allows you to relatively quickly change the set of sections of each console for various modifications in operating conditions.

Sources of information
1. Sandigursky D.M., Bezrodnov N.A. Mechanization of irrigation work. 2nd ed., Revised. and add. - M., 1983, p. 82-89.

 2. US patent N 3942722 C. 239-102, 1976.

Claims (2)

 1. Sprinkler cantilever unit, including a two-console truss mounted on the central part of the support-traveling trolley, consisting of sections with a rotary unit, a water supply pipe with nozzles, a drive wheel drive motor, a supply hose, an automation system, turning and fixing units of the truss sections in the working and transport positions, characterized in that the rotary node is made by a separate polyhedron, and its connecting part to the first section of the truss is made of rigidly connected rectangles lying in one planes and having a common lower base, and the rectangles are located vertically on the larger side and provide connection to any section of the truss, and its end section is made with cable-stayed suspension, the water supply pipe of which at one end rests on the smaller face of the prism, the bases of which, versatile rectangular triangles, are vertically larger side, and the upper rib is connected by cables to the pipeline. 2. The assembly according to claim 1, characterized in that each rectangle of the connecting part of the rotary assembly and the corresponding rectangles of the connecting bases of the truss sections are congruent and have side sizes

where H _i , B _i - the height and width of the rectangle of the connecting base of the i-th section of the farm;
H, B - the height and width of the rectangle of the connecting base of the first section or the height and width of the largest connecting rectangle of the rotary assembly;
L is the length of an individual section;
i - serial number of the section, starting from the first one, attached to the rotary node;
α, β are the angles of inclination of the upper and lower longitudinal beams to the longitudinal axis of the truss sections in vertical and horizontal planes.

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