RU2369073C1 - Universal potato cultivation unit - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: unit comprises a milling part which is fitted with a milling shaft and a tube roller and is connected to the tractor by a hitch. The milling shaft is equipped by double-cantilever segments mounted as alternating sections. Some segment sections are fixed on the shaft rigidly, the other are fastened to the half-yokes which can be demounted from the shafts. Bent rippers are mounted on the segment cantilevers by bolt connections. The rippers are of a claw shape. All segments are placed on the shaft along the spiral line. The tube roller is made of flat round sidewalls and intermediate discs with the longitudinal rods being fixed on them parallel to each other. The rods are set with spiral displacement along the roller axis. Spring-loaded planting disc coulters of the planting part of the unit are placed in the same longitudinal plane as the removable sections are. The planting unit part is a combined one comprising a frame with a drawbar mechanism and carrier wheels. The frame is fitted with a tank for protective-stimulating solution with outlet nozzles of its distribution system, a fertiliser hopper, a tuber planting unit with a turnable hopper for seed potato tubers which are set sequentially. The fertiliser hopper is equipped by a bottom distribution screw and its bottom is equipped by outlet holes. A fertiliser metre made as stars is mounted in the hopper bottom holes. The metre is interacting with twin fertiliser tubes the outlet openings of which are placed inside the planting disc coulters in their back part. The outlet nozzles of the distribution system are placed in the longitudinal plane passing between the twin fertiliser tubes. The turnable hopper is equipped by separate adjacent feeders with movable bottoms. A vertical elevator-type planting conveyor is placed under each bottom. The planting conveyor is fitted by potato metering and catching cups with the distribution system nozzles being set in their discharge zone above the planting disc coulters. A potato planting depth control wheel is mounted before each coulter. Furrow covering discs are mounted behind each depth control wheel. Rotary rippers and forming ploughshares of ridging tools are set between the furrow covering discs in the same longitudinal plane as the carrier wheels of the planting part are.

EFFECT: invention allows for the improvement of the potato planting quality due to increasing the tillage efficiency along with the simultaneous planting of potatoes into the produced ridges.

5 cl, 15 dwg

Description

The invention relates to agricultural machinery, in particular to combined units for simultaneous tillage, planting vegetables, potatoes on ridges, fertilizing and herbicides, caring for planting vegetables and potatoes.

A device for cultivating potatoes is known, including a driving milling drum mounted on the frame, behind which a hiller is arranged to adjust the depth of the stroke along the center of the row spacing, for pre-formation of a furrow, and behind the hiller there is a soil guide made in the form of two-plane conical surfaces located under sharp angle to the direction of movement, elongated dumps in the area of the bottom of the furrow and removable levelers (see patent RU No. 2231942, CL A01B 13/02, 2004). The known device is used in the processing of soil by cutting ridges before planting potatoes and tillage during the growing season, but produces potatoes. The device is quite energy intensive, because The drive milling drum has an increased power consumption.

Known planter-seeder containing furrowers, a cutter with a casing, fertilizer and seed drills, packer rollers, coulters (patent RU No. 2275777, class A01B 49/06, 2006). This aggregate forms ridges for sowing crops; at the same time, it fertilizes and then covers the seeds with soil, but it is not intended for cultivating potatoes. Its design is not universal enough to change operating modes and re-equip the unit.

Known combined furrow-forming and sowing unit for simultaneous cutting of small sown irrigation furrows and sowing crops of continuous sowing during surface irrigation by flooded flowing furrows, containing furrow-forming machines with furrow-forming paws having cylindrical dumps and a lancet plane-cutting paw, a sealing roller in the form of a cylinder sowing box, connected by the vas deferens with the coulters, trapezoidal furrow seals (patent RU No. 2303341, class A01B 49/0 6, 2007). This unit is more universal than the previous ones, but it is not intended for potato cultivation and has a number of design features that are undesirable when planting potatoes: crests are produced before sowing and fertilizing, sowing is done in the upper layer of the formed ridge, which is not processed after sowing.

A potato planter is known according to the USSR author's certificate No. 1521332, A01C 9/00, 1986, in which fertilizer machines, planting machines with a rotary hopper are sequentially installed. However, this machine is not very functional, since it does not provide soil preparation and the construction of ridges.

The closest is a milling potato planter, which includes a milling drum installed in front, loosening lancet paws with a liquid fertilizer sprayer, a tooth comb and a landing mechanism behind it with a potato tuber hopper with a comb-forming device (patent RU No. 2105452, class A01C 9/04, 1998). This unit is designed for the cultivation of potatoes, including milling the soil and throwing it in the direction of the close comb-forming working bodies. At the same time, the soil is cultivated in the spaces between the knives of the milling cutters of the drum with the help of loosening lancet paws and the process of applying liquid fertilizers by sprayers mounted on the racks of lancet paws. The cultivated soil for the potato tubers is leveled with a tooth comb. Potato tubers are laid on the prepared bed using a planting apparatus, and the soil, loosened by the milling drum knives, divided into equal parts by the sides of the dihedral wedge, is sent to the center of the formed ridge under the comb formers, sprinkling the potato tubers laid on the soil. However, the well-known milling planter has some drawbacks: the preliminary cultivation of the soil is uneven in the width of the processing unit, the soil with fertilizer ridges is partially shifted between the rows, and the height of the ridges formed above the planted tubers is limited by the design features of the comb generator.

The present invention is directed to solving the technical problem of increasing the versatility of the unit and increasing the efficiency of soil cultivation intended for planting potatoes and forming high-quality ridges, increasing the height of the ridges formed, improving the quality of planting tubers, improving the reliability of the process, expanding the technological capabilities of the unit, simplifying its installation, dismantling and refitting.

The solution of the technical problem is achieved by the fact that the universal complex for potato cultivation contains a milling part connected to the tractor by means of a tractor attachment, containing a milling shaft and a tubular roller, while the milling shaft is equipped with two-console segments mounted in the form of alternating sections, one of which is rigidly fixed to the shaft, while others are fixed on half-clamps mounted on the shaft removably, while on the consoles of the segments by means of bolted joints are installed claw-shaped cultivators, all segments being arranged along a helical line, and the tubular roller is made of flat round sidewalls and intermediate washers with longitudinally mounted parallel to each other rods, while the rods are mounted with a spiral offset around the axis of the roller, in the same longitudinal plane with removable sections are located spring-loaded landing disk coulters of the landing part of the complex, made combined and including equipped with with a chain mechanism and support wheels, a frame on which a container for a protective-stimulating solution with outlet nozzles of its distribution system, a fertilizer hopper, a tuber planting machine with a rotary storage hopper for seed potato tubers are sequentially located, the fertilizer hopper equipped with a bottom auger-distributor, and the bottom the hopper is made with outlet windows, in which the fertilizer-dosing mechanism is located, made in the form of sprockets and interacting with twin pipelines, outlet from the apertures of which are located inside the landing disk coulters in their rear zone, and the outlet nozzles of the distribution system are located in the longitudinal plane passing between the twin pipelines, and the rotary hopper is equipped with separate adjacent feeders with movable bottoms, under each of which there is a vertical elevator type planting conveyor with exciting spoons for dosing potatoes, in the discharge zone of which outlet nozzles of the distribution system are installed above the landing disk and coulters, in front of each of which a wheel for controlling the depth of planting of potatoes is installed, and behind each of which there are furrow-closing discs, between which rotary cultivators and plowshares-formers of comb-forming working bodies are located in the same longitudinal plane with the support wheels of the planting part.

The comb-forming working bodies are fixed on a frame including a front transverse and rear transverse bars connected with a longitudinal beam, connected by longitudinal beams and sidewalls, on which intermediate and lateral vertical cultivators with a removable chisel-shaped knife are mounted with height adjustment, and intermediate twin and side single rotary cultivators , each of which consists of a disk with curved knives fixed on them with the formation of a dish-shaped form, moreover, the double rotational The second cultivators are located in the same longitudinal plane with the wheels of the landing part, the frame of the comb-forming working bodies is equipped with an additional transverse beam, on which a comb-former, including double middle formers and two truncated lateral right and left formers made in a box-shaped form, is fixed, and each twin former includes a middle a two-sided share with adjoining right and left extensions and a central two-sided overlay, and the side formers are mirror mi and each of them includes a truncated middle corner share, respectively an extension either right or left and a truncated central plate, and each middle share is fixed to a fixed plate equipped with corner brackets, by means of which the formers are mounted on an additional transverse beam, while the fixed plates are connected removable plates, and the comb former is spring-loaded and equipped with a mechanism for deepening.

U-shaped brackets with coils for perforated drip irrigation hoses are installed on the transverse front beam of the frame of comb-forming working bodies.

The exciting potato-dosing spoons are located in a two-row staggered vertical pickup conveyor driven from the support wheels.

The invention is illustrated by drawings.

Figure 1 shows a universal complex for the cultivation of potatoes, top view. Figure 2 is the same side view. Figure 3 - milling part of the universal complex, side view. Figure 4 is the same, top view. Figure 5 is a section aa in figure 4. Figure 6 is a view In figure 2, the landing part of the universal complex, side view. In Fig.7 - the landing part of the universal complex, side view, with the drive of the conveyor belt of the landing mechanism and the drive of an adjustable shaker of the conveyor belt. On Fig - fertilizer hopper, side view. Figure 9 is the same front view. Figure 10 is a comb-forming part of the universal complex, side view. Figure 11 is the same, top view. 12 is a side view of a paver. On Fig is the same front view.

The universal complex for cultivating potatoes contains a milling part 1 with an attachment device 2 connected to the tractor, a landing part 3 connected to the milling part 2 by means of a trailing mechanism 4, and comb-forming working bodies 5 connected to the planting part 3 by means of a trailing mechanism 6.

The frame of the milling part 2 of the universal complex includes a main cross member 7 and an additional cross member 8 connected by sidewalls 9. A milling shaft 10 is installed on the sidewalls 9. On the outer surface of the shaft 10, two-console segments 12 are installed in the form of alternating sections, one of which is rigidly fixed to the shaft 10, and others are fixed on removable half-clamps 11. Half-clamps 11 cover the surface of the shaft 10 and are tightly tightened together. The segments 12 are mounted on the shaft 10 and on the half-clamps 11 so that the assembly is located along the shaft 10 with a slight offset around the axis of the shaft 10, forming a helix. On the consoles 13 of the segments 12 are fixed removable curved cultivators 14, made in the form of claw-shaped knives. For the implementation of continuous milling of the soil using a shaft 10, fully equipped with cultivators 14. For the processing of row spacings from the shaft 10 are removed half-clamps 11 with cultivators 14 located on the shaft 10 in the zone of formation of ridges. On the surface of the shaft 10 there are only rigidly fixed two-console segments 12 with rippers 14. At the same time, the spiral displacement of the rippers 14 relative to the shaft 10 is maintained.

The milling part 2 is equipped with a tubular roller 15, consisting of flat round sidewalls 16 of the intermediate washers 17 with longitudinal rods 18 fixed to them, which are parallel to each other, mounted along the generatrix of the sidewalls and washers of the roller 15 with a spiral displacement of one of its ends around the axis of the roller 15. Forward the roller 15 is obliquely mounted with a spring loaded plate 19 cantilevered on the additional cross member 8. The roller 15 is mounted on the additional cross member 8 by means of the end brackets 20. The milling shaft 10 is closed from above sectional arcuate protective casing 21 mounted on the sidewalls 9. The casing 21 has windows with pivoting covers 22.

The landing part 3 of the universal complex includes a towing mechanism 4 connected to the milling part 2, a frame 23, on which a fertilizer hopper 24 is mounted. In the fertilizer hopper 24, a bottom screw 25 is installed, and the bottom of the hopper is made with unloading windows 26 in which the fertilizer-dosing mechanism is arranged in the form of sprockets 27. Sprockets 27 are located above the twin pipelines 28, the outlet openings of which are located inside the landing disc coulters 29. On tanks 23 for protective-stimulating solution 30 are installed in its front zone to the frame 23, for example, Maxim, equipped with a solution supply and distribution system 31 with outlet nozzles 32, which are located in the longitudinal plane, rohodyaschey tukoprovodami between the paired rear frame 28. The area 23 is mounted rotary storage hopper 33 for seed potatoes with lifting cylinders 34. In the lower zone of the storage hopper 33, there are feeders 35 with movable bottoms 36, under the unloading zone of each of which are soil-driving vertical elevator-type elevating conveyors 37 with exciting spoons for dosing potatoes 38. The bottom 36 of the feeders 35 is movable. In the zone of discharge of potatoes from spoons 38 of conveyors 37, outlet nozzles 32 of the protective-stimulating solution distribution system 31 are installed above the landing disc coulters 29. Spring-loaded furrow-closing discs 38 are located behind the landing disc coulters 29, on both sides, and a wheel 39 for controlling the depth of planting of potatoes is installed in front of each coulter. The frame 23 is mounted on the support wheels 40, and the potato planting depth control wheels 39 are mounted on the frame 23. On one of the support wheels 40, a drive asterisk for the planting conveyor 37 is mounted. The conveyor 37 is equipped with metering spoons 38 arranged in two rows staggered on its surface . The drive of the conveyor 37 interacts with an eccentric shaker 41 located in the lower zone of the conveyor 37. The movable bottom 36 of the feeders 35 is connected to the eccentric shaker 41. The drive of the conveyor 37 drives the shaker 42 of the conveyor 37 in its upper zone. Landing disc coulters 29 are mounted on a parallelogram mechanism 43 and are spring loaded.

The frame of the comb-forming working bodies 5 consists of a front transverse 44 and a rear transverse 45 bars connected by means of intermediate double longitudinal beams 46 and sidewalls 47. The frame is equipped with an additional transverse beam 48. The intermediate and lateral vertical cultivators 49 are mounted on the frame with height adjustment with fixed chisel-shaped removable knife 50. Chisel-shaped removable knife 50 of the vertical cultivator 49 are made of hard alloys and are made longitudinally curved. The front part 51 of the knives 50 is made beak-shaped with a pointed end and beveled side faces.

On the frame of the comb-forming working bodies 5, dual intermediate 56 and side 53 single rotary cultivators are installed. Each of the rippers consists of a disk 54 with curved knives 55 fixed on it with the formation of a plate shape. Dual intermediate 52 rotary cultivators are installed in one longitudinal plane with wheels 40 of the landing part. On the additional transverse beam 48 of the comb-forming working bodies 5, a comb-former 56 is fixed. The comb-former includes dual 57 intermediate formers and two truncated lateral right 58 and left 59 former. All formers are box-shaped. Each 57 dual shaper includes a middle dihedral share 60 with right extenders 61 and left 62 extensions and a central dihedral overlay 63. The side right 58 and left 59 formers are mirrored and each of them includes a truncated middle corner share, right and left extenders, respectively and a truncated central plate, with each middle ploughshare mounted on a fixed plate 64 provided with angular brackets 65, through which the formers are mounted on an additional transverse beam 48, p at the same time, fixed plates are connected by removable plates 66. The central dihedral and truncated central plates are made of hard alloys, made of a rhomboid shape with beveled corners. Each extension cord is made of one metal sheet in the form of two longitudinally elongated planes located at an obtuse angle to each other. The upper plane of the extension is designed to form the upper sidewall of the ridge from the cultivated soil, and the lower plane of the extension is used to compress the ridge in its lower zone. The comb former is equipped with a mechanism 67 for adjusting its position and is spring-loaded with springs 68. U-shaped brackets 69 are installed on the front cross-beam 44, on the upper crossbar of which coils 70 with perforated hoses 71 are freely mounted. Tubular guides 72 are located in the lower zone of the U-shaped brackets 69 perforated hoses 71.

A universal complex for potato cultivation is used in all soil and climatic zones where potatoes or other vegetable crops cultivated on ridges are grown. Universal complex for cultivating potatoes in various configurations can be used before and after planting potatoes. The design of the universal complex for the cultivation of potatoes is simple and functional. It provides the necessary rigidity and independence of adjustment of all working bodies. All working bodies of the universal complex are easily assembled and disassembled. Easily remove and replace the most wear parts.

Universal complex for the cultivation of potatoes works as follows.

When the universal complex is milling part 2 perform preliminary continuous milling of the soil. The milling part 2 is fully equipped with rippers 14. The speed of rotation of the shaft 10 is selected depending on the state of the soil and the speed of the tractor. Claw-shaped cultivators 14 are alternately embedded in the soil, providing continuous milling to a given depth. Their design with a spiral arrangement of cultivators 14 allows you to minimize the force required for tillage. The flat shape and two-console design of the segments 12 ensures their participation in the cultivating process. Tubular roller 15 effectively crushes the soil particles into the smallest light components and evenly distributes them across the width of the universal complex. The baffle plate 19 and the protective casing 21 prevent the spread of soil outside the cultivated area. The plate 19 additionally levels the soil surface in front of the roller 15. The use of a milling shaft 10 with cultivators 14 allows the universal complex to fully process the soil before planting root crops in one pass of the complex, without using other tillage machines and implements, as well as without wasting time to drive them and power for preliminary cultivation of the soil.

When processing fields with formed ridges, half-clamps 11 are removed from the shaft 10, and the roller 15 is also dismantled. In this case, only the soil between rows is treated. If siderite grasses were sown there, then they are planted in the soil. After treatment with cultivators 14, the row-spacing soil is ready for applying foliar fertilizers and used to form higher ridges in the planting zone of root crops.

Landing complex 3 performs the following functions. From the hopper 24, through the screws 25, fertilizers are distributed and fed to the windows 26 with a metering mechanism - fertilizers are captured by sprockets 27 and fed to the pipelines 28 in two streams, which fertilize the soil along the edges of the future row spacing near the future ridge. Disc coulters 29 rake the soil in the area between two-line fertilizer application. From the rotary storage hopper 33, the seed potato tubers enter the feeders 35. As the tubers are consumed, the free end of the tubers 33 is lifted by their hydraulic cylinders 34, for uniform supply of tubers to the feeders 35, the potato seeds are rolled from the feeders 35 to the planting conveyor 37. Dosing spoons 38 of the conveyor 37, arranged in a checkerboard pattern, in turn capture one tuber and feed to the planting opener 29. At the moment the tuber passes by the nozzles 32 of the protective-stimulating solution distribution system 31 of the potato spruce is treated on both sides with a protective and stimulating solution of the Maxim type. The eccentric shaker 43 eliminates the hanging of tubers in the feeder 35, distributing the potato seeds to the metering spoons 38, excluding two tubers from falling into one spoon 38 and preventing the potato seeds from unloading in front of the conveyor 37, and the adjustable shaker 41 ensures the stable operation of the conveyor 37, freeing its tape from adhering particles.

The opener 29 spreads the soil in the tuber laying area between two rows of fertilizer applied. Furrow-closing discs 38 are covered with planted potato tubers and fertilizer applied in two rows. The depth adjustment of the spring-loaded opener 29 is performed using a parallelogram mechanism. As a result, potato seeds treated with a protective-stimulating solution are added to the line in a future ridge, provided on both sides with fertilizers that are placed at a distance sufficient for long-term nutrition of planted plants.

The task of the comb-forming working bodies 5 is to further cultivate the row-spacing soil and form high ridges over the plantings of potato tubers. Chisel-shaped knives of vertical cultivators 49 are set to a depth equal to the depth of the lower point of the shares with overlays. If there is a need to increase the pressure of the comb former on the ridges, the shares with overlays are installed below the knives. The depth of installation of the rippers 49 determines depending on the height and completeness of the formed ridges. The processing width is set by the position of the spring loaded rotary cultivators. In order to avoid distortion of the comb-forming working bodies 5 and the difference in the height of the ridges, a mechanism for regulating their position is used. Sealing the surface of the ridge is carried out by plates. The force to seal the surface of the ridges is regulated by changing the compression force of the spring. The amount of compaction also depends on the speed of movement: more speed - less compaction.

When comb-forming working bodies 5 are used, chisel-shaped knives of vertical cultivators 49 loosen the row-spacings and provide deepening of the rotary plowshares with overlays to a predetermined depth. Installed at an angle to each other, the soil-driven rotary discs with their knives intensively loosen the row-spacing soil and direct it towards the formation of ridges. The absence of 5 forced drive devices in comb-forming working bodies significantly reduces the energy consumption of the universal complex and reduces fuel consumption during operation. Moreover, the design of comb-forming working bodies 5 provides the necessary depth of penetration of all working bodies, each of which effectively performs several functions. At the time of formation of the ridges, a perforated hose 71 is laid in them, supplied to the ridge from coils 70 of U-shaped brackets 69. Perforated hoses 71 are used for drip irrigation of plants, if necessary, until the formation of a new crop. Immediately after the passage of the universal complex, the perforated hoses are connected to the water supply system. If necessary, liquid fertilizers are supplied to this system.

In one pass, the universal complex for potato cultivation performs all the necessary operations for planting root crops: continuous tillage to obtain a fine-grained soil fraction, application of foliar fertilizers, spraying with a protective-stimulating solution of potato tubers and their uniform planting, deep processing of row-spacing, formation of high soil ridges in zone of planting potatoes and laying in the ridges of perforated hoses for drip irrigation and systematic application of liquid fertilizers. A universal complex for the cultivation of potatoes is used throughout the growing season of potatoes. After the emergence of seedlings by the same unit, after a slight re-equipment of some working bodies, additional row-spacing processing, additional fertilizer and herbicide application, and hilling of potato bushes are carried out.

Thus, the claimed technical solution provides a solution to the problem of increasing the versatility of the complex and increasing the efficiency of cultivating the soil intended for planting potatoes and forming ridges, increasing the height of the ridges, improving the quality of planting root crops, improving the reliability of the process, expanding the technological capabilities of the complex, simplifying its installation dismantling and refitting.

Claims (4)

1. A universal complex for cultivating potatoes, characterized in that it contains a milling part connected to the tractor by means of an attachment, comprising a milling shaft and a tubular roller, while the milling shaft is equipped with two-console segments mounted as alternating sections, one of which is rigidly fixed to the shaft and others are fixed on the half-clamps mounted on the shaft removably, while on the consoles of the segments by means of bolted joints curved cultivators made of claw-like o shape, with all segments located on the shaft along a helical line, and the tubular roller is made of flat round sides and intermediate washers with longitudinal bars parallel to each other mounted on them, while the bars are mounted with a spiral offset around the axis of the roller, and in one a longitudinal plane with removable sections located spring-loaded landing disk openers of the landing part of the complex, made combined and including equipped with a trailing mechanism, support bearings the frame itself, on which the container for the protective-stimulating solution with the outlet nozzles of the distribution system, the fertilizer hopper, the tuber planting machine with the rotary hopper for seed potato tubers are arranged sequentially, the fertilizer hopper equipped with a bottom distribution screw and the bottom of the hopper made with exhaust windows in which the fertilizer-dosing mechanism is located, made in the form of stars and interacting with twin pipelines, the outlet openings of which are located inside and landing disk coulters in their rear zone, and the outlet nozzles of the distribution system are located in the longitudinal plane passing between the twin pipelines, and the rotary hopper is equipped with separate adjacent feeders with movable bottoms, under each of which there is a vertical elevator-type planting conveyor with exciting potato dosing spoons, in the discharge zone of which there are nozzles of the distribution system above the landing disc coulters, before each of which is installed There is a wheel for controlling the depth of planting of potatoes, and behind each of them there are furrow-closing disks, between which rotary cultivators and plowshares-shapers of comb-forming working bodies are located in the same longitudinal plane with the support wheels of the planting part. 2. The universal complex for potato cultivation according to claim 1, characterized in that the comb-forming working bodies are mounted on a frame including a front transverse and rear transverse bars equipped with a hook-on device, connected by longitudinal beams and side walls, on which intermediate and side vertical cultivators with a removable chisel-shaped knife and intermediate twin and side single rotary cultivators, each of which consists of a disk with fixed and them with curved knives with the formation of a dish-shaped form, with dual rotary cultivators located in the same longitudinal plane with the wheels of the landing part, the frame of the comb-forming working bodies is equipped with an additional transverse beam, on which a comb-former is formed, including dual middle formers and two truncated lateral right and left formers, made in a box shape, with each dual shaper includes a middle two-sided ploughshare with adjoining right and left extensions firs and the central two-sided overlay, and the side formers are mirrored, and each of them includes a truncated middle corner share, respectively an extension either right or left and a truncated central overlay, each middle share is fixed to a fixed plate equipped with angle brackets, through which the formers mounted on an additional transverse beam, while the non-removable plates are connected by removable plates, and the comb former is spring-loaded and equipped with a mechanism for deepening. 3. The universal complex according to claim 1, characterized in that on the transverse front beam of the comb-forming working bodies, U-shaped brackets with coils for perforated drip irrigation hoses are installed. 4. The universal complex according to claim 1, characterized in that the exciting metering potato spoons are located on a vertical landing conveyor in two rows in a checkerboard pattern.

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