RU2179384C1 - Method for extracting licorice roots and rootstocks, apparatus for removal of nonstandard parts of licorice roots, licorice root extraction machine, and licorice root harvesting machine - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves mowing, grinding and uniformly distributing ground parts of vegetative buds over the surface of prepared land strip; removing stubble and black head; undercutting root layer of soil; extracting root mass; laying it on land strip surface. Extraction process is carried out in continuous staged mode. Mentioned operations and other operations such as removal of stubble and black heads are combined with mellowing of land strip mid part to depth where 60-80% of basic root and rootstock mass are lying. Undercutting of soil layer is carried out beyond the mellowed zone. During laying of extracted roots onto land strip surface, narrowed windrow is formed. In the process of raw root material harvesting and transportation, upper layer of harvested land strip is covered. Apparatus has rotavation drum and ripper tine arranged behind rotavation drum so as to be repositioned in vertical plane on frame. Front part of ripper tine is equipped with blade and lower part with chisel. Licorice root extraction machine has triangular main frame with hitched shackle and auxiliary frame with U-shaped undercutting knife, drive rotors, windrow former and supporting-gage wheels, which are arranged in succession. Supporting-gage wheels are equipped with reducers. Licorice root harvesting machine has rotor with husks and inclined conveyor, which are mounted on front part of frame. EFFECT: increased efficiency by combined processes, reduced power consumption and improved quality of raw licorice material. 8 cl, 13 dwg

Description

 The invention relates to agriculture and agricultural engineering, in particular to technology for the technological complex of machines for the extraction of plant roots, occurring at a considerable depth, for example, licorice roots and rhizomes.

A known method of harvesting plant roots, mainly licorice, containing trimming the upper part of the roots, digging and extracting their conditioned fraction from the ground, in which the trimming of the upper part of the roots is carried out by milling strips of the upper soil horizon with continuous movement to a depth of 5-6 cm (RU, patent 2116023, C1, IPC ⁶ A 01 D 91/02). The method of harvesting plant roots // Saldaev A.M., Kolganov A.V., Borodychev V.V. Declared July 10, 1997, published July 27, 1998).

 Laboratory and field research of technology elements for the extraction of licorice roots and rhizomes of the naked steppe ecotype on wild thickets in the period 1995-1997. showed encouraging results. The use of this operation in real production subsequently made it possible to exclude the labor-intensive manual operation of dismembering dead and non-commodity parts from the conditioned parts of licorice roots and rhizomes. This operation annually releases a team of 40-45 workers while harvesting 100 tons of dry root per year.

There is also known a method of harvesting licorice roots, including mowing the aerial parts of plants, cutting the surface layer with root necks and a karabash, digging and extracting roots from the soil, in which cutting the surface layer with root necks and a karabash is done by soil milling by milling stubble and roots to a depth of 5- 6 cm, and after extracting the roots from a layer of 0-60 cm of a dug layer, a second turn of the upper horizon to a depth of 20-25 cm is performed, followed by sampling of the roots in the upper layer of 0-40 cm by manual collection and combing out (RU, patent 2116718, C1, IPC ⁶ A 01 D 91/02. Method for harvesting licorice roots // Saldaev A.M., Kolganov A.V., Borodychev V.V. Declared July 10, 1997, published August 10 .1998).

 The disadvantages of the described method include an extended process in time and space, namely the extraction of the roots and rhizomes of licorice in two stages. This reduces productivity and increases direct costs. The cost of 1 kg of dry root at prices as of December 1, 1999 is 18.8 rubles.

In addition to these methods, a method for extracting licorice roots is known, including cutting and grinding of aboveground parts, digging and extracting the conditioned fraction from the ground, in which digging and extracting the conditioned fractions of licorice roots is carried out in 1-3 m wide strips, and licorice reservations are created between the removed strips with natural herbaceous plants, while before harvesting the licorice roots in the said strips, the roots of the plants and Karabash are removed by milling the soil layer to a depth of 3-6 cm, and after harvesting the extracted roots, yayut seeding natural mixtures, preferably cereal, with a seeding rate of 20-25 kg / ha (10,6 • -11,7 • June ¹⁰ June ¹⁰ pcs / ha) at a depth of 1.5-2.5 cm. (RU, patent 2118484, C1, IPC ⁶ A 01 D 91/02. Method for the extraction of licorice roots // Saldaev AM, Kolganov AV, Borodychev VV Claimed July 10, 1997, published September 10, 1998) .

 The results of a four-year production audit (1997-2000, KZ Rodina, Narimanov district of the Astrakhan region) established the consistent execution of technological operations, namely: 1) cutting and grinding of aboveground parts; 2) removal of plant roots and Karabash by milling the top soil layer to a depth of 3-6 cm; 3) digging and extracting the conditioned fractions of licorice roots; 4) reclamation of strips after harvesting the roots by sowing natural grass mixtures.

 The disadvantage of this method is that the process is time-consuming and is performed by 7 different machines in aggregate with tractors of draft class 1.4-3: KIR-1.5B; UDC-2.0, MDK-1.1; PKS 2.0; ZKVG-1.4; CH-16PM; EKSH-6A. The most energy-intensive process is carried out by a machine for the extraction of licorice roots MDK-1.1. In the summer, the root-containing formation turns into a soil plate reinforced by the roots and rhizomes of licorice, equal in strength to the structures of reinforced concrete floors. Drive working bodies of the machine layer is not worked out. The layer with the dimensions of the pieces of plates 1.1 • 1.5 • 0.5 m is laid again in the ditch.

The closest in nature and number of common features to the claimed method is a known method for harvesting licorice roots, including mowing aboveground shoots and stems of related plants in associations of natural thickets, cutting the surface layer of the soil with root necks and carabash, digging, root extraction and separation of the root-containing layer soil into a ditch, in which, with continuous movement, cutting of the surface soil layer with root necks and carabash is performed by milling to a depth of 0.015- 0.035 m, a root-containing formation is dug up mainly along the perimeter of a rectangle with sides 0.4 • 1.1 m to a depth of 80-90% of the main biological root mass, commodity roots are extracted from the trimmed root-containing layer by impacts from below the layer raised from the ditch, and the root-containing separation is separated soil layer in a ditch with the original location of the genetic horizons (RU, patent 2123250, C1, IPC ⁶ A 01 D 25/02, 91/02. Method for harvesting licorice roots and a machine for its implementation // Kruzhilin I.P., Saldaev A. M. Declared December 23, 1997, publ. It was cofounded on December 20, 1998).

 We have accepted this method as the closest analogue. The disadvantages of this method include extended in time sequentially performed operations. When pruning the formation with a thickness of 0.4-0.6 m at the depth without prior loosening of the root-containing formation, the licorice roots and rhizomes are not removed to the day surface. The energy costs for this operation exceed in total all the costs required to perform the remaining operations.

A device for removing non-marketable parts of licorice roots is known, comprising a frame, hinge brackets, racks, a milling drum with cutting knives, a milling drum drive in the form of a cylindrical gearbox, an intermediate shaft, a bevel gearbox and a telescopic universal joint shaft with universal joints at its ends, in which each the cutting knife is made in the form of a U-shaped bracket with a single-sided blade in the horizontal and longitudinal sections, while the longitudinal sections of adjacent knives are placed with mutual overlap on the discs of the milling roller and the support frame is mounted on the ski by means of struts (RU, patent 2122778, C 1, ⁶ MPK A 01 D 25/02. Device for removing parts monetized licorice root // Kruzhilin IP, Saldana AM Declared December 23, 1997, published December 10, 1998).

 We accepted this device as the closest analogue in part of the first device for implementing the claimed invention.

 The disadvantages of the analyzed device should include the execution of only one operation - the removal of Karabash, stubble and destruction of turf.

A licorice root extraction machine, comprising a frame and a sequentially mounted trimming working member, an extracting working member and its drive, which is equipped with circular knives, an additional frame and a knife drum with a drive, wherein the knife drum is placed between the cutting and extracting working bodies; the knife drum and its drive are mounted on an additional frame; the knife drum is equipped with telescopic racks placed to move in the cylindrical hollow racks of the additional frame and additionally connected to them by screw mechanisms; the drive of the knife drum is placed in the cavity of one of the interfaces: telescopic rack of the drum - a cylindrical rack of an additional frame; the drive of the knife drum is made in the form of a shaft with an asterisk for the profile of the gear drive chain, from a closed loop with the leading and driven branches of the gear drive chain and the driven sprocket covered by the contour on the splined axle of the knife drum; the knife drum and the extracting working body are mounted sequentially on an additional frame; the knife drum is equipped with telescopic racks placed to move in the cylindrical hollow racks of the additional frame and additionally connected to them by screw mechanisms; the drive of the knife drum is placed in the cavity of one of the interfaces: telescopic rack of the drum - a cylindrical hollow rack of an additional frame; the drive of the knife drum is made in the form of a drive shaft with an asterisk for the profile of the gear drive chain, from a closed loop with the leading and driven branches of the gear drive chain and the driven sprocket covered by the contour on the splined axle of the knife drum; the knife drum and the extracting working bodies are mounted sequentially on an additional frame; the cutting working body has a horizontal knife with a removable blade on the front part and inclined elevators displaced back from the removable blade, the horizontal knife with a frame connected to the uprights with cutting edges on the front part; the frame is pivotally connected to the additional frame and connected with it by a hydraulic actuator to transfer the additional frame to the working and transport positions; the extracting working body is made in the form of a rotor with fangs and with its drive, which are mounted on an additional frame; the rotor drive is made by sequential placement of bevel gears and connecting shafts mutually connected by chain couplings in the kinematic chain; drives of a knife drum and an extracting working body on an additional frame are placed outside the rotor operating zone; circular knives and a cutting working body are placed on the brackets of the frame, while the disk knives and inclined racks of the cutting working body are placed sequentially in the longitudinal-vertical plane (RU, patent 2123250, C1, IPC ⁶ A 01 D 25/02, 91/02. Method harvesting licorice roots and a machine for its implementation // Kruzhilin I.P., Saldaev A.M. Declared December 23, 1997, published December 20, 1998).

 The described machine simultaneously performs two technological operations: removing Karabash and extracting licorice roots to the surface. The machine works satisfactorily on soil with a moisture content in the layer of 0 ... 0.5 m not lower than 18-24%. When working on dry soils with an extracting working body, the formation is not worked out. The impact of the fangs of the drive rotor entangled layer is not destroyed.

A known machine for the extraction of licorice roots, containing a frame, supporting-copying wheels, sequentially installed working body for digging, lifting, moving and primary separation of the root-containing soil layer and a working body for secondary separation of the soil layer, in which the working body for digging, lifting, moving and primary separation is made in the form of a U-shaped cutting knife, the front parts of which are equipped with cutting edges on removable blades, a lift is placed on the specific part from the horizontal blade nickels of the soil undercutting layer, and the working body for the secondary separation of the soil layer is made in the form of a drive rotor with radially directed canines, and the said rotor is placed on an additional frame, pivotally connected to the main frame and equipped with the possibility of translation into the working and transport positions, while the frame is equipped with screens located in front of the rotor; the frame is made of a U-shaped form from vertical and horizontal beams; the frame is equipped with blocks of hinge brackets made with the possibility of hanging on the suspension of tractors of draft class 3, 4, 5 and 6; hitch brackets are provided with fingers of different sizes; the additional frame is made in an H-shape; it is equipped with a hydraulic actuator located between the brackets on the vertical beams of the U-shaped frame and the brackets on the lower faces of the H-shaped frame; rotor drive is placed on an additional frame; the rotor drive is equipped with a main gearbox, a safety clutch and two contours of chain transmissions; installed in the planes of the H-shaped frame; the rotor axis of the additional frame in the hinges of the main frame is made coaxial with the axes of the safety clutch and the main gearbox; an additional rotor frame is connected to the frame of the machine by a transport link; supporting copy wheels are equipped with screw mechanisms; the rotor screen is made in the form of curved arcs facing the consoles in the direction of rotation of the rotor fangs, and flexible links, the ends of which are oriented towards the U-shaped cutting knife; the screen from curved arcs is equipped with the ability to rotate relative to the transverse beam of the additional frame (RU, patent 2116715, C1, IPC ⁶ A 01 D 25/02. Machine for the extraction of licorice roots // Saldaev AM, Kolganov AV, Borodychev V .V. Claimed 07/10/1977 published 10/08/1998).

 We adopted this machine as the closest analogue for the third, most energy-intensive technological operation.

 The disadvantages of this machine include high energy consumption, a low degree of extraction of the root mass, mechanical damage to the fangs of the driving rotor of the roots and rhizomes of licorice.

It is known a tool for collecting and transporting, containing a frame, brackets of the implement’s hitch, a hydraulic drive, supporting wheels, pick-up and side teeth, in which the side and pick-up teeth are curved in the form of parabolic branches and are placed on the supporting beam and on a closed transverse oval contour, the lower branch which is offset in the direction of the supporting beam from the front ends of the picking teeth, while the lateral teeth, upper and lower branches of the picking teeth are equally spaced by means of distance brackets from the bearing beam and the oval contour, and the formed lattice capacity between the branches of the picking teeth, the upper branch of the oval contour, the supporting beam, the lateral teeth and the parts of the lower branches of the picking teeth between the supporting beam and the lower branch of the oval contour is covered by a "Rabitsa" type mesh, while the perimeter the "Rabitsa" mesh is connected by a closed loop of a rope placed at the ends and in the mating points of the said teeth; support wheels are mounted on the brackets of the carrier beam; the lattice tank is pivotally connected to the frame, and the hydraulic actuator is placed between them; the axles of the supporting wheels of the carrier beam are made of coaxial axes of hinges connecting the frame with the carrier beam of the lattice tank; mesh cells "Rabitsa" made equal to 40 • 40 ... 80 • 80 mm ² (RU, patent 2124827, C1, IPC ⁶ A 01 D 51/00. Tool for assembly and transportation // Saldaev AM, Kolganov A .V., Borodychev V.V. Declared July 10, 1997, published January 20, 1999).

 The disadvantages of the tool include an incomplete selection of powdered roots.

Known trailer special PSE-F-12.5B in the embodiment for the transport of goods with a density of 0.3-0.8 t / m ³ , equipped with a frame, towing device, front axle and rear axle with wheels and hubs, front and rear suspensions , brake system, loading platform, front side, side and rear sides, loading platform hydraulic lift, safety rack and electrical equipment (see Special Capacity Trailer PSE-F-12.5B. Operating Instructions (for operator) / Minsk. Publishing House Polymya production facility “Gomselmash”, 1990. - S. 46. - Fig. 2, p. 5, Fig. 3, p. 6, Fig. 12, p. 20.).

 We accepted this capacity as the closest analogue in the part of the machine for harvesting plant roots, i.e. to complete the last combined technological operations - the selection of roots, moving them to the cargo platform of the body, transportation and reclamation of the strip by rolling the upper part of the strip. The harvesting operation is carried out by a team of 13-15 workers.

 The invention consists in the following.

 The task to which the claimed invention is directed is to reduce the cost of each ton of raw licorice root to the level of 7-8 rubles for each kilogram of dry licorice root in prices as of June 1, 2000.

 The technical result is the exclusion of unproductive manual labor, increasing productivity, combining technological operations, reducing energy costs and improving the quality of licorice raw materials.

 The specified technical result when carrying out the invention in terms of the method is achieved by the fact that in the known method for the extraction of licorice roots and rhizomes, including mowing, grinding and even distribution of the crushed parts of the vegetative shoots on the surface of the prepared strip, removing stubble and carabash, cutting the root-containing formation, extracting the root mass , its laying on the surface of the strip, harvesting of raw materials, its transportation and reclamation of the strip, according to the invention, the extraction of licorice raw materials with continuous This movement is performed in stages by combining the above and new operations: when stubble and karabash are removed, the middle part of the strip is loosened to a depth of 60-80% of the main mass of roots and rhizomes, the formation is cut outside the loosened zone, and when the extracted roots are laid on the strip surface, a narrowed the roll, when harvesting the raw root and its transportation, the upper layer of the harvested strip is rolled.

 The technical result in the implementation of the invention in the first part of the technical means is achieved by the fact that in the known device for removing non-commodity parts of licorice roots containing a frame, supporting copiers, hinge brackets, racks, a milling drum with cutting knives, a milling drum drive in the form of a cylindrical gear and cardan telescopic shaft with universal joints at its ends, according to the invention, behind the milling drum with the possibility of discrete reinstallation along the height of the frame mounted rack p hlitelya, the front part of which is equipped with a blade, and the lower part - a chisel, support copiers are placed on the frame between the milling drum and the counter ripper.

 The technical result in the implementation of the invention in the second part of the technical means is achieved by the fact that in the known machine for the extraction of licorice roots, containing an additional H-shaped frame, equipped with a hydraulic actuator and the ability to translate into working and transport positions and pivotally connected to the main frame, supporting-copy wheels sequentially mounted on an additional frame, a working body for digging, lifting, moving and the primary operation of the root-containing soil layer in the form of a U-shaped cutting a knife, the front parts of which are equipped with cutting edges on removable blades, on the remote part of the horizontal blade are elevators of the cut soil layer, a working body for the secondary separation of the soil layer in the form of a drive rotor with radially directed canines, placed on an additional frame is the rotor drive in the form of a main gearbox , safety clutch and chain transmission circuits, and the axis of rotation of the additional frame in the hinges of the main frame is made coaxial with the axes of the safety clutch and the main gearbox According to the invention provided with a hook-pierced base frame made Δ-shape, and an extra frame sequentially mounted U-shaped undercut knife provided with final drives the drive rotors, the rake and support-guide wheels.

 The technical result in the implementation of the invention in the third part of the technical means is achieved by the fact that in a known machine for harvesting plant roots containing a sprung frame, a tow bar, a towing device, a turntable, a front axle with wheels, a rear axle with wheels, front and rear suspensions , brake system, cargo platform, side and rear sides, hydraulic lift of the cargo platform, safety rack and electrical equipment, according to the invention it is equipped with mounted on the front of the frame and sleep rotor with fangs and inclined conveyor sequentially installed by drives, and a water-filled roller equipped with a lifting mechanism is installed on the rear of the frame; the lifting mechanism of the water-filled roller is made in the form of a power cylinder, the rod of which is connected to the H-shaped frame of the roller, and the base of the power cylinder is mounted on a rack connected to the towbar of the machine frame; the translation drive of the inclined conveyor and rotor is made in the form of a power hydraulic cylinder, the base of which is pivotally connected to the frame, and its rod is kinematically connected by an antiparallelogram mechanism to the U-shaped frame of the rotor; the lower part of the inclined conveyor and the rotor are mounted between the longitudinal bars of the towing device.

 Due to the fact that the proposed technical means of combining technological operations with three consecutive passages carry out the entire cycle of extracting licorice roots and reclamation of treated strips, the above technical result is achieved.

 The invention is illustrated in FIG. 1-13.

 In FIG. 1 shows the final result of the process of removing vegetative shoots of licorice naked, a transverse section of a root-containing formation, for example, in a flooded floodplain of the river. Volga.

 Figure 2 presents the process of removing stubble of concomitant herbs and licorice in natural thickets, non-commodity part of the root mass and destruction of sod.

 Figure 3 shows the process of loosening part of the root containing formation.

 Figure 4 schematically shows a cross section of the treated strip after removing the root mass and its laying in the roll.

 Figure 5 - the same, after harvesting licorice raw materials and reclamation of the surface of the treated strip in licorice thickets.

 Figure 6 schematically shows a device for removing non-commodity parts of licorice roots, plan view.

 In Fig.7 is the same, in projection communication, side view.

 On Fig - machine for the extraction of licorice roots, side view, trailed version, in transport position.

 Figure 9 is the same, plan view.

 In FIG. 10 - the same, when performing the technological process of cutting a root-containing formation, its rise above the groove, deformation of the formation and extraction of roots, the formation of a narrowed roll.

 In FIG. 11 schematically, without an aggregate tractor, a machine for harvesting plant roots when performing a process is presented.

 On Fig is the same, plan view.

 In FIG. 13 - the same, in the transport position after unloading the root mass.

 Information confirming the possibility of implementing the claimed invention is as follows.

 Elevated shoots and root mass of licorice are a valuable plant material. Its use is chemical, medical, pharmaceutical, tobacco, canning, confectionery, food, perfumery and other industries.

Stocks of the root mass of licorice by region of the Russian Federation (in thousands of tons):
Astrakhan region - 4572
Volgograd region - 856
Republic of Kalmykia - 104
Stavropol Territory - 575
Republic of Dagestan - 1317
Saratov Region - 87
Licorice root productivity in wild thickets of floodplain ecotype is 20-60 t / ha, steppe ecotype is 12-15 t / ha.

 Licorice raw materials are supplied to domestic and foreign markets in pressed bales weighing 100 kg and 200 kg, as well as shredded root, ground root (powder), peeled root, normalized root, syrup, thick and dry licorice root extract and glycyrrhizic acid powder.

 The price of 1 kg of dry licorice root in the domestic market varies from 0.8 to 1.25 US dollars. The price of a thick extract reaches from 3 to 5 cu for 1 kg.

 Overground shoots, for example, licorice with a mowing grinder-rotary KIR-1,5B in aggregate with a tractor MTZ-80 are mowed, crushed with a cutting length of 50-100 mm and evenly distributed over the surface of the prepared strip. After the passage of the described aggregate, a section of wild licorice (Ural) licorice thickets with stubble 1 10-15 cm high remains (see Fig. 1). Next, in the mowed area with chopped vegetative shoots on the surface of the prepared strip, stubble 1 and licorice gum are removed (see Fig. 2). This operation is carried out using the working bodies of milling machines. Layer 2 is milled to a depth of 3-5 cm. In this case, the roots of wild herbs, non-market parts from the apical parts of the roots 3 and the remaining vegetative shoots in the form of stubble are cut 1. Extraction of licorice root during continuous movement is carried out in stages by combining the above and new operations. When stubble 1 and licorice karabash are removed, the middle part of the strip is loosened to a depth of 60-80% of the main mass of licorice roots and rhizomes. Cultivation is carried out by passive tillage working bodies in the form of knife-shaped racks. After the passage of the working bodies, loosened zones 4 remain on the sides of the open slot 5 (Fig. 3). The shearing of the root-containing formation and its loosening occurs from the bottom up to the vertical at an angle α. Undercutting of the root-containing formation 6 is carried out outside the loosened zones 4. From the undercut formation 6, the root mass is extracted and laid on the strip surface. When laying the extracted roots 3 on the surface of the strip form a narrowed roller 7 (figure 4).

 When harvesting raw root 3 and its transportation, the top layer 8 of the harvested strip is rolled in (see Fig. 5).

 The proposed method is implemented by three tractor units successively moving in the direction of harvesting. The first unit includes a caterpillar tractor (DT-75M, VT-100, T-150) of traction class 3 and a device for removing non-commodity parts of the licorice roots UDC-2.0 (see Fig. 6 and 7). The second unit contains the mentioned tractor and a machine for the extraction of licorice roots MDK-1,1 (Fig. 8-10). The third unit is equipped with a wheel tractor of traction class 1.4 and a machine for harvesting plant roots MUK-2.0 on the basis of a special capacity trailer PSE-F-12.5B.

 A device for removing non-marketable parts of licorice roots (see Figs. 6 and 7) contains a frame 9, supporting copiers 10 and 11, hinge brackets 12, 13 and 14, racks 15, a milling drum 16 with cutting knives 17, a milling drum drive 16 in in the form of a cylindrical gearbox 18, an intermediate shaft 19, a bevel gearbox 20 and a telescopic universal joint shaft 21 with universal joints 22 at its ends. Behind the milling drum 16 with the possibility of discrete reinstallation along the height of the frame 9 is installed rack 23 of the ripper. The front part of the stand 23 is equipped with a blade 24, and its lower part is provided with a chisel 25. The supporting copiers 10 and 11 are placed on the frame 9 between the milling drum 16 and the stand 23 of the cultivator.

 The licorice root extraction machine (see Figs. 9-10) contains an additional U-shaped frame 26, equipped with a hydraulic actuator 27 and the ability to translate into working and transport positions and pivotally connected to the main frame 28, backup wheels 29 and 30, sequentially mounted on an additional frame 26, the working body 31 for digging, lifting, moving and primary separation of the root-containing soil layer in the form of a U-shaped cutting knife, the front parts of which are equipped with cutting edges 32 on removable blades, on the remote part and from the horizontal blade 33 there are hoists 34 of the cut soil layer 6, a working member 35 for secondary separation of the soil layer 6 in the form of a drive rotor with radially directed fangs 36, the rotor drive of the working body 35 in the form of a main gearbox 37, a safety clutch is placed on an additional frame 26 28 and closed loop circuits. The axis of rotation of the additional frame 26 in the hinges 39 of the main frame 28 is made coaxial with the axes of the safety clutch 38 and the main gearbox 37.

 Equipped with a trailed earring 39, the main frame 28 is made Δ-shaped. On an additional frame 26, a U-shaped cutting knife of the working body 31 is serially mounted, equipped with final drives 40 and 41, drive rotor of the working body 35 and an additional rotor of the working body 42 with fangs 43, swath 44 and backup wheels 29 and 30.

 A machine for harvesting plant roots (see Figs. 11-13) comprises a sprung frame 45, a tow bar, a towing device 46, a turntable 47, a front axle with wheels 48, a rear axle with wheels 49, front and rear suspensions, and a brake system , a cargo platform 50 with side and rear sides 51, 52 and 53, a hydraulic lift 54 of the cargo platform 50, a safety rack and electrical equipment.

 The machine is equipped with sequentially mounted rotor 55 with fangs 56 and an inclined conveyor 57 mounted on the front of the frame 45 and equipped with drives. A water filling roller 59 equipped with a lifting mechanism 58 is installed at the rear of the frame 45. The water filling roller 59 has a drain plug at the end.

 The lifting mechanism 58 of the water filling roller 59 is made in the form of a power hydraulic cylinder. The hydraulic cylinder rod is connected to the H-shaped frame 60 of the roller 59. The base of the power cylinder is mounted on a stand 61 connected to the towbar of the machine frame 45.

 The translation drive of the inclined conveyor 57 and the rotor 55 is made in the form of a power hydraulic cylinder 62, the base of the hydraulic cylinder 62 is pivotally connected to the front of the frame 45. The rod of the hydraulic cylinder 62 is kinematically connected by the antiparallelogram mechanism 63 to the U-shaped frame 64 of the rotor 55. The lower part of the inclined conveyor 57 and the rotor 55 mounted between the longitudinal bars 65 of the towbar 46.

 The process of extraction of licorice raw materials is as follows.

 Mowing, grinding and distribution of cutting from aboveground shoots of licorice by the commercially available KIR-1,5B machine is well known.

 Removing non-marketed parts of licorice is as follows. Any tractor of traction class 3 is used as an energy source. Preference is given to tracked tractors.

 The device frame 9 (see Figs. 7 and 8) is connected to the tie rods of the tractor’s hydraulic system by means of brackets 12, 13 and 14 and quick-release fingers with diameters of 30 and 35 mm. The three-point linkage scheme. After hitching, the lower links of the hinged system are blocked by chains. The tractor’s power take-off shaft (PTO) is connected to the universal joint Hook 22 of the telescopic driveshaft 21. A visual and instrumental check of the technical condition of the device and maintenance are carried out. At low engine speeds check the operation of the drive units of the milling drum 16. In the field, carry out the following adjustments. After determining the productivity of natural licorice thickets, the ripper rack 23 is displaced on the frame 9 either up or down. The bit 25 of the rack 23 should go at a depth of at least 45 ... 60 cm from the surface of the field. Using the screw mechanisms of the supporting copiers 10 and 11, the milling depth is set in strips 2. When the rack is buried 23, by changing the length of the central upper link of the tractor hitch, the horizontal position of the frame 9 is achieved. The axes of the fingers in the brackets 12 and 13 should be set in the working position on the plumb line. The unit is ready for operation.

 When the unit moves at an operating speed of 0.5-0.8 m / s, the knives 17 cut a thin layer of soil and, together with it, plant and root residues (mortmass, roots of herbs associated with the association, dead parts of licorice and stubble in the form of licorice shoots). Each knife 17 produces cutting on an elastic basis. Due to the greater peripheral speed of the milling drum, 16 parts of the stems and stubble together with the soil aggregates are shifted back, forming a loose layer 3-5 cm thick. Thus, substandard parts are removed from the marketable raw materials in the form of licorice roots and rhizomes. The rack 23 installed with some removal behind the milling drum makes loosening of the root-containing layer 6. The bit 25 of the rack 23 holds it at a predetermined depth. The blade 24 of the rack 23 cuts vertically root-containing formation. The combined effect of the bit 25 of the blade 24 of the rack 23 leads to the fact that the formation is chipped off at angles α to the vertical, and the soil undergoes deformation. The cross sections of the formation 6 before and after exposure to the ripper stand 23 are shown in FIGS. 2 and 3. In the middle part of the treated formation, an open slot 5 remains. In this previously prepared condition, the formation 6 together with the loosened zones 4 remains until the passage of the next machine.

 Trimming the root-containing formation, extracting the root mass, laying the soil and soil in a ditch and forming a narrowed roll from the roots and rhizomes of licorice to the surface of the harvested strip is as follows.

 The main frame 28 of the machine is connected by means of a hooked earring 39 to the towbar of a tractor of draft class 3 (see Fig. 8). Using a high pressure sleeve, the left section of the tractor hydraulic distributor is connected to the rodless cavity of the power hydraulic cylinder 27 of the auxiliary frame 26. The PTO of the aggregated tractor is connected by a universal Hook joint with PTO shaft of the machine for transmitting torque with a given frequency to the main bevel gear 37. By moving the left handle of the tractor control valve several times vnuyu frame 28 and the additional frame 26 is transferred to the working and transport position. These positions are shown in Figs. 8 and 10. Next, the machine operator checks the technical condition of the drive units of the rotors of the working bodies 35 and 42 (see Figs. 8-10). When the engine is running and the tractor PTO is on, the power to the fangs 36 and 43 of the rotors of the working bodies 35 and 42 is transmitted as follows. When the PTO shaft is rotated, the drive and driven shafts of the bevel gear 37 receive rotation, by which the transmitted power is distributed into two streams. From the left end of the gearbox 37, the power is removed to the safety clutch 38, then to the final drive 40, and from it to the left splined pin of the rotor of the working body 35. From the right output end of the gear 37, the power is taken to the safety clutch of a similar concentration, and then - to the right side gear 41 and from it to the right splined pin of the additional rotor of the working body 42. The rotation frequency of the working body 42 is two times higher than the speed of the working body 35.

 The position of the working body 31 on the additional frame 26 is specified in the field. To change the position of the working body 31 in the vertical racks of the U-shaped knife, mechanisms are provided for adjusting the horizontal position of the blade 33 at a given depth of soil and soil treatment. A mechanism is installed on the rod of the power hydraulic cylinder to limit mutual angular displacements of the main frame 28 and the additional frame 26.

 A unit for extracting licorice roots saddles a pre-prepared strip.

During the translational movement of the tractor, its traction from the tow bar is transmitted to the towed hook 39 and the main frame 28. Then, through a pair of hinges 39 ', the force is transmitted to the additional frame 26. Moving the additional frame 26 causes the cutting edges 32 on the removable U-shaped blades a cutting knife, a root-containing layer of a cross-section of 1.78 • 0.45 m ² is cut. The trimmed layer along inclined elevators 34 rises above the ditch by at least 0.35-0.45 m. Fangs 36 of the rotor of the working body produce impact from the bottom up. The soil, which has been previously vertically divided and partially deformed, is subjected to intense action of the fangs 36. With the fangs 36, the formation crumbles into lumps, which are still held by skeletal roots. Installed behind the working body 36, an additional rotor of the working body 42 with its fangs 43 crushes clods to agronomically valuable soil fractions due to a higher rotation frequency.

 The liberated roots and rhizomes with the fangs 43 of the rotor 42 are dumped onto the left and right parts of the swather 44. With swath 44, the root mass is narrowed and laid on the surface of the treated strip with a swath width of not more than 0.6-0.8 m. The back of the additional frame 26 rests in the working position a pair of pneumatic wheels 29 and 30. At the end of the strip, without turning off the tractor PTO, the machine operator puts the left valve of the control valve into the “Lift” position. The stem of the power hydraulic cylinder 27 extends from the sleeve. This leads to the fact that the main frame 28 rotates in a pair of coaxial hinges 39 'of the additional frame 26. The rear of the frame 26 rests on the wheels 29 and 30, and the front of the frame 28 through the earring 39 on the towbar of the tractor. The working bodies 31, 35 and 42 above the surface of the strip are placed on the value of the transport clearance hmp in the range of 350-380 mm (see Fig. 8). After that, the machine operator on the headland deploys the unit to the adjacent lane with the previous passage. Subsequently, the process is repeated in the above sequence.

 Behind an aggregate for root extraction by saddling a roll 7, an aggregate for harvesting plant roots moves from the root mass of licorice. The unit includes a wheeled tractor of draft class 1.4 and the machine shown in Fig.11-13.

 Before starting work, the machine operator connects the tractor’s hydraulic distributor with high-pressure hoses to the hydraulic rams 58, 62 and hydraulic jack 54. The hydraulic rams 58 and 62 are connected hydraulically to the tractor’s hydraulic circuit in parallel and are controlled by the left handle of the hydraulic ram. The hydraulic lift 54 is hydraulically connected to the right section of the tractor control valve. The tractor PTO is kinematically connected with the drive of the rotor 55 and the inclined conveyor 57. Before starting work in the transport position of the rotor 55 and the conveyor 57, the normal operation of the drive units is checked. When the PTO rotates through the driveshaft and intermediate shafts, the torque is transmitted to the bevel gearbox, and from it by chain transmission to the rotor 55 and directly to the drive drum of the inclined conveyor. Further, controlling the left handle of the hydraulic distributor, the H-shaped frame 60 of the water filling roller 59 and the inclined conveyor 57 are moved to the working and non-working positions. So, when the working fluid enters the rod cavity of the power hydraulic cylinder 58, the frame 60 occupies the position shown in Fig. 13 and provides a predetermined transport clearance for trouble-free movement on any roads and agricultural lands. to the land.

 When moving the left handle of the hydraulic well to the same "Lift" position, the working fluid from the tractor hydraulic network enters in a parallel flow into the rodless cavity of the power hydraulic cylinder 62.

 The movement of the rod from the cavity of the liner of the hydraulic cylinder 62 leads to the fact that at the same time there is a double effect: on the frame of the inclined conveyor and by means of the antiparallelogram mechanism 63 on the U-shaped frame 64 of the rotor 55. The rod of the hydraulic cylinder 62 presses the fist and the frame of the conveyor 57. When the fist is angled through the rods, the frame 64 of the rotor 55 rotates, and with a linear shift of the fist, the frame of the inclined conveyor 57 occupies the transport position (see Fig. 13). To translate the water filling roller 59, the rotor 55 and the conveyor 57, the left handle of the hydraulic distributor is moved to the "Lower" position.

With steady motion when the narrowed roll is saddled with 7 fangs 56 of the rotor 55, the roots partially sprinkled with soil and lying on the surface of layer 2 are transferred to the leading branch of the conveyor 57. The roots and rhizomes rise above the body and are dumped onto the middle part of the loading platform 50 with the scrapers of the conveyor. that the density of the newly extracted root mass in the back of the PSE-F-12.5B trolley does not exceed 70-85 kg / m ³ . For this reason, the tailgate 53 and the starboard 51 are extended by extension sides, increasing the volume of the body to 15-20 m ³ .

 When harvesting roots from the surface of the strip, the conveyor 57 moves into the body and simultaneously moves over a groove filled with loosened soil and soil. Reclamation of the strip is carried out by rolling the upper layer. Under the influence of the hydraulic cylinder rod 58, the N-shaped frame 60 rotates on the coaxial hinges of the frame 45. The water filling roller 59 under its own weight (in the case of dry soil under the additional weight of liquid ballast and part of the mass of the trailer tank PSE-F-12.5B) is sealed in a ditch layer of soil and soil.

 Thus, this set of sequentially performed technological operations ensures the continuous extraction of licorice raw materials with the reclamation of the treated strips. Reclamation of loosened stripes eliminates the negative processes of solar, wind and water erosion. The remaining unrecovered roots during soil compaction do not lose their regenerative potentials and are able to grow again and thereby restore the productivity of licorice thickets in the bands.

 One harvesting unit is aimed at performing the indicated mechanized operations. When filling the capacity of the loading platform 50, the machine operator of the water-filling roller 59, the rotor 55 and the inclined conveyor 57 translates into a transport position. Due to the towing device 46, a towing machine with a body filled, the machine operator moves the root mass to the point of primary work. To unload the body, the operator on the left side of the frame 45 removes two locking pins. When you turn on the left section of the control valve in the "Lift" position, the hydraulic platform tilts the load platform 50 onto the right side. The root mass slides from the surface of the platform 50. The roots and rhizomes are sorted into the conditioned and non-commodity parts. The root mass is subjected to washing, drying, pressing and packaging. After certification of raw materials, the mass is delivered either to the customer, or to domestic or foreign markets.

 Thus, two machine operators exclude the unproductive work of a team of 15-20 people in the field when harvesting 100 tons of dry root per field season. The combination of some well-known and newly introduced technological operations allowed to reduce energy consumption, increase labor productivity, increase the yield of commodity raw materials and their quality, accelerate the recovery of natural licorice reserves, cultivate wild bushes and exclude processes of wind and water erosion.

Claims (8)

 1. A method of extracting licorice roots and rhizomes, characterized in that the milled parts of vegetative shoots are mowed, crushed and evenly distributed over the surface of the prepared strip, stubble and carabash are removed, the root-containing layer is cut, the root mass is extracted, it is laid on the strip surface, continuous movement is carried out in stages with a combination of the above and new operations: when stubble and karabash are removed, the middle part of the strip is loosened to a depth of 60-80% of the root mass th and rhizomes, undercutting of the formation is carried out outside the loosened zone, when laying the extracted roots on the surface of the strip, a narrowed roll is formed, when harvesting the raw root and its transportation, the upper layer of the harvested strip is rolled.  2. A device for removing non-marketable parts of licorice roots, containing a frame, supporting copiers, hinge brackets, racks, a milling drum with cutting knives, a milling drum drive in the form of a cylindrical gearbox, an intermediate shaft, a bevel gearbox and a telescopic universal joint shaft with universal joints at its ends moreover, behind the milling drum with the possibility of discrete reinstallation along the height of the frame, a ripper is installed, the front part of which is equipped with a blade, and the lower part is equipped with a chisel.  3. The device according to p. 2, containing supporting copiers placed on the frame between the milling drum and the rack of the ripper.  4. Machine for the extraction of licorice roots, containing an additional H-shaped frame, equipped with a hydraulic actuator and the ability to translate into working and transport positions and pivotally connected to the main frame, supporting-copying wheels, sequentially mounted on the additional frame working body for digging, lifting, moving and primary separation of the root-containing soil layer in the form of a U-shaped cutting knife, the front parts of which are equipped with cutting edges on removable blades, at a remote part from the horizontal the blades are placed elevators of the trimmed soil layer, the working body for the secondary separation of the soil layer in the form of a drive rotor with radially directed fangs, the rotor drive in the form of a main gearbox, a safety clutch and circuits of closed chain transmissions placed on an additional frame, and the axis of rotation of the additional frame in the main hinges the frame is made coaxial with the axes of the safety clutch and the main gearbox, and the main frame equipped with a hooked earring is made Δ-shaped, and on the additional frame The U-shaped cutting knife, drive rotors, swather and backup wheels equipped with final drives are mounted.  5. A machine for harvesting plant roots, comprising a sprung frame, a tow bar, a towing device, a turntable, a front axle with wheels, a rear axle with wheels, a front and rear suspension, a brake system, a loading platform with side and rear sides, a cargo hydraulic lift platforms, a safety rack and electrical equipment, and it has mounted on the front of the frame, equipped with drives sequentially mounted rotor with fangs and an inclined conveyor, and on the back of the frame is equipped with lifting mechanism of the water filling roller.  6. The machine according to claim 5, containing the lifting mechanism of the water-filled roller, made in the form of a power hydraulic cylinder, the rod of which is connected to the H-shaped frame of the roller, and the base of the power cylinder is mounted on a rack connected to the towbar of the machine frame.  7. The machine according to claim 5, comprising a drive for converting the inclined conveyor and rotor, made in the form of a power hydraulic cylinder, the base of which is pivotally connected to the front of the frame, and its rod is kinematically connected by an antiparallelogram mechanism to the U-shaped rotor frame.  8. The machine according to claim 5, containing an inclined conveyor, the lower part of which and the rotor are mounted between the longitudinal bars of the towing device.

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