RU2792159C1 - Wide angle vibratory plate cutter - Google Patents

Abstract

FIELD: agricultural machinery.

SUBSTANCE: flat cutter contains a frame, chassis, loosening working bodies in the form of lancet paws fixed on C-shaped racks. A movable swivel beam is mounted on the frame, which is fixed on it by means of swivel hydraulic cylinders. At the ends of the swivel bar on the crosspieces, side swivel bars are mounted, at the second ends of which technological wheels are mounted by means of parallelogram mechanisms and lanyards. Transport wheels are mounted on the front walls of the side swivel bars. The extreme ends of the side swivel bars are connected to the front part of the frame by braces made of two parts: the front and short ones, where traps are mounted, latches with springs connected through compensating springs by cables to the swivel bar, and the rear long ones, some ends of which are movably connected to U-shaped leashes movably mounted on the front of the frame, while other ends are movably fixed to the ends of the side swivel bars. The long rear parts of the braces, feature horizontal axes next to the vertical axes of the connection of these parts of the braces with the U-shaped leashes. The frame at the rear is mounted on wheels by means of knee-shaped levers and lanyards. Sections of working bodies are mounted on the swivel bar and side swivel bars by means of clamps through spring sheets; they consist of leashes, on which C-shaped flexible racks are installed one after another. The rear C-shaped flexible tine is mounted below the front one by 0.5 of the maximum tillage depth; the C-shaped flexible tines on the leashes are fixed by brackets with axles and ladders, the front brackets are equipped with springs. Lancet legs are mounted at the lower ends on the front C-shaped flexible struts; and on the rear C-shaped flexible struts, spears are mounted on the lower ends.

EFFECT: increased transmission of vibrations generated in the tool to the working bodies, which significantly reduces energy consumption for tillage and improves the quality of its cultivation.

1 cl, 6 dwg

Description

The invention relates to agricultural machinery, in particular to wide band vibratory flat cutters for combating drought. Known flat-cutters: KPSh-5, OPT-3-5 and their analogues perform only one operation - shallow flat-cutting loosening. In industrial practice, while minimizing processing to increase moisture conductivity, there is a need for deeper loosening, but it increases energy costs and large losses of productive moisture for evaporation. To reduce energy consumption, it is recommended to use vibration vibrations of the working bodies of the implements.

Studies of the All-Union Institute of Mechanization found that energy consumption with vibrating paws during surface tillage is reduced by 40% (Dubrovsky A.A. Vibration technology in agriculture. - M .: Mashinostroenie, 1968). According to Mambetlin K.M., the reduction in energy consumption is 30-40% (doctoral thesis for the degree of Doctor of Technical Sciences, Chelyabinsk, 2011, patents RU No. 2220523 and No. 2216888).

Known vibrator plane cutter (patents RU No. 122225), including a housing, which is attached to the outer side of the strut braces, a spring mounted on a guide sleeve and a rod, a thrust disk is rigidly mounted on the rod, while one end of the spring abuts against the end part of the housing, and the other - in a thrust washer, supported by a nut. However, tests have shown that vibration vibrations are partially extinguished in the beam and frame, reducing the vibration effect of the working bodies.

The prototype of the invention is a strip vibrating flat cutter (RU No. 203459), including a frame on which a running gear is installed, with a rotating support on the soil, loosening working bodies in the form of lancet paws mounted on C-shaped racks located at least in two row, characterized in that in the socket of the frame there is a link made with the possibility of reciprocating movements in the horizontal plane, with a towing ring fixed in its front part, at the opposite end of the link there is a spring selection unit installed between the link and the frame, having movement limiters in the horizontal planes installed at the end of the sash and the bell of the frame.

The disadvantage of the prototype is that the vibration mechanism installed at the end of the sash and the bell of the frame does not fully transmit vibrations to the working bodies, where the connections of the parts of the tool, their deformation dampens the vibrations on the working bodies, which reduces the effect of loosening the soil.

The purpose of the invention is to maximize the transmission of vibrations generated in the tool to the working bodies, which significantly reduces energy consumption for tillage and improves the quality of its processing.

This goal is achieved by the fact that a wide-band vibratory flat cutter, including a frame, a chassis, loosening working bodies in the form of lancet paws mounted on C-shaped racks, where a swivel beam is mounted on the frame, movably, which is fixed on it by means of swivel hydraulic cylinders, along at the ends of the swivel bar, side swivel bars are mounted on the crosspieces, at the second ends of which technological wheels are installed by means of parallelogram mechanisms and lanyards, transport wheels are mounted on the front walls of the side swivel bars, the extreme ends of the side swivel bars are connected to the front part of the frame by stretch marks made of 2- x parts, front - short, on which traps are mounted, latches with springs connected through compensating springs by cables with a swivel bar, and rear - long, one ends of which are movably connected to U-shaped leashes mounted movably on the front of the frame, others their ends are movably fixed at the far ends of the side swivel bars, in the rear - long parts of the braces, next to the vertical axes of the connection of these parts of the braces with U-shaped leashes, there are horizontal axes, the frame in the rear part is mounted on wheels mounted on it by means of knee-shaped levers and lanyards , on the swivel bar and side swivel bars, sections of working bodies are mounted by means of clamps through spring sheets, consisting of leashes, on which C-shaped flexible racks are installed one after another, with the rear C-shaped flexible racks mounted below the front ones by 0.5 of the maximum depth tillage, the C-shaped flexible tines on the leashes are fixed by means of brackets with axles and ladders, the front of which are equipped with springs, while the lancet paws are mounted on the front C-shaped flexible tines at the lower ends, on the rear C-shaped flexible tines at the lower ends mounted nares.

These differences are significant, since the installation of C-shaped flexible racks in the working sections one after another, with the rear ones lower by 0.5 of the processing depth, allows you to create additional vibration vibrations, and the installation of vibration spring sheets directly between the working sections and the rotary bars made it possible to bring them to the working bodies, eliminating the impact on the vibration process of the operation of other elements of the unit, the presence in the unit of the possibility of turning the side swivel bars with working sections back and the location on the front walls of the ends of the lateral swivel bars of the transport wheels, allows you to use the side swivel bars for transporting working sections, reduce load on the rear axle of the tractor wheels, increase the maneuverability of the unit by reducing its width. Turning the side swivel bars back does not limit the possibility of increasing the productivity of the unit by lengthening the length of the side swivel bars.

The essence of the invention is illustrated by drawings. In FIG. 1 shows a wide band vibratory flat cutter in working position, top view. In FIG. 2 shows an element for connecting the parts of the braces of the unit with a latch with a U-shaped leash. In FIG. 3 shows a front view of a plane cutter. In FIG. 4 shows a wide band vibratory flat cutter in the transport position, top views, in Fig. 5 also shows a side view. In FIG. 6 shows the working section.

The wide band vibratory flat cutter contains: 1 - an average swivel bar; 2 - working sections; 3 - springs; 4:5:6:7 - ladders; 8 - brackets; 9 - axis of brackets; 10:11 C-pillar bending; 12 - lancet paws; 13 - nares; 14 - frame with trailer; 15 - frame wheels; 16 - rotary hydraulic cylinders; 17 - crosses; 18 - side swivel bars; 19 - technological wheels; 20 - transport wheels; 21 - stretch marks; 22 - front - short parts of stretch marks; 23 - traps; 24 - latches; 25 - latch springs; 26 - compensation springs; 27 - cables; 28 - back - long parts of stretch marks 21; 29 - U-shaped leashes; 30 - horizontal axes of stretch marks; 31 - spring sheets; 32 - limiters of spring sheets; 33 - parallelogram mechanisms; 34 - turnbuckles of technological wheels; 35 - knee-shaped levers; 36 - lanyards of frame 14; 37 - frame brackets; 38 - screw supports; 39 - transport cable.

Wide band vibratory flat cutter works as follows. Before starting work, the unit in the transport position is installed on the edge of the cultivated field and transferred from the transport position to the working position, for this, the transport cable 39 is removed, after which the unit begins to move backward. Due to the fact that the transport wheels 20 are installed at an angle of 1° - 2° to the direction of movement, the side swivel bars 18 with working sections 2 begin to move apart, turning along the front to a straight line, then remove the fixing pins (not shown), releasing thereby turning the middle bar 1 from the frame 14. After that, oil is supplied to the turning hydraulic cylinders 16 of the unit, which turn the middle turning bar 1 and the side turning bars 18 until the working sections 2 are lowered onto the soil, then the fingers are installed in the holes of the latches 24 aligned with the bushings ( in Fig. not shown) on the front - short parts of the stretch marks 22, limiting the mobility of the latch 24, after that the unit is ready for operation. The necessary gear of the tractor is switched on and the working sections 2 begin to move, while they are buried in the soil to a predetermined depth, which is regulated by lanyards 34 and 36. the working sections are raised to a height at which they do not touch the soil. To do this, oil is supplied to the hydraulic cylinders 16, which turn the rotary bars 1 and 18 at a certain angle until the compensation springs 26 are fully compressed. the translational movement resulting from this variable deformation of the soil reduces the traction resistance of the working bodies. Flexible C-shaped racks 10, impulse mechanical stress, are transmitted through brackets 8, axes 9 and stepladders 5 and 6, as well as springs 3, which return the C-shaped flexible racks 10 with lancet paws 12 after deflection to their previous position, to the working sections 2, which through ladders 7, where vibrations are additionally amplified by spring sheets 31 through the middle swivel bar 1 and side swivel bars 18, as well as the frame 14 onto the tractor trailer, thereby reducing the traction resistance of the whole unit. The second C-shaped flexible racks 11 with nares 13 work similarly.

Claims (1)

A wide-band vibratory flat cutter, including a frame, a running gear, loosening working bodies in the form of lancet paws mounted on C-shaped racks, characterized in that a movable swivel beam is mounted on the frame, which is fixed on it by means of swivel hydraulic cylinders, along the ends of the swivel beam on side swivel bars are mounted on the crosspieces, on the second ends of which technological wheels are mounted by means of parallelogram mechanisms and lanyards, transport wheels are mounted on the front walls of the side swivel bars, the extreme ends of the side swivel bars are connected to the front part of the frame by extensions made of two parts: front - short, on which traps are mounted, latches with springs connected through compensating springs by cables with a swivel bar, and the rear ones are long, one ends of which are movably connected to U-shaped leashes mounted movably on the front of the frame, their other ends are movable o are fixed at the ends of the side swivel bars, in the rear - long parts of the braces next to the vertical axes of the connection of these parts of the braces with U-shaped leashes there are horizontal axes, the frame in the rear part is mounted on wheels mounted on it by means of knee-shaped levers and lanyards, on the swivel on the bar and side swivel bars, by means of clamps through spring sheets, sections of working bodies are mounted, consisting of leashes, on which C-shaped flexible racks are installed one after the other, and the rear C-shaped flexible rack is mounted below the front one by 0.5 of the maximum depth of tillage, C-shaped flexible racks on leashes are fixed by means of brackets with axles and step-ladders, the front of which are equipped with springs, while on the front C-shaped flexible racks at the lower ends lancet legs are mounted, and on the rear C-shaped flexible racks at the lower ends, spears are mounted .

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