RU2762212C1 - Comb-like feeder-cultivator - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. The comb-like feeder -ultivator contains a load-bearing frame (1) with a hitch (9), support wheels (11), fertilizing units, comb-forming covering units (31). On the front transverse beam of the frame (1) of the hitch (9), eyelets with fixing bolts are made for fixing and adjusting the height of the feeding coulters (19) connected to the fertilizing units. On the longitudinal beams (23) of the frame (1) of the hitch (9), eyelets (24) with fixing bolts (25) are made for fixing and adjusting the height of the earthing blades (26). Tanks (32) with pumps (36), pressure regulators (38) and pipelines (40, 42, 43, 45) are installed on the supporting frame (1), at the ends of which nozzles (44) are installed for differentiated application of liquid mineral or organic fertilizers and plant protection products, which are installed, respectively, on feeding coulters (19) and earthing blades (26).

EFFECT: increase in the versatility of the feeder-cultivator is provided.

5 cl, 6 dwg

Description

The invention relates to the field of agriculture, namely to the field of agricultural engineering, in particular to cultivators for the cultivation of row crops, for example, potatoes.

Known cultivator hiller-bed former (Patent RU No. 153385, IPC A01B 33/06, 2015), which includes a bearing bar with a hinge, support wheels and working sections, each of which is connected to the bearing bar using a four-link hinge mechanism, has a gauge wheel and a beam for fastening the working bodies, on which a universal duckfoot share is fixed in front with a grip of 150-220 mm, and a frame with comb-forming spherical sealing discs with a diameter of 420-450 mm of a serial mounted potato planter is hinged at the rear of the duckfoot on the beam on a square bracket which is fixed on a U-shaped bracket rigidly fixed to the supporting bar of the cultivator-ridger-former.

The disadvantage of this device is that in the process of pre-planting loosening of the center of the row and cutting of ridges, the possibility of introducing the main dose of mineral fertilizers, as well as feeding the plants during hilling is not provided.

Known combined unit for autumn soil cultivation and organic fertilization (Patent RU No. 201448, IPC A01B 13/00, A01B 49/06, 2020), containing a frame on which a tillage tool, hillers and a roller are mounted, hingedly attached to the frame , a soil-cultivating tool is installed on the frame, made in the form of a reversible loosening paw, rigidly fixed on the rack, with the possibility of adjusting its height, behind it, with the possibility of height adjustment, a combined working body is installed, on the rack of which a loosening chisel-shaped share is rigidly fixed, as well as a hilling the body, installed with the possibility of adjusting the latter in the height of the rack, behind it on the frame is hingedly fixed a bar profile roller. On a rack with a loosening reversible paw, a blade is installed with the possibility of adjusting it along the height of the rack and rigid attachment relative to it. A hopper for organic fertilizers is rigidly fixed to the frame behind the loosening paw, while a pneumatic sowing device with a distribution system is rigidly attached to the frame behind the loosening reversible paw with a hiller, the deflector of which is located above the bar roller in front of the rotation axis.

The disadvantage of this device is that it is intended only for the autumn pre-planting one-way tillage, in addition, the design of the device does not provide for the possibility of applying organic and mineral fertilizers in liquid form. Also, the disadvantages of this device include the lack of the possibility of differentiated fertilization.

The closest in technical essence to the invention is a belt cultivator-fertilizer ridge former (Patent RU No. 190897, IPC A01B 49/06, A01B 33/02, A01B 13/02, 2019), including a supporting frame with a hitch, support wheels, a gearbox driven by the tractor PTO shaft, fertilizer dispensers driven by the wheels of the device, comb-formers with push rods, casings of cutter drums, working cutter drums with drive shafts, and on the drive shaft of each cutter drum there are rigidly fixed sequentially flat disc knives with a diameter of D = 350 mm and four-shank rippers, with each milling drum located in the center of the future row of potato tubers and loosening it with a 360 mm wide ribbon with 750 mm row spacing to a depth of up to 10 cm, into which the fertilizer distributors locally apply the required dose of mineral fertilizers, and the belt itself is closed with ridge-formers with push rods, in addition, the soil cultivation depth is set I within the range of 5 to 10 cm by moving and fixing the support wheel rod in the guide bracket.

The disadvantage of this device is that it can only be used during pre-planting soil cultivation and cannot be used in the summer for hilling and feeding potatoes, differentiated fertilization is also not provided and there is no possibility of applying fertilizers and protective-stimulating drugs in liquid form.

The technical objective of the invention is to increase the versatility of the cultivator-fertilizer with the possibility of carrying out pre-planting soil cultivation for potatoes, caring for potato plants, differentiated application of solid mineral and liquid fertilizers.

The technical problem is achieved by the fact that the ridge-forming cultivator-feeder, containing a supporting frame with a hitch, support wheels, fertilizer dispensers and comb-formers, according to the invention, on the front transverse beam of the hitch frame there are lugs with fixing bolts for fastening and adjusting the height of the fertilizing openers , and on the longitudinal beams of the hitch frame there are lugs with fixing bolts for fastening and adjusting the height of the hilling paws, on the supporting frame there are containers with pumps, pressure regulators and pipelines, at the ends of which nozzles are installed for the differentiated application of liquid fertilizers and plant protection products. In addition, it is equipped with gate valves connected through a common rail with an actuator; the lower part of the fertilizer dispensers is made with the possibility of attaching the cone distributors to one or two pipelines; the front transverse beam of the hitch frame is made with the possibility of attaching four or eight feed openers; nozzles for applying liquid mineral or organic fertilizers are fixed on the fertilizing openers; nozzles are fixed on the hilling paws for introducing plant protection products into the aisles; ridge-formers are installed in the rear part of the hitch frame through a linkage system and a shock absorber with the possibility of their dismantling during inter-row soil cultivation.

The invention is illustrated by drawings.

FIG. 1 shows a general view of the ridge-forming cultivator-feeding; figure 2 shows a ridge-forming cultivator-fertilizer for carrying out pre-planting soil cultivation, side view; figure 3 shows a ridge-forming cultivator-fertilizer for carrying out pre-planting soil cultivation, front view; Fig. 4 shows a general view of a ridge-forming cultivator-fertilizer for carrying out inter-row soil cultivation; figure 5 shows a ridge-forming cultivator-fertilizer for inter-row tillage, side view; Fig. 6 shows a ridge-forming cultivator-fertilizer for carrying out inter-row tillage, front view.

The ridge-forming cultivator-feeder contains a frame 1, with a hopper 2 for solid mineral fertilizers installed on it, having fertilizer dispensers 3 with holes 4 in the lower part, equipped with slide gates 5, connected to an actuator 6, through a common rail 7, the actuator, in turn, is connected with an on-board computer (not shown in the figure). The lower part of the fertilizer dispensers 3 has the ability to attach the cone distributors 8 (for one or two pipelines). On the frame 1, a hinge plate 9 is hinged, consisting of a frame 10 with support wheels 11 fixed on it, while for the possibility of adjusting them in height, the fastening brackets 12 have holes 13, and on the frame 10 there are lugs 14 with a fixing bolt 15. The frame 10 has on front transverse beam 16 lugs 17 with a fixing bolt 18, designed for fastening and adjusting the height of the fertilizing openers 19, which have holes 21 on the rack 20. To the fertilizing openers 19 from the cone distributors 8, the feed lines 22 are suitable. Also, the frame 10 has on the longitudinal beams 23 lugs 24 with fixing bolts 25, intended for fastening and adjusting the height of the tillering feet 26, which in turn have holes 27 located on the fastening posts 28. In the rear part of the frame 10, through a system of rods 29 and a shock absorber 30, there are ridge-formers 31 installed. To apply liquid fertilizers and plant protection products, containers 32 and 33 are installed on the frame 1, connected to each other in the lower part by a pipeline 34 through a valve 35. Containers 32 and 33 are equipped with pumps 36 and 37 and pressure regulators 38 and 39, which are also connected to the on-board computer. From the pressure regulator 38, a pipeline 40 is laid to a switching tee 41, from which pipelines 42 and 43 are laid to nozzles 44 mounted on the fertilizing coulters 19. In turn, a pipeline 45 is laid from the pressure regulator 39 to the nozzles 46 installed in the rear part of the hilling tines 26. For fastening to the tractor frame 1 is equipped with a fastening 47 made in the triangle type.

The proposed ridge-forming cultivator-feeder works as follows.

Example 1. When preplanting the soil and applying the main dose of fertilizers. Before starting work, the equipment is set up. The task map is loaded into the on-board computer, the support wheels 11 are set on the hitch 9 at the required height, after which, according to FIG. 1, 2 and 3, the main working bodies are installed at the required height. On the front transverse beam 16, four fertilizing openers 19 are installed, which in turn are connected to the system of fertilizer lines 22 and the pipeline 42, while the switching tee 41 is set to the appropriate position. On the longitudinal beams 23 at the required height with the help of fixing bolts 25, the hilling paws 26 are fixed, and in the rear part of the frame to the hinge 10 through the system of rods 29 and the shock absorber 30 at the required height, ridge-formers are installed. After that, the hopper 2 is loaded with solid mineral fertilizers, and the containers 32 and 33 are filled with liquid humic fertilizers, while the tap 35 is moved to the position openly creating communicating vessels.

After carrying out the preparatory operations, the ridge-forming cultivator-fertilizer coupled with a tractor leaves the field and starts working according to the loaded task map. When the unit moves, the fertilizing openers 19 cut the soil layer, forming furrows into which fertilizers enter. To do this, according to the map of tasks from the on-board computer, a signal is sent to the actuator 6, which, through a common rail 7, sets in motion the gate valves 5, thereby opening or closing them to the required amount, adjusting the rate of application of solid mineral fertilizers that enter the formed furrows through the conical distributors 8 and pipelines 22, at the same time a signal is sent from the on-board computer to pump 36 and pressure regulator 38, after receiving the signal, pump 36 starts supplying liquid humic fertilizers to the pressure regulator 38, which in turn, according to the received signal, sets the required operating pressure and rate application, after which the liquid humic fertilizers are supplied through the pipeline 40 to the switching tee 41 and then through the pipeline 42 they are fed to the nozzles 46, where they are sprayed into the formed furrows. Further, the hilling paws 26 cut and lift the soil layer, followed by filling the furrows with fertilizer, and the ridge-formers perform the final formation of the ridge.

With this treatment, it is possible to separately apply both solid mineral fertilizers and liquid mineral or organic fertilizers, as described above.

Example 2. With inter-row soil cultivation with top dressing. Before starting work, the equipment is set up. The task map is loaded into the on-board computer, the support wheels 11 are set on the hitch 9 at the required height, after which, according to FIG. 4, 5 and 6, the main working bodies are installed at the required height. Eight feed openers 19 are mounted on the front transverse beam 16, which in turn are connected to the piping system 22 and piping 43, while the switching tee 41 is set to the appropriate position. Hilling paws 26 are fixed on the longitudinal beams 23 at the required height with the help of fixing bolts 25. After that, the hopper 2 is loaded with solid mineral fertilizers, and the containers 32 and 33 are filled with liquid humic fertilizers, while the valve 35 is moved to the position openly creating communicating vessels.

After carrying out the preparatory operations, the ridge-forming cultivator-fertilizer coupled with a tractor leaves the field and starts working according to the loaded task map. When the unit moves, the fertilizing coulters 19 cut the soil layer on both sides of the ridge in its middle part, forming furrows into which fertilizers enter. To do this, according to the task card from the on-board computer (not shown in the figure), a signal is sent to the actuator 6, which, through a common rail 7, sets in motion the gate valves 5, thereby opening or closing them to the required amount, thereby regulating the rate of application of solid mineral fertilizers , which enter the formed furrows through the cone distributors 8 and the fuel lines 22, at the same time a signal is sent from the on-board computer to the pump 36 and the pressure regulator 38, after receiving the signal, the pump 36 starts supplying liquid humic fertilizers to the pressure regulator 38, which in turn, according to of the received signal sets the required working pressure and application rate, after which liquid humic fertilizers are fed through the pipeline 40 to the switching tee 41 and then through the pipeline 43 they go to the nozzles 46, where they are sprayed into the formed furrows. Further, the hilling paws 26 cut and lift the soil layer, thereby producing the formation of a ridge.

With this treatment, it is possible to separately apply both solid mineral fertilizers and liquid mineral or organic fertilizers, as described above.

Example 3. With inter-row processing with fertilizing and the introduction of plant protection products. Before starting work, the equipment is set up. The task map is loaded into the on-board computer, the support wheels 11 are set on the hitch 9 at the required height, after which, according to FIG. 4, 5 and 6, the main working bodies are installed at the required height. Eight feed openers 19 are mounted on the front transverse beam 16, which in turn are connected to the piping system 22 and piping 43, while the switching tee 41 is set to the appropriate position. Hilling paws 26 are fixed on the longitudinal beams 23 at the required height with the help of fixing bolts 25. After that, the hopper 2 is loaded with solid mineral fertilizers, the container 32 is filled with liquid humic fertilizers, and the container 33 is filled with soil herbicides, while the valve 35 is moved to the closed position.

After carrying out the preparatory operations, the ridge-forming cultivator-fertilizer coupled with a tractor leaves the field and starts working according to the loaded task map. When the unit moves, the fertilizing coulters 19 cut the soil layer on both sides of the ridge in its middle part, forming furrows into which fertilizers enter. To do this, according to the task card from the on-board computer (not shown in the figure), a signal is sent to the actuator 6, which, through a common rail 7, sets in motion the gate valves 5, thereby opening or closing them to the required amount, thereby regulating the rate of application of solid mineral fertilizers , which enter the formed furrows through the cone distributors 8 and the fuel lines 22, at the same time a signal is sent from the on-board computer (not shown in the figure) to the pump 36 and the pressure regulator 38, after receiving the signal, the pump 36 starts supplying liquid humic fertilizers to the pressure regulator 38 , which in turn, according to the received signal, sets the required working pressure and application rate, after which the liquid humic fertilizers are supplied through the pipeline 40 to the switching tee 41 and then through the pipeline 43 to the nozzles 46, where they are sprayed into the formed furrows. Further, the hilling paws 26 cut and lift the soil layer, thereby producing the formation of a ridge. In this case, a signal is sent from the on-board computer to the pump 37 and the pressure regulator 39, after receiving the signal, the pump 37 begins to supply liquid soil herbicides to the pressure regulator 39, which in turn, according to the received signal, sets the required working pressure and application rate, after which liquid soil herbicides are supplied through the pipeline 45 to the nozzles 46, where they are sprayed onto the soil surface of the row spacing.

With this treatment, it is possible to separately apply both solid mineral fertilizers and liquid mineral or organic fertilizers, as described above, while simultaneously applying plant protection products.

The proposed bed-forming cultivator-fertilizer will increase the economic efficiency of potato cultivation, due to the differentiated application of solid mineral and liquid fertilizers during pre-planting soil cultivation, as well as during the period of plant care.

Claims (5)

1. Ridge-forming cultivator-feeder, containing a supporting frame with a hinge, support wheels, fertilizer dispensers, comb-formers, characterized in that on the front transverse beam of the hinge frame there are lugs with fixing bolts for fastening and adjusting the height of the fertilizing openers communicated with the fertilizer dispensers devices, and on the longitudinal beams of the hinge frame there are lugs with fixing bolts for fastening and adjusting the height of the hilling paws, containers with pumps, pressure regulators and pipelines are installed on the supporting frame, at the ends of which nozzles are installed for the differentiated application of liquid mineral or organic fertilizers and agents plant protection, which are installed, respectively, on the fertilizing coulters and hilling tines. 2. The ridge-forming cultivator-fertilizer according to claim 1, characterized in that it is equipped with slide gates connected through a common rail to the actuator. 3. A ridge-forming cultivator-fertilizer according to claim 1, characterized in that the lower part of the fertilizer dispensing apparatus is made with the possibility of attaching cone distributors to one or two feed lines. 4. The ridge-forming cultivator-fertilizer according to claim 1, characterized in that the front transverse beam of the hitch frame is made with the possibility of attaching four or eight fertilizing openers. 5. The ridge-forming cultivator-feeder according to claim 1, characterized in that the ridge-formers are installed in the rear part of the hinge frame through a linkage system and a shock absorber with the possibility of their dismantling during inter-row soil cultivation.

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