RU201700U1 - Tillage unit with transformable frame - Google Patents

Abstract

The utility model relates to agriculture. The tillage unit with a transformable frame contains a modular structure, in which the frame consists of a transverse part in the form of two-bar and single-bar frames with the working bodies of the tillage modules, and a longitudinal part in the form of an upper backbone beam, two lower side beams, located symmetrically relative to the upper beam, made of rectangular pipes equipped with welded ribs-ties, a rigid coupling with a tractor trailed with a hydraulic cylinder, as well as a block of support-transport wide-profile low-pressure wheels equipped with a hydraulic cylinder, brackets of the lower beams in front and rear, brackets of the center beam front and rear, connecting pins. The longitudinal part of the frame is made in the form of sections containing the indicated ribs for the tillage modules. The center and side beams of the sections are mutually located in the transverse plane to provide a three-point connection with the tractor. The brackets are made in the form of plates with stiffeners and four holes for fastening bolts and are welded front and rear to the ends of the beams so that the geometric centers of the planes of the brackets coincide with the longitudinal axes of the beams, to the lower side beams of one of the sections for connection with the frame fastening posts of the support wheels , to the lower side beams of the sections for connection with counter brackets welded on the frames of the transverse part. The brackets welded to one ends of the section beams are connected to the brackets in the form of a fork and an earring for connecting the beams using connecting pins. The brackets welded from the other ends of the lower section beams are connected to the lower brackets in the form of a curved fork for connection from the front to the tractor hitch, and from the rear to the block of rear support and transport wheels. Also, the bracket is welded to the end of the backbone of one of the sections for connection with the upper front bracket of this backbone in the form of a fork with upper holes for connecting to the hydraulic cylinder of the tractor hitch and with the lower holes for connection through a lanyard with the frame of the support wheels. The bracket, welded to the end of the backbone of the other of the sections, is connected to the upper rear bracket of this backbone in the form of an earring for connecting to the hydraulic cylinder of the block of the rear support-transport wheels. The expansion of the functionality of the unit is provided with an increase in the quality of soil cultivation while providing a differentiated approach to the processes of soil cultivation. 2 wp f-ly, 11 ill.

Description

The utility model "Tillage unit with a transformable frame" refers to the field of agricultural engineering, in particular to units for tillage, as a basic element of the hitching and placement of tillage units for various purposes and configurations.

Known "Tillage unit" (see RF patent No. 130183), which includes a frame, a device for connecting to a tractor, a control mechanism, a support wheel, working bodies. The working bodies contain a rack and a flat-cutting paw. A disc section is installed between the working bodies. A packer roller is installed behind the working bodies, containing an axle, side discs, sealing plates and one-sided sharpened knives. Sealing plates are rigidly fixed on the outer surface of the side discs with equal angular spacing. The one-sided sharpened knives are rigidly attached to the sealing plates and the roller axle.

However, the known tool has disadvantages, which include the unsatisfactory quality of soil cultivation, as well as the fact that there is no modularity, that is, all the working bodies and others are installed on the same frame, including the fact that the frame itself is not transformable, that is, one-piece, and non-standardized, that is, for certain (given) working bodies.

Also known is the "Combined tillage unit" (see RF patent No. 184203), including a frame, a device for connecting to a tractor, control mechanisms, support wheels, working bodies containing a rack and a flat-cutting paw, disc sections, characterized in that the disc sections are installed in front of working bodies, each disc section contains a frame, an axle and spherical discs, and the disc sections are installed at an angle to the direction of movement of the tillage unit, behind the working bodies there is a tillage milling cutter containing a shaft, flange mountings, L-shaped knives and a drive of the tillage cutter, behind the tillage a milling cutter installed a roller attachment containing a frame, crushing and pressing rollers, rods with springs, a crushing roller contains an axle and disc rippers, disc rippers are installed on the axis of the crushing roller at regular intervals, and along the periphery of the disc rippers there are triangular notches, tops located between triangular grooves, also made triangular and directed in different directions from the geometric axis of rotation of the disc cultivators, the packing roller contains an axle, side and intermediate discs, side and intermediate discs are installed on the horizontal axis at equal intervals in the horizontal plane, around the circumference of the side and intermediate discs of the roller with equal angular pitch, V-shaped loosening elements are installed, and the V-shaped loosening elements are rigidly fixed by their tops along the periphery of the side and intermediate discs, and the sides of the V-shaped loosening elements are directed in different directions from the geometric axis of rotation of the compacting roller.

The disadvantages of this unit can also be attributed to the lack of modularity and the fact that the frame itself does not provide an opportunity for transformation and unification (unification).

который представляет собой прицепную, модульную конструкцию, состоящую из дискового модуля, модуля ротационной бороны и прикатывающего двойного шлейф-катка с пружинными боронами, рама которого выполнена жесткой, сварной, состоящей из трех продольных балок - верхней хребтовой и двух нижних боковых, расположенных симметрично относительно верхней, а также поперечных двухбрусных или однобрусных балок. Продольные балки изготовлены из прямоугольного профиля и соединены между собой ребрами-связями. Поперечные рамы дискового модуля, модуля ротационной бороны и прикатывающего двойного шлейф-катка с пружинными боронами приварены к нижним продольным балкам, С помощью смонтированных на передних торцах боковых балок кронштейнов агрегат посредством жесткой сцепки соединяется с трактором. На переднем торце хребтовой балки крепится гидроцилиндр подъема-опускания сцепки. В кронштейнах на задних торцах боковых балок крепится блок опорно-транспортных широкопрофильных колес низкого давления. Соответственно, на заднем торце хребтовой балки крепится гидроцилиндр подъема-опускания блока колес.The closest in technical essence and the achieved economic effect is "Combined disc cultivator LDK-4,0-P-1"

which is a trailed, modular structure, consisting of a disk module, a rotary harrow module and a double loop roller with spring harrows, the frame of which is made of rigid, welded, consisting of three longitudinal beams - the upper backbone and two lower lateral beams, located symmetrically relative to the upper , as well as transverse double-beam or single-beam beams. The longitudinal beams are made of a rectangular profile and are interconnected by ribs-ties. The cross frames of the disc module, the rotary harrow module and the double trailing roller with spring harrows are welded to the lower longitudinal beams, The unit is connected to the tractor by means of a rigid hitch mounted on the front ends of the side beams of the brackets. At the front end of the backbone, a hydraulic cylinder for lifting and lowering the hitch is attached. In the brackets at the rear ends of the side beams, a block of support-transport wide-profile low-pressure wheels is attached. Accordingly, a hydraulic cylinder for raising and lowering the wheel block is attached to the rear end of the backbone beam.

The disadvantages of this cultivator can be attributed to the low functionality of the unit, due to the fact that its frame is one-piece, it does not allow for transformation and unification, i.e. As a result, the unit can perform only the specified complex of tillage.

The technical solution to the problem is to expand the functionality of the unit, improve the quality of soil cultivation, and provide a differentiated approach to the processes of soil cultivation, including coupling with an energy source.

The technical solution to the problem is achieved by the fact that in a tillage unit with a transformable frame, including a modular structure, in which the frame consists of a transverse part in the form of two-bar and single-bar frames with the working bodies of the tillage modules, and a longitudinal part in the form of an upper center beam, two lower side beams , located symmetrically relative to the upper beam, made of rectangular pipes equipped with welded ribs-ties, a rigid coupling with a tractor trailed with a hydraulic cylinder, as well as a block of support-transport wide-profile low-pressure wheels equipped with a hydraulic cylinder, brackets of the lower beams in front and rear, brackets of a center beam front and rear, connecting pins, according to the utility model, the longitudinal part of the frame is made in the form of sections containing the indicated ribs-connections for tillage modules, and the backbone and side beams of the sections are mutually located in the transverse plane to ensure connection with tractor according to a three-point scheme, while the brackets are made in the form of plates with stiffeners and four holes for fastening bolts and are welded front and rear to the ends of the beams so that the geometric centers of the planes of the brackets coincide with the longitudinal axes of the beams, to the lower side beams of one of the sections for connections with the posts of fastening of the frame of the support wheels, to the lower side beams of the sections for connection with the counter brackets welded on the frames of the transverse part, and the brackets welded to one ends of the beams of the sections are connected to the brackets in the form of a fork and shackles for connecting the beams using connecting pins , and the brackets welded from the other ends of the lower beams of the sections are connected to the lower brackets in the form of a curved fork for connection from the front to the tractor hitch, and from the back to the block of rear support-transport wheels, the bracket is also welded to the end of the center beam of one of the sections for connection with the upper front bracket of this backbone beam in vi de forks with upper holes for connecting with the hydraulic cylinder of the tractor hitch and with lower holes for connecting through a lanyard with the frame of the support wheels, and the bracket welded to the end of the backbone of another of the sections is connected to the upper rear bracket of this backbone in the form of an earring for connection with by a hydraulic cylinder of the block of rear support and transport wheels. Tillage modules are modules - disc, rotary harrow, double trail roller, single-row harrow, chisel harrow and plowing and are combined with each other in a trailer connection with a tractor.

The new elements are that the longitudinal frame is made in the form of sections with a length depending on the length in the working or transport position of the corresponding module, with the number of ribs-ties that guarantee them the necessary strength, with the relative position of the center and lower beams in each section in the transverse plane according to the requirements of GOST for the geometric parameters of the terminal unit, providing a connection to the power tool (tractor) according to a three-point scheme, with brackets in each section in the form of plates equipped with stiffeners and four holes for fastening bolts welded to the ends of the beams so that their geometric centers coincide with longitudinal axes of the attached beams of another section, and to the lower side beams of each section for connection with the support wheels of the frame, with counter brackets welded on the frames of the transverse part, with brackets in the form of a fork and shackle for connecting the sections using connecting pins, with brackets and the lower ones in the form of a curved fork for connecting to the front with the tractor hitch, and at the back with the block of rear support-transport wheels, with the upper front center beam bracket in the form of a fork with upper holes for connecting with the hydraulic cylinder of the hitch or with the trellis of the tractor attachment and with the lower holes for connection through a lanyard with a frame of support wheels, with an upper rear center beam bracket in the form of an earring for connection with a hydraulic cylinder of a block of rear support-transport wheels, with modules for chiseling, plowing and others added to the transverse part of the unit for their various combinations when solving the main tillage tasks, or in the form of independent modules in a trailed or mounted connection with a tractor.

The utility model is schematically represented in the form of figures in the drawings: FIG. 1 - section of the longitudinal frame for the chisel module; in FIG. 2 - section of the longitudinal frame for the plowing module; in FIG. 3 - longitudinal frame of two sections assembled; in FIG. 4 - view A; in FIG. 5 - frame fasteners (a - bracket with stiffeners, 6 - support wheel rack, c - fork, d - shackle, e - lower bracket, e - upper front bracket, g - upper rear bracket); in FIG. 6 - a unit attached to a tractor for simultaneous chiseling and plowing; in FIG. 7 and 8 show an enlarged front and rear of the unit; in FIG. 9 - module for chisel-making mounted on the tractor; in FIG. 10 - plowing module attached to the tractor; in FIG. 11 - an aggregate attached to a tractor for simultaneous chiseling, plowing and crumbling with rolling.

The universal soil cultivating unit with a transformable frame has a modular design, in which the frame consists of a transverse part in the form of two-bar and single-bar frames with working bodies of tillage modules, such as a disc module, a rotary harrow, a double trail roller, a single-row harrow, chiseling, plowing and others and the longitudinal part. The longitudinal part is made in the form of an upper center beam 1 and two located symmetrically relative to the upper lower lateral 2. Beams 1 and 2 of the longitudinal part are made of rectangular pipes and equipped with welded ribs 3. The unit contains a rigid coupling 5 with a tractor trailed with a hydraulic cylinder 4. The unit also includes a block 7 of support-transport wide-profile wheels 8 of low pressure equipped with a hydraulic cylinder 6. The longitudinal frame is made in the form of sections with a length depending on the length in the working or transport position of the corresponding module, with the number of ribs-links 3 that guarantee them the necessary strength. The longitudinal frame is made with the relative position of the center 1 and the lower beams 2 in each section in the transverse plane in accordance with the requirements of GOST for the geometric parameters of the terminal unit, providing a connection with the power tool (tractor) according to a three-point scheme. Each section of the longitudinal frame is equipped with brackets 9 in the form of plates with stiffeners and four holes for fastening bolts welded to the ends of the beams 1 and 2 so that their geometric centers coincide with the longitudinal axes of the connected beams of other sections. The brackets 9 are also welded to the lower side beams 2 of each section for connection with the posts 10 for fastening the frame 11 of the support wheels 12. Including the brackets 9 are welded to the lower side beams 2 of each section for connection with the counter brackets welded on the frames of the transverse part. When joining the sections, the brackets 9 are connected to the brackets in the form of a fork 13 and an earring 14 to connect the sections using connecting pins 15. The connecting pins 15 are locked with cotter pins either adjustable or needle and are the same for all connecting elements of the unit, and the brackets 9 of the ends of each section are connected to lower brackets 16 in the form of a curved fork for connection at the front with the tractor hitch 5, and at the rear with the frame of the unit 7 of the rear support-transport wheels 8. Also with the upper front bracket 17 of the backbone 1 made in the form of a fork with two holes. In this case, the upper holes are used to connect through the lanyard 18 with the hydraulic cylinder 4 of the hitch 5 or with the trellis 19 of the tractor hitch, and the lower ones for connection through the lanyard 20 with the frame 11 of the support wheels 12. Including with the upper rear bracket 21 of the backbone 1 in the form earrings for connection with the hydraulic cylinder 6 of the unit 7 of the frame of the rear support-transport wheels 8.

The presence of removable racks 10, brackets 16, 17, 21, as well as modules that provide the solution to the main tasks of tillage, will allow for various combinations of the unit. In addition, the units can be presented in the form of independent modules in a trailed or mounted connection with a tractor.

The work of the unit is as follows. Due to the fact that the longitudinal frame of the unit is made in the form of sections, it becomes possible to transform, i.e. combination of unit components. For example, to perform the operation of simultaneous chiseling and plowing, it is necessary to assemble a longitudinal frame so that beams 1, 2, sections for chiseling and sections for plowing with ribs - ties 3, brackets 9 and brackets 13 and 14 with fixed locking pins 15 form a rigid structure. Then, using the brackets 9, the racks 10 are installed and the longitudinal frame is fixed on the transverse parts (the frames of these modules). Further, brackets 16 are mounted on the beams 2 in front and behind, and to them the tractor hitch 5 and the block 7 of the rear support-transport wheels 8. The hitch 5 is connected by fingers 15 with the upper holes of the bracket 17 through the lanyard 18 with the hydraulic cylinder 4. The lower holes of the bracket 17 are connected through lanyard 20 with a frame 11 of the front support wheels 12, with which the depth of tillage is set. Then the bracket 21 is mounted on the rear to the beam 1 for communication through the hydraulic cylinder 6 with the block 7 of the rear support-transport wheels 8.

If it is necessary to perform the operation of simultaneous chiseling, plowing and crumbling with rolling, an additional section of the longitudinal frame is added to the longitudinal beam, which is connected by pins 15 by means of forks 13 and shackles 14 and is equipped with brackets 16 and 21 and is attached to the transverse beam of the specified module using brackets 9.

Due to the fact that the sections, and therefore the modules, can be quickly disconnected by unlocking the fingers 15 on the longitudinal frame, including the fact that the mutual position of beams 1 and 2 in the transverse plane is determined by the requirements of GOST for the geometric parameters of the terminal unit connected to the power tool ( tractor) according to the three-point scheme, it is possible to use it as various modifications of the unit: discator-cultivator-roller; arable block-roller; discator - needle harrow - roller - harrow, etc., as well as individual tillage means. For example, a means for chiselizing, for which the bracket 17 is attached to the beam 1 by means of the brackets 9, and the chisel module is attached to the beams 2 of the rack 10. The upper holes of the bracket 17 with the help of the pin 15 are connected with the sprengel 19, the brackets 16 with the rods of the attachment device of the power plant (tractor). For example, a means for plowing, for which a section with a module for chiseling was removed from the unit, and the beam 1 of the plowing section was equipped with a bracket 17, beams 2 with posts 10, a plowing module and 16 brackets to connect them with a hitch 5. With a three-point hitch and no need for adjustment the depth of soil cultivation, for example, only one module is mounted - the ripper roller, the racks 10 and the frame 11 with the front support wheels 12 are disconnected.

The use of a universal soil-cultivating unit with a transformable frame will provide an expansion of the functionality of the unit, an increase in the quality of soil cultivation, and a differentiated approach to soil cultivation processes, including coupling with an energy device, both in trailed and mounted versions.

Claims (3)

1. Tillage unit with a transformable frame, including a modular structure, in which the frame consists of a transverse part in the form of two-bar and single-bar frames with working bodies of soil cultivation modules and a longitudinal part in the form of an upper backbone beam, two lower side beams located symmetrically relative to the upper beam, made of rectangular pipes equipped with welded ribs-ties, a rigid coupling with a tractor trailed with a hydraulic cylinder, as well as a block of support-transport wide-profile low-pressure wheels equipped with a hydraulic cylinder, brackets of the lower beams in front and rear, brackets of the center beam front and rear, connecting pins, characterized in that the longitudinal part of the frame is made in the form of sections containing the indicated ribs-ties for tillage modules, and the center and side beams of the sections are mutually located in the transverse plane to ensure connection with the tractor according to a three-point scheme, while the bracket They are made in the form of plates with stiffeners and four holes for fastening bolts and are welded front and rear to the ends of the beams so that the geometric centers of the planes of the brackets coincide with the longitudinal axes of the beams, to the lower side beams of one of the sections for connection with the frame fastening posts of the support wheels , to the lower side beams of the sections for connection with the counter brackets welded on the frames of the transverse part, and the brackets welded to one ends of the section beams are connected to the brackets in the form of a fork and shackles for connecting the beams using connecting pins, and the brackets welded from the others the ends of the lower beams of the sections are connected to the lower brackets in the form of a curved fork for connection at the front with the tractor hitch, and at the rear with the block of rear support and transport wheels, the bracket is also welded to the end of the backbone of one of the sections for connection with the upper front bracket of this backbone in the form of a plug with upper holes for connection with g the hydraulic cylinder of the tractor coupling and with the lower holes for connection through the lanyard with the frame of the support wheels, and the bracket welded to the end of the backbone of the other of the sections is connected to the upper rear bracket of this backbone in the form of an earring for connecting with the hydraulic cylinder of the block of the rear support and transport wheels. 2. A soil-cultivating unit with a transformable frame according to claim 1, in which the soil-cultivating modules are modules - a disc, a rotary harrow, a double trail roller, a single-row harrow, chisel-growing and plowing. 3. A soil-cultivating unit with a transformable frame according to claim 2, in which the soil-cultivating modules are combined with each other in a trailed connection with a tractor.

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