RU2038727C1 - Gang drill - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: drill has frame, supporting-drive wheels, carrier bar, double-disk colters with rods and springs, mechanism to adjust depth of colters, seed spouts, seed sowing mechanism shaft and agitator drives, seed box with seed sowing mechanisms in its bottom. Seed box has compartments made in form of paired parallel displaceable sides mated over outer contours with front and rear walls and cover of seed box. Each pair of sides is arranged for relative displacement and displacement along hopper on bushings fitted on strut frames whose ends are secured on side walls of seed box. Side walls have oval holes. Strut frames have screw tensioners. The latter have pairs of eccentric washers. Sealing cord is placed over perimeter of section side. Section sides have slot for fitting in agitator shaft and cover plate with seal made of elastoplastic material which provides hermetic sealing of joint. EFFECT: enlarged operating capabilities. 6 cl, 13 dwg

Description

 The invention relates to agricultural machinery, in particular to breeding seeders used for sowing breeding and rare new crops at breeding and seed-growing stations.

 A well-known seeder bunker comprising a housing with sowing units installed in its lower part and equipped with a removable partition providing a change in the ratio of the internal volume of the bunker.

 The disadvantage of this hopper is that an increase in the volume of the hopper, provided that the seed meters are filled with self-emptying seeds from the walls of the hopper, necessitates an increase in its height, which ultimately complicates the design, inconvenience of loading seeders with seeds and increases the complexity of maintenance.

 Seeders are also known, containing a large-volume hopper with an increased cross-sectional area, including a housing with sowing devices installed in its lower part, the hopper being pivotally mounted on the seeder frame and kinematically connected to it by means of a hydraulic cylinder.

 The disadvantage of these hoppers of these seeders is that the rational use of the entire volume of the hopper is ensured by tilting the entire housing with grain to the side of the sowing devices with the help of a hydraulic cylinder relative to its attachment point to the seeder frame, which consumes a significant amount of energy.

 A seeder hopper is also known, comprising a housing with sowing devices installed in its lower part, in which, in order to increase the use of the hopper volume, indentations are made in the spaces between the sowing devices, in which inflatable balloons made of elastic material are placed.

 The described hopper is not suitable for simultaneous sowing of various crops in clean parallel rows. Inflatable balloons are not durable and from the action of the sun, low and high temperatures are prone to the destruction of elastic material. In this bunker, it is impossible to sow rare, unique crops in the form of small seeds in their size and quantity, as well as when sowing new crops with small doses, for example, when sowing amaranth, a sowing rate of 100,300 g / ha is required.

 Known breeding seeder for sowing on breeding plots includes sowing machines, a cassette made of seed containers, tilted upside down, installed in the guide casing one above the other, and a tank ejector.

 The disadvantage of this seeder is that during sowing of small portions of seeds that do not fill the entire capacity of the cartridge, when the lower container is pushed out, the seeds do not fall along the axis installed in the lower part of the funnel guide casing (due to their small number), which causes uneven seeding . Also, when pushing the lower tank, especially when sowing small grass seeds, the seeds fall on the ejector and part of the seeds is carried out into the channel where the tanks are fed, and then onto the soil, which causes mixing of different types of seeds both when sowing one crop of different grades and when sowing multicomponent feed mixtures in clean rows, and hence the violation of the seeding rate and marriage of experimental data.

A breeding seeder is also known, which contains a sowing device, a cassette in the form of seed containers installed in a guide casing one above the other, seed containers tilted upside down, and a tank ejector, in which, in order to increase the uniformity of sowing of seeds and to prevent mixing in the soil of seeds different varieties of containers during ejection, the guide housing with a cassette installed obliquely to the vertical at an angle ^of 30 45, and the ejector is formed as a U-shaped bracket, wherein the working elements of the last time escheny outside the eruption of seeds and capacity of the cassette.

 This seeder is not suitable for the simultaneous sowing of cereals and legumes. In this seeder, it is impossible to sow seeds with low flowability (rump, hedgehog team, fescue, timothy, etc.).

 Known seeder breeding with variable gauge SN-16 P Engineering Plant experimental designs VIM, containing a frame, transmission mechanisms of the drive shaft of the sowing apparatus and tedders, seed box, coulter with double disc coulters, support-drive wheels, seed tubes, supporting legs, footboard and zagortachech. We see this selection seeder as a prototype.

 The disadvantage of this seeder is that it is impossible to sow it in one pass without mixing two-, three-, four-, six-, eight-, nine-, ten- and twelve-component feed mixtures in clean parallel rows. When sowing new crops with a small initial amount of seed, the latter are distributed along the bottom of the seed hopper and do not fill the bottoms of the sowing apparatus. This leads to disruption of the technological process of sowing new crops.

 SUMMARY OF THE INVENTION The seed box of the selection seeder is equipped with compartments made in the form of a set of paired parallel movable sidewalls, external contours mating with the front and rear walls and the cover of the seed box. Each pair of sidewalls is placed with the possibility of mutual and along the seed box bias on the bushings located on the truss, the ends of which are fixed on the sides of the seed box. The side walls of the seed box are provided with oval holes. Spreels are equipped with screw tensioners. Screw tensioners are equipped with pairs of eccentric washers. A seal cord is placed around the perimeter of the sidewall of the section. The sides of the section are provided with a groove for accommodating the agitator shaft and a cover plate with a sealing sealant made of elastic material.

 Industrial applicability. The selection seeder contains a number of standard and unified, commercially available units and parts. The latter include the support wheel and the drive wheel, sleeve-roller chains, connecting links, sprockets, sliding and rolling bearings, grease fittings, disc coulters, seed tubes, earthing machines, sowing machines, their bottoms and other details. New parts and assemblies can be made by stamping and machining from plastics and structural materials from sheet metal, rods and round products. The combination of known and new parts ensures the assembly of the units and mechanisms of the seeder and their normal functioning when performing the technological process of sowing breeding and multi-component feed crops.

 Scope: research organizations (NGOs, research institutes, IIAs), experimental and breeding stations, experimental and agricultural enterprises engaged in the cultivation of new varieties of crops, the search for new technologies for growing and cultivating fodder, industrial, grain and bread crops, and also a forage base for farms when they introduce into the crop rotation inconvenience, waste sites, saline fields, areas in forests, etc.

 In FIG. 1 shows a seeder breeding, side view; in FIG. 2 same side view; in FIG. 3, section AA in FIG. 2, a transverse section of the seed box when setting the seeder to a given seed rate; in FIG. 4 is a view along arrow B in FIG. 1, a seed box with compartments for sowing multicomponent feed mixtures, mainly legumes and small seeds; in FIG. 5 section BB in FIG. 4, the mutual connection of the side sections of the compartment; in FIG. 6 section GG in FIG. 4, placement of screw mechanisms on the sidewalls of one section; in FIG. 7 section DD in FIG. 4, mounting the sprengels on the right side wall of the seed box; in FIG. 8 section EE in FIG. 4 sprengel tension mechanism and its fastening on the left side wall of the seed box; in FIG. 9 section FJ in FIG. 2, a longitudinal section of a seed box with compartments for sowing cereal and hard-to-separate fodder crops; in FIG. 10 node I in FIG. 9, sealing the junction of the rotary tedder and the sidewall of the compartment; in FIG. 11 view 3 in FIG. 10; in FIG. 12 overlay of the sidewall of the hopper section, front view; in FIG. 13 seal of the joint of the rotating agitator and the sidewall of the compartment, front view.

 A seeder breeding (Fig. 1 and 2) consists of a frame 1, a hitch bracket for an automatic coupler 2, a left support wheel 3, a right support-drive wheel 4, thirteen double-disc coulters 5, a driving beam 6, rods 7, a mechanism 8 for adjusting the depth of the coulters 5 , front hinged support legs 9, rear support leg 10, footboard 11, shorting 12, seed tubes 13, seed box 14 with hinged cover 15. The left support wheel 3 and the right support-drive wheel 4 are equipped with screw mechanisms 16 for changing the gauge. An asterisk 17 for the sleeve-roller chain 18 is installed on the hub of the right support-drive wheel 4. On the rack 19 of the right support-drive wheel 4, an arm 20 with a tension roller 21 is fixed with welds. On the brackets 22 and 23 of the frame 1, the stop 24 is fixed to the sliding bearings with a longitudinal groove and with a fixed driven sprocket 26. An asterisk 27 is installed on the console part of the counter 24 to drive through the sleeve-roller chain 28 of the receiving shaft 29 of the seventy-two-speed gearbox 30. On the shaft 29 is installed lena driven sprocket 31, from which via a chain drive 32 receives the drive sprocket 33 via shaft 34 seeding apparatus 35. The shaft 36 tedder 37 (FIG. 3) receives a drive via the guitar 38 from the shaft 34 of the sowing apparatuses 35.

 A seed box 14 with a handle 40 of the hinged cover 15 is fixed on the frame 1 of the seeder for selection, on the brackets 39. The seed box 14 is metal, triangular in shape, formed by the front wall 41, the rear wall 42, the left sidewall 43 and the right sidewall 44. The hinged cover 15 of the box 14 is open and the closed position is held by spring latches 45. The rear wall 42 of the seed box 14 has sixteen rectangular openings 46 for seed output. The opening size of the hole 46 is controlled by the shutters 47. In the seed box 14, a tedder 37 can be installed, receiving rotation from the shaft 34 of the sowing apparatus 35 through two cylindrical nylon gears with an overrunning clutch of the guitar 38, located on the left side of the seed box 14. Against each outlet 46 to the seed box 14 are riveted seed boxes 48 sowing apparatus 35, made of sheet iron. Seed boxes 48 of the sowing apparatus 35 have movable plastic bottoms 49 located on the common shaft 50 of the guitar 38 and connected by safety springs 51 with inserts located inside the bottoms 49 and fixed by stoppers 53 in the angular groove of this shaft 50.

 Individual adjustment of each movable bottom 49 is carried out by screw 55, and general adjustment (setting a certain gap between the movable bottoms 49 and the seed coils of the devices 35) by the lever 56 of the guitar 38, which can be fixed in eight positions on the installed comb 57. Transfer the lever 56 from the previous position to the subsequent changes the gap by 2 mm. When cleaning the seed box 14 with this lever 56, the bottoms 49 are fully opened, while the sowing shaft 24 and the agitator 37 receive rotation from the gear, which serves as the clip of the freewheel clutch of the guitar 38.

 There is a special receiving tray 58 for collecting seeds when cleaning and installing the seeder for sowing, the seeds into which the flap valves 59 are guided. The seeder is equipped with plastic replaceable sowing coils 35 for sowing large, medium, small and very small seeds. When sowing small and very small seeds, part of the outlet 46 is blocked by a liner 60 (Fig. 4).

The seeding rate is set by changing the gear ratio from the support drive wheel 4 to the seed shaft 34 without changing the length of the working part of the sowing coils 35. Changing the gear ratio in the seventy-two-speed gearbox 30 by one number leads to a decrease or increase in the seeding rate of any crop by 5
Seed box 14 is provided with compartments 61 (Fig. 4), each of which is formed by a pair of parallel movable sidewalls 62 and 63, front wall 41 and rear wall 42 of seed box 14, and / or left sidewall 43 of seed box 14 with sidewall 63, front wall 41 and the rear wall 42, and / or between the sidewalls 63 and 62 of the other pairs of sidewalls of the adjacent sections 61, the front 41 and the rear 42 of the walls of the box 14. In the seed box 14 (Figs. 4, 5 and 6), sixteen sections are thus made. Each pair of sidewalls 62 and 63 of compartment 61 is placed on three threaded bushings 64 with the possibility of mutual displacement along the bushings 64. Each sidewall 62 (63) of section 61 on the threaded bush 64 is fixed with nuts 65 and a lock nut 66. Threaded bushings 64 are placed on the trusses 67, and their position is fixed by cotter pins 68 in the diametrical holes of the truss 67. The ends of the truss 67 are equipped with threaded shanks 68 (Figs. 4, 7 and 8). The left sidewall 43 (Fig. 7) is provided with round holes for accommodating the threaded shanks 68 of the truss 67. The position of the threaded shank 68 on the sidewall 43 is fixed with a nut 65 and a locknut 66 through the flat and spring washers. The right sidewall 44 of the seed box 14 is made with additional oval cuts 69 to accommodate the screw tensioning devices 70 (Fig. 8). Each tensioning device 70 contains a threaded sleeve, a pair of eccentric washers 71 and a nut 72. The sides 62 and 63 of the sections 61 are mated with the front wall 41, the rear wall 42 and the hinged cover 15 of the seed box 14 (Fig. 6). In the grooves 73 of the flanging 74 along the perimeter of the sidewalls 62 and 63, a seal cord 75 is placed (Figs. 5 and 17).

 When sowing low-flowing crops (for example, seeds of cereal grasses), a agitator 37 is installed in the seed box 14 to eliminate the arches (Figs. 9, 10, and 11). To do this, the lower ends of the sidewalls 62 and 63 of the sections 61 are made with U-shaped slots 76. To each sidewall with bolts 77, through the washers 78 and nuts 79, pads 80 are triangular in shape with a U-shaped slot in the upper part (Fig. 12), and the gap between the shaft 36 of the agitator 37 is sealed with a sealant 81 of elastic material (Fig. 13).

 A seeder breeding when sowing cereals, legumes and small seeded crops operates as follows.

 Depending on the availability of seeds, row spacing and consumption rate, the weight and volume of seeds per one metering unit 35 are calculated. After that, the left 62 and right 63 sidewalls of each section 61 are mounted on the threaded bushings 64. Moreover, the left sidewall 62 is fixed firmly with a nut 65 to the stop of the threaded sleeve 64, and the right sidewall 63, taking into account the width of the sections, between the nut 65 and the locknut 66. After that, each pair of sidewalls 62 and 63 on the threaded sleeve 64 is displaced along the bottom of the seed box 14 along the trusses 67 and the sections are mounted symmetrically rectangular m of holes 46 of the rear wall 42. The position of the threaded bushings 64 on the rails 67 is secured with cotter pins 68 and a selection of washers. After placing each pair of sidewalls 62 and 63 on the truss 67, check and lay in the grooves 73 of the flanging 74 the seal cord 75. In the round holes of the left sidewall 43 of the seed box 14, the threaded shanks 68 with nuts 65 and the counter nuts 66 of the truss 67 fix their position along the height of the seed box 14 On the right side 44 in the oval holes 69, together with the trusses 67, threaded tensioners 70 are moved downward. Next, nuts 72 fix the position of the tensioners 70 on the right side 44, with the eccentric washers 71 on the threaded tensioners The properties are rotated in such a way as to close the oval holes 69 in the sidewall 44 and thereby eliminate seed loss from the right extreme section 61. By rotating the locknuts 66 on the threaded ends 68 of the truss 67, the flanges 74 are snug against the front 41 and back 42 walls of the seed box 14. After of this, the seeds of the sown culture, for example, Eastern goatskin, are poured into the necessary section 61. When sowing amaranth and alfalfa, the minimum distance between the sidewalls 62 and 63 is 5 mm, and the goatskin and rapeseed are 20 mm.

The rotation of the support drive wheel 4 or a special handle that is worn on the square shaft of the counter drive shaft 24 (Fig. 2) drives the shaft 34 of the sowing devices 35 with a corresponding change in the gear ratios in the gearbox 30, the gaps between the bottoms 49 and the sowing devices 35 lever 56, as well as individual adjustment of the screw 55 achieve the desired seeding rate, and deviations from the seeding rate between the individual sowing devices should not exceed 1
A selective seeder is hung on a tractor by means of a bracket 2 of a hitch of an automatic coupler. The tractor hydraulic system lowers the seeder in the field to the edge of the plot. By scrolling the support drive wheel 4, make sure that all the seed boxes 48 of the sowing apparatus 35 were filled with seeds and they were thrown onto the hinged tray 58. After that, the tray 58 was put into working position, removing the seeds from it. At a given gear, the tractor moves along the milestones, making the first working stroke. The drive from the support drive wheel 4 is transmitted to the counter-drive shaft 24, and from its console sprocket 27 to the sprocket 28 of the reception shaft 29 of the gearbox 30. Further, from the sprocket 31 on the output shaft 29 of the gearbox 30 with rotation, the sowing shaft 34 receives rotation apparatuses 35. Seeds, filled in section 61 of the seed box 14, through the rectangular holes 46 take sowing apparatus 35 and send them to the vas deferens 13. Openers 5 open the grooves, put seeds in them and close the seeds with moist soil, crumbling from the walls of the grooves and additionally fed from the surface of the field by shorting 12.

 The close arrangement of the sidewalls 62 and 63 of each section 61 ensures a constant filling of the seed box 48 of any sowing apparatus 35 and this ensures the stability of sowing seeds even with their minimal number. Sidewalls 62 and 63 of section 61 are provided with level lines, which ensures their uniform filling, seeding control and the completeness of emptying the seed box at the end of sowing. Full sealing with sidewalls 62 and 63 of section 61 excludes mixing of different varieties and types of sown crops in clean parallel rows, while obtaining both pure experience and crops of multicomponent crops.

 A seeder selective when sowing cereal fodder crops to obtain high protein feed works as follows.

 In the seed box 14, the drive shaft 36 of the agitator 37 and the sidewalls 61 and 62 with U-shaped slots 76 are installed, which are further supplemented by plates 80 and seals 81. The sides 62 and 63 with threaded bushings 64 on the trusses 67 are fixed on the side walls 43 and 44 of the seed box 14 in the same way as when sowing legumes and small seeds.

 When moving the seeder after the tractor, from the support drive wheel 4, the shaft 34 of the sowing apparatus 35 and the shaft 36 of the agitator 37 receives the drive through the transmission mechanism. The agitator 37 in each compartment 61 breaks the arches and delivers hard-to-separate seeds of cereal crops to the rectangular holes 46 of the seed box 14. The seeds are captured by the pins of the sowing apparatus 35 and sent to the seed tubes 13. The disc coulters 5 open the grooves on the bed of which the seeds are laid. Furrows showered with soil and are completely covered by zagrotachami 12.

 When sowing multicomponent feed mixtures, for example, alfalfa + hedgehog, combined + fescue + clover, in a combination of cereals and legumes the agitator 37 in the seed box 14 is left unchanged. When sowing cereal crops (hedgehog team, fescue, rump, etc.), the minimum allowable distance between the sidewalls 62 and 63 in section 61 should be at least 50 mm. For this (Fig. 5), the nut 65 is turned away in the direction of the left sidewall 62, and the lock nut 66 is screwed onto the threaded sleeve 64, achieving a predetermined distance between them.

Claims (6)

 1. A SELECTION SEEDER containing a frame, support wheels, tow bar, double-disc coulters with a rod and springs mounted on a hollow square shaft with a mechanism for changing the coulter stroke depth, seed tubes, seed box with sowing devices installed in its lower part, drive mechanism the shaft of the sowing apparatus and a tedder located in the seed box, characterized in that the seed box has compartments made in the form of paired parallel sidewalls, the external contours mating with the front and rear walls and the seed box and a cover, each pair of sidewalls is installed in the seed box and with the possibility of mutual longitudinal displacement by Sprengel, the ends of which are fixed to the side walls of the seed box, and located on Sprengel bushings.  2. The seeder according to claim 1, characterized in that oval holes are made in the side walls of the seed box.  3. The seeder according to claim 1, characterized in that the spreader is equipped with screw tensioning devices.  4. The seeder according to claims 1 and 3, characterized in that the screw tensioning devices are equipped with pairs of eccentric washers.  5. The seeder according to claim 1, characterized in that a seal cord is placed along the perimeter of the sides of each compartment.  6. The seeder according to claim 1, characterized in that in the sides of the compartments a U-shaped groove is made to accommodate the agitator shaft, while the sides are provided with a cover with a sealing sealant made of elastic material.

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