RU232474U1 - Disc working element for spreading mineral fertilizers - Google Patents

Abstract

The utility model relates to the field of agricultural engineering, in particular to devices for applying granulated mineral fertilizers to the soil.

The utility model represents a disk working element consisting of a disk with blades rigidly fixed to the upper surface, with a length L equal to 5/6 of the radius R of the disk, in the form of a truncated hollow cone divided in half along the length with a wall thickness of 1 mm, and a diameter at the bases of d _a and d _b , wherein the internal diameter d _a of the truncated hollow cone at the upper base is two times smaller than the diameter d _b of the truncated hollow cone at the lower base, wherein the blades are located diametrically, and the outer ends of the blades coincide with the edge of the disk.

The utility model allows for increasing the uniformity of distribution of mineral fertilizers over the soil surface due to the design of the blades, which will provide different flight ranges of the granules and, as a result, will increase the uniformity of distribution of the granules over the field area, which will contribute to increasing the yield of cultivated agricultural crops.

Description

The utility model relates to the field of agricultural engineering, in particular to devices for applying granulated mineral fertilizers to the soil.

A working element of a bulk material spreader (variants) is known (RU Patent No. 2221358, IPC A01C 17/00; AC01C 3/06, Bulletin No. 2 of 20.01.2004), which includes a centrifugal disk with blades and a deflector fixed to the frame of the spreader.

The disadvantages of this working element include the fact that it does not provide sufficient uniformity of distribution of mineral fertilizers over the soil surface, due to the blades having a rectangular profile.

A working element of a centrifugal fertilizer spreader is known (RU Patent No. 2281640, IPC A01C 17/00, Bulletin No. 23 of 20.08.2006), which includes a conical disk with main and additional blades installed on its upper and lower surfaces, respectively, characterized in that the additional blades are installed with the possibility of rotation and are spring-loaded in the tangential direction.

The disadvantage of this working element is that the installation of additional blades leads to a large overlap of the ejected fertilizers, which leads to an increased amount of fertilizers on a certain area, and as a result, the uniformity of the distribution of mineral fertilizers on the soil surface is disrupted. Also, the complexity of the design leads to a violation of the balance and, as a consequence, to the rapid failure of the bearings on the shaft of the conical disk.

A working element of a centrifugal fertilizer spreader is known (RU Patent No. 2134947, IPC A01 C17/00 dated 08/27/1999), which includes a centrifugal disk with blades of different heights and lengths installed on it at various angles to the radial direction.

The disadvantages of the specified working element are: insufficient uniformity of distribution of mineral fertilizers on the soil surface due to the fact that the above-mentioned working element has different design parameters of the blades, i.e. the height, length and angle of installation of the blades. Therefore, fertilizer granules are unevenly distributed on the blades, which leads to an increase in the unevenness of application.

The closest in technical essence to the claimed invention is a centrifugal working element for sifting bulk material (RU Patent No. 2177217, IPC A01C 17/00; E01C 19/20; B65G 31/04, Bulletin No. 36 dated 27.12.2001), a disk with grooved blades. The disk is made bent in two places along straight lines. The bending lines are parallel and located from the center of the disk at a distance h not exceeding the distance from the center of the disk of the inner ends of the blades. The bent parts of the disk are parallel and deviate from the surface of the central part of the disk by an angle of α = 5-20°.

The device operates as follows. When feeding bulk material onto a rotating disk, blades fixed in the central part of the disk provide horizontal ejection of a stream of bulk material, and blades placed on inclined planes of the bent parts of the disk direct the flow of bulk material at an angle to the horizon.

The disadvantage of this working element is that it does not provide sufficient uniformity of distribution of mineral fertilizers over the soil surface, since the bulk material flies off the blades of the disk installed at a negative angle to the horizon, and each blade throws granules at the same distance.

The problem is solved in that the disk working element for spreading mineral fertilizers contains a disk with blades mounted on the upper surface, wherein the blades have the shape of half of a truncated hollow cone, wherein the internal diameter d _a of the truncated hollow cone at the upper base is two times smaller than the diameter d _b of the truncated hollow cone at the lower base, wherein the blades have a length, L, equal to 5/6 of the radius R of the disk, wherein the blades are located diametrically, and the outer ends of the blades coincide with the edge of the disk.

The essence of the utility model is explained by drawings. Fig. 1 shows a diagram of a disk working element for spreading mineral fertilizers; Fig. 2 shows a working element for spreading mineral fertilizers (side view).

The working element for spreading mineral fertilizers consists of a disk 1 (Fig. 1) with blades 2 (Fig. 1) rigidly fixed to the upper surface, with a length L (Fig. 2) equal to 5/6 of the radius R (Fig. 2) of the disk, while the blades have the shape of half a truncated hollow cone with a diameter at the bases d _a and d _b (Fig. 2), while the inner diameter d _a (Fig. 2) of the truncated hollow cone at the upper base is half the diameter d _b (Fig. 2) of the truncated hollow cone at the lower base, while the blades 2 (Fig. 1) are located diametrically, and the outer ends of the blades 2 (Fig. 1) coincide with the edge of the disk 1 (Fig. 1).

The device works as follows.

When feeding granules to the working element for spreading mineral fertilizers, the granules fall on disk 1, then, due to the rotational movement of the working element, they reach the base of the blades 2, while, due to the centripetal acceleration, the fertilizer granules begin to move along the inner side of the blades, which are a truncated hollow cone divided in half, and the granules that fall on the blade closer to the outer side of the disk rise slightly along the inner side of the blade, gaining a lower speed of movement after leaving the working element compared to the granules that fall on the blade closer to the center of the disk, which will provide different flight ranges of the granules and, as a result, increase the uniformity of the distribution of the granules over the field area.

The use of the proposed working element allows to increase the uniformity of distribution of mineral fertilizers over the soil surface due to the design of the blades, which will provide different flight ranges of granules and, as a result, will increase the uniformity of distribution of granules over the field area, which will contribute to an increase in the yield of cultivated agricultural crops.

Claims (1)

A disc working element for spreading mineral fertilizers, consisting of a disc with blades mounted on the upper surface, characterized in that the blades have the shape of half a truncated hollow cone, wherein the internal diameter d _a of the truncated hollow cone at the upper base is half the diameter d _b of the truncated hollow cone at the lower base, and the blades have a length L equal to 5/6 of the radius R of the disc, and the blades are located diametrically, and the outer ends of the blades coincide with the edge of the disc.