RU2660112C2 - Front sprinkler unit - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture and can be used for irrigation of agricultural crops by sprinkling. Front sprinkler unit includes a basic tractor, a frame, a water pipe with sprinklers, a water-conducting polyethylene hose, a drive drum for hose reeling. Water-supply pipeline is mounted on supporting drive carts. Trolleys are driven from the tractor's power take-off shaft through the reduction gear, drive shaft and chain drives to the support wheels of the drive carriages. Multi-barrel sprinklers are installed on the lateral branches of the water supply pipeline. Sprinklers are designed to irrigate outside the support wheels of the drive trolleys with an overlapping irrigation area between the sprinklers. Drive of the drive drum to wind the hose is driven from the hydraulic motor of the hydraulic system of the tractor. Specified direction of movement of the lateral branches of the water supply pipeline is provided with adjustable lengths. Lateral branches of the water supply pipeline are hinged on the frame legs with the ability to rotate 90°. Support wheels of the drive carriages can rotate 90°. Water supply pipe is sectional while each section is supported by the supporting drive cart. Number of sections of the pipeline corresponds to the width of the irrigated field.

EFFECT: reduced metal consumption and higher reliability are provided.

1 cl, 3 dwg

Description

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

A sprinkler installation is known that comprises a support element of an irrigation pipeline cantileverly attached to the top of the mast, the free end of which is connected to a land vehicle, in which, in order to expand operational capabilities and increase the irrigation efficiency, the support element is made in the form of a cable mounted with axial movement and equipped with a variable-length section free of piping (SU, copyright certificate No. 1485459).

The disadvantages of this sprinkler are design complexity, high material consumption and low rain quality.

Known sprinkler installation, including a frame of pipes with a handle, a drum mounted on it, the tubular axis of which is connected through a flexible hose of the drum to the riser of the sprinkler, in which, in order to simplify the design and improve ease of maintenance, the handle is hinged to the frame, made hollow and hydraulically connected to the tubular axis of the drum, while the junction of the sprinkler is mounted on the free end of the handle; it is equipped with support wheels, and the handle is equipped with a vertical support during irrigation and a horizontal position lock during transportation (SU, copyright certificate No. 1500208).

The disadvantages of this sprinkler are design complexity, high material consumption, low productivity and low rain quality.

A sprinkler installation is known, including a frame in the form of a spatial truss from pipes on a vehicle with a pumping unit and a flexible water supply pipe with sprinklers mounted on it via cables, while the flexible water supply pipe is made sectional, each section has a flexible pipe segment and flanges mutually connected by a bearing element, adjacent sections are connected by means of a transition element and flanges mutually fastened by fastening elements, while the ends of the segments fixed in the shaped grooves of the flanges and the transition element, the last assembly is given the shape of a spherical belt, on the surface of which a disk with holes for connecting the cables to the frame is mounted (RU, patent for invention No. 2238640).

The disadvantages of the sprinkler installation are the design complexity associated with the use of a pumping unit, a water intake device and a pump start-up system. In addition, water is drawn from temporary irrigation channels made in the earthen channel, while the water carries a significant amount of suspension, which leads to clogging of irrigation nozzles and a decrease in the reliability of the irrigation system.

A two-console sprinkler unit is known, including a base tractor, a sprinkler machine frame, a truss with a mounting unit, hydraulic cylinders interacting with it, hydraulic cylinders fixed with bases on the tractor frame, a hydraulic control system, a suction communication, a pump driven by a tractor power take-off shaft, a locking communication and a device for starting the pump, while the truss attachment unit is given the shape of a wedge with the base in the form of a regular polygon, the frame frame of the water supply pipes is formed by the edges of the wedge base pipelines, ribs of the side faces of the wedge are made of uprights and connected to a central gusset provided with a mounting hole, and the gusset is additionally connected by a suspension with a water supply belt pipe oriented parallel to the direction of movement of the unit, the sprinkler machine frame has the shape of a prefabricated hollow pyramid with bases in the form of regular polygons, the lower truncated part of the pyramid is formed by the upper base of the ribs and mounting plates, uprights oriented along the edges of the truncated pyramid, the lower the base, formed by brackets, mounted by means of ladders on the frame of the base tractor, and the plane of the connector of the frame of the sprinkler machine is made in the plane of coupling of the bases of the upper pyramid and the lower truncated pyramid and above the cab of the base tractor by 100-300 mm, and the top of the pyramid has a support equipped with the ability to rotate around the vertical axis of symmetry of the machine frame, and a ball joint for swinging in the transverse vertical plane, located in the support seat and connected via an axis to the mounting hole we have the central gusset of the truss attachment unit, while the projection of the top of the pyramid, as well as the geometric center of the ball joint, is placed in the longitudinally vertical plane of symmetry of the implement and is removed from the tractor center of mass by a distance of 50-250 mm, and the truss attachment unit kinematically and hydraulically connected to the frame of the sprinkler machine by means of a stabilizing mechanism and sleeves of the pressure line of the irrigation water supply line, the first of them is made in the form of pairwise installed and differently oriented spring shock absorbers connected by lower ends via flexible elements with tractor frame brackets, and upper ends with front and rear water supply piping of the frame of the truss attachment panel, each spring shock absorber equipped with a bar, U-shaped bracket, stacked sections of elastic elements, a flange , support, fastening and connecting elements, while the elastic elements and the rod with the flange are placed with the possibility of movement in a U-shaped bracket, and each sleeve of the discharge pressure line is irrigated water at one end connected by U-shaped knee divisor water flow and return valve with the pump volute, while the other end of the sleeve is connected removably to one of the panel frame flanges water-supply pipeline (RU, patent №2222184).

The disadvantages of the sprinkler unit are the design complexity associated with the equipment of the pumping unit, its drive and the device for starting the pump. In addition, water is drawn from temporary irrigation channels made in the earthen channel, while irrigation water carries a significant amount of suspended matter, which leads to clogging of irrigation nozzles and a decrease in the reliability of the irrigation unit.

A serious drawback is the implementation of temporary irrigation canals on the irrigation system, which cause flooding and salinization of the territory, and significant losses of water for idle discharges.

Known front sprinkler unit, including 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 sections, while the irrigation pipe is mounted on the brackets of the drive trolleys and support wheels mounted on the rows of 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 rotary boom for fastening ropes-brackets 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 transmissions, at the extreme drive trolley, a drive drum is installed on the bracket with a wound flexible inlet hose hydraulically connected to the inlet pipe of the irrigation pipeline, the drum is made from an internal combustion engine through a chain drive and clutch, sprinkler nozzles connected hydraulically 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 of the upper tvolov, the length of the upper sprinkler trunks is greater than the length of the lower sprinkler trunk (RU, patent for invention No. 2520984).

The disadvantages of this sprinkler are design complexity, low reliability, the need to install an internal combustion engine and a support trolley under the engine.

A sprinkler assembly is known, including a base tractor, a sprinkler machine frame, a truss with a mounting unit, hydraulic cylinders interacting with it with rods fixed with bases to the tractor frame, a control hydraulic system, supply communication, a water supply pipeline with sprinkler nozzles, while the supply communication is equipped with a water intake device from pipelines of a closed irrigation network, including a water supply polyethylene hose mounted on a tractor mounted system, a drive drum for hose winders with a flow divider on the side branches of the water supply pipeline with sprinkler nozzles, while the flow divider is mounted in the water supply pipe connector with the possibility of rotation together with the drive drum and is equipped with stuffing box seals fixed by nuts installed on the threaded part of the water supply pipe, the drum drive during sprinkling due to the forces of adhesion of the rims of the drum with the soil surface, and the idle drive is made from the power take-off shaft through the gearbox p and the drum drive gear, the drum bearing supports are fixed to the tractor mounted (RU, patent №2409936).

The disadvantages of this sprinkler unit are the complexity and bulkiness of the structure, increased metal consumption, and a limited working width.

We have accepted this sprinkler unit as the closest analogue.

The invention consists in the following.

The problem to which the invention is directed is to increase the reliability of work and productivity, reduce the metal consumption and cost of the machine, and provide increased maneuverability in operation.

The technical result is an increase in productivity, a decrease in metal consumption and the cost of a sprinkler unit.

The specified technical result is achieved by the fact that in the front sprinkler unit, including the base tractor, the frame is a water supply pipeline with sprinklers, a water supply polyethylene hose mounted on the tractor’s hinged system, a drive drum for winding a hose with a flow divider on the side branches of the water supply pipeline with sprinklers, while the water supply pipe is mounted on the supporting drive trolleys having a drive from the tractor power take-off shaft through the gearbox, etc. multi-barrel sprinklers are installed on the side branches of the water supply pipeline on the lateral branches of the water supply pipeline, providing irrigation outside the support wheels of the drive trucks and overlapping the irrigation area between the sprinklers, the drive drum when winding the hose is made from the tractor hydraulic system hydraulic motor, specified the direction of movement of the lateral branches of the water supply pipeline is provided by stretch-adjusting lengths, the lateral branches of the water supply The drawer pipelines are mounted on racks of the frame pivotally on a triangular frame with the possibility of rotation by 90 °, the support wheels of the drive trolleys are rotatable by 90 ° to install the side branches of the water supply pipeline in the transport position, the water supply pipeline is made sectional with each section resting on the support drive carriage, number sections should correspond to the width of the irrigated field. Due to the possibility of installing the required number of sections on the wings of the sprinkler unit, the grip width of the sprinkler unit and its productivity are increased, there is no need to weld a bulky truss and metal consumption is reduced, as well as the cost of the unit.

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.

In FIG. 1 schematically shows a sprinkler mounted on a tractor, side view.

In FIG. 2 is a diagram of a linkage of a drive drum to a tractor, rear view.

In FIG. 3 is a diagram of a hitch, a top view.

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

-образного патрубка 9 соединен с водопроводящим трубопроводом 10. Соединение с водопроводящим трубопроводом 10 выполнено с помощью фланцев 11 на патрубке 9 и водопроводящем трубопроводе 10 через уплотнительную прокладку (не показана). Над валом отбора мощности трактора 1 смонтирован редуктор 12 привода опорных тележек 13 водопроводящего трубопровода 10. Привод опорных тележек 13 выполнен от приводного вала 14 через цепную передачу 15. Приводной вал редуктора 16 соединен с приводным валом 14 тележек с помощью эластичных муфт 17.Information confirming the possibility of implementing the claimed invention are as follows. The front sprinkler unit includes a tractor 1, on which, using a hinged system 2, a drive drum 4 is mounted on the brackets 3 for winding a hose 5 connected to a pressure pipe 6 of a closed irrigation network using a hydrant 7. The bearings 8 of the drive drum 4 are mounted on the brackets 3. In the central part of the drive drum 4, the hose 5 is hermetically connected with

-shaped pipe 9 is connected to the water supply pipe 10. Connection to the water supply pipe 10 is made using the flanges 11 on the pipe 9 and the water supply pipe 10 through a gasket (not shown). Above the power take-off shaft of tractor 1, a gearbox 12 for supporting the support trolleys 13 of the water supply pipe 10 is mounted.

The water supply pipe 10 is fixed relative to the tractor 1 with the help of hinged supports 18, 19, fixed to a triangular frame 20 to the support posts 21 of the frame 22 of the sprinkler, in the transverse direction the water supply pipe 10 is fixed with braces 23. The support wheels 24 of the trolleys 13 are rotary, providing the possibility of their transfer to the transport position by turning 90 °.

The drive in the rotation of the drum when returning the hose 5 is made from the hydraulic motor 25.

Multi-sprinkler irrigation devices 26 are installed on the water supply pipeline with the condition that the irrigated areas are blocked from neighboring irrigation devices and the irrigated areas are placed behind the support wheels 24 of the support carts 13.

The front sprinkler unit operates as follows.

The unit is installed in the direction of movement, the water supply pipe 10 is installed perpendicular to the direction of movement using extensions 22. The hose 5 is connected to the hydrant 7 of the pressure pipe 6 of the closed irrigation network. The drive drum 4 is lowered by means of the hinged system 2 to the soil surface until the necessary contact of the drum rim with the soil is created.

The auxiliary worker includes the supply of water from the hydrant 7 to the hose 5. The tractor driver includes a power take-off shaft and begins to move the unit.

When moving, sprinkler apparatuses 25 irrigate the crops behind the towers 13, which provides a significant reduction in traction resistance to move the water supply pipeline 10. The drive to move the water supply pipeline 10 is provided from the tractor power take-off shaft through the gearbox 12, drive shaft 14 and chain transmissions 15.

As soon as the length of the hose 5 ends, the tractor driver stops the unit, the auxiliary worker closes the hydrant 7 and disconnects the hose 5 from the hydrant 7. The tractor driver lifts the drive drum 4 using the tractor hydraulic system 2 and starts the hydraulic motor 25. Hose 5 is wound on the drum 4. As soon as the end hose 5 reaches the next hydrant 7, an auxiliary worker connects it to the hydrant 7 and turns on the water supply.

The unit continues to move and irrigates crops.

If necessary, move the unit to the next irrigated field, the stoppers of the support wheels 23 are released and the extensions 23 are disconnected, the elastic couplings 17 are disconnected. The tractor 1 is moved forward and the wings of the water supply pipe 10 are installed along the axis of the tractor. The unit is ready to move to a new irrigated field.

On a new irrigated field, the unit stops at its beginning and begins to move in reverse until the wings of the water supply pipe 10 are installed perpendicular to the axis of the tractor's direction of movement. Stretch marks 23 fix the position of the water pipe 10 perpendicular to the axis of the tractor. The auxiliary worker joins the elastic coupling 17, connects the hose 5 to the hydrant 7, and the tractor driver lowers the drive drum 4 to the soil surface until the need for contact is created. The auxiliary worker turns on the water supply on the hydrant 7. The tractor driver turns on the drive of the carts 13 from the tractor PTO and starts the movement of the unit. Frontal movement of an aggregate having driven support carts 13 mounted on the rows of irrigated crops provides minimal trauma to the plants, and moving carts 13 along the moist surface of the soil can significantly reduce energy costs for moving the front sprinkler aggregate. The use of multi-barrel sprinklers makes it possible to increase the quality of irrigation and productivity.

Claims (1)

A front sprinkler unit including a base tractor, a frame, a water supply pipe with sprinklers, a water supply polyethylene hose mounted on a tractor hinged system, a drive drum for winding a hose with a flow divider on the side branches of a water supply pipe with sprinklers, characterized in that the water supply pipe is mounted on supporting drive trolleys having a drive from the tractor power take-off shaft through the gearbox, drive shaft and chain gears to the support counters with drive carts, multi-barrel sprinkler devices are installed on the lateral branches of the water supply pipeline, which provide watering outside the support wheels of the drive carts and overlap the irrigation area between the sprinklers, the drive drum when winding the hose is made from the tractor hydraulic motor, the specified direction of movement of the side branches of the water supply pipeline is provided length-adjustable stretch marks, the side branches of the water supply pipe are fixed on racks we are hinged on a triangular frame with the possibility of rotation by 90 °, the support wheels of the drive trolleys are made rotatable by 90 ° to install the side branches of the water supply pipe in the transport position, the water supply pipe is made sectional, with each section resting on the support drive carriage, the number of sections must correspond to the width irrigated field.

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