UA137950U - Louvered bed - Google Patents

Abstract

The invention relates to devices for drying heat-sensitive materials such as grains. A louvered bed for drying free-flowing materials comprises a series of identical angular elements fastened in a housing and arranged in parallel and horizontally overlapping, with a space between the angular elements, each angular element comprising two shelves mounted at a right angle to each other, wherein the shelves of an angular element are not alike, one being broad and the other narrow, the vertical distance between the broad shelves is 2-10 mm, and the horizontal distance between the narrow shelves is 30-70 mm. The technical result is increased energy efficiency, reduced damage to grains, and more uniform drying.

Description

A useful model belongs to devices for drying heat-sensitive materials, such as grain.

Known ("Air chute for drying loose and non-loose materials" BO 2365836) |21), which contains a bed for placing dried materials on top of the bed and a device for supplying drying gas to the lower part of the bed, means of transporting dried materials, while the bed is composed of equal-shelf corner elements , installed parallel to the gaps for supplying drying gas, and the angle between the shelves of equal-shelf elements is straight.

The disadvantage of the device is the increased complexity of the device, which leads to low reliability and durability.

The closest analogue is the "Equipment for drying loose materials in a fluidized bed" KO 21007231 (1), which contains a louvered bed for drying loose materials, which contains a series of identical corner elements fixed in the body, located inwardly with a gap between the elements. The width of the gap of the gas distribution lattice is 0.03-0.07 of the step between adjacent slots. The step between adjacent slots should be taken within 12-18 of the average size of the bulk material to be dried. For example, for grain, the step between slots should be 40-70 mm. The target channels are directed towards the discharge and upwards at an angle of 7-10 degrees to the horizontal.

The device has increased drying uniformity compared to (2) due to the increased distance between the plates, which determine the increased width of the gaps.

The disadvantage is low energy efficiency due to the need for a fan of increased power for lifting and transporting grain. The disadvantage is also the increased traumatism of the grain and the instability of the drying results, due to the instability of movement during grain drying.

The purpose of a useful model is to increase energy efficiency, reduce grain injury and increase uniformity of drying.

The task is solved by the fact that the louvered bed for drying loose materials, which contains a series of identical (congruent) corner elements fixed in the body, located parallel and overlapping horizontally with a gap between the corner elements (inset), each corner element contains two shelves installed at right angles to each other, characterized by the fact that the shelves of the corner element are not equal to each other, one is wide, the other is narrow, while the distance between the wide shelves in height is 2-10 mm, and the horizontal distance between the narrow shelves is 30-70 mm

Corner elements can be installed in such a way that the corner between the shelves is located higher than the shelves themselves. At the same time, the wide shelf is located at an angle (5-10 degrees) close to the horizontal, and the narrow shelf is accordingly installed at an angle close to the vertical.

The inclination of the bed in the specified execution is directed to the right and down according to the figure. This implementation will reduce grain injury, as less effort of the conveyor (not shown) needs to be applied to the grain.

The width of the wide shelf of the corner element can be 50-150 mm. Corner elements with the specified width range can provide optimal dimensions of the drying areas of the blind bed.

The height of a narrow shelf can be 10-40 mm. The specified range of shelf heights will allow you to obtain sufficient strength to ensure the necessary resistance to bending of the corner element.

The corner between the shelves can be rounded, and the corner elements are made by stamping from a metal sheet with a thickness of 0.9-1.5 mm. The production of corner elements by the stamping method will simplify the production technology.

The device is schematically shown in fig. (vertical longitudinal section of the bed), where: 1 - a narrow shelf; 2 - wide shelf;

C - distance between wide shelves in height; 4 - distance between narrow shelves horizontally; 5 - rounded corner between the shelves.

The device works as follows: grain is fed onto a louvered bed fixed in the housing (not shown). A heat carrier - hot or cold gas or air - flows from the bottom of the blind bed, which passes through the layer of grain into the space above the grain. Corner elements are congruent, each of them contains a narrow shelf 1, a wide shelf 2, with a right angle 5 between the shelves. The corner elements are located with the distance between the wide shelves in height, as shown in pos. 3, and the distance between short shelves horizontally (in the horizontal direction, in width), as shown in pos. 4.

On each grain located above the blind bed, the force of gravity directed downwards, the force of aerodynamic resistance of the air flow, directed against the air flow, and on the bottom layer of the grain, in addition, the force of friction against the surface of the blind bed acts, on the middle layer of the grain there is a force from a rail conveyor (not shown). Since the resulting force of action on different layers of grain is different, mixing of grain layers occurs during movement. During the transfer of grain from the border of a wide shelf to the shelf lying below, the entire mass is also mixed and disorientated in the direction of the long axis of the grains.

In the event of an increase in the height distance between the wide shelves of the corner elements, on the one hand, the width of the channel formed by the adjacent wide shelves increases, which leads to an increase in the productivity of the dryer, on the other hand, starting from a certain value of the channel height, spillage occurs - the ingress of raw materials from from the space above the bed into the space below the bed, which disrupts the operation mode of the grain dryer and can lead to its failure, for example, to self-ignition of the overflow. The size range of wheat grains is: width 1.6-4 mm, length 4-11.2 mm. To reduce the amount of spillage, the height distance should not exceed 10 mm, because if the height is increased to more than 10 mm, there is a sharp increase in the amount of grain spillage, since there are no grains located transversely, resting between the edge of the wide shelf and the lying shelf below, which inhibit the movement of grain between adjacent wide shelves.

In the case of a decrease in the distance between the wide shelves in height, on the one hand, there is a decrease in spillage, on the other hand, a sharp decrease in the flow of drying gases, due to the narrowing of the air channel between the wide shelves, which leads to an increase in the aerodynamic resistance of the bed. The aerodynamic resistance of the bed in the case of reducing the distance between the shelves to less than 2 mm becomes greater than the aerodynamic resistance of the thickness of the grain, which negatively affects the productivity of the dryer. Narrowing the distance between the shelves to less than 2 mm does not make sense from the point of view of reducing the amount of spillage, because the size of the channel becomes commensurate with the minimum grain size and spillage becomes impossible.

The distance between the narrow shelves in the horizontal direction determines, compatible with the distance

From between the wide shelves in height, the width of the fragment of the working area of the dryer, located above the edge of the wide shelf. If the distance is increased to more than 90 mm, non-ventilated areas appear, distant from the exits of the channels formed by the wide shelves, above each wide shelf of the corner element, while the efficiency of the grain dryer decreases, because part of the grain layer adjacent to the upper surface wide shelf, does not take part in the drying process.

If the distance between the narrow shelves in the horizontal direction (in width) is reduced to less than 40 mm, there is no increase in the productivity of the dryer, since the mass of grain at a distance of 40 mm is fully ventilated, but the weight of the dryer and its material capacity increase without a significant increase in productivity. In addition, if the distance between the vertical shelves in the horizontal direction is reduced to less than 40 mm, there is a sharp increase in grain damage.

Technical result - increasing energy efficiency is achieved by reducing the fan power. Technical result - increasing the uniformity of drying of raw materials is achieved by the uniform distribution of grain on the surface of the blind bed. The technical result - a reduction in the amount of overflow - is achieved by the fact that, according to the dimensions of the bed defined in the formula, in the mass of overflowing grains, there are grains that are located across the flow and which limit the overflow.

Industrial application. The useful model can be successfully used for the production and operation of devices for drying grain and other loose raw materials.

Claims (5)

USEFUL MODEL FORMULA 1. A louvered bed for drying loose materials, which contains fixed in the body a series of identical corner elements, arranged in parallel and overlapping horizontally with a space between the corner elements, each corner element containing two shelves installed at right angles to each other, which differs in that , that the shelves of the corner element are not equal to each other, one is wide, the other is narrow, while the height distance between the wide shelves is 2-10 mm, and the horizontal distance between the narrow shelves is 30-70 mm. 2. A bed according to claim 1, which differs in that the corner elements are installed in such a way that the corner between the shelves is located higher than the shelves themselves. 3. A bed according to claim 1, which differs in that the width of the wide shelf of the corner element is 50-150 mm. 4. A bed according to claim 1, which differs in that the height of the narrow shelf is 10-40 mm. 5. A bed according to claim 1, which differs in that the corner between the shelves is rounded, and the corner elements are made by stamping from a metal sheet with a thickness of 0.9-1.5 mm. 5 I tires nn san , : OO den 2 i . | ОБОВ hek pen і за g ші а ох шт зн 4 ш-