RU181971U1 - Pneumocentrifugal working body of the machine for applying mineral and lime fertilizers - Google Patents

Abstract

The utility model relates to agricultural machinery, in particular to the pneumatic centrifugal working bodies of agricultural machines for applying mineral and lime fertilizers. The pneumatic centrifugal working body includes a conical surface located with a larger circle down, on the surface of which spiral screws and a flat disk are rigidly fixed, on which straight blades are rigidly fixed. On the lower surface of the flat disk introduced fan blades, closed by a fan casing, and the intake hole is located in the lower part of the fan casing. The utility model allows to increase uniformity and increase the width of the grip of the pneumocentrifugal working body of the machine for making mineral and lime fertilizers. 1 ill.

Description

The utility model relates to agricultural machinery, in particular to the pneumatic centrifugal working bodies of agricultural machines for applying mineral and lime fertilizers.

Known working body for applying mineral fertilizers, containing a conical surface along the generatrix, which is rigidly fixed to straight blades, passing on a flat disk. Inside, on a conical surface located in a large circle upwards, spiral screws are rigidly fixed (RU 131937, IPC A01C 17/00, publ. 09/10/2013).

The disadvantage of this working body is that its use for applying low-dusting lime fertilizers is impossible due to the specific physicomechanical properties of lime fertilizers, and the inability to apply fertilizers with a dose of more than 8 t / ha in one pass, since the conical working body does not self-clean and occurs accumulation of input material.

The technical result consists in increasing the uniformity and increasing the width of the pneumocentrifugal working body of the machine for making mineral and lime fertilizers.

The technical result is achieved by the fact that the pneumatic centrifugal working body of the machine for applying mineral and calcareous fertilizers includes a conical surface located with a larger circle down, on the surface of which spiral screws and a flat disk are rigidly fixed, on which straight blades are rigidly fixed. On the lower surface of the flat disk introduced fan blades, closed by a fan casing, and the intake hole is located in the lower part of the fan casing.

The drawing shows a side view of a pneumatic centrifugal working body.

Pneumocentrifugal working body contains a conical surface 1, located with a larger circle down, on the surface of which spiral screws are rigidly fixed 2. A conical surface 1 with spiral screws 2 is rigidly mounted on a flat disk 3. Straight blades are rigidly fixed on a flat disk 4. On the lower surface of a flat disk 3, the fan blades 5 are coaxially fixed, which are closed by a casing 6. Air is supplied to the fan blades 5 through the intake opening 7.

Pneumocentrifugal working body works as follows. The flow of material received at the top of the conical surface 1 is distributed evenly over the spiral screws 2 and moves down to the straight blades 4 of the flat disk 3 of the working body. Due to the installation of spiral screws 2, in the form of a logarithmic spiral, at an angle less than or equal to the angle of friction of the material, mineral or calcareous fertilizers undergo an unstressed transition from spiral screws 2 of the conical surface 1 to the straight blades 4 of the flat disk 3.

Due to the deviation of the spiral-shaped screws 2 on the conical surface 1 and the straight blades 4 of the flat disk 3 forward in the direction of rotation of the working body, having received accelerations, mineral or calcareous fertilizers are evenly distributed over the wider screening band with a fan.

Simultaneously with the flat disk 3, the fan blades 5 rotate. Under their action, air is taken from the atmosphere into the fan casing 6 through the intake hole 7, then the air moves along the fan blades 5 under the action of centrifugal forces.

As the fan blades 5 rotate, the volume of the stream of compressed air moving along the guide cone 1 increases, due to the fan being simultaneously spiral and conical, air from the fan casing is supplied directly under mineral fertilizers or ameliorants flown from a flat disk 3. Thus, particles of mineral fertilizers or ameliorants, preserving the initial kinetic energy received from the flat disk 3, fall into the stream of the accompanying air flow and are sown on the peripheral zone gripping widths. This provides the maximum possible range of their flight. The air stream acts on flying particles of mineral or calcareous fertilizers at a distance of 5-6 m from the axis of the scattering organ, and then they fly solely due to the stock of kinetic energy. In the process, atmospheric air exerts resistance to the fertilizers, their particles are inhibited, and then the fertilizers are sown on the field surface, the other part of the mineral or calcareous fertilizers flying from the flat disk 3 is sown in the center of the working width. These particles of mineral or calcareous fertilizers move in the atmosphere only due to their preliminary dispersal on a flat disk 3.

There is no fertilizer gap at the junction of the two parts of the sieving sector. This is achieved due to the fact that the direction of air flow (shown by arrows in the drawing) and the trajectory of the movement of individual particles of mineral and calcareous fertilizers form an angle whose value varies from the center to the periphery. The air flow between the fan casing 6 and the flat disk 3 is practically absent.

Improving the dispersal quality of mineral and lime fertilizers is achieved by eliminating the zones of their concentrated seeding and the efficient use of the total energy from the initial dispersal of particles of mineral or lime fertilizers by the disk and the subsequent associated blowing.

Compared with the known solution, the proposed device allows to increase the uniformity and increase the width of the pneumatic centrifugal working body of the machine for making mineral and lime fertilizers.

Claims (2)

Pneumocentrifugal working body of the machine for applying mineral and calcareous fertilizers, including a conical surface with spiral screws and a flat disk on which straight blades are rigidly fixed, characterized in that the conical surface is located with a larger circle down, on the surface of which spiral screws are rigidly fixed, on fan blades are enclosed on the lower surface of the flat disk, which are covered by a fan casing, the intake opening being located in the lower part of the fan casing.

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