RU224054U1 - COMBINED SOIL TILLAGE UNIT - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to combined machines for tillage. The technical result of the utility model is to improve the quality of soil tillage before sowing small-seeded crops. The technical result is achieved due to the fact that the first and second rows of rotor disk blocks are installed in the front part of the frame one after another, the minimum distance between the trajectories of movement of the ends of the knives of the front and rear disk blocks is 0.2 m, the wheels with a mechanism for moving them in height are installed on the frame behind the disk blocks in such a position that the wheel control mechanism ensures their movement downwards - until the working parts of the unit rise above the soil by 0.2 m, and the wheel axes are in the same transverse plane with the main gravity vector of the unit, and upwards - up to complete separation from the soil surface during operation of the unit, behind the wheels, outside the zone of their movement, on the frame struts, a roller consisting of segment-shaped flat disks mounted on an axle with the possibility of rotation and radial movement of 1 centimeter is installed in bearing supports with the possibility of height adjustment cutouts, with a hub protruding on both sides, pressed into the central hole, and with rods pressed into the holes along the periphery, protruding on both sides of the disks to a length equal to 0.8 of the length of the hub. A combined soil-cultivating unit containing a frame, an automatic hitch bracket, wheels moved in height by a hydraulic cylinder, axles mounted in two rows perpendicular to the longitudinal line of the unit in bearing supports on frame lowerers, four blocks of rotor disks mounted on the axles, each disk in the shape of a flat polygon with a cutting blade. the edge has needles with knives, the cutting angle of which is γ = 45...60° and the sharpening angle α = 20...30°, also sprockets with different numbers of teeth are attached to the disk mounting axes, on which a chain is installed to ensure rotation of the driven disks at a higher speed, than the leading rotor disks, and the first and second rows of rotor disk blocks are installed in the front part of the frame one after another, the minimum distance between the trajectories of movement of the ends of the knives of the front and rear disk blocks is 0.2 m, the wheels with a mechanism for moving them in height are installed on the frame behind the disk blocks in such a position that the wheel control mechanism ensures their movement downwards until the working parts of the unit rise above the soil by 0.2 m, and the wheel axes are in the same transverse plane with the main gravity vector of the unit, and upwards until they are completely separated from surface of the soil during operation of the unit, behind the wheels, outside the zone of their movement, on the frame struts, a roller is installed in bearing supports with the possibility of height adjustment, consisting of flat disks mounted on an axle with the possibility of rotation and radial movement of 1 cm with segment-shaped cutouts, with a hub protruding in both directions, pressed into the central hole and with rods pressed into the holes along the periphery, protruding on both sides of the disks to a length equal to 0.8 of the length of the hub.

Description

The utility model relates to agricultural engineering, in particular to combined machines for tillage.

A rotary tillage tool is known [Copyright certificate RU patent No. 2369060, IPC class. A01B 39/18, A01B 21/08, 2009], containing a frame, an automatic coupling bracket, support wheels, a block of rotor disks mounted on a horizontal axis with knives having the shape of a flat polygon with a cutting edge, and an additional block installed with a ledge forward to the main block rotor disks, the driven disks are equipped with cutting blades curved in the direction of movement with a cutting angle γ=45...60° and a sharpening angle α=20...30°, while the tool has a beam connecting the disks, as well as a rod and a pneumatic cylinder for raising and lowering the driven disks when approaching the plant, as well as a driven disk located along the axis of the crop plant. The disadvantages of this tool include incomplete cutting of weeds, as well as mixing and drying of the soil.

The closest analogue to the claimed one, adopted as a prototype, is a rotary-type soil loosening device [Copyright certificate RU patent No. 2486731, IPC class. А01В 35/26, А01В 21/08, А01В 39/18, 2013], containing a frame, an automatic coupling bracket, wheels moved in height by a hydraulic cylinder, axles installed in two rows perpendicular to the longitudinal line of the unit in bearing supports on frame lowerers, mounted on on the axes there are four blocks of rotor disks, each disk, in the shape of a flat polygon with a cutting edge, has needles with knives, the cutting angle of which is γ = 45...60° and the sharpening angle α = 20...30°; also, sprockets with different numbers are attached to the disk mounting axes teeth on which a chain is mounted to ensure that the driven discs rotate at a higher speed than the driving rotor discs.

The disadvantage of the prototype is the insufficient quality of soil tillage before sowing small-seeded crops due to the lack of a rolling function. Pre-sowing rolling levels the surface of the site, eliminates crumpled soil, prevents moisture loss and blowing out of seeds, so the procedure is of particular importance for increasing the germination of small seeds or those sown in a dry climate.

The technical result of the utility model is to improve the quality of soil tillage before sowing small-seeded crops.

The technical result is achieved due to the fact that the first and second rows of rotor disk blocks are installed in the front part of the frame one after another, the minimum distance between the trajectories of movement of the ends of the knives of the front and rear disk blocks is 0.2 m, the wheels with a mechanism for moving them in height are installed on the frame behind the disk blocks in such a position that the wheel control mechanism ensures their movement downwards - until the working parts of the unit rise above the soil by 0.2 m, and the wheel axes are in the same transverse plane with the main gravity vector of the unit, and upwards - up to complete separation from the soil surface during operation of the unit, behind the wheels, outside the zone of their movement, on the frame struts, a roller consisting of segment-shaped flat disks mounted on an axle with the possibility of rotation and radial movement of 1 cm is installed on the frame struts in bearing supports with the possibility of height adjustment cutouts, with a hub protruding on both sides, pressed into the central hole, and with rods pressed into the holes along the periphery, protruding on both sides of the disks to a length equal to 0.8 of the length of the hub.

This set of essential features ensures the appearance of new properties in the inventive combined soil-cultivating unit that are different from the prototype.

Thus, the declared features of the utility model meet the “novelty” criterion.

In fig. Figure 1 shows a diagram of a combined soil-cultivating unit in interaction with the soil, side view;

in fig. 2 - the same, top view;

in fig. 3 - view of the skating rink.

A combined soil-cultivating unit containing a frame 5, an automatic coupling bracket 10, wheels 7, axles 15, moved in height by a hydraulic cylinder 6, mounted in two rows perpendicular to the longitudinal line of the unit in bearing supports on frame lowerers 9, mounted on axles 15, four blocks of rotor disks, each disk 13, in the shape of a flat polygon with a cutting edge, has needles 11 with knives 12, the cutting angle of which is γ = 45...60° and the sharpening angle α = 20...30°, also on the axes 15 of fastening disks 13, sprockets 14, 16 are attached with different the number of teeth on which the chain 17 is installed to ensure rotation of the driven disks at a higher speed than the driving rotor disks, and the first and second rows of rotor disk blocks 13 are installed in the front part of the frame one behind the other, the minimum distance between the trajectories of the ends of the front and rear knives disk blocks equal m, the wheels 7 with a mechanism for moving them in height are installed on the frame 5 behind the disk blocks 13 in such a position that the wheel control mechanism ensures their movement downwards - until the working parts of the unit rise above the soil by 0.2 m, and the axles 8 of the wheels 7 are in the same transverse plane with the main gravity vector of the unit P, and upward - until it is completely lifted from the soil surface during operation of the unit, behind the wheels 7, outside the zone of their movement, on the racks 4 of the frame 5, the roller is installed in bearing supports with the ability to adjust the height, consisting of flat disks 1 mounted on an axis 18 with the possibility of rotation and radial movement of 1 centimeter with segment-shaped cutouts 2, with a hub 19 protruding in both directions pressed into the central hole and with rods 3 pressed into the holes along the periphery, protruding in both directions from discs to a length equal to 0.8 the length of the hub.

The combined tillage unit works as follows.

Before work, adjust the wheel control mechanism 7 using the hydraulic cylinder 6 rod stroke limiters so that it ensures that the wheels move downwards - until the working parts of the unit rise above the soil by 0.2 m and the axles 8 of the wheels 7 are in the same transverse plane with the main force vector gravity of the unit P, and upward - until complete separation from the soil surface during operation of the unit. The height position of the roller is adjusted by mechanism 20 depending on the type of soil and the specified compaction density. The adjusted combined unit is mounted on the tractor, and the tractor drives out onto the field. Using a hydraulic linkage, the tractor lowers the unit onto the field surface. When moving across the field, the rotor disks 13 engage with the soil and begin to rotate. The driving disks transmit rotation through a chain transmission and torque to 16 sprockets located on the axis of fastening the driven disks. This ensures a reduction in the traction resistance of the gun.

The teeth of the driven rotor discs are bent in the opposite direction relative to the driving rotor discs, and, due to the different number of teeth on the sprockets 14, 16, the driven discs rotate at a higher speed than the driving rotor discs.

The cutting edges of the discs cut weeds and loosen the surface layer of soil, creating a lumpy structure. When the cutting angle is less than 40° and the sharpening angle is 20°, a cutting mode with sliding cutting edges of the rotor disks is ensured. This results in complete cutting of weeds, cutting off the top layer of soil while preserving soil moisture.

The minimum distance between the trajectories of movement of the ends of the knives of the front and rear disc blocks is equal to m, prevents the knives of the driving rotor disks from throwing soil onto the knives and needles of the driven disks.

The roller disks 1 rolling over the soil and the rods 3 pressed into the holes along the periphery, protruding on both sides of the disks to a length equal to 0.8 the length of the hub, upon entering the soil, destroy lumps, level the field surface and compact the middle layer of the treated formation. The ability to radially move the flat disks of 1 roller by 1 centimeter improves the copying of the field topography. At the same time, rods 3, when emerging from the soil, loosen the top layer into which small seeds will be sown.

As a result of the passage of the claimed combined soil-cultivating unit, two layers of treated soil are formed: an upper, more leveled and less lumpy than the prototype, loose layer 22, suitable for sowing small seeds, and a lower compacted layer 21, which prevents the penetration of small seeds above a given depth during soil shrinkage and improving the flow of capillary moisture to the seeds.

The location of the axis 8 of the wheels 7 in their lower position in the same transverse plane with the main gravity vector of the unit P ensures the stability of the combined tillage unit in the transport position and reduces the load on the tractor's mounted system.

Thus, the stated technical result is achieved.

Information sources

1. Copyright certificate RU patent No. 2369060, IPC class. A01B 39/18, A01B 21/08, 2009.

2. Copyright certificate RU patent No. 2486731, IPC class. A01B 35/26, A01B 21/08, A01B 39/18, 2013.

Claims (1)

A combined soil-cultivating unit containing a frame, an automatic hitch bracket, wheels moved in height by a hydraulic cylinder, axles mounted in two rows perpendicular to the longitudinal line of the unit in bearing supports on frame lowerers, four blocks of rotor disks mounted on the axles, each disk in the shape of a flat polygon with cutting edge, has needles with knives, the cutting angle of which is γ = 45...60° and the sharpening angle α = 20...30°; also, sprockets with different numbers of teeth are attached to the disk mounting axes, on which a chain is installed to ensure rotation of the driven disks with greater speed than the leading rotor disks, characterized in that the first and second rows of rotor disk blocks are installed in the front part of the frame one after another, the minimum distance between the trajectories of movement of the ends of the knives of the front and rear disk blocks is 0.2 m, wheels with a mechanism for moving them mounted in height on the frame behind the disk blocks in such a position that the wheel control mechanism ensures their movement downward - until the working parts of the unit rise above the soil by 0.2 m, and the wheel axes are in the same transverse plane with the main gravity vector of the unit, and up - until completely lifted from the soil surface during operation of the unit, behind the wheels, outside the zone of their movement, on the frame struts, a roller consisting of flat disks mounted on an axle with the possibility of rotation and radial movement of 1 cm is installed in bearing supports with the possibility of height adjustment with segment-shaped cutouts, with a hub protruding on both sides, pressed into the central hole, and with rods pressed into the holes along the periphery, protruding on both sides of the disks to a length equal to 0.8 of the length of the hub.