RU191029U1 - Granular mineral fertilizer spreader - Google Patents

Abstract

The utility model relates to agricultural machinery, namely to centrifugal disk spreaders, for example, solid mineral fertilizers. The granular mineral fertilizer disk spreader contains a technological container 1 with an outlet for the metered supply of mineral fertilizers, a disc 4 mounted on the hub 5 under the outlet for the metered mineral fertilizer fertilizers, blades 3 mounted on the disk 4. In the center of the disk 4, opposite the outlet of the technological tank 1, a cone is installed the first container 2 having a spherical cone vertex and forming a parabolic curve. On the cone there are grooves 6, twisting along the surface of the cone from the top to its base in the form of a spiral, and opposite the end of each groove 6 end-to-end to the base of the cone are installed the end face of the blade 3 so that the blades 3 are a continuation of the corresponding groove 6. This design eliminates the possibility destruction of the granules when moving them from the process vessel to the exit from the blades.

Description

The utility model relates to agricultural machinery, namely to centrifugal disk spreaders, for example, solid mineral fertilizers.

Known double-disc centrifugal spreader of granular mineral fertilizers containing a frame, support wheels, technological capacity, feeder, blades with blades and drive mechanism (patent RU No. 2058702, IPC A 01 C 17/00, 1991).

A disadvantage of the known spreader is that it does not ensure the safety of granules along the entire path of their movement from the process vessel to the exit from the blades. This is due to the fact that granules of mineral fertilizers experience several shock loads when passing the distance from the process vessel to the exit from the blades. The granule experiences the first shock load upon impact with the surface of the disk. Since it falls vertically from the technological tank onto the horizontal surface of the disk, then at the moment of the collision of the granule with the surface of the disk, an impact load acts on it.

The granule experiences the second shock load when it is captured by the spreader blade. After the granule falls onto the disk, it will rotate with the disk at a certain peripheral speed, which will be lower than the peripheral speed of rotation of the disk before the granule is captured by the blade, therefore, when the granule is captured by the blade, an impact load occurs.

A two-disc spreader is also known (patent RU No. 2448448, IPC A 01 C 17/00, 2010), the design of which to some extent reduces the possibility of destruction of the granules by feeding them to the lower disk along the curved surface of the side outlet window. However, the supply of fertilizer granules to the upper disk is carried out vertically, which also leads to the occurrence of destructive shock loads.

The closest to the proposed utility model in terms of technical nature and the achieved result is the design, is a mineral fertilizer spreader (patent RU No. 2492616, A 01 C 17/00, 2012) - a prototype containing a process container with an outlet for the dosage of mineral fertilizers, a disk, mounted on the hub under the outlet of the metered supply of mineral fertilizers and vanes mounted on the disk. In the known design of the spreader, a conical insert is installed opposite the outlet of the process vessel, which cuts the flow of granules entering the disk, i.e. granules fall onto the disk not strictly vertically, but at a certain angle to the surface of the disk. This softens the force of the impact load on the pellet. However, due to the fact that the surface of the conical insert is smooth, without grooves for grasping the granules, it cannot guarantee to grab the granule and give it the necessary peripheral speed, i.e. granules, falling on the surface of the conical insert and moving along it to the surface of the disk without obtaining a preliminary peripheral speed directed towards the rotation of the blades, when hit on the disk, they experience an impact load due to the fact that, firstly, they move along the entire surface of the cone and when descending from the surface of the cone onto the disk, part of the granules is not immediately captured by the blade, but appears between two blades, having a lower peripheral speed than the blades, and secondly, with such a design of the cone, when its lower part has -cylindrical surface, the granule can not slide over the cone surface to the outlet on the disc surface. The movement of the granule on the surface of the cone continues only until it reaches the lower cylindrical part, and then under the action of inertial forces the granule leaves the surface of the upper part of the cone and, without changing the direction of flight, hits the surface of the disk at an angle equal to the angle between the direction of exit of the granule from the upper parts of the cone and the surface of the disc. In addition, in this case, when the granule is captured by the blade of the disc, the shock loads acting on the granule from the side of the blade remain.

The technical task of the utility model is to eliminate the destruction of granules of mineral fertilizers along the entire path of their movement from the outlet of the technological capacity to the exit from the blades of the spreader.

The stated technical problem is achieved in that a granular mineral fertilizer spreader containing a technological container with an output opening for a metered mineral fertilizer supply, a disk mounted on a hub under a mineral fertilizer metered supply outlet, blades mounted on a disk, according to a utility model, opposite the outlet technological capacity, a cone feeder is installed, having a spherical top and forming a cone in the form of a parabolic curve moreover, in the upper part of the cone, its generatrix is vertically directed, and at the base of the cone it smoothly mates with a horizontal section, grooves are made on the cone, twisting along the surface of the cone from the top to its base in a spiral, opposite the end of each groove end-to-end to the base of the cone are installed seamlessly paired with the corresponding groove.

The invention is illustrated by drawings.

In FIG. 1 schematically shows a disc spreader of granular mineral fertilizers; in FIG. 2 - cone feeder (without grooves), front view; in FIG. 3 is a cross section of a cone feeder BB.

The granular mineral fertilizer spreader contains a technological container 1 with a central outlet for a metered fertilizer supply, a cone-shaped feeder 2, a blade 3, a disk 4, a hub 5, grooves 6. A cone feeder 2 is installed in the center of the disk 4 opposite the outlet of the technological container 1 and having grooves 6 extending from the top of the cone to its base in the form of a spiral twisting around the surface of the cone. The blades 3 mounted on the disk 4 opposite the end of each groove 6 end-to-end to the base of the cone.

In the central part of the disk 3, opposite the outlet of the process vessel 1, a cone-shaped feeder 2 is installed. The top of the cone has a spherical shape. The generatrix of the cone is made in the form of a parabolic curve, and in the upper part of the cone in section “b” the generatrix of the cone has a strictly vertical direction, and at the base (in section “c”) it smoothly passes into a horizontal line. On the surface of the cone, from its top to the base, helical grooves 6 are made, the number of grooves coincides with the number of blades 3. The lateral surface of the cone, at its base, smoothly passes into a horizontal section whose height is equal to the thickness of the horizontal shelf of the blade 3 so so that when installing the blades 3 with the end to the base of the cone (butt) opposite each groove 6, there should be no step transitions, but a smooth surface, i.e. each granule, falling into the groove 6 of the cone and moving along it, smoothly switched to the blade 3, without experiencing any shock loads.

In order to ensure that fertilizer granules fall into grooves 6, the surface sections of the cone “a” between grooves 6 in their cross section have the form of a segment of a logarithmic spiral, one of the properties of which is the absence of an equilibrium point on its convex side, i.e. the pellet located at any point on the surface “a” will roll in one direction or another and will be guaranteed to fall into one of the grooves located on both sides of section “a”.

The device operates as follows.

Granular fertilizers from the technological tank 1 through the central outlet of the metered feed enter the cone feeder 2 installed in the center of the disk 4. When the cone feeder 2 is rotated together with the disk 4, the granules of mineral fertilizers are captured by the grooves 6 of the cone feeder 2 and under the action of centrifugal force move along grooves 6 and smoothly go to the blades 3, which are scattered across the field, without experiencing any shock loads.

The use of a disk spreader of granular mineral fertilizers will significantly reduce the destruction of granules of mineral fertilizers along the entire path of their movement from the outlet of the process vessel to the exit from the spreader blades.

Claims (1)

A disk spreader of granular mineral fertilizers containing a process container with an outlet for the dosed supply of mineral fertilizers, a disk mounted on the hub under the outlet for the dosed supply of mineral fertilizers and vanes mounted on the disk, characterized in that a cone feeder is installed opposite the outlet of the process vessel, having a spherical vertex and forming in the form of a parabolic curve, with a vertical directed at the top of the cone flax, and at the base of the cone smoothly joined to the horizontal portion on the cone formed grooves, twisting over the surface of the cone from the vertex to its base in the form of a spiral, opposite ends of each groove butt mounted to the base of the cone of the blade end, smoothly mating with a corresponding groove.

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