RU2435366C2 - Device to reel flexible watering pipelines of trickle irrigation system into bobbins and their arrangement - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: device comprises a frame, a slave shaft, a braking device, a V-belt drive, an intermediate shaft. The intermediate shaft is connected by means of a cardan shaft with a shaft of power takeoff of an aggregated tractor. The device is equipped with an attachment to arrange flexible watering pipelines from bobbins in the form of cantilever hollow axes mounted oppositely on the rear part of the frame by means of brackets, and each axis has a slot in the diametral plane and a shaped nut on a threaded tail, discs, shaped cartridges between discs and an elastic element. The elastic element is mounted on the axis between the first disc and the bracket of the specified axis. The slave shaft for reeling of flexible watering pipelines into bobbins is made as hollow and is mounted by means of bearing supports and the bracket at the rear part of the frame. On the slave part serially from the bracket there is a master pulley of the V-belt drive arranged, as well as an elastic element, shaped cartridges provided in an alternating order between discs and a shaped nut on a threaded tail. The above-specified slave pulley is connected to the master pulley by a V-belt in the end of the intermediate shaft. A tension roller of the V-belt is mounted by means of the axis on a spring-loaded swinging lever, comprising a handle and a control pedal, the angular turn of which is limited with a controlled stop.

EFFECT: design will make it possible to increase quality of arrangement of flexible watering pipelines into bobbins during reeling, to preserve trickles and water outlets in technically proper condition and to preserve even and linear arrangement of flexible watering pipelines of the trickle irrigation system.

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Description

The invention relates to agriculture, land reclamation, in particular to agricultural machinery, to technical means for winding flexible irrigation pipelines of drip irrigation systems at the end of the irrigation season and laying them after sowing and planting seedlings in open ground when cultivating a wide range of vegetable and s. s. crops, vineyards, berry plants, etc.

A portable device for winding (unwinding) drip lines of an irrigation system is known, including a support, racks, shaft, a shaft for rotating the shaft, a pulley with an endless branch as a brake, an endless branch tensioner, a removable cartridge and a nut with doors on the cantilever part of the shaft (see advertising brochure of Volgograd Plant of Irrigation Equipment and Housing and Communal Services CJSC. - Volgograd, 2007. - 16 pp. - P.4 and copies of black and white photographs No. 1 and 2).

The disadvantages of the described device include low productivity due to manual drive, friability of laying a flexible irrigation tube in the reel due to imperfection of the brake, high material consumption, high costs of manual labor.

A towing device for winding (unwinding) drip lines is also known, including a frame, an emphasis on the end of the frame, a tow hitch, a front hinged support, pneumatic wheel travel, racks, driven shafts in bearing bearings, a V-belt drive pulley on one side of the rack, a pulley with an endless a branch as a brake on the other hand, an endless branch tensioner on the middle part of the rack, a removable cassette and a nut on the console part of the driven shaft and a drive of the driven shafts with replaceable cassettes in the form the drive shaft frame with a group of driving V-belt drive pulleys and an intermediate shaft connected via a chain drive and a telescopic driveshaft with a power take-off shaft (PTO) of an aggregated tractor (see the advertising brochure of Volgograd Plant of Irrigation Equipment and Housing and Public Utilities CJSC. - Volgograd , 2007. - 16 pp. - P.4 and copies of black and white photograph No. 3).

The disadvantages of this device include the low quality of laying flexible irrigation pipelines, their rupture due to excessive tension and tipping of the frame with cartridges on its side. The described device will not be able to lay out flexible irrigation pipelines on the field surface both before sowing and after planting seedlings.

The essence of the claimed invention is as follows.

The problem to which the claimed invention is directed is the expansion of functionality.

EFFECT: improved quality of laying flexible irrigation pipelines into reels during reeling, keeping droppers and water outlets in a technically sound condition and uniformity and linearity of layout of flexible irrigation pipelines of the drip irrigation system.

The specified technical result is achieved by the fact that in the known device for winding into bobbins and layouts of flexible irrigation pipes of the drip irrigation system, including a frame, a driven shaft with a cassette, a brake device, an intermediate shaft connected by a telescopic driveshaft to a power take-off shaft of an aggregated tractor, according to of the invention it is equipped with a device for arranging flexible irrigation pipes from bobbins in the form of opposed mounted on the rear of the frame by means of a bracket cantilever hollow axes, each of which has a groove in the diametrical plane and a shaped nut on the threaded shank, disks, shaped sleeves between the disks and an elastic element, while the elastic element is mounted on an axis between the first disk and the bracket of the axis, a driven shaft for winding flexible irrigation pipelines in the bobbins are made hollow and mounted by means of bearing bearings and an arm on the rear of the frame, while a driven V-belt pulley, an elastic element, are placed sequentially from the arm on it , alternating between the disks, shaped sleeves and a shaped nut on the threaded shank, the aforementioned driven pulley with a V-belt is connected to the drive pulley at the end of the intermediate shaft, and the V-belt tension pulley is mounted on the spring-loaded swing arm with a handle and a control pedal, angled rotation which is limited by an adjustable emphasis; each disk is made in the form of a flat ring of wood-particle boards or plastic materials and has in the center an axial hole with a diameter larger than the diameter of the hollow axis or shaft and pins in the form of a rod in the diametrical plane of the disk, a pin with a rod diameter of 30- 40% less than the thickness of the disk and 3-4 times longer than the diameter of the axial hole, while the displacement of the pin in the diametrical hole is limited by clamps; the shaped sleeve has radial grooves and is made in the form of corrugations, each of which is paired with a hollow shaft, and the outer surface of the corrugations forms a bobbin, while the walls of the grooves and corrugations are paired with fillets.

The invention is illustrated by drawings.

Figure 1 schematically shows a hinged device for winding flexible irrigation pipelines of the drip irrigation system into bobbins at the end of the irrigation season and their layout when sowing or planting seedlings in open ground in an aggregate with a wheeled tractor, a plan view when performing the technological process.

In Fig.2 - view A in Fig.1, the same, view from the right.

In Fig.3 is a section bB in Fig.1, a vertical section of the drive of the driven hollow shaft for winding flexible irrigation pipelines into bobbins.

Figure 4 - section bb in figure 2, a horizontal section of a frame with an arm for bearing bearings of the hollow shaft, driven pulley, elastic element, discs, shaped sleeves and shaped nuts on the threaded shank and bobbins between the disks on the shaped sleeves.

In Fig.5 is a section GG in Fig.1, a vertical section of a device for arranging flexible irrigation pipelines from bobbins, its left console with a hollow axis, located in an arm with mounted elastic element, disks, shaped sleeves and a shaped nut on a threaded shank.

In Fig.6 - cross section DD in Fig.4, a transverse vertical section of a hollow shaft and a shaped sleeve of a device for winding flexible irrigation pipes into bobbins.

In Fig.7 is a cross-section EE in Fig.5, the pairing of the disk with the hollow axis of the device for the layout of flexible irrigation pipelines.

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

A device for winding into bobbins 1 and layout of flexible irrigation pipes 2 of the drip irrigation system includes a frame 3, a driven shaft 4 with a cassette, a brake device, a V-belt transmission 5, an intermediate shaft 6. The intermediate shaft 6 is connected via a telescopic drive shaft 7 to a power take-off shaft ( PTO) 8 of the aggregated tractor 9 (Fig.1-3).

Frame 3 (Fig.1-3) is made in the form of a plate 10 of sheet steel. The plate 10 is placed on the back of the reciprocal Δ-shaped part 11, mated in working position with the bracket 12 Λ-shaped automatic coupling of the mounted agricultural machine with an aggregated tractor 9. The Δ-shaped part 11 is made of channels No. 12 and is welded to the plate 10 of the frame 3. The bracket 12 has a latch for connection with the Δ-shaped part 11. The bracket 12 of the automatic coupling by means of the fingers 13 and 14 on the lower part and the bracket 15 in the upper part and the axis 16 (Fig. 1) is pivotally connected to the rods 17, 18 and 19 hydraulic Istemi of mounted tractor 9. This allows to promptly hang the device of mounted tractor 9, provide intermediate drive shaft 6 with the frequency of rotation 9 s ^-1 (540 min ^-1) and deliver to any irrigated field with any remote location at a speed of 45 km / h.

The device is equipped with a device for arranging flexible irrigation pipelines 2 from bobbins 1 in the form of opposite mounted on the rear of the frame 3 by means of brackets 20, cantilever axles 21, disks 22, shaped sleeves 23, elastic element 24 and shaped nuts 25 on the threaded shank 26. Shaped sleeves 23 are placed between the disks 22. The elastic element 24 is mounted on the hollow axis 21 between the first disk 22 and the bracket 20. The elastic element 24 is made in the form of a twisted spring of equal resistance. Under axial load, the coil of the spring folds into a plane, forming a spiral circle. The turns of the largest diameter of the elastic element 24 are associated with the plane of the disk 22. Each hollow axis 21 has a groove 27 made in the diametrical plane of the hollow axis 21. At one end, the hollow axis 21 is fixed in the bracket 20 by means of a pin 28 (see Figs. 1, 2, 5 and 7).

The shaped sleeve 23 (Fig.6) has radial grooves 29 for threading the twine when tying the bobbins 1 and is made of sheet steel with a thickness of 1.0 ... 1.5 mm in the form of corrugations 30. Each corrugation 30 is associated with a hollow driven shaft 4 or a hollow axis 21 (Fig. 7) by means of fillets 31 between the walls 32 of the grooves 29. The corrugations 30 are associated with the walls 32 along the fillets 33.

Each disk 22 is made in the form of a flat ring of particle boards with a thickness of 16 ... 20 mm or plastic materials. The disk 22 in the center has an axial hole 34. The diameter of the hole 34 is 5 ... 8 mm larger than the diameter of the hollow axis 21 or the driven shaft 4. The disk 22 with the hollow shaft 4 or the hollow axis 21 is mated by a pin 35 located in the groove 27 (see Fig. .7, 6, 5 and 4). The pin 35 in the form of a rod (see Fig. 7) is installed in the hole 36 made in the diametrical plane of the disk 22. The diameter of the rod of the pin 35 is 30 ... 40% less than the thickness of the disk 22. The length of the pin 35 is 3-4 times longer than the diameter of the axial hole 34. This ensures the transfer of the required magnitude of the torque forces. The offset of the pin 35 in the diametrical hole 36 is limited by the latches 37 (Fig.7).

The shaped sleeve 23 and a pair of disks 22 mounted both on the hollow axis 21 and on the driven shaft 4 form a cassette for winding the flexible irrigation pipe 2 into the reel 1 or unwinding it when laying on the surface of the irrigated array.

The driven shaft 4 with cassettes for winding flexible irrigation pipes 2 into bobbins 1 is hollow and mounted by means of radial bearings 38 of one-time lubrication and an arm 39 on a plate 10 in the rear of the frame 3 (see Figs. 1-4). The hollow driven shaft 4 in the bracket 39 is fixed by nuts 40, the spacer sleeve 41, the thrust ring 42 and the retaining rings 43 (see figure 4).

Behind the thrust ring 42 on the surface of the driven shaft 4, the driven pulley 44 of the V-belt drive 5, the elastic element 24, alternating between the disks 22 of the shaped sleeves 23 and the shaped nut 25 on the threaded shank 26 are sequentially placed from the bracket 39. A groove is made in the diametrical plane of the hollow shaft 4 27.

The hub of the driven pulley 44 is coupled to the hollow shaft 4 by means of a key 45.

The turns of the elastic element 24 are conjugated on one side to a shaped washer 46, and on the other side, to the surface of the disk 22 (Fig. 4).

The specified driven pulley 44 with a V-belt of a V-belt transmission 5 is connected with a driving pulley 47 at the end of the countershaft 6. The tension roller 48 for tensioning the V-belt in the transmission 5 is mounted via an axis 49 on a spring-loaded swing arm 50.

The swing arm 50 has a handle 51 and a pedal 52 for controlling the position of the tension roller 48 relative to the V-belt. The angular rotation of the swing arm 50 is limited by the adjustable stop 53. The bracket 54 of the adjustable stop 53 is welded to the plate 10 of the frame 3. A tension spring 56 is installed on the bracket 55 of the frame 3, the second end of which is connected to the oval link of the lever 50. The tension roller 48 is mounted on the drive branches of the V-belt transmission 5 and when the handle 50 or pedal 51 is released under the influence of the tension spring 56, the roller 48 moves away from the V-belt. The drive pulley 47 slides along the V-belt and no torque is transmitted to the driven pulley 44. The swing arm 50 is mounted on the pin 57 by means of a sleeve 58 and is fixed by means of fastening.

A device for winding into bobbins and layouts of flexible irrigation pipelines of the drip irrigation system works as follows.

After sowing vegetable crops, a tractor 9 moves along the trail of the sowing unit with a device for arranging flexible irrigation pipes 2 along rows of sown seeds. For this, the bobbins 2 are placed in pairs on the shaped sleeves 23 and placed on the axles 21 between the disks 22. Then, the shaped nut 25 is screwed by hand on the threaded shank 26 on the cantilever part of the hollow axis 21. The direction of unwinding of the flexible irrigation pipe 2 from the bobbin 1 should correspond to the direction rotation of the shaped nut 25 when it is screwed onto the threaded shank 26. The disks of the elastic element 24 are compressed by the disks 22 and the shaped sleeves 23. As each disk 22 is placed with its pin 35 in the groove 27 of the cantilever axis 21 and is stationary position, the ends of the shaped sleeve due to the preload of the coils of the elastic element 24 creates a moment of resistance from friction. The ends of the flexible irrigation pipes 2 are fixed with brackets in the upper soil layer. At low operating speed, the tractor 9 with the raised frame 3 begins to move. When the flexible irrigation pipe 2 is tensioned on the surface of the bobbins 1, a torque of forces is created in the cassette itself that exceeds the moment of friction between the ends of the shaped sleeve 23 and adjacent discs 22. The bobbin 1 with the shaped sleeve 23 starts its rotation on the hollow axis 21. Unwound flexible irrigation the pipeline 2 from the bobbin 1 smoothly fits on the surface of the irrigated area in a stretched position. Workers clamp the pipeline 2 on the surface of the field. This excludes the flutter of pipelines 2 and their damage in windy weather. When fully unwound at the border of the irrigated area, one end of the pipeline with a start connector is connected to the water supply pipeline - Lay Flat, and the other end is jammed.

At the end of the irrigation season, tractor 9 moves along the flexible water supply pipeline - Lay Flat and stops near each pair of flexible irrigation pipes 2. The ends are freed from start connectors. Then turn on the PTO 8 at low speeds of the working engine of the tractor 9.

When the engine is running, the rotation drive and the required torque of the forces from the PTO 8 (Fig. 2) through the telescopic driveshaft 7 receives the rotation drive of the intermediate shaft 6 and the drive pulley 47 (Fig. 3) of the V-belt transmission 5. When the V-belt sags, the driven pulley 44 is not receives rotation, because the V-belt only touches the drive pulley 47. The working end of the flexible irrigation pipe 2 is inserted into the groove 29 and rotates the shaped sleeve 23 on the surface of the driven shaft 4 by rotating it behind one of the disks 22. Similarly, the second flexible irrigation pipe 2 is supplied.

When you press the pedal 51, the tension roller 48 presses on the leading branch of the V-belt, and it drives the driven pulley 44 on the hollow shaft 4. The pulley 44 rotates the driven hollow shaft 4. through the hub and key 45, the rods 35 installed in longitudinal groove 27, the disks 22 are driven into rotation. Each disc 22 is pressed against the ends of the shaped sleeve 23 due to the compressed turns of the elastic element 24. Due to friction forces between the ends of the shaped sleeve 23 and the disks 22 with a certain slip, each shaped sleeve 23 winds a flexible irrigation pipe rovod 2, forming a bobbin 1 of tightly and neatly wound conduits 2. Due to the possibility of slippage of the sleeve 23 on the shaft 4 excludes damage of both the flexible irrigation piping (gap) and droppers built into their cavities and the labyrinth outlets.

Upon completion of winding the flexible irrigation pipe 2 in the reel 1, the operator releases the pedal 51. The rotation drive on the hollow driven shaft 4 is stopped. The worker with the effort of the hand, the shaped nut 25 is screwed from the threaded shank 26 on the cantilever part of the hollow driven shaft 4. Then it removes the rear disc 22 by moving it with a pin 35 along the groove 27. Next, it moves the reel 1 with the sleeve 23 along the hollow shaft 4 (Fig. 4). In the grooves 29 it passes the end of the twine and wraps the outer, end and inner surfaces of the bobbin 1 two or three times, and binds the ends of the twine into a knot. Thus, each bobbin 1 is tied. Further, the walls 32 without fillet 31 of the sleeve 23 are shifted to each other. The outer diameter of the shaped sleeve 23 is reduced from 0.5 to 3 mm. Next, the sleeve 23 is freely removed from the bobbin 1. Then the middle disk 22 and the second sleeve 23 with the bobbin 1 are removed. Twine is threaded in four places in the slot 29 of the shaped sleeve 23 (see FIG. 6) and the bobbin 1 is connected, thus forming a ring. The bobbins 1 are stacked on pallets and transported to places of long-term storage.

When the device is operating, there is no impact of critical and destructive loads both on the walls of the flexible irrigation pipes 2 and the destruction of droppers and water outlets.

The described device is capable of winding bobbins 1 and folding flexible irrigation pipes 2 of drip irrigation systems with high productivity and high quality.

Claims (3)

1. A device for winding into reels and unwinding flexible irrigation pipes of the drip irrigation system, including a frame, a driven shaft, a brake device, a V-belt drive, an intermediate shaft connected by means of a telescopic driveshaft to a power take-off shaft of an aggregated tractor, characterized in that it is equipped with a device layouts of flexible irrigation pipelines from bobbins in the form of opposite mounted on the rear of the frame by means of brackets of cantilever hollow axes, each of which has a groove in the diametrical plane and a shaped nut on the threaded shank, disks, shaped sleeves between the disks and the elastic element, while the elastic element is mounted on the axis between the first disk and the bracket of the said axis, while the driven shaft for winding the flexible irrigation pipes into bobbins is hollow and mounted by means of bearing bearings and an arm on the rear of the frame, while on the driven shaft sequentially from the arm there is a driven V-belt pulley, an elastic element made in alternating In the case between the disks, shaped sleeves and a shaped nut on a threaded shank, the aforementioned driven pulley with a V-belt is connected to the drive pulley at the end of the intermediate shaft, and the V-belt tension pulley is mounted via an axis on a spring-loaded swing arm with a handle and a control pedal, the angular rotation of which is limited adjustable emphasis. 2. The device according to claim 1, characterized in that each disk is made in the form of a flat ring of chipboards or plastic materials and has in the center an axial hole with a diameter larger than the diameter of the hollow axis or shaft and a pin in the form of a rod mounted in the hole made in the diametrical plane of the disk with the diameter of the rod 30-40% less than the thickness of the disk and 3-4 times longer than the diameter of the axial hole, while the displacement of the pin in the diametrical hole is limited by clamps. 3. The device according to claim 1, characterized in that the shaped sleeve has radial grooves and is made in the form of corrugations, while the walls of the grooves and corrugations are paired with fillets, each corrugation is paired with a hollow shaft, and the outer surface of the corrugations forms a bobbin.

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