SU1764581A1 - Multitower subsurface sprinkling machine - Google Patents

Abstract

Usage: in sprinkler machines with luch-type farms for irrigating from sprinklers vertically and horizontally moving. SUMMARY OF THE INVENTION: A sprinkler machine having a truss-type truss is provided with clamping collars mounted on the side brackets. The sleeves are fitted with guide sleeves with clamps, in which horizontal rods are mounted for movement. In a staggered order, at the ends of the rods, on brackets with a rectangular section, fixing units are installed, to which hollow rods with nozzles can be rotated in the vertical plane. By optimally positioning the nozzles relative to one another against the surface of the earth, the quality of irrigation is improved.

Description

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The invention relates to agriculture, namely to the technique of soldering surface soldering.

A multi-core machine for near-surface sprinkling of the Volga is known, containing self-propelled supports, artillery-type trusses mounted on them with a water-supply pipeline, two straps below it, and sprinkler attachments fixed to the ends of the water-supply rods fixed on the pipeline in vertical guiding sleeves with the ability to rotate around and move along its own axis 1.

A disadvantage of the known machine is the complexity and great laboriousness of transferring the sprinkler nozzles from one level of height to another, the relatively high intensity of rain, easily corrosive material of aluminum alloy rods (due to the limitation of their mass by technical requirements).

Closest to the present invention is a multi-bottom subsurface sprinkler, containing self-propelled supports, archery-type trusses mounted on them with a water-supply pipe and below it located two horizontal straps and self-adjusting sprinklers attached to the ends of the water flexible hoses that are passed through hollow thin-walled single nozzles. levers connected pivotally and pivotally on the front and rear arms of the trusses. At the same time they are alternately connected to zhkah, in shalmatny order 2.

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The disadvantage of this machine is that it has low operational and technological reliability when the fastening of the levers with fixing units is carried out directly on the hinges having a curvilinear shape - sagging down and bulge back and forth, counting along the machine. Namely, it gives torsion of the levers, unreliable fixation of them and jamming of the parts of the self-activating sprinkler nozzles when they are installed at different heights.

The aim of the invention is to improve the operational and technological reliability, as well as improve the quality of irrigation.

The goal is achieved by allowing the end of each single-arm hollow arm to be fixed with a hose and a sprinkler fixed at its end at different heights in the same vertical cavity that coincides with the direction of movement of the truss, for which it has in this plane horizontal hollow cylindrical tubes each - fastened on both straps with hose clips with the possibility of its longitudinal movement relative to the straps, and on the consoles of each tube protruding alternately from one and the other straps, mounted to A bracket with a fixing unit for the position of the end of a single-armed lever with a nozzle at different heights.

For the convenience of mounting the fixing units on the horizontal hollow tubes, their end brackets are made of rectangular cross section.

FIG. 1 schematically shows one of the sections of a multi-support machine for the near-surface sprinkling of the Volga-R, front view; in fig. 2 - the same, top view; in fig. 3 - the same, view in cross section of the truss; in fig. 4 shows the structures of the fixation units of the subsurface sprinkler device on the trusses of the truss.

The near-surface sprinkling machine Volga-P (Figs. 1-4) includes multi-axle self-propelled supports 1, bow-type trusses mounted on them, each of which consists of an arc-shaped pipeline 2 with water outlets 3, two curvilinear, sagging down and convex outwards (forward and back along the machine) of strut 4, along which alternately, on the front and rear, in a chess order, with a given step, devices for near-surface sprinkling are placed, each of which includes two cylindrical sleeves 5 with welded to them Tami 6 (with bolts), which inside

A gap of, for example, 1-3 mm, a cylindrical tube 7 was missed and fixed horizontally with a clamp bolt, on the console of which a rectangular section bracket 8 was mounted, on which pivotally, on an axis, a clamp 9 was mounted, including a collar with an asterisk, a double-arm on its own and a short (100 mm) tube in which the hollow cylindrical thin-walled single-arm steel lever 10 is mounted and fixed, for example, with a screw, with the water supply hose 11 passed through it. One end of the hose 11 is connected to the pressure pipe fitting 3 rovoda 2 and the second exiting end of the arm 10 is fixed samoustanavlivayuscha de flektorna circular sprinkler nozzle action 12.

Near-surface sprinkler assemblies are mounted on curvilinear strings 4 as follows. Two cylindrical sleeves 5 with clamps 6 welded to them are put on the cylindrical part of the tube 7. The tube 7 is placed, for example, opposite the first pipe fitting 2 on the left (Fig. 1, 2) 2. The gap between the sleeve 5 and the tube 7 exposes the last and fastened by clamps 6 on both straps 4 so that its center line coincides with the direction of movement of the truss.

In this case, the end of the lever 10 with the hose 11 and the nozzle 12 will be fixed at all heights of the nozzle 12 in a vertical plane, also coinciding with the direction of movement of the truss.

In order to expand the rain front, reduce its intensity, i.e., improve the quality of the first crop irrigation, the horizontal tubes 7 push the side of the bracket 8 (Figs 2, 3 4) by the size of the console to. The next horizontal tube 7 is mounted exactly also, only with the bracket outward from the other bracket (fig. 2).

Works car Volga-R as follows.

If the ground clearance of its farms (up to the planes) is similar to that of the Kuban-Zimmatik -2.7m machines Before watering, for example, seedlings of tall-growing crops — maize, sorghum, or sugar cane (FIGS. 1, 3), when the machine is idle, the levers 10 are fixed by the device 9 vertical position 1. In this case, the nozzles 12 are placed at a height of 1 m above the ground. When the machine is started up, water from pipeline 2 goes through fittings 3, rods 11 under pressure come to nozzles 12, hit them, for example, flat baffles and in the form of rain

round out is emitted into the atmosphere, firing on the field unstressed. As soon as the plants reach a height of 1 m, the tops approach the nozzles, the machine is stopped, and its levers 10 with nozzles 12, by turning the levers, are lifted and fixed in position II, approximately at a height of 2 m from the ground and 1 m from the tops of the plants, i.e. the floor surface. As soon as the plants grow to a height close to 2 m, the nozzles 12 are raised to position III, slightly higher than the ground clearance of the machine farms. At this height complete watering plants.

In all positions (I – II – III) of nozzles 12, the rain from the machine has a working width equal to twice the half of the distance between the trusses of the truss, plus the length of the cantilever tube 7, 8 and plus

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radius of rain from nozzles, i.e. + IK + Ip.

It is important here that at positions And and III the intensity of rain is lower than at the position of the first irrigation, which is required for more and more compacted soil irrigation.

To bring the machine to the position of initial irrigation or irrigation, for example, low stem culture, the operator has a meter rod, with a fork at the end, lift the shank of the latch lever of the fixing device 9 (Fig. 4), release his tooth from the toothed gear wheel, like lever 10c the nozzle 12 is lowered and occupies the initial lower position I (Figs. 1, 3).

The proposed machine will be widely used in irrigation of biologically treated wastewater, since its entire water supply part of the pipeline (if the Kuban-Zimmatik machine is taken as a base) is non-corrosive from the pump to the nozzle is galvanized, and near-surface sprinkler devices are a hose 11 and nozzle 12 are made of plastic. Rain no higher than 1 m from the irrigated surface the floor does not carry the wind longer than 1 m and practically does not evaporate during the flight of droplets from the nozzle to the irrigated surface, its efficiency is always close to 1.0 under any weather conditions. Such efficiency guarantees the highest yield with the most highly efficient use of investments, funds and resources pledged to the irrigation system. This is explained by the fact that the machine is the final link in the land irrigation system. The solution of the technical problem of creating and using the Volga-P machine is a solution to the problems of resource saving from unproductive waste of water

energy, material and technical means and investment in land reclamation.

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Claims (2)

1. Multi-support machine for near-surface sprinkling, containing self-propelled supports, artillery-type trusses mounted on them with a waterline conduit and below it two curvilinear straps located, on which, in a checkerboard pattern, hollow-arm single shoulders with omitted ones plumbing hoses mounted on brackets with fixing units and sprinkler nozzles adjustable in height, in order to improve operational and technological reliability and improve irrigation quality by allowing the end of each single-arm hollow arm to be fixed with a hose and fixed on it the end of the sprinkler head on different heights in one vertical plane coinciding with the direction of movement of the machine; the trusses are equipped with horizontal hollow cylindrical tubes each of which is fixed on both clamps with the possibility of its longitudinal movement relative to the tie, and on the consoles of each tube, protruding alternately from one and the other tie, mounted bracket with a node fixing the position of the end of a single arm with a nozzle at different heights. 2. The machine according to claim 2, characterized in that, for the purpose of convenient mounting of the fixing units on the horizontal hollow tubes, their end brackets are made of rectangular section. / 7 7 / ////// /// /// f /// /// / S 7 // 7 // Thebes. one FIG. 2 1