RU186782U1 - Working body for sieving bulk materials - Google Patents

Abstract

The utility model relates to agricultural machinery, in particular to the working bodies for the surface application of mineral fertilizers and lime materials, as well as other bulk products. The technical result is to increase the uniformity of the distribution of bulk material on the soil surface and increase the width of the device. the working body for sifting bulk materials contains a centrifugal disk, a reflector and radially placed blades in the form of a hollow cylinder According to the utility model, screw protrusions are installed on the inner surface of the core at an angle of 15–20 ° to the cylinder generatrix. A useful model makes it possible to increase the uniformity of the distribution of bulk material over the soil surface and to increase the working width of the device.

Description

The utility model relates to agricultural engineering, in particular to the working bodies for the surface application of mineral fertilizers and calcareous materials, as well as other bulk products.

Known working body for sieving bulk materials (see US Pat. RU No. 179646, IPC АСС 17/00 (2006.01), containing a reflector mounted on a centrifugal disk and blades in the form of a hollow cylinder with guides inside of different widths.

The disadvantage of this device is that it does not provide a large sieving width and sufficient uniformity of distribution over the field surface, since when feeding bulk material, blades are made on the blades made in the form of a hollow cylinder with guides inside of different widths, which leads to additional friction and crushing the material.

The technical result is to increase the uniformity of the distribution of bulk material on the surface of the soil and increase the width of the device.

The technical result is achieved by the fact that the working body for sifting bulk materials contains a reflector mounted on a centrifugal disk and radially placed blades in the form of hollow cylinders in which, according to a utility model, screw protrusions are installed on the inner surface of the latter at an angle of 15-20 ° to the cylinder generatrix.

The essence of the utility model is illustrated by the drawing, where in FIG. 1 shows a working body (side view); in FIG. 2 - working body (top view); in FIG. 3 is a section along AA in FIG. one.

The working body for sieving bulk materials contains a centrifugal disk 1, a reflector 2 and radially placed blades 3, made in the form of a hollow cylinder 4, on the inner surface of which are mounted screw protrusions 5 at an angle of 15-20 ° to the cylinder generatrix. The device operates as follows.

When bulk material is supplied to the reflector 2 of the rotating disk 1, the particles acquire peripheral speed due to friction forces on the surface of the reflector 2 and, under the influence of centrifugal forces, fly off the surface of the reflector 2 onto the radially arranged blades 3. Next, the bulk material is picked up by the blades 3 with the air flow and distributed by them on the surface of the cylinder 4 along the periphery, passing evenly on the inner surface of the cylinder 4 and the screw protrusions 5 installed at an angle of 15-20 ° to the generatrix of the cylinder, accelerates with air ear flow, distributed over the surface of the field. Crushing of particles of bulk material also does not occur, since they are previously accelerated on the reflector 2 in the direction of rotation of the radially placed blades 3, and their meeting with the blades 3 occurs at a low relative speed. The preliminary acceleration of particles of bulk material along radially placed blades 3 contributes to an increase in the absolute speed of their flight from the ends of the cylinder 4, as well as to the effect of an additional vortex air flow created by the helical protrusions 5, therefore, to an increase in their flight range. The exclusion of particles reflected from the blades 3 creates the necessary conditions for their ordered collection from the ends of the blades 3 and uniform distribution along the inner periphery of the cylinder 4, with screw protrusions 5, which increases the uniformity of the distribution of bulk material on the soil surface and increases the width of the device.

This decision of the working body provides an increase in the uniformity of the distribution of bulk material on the soil surface and an increase in the width of the device. The effect is achieved due to the fact that the bulk material accelerates in the central part of the disk on the reflector and flies off the cone in the lower part of the blades at a speed not exceeding the linear speed of the blades. In this case, the stagnant zone in the lower part of the cone does not occur, since the bulk material enters the blades only from the side of their inner ends. Reflection of bulk material from the inner ends of the blades also does not occur, since the outer planes of the ends of the blades are made in the form of hollow cylinders, on the inner surface of which screw protrusions are installed at an angle of 15-20 ° to the cylinder generatrix, as well as the air flow captured by the blades in the cylinders, fluffs bulk material and creates additional acceleration.

Claims (1)

A working body for sifting bulk materials, including a reflector mounted on a centrifugal disk and radially placed blades in the form of a hollow cylinder with guides inside, characterized in that the latter are made in the form of screw protrusions at an angle of 15-20 ° to the cylinder generatrix.

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