SU821886A1 - Cooling column for loose materials - Google Patents

Description

one

This invention relates to a technique for drying bulk materials and can be used in agriculture.

Cooling columns for cooling the grain after drying are known, which contain a centrifugal gas manifold and a working chamber arranged around it for moving the material from top to bottom with perforated walls and an outlet cone in the lower part of the valve connected to the control mechanism.

The disadvantage of such speakers is the difficulty of controlling the release of the shutter and the increased energy consumption.

The closest in technical essence to the proposed are cooling. columns for bulk materials containing two concentrically arranged perforated cylinders with a conical base of the outer cylinder, forming an annular working chamber in which the material blown by cold air moves from top to bottom. To ensure that the column is continuously filled with a material, a compartment is made in the upper part of the chamber adjacent to the central flue gas manifold, which houses the control mechanism, made in the form of a flashing light valve, equipped with a rocker arm having a counterweight passing through the collector and connected with an outlet made in the form of a cone. Testing of such a cooling column showed that self-regulation of the discharge process is provided completely. The disadvantages of this column are that the presence of the rocker arm passing through the collector leads to air leaks through the gaps. The assembly of control mechanisms and their maintenance is also difficult, since they are all located inside the cooling column. In addition, the outlet device, made in the form of a cone, does not always provide a complete overlap of the flow of material in the outlet. In the presence of large impurities or foreign objects (twigs, pebbles, straw, etc.), they are wedged between the cone and the outlet, preventing its complete overlap. The largest particles generally do not pass through the vent of the outlet.

The purpose of the invention is to simplify the design and increase operational reliability.

The goal is achieved by the fact that the compartment is located in contact with the outer cylinder, the damper is connected to the ground by means of a lever, the lever and the connecting rod are placed outside the working chamber, and the shutter is made in the form of a swinging sector connected to the counterweight.

The drawing shows schematically the described cooling column, a longitudinal section.

The cooling column contains concentrically arranged cylinders 1 and 2 with a conical base at cylinder 1, forming an annular chamber 3, a loading device 4, a central exhaust manifold 5 connected to the fan 6, compartment 7 for placing the control mechanism in the form of a valve 8 of a blinker type equipped with a lever 9 and through it connected by means of a pu 10 with a shutter 11 in the form of a swinging sector. The bolt 11 of the leg 12 is connected to the counterweight 13. Moreover, the attachment points of the pullers 10 and 12 to the bolt 11 are chosen so that the lever of the force transmitted by the rod 10 relative to the axis 14 of the sector turning when the bolt 11 is opened remains almost constant. the counterweight transmitted by the thrust 12 is greatly reduced. This ensures reliable shutter release when opened.

When the shutter 11 is closed, the lever of force transmitted by the thrust 12 increases and the counterweight 13 reliably turns the shutter 11, locks the outlet 15. The valve 8 is located in the compartment 7.

The column works as follows.

The material entering through the loading device 4 fills the chamber 3 to the upper edge of the compartment 7 and then is poured into the compartment and fills the space above the flap 8. Under the weight of the material, the flap 8 moves down and the lever 9 rises up, pulling 10 and 12, the counterweight 13 rotates the shutter 11 around the axis 14, opening the outlet 15 of the column. The diameter of the outlet 15

and the angle of rotation of the sector of the shutter 11 is selected so that the output of the material from the column is clearly superior in performance to its flow. The flap 8 remains in a lowered state until the material level in the working space of chamber 3 drops to the lower edge of the compartment 7 and the material above the flap 8 wakes up again into the working space.

 chambers 3. A damper 8 freed from material, a counterweight 13 through steps 10 and 12 rises and returns to its initial position. At the same time, the thrust 12 returns to the original position and the sector shutter 11, blocking the outlet 15 of the column. Then the cycle repeats.

Thus, the level of material in the working space of the chamber of the column fluctuates from the lower to the upper edges of the compartment 7, ensuring a constant filling of the perforated part of the cooling column and, consequently, its reliable operation.

5 and high-quality cooling material.

Claims (2)

1. USSR author's certificate number 12016-0, cl. f 26 B 17/12, 1958. 2. USSR author's certificate 55 per application 2570589, cl. F 26 B 17/12, 1978. 13 15