RU2154930C1 - Method and apparatus for creating permanent licorice plantations - Google Patents

Abstract

FIELD: agriculture and agricultural engineering. SUBSTANCE: method involves preparing soil; planting. Planting is performed while apparatus is continuously advancing along field and furrows are cut to 0.15-0.27 m depth with spacing between them 0.7 m. Cuttings of roots and rootstocks of local ecotype of licorice, 3-5 year age, with length of 0.20-0.25 m and number of dormant (axillary) buds of at least five are placed on bottom of furrows, 2-3 cuttings per 1 m. Method further involves covering furrows with layer of plastic material; compacting soil surface at pressure of 0.15-0.20 MPa. Apparatus for preparing soil for planting of cuttings has frame, suspender with suspension fingers, carrier wheel with screw mechanism, bodies with plow-bottom surfaces, skim colters, disk cutters and cutting guides positioned on frame between succession of pairs of bodies. Each pair of bodies has disk cutter arranged in front of terminating skim colter in pair of bodies. Device for feeding root and rootstock cuttings into furrows has pull-type vessel, block of beaters, left-hand and right-hand transverse conveyors, longitudinal conveyor, telescopic cardan shaft, drives for conveyors and rotors, front and rear axles with pneumatic wheels, braking device and electric equipment. Apparatus is provided with front and rear two-section auxiliary conveyors. Front conveyor is kinematically connected to right-hand conveyor, rear conveyor is kinematically connected to left-hand conveyor. Auxiliary conveyors are provided with mechanisms for moving them to operating or transport position. One section of two-section conveyor is positioned under frame, at an angle to its longitudinal axis. EFFECT: increased efficiency in restoring meadows and hay fields, increased fertility of irrigated lands. 4 cl, 12 dwg

Description

 The invention relates to agriculture and agricultural machinery, in particular when creating long-term plantations of licorice culture on obstructed and saline soils as halophytes.

 A known method of creating plantations of licorice culture, including preferably spring plowing, laying cuttings of the roots and rhizomes of licorice on the bottom of the plow ditch, turning the formation onto planting material and after-planting the surface of the plot (see Kerbabaev B. B., Gladyshev A. I. Turkmen licorice root / Under the editorship of the academician of the Academy of Sciences of the TSSR N.T. Nechaev. - Ashgabat: Ylym, 1971. - 95 pp. - P. 49).

 The disadvantages of the described method include the high cost of manual labor and the inability to create plantations of licorice culture with a row spacing of 0.7 m and multiple values. The greatest costs of time and labor when creating licorice plantations are associated with the layout of planting material. The described method does not provide complete engraftment of licorice cuttings. This is due to the lack of contact of the cuttings with the soil and the presence of voids.

 Stacking of cuttings is carried out by manual layout on the bottom of the open furrow. To mechanize this process, we consider some technical means that could reduce the cost of manual labor to the minimum values. For the complete mechanization of this method and subsequent operations associated with interrow care on cultivated plantations, at least two new machines are required, or with minor modifications, the use of serial tools available in production.

 The main operations to accomplish this task include soil preparation, planting and post-planting compaction of the upper layer.

 A mounted four-body plow is known, with which you can mechanize the first operation, for example PN-4-35A "Plowman" containing a frame, a suspension mechanism of a frame, a body with a plow-blade surface, skimmers, a circular knife, a support wheel with a screw mechanism (see Four-body mounted plow "Plowman" PN-4-35A. Plow operation manual. Passport. Product of the Odessa Order of the Red Banner of Labor of the October Revolution Agricultural Engineering Plant. - Odessa, 1978. - 23 p.).

The four-hinged mounted plow "Plowman" PN-4-35A is designed for plowing soils with a resistivity of up to 0.9 kg / cm ² , not clogged with stones and other obstacles. The plow grip width is 1.4 m. The greatest plowing depth is 0.27 m. The distance between the toes of the plowshares of each hull along the course is 0.75 m. However, this distance between the hulls is not enough to ensure that planting material can be supplied mechanically to create plantations for an ordinary landing with a row spacing of 0.7 m. A screw mechanism with a support wheel provides stable cutting and rotation of the soil layer to a depth of 15-27 cm.

The described plow, in particular, after the modernization of the frame can be successfully used as a device for preparing the soil for planting licorice cuttings. With the width of the grip of each building in _k = 0.35 m, you can create plantations with a row spacing of 0.7 m, acceptable for mechanized care. In addition, a device is required for feeding licorice cuttings into open furrows made by the said device.

 The described feed dispenser is not suitable for feeding in parallel streams of licorice root cuttings and rhizomes as planting material when creating long-term licorice plantations.

 A device for sowing plant rhizomes containing a container in the form of a frame with a bottom, a conveyor, a conveyor drive (see SU 229863 A, 10.03.69, A 01 C 11/00) is known.

 A disadvantage of the known device is the high material costs at a low level of operation of existing technical means.

 The invention consists in the following.

 The problem to which the invention is directed is to create plantations of a culture of licorice licorice, Ural licorice, GG Korzhinsky licorice as a phyto-reclamation crop (halophyte) on obstructed and saline soils of irrigated agriculture and after 7-8 years of obtaining a commodity root masses as licorice raw materials of a number of industries.

 The effect and technical result that can be obtained by carrying out the invention are expressed in the restoration of the fertility of the waste irrigated massifs taken out of the crop rotation, the decrease in the level and salinity of groundwater, the restoration of natural plant communities, hayfields and pastures, and the biological destruction of malicious weeds.

 The specified effect and technical result in the implementation of the invention are achieved by the fact that in the known method of creating plantations of licorice culture, including soil preparation and planting, with continuous movement, open the furrows and offset from each other at a distance of 0.7 m on the bottom of the open furrows laid cuttings of the roots and rhizomes of licorice of the local ecotype (floodplain or steppe ecotype) at the age of three to five years, 0.20-0.25 m long with a planting rate of 2-3 pieces per linear meter, the furrows are covered with a layer of a wrapped layer, and after precipitation plantation surface is compacted with a pressure of 0.15-0.20 MPa.

 To implement this method, the following devices are provided.

 A device for preparing soil for planting cuttings of the roots and rhizomes of licorice, including a frame, a suspension with fingers, a support wheel with a screw mechanism, bodies with a plow-dump surfaces, skimmers and circular knives, equipped with cuttings guides mounted on the frame between pairs of consecutively installed cases and each pair of cases has a circular knife placed in front of the last skimmer in pairs.

 A device for feeding cuttings from the roots and rhizomes of licorice when planting in open furrows, including a trailed container in the form of a frame with a bottom, rear side, left side side, right side side, front side, block of beaters, guards, left cross conveyor, right cross conveyor, longitudinal conveyor, telescopic driveshaft, conveyor and rotor drives, front axle with pneumatic wheels, brake device and electrical equipment, also has drive mechanisms for working and transport Sportna additional conveyor front position, a mechanism kinematically coupled with the right cross conveyor, and a rear two-piece additional conveyor, one of the sections which is mounted under the frame and at an angle to its longitudinal axis, a mechanism kinematically coupled with the left cross conveyor.

 An analysis of the level of technologies (methods) and technology by the applicants, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, made it possible to establish that the applicants did not find analogues (both in part of the method and in part devices for implementing the method), characterized by features identical to all the essential features of the claimed invention. The proposed closest analogues for the method and for the devices made it possible to identify a set of essential distinguishing features in relation to the technical result perceived by the applicants in the claimed method and devices for implementing the method set forth in the claims.

 Therefore, the claimed invention meets the requirement of "novelty" under applicable law.

 To verify the conformity of the claimed invention to the requirements of the inventive step, the applicants conducted an additional search for known methods and technical solutions in order to identify signs that match the distinctive features of the claimed invention from the closest analogue. The results of the verification show that the claimed invention does not explicitly follow from the prior art for a specialist, in particular, the claimed invention does not provide for any known transformations.

 Therefore, the claimed invention meets the requirement of "inventive step" under applicable law.

 The proposed method for creating long-term plantations of licorice culture on obstructed soils is illustrated by drawings.

 In FIG. 1 depicts the technological process of creating plantations of licorice culture on the obstructed soils of irrigated agriculture, plan view.

 In FIG. 2 is a section AA in FIG. 1, the technological scheme of laying the cuttings of the roots and rhizomes of licorice bare as a planting material on the bottom of open furrows, followed by covering with a layer of a wrapped layer.

 In FIG. Figure 3 schematically shows an aggregate for feeding the roots and rhizomes of licorice into parallel pre-opened grooves, right view.

 In FIG. 4 - the same when feeding the cuttings with the left transverse and rear additional two-section conveyors into the open furrow, rear view.

 In FIG. 5 - the same when feeding cuttings from licorice roots with the right transverse and front additional conveyors, rear view.

 In FIG. Figure 6 shows the distribution pattern of licorice Karabash cuttings and its rhizomes when creating continuous thickets of licorice plantations.

 In FIG. 7 shows a device for preparing soil for planting cuttings of the roots and rhizomes of licorice in an axonometric image with pairwise mounted cases, skimmers and a circular knife in front of the last skimmer in each pair of cases.

 In FIG. 8 - same, plan view.

 In FIG. 9 is a fragment of a device for preparing soil, placing a circular knife in front of the skimmer and the body in a perspective view.

 In FIG. 10 is a fragment of a device for preparing soil for planting cuttings from licorice roots, a support wheel with a screw mechanism in an axonometric image.

 In FIG. 11 is a perspective view of a device for feeding cuttings from the roots and rhizomes of licorice into open furrows.

 In FIG. 12 is a kinematic diagram of the drive of the conveyors of the device for feeding cuttings from the roots and rhizomes of licorice when planting in open furrows in an axonometric image.

 The proposed method is implemented as follows.

 With the continuous movement of two machine-tractor units, following parallel courses, open the furrows to a depth of 0.15-0.27 m, and with the displacement from each other at a distance of 0.7 m, cuttings of the roots and rhizomes of local licorice are laid on the bottom of the open furrows ( zonal) ecotype at the age of three to five years with a length of 0.20-0.25 m with a planting rate of 2-3 pieces per linear meter, the furrows are covered with a layer of a wrapped layer of soil. At the end of planting, the plantation surface is compacted with heavy rollers with a pressure of 0.15-0.20 MPa. The direction of movement of the rollers is combined with the direction of landing.

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

 On the old arable land of irrigated lands with an arrangement of a groundwater level of not higher than 1.5-1.8 m with a mineralization of water not higher than 3 g / l, the plantation of licorice culture plantations is carried out in the following sequence.

 Before starting work, planting material is prepared. Licorice roots and rhizomes are used, primarily horizontal rhizomes and main roots with a root neck at the age of 3-5 years, as well as vertical rhizomes ("Karabash") 0.20-0.25 m long. Horizontal licorice rhizomes are the main organ reproduction, with the help of which, growing and developing, the plant forms thickets. Taking into account the region and the specific place of plantation creation, choose a floodplain or steppe ecotype of licorice with a planting rate of 2-3 pieces per linear meter. Sections of three-year-old rhizomes are better rooted. Overhead shoots in this case grow in 8-10 days. Plant survival in this case is 35-60%. The maximum of rooted segments is observed in four-, five-year-old rhizomes. The survival rate is 85-95%. Overhead shoots grow back no later than 7-10 days. When creating licorice plantations, freshly prepared planting stock is used. Cuttings from the roots and rhizomes of licorice before planting are placed in the trailed container of the device for supplying planting material.

To implement the claimed method, two units are prepared for operation. The first unit - arable - includes a tractor of class 1 thrust 3 and a device 2 for preparing the soil for planting with plow bodies 3, 4, 5 and 6 paired in the direction of travel. The second unit is a landing one and includes a tractor of class 7 thrust 1, 4 and a trailing device 8 for supplying planting material in two parallel streams. With continuous movement of aggregates 1 and 7 in parallel courses, pairs of housings 3, 4 and 5, 6 of device 2 form open grooves 9 and 10 with mutual displacement of their vertical walls 11 and 12 with a step of ₁ = 0.7 m across the working width, to the bottom 13 open grooves 9 and 10 with a given quantity for each running meter of length are laid with 14 licorice roots and rhizomes, furrows 9 and 10 are covered with a layer of wrapped layer 15, and after planting, the soil surface is rolled in the direction of movement of aggregates 1 and 7 with a heavy roller with specific pressure q = 1.5-2.0 kgf / cm ² (0.15-0.20 MPa) (see Fig. 1-5).

 Available industrial experience shows that plantation planting is best done in the early spring, when the soil has the largest moisture reserves.

 In a flooded floodplain, licorice plantations should be created before the flood period.

 In irrigated agriculture in previously abandoned irrigated areas of the plantation, it is preferable to create the same in the early spring. In this case, no irrigation systems and irrigation machines are required.

 A device for preparing soil for planting cuttings of the roots and rhizomes of licorice in open furrows contains a frame 16, a suspension device 17 with fingers 18 of the hitch, sequentially installed in pairs of the housing 3-6 with skimmers 19, in each pair in front of the last skimmer 19 a disk knife 20, a support wheel 21 with a screw mechanism 22 and a guide 23 of the cuttings 14.

 The distance between the socks of the first and second, third and fourth buildings 3-6 is 750 mm, and between the second and third buildings 4 and 5 - 1250 mm. The guide 23 of the cuttings 14 is mounted on the frame 16 between the second and third buildings 4 and 5.

 Each skimmer 19 is installed with a shift forward in the direction of movement of the housing 3 (4, 5, 6) to a distance of 250 mm. In front of the second and fourth skimmers 19, circular knives 20 are placed in proper order for cutting straight vertical field walls 11 and 12. The screw mechanism 22 of the support wheel 21 allows you to change the plowing depth within 0.15-0.27 m, equal to the depth of incorporation of licorice cuttings 14 taking into account the soil and climatic conditions of the zone of the southern region of the Russian Federation.

 The device 8 for feeding cuttings 14 from the roots and rhizomes of licorice when planting in open furrows 9 and 10 (see Fig. 1, 3-6, 11 and 12) includes a trailed container in the form of a frame 24 with a bottom, side 25, left side side 26, right side board 27, front side 28, beater block 29, guard flaps 30, left cross conveyor 31, right cross conveyor 32, longitudinal conveyor 33, cardan telescopic shaft 34, drives 35 of conveyors 31-33 and beaters 29, front axle 36 with pneumatic wheels, rear axle 37 with pneumatic wheels, brake 38 and electrical equipment 39.

 The device 8 has a front additional conveyor 40 and a rear additional two-section conveyor 41. Section 42 of the rear additional conveyor 41 is installed under the frame 24 and at an angle to its longitudinal axis. The front additional conveyor 40 is kinematically connected to the right transverse conveyor 32. The rear additional conveyor 41 is kinematically connected to the left transverse conveyor 31. The front additional conveyor 40 and the rear additional conveyor 41 are equipped with drive mechanisms in the operating and transport positions. In FIG. 11, conveyors 40 and 41 are mounted in a transport position along the left side wall 27, and in FIG. 12 they are presented in working position.

 The device 8 for feeding cuttings 14 from the roots and rhizomes of licorice when planting in open furrows works in the aggregate with the tractor 7. All mechanisms of the device 8 receive rotation and translational motion from the power take-off shaft (PTO) of the tractor 7 through a telescopic driveshaft 34.

 The chassis of the device 8 consists of a bottom, suspension, axles with wheels and a towing device 43 (see Fig. 11).

 The bottom of the device 8 is a welded structure of rolled steel of various profiles - the bearing base of the machine, on which the drive mechanisms, working bodies, the body, additional conveyors 40 and 41 and their mechanisms are mounted.

 The towing device 43 serves to attach the device 8 to the tractor 7 and consists of a drawbar, steering trapezoid and a locking device.

 PTO shaft 34 consists of unified hinges and a telescopic part. Hinges are designed to transmit torque up to 400 Nm. The protective device of the shaft 34 is the outer and inner pipes, which are mounted on ball bearings and fixed by a chain against rotation (see Fig. 11).

 The driveshaft 34 transmits rotation to the shaft 44 of the bevel gear 45 and the drive shaft 46 of the longitudinal conveyor 33 and the drive shaft 47 of the right transverse conveyor 32 (see FIG. 12). The drive shaft 44 of said assemblies is connected to the input shaft 44 of the bevel gear 45 by a chain clutch. The sprocket 48 of the shaft 44 transmits the movement to the drive of the left and right transverse conveyors 31 and 32.

 To protect the working bodies of the device 8 from breakdowns during overloads, a spring-toothed clutch is installed on the drive 35. The clutch spring is adjusted to the maximum torque.

 The drive 35 of the transverse conveyors 31 and 32 consists of sprocket 48 mounted on the drive shaft 44 of the device 8, a chain transmission of sprockets 49 and 50 on the drive shafts of the transverse conveyors 32 and 31 and a tension sprocket 51. The chain transmission of the sprockets 49 and 50 is equipped with dampers that eliminate excessive vibration and chain beating. This ensures the normal and durable operation of the drive 35.

 Gear 45 is unified. The gear ratio is 1.25. Gear 45 is mounted on the bottom plate. The gears of gearbox 45 operate in an oil bath. A sprocket 52 mounted on the output shaft of the gearbox 45 chain drive 53 transmits rotation to the sprocket 54 of the drive shaft shafts 29.

 The drive sprocket 52 of the chain drive 53 drives the intermediate shaft 55 through the driven sprocket 56. The tension roller 57 ensures the normal operation of the gear 53. A chain sprocket 58 is installed on the right end of the intermediate shaft 55 to drive the driven sprocket 54 of the beater shaft 29. Tension the roller 59 of the chain circuit of the drive sprocket 58 and the driven sprocket 54 provides a predetermined rotation speed of the beaters 29. An asterisk 60 is mounted on the lower shaft of the beaters 29 for chain drive through the driven sprocket 61 the upper shaft of the beaters 29. The drive uses a tension sprocket 62 of the aforementioned chain circuit.

 The drive of the longitudinal conveyor 33 allows you to adjust the feed speed of the conveyor 33 and reverse it. The conveyor drive 33 consists of a crank mechanism 63 and a ratchet gear mechanism 64, sprockets 65, 66 and 67, an intermediate shaft 68 and a chain transmission 69.

 The drive shaft 46 of the conveyor 33 receives movement from the shaft of the lower beater 29 through a complex mechanical drive. The direction of movement of the conveyor 33 is changed by the corresponding installation of the dogs and the casing of the ratchet gear mechanism 64 (see Fig. 12). When the conveyor 33 moves forward, its speed is regulated by installing and fixing the casing in one of eight divisions of the sector. When moving backward, the speed of the conveyor 33 is not regulated.

 All chain drives of drive 35 and drive mechanisms are made of sleeve-roller chains with tensioning sprockets.

 The longitudinal conveyor 33 is designed to feed the cuttings 14 of the licorice root to the beaters 29 and the conveyors 31 and 32. The conveyor belts 33 are made of sleeve-roller chains connected by scrapers with a pitch of 38 mm. The conveyor 33 is equipped with tensioning devices 70.

 The block of beaters 29 when feeding the cuttings 14 to the conveyors 31 and 32 supports them in a loosened state and evenly feeds the cuttings 14 to the canvas of the conveyors 31 and 32. The block contains two spiral beaters 29. The beaters 29 are fixed in the sides.

 The directions of movement of the conveyors 33, 31, 32, 40, 41 and 42 in FIG. 12 are shown by arrows.

 The drives of the additional conveyors 40-42 are apparent from FIG. 11 and 12. The drive mechanisms of the conveyors 40 and 41 are equipped with hydraulic drives and are remotely controlled.

 A device for soil preparation for planting cuttings of 14 roots and licorice rhizomes in open furrows 9 and 10 works as follows.

 The aggregated tractor 1, together with its hydraulic system, is prepared for work. After hitching the frame 16 (see Fig. 7-10) with the screw mechanism 22 of the support wheel 21, the depth of the bottom 13 of the furrows 9 and 10 is set. When determining the parameter "a" (see Fig. 2), the level of groundwater and the type of soil are taken into account where long-term licorice plantations are planted. By changing the length of the upper link of the tractor’s hydraulic system 1 and the position of the wheel 21 on the frame 16, the technological process of trimming the old plow layer at a given depth is sustained. The complete closure of plant residues and wild plants in the waste fields is carried out by the skimmer 19. The vertical field edge 11 (12) is performed by a circular knife 20.

 With the continuous movement of the machine-tractor unit, each skimmer 19, mounted in front of the buildings 3-6, removes the upper soil layer and puts it on the bottom 13 of the furrows 9 (10). A circular knife 20, mounted in front of the skimmer 19, vertically cuts the virgin soil layer to a depth of a / 2, forming a vertical field edge 11 (12). The plow body 3 (4-6) cuts the formation and wraps it on the previous one, covering with its mass previously laid on the bottom 13 of each furrow 9 (10) plant and root remains of wild plants and weeds. Between the racks of the housings 4 and 5, the insert in the frame 16 has a technological space, which allows you to freely place the guide 23 of licorice cuttings 14. Following the buildings 4 and 6, mechanized laying of the cuttings 14 as a planting material is carried out in the spaces formed. The furrow 9 is covered with a layer 15, wrapped in a housing 5, and the furrow 10 is covered with a layer 15, treated with a housing 3 during the subsequent passage of the unit 1.

 In this case, the process of soil cultivation for planting licorice cuttings 14 with a device with four buildings 3-6 is considered. The described technological process is stably performed by mounted plows of general or special purpose with an even number of hulls PLN-6-35, PNI-8-35, PTK-10-35, etc.).

 A device for feeding cuttings 14 from the roots and rhizomes of licorice when planting in open furrows 9 and 10 works as follows.

 In the trailed container of the device 8, pre-prepared cuttings are laid 14. The open space of the container is closed with a canopy that excludes the drying of rhizomes and licorice roots. The wheel tractor 7 together with the device 8 moves parallel to the heading of the tractor 1 and the device 2. The cuttings 14 by the longitudinal conveyor 33 are shifted towards the left and right conveyors 31 and 32. The beaters 29 make metered laying of the cuttings 14 on the front of the longitudinal conveyor 33. Dosed portions of the cuttings 14 left and right transverse conveyors 31 and 32 go to additional conveyors 41 and 40. Cuttings 14 by conveyor 32 are sent to the front additional conveyor 40. They are placed in the guide 23. From it Wrenki 14 when the device 2 moves, slide to the bottom 13 of the open furrow 9 (see Fig. 1). By the left transverse conveyor 31, the cuttings 14 are first moved to the head of the rear additional conveyor 41. Its section 42 transports the cuttings 14 onto the conveyor belt 41. The cuttings 14 are last placed on the bottom 13 of the open furrow 10. The length of the guide 23 is chosen so that, when the aggregates move, they provide stable laying cuttings to the bottom 13 of the furrows 9 and 10. With long-distance transportation of the cuttings 14, additional conveyors 40 and 41 are translated into full transport positions (see Fig. 11).

 The survival of the cuttings 14 depends on two factors: the absence of voids between the bottom 13 of the furrows 9 and 10 and the dumped layers 15 and the creation of a tight contact of the cuttings with a moist soil layer. To carry out this process, heavy road rollers or agricultural rollers, for example, ZKVG-1,4, are used. Rollers (three) are connected by a train. The cavity of the rollers is filled with liquid ballast (diameter 1400 mm, length 2000 mm). The upper layer is sealed with a load of 0.15-0.20 MPa (see Fig. 2). For a quality implementation of the specified technological technique, the direction of movement of the unit with rollers should coincide with the direction of movement of the units described above.

 When creating licorice culture plantations in the form of continuous thickets, as well as when restoring natural wild-growing thickets and with a low level of productivity by replanting licorice cuttings from mother liquors with a high glycyrgram content, the cuttings 14 are distributed evenly on a 2.3 m wide strip. 25 open and fasten in an inclined position. The conveyor 33 of the trailer tank is attached in the opposite direction. Shanks 14 are plowed with general-purpose plows by turning layers to a depth of 15-18 cm. The plowed surface of the strips is compacted with rollers. When rolling in, subsoil moisture is attracted to cuttings of licorice roots. This eliminates wind and water erosion. The last trick is mandatory in flooded areas during river floods.

 Thus, the above information indicates the fulfillment of the following conditions when using the claimed invention: the claimed method and devices for its implementation are intended for use in agriculture and agricultural machinery when planting long-term plantations and as a phytomeliorant for obstructed lands; the possibility of carrying out the invention is achieved using known methods and means; the proposed method for creating licorice plantations has an extremely high efficiency achieved at all stages of the life cycle of aerial licorice shoots and its root formation; The technical result of the proposed devices for implementing the method is achieved with simplicity of design, the use of known elements and is characterized by wide possibilities.

 Therefore, the claimed invention meets the requirement of "industrial applicability" under applicable law.

Claims (3)

 1. A method of creating long-term plantations of licorice culture on obstructed soils of irrigated land, including soil preparation and planting, characterized in that, with continuous movement, furrows are opened and root cuttings are displaced from each other at a distance of 0.7 m from the bottom of open furrows and licorice rhizomes of local ecotype, aged three to five years, 0.20 - 0.25 m long with a planting rate of 2 - 3 pcs per linear meter, furrows are covered with a layer of a wrapped layer, and after planting, the plantation surface is compacted with a pressure of 0.15 - 0 , 2 0 MPa.  2. A device for preparing soil for planting cuttings of the roots and rhizomes of licorice, including a frame, a suspension with fingers, a support wheel with a screw mechanism, bodies with a plow-dump surfaces, skimmers and circular knives, characterized in that it is equipped with cutter guides installed on the frame between pairs of series-mounted housings, each pair of housings having a circular knife placed in front of the last skimmer in pairs.  3. A device for feeding cuttings from the roots and rhizomes of licorice when planting in open grooves, including a trailed container in the form of a frame with a bottom, rear side, left side side, right side side, front side, block of beaters, guards, left transverse conveyor, right cross conveyor, longitudinal conveyor, telescopic driveshaft, conveyor and beater drives, front axle with pneumatic wheels, rear axle with pneumatic wheels, brake device and electrical equipment, while in has a front additional conveyor kinematically connected to the right transverse conveyor equipped with drive mechanisms in the operating and transport positions, and a rear additional two-section conveyor, one of the sections of which is mounted under the frame and at an angle to its longitudinal axis, kinematically connected to the left by the transverse conveyor.

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