RU2186471C1 - Tillage tool - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: tillage tool has two rows of needle disk batteries, bar of round, square or hexahedral section, spring tooth harrow and conical or worm-type reducer. All mentioned parts of tillage tool are mounted on frame. Input shaft of conical or worm-type reducer is connected to independent or synchronous tractor power shaft through cardan shaft. Replaceable sprocket mounted on reducer output shaft is connected through chain to additional replaceable sprocket positioned on front intermediate shaft. Safety coupling is mounted on reducer output shaft. Safety coupling is also mounted on shaft in upper part of bar beam. Number of replaceable sprocket teeth is selected depending on type of tractor power shaft drive and reducer transmission ratio, so ratio of progressive motion speed of tillage tool and circumferential speed of needle disk batteries for front batteries is 0.76-1.18 and for rear disk batteries is 0.62-1.38. Ratio of progressive motion speed of tillage tool and circumferential speed of bar beam must be within the range of 0.74-0.78. Tillage tool of such construction provides surface cultivation of soil, with plant remains being left on soil surface, and reduces cost per piece of agricultural product by imparting small-grain structure to soil surface layer and, as a result, creates conditions for moisture accumulation and retention. EFFECT: simplified construction and increased crop yield. 2 dwg

Description

 The invention relates to agricultural machinery, in particular to devices for surface tillage with the preservation of plant debris on its surface.

 Known combined tillage machine containing sequentially mounted on the frame flat-cutting legs, disks with knives, chisel loosening legs, rotary working body and roller (see SU 1148577, A 01 B 49/02, 1985).

 A disadvantage of the known device is poor-quality combing of weeds from the treated layer, reducing the protection of the field surface from wind erosion, clogging of the racks of paws with plant residues.

 The closest analogue of the present invention is a rotary tillage implement containing a frame with two rows of batteries of needle discs, chain drives, cardan shafts, brackets and beds with square, round or hexagonal section, spring harrows (see SU 2158066, A) 01 B 21/04, 2000).

 The disadvantage of this device is that the batteries of the needle discs receive rotation only due to the adhesion of their teeth to the soil, and the torque to the rod is transmitted through interchangeable sprockets and a chain from the shaft of the battery of the needle discs. This leads to an increase in the energy intensity of the soil cultivation process, the lack of technological capabilities and device adjustments when working in various operating conditions. In addition, the device’s transmission systems do not have overload protection.

 The objective of the invention is to expand the technological capabilities of the device, reduce energy consumption for soil cultivation, create conditions for moisture accumulation and moisture conservation, additional conservation of plant debris on the surface of the field, intensively combing weed vegetation on the surface of the field, planting weed seeds, larvae and pupae of pests in the soil, soil compaction at a depth of subsequent planting of seeds of agricultural crops, protection of working bodies and mechanisms from overloads.

 The technical result - improving the quality of surface tillage, reducing energy consumption, creating conditions for moisture accumulation and moisture conservation, maximizing the conservation of standing, inclined and lying stubble on the surface of the field to protect it from wind erosion, intensive combing of weeds, incorporation of weed seeds, larvae and pupae of pests, soil compaction at a depth of subsequent planting of seeds of cultivated plants, protection of working bodies and mechanisms from overloads.

 This is achieved by the fact that in a device containing two rows successively mounted on a frame with cardan shafts, interchangeable sprockets and chain drives of needle-disk batteries installed behind the needle-disk batteries on the arms of the ridges with a square, hexagonal or round bar and equalizing spring harrows on the frame an additional bevel or worm gear is installed, the input shaft of which is connected by a cardan shaft to the tractor PTO shaft, which has an independent or synchronous drive, a removable sprocket and a safety clutch are installed on the output shaft of the gearbox. A replaceable sprocket is also additionally installed on the front intermediate shaft shaft, and a safety clutch on the upper shaft of the hollow ridge.

 By selecting the number of teeth of interchangeable sprockets, the ratio of the translational speed of the unit to the peripheral speed of the disks of the batteries of the needle disks for the front batteries is set in the range from 0.76 to 1.18 and for the rear in the range from 0.62 to 1.38, and the ratio of the translational speed unit to the peripheral speed of the rod in the range from 0.74 to 0.78.

 In FIG. 1 shows a diagram of a device, a top view; figure 2 - diagram of the hinge on the frame of the hollow ridge with the drive mechanism of the rod and the safety clutch.

 The tillage implement contains a frame 1 with support wheels 2 and a connecting device (not shown), on which there are installed two rows of batteries of needle discs: the left front 3, the right front 4, the left rear 5 and the right rear 6. Central frame is installed on the frame 1 7, on which a bevel or worm gearbox 8 is fixed, the input shaft of which is connected by an universal joint shaft 9 to an independent or synchronous tractor power take-off shaft (not shown). A replaceable sprocket 10 and a safety clutch are installed on the output shaft of the gearbox 8. On the frame 1, there is a front supporting platform 12, on which a front intermediate shaft 13 with splined ends is installed in the bearings. The shaft 13 is connected by the left front propeller shaft 14 to the shaft of the left front battery of the needle discs 3 and the right front propeller shaft 15 with the shaft of the right front battery of the needle discs 4. On the frame 1 there is also a rear bearing pad 16 on which the rear intermediate shaft 17 is mounted in the bearings with splined ends. The shaft 17 is connected by the left rear propeller shaft 18 with the shaft of the left rear battery of the needle discs 5 and the right rear propeller shaft 19 with the shaft of the right rear battery of the needle discs 6. On the shaft 13 are interchangeable sprockets 20 and 21, and on the shaft 17 are interchangeable sprockets 22 and 23. The front support platform 12 and the rear support platform 16 can be moved on the frame 1 along the longitudinal axis of the unit and rigidly fixed. The interchangeable sprocket 10 is connected by chain 24 to the interchangeable sprocket 21, the interchangeable sprocket 20 is connected by chain 25 to the interchangeable sprocket 22. Chains 24 and 25 have tensioners (not shown). On the frame 1, the left 26 and right 27 mounting brackets of the left 28 and right 29 rails 30 of the boom 30 are pivotally fixed. The left 26 and right 27 brackets have openings for moving them on the frame 1 in height. On the frame 1, brackets 31 are installed, which are the lower supports of the springs 32. The upper supports of the springs 32 are installed at the upper ends of the brackets 26 and 27 and have screw mechanisms for adjusting the compression of the springs. A cylindrical gear 33 is fixed on the frame 1, on the input (leading) shaft of which a removable sprocket 34 is mounted, and on the output (driven) shaft - a replaceable sprocket 35. The sprockets 23 and 34 are connected by a chain 36 to a tensioner (not shown). On the gear case 33, the bracket 37 for securing the chain 38 is pivotally fixed. The hollow chain 38 is a chain drive casing with an integrated mechanism for damping chain oscillations. In the upper part of the ridge 38, a shaft 39 is mounted in bearings, on which a replaceable sprocket 40 is fixed, and an asterisk with a constant number of teeth is mounted inside the ridge. In the lower part of the ridge 38, an asterisk with a constant number of teeth is installed on the rod 30. The rod 30 has a square, round or hexagonal cross-section, it rotates in the lower bearings of the hollow bed 38 and the lower bearings of the beds 28 and 29. A safety clutch 41 is installed on the shaft 39 in the upper part of the bed 38, and interchangeable sprockets 35 and 40 are connected by a chain 42. Torque the moment to the rod 30 is transmitted from an independent or synchronous tractor power take-off shaft (not shown) through a cardan shaft 9, a bevel or worm gear 8, a replaceable sprocket 10, chain 24, a replaceable sprocket 21, a replaceable sprocket 20, a chain 25, a replaceable sprocket 22, cm a sprocket 23, chain 36, a sprocket 34, a cylindrical gear 33, a sprocket 35, a chain 42, a sprocket 40 and a chain gear located inside the hollow chain 38. Brackets 43 are mounted on ridges 28, 29, and 38, on which spring harrows 44 are mounted. The installation of spring harrows in height is regulated by rearranging the brackets 43 along the bodies 28, 29, and 38.

 The device operates as follows.

 When preparing the unit for operation, depending on the state of the soil, species and condition of weeds and plant debris on the field surface, as well as the required processing depth, the angle of attack of the batteries of needle discs 3, 4, 5, 6 is set at the adjustment platform. Batteries of the front needle discs 3 and 4 should have the same angle of attack, the batteries of the rear needle discs 5 and 6 should also have the same angle of attack, while the angles of attack of the front and rear batteries of the needle discs may be different. The batteries of the needle disks can be installed in pairs in the active position due to the fact that the needles of their disks are bent in the direction of movement of the device or in the passive position due to the fact that the needles of their disks are bent in the opposite direction of movement.

 The needle discs of the front and rear batteries during the operation of the unit perform both translational and rotational movements. To ensure a wide range of technological adjustments, the design of the mechanisms of the device makes it possible, when using an independent or synchronous drive of the tractor power take-off shaft, to establish various ratios of the translational speed of the unit to the peripheral speed of the battery disks. For front needle-disk batteries, this ratio should be between 0.76 and 1.18, and for rear needle-disk batteries, the ratio should be between 0.62 and 1.38. The necessary ratios of the translational speed of the unit to the peripheral speed of the battery disks are selected depending on the specified depth of cultivation, characteristics, type and mechanical composition of the soil, the condition of weeds and crop residues. When setting up the unit for use in specific production conditions, depending on the type of tractor power take-off drive, the ratio of the translational speed of the unit to the peripheral speed of the front batteries of the needle discs, as well as the ratio of the translational speed of the unit to the peripheral speed of the rear batteries of the needle disks, is set by the selection of interchangeable sprockets 10 , 21, 20 and 22 with the appropriate number of teeth.

 The front bearing pad 12 and the rear bearing pad 16 with bearings, shafts 13 and 17 are moved forward or backward on the frame 1 and are fixed in positions at which the optimal kinematics of the torque transmission mechanisms is ensured. The shaft 13 is connected by the left front propeller shaft 14 to the shaft of the left front battery of the needle disks 3 and the right front propeller shaft 15 with the shaft of the right front battery of the needle disks 4. The shaft 17 is connected by the left rear propeller shaft 18 with the shaft of the left rear battery of the needle disks 5 and the right rear the propeller shaft 19 with the shaft of the right rear battery of the needle discs 6. Chain 24 is mounted on sprockets 10 and 21, chain 25 is mounted on sprockets 20 and 22. The tension of chains 24 and 25 is provided by tensioning devices.

 On the frame 1, brackets 26 and 27 and springs 32 are installed in height with springs 32 with mechanisms for controlling their compression. A gearbox 33 is fixed on the frame 1, a bracket 37 is fixed to the casing of the gearbox. On the brackets 26, 27 and 37, beds 28, 29 and 38 are installed with a rod 30 installed in their bearings. The number of teeth of the sprocket wheels 35 and 40 is selected taking into account the gear ratio of the gearbox so that the ratio of the translational speed of the unit to the peripheral speed of the rod is in the range of 0.74-0.78. Chain 42 is mounted on sprockets 35 and 40, its tension is provided by a tensioning device. Safety clutches 11 and 41 are mounted on shafts 11 and 39 and are configured to protect mechanisms during overloads.

 On the beds 28, 29, 38 brackets 43 and spring harrows 44 are installed and height-adjustable.

 During surface treatment of the stubble field in autumn, its main task is to loosen the surface soil layer and give it a fine-grained structure and a certain density, create conditions for moisture accumulation and moisture conservation, comb out the germinated weeds to the surface and destroy the larvae and pupae of the seedlings that crumble in the soil and showered seeds of weed plants and fall of cultivated plants, maximum preservation of standing, inclined and lying stubble on the surface of the field to protect the soil from wind and water erosion and. In this case, the disks of the front batteries 3 and 4 are mounted at a large angle of attack in the active position, and the ratio of the translational speed of the unit to the peripheral speed of the disks should be in the range from 0.82 to 0.88. The disks of the rear batteries 5 and 6 are installed at the same angle of attack in the passive position, and the ratio of the translational speed of the unit to the peripheral speed of the disks should be in the range from 0.94 to 0.96. The rod 30 of the device should rotate in the direction opposite to the translational movement of the unit, while the ratio of the translational speed of the unit to the peripheral speed of the rod should be in the range from 0.74 to 0.78.

 With this setting of the unit, the front batteries of the needle discs intensively loosen the upper soil layer, which ensures the creation of a fine-grained structure of the surface layer, the destruction of weeds, and the planting of seeds, pupae and larvae of pests in the soil. The rear batteries of the needle discs in a passive position intensely compact the top layer of the soil, weed the weed seeds and the carrion of cultivated plants, larvae and pupa of the pests into the soil. The rotating rod brings plant debris to the surface and topsoil, while weeds fall into adverse conditions, and the stubble protects the surface from wind erosion. The trails of the boom ridges are sealed with spring harrows 44.

 In early spring tillage, its main task is to loosen the surface layer in order to create conditions for moisture accumulation and moisture conservation, as well as planting crumbled weed seeds, crop plants, pupae and pest larvae into the soil. In this case, the disks of the front batteries 3 and 4 are installed at an average or large angle of attack in the active position, and the ratio of the translational speed of the unit to the peripheral speed of the disks should be in the range 1.12-1.18. The disks of the rear batteries 5 and 6 are installed at the same angle of attack in the passive position, and the ratio of the translational speed of the unit to the peripheral speed of the disks should be in the range of 0.94-0.96. The rod 30 of the device on waterlogged soils is transferred to the transport position or removed from the frame 1 of the device along with the harrows 44.

 With this setting of the unit in operation, the front batteries of the needle discs loosen the upper soil layer, weeds are combed to the surface of the field, create conditions for moisture accumulation and moisture conservation, favorable conditions for germination of weed seeds, and the larvae and pupae of the pests are embedded in the soil. The rear batteries of the needle discs in a passive position additionally break up and grind the soil aggregates with the creation of a fine-grained structure and a surface layer of a certain density, “weed” the seeds of weeds and the litter of cultivated plants, larvae and pupae of pests.

 With repeated soil cultivation in a steam field, it is necessary to clean the fields of weeds and pests as much as possible, provide conditions for moisture accumulation and moisture conservation, create a fine-grained surface layer of a certain density, ensure a high percentage of standing, inclined and lying stubble to protect the field surface from wind erosion. When setting the unit depending on the condition of the soil, stubble and plants, the needle disks of the front batteries and the needle disks of the rear batteries can be installed in pairs in the active or passive position, the batteries are adjusted in pairs for a small, medium or large angle of attack, the ratio of the translational speed of the unit to peripheral speed drives is set smaller, equal to or greater than one. In all cases, when treating the surface of a field with a dry, continuous soil crust, the needles of the front batteries of the needle discs are set to a passive position with the ratio of the translational speed of the unit to the peripheral speed of the discs ranging from 0.82 to 0.88.

 Seedlings cultivation in the spring should be carried out with the aim of destroying the soil crust, creating favorable conditions for the growth and development of cultivated plants. In these cases, the needle of the battery of the needle discs are mounted predominantly in the passive position, and the battery at the minimum angle of attack. The ratio of the translational speed of the unit and the peripheral speed of the disks should be close to unity. The bar and harrows of the device are transferred to a permanent transport position or removed from the frame.

 When treating fields heavily clogged with root weeds, the front and rear batteries of the needle discs are set to the minimum angle of attack with the teeth of the discs in the active position. The ratio of the translational speed of the unit to the peripheral speeds of the discs of the front and rear batteries should be respectively close to the values of 0.76 and 0.62. The rod of the device must rotate with a peripheral speed that is maximum exceeding the translational speed of the unit. The mowing harrows are removed in cases of processing weedy fields.

 This setting of the unit allows you to intensively comb out the weeds on the surface of the field and free their root system from the soil.

 At the pre-sowing preparation of the soil, along with the implementation of the unit of the above operations, the compaction of the seed bed is of great importance, which is ensured by the correct selection of the cross section of the rod, setting its peripheral speed and depth of travel.

 When encountering obstacles, the rod 30 is deepened and the springs 32 are compressed. Together with the bar, spring harrows 44 are also deepened.

 Setting up the unit at the adjustment site should be considered as preliminary. The final setup of the device is carried out in the field, taking into account the specific tasks of soil cultivation and the operating conditions of the unit.

 The transmission of torque from the engine through an independent or synchronous tractor power take-off shaft to the needle disk batteries and the boom in all cases provides a reduction in the energy consumption of the soil cultivation process, and it allows significantly expanding the technological adjustments of the working bodies of the unit.

 Tilling the soil with giving the surface layer a fine-grained structure and a certain density to create conditions of moisture accumulation and moisture conservation, combing out the germinated weeds onto the field surface and sowing weed seeds, larvae and pupae into the soil, maximizing the standing, inclined and lying on the field surface stubble to protect the field from wind erosion provides optimal conditions for the growth and development of cultivated plants, allows you to get a significant increase ix productivity and reduce unit costs per unit of agricultural production.

Claims (1)

 A tillage implement containing a frame, two rows of needle-disk batteries sequentially mounted on it, brackets and beds with a square, round or hexagonal bar, spring harrows, front and rear intermediate shafts, cardan shafts, chain drives with interchangeable sprockets, characterized in that an bevel or worm gearbox is additionally installed on the frame, the input (drive) shaft of the gearbox is connected by a cardan shaft to an independent or synchronous tractor power take-off shaft, on the output (driven m) a replaceable sprocket is installed on the gearbox shaft, an additional interchangeable sprocket is installed on the front intermediate shaft, while the selection of the number of teeth of the interchangeable sprockets sets the ratio of the translational speed of the unit to the peripheral speed of the needle disc batteries for the front batteries in the range from 0.76 to 1.18 and for the rear, in the range from 0.62 to 1.38, the ratio of the translational speed of the unit to the peripheral speed of the rod is in the range from 0.74 to 0.78, and on the output shaft of the gearbox and the shaft of the hollow ridge of the headquarters safety couplings are installed.

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