SU1366089A1 - Working member for surface application of mineral fertilizers - Google Patents

Description

The invention relates to the field of agricultural engineering. The purpose of the invention is to increase productivity and reduce the crushing of fertilizer particles. Centrifugal disc

3 contains blades 4 and a reflector 5. The reflector is made of cones 6, 7 and 8. The cone 6 is formed along an epicycloid, the upper end of the branch of which is tangential to the axis of rotation of the disk, and the lower to its surface. Forming cones 7 and 8 are made along epicycloid, the upper ends of the branches of which are parallel to the upper end of the branch of the cone 6, and the lower ones are parallel to its lower end of the branch. Fertilizers are reflected from cones 6, 7 and 8 at an angle close to zero. On the surfaces of the cones, the particles move to the blades 4. Due to the action of friction forces, the fertilizer particles acquire a circumferential speed, thereby increasing the rate of fertilizer release from the blades 4. 2 Il.

5i ,,,, 1366089

one

1366089

The invention relates to the field

agricultural engineering,

namely to devices for making

mineral fertilizers.

The purpose of the invention is to increase productivity and reduce crushing of fertilizer particles.

Figure 1 shows the working body for the surface application of mineral fertilizers; figure 2 is the same, view along arrow A in figure 1 (with the fertilizer supply circuit).

The working body contains a conveyor 1, at the output end of which is located the guide 2 (under the conveyor 1). A centrifugal disk 3 with blades 4 and a reflector 5 consisting of cones' 6-8 is mounted under the ball guide 2.

The forming cone 6 is made along the epicycloid, the upper end of the branch of which is tangent to the axis of rotation of the disk, and the lower end to its surface. Forming cones 7 and 8 are made along epicycloid, the upper ends of which are parallel to the upper end of the branch of cone 6, and the lower ones are parallel to its lower end of the branch.

The device works as follows.

Fertilizer conveyor 1 is fed to the tukonapravitel 2 and through it under the action of gravity fall on. reflector .5. Fertilizers from the guideline are discharged with finite dimensions. Fertilizers entering the disc closer to the center (section 6) meet the reflector cone 6 at an angle close to zero, the next layer (section 7) is “cut off” by the second cone 7, then (section 8) the cone 8, etc. Virtually the entire fertilizer layer goes to the reflector also at an angle close to zero. ,

On the surfaces of the cones 6-8, particles move to the blades 4, while due to the action of friction forces they acquire a circumferential speed, then the particles are picked up by the blades and scattered by them across the field surface. Thus, the particles begin to move not from zero speed, but from a speed of the order of 10 m / s. By the time of the particles coming off the blades, their relative velocity reaches 13 m / s. With a disc diameter of 600 mm and 700 revolutions per minute, the total particle vanishing velocity is approximately 22 m / s. At the same diameter and the number of revolutions of the disk, the total velocity of the particles for the proposed working body is 25.5 m / s. The descent rate, and therefore, the width of the sieving and the productivity of the working body and machine are increased by 15X.

Claims (1)

Claim The working body for the surface application of mineral fertilizers, · containing a centrifugal disk with blades and a reflector installed in the center of the disc, is characterized by the fact that the reflector consists of concentrically mounted cones to increase productivity and reduce crushing of fertilizer particles, while forming the first cone over the epicycloid, the upper end of the branch of which is tangential to the axis of rotation of the disk, and the lower one is tangent to its surface, and forming the second and subsequent cones along the epicycle idaṁ, the upper ends of each of the branches are parallel to the upper end branch of the first cone, and the lower its lower end parallel branches. 1366089