RU2030143C1 - Separating device for tuber-bearing layer - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: lump-breaking device is made as a shaft with discs installed at an angle to its axis. EFFECT: improved design. 5 dwg

Description

 The invention relates to agricultural machinery, in particular to machines for harvesting potatoes and root crops.

 A known machine for harvesting root crops, including a device mounted on the frame for removing the topsoil, a two-sieve screen with a digging share and a lump-breaking device made in the form of two conical spirals mounted on a separate frame and located longitudinally above the screen sieve.

 However, in the known machine, lump-breaking devices when operating on medium and heavy loamy soils and sintering chernozems do not actively affect the top soil layer, which reduces the separation efficiency. In addition, there is the possibility of winding tops and weeds on lump-breaking devices, and unloading the dug out mass.

 The aim of the invention is to increase the efficiency of soil separation in various conditions of the tuberous layer and to increase the intensity of destruction of soil lumps due to impact without damage to root crops.

 This goal is achieved by the fact that the separating device is made in the form of a rod conveyor with possible adjustment of the angle of inclination of the working branch and a longitudinally arranged lump-breaking device above the conveyor, which is a shaft with ellipse disks mounted at an angle to the axis. The conveyor and cultivator are driven by hydraulic motors.

 The increase in separation efficiency occurs due to fracture of the tuberous layer when a longitudinal conveyor enters the inclined working surface, loosening and destruction of the lumps of the upper layer of the tuberous layer by a disk cultivator.

 The advantage of breaking lumps with a disk cultivator is that the strength limits, i.e. Destructive stresses for the soil are less during shear, bending, and stretching than under compression, and the shock load causes shear and discontinuity of soil particles in soil lumps, therefore, the principle of impact when breaking lumps is less energy-intensive. With multiple dynamic effects, complete destruction of soil lumps is possible with acceptable damage to tubers.

 Reducing damage to tubers can also be achieved by coating the ripper discs with elastic material and using the “oblique collision” effect when potato tubers, when they collide with the blade of the ripper, begin to move along the blade, sliding along it, since the angle between the plane of the disc is less than the sliding angle of the tubers on the material of the disk.

 In FIG. 1 shows a flow chart of the operation of the separating device in the longitudinal plane; in FIG. 2 - separating device, top view; in FIG. 3 is a flow chart of the operation of the separating device in the transverse plane in front along the machine; in FIG. 4 and 5 - the plowshares, respectively, right and left in the direction of movement of the machine.

 The separating device comprises a digging ploughshare 1, a conveyor 2, a longitudinal disk cultivator 5, an unloading conveyor 6, supporting rollers 8, hydraulic motors 9.

 The separating device operates as follows.

 The tuberous layer (Fig. 1) is cut by plowshares 1 and fed to the conveyor 2 (Fig. 2), then loosened and fed by a disk cultivator to the right and left parts of the working branch of the conveyor, installed at an angle so that the tuberous mass slides to the disk cultivator . Particles of the tuberous layer are discarded by the ripper discs mainly to the side and at an angle to the centreline of the ripper and are thrown through the ripper in the direction of rotation.

Due to the fan distribution of the mass and the change in the direction of its discarding, when the disk is turned 180 °, ^the inclined surfaces of the conveyor are loaded uniformly. The increase in the intensity of soil lump separation is due to the impact on the lumps of the blades of the cultivator disks and the complex trajectory of the soil mass along the conveyor belt.

 In order for the undermining layer to enter the inclined working surfaces of the longitudinal conveyor, the undermining shares are of a dump shape (Figs. 4 and 5).

 The quality of separation depends on the angle of inclination of the working branch of the conveyor in the transverse plane (Fig. 3), the rotation frequency of the disk cultivator, the speed of the conveyor belt, the gap between the conveyor and the cultivator.

 In order to ensure the optimal operating mode of the separating device (maximum degree of soil separation and minimum degree of damage to tubers by conveyor rods) when working on soils of different types, it is possible to change the angle of inclination of the working branch of the conveyor relative to the lower sprockets, as well as change the clearance between the conveyor and the cultivator, frequency the rotation of the cultivator and the speed of the conveyor belt by changing the frequency of rotation of the hydraulic motors.

 The proposed separation device will eliminate the additional operations of secondary digging of the soil bed, increase the speed and productivity of the machine. The length of the separating device is chosen so as to ensure complete separation of the soil and get marketable tubers at the exit. The separator device of a tuber harvesting machine can be used for harvesting fodder and table root crops in a form similar to potato tubers.

Claims (1)

 SEPARATING DEVICE FOR THE WELL-FILLED LAYER containing a rod conveyor and a longitudinally lump-breaking device above the conveyor, characterized in that, in order to increase the intensity of destruction of soil lumps due to impact without damage to root crops, the lump-breaking device is made in the form of a shaft with disks installed at an angle to the axis.

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