RU198595U1 - Pneumatic centrifugal sifter - Google Patents

Abstract

Pneumatic centrifugal sifting apparatus refers to agricultural engineering and can be used in the construction of machines for applying granular mineral fertilizers or sowing crops by spreading. The technical result of the device is to reduce the consumption of fertilizers due to the uniformity of application and improve the quality of their sieving. To achieve the result, the pneumatic centrifugal sifting apparatus, consisting of a rotating disc closed on top with a cover with a window in the center and radially mounted blades, is additionally equipped with partitions located between the disc and the cover. The vanes and baffles are located between the disc and the cover in such a way that they create tapering channels from the center to the periphery. 2 ill.

Description

The utility model relates to agricultural engineering and can be used in the design of machines for applying granular mineral fertilizers or sowing crops in a spread manner.

The known design of a pneumatic centrifugal seeding apparatus of sowing machines (SU No. 581899). The apparatus consists of a body, which is divided by a partition into two cavities. A disk with blades fixed on it rotates in the upper cavity, a fan rotates in the lower cavity. The seed from the hopper falls into the center of the rotating disc. From the upper cavity of the body, there are nozzles through which the seed is discharged. An air flow is supplied to the branch pipes from the fan. The distribution of the seed in this device is carried out due to the rotation of the disc with blades, in addition, the seed is picked up by the air flow and transported through the nozzles. The disadvantages of the design are the complicated drive of the disc with blades and the fan due to different speeds of rotation, in addition, the presence of a fixed casing prevents the implementation of the spread method of distributing the seed, which limits the use of this device only to the designs of seeders.

The known design of a spreader of solid mineral fertilizers, which distributes fertilizers in a spreading way using a centrifugal sifting apparatus (taken as a prototype) [S. 115-117 Khalansky V.M., Gorbachev I.V. Agricultural machines - M .: KolosS, 2003. - 624 p.]. The scattering apparatus consists of a rotating disc, closed from above by a cover, and radial blades located between them. A window is made in the center of the cover directly under the dispenser. The sowing disc rotates during operation. With a continuous flow from the hopper, fertilizers through a window in the center of the cover are fed to a rotating disc and are carried away into rotation. Under the action of centrifugal force, particles move along the surface and blades of the disk, reach its outer edge and scatter in a fan-shaped stream over the soil surface. The design of the sifter promotes the creation of an air flow, however, due to the radial arrangement of the blades between the disc and the cover, channels expanding from the center to the periphery are created. From the condition of the continuity of the air flow, the speed of the air flow decreases as it moves from the center of the disk to the periphery. That is, the air flow has no effect on the mineral fertilizer particles due to its low speed, which is a design flaw.

From the analysis of the known technical solutions, it was revealed that the technical problem in this area is the need to expand the arsenal of technical means used for applying granular mineral fertilizers or sowing crops in a scattered way.

The technical result of the device is to reduce the consumption of fertilizers due to the uniformity of application and improve the quality of their sieving.

To solve this problem and achieve the claimed technical result, the pneumatic centrifugal sifting apparatus, consisting of a rotating disc closed from above with a cover with a window in the center and radially mounted blades, is additionally equipped with partitions located between the disc and the cover. The blades and septa are located between the disc and the cover in such a way that they create narrowing channels from the center to the periphery. Fertilizers from the hopper are fed in a continuous flow through the cover window onto the rotating disc and are carried away in rotation by the blades. Due to the relative position of the blades and partitions, the fertilizer particles move in channels gradually tapering from the center of the disc to the periphery. Due to the continuity of the air flow during the rotation of the disk with blades, the flow rate gradually increases as the air moves from the center to the periphery of the disk. Due to this, the air flow picks up the particles of mineral fertilizers and carries them out in the form of a fan to the surface of the field. Mineral fertilizers are usually produced in the form of granules with a size of 1 ... 5 mm. Depending on the size and shape of the granules, the air flow acts on them in different ways: larger particles are imparted a lower speed than small particles. On the other hand, large particles are imparted with a greater initial velocity from the action of centrifugal force when exposed to the blades than small particles. Thus, due to the use of a pneumatic centrifugal sifting apparatus, the uniformity of application is increased and the consumption of mineral fertilizers is reduced.

The claimed utility model is illustrated by drawings. In FIG. 1 shows an isometric view of a pneumatic centrifugal sifting apparatus. In FIG. 2 shows a cross-section of a pneumatic centrifugal sifting apparatus.

The proposed design of a pneumatic centrifugal sifting apparatus consists of a rotating disk 1, closed from above by a cover 2, between the disk 1 and the cover 2, blades 3 and partitions 4 are radially installed. In the center of the cover 2, a window 5 is made for feeding fertilizers to the disk 1. The blades 3 and partitions 4 form tapering channels 6 between disc 1 and cover 2.

The device works as follows. Granules of mineral fertilizers are fed to the rotating disc 1 through a window 5 in the center of the cover 2. Due to the high rotational speed of the disc 1, centrifugal force acts on the granules of mineral fertilizers, forcing the fertilizer granules to move from the center of the disc to its periphery. The vanes 3, installed radially on the disc 1, prevent the movement of the mineral fertilizer granules around the circumference, thus, the mineral fertilizer granules move along the vanes 3. The surfaces of the disc 1, cover 2, vanes 3 and partitions 4 create an air channel 6 tapering from the center to the periphery, in which the granules of mineral fertilizers move. Due to the continuity of the air flow, the air flow rate will increase from the center to the periphery, while the air flow will have an additional effect on the granules of mineral fertilizers. The effect of the air flow on the granules of mineral fertilizers depends on their aerodynamic properties. During the time spent on the rotating disk, large particles are imparted with a lower initial velocity from the action of the air flow, at the same time, a greater velocity is imparted to the same particles from the action of centrifugal force. Conversely, smaller particles are imparted with greater speed from the action of the air flow and less speed from the action of centrifugal force.

The proposed utility model allows to significantly reduce the consumption of mineral fertilizers due to the uniformity of their application.

Claims (1)

Pneumatic centrifugal sifting apparatus, including a rotating disk with radially mounted blades and a cover, in the center of which a window is made, characterized in that the rotating disk is additionally equipped with partitions located between the radially mounted blades with the formation of air channels tapering from the center to the periphery between the cover and the rotating disk.

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