RU2121254C1 - Cucurbits crop cultivation method and apparatus - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: method involves presowing treatment of soil; sowing and cutting of guiding furrow; interrow cultivation of soil and fruit harvesting. Furrow cutting is accomplished simultaneously with compaction of furrow side wall and formation of shoulders. Furrow side wall compaction is continued during interrow cultivation and furrow is used during fruit harvesting. Combined unit has transverse bar with carrier wheels, working tool sections and seeding units connected with transverse bar, and transverse beam extending in parallel with and pivotally connected with transverse bar through longitudinal tie-rods. One of longitudinal tie-rods is connected with transverse bar through hydraulic cylinder with screw stop. Apparatus is further provided with guiding furrow cutting device which is attached to transverse bar and has set of plows with shoulder forming devices. Feeler wheel and seeding sections or feeler wheel and auxiliary cultivating tools are attached in succession to transverse beam. EFFECT: increased efficiency and wider operational capabilities. 5 cl, 8 dwg

Description

 The invention relates to agriculture and agricultural machinery and can be used in the cultivation of gourds, mainly watermelons, on light soils subject to wind erosion.

 A known method of cultivation of vegetable crops, including cutting cracks deeper than the arable horizon at the same time as planting in the aisles, with inter-row processing, the cracks are updated and used as guiding elements [1].

 The disadvantage of this method: it is difficult to use cracks as guiding elements when cultivating crops on light soils subject to erosion, since under these conditions the cracks fall off and fall asleep.

 A known method of making guides for driving agricultural vehicles, including the formation of cracks in the soil with sloping walls, followed by closing of loose soil and the formation of a ridge above it [2].

 The disadvantage of this method: on light soils subject to wind erosion, cracks (after they are covered with loose soil) are difficult to use as guiding elements.

 There is also known a method of cultivating gourds, including strip plowing, sowing with cutting guide slots (furrows), inter-row tillage, while the guide slots are cut and copied at the border of the plowed and uncowed strips, and sowing is carried out in the middle of the plowed strips [3].

 The disadvantage of this method is that in one pass of the unit 4 guide slots are cut (grooves, which indicates an increased energy intensity of the process; cracks, being cut on plowed strips, fall asleep during wind erosion of light soils, which complicates their use as guide elements; cracks not suitable for use as guides for mechanized harvesting of fruits.

 Known tillage tool containing a frame with support wheels, working bodies, two transverse beams connected by longitudinal traction with telescopic (with emphasis) and elastic elements [4].

 The technical drawback of the gun: limited functionality. Also known is a combined unit, in particular a cultivator-hiller, containing a transverse beam with support wheels, connected to the beam sections of cultivating working bodies, sowing (in this case, fertilizing) sections and other elements [5].

 The technical drawback of this combined unit is its insufficiently wide functionality, which makes it difficult to use the unit in all operations when cultivating gourds.

 The technical task is to increase the efficiency and expand the functionality of the method and device for its implementation.

 The essence of the invention lies in the fact that in the method, including pre-sowing cultivation of the soil, sowing with cutting of the guide furrow, inter-row cultivation of the soil and harvesting the fruit, the guide furrow is formed with compaction of the side walls and the formation of berms on the sides of the furrow, the compaction of the side walls is continued during inter-row cultivation, and furrows are used as a guide for mechanized harvesting of fruits.

 A combined unit for implementing the method, comprising a transverse beam with support wheels, sections of cultivating working bodies connected to a beam, and sowing sections, is equipped with a transverse beam located parallel to the beam and pivotally connected by means of longitudinal rods to the beam, one of the longitudinal rods is additionally connected to the beam by means of a hydraulic center with a screw stop, the unit is equipped with a device for cutting the guide furrow, which, when sowing, is mounted on a beam and made in the form of dumps with bermoobrazov at the same time attached to the transverse beam: during sowing - the trailing wheel and sowing sections, when inter-row tillage - the trailing wheel and additional cultivating working bodies. The device for cutting the guiding furrow is equipped with a central chisel located in its lower part, and the berm formers are made in the form of levelers located above the dumps of hollow obliquely variable section, the working width of which is greater than the working width of the dumps, while the device is fixed by means of a stand on the beam with the possibility of vertical and horizontal displacements .

 In FIG. 1 shows a plan for sowing melons and gourds with a cutting guide furrow, plan view; in FIG. 2 - guide groove in section (section AA in FIG. 1); in FIG. 3 - guide groove in conjunction with the trailing wheel; in FIG. 4 - a combined unit for the cultivation of gourds during cultivation, sowing and cutting of the guide furrow, plan view; in FIG. 5 - the same, with primary inter-row tillage; in FIG. 6 - the same, when inter-row tillage with lashes of melons; in FIG. 7 - a device for cutting a guide groove, side view; in FIG. 8 - the same, rear view.

 The method of cultivation of gourds, mainly watermelons, is implemented as follows. Sowing is combined with presowing cultivation of the soil and cutting of the guide furrow. For one pass of the machine-tractor unit, sowing is carried out in two rows 1 with a distance L between the rows (Fig. 1). At the same distance from each row - a distance l = 0.5L, the axis of movement of the tractor passes, the guide furrow 2 is cut on the same axis. At the next pass of the unit, the distance between adjacent (sowed and new) rows is l. The most common values of the distance between the rows: l = 1.8 m; L = 3.6 m, which corresponds to the design features of sowing and cultivating aggregates.

 In section, the guide groove 2 is a triangular recess with inclined side walls 3 and sides 4 on the sides of the furrow (Fig. 2); a guiding groove is formed with sealing of the side walls directly during cutting. The compaction of the side walls 3, turning into the inner contours of the berms 4, continues during inter-row cultivation of the soil - during primary cultivation and during inter-row cultivation with lashes of melons. The wall compaction occurs when the furrow interacts with the inclined faces of the trailing wheel 5, which is part of the combined unit for the cultivation of gourds (Fig. 3). The densified side walls 3 and berm 4 on the sides of the furrow prevent collapse of the furrow and its falling asleep during wind erosion of light soils and keep the furrow as a guide when driving aggregates for the cultivation of melons, including mechanized harvesting of fruits. With a fixed distance l = 0.5L between the guide furrow and adjacent rows of plants, high-quality inter-row cultivation of the soil is ensured - with a minimum protective zone along the plants.

 The combined unit for the cultivation of gourds includes a supporting transverse beam 6 with the support wheels 7 (Fig. 4-6). A hitch 8 is provided for aggregation with the tractor. Sections 9 of cultivating working bodies are attached to the transverse beam. The unit is equipped with a transverse beam 10 located parallel to the beam 6 and pivotally connected by means of longitudinal rods 11 with the beam. One of the longitudinal rods is additionally connected to the beam by means of an angled hydraulic cylinder 12 with a screw stop 13. The hydraulic cylinder is activated from the pump-power plant of the tractor.

 The complete set of the unit depends on the type of operations performed on the cultivation of gourds. When sowing, the unit includes a device 14 mounted on a transverse beam 6 for cutting a guiding furrow and a sowing section 15 fixed on a transverse beam 10 and the mentioned cam wheel 5 (Fig. 4). A device for cutting a guiding furrow comprises dumps 16 with plowshares arranged at an angle to each other (Figs. 7, 8), airborne 18 located at the bottom of the central bit 17 and located above the dumps 18. The latter are made in the form of hollow obliquely variable section of levelers, working width which are larger than the width of the blade dumps 16. The device 14 for cutting the guide furrow through the rack 19 and the bracket 20 is mounted on the transverse beam 6 with the possibility of vertical and horizontal displacements. To do this, holes “a” are provided on the rack and bracket, with the help of which the height of the device 14 relative to the beam 16 can also be changed by means of fasteners. The bracket 20 is fastened to the beam 6 using a clamp connection 21, so that the device 14 can be displaced relative to the beam in the transverse direction. A fixed dimension l is established between the longitudinal axes of each seed section 15 and the cam wheel 5.

 When inter-row tillage - as plants develop, the set of working bodies in a combined unit is modified. When sowing and during primary interrow cultivation of the soil on the transverse beam 6, sections 9 of the cultivating working bodies of the lancet type are fixed (Fig. 4, 5). In addition, during the primary inter-row cultivation of the soil, the unit is equipped with hemispherical disk cultivating working bodies - knives 22, which are mounted on the transverse beam 10 and are placed in pairs along the intended row of plants, covering it (Fig. 5). When inter-row tillage with lashes of melons and gourds, sections 9 of the cultivating working bodies of the lancet type are partially preserved (Fig. 6). In addition, sections 23 of wide-cut cultivator working bodies of the flat-cutting type are unilateral to the transverse beam 10. For all types of inter-row tillage, a copy wheel 5 is maintained, which is attached to the transverse beam 10 (Fig. 5, 6). Between the axis of symmetry 1-1 of each pair of knives 22 and the longitudinal axis of the cam wheel 5, a fixed size l is established (Fig. 5).

 The transverse beam 10 (Fig. 4-6) is connected to the supporting transverse beam 6 through two parallel longitudinal rods 11 and two pairs of hinges 24 and 25, while the hinges 24 are provided with two degrees of freedom (for example, Hooke hinge), and the hinges 25 are made with vertical axes of rotation. The described conjugation of the transverse beam 10 with the supporting transverse beam 6 provides the trailing wheel 5 in the transverse vertical plane, and the entire unit to perform the specified process with strict limits of the agricultural allowances for tillage during sowing and mechanized care.

 The combined unit for the cultivation of gourds works as follows. Aggregation with the tractor by means of the attachment 8 is carried out in the usual manner. It is advisable to use a caterpillar tractor, which has greater stability in rectilinear motion compared to a wheeled tractor. Sowing two rows of melons and gourds is combined with pre-sowing cultivation of the soil, cutting and compaction of the guide furrow using the unit in the arrangement shown in FIG. 4. Before starting the movement of the machine-tractor unit between the end of the rod of the hydraulic cylinder 12 and the screw stop 13 set the gap Δ = 40 mm Pre-sowing cultivation and sowing is carried out by sections 9 of the lancet type cultivating working bodies and sowing sections 15. At the same time, the device 14 performs cutting of the guide furrow by force impact on the soil of the dumps 16 with plowshares and a central bit 17, which form a triangular-shaped groove in the soil with a triangular shape with ejection of soil on the sides of the furrow. Next, using bermoobrazovateli - levelers 17 and the drive wheel 5 form a berm on the sides of the furrow and compact the side inclined walls of the furrow. Since the sowing sections 15 and the trailing wheel 5 are fixed on a common beam 10, the sown rows are located at a fixed distance l from the axis of the guide furrow (Fig. 1, 4).

 The stability of the process is achieved due to the presence of the support wheels 7 and the possibility of some displacement in the transverse direction of the beam 10 relative to the beam 6, which together with the longitudinal rods 11 act as links of the articulated parallelogram. This is facilitated by the presence of a gap Δ between the end of the rod of the hydraulic cylinder and the screw stop 13.

 Inter-row tillage - primary (in the phase of 2 ... 3 leaves on plants) and subsequent (with lashes of melons) - is carried out by the aggregate in the arrangement shown respectively in FIG. 5 and 6. The primary inter-row tillage is performed by sections 9 of the cultivating working bodies of the lancet type. At the same time, hemispherical cultivator disc knives 22 attached to the transverse beam, covering the rows of plants on both sides, cut and shift to the side of the soil plants, protecting the plants from falling asleep to the soil. Due to this, during the primary interrow cultivation of the soil along the rows of plants, a narrow untreated strip with a width of b = 10 ... 12 cm remains. This is facilitated by the presence of a cam wheel 5, which, being fixed on the same transverse beam 10, tracks the distance l between left and right from the guide furrow in rows of plants. The trailing wheel "along the way" seals the lateral inclined walls of the guide furrow.

 In subsequent inter-row tillages, a gap Δ = 60 mm is established between the end of the rod of the hydraulic cylinder 12 and the screw stop 13. Sections of the 9 cultivating working bodies of the lancet type carry out soil cultivation at a distance from the lashes of melons, and sections 23 of the wide-wide one-sided cultivating working bodies of the flat-cutting type carry out the soil cultivation under the lashes of plants, providing the maximum possible soil cultivation front and preventing damage to lashes. This is facilitated by the trailing wheel 5, which "leads" the transverse beam 10 with lancet working bodies oriented relative to the plants, while the beam 10 makes some movement in the transverse direction relative to the beam 6 as a link of the articulated parallelogram. The gap Δ, respectively, of 40 and 60 mm ensures the movement of the beam with the working bodies fixed on it within technologically feasible limits.

 In necessary cases - during the initial arrival of the unit for inter-row tillage - with the help of a hydraulic cylinder 12, the transverse beam 10 is moved in one direction or another, ensuring that the trailing wheel 5 fits into the guide groove. After that, the corresponding valve of the pumping and power plant of the tractor, and therefore the rod of the hydraulic cylinder 12 is set to a floating position. Subsequently, when the assembly moves in a straight line, the beam 10 with the working bodies fixed on it will take its natural position relative to the beam 6. Before putting the unit into transport position, a gap is selected between the end of the hydraulic cylinder rod 12 and the screw stop 13 Δ = 0), while the corresponding control valve is set to neutral position, closing the hydraulic system. This eliminates the swinging of the unit during its transportation on the tractor's hydraulic hitch.

 Thus, when implementing the described method using a combined unit, the efficiency is significantly increased and the capabilities of both the method and the device are expanded. The consequence of this is an increase in the level of mechanization and quality of inter-row surface tillage, a combination of technological operations and a reduction in the range of tools used, a decrease in the number of passes of equipment across the field and fuel economy, an increase in labor productivity and a decrease in the laboriousness of cultivating melons, mainly watermelons, which are susceptible to wind erosion. soils, which, however, are suitable for melon.

Claims (5)

 1. A method of cultivating gourds, including pre-sowing tillage, sowing with cutting of the guide furrow, inter-row cultivation of the soil and harvesting, characterized in that the guide furrow is formed with compaction of the side walls and the formation of berms on the sides of the furrow, compaction of the side walls is continued with inter-row cultivation , and the furrow is used as a guide for mechanized harvesting of fruits.  2. The combined unit for the cultivation of melons, containing a transverse beam with supporting wheels, connected to the beam sections of the cultivating working bodies and sowing sections, characterized in that the unit is equipped with a transverse beam located parallel to the beam and pivotally connected by means of longitudinal rods to the beam, one of the longitudinal rods are additionally connected to the beam by means of a hydraulic cylinder with a screw stop; the unit is equipped with a device for cutting the guide furrow, which is mounted on the beam when sowing and it is made in the form of dumps with bermoobrazovateli, moreover, the sowing wheel and sowing sections are attached to the transverse beam during sowing, with the interrow cultivation of the soil - the copy wheel and additional cultivating working bodies.  3. The unit according to claim 2, characterized in that the device for cutting the guiding furrow is provided with a central chisel located in its lower part, and the bermo-formers are made in the form of levelers located above the dumps of hollow obliquely variable section, the capture width of which is greater than the capture width of the dumps.  4. The unit according to claim 2 or 3, characterized in that the device for cutting the guide furrow is fixed by means of a rack on the beam with the possibility of vertical and horizontal displacements.  5. The assembly according to claim 2, characterized in that each hinge for connecting the front ends of the longitudinal rods with a supporting transverse beam is made with two degrees of freedom - with vertical and horizontal axes of rotation, and each hinge for connecting the rear ends of the longitudinal rods with a rear transverse beam vertical axis of rotation.

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