RU2494598C2 - Centrifugal distributor of bulk materials - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: centrifugal distributor comprises a hopper 1, a receiving chamber 4 with the outlet hole 5, and a disseminating disc 2 with flat blades 3 and a removable cover 16. The receiving chamber 4 is provided with an annular sliding shutter 8. The cover 16 of the disseminating disc is made with the ability of cooperative movement with the annular shutter 8. The cover 16 is provided with pairs of blades of the disseminating disc, at that the length of the latter is chosen to be (0.5÷0.55) of height of the outlet hole 5 of the receiving chamber 4.

EFFECT: need of manual labor for removal of residual materials from the receiving chamber is eliminated, and specific energy consumption is reduced in case of small doses of material application.

2 cl, 4 dwg

Description

The invention relates to agricultural machinery, in particular to centrifugal spreaders of bulk materials, such as mineral fertilizers.

Known centrifugal spreader of bulk materials, including a hopper, a scattering disk with flat blades and a receiving chamber with an outlet opening, providing a flow of bulk material from the side of the inner ends of the blades. The bottom of the receiving chamber of the device is the scattering disk itself. Under the action of centrifugal forces, the material is dispersed from the center of the disk in all directions, sown through the outlet, picked up by the blades and scattered across the field. (ed. certificate. USSR 251291, АСС 17/00, 1967).

The known device does not provide the necessary sieving width and sufficient uniformity of the distribution of bulk material over the field surface. This is due to the fact that part of the material, after contact with the blade, is reflected from it and is located in close proximity to the scattering disk. Another part of it is picked up by the blades with an initial speed along the blades close to zero, accelerates along them and distributed around the scattering disk for a short distance. In this case, the flight range of the material is reduced due to the premature gathering of bulk material from the upper edges of the flat blades. In addition, particles of material are crushed in the gap between the end of the receiving chamber and the surface of the scattering disk, as well as when they hit the blades at the place of supply of bulk material. Due to the impact of the material on the surface of the blades, their intense sticking occurs, which also leads to a decrease in the width of the spreader.

The closest in technical essence to the invention is a centrifugal spreader comprising a hopper, a scattering disk with flat blades and a receiving chamber with an outlet opening that provides bulk material from the side of the inner ends of the blades, an elastic plate cantilever attached to the inner end of each of the blades with a deviation to the side of rotation of the disk, and on the back side of the elastic plate near its free end with a gap of 1-3 mm, an emphasis is mounted to it, which is rigidly connected to the disk, and on the blade Kah removable cover secured to a ring. Unlike the design of the previous device, the bottom of the receiving chamber is stationary and located above the disk, which eliminates the crushing of bulk material during sowing through the outlet of the receiving chamber (RF patent 2197807, А01С 3/06, А01С 17/00 2001).

The known device is made with a flat bottom of the receiving chamber, which in turn leads to the need for manual labor to remove residual material from the receiving chamber. In addition, at low doses of introducing material in the working process, only part of the blade height is used, but the energy costs for idling the scattering disk will be the same as for large doses, which will lead to an increase in the specific energy costs as the dose decreases.

The objective of the invention is to reduce the specific energy consumption of the distribution process at low doses of application of the material, as well as reduce the complexity of maintenance of the spreader of bulk materials.

EFFECT: increased efficiency of using the inter-disk space and eliminating the need for manual labor to remove material residues from the receiving chamber.

The technical result is achieved by the fact that in a centrifugal spreader of bulk materials, including a hopper, a receiving chamber with an outlet and a scattering disk with flat blades, and a removable cover, the receiving chamber is equipped with an annular shutter, and the cover of the scattering disc is arranged to move together with the annular shutter, and equipped with pairs of vanes of the scattering disk, the length of the latter being chosen equal to (0.5 ÷ 0.55) the height of the outlet of the receiving chamber. The bottom of the receiving chamber may be inclined toward the outlet.

The use of an annular flap allows not only to regulate the dose of the dispersed material, but also due to joint movement with a removable cover, which is provided on the underside with pairs of blades that form grooves with the blades of the scattering disk placed in them, which affects the amount of energy spent on the idle rotation of the scattering drive. This solution eliminates the need for manual labor to remove residual material from the receiving chamber.

When the dose of material is reduced, the annular shutter together with the removable cover moves down, which leads to a decrease in the total height of the blades of the removable cover and the scattering disk and, therefore, to reduce the energy costs for idle rotation of the scattering disk.

The effect is achieved by performing the bottom of the receiving chamber with an inclination at an angle to the horizontal to the side of the outlet opening, which exceeds the friction angle of the dispersed materials, which ensures self-removal of material from the receiving chamber after its supply ceases.

Figure 1 shows a spreader in section; figure 2 is a view aa of figure 1; figure 3 is a view along BB of figure 1; figure 4 is a view BB of figure 1.

The centrifugal spreader of bulk materials contains a hopper 1, a scattering disk 2 with flat blades 3 and a receiving chamber 4 with an outlet 5. The outlet 5 provides a flow of bulk material from the side of the inner ends of the blades 3. The bottom 6 of the receiving chamber 4 is installed at an angle to the horizon that exceeds the friction angle of the dispersed materials towards the outlet. The connecting flange of the receiving chamber 4 is made with annular grooves 7. On the outer surface of the receiving chamber 4 there is an annular shutter 8 with vertical grooves 9. Fixation of the receiving chamber 4 and annular shutter 8 is carried out using studs 10 and nuts 11. At the bottom of the annular shutter 8 is made a flange 12 with annular grooves 13, in which the balls are placed 14. On the flange 12, a removable cover 16 is fixed with a latch 15 with blades 17 forming grooves in which the blades 3 of the scattering disk 2 are placed. The latch 15 and the removable roof 16 and formed with annular grooves 18 to accommodate therein the balls 14 and are connected by pins 19 and nuts 20. The vanes 3 and 17 have a height of 2-3 mm greater than half the height of the outlet that ensures their overlap at a maximum application rate.

The device operates as follows.

Before starting work, adjust the spreader. To do this, rotating the receiving chamber 4, set the desired direction of spreading, and moving the annular valve 8 in the vertical direction, the required dose of application.

During the operation of the spreader, the bulk material from the hopper 1 enters the receiving chamber 4, moves under the action of gravity along the inclined bottom 6 and then through the outlet 5 it enters the rotating disk 2, where it is picked up by the blades 3 and 17. Further, the material is subjected to centrifugal forces and air associated flows moves along the blades 3 and 17 and is distributed by them along the surface of the field. The effect of self-cleaning of the receiving chamber 4 after stopping the supply of material is ensured by performing its bottom 6 with an inclination at an angle to the horizontal towards the outlet, exceeding the angle of friction of the dispersed materials. Changing the total height of the blades 3 and 17 due to the joint movement with the annular shutter 8 in the vertical direction of the removable cover 16 can reduce energy costs while reducing the dose.

Using the proposed device can reduce both labor costs when servicing the spreader, and reduce energy costs for idle rotation of the scattering disk at a small dose.

Claims (2)

1. A centrifugal spreader of bulk materials, comprising a hopper, a receiving chamber with an outlet and a scattering disc with flat blades and a removable cover, characterized in that the receiving chamber is equipped with an annular movable shutter, and the cover of the scattering disc is movable with the annular shutter and provided pairs of blades of the scattering disk, the length of the latter being chosen equal to 0.5 ÷ 0.55 of the height of the outlet of the receiving chamber. 2. The spreader according to claim 1, characterized in that the bottom of the receiving chamber is made with an inclination towards the outlet.

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