RU2163751C1 - Fertilizer applying unit - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: fertilizer applying unit has rotary housing made in the form of cylinder, and auger mounted inside housing. Auger is formed as spiral wire with left-hand and right-hand coils providing feeding of bulk material in opposite directions. Immovable cylindrical casings within working parts of auger coils have outer diameter equal to inner diameter of auger coil. Seeding windows made in housing are arranged in helical path and equally spaced one with respect to the other in the direction of rotation of auger. Fertilizer applying unit of such construction may be attached to working tools of machine for applying bulk materials, in particular, mineral fertilizers. EFFECT: increased uniformity in seeding bulk materials on slopes, wider operational capabilities and enhanced reliability in operation. 2 dwg

Description

 The invention relates to agricultural machinery, and in particular to the working bodies of machines for applying bulk materials, in particular mineral fertilizers.

 Known screw metering device [1], containing a casing with a screw. Sowing holes are made in the form of a parallelogram, the acute angle of which is equal to the angle of elevation of the helix of the screw. The holes are overlapped by a comb flap, the ridges of which are arranged in increments equal to the angle of elevation of the screw line of the screw. Cleaners with elastic elements are installed along the edge of the screw surface of the screw.

 The disadvantage of this device is the deterioration of the uniformity of seeding of bulk materials when working on slopes.

 Known fertilizer apparatus [2], containing a hopper with a metering working body mounted on it in the form of a rotating shaft with screw springs fixed to it, the ends of which are placed in the transport channels of the housings having sowing holes with funnel receiving funnels located beneath them. Between the coil springs and the rotating shaft, additional springs of smaller diameter are installed with the direction of winding coinciding with the direction of winding of the outer spring, and a step exceeding the winding step of the latter by 1.5 times.

 The disadvantage of this design is the low uniformity of sowing bulk materials when working on slopes.

 The closest technical solution is a fertilizer meter [3], containing a rotary casing made in the form of a cylinder with a screw located inside it. The latter is made in the form of a wire spiral having left and right windings, which ensures the supply of materials in opposite directions. At the places where the spirals exit the hopper, reflective washers are installed on the shaft, which have an outer diameter equal to the inner diameter of the spiral and an inner diameter equal to the diameter of the shaft. Washers are rigidly fixed to the shaft using clamps. Sowing windows of the casing are located along a helical line with their offset relative to each other in the direction of rotation of the screw by an equal amount.

 The disadvantage of this design is the low uniformity of seeding of bulk materials when tilting the screw casing up.

 The present invention solves the problem of increasing the uniformity of sowing bulk materials when working on slopes.

 To achieve this technical result, a fixed casing is installed inside the working part of the screw spiral, made in the form of a cylinder, the outer diameter of which is equal to the internal diameter of the screw spiral.

 The proposed technical solution is illustrated by drawings. In FIG. 1 shows a General view of the proposed device. In FIG. 2 shows the layout of the bulk material in the casing.

 The fertilizer metering device includes a rotary casing 1, made in the form of a cylinder with a screw 2 located inside it. The latter is made in the form of a wire spiral having left and right windings, which ensures the supply of material in opposite directions. Inside the working parts of the spirals of the screw 2 there are fixed casings 3 made in the form of cylinders that have an outer diameter equal to the inner diameter of the spiral of the screw 2. The intake parts of the spirals of the screw 2 are located inside the hopper 4. The sowing windows 5 of the casing 1 are located along a helical line with their offset relative to each other in the direction of rotation of the screw by an equal amount.

 The device operates as follows.

 The material from the hopper 4 with the help of a spiral screw 2 is located in opposite directions along the entire length of the casing 1 at the same time, through the sowing windows 5 is ejected from the casing 1 and distributed over the field.

 To increase the uniformity of sowing of bulk materials during work on slopes inside the working parts of the spirals of the screw 2, fixed casings 3 are installed that prevent a large amount of bulk material from falling into the casing 1 of the screw 2 due to natural screes when the apparatus is tilted down or prevent the material from pouring from the casing 1 into hopper 4 when the apparatus is tilted upwards, they also eliminate the active layer formed by the forces of internal friction in the material, since bulk material is transported now s between the rotating casing 1 and the fixed cover 3 only mezhvikovym space. This provides a constant distribution angle φ along the length of the material (Fig. 2) in the casing 1, which leads to a more uniform discharge of material from the sowing windows 5.

Sources of information
1. Copyright certificate (USSR) N 1375163, MKI ⁵ A 01 C 15/00, 1984.

2. Copyright certificate (USSR) N 1825594, MKI ⁵ A 01 C 15/08, 1991.

3. Patent (RF) N 2088070, MKI ⁵ A 01 C 15/08, 1997.

Claims (1)

 A fertilizer apparatus comprising a rotary casing made in the form of a cylinder with sowing windows located along a helical line, inside of which there is a spiral auger having left and right windings, the intake parts of which are located in a hopper, characterized in that a fixed one is installed inside the working part of the auger spiral a casing made in the form of a cylinder, the outer diameter of which is equal to the inner diameter of the screw spiral.

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