RU44450U1 - SOIL TREATMENT UNIT - Google Patents

Abstract

The utility model relates to agricultural engineering and can be used for tillage, in particular, loosening, weeding, both in garden plots and in greenhouses and farms. The technical result is to ensure reliable insertion of drive wheels into the soil of various characteristics. The specified technical result is achieved by the fact that the soil cultivating unit comprises a handle, a frame with a drive shaft and a working body, wheels kinematically connected with the shaft, made in the form of a disk with notched and bent sections forming lugs and their supporting surfaces, and the supporting surfaces of the lugs are located at right angles to the plane of the wheel disc, and the lugs themselves are located at right angles to the supporting surface, while the incised portions of the disk are made at an angle to the tangent disk to the diameter of the impeller, and the lugs are made with sharp peaks concave in height, and their supporting surfaces are connected to the shell.

Description

The utility model relates to agricultural engineering and can be used for tillage, in particular, loosening, weeding, both in garden plots and in greenhouses and farms.

Known aggregates for tillage, the wheels of which are a rim with lugs attached to it, in the form of rectangular plates mounted parallel to each other relative to the axles of the wheels, are a “mounted cutter" to the M-3 motoblock.

In the specified unit, the wheels play the role of supporting, when moving the unit, determining the depth of incision of the working knives.

Aggregates are known whose wheels are made in the form of a solid rim with rectangular lugs mounted at an angle to the axis of the wheels — the PNO-15 plow.

The specified unit is heavy and its lugs cut into the soil relatively easily, washing the grass, due to the mass of the unit.

Aggregates are known whose wheels are made of a round bar, and rectangular lugs are mounted in a scatter, at an angle to the axles of the wheels, - a PM-1-18 plow.

The installation of rectangular grousers in the scatter at an angle to the axles of the wheels, most crashed into the soil, eliminates the slip of the generatrix of the wheels relative to the soil surface.

[The catalog "Agricultural machinery and equipment for farms", volume 1, M. Inforagrotech, 1994, p. 165, 166.]

The closest technical solution to the claimed is a precision seeder manual. Containing a handle, a hopper with a metering shaft, and drive wheels with rectangular lugs, which, being part of the generatrix of the cylindrical surface, are bent at right angles to the tangent surface.

[RF, utility model certificate No. 16424 7 A 01 C 7/02 Bull. No. 1 dated January 10, 2001].

The specified design of drive wheels with rectangular lugs requires a certain load for cutting into the soil and in case of grass, this load should be even greater than that necessary for cutting grass, the height of the lugs is limited (10 + 1 mm). In addition, lugs do not have stiffeners and, when rotated, can bend under pressure from the soil.

The objective of the invention is to increase the health of aggregates for tillage and their functional qualities.

The technical result is to ensure reliable insertion of drive wheels into the soil of various characteristics.

To achieve the specified technical result, the soil cultivating unit comprises a handle, a frame with a drive shaft and a working body, wheels kinematically connected with the shaft, made in the form of a disk with notched and bent sections forming lugs and their supporting surfaces, and the supporting surfaces of the lugs are located under the direct angle to the plane of the wheel disk and the lugs themselves are located at right angles to the supporting surface, the cut sections of the disk are made at an angle to the tangent disk to a diameter the impeller, while the lugs are made with sharp peaks and concave in height, and their supporting surfaces are connected to the shell.

Distinctive features of the technical solution are the formation of incised sections of the disk at an angle to the tangent disk to the diameter of the impeller, the implementation of lugs with sharp peaks and concave in height, fixing the supporting surfaces on the shell.

The implementation of the drive wheels from a solid disk with notched sections that form the lugs and their supporting surfaces and the execution of the notched sections of the disk at an angle α to the tangent disk to the impeller diameter dк, ensures the optimal shape of the lugs with sharp peaks. The implementation of the lugs concave in height allows to increase their rigidity, excluding their bending. The formation of the supporting surfaces of the lugs at a right angle to the plane of the wheel disc and the lugs at a right angle to the supporting surface, the fixing of the supporting surfaces of the lugs to the shell, for example by welding, increases the stiffness of the wheel, eliminates its deformation. All this affects the high performance of embedding various characteristics into the soil under various loads, for example, on a grassy surface, while ensuring rotation of the drive shaft and maintaining the shape of the lugs. The supporting surfaces with a shell, forming the appropriate diameter of the wheels, are a support at the time of cutting the working knives into the soil, provide cutting of the roots of the weeds and loosening of the soil, both on the total area and in the row-spacings, for example, crops of carrots sown with precision manual seeders, when the agreed size of row spacing by size "e".

From the analysis of the patent and scientific and technical literature, the claimed combination of features characterizing the design of the drive wheel with supporting surfaces and sharp-pointed lugs, concave in height, rigidly connected to the shell, it is not revealed, which allows us to conclude that the claimed solution meets the criterion of "novelty."

The utility model is illustrated by drawings, where in Fig.1 - shows a General view of the unit, in Fig.2 - section aa of Fig.1., Fig.3 - wheel drive, Fig 4 - side view of the wheel.

The soil cultivating unit consists of drive wheels containing a disk 1, supporting surfaces 2, lugs 3 and a shell 4. The lugs 3 and their supporting surfaces 2 are formed from sections of a solid disk 1 with a diameter Od by cutting it at an acute angle a to the tangent line of the disk up to impeller diameter dk. The supporting surface 2 of each of the lugs 3 is formed at right angles to the wheel disk 1, and the lugs are formed at right angles to its supporting surface and concave in height. The supporting surfaces 2 with the lugs 3 are rigidly connected to the shell 4. The wheels are mounted on the axles 5 and connected to the sprockets 6, through chains 7 with asterisks 8, mounted on the axles 9, connected to the drive shaft 10, on which the bushes 11 with disks are mounted, which are attached to the working knives 12, restricting the fenders 13, rods 14 with a tapered handle 15, a connecting beam 16, an additional handle 17, two brackets 18 and two tensioning units 19. The supporting surfaces 2 with the shell 4 determine the working diameter of the wheels, which can affect depth bp zaniya working blades 12, this depth may vary depending on the position of axes 5 installed above or below the axis 9 of rotation of the drive shaft 10.

The unit for tillage works as follows: When the wheels 1 rotate, the load on the lugs 3 is variable when entering and leaving the soil, while the sharp top and concave surface of the lugs gives them increased rigidity, which eliminates their bending. The drive wheels 1 are connected to the sprockets b and through the chain 7 transmit the rotation to the sprockets 8 mounted on the axles 9, which are rigidly connected to the drive shaft 10, from the shaft the rotation is transmitted to the bushings 11 and the working knives 12, the speed of rotation of the knives is determined from the ratio of the diameters and

the number of teeth of the sprockets 6 and 8. The chippers 13 protect the tops, for example, the crop, seeded with a precision seeder, from cutting it with knives 12, while the "e" row spacing should correspond to each other. Promotion of the unit is carried out by means of rods 14 and cone arms 15 and 17, to which the corresponding force is applied through additional wooden handles. The rear beam 16 determines the dimensions of the unit to which the brackets are mounted 18. By means of the tensioning units 19 mounted on the brackets 18, the interference of the chains 7 is adjusted (the departure of the knives 12 is adjustable).

The width of the bearing surfaces, the angle α and the height of the lugs are determined by the difference in the diameter of the disk Dd and the working diameter of the wheel dk. On the shells 4, the supporting surfaces 2 and the lugs 3 are rigidly fixed, for example by welding, which eliminates the deformation of the wheel diameters. Units for tillage, on which drive wheels with lugs with a sharp top are mounted, provide good traction with the soil and stable rotation of the working knives on different soil characterization. The use of the rear handle 17 helps to ensure uniform deepening of the working knives 12 throughout the entire processing process, as well as the best controllability of the unit during the processing of the rows between the cultivated crops.

Claims (1)

A soil treatment unit comprising a handle, a frame with a drive shaft and a working body, wheels kinematically connected with the shaft, made in the form of a disk with notched and bent sections forming lugs and their supporting surfaces, and the supporting surface of the lugs are located at right angles to the plane of the disk wheels, and the lugs themselves are located at right angles to the supporting surface, characterized in that the incised portions of the disk are made at an angle to the tangent disk to the diameter of the impeller, runtozatsepy formed with sharp peaks and concave height, and their associated bearing surfaces on the shroud.