RU2591991C2 - Separator of bulk granular materials - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to separation of loose grain materials according to size, density, shape and roughness, elasticity and can be used in agriculture, chemistry, metallurgy, construction industry. Separator comprises loading hopper, load control device, series-arranged in a cascade inclined trays with a gap between them in a projection on horizontal plane, collector of separation products. Load control device is made in form of a damper installed at output of loading hopper. Inclined trays are installed at an angle to horizontal, close to angle of natural slope of granular material, and are made in form of rough plane with perforations, size of holes of which is less than size of fine particles of a mixture of granular material. Above lower edge of bottom of perforated rough plane, parallel therewith, there is a separation plate arranged to displace. Above and under a layer of granular material on inclined perforated rough planes, there is an air channel connected to cyclone for separation of fine mineral impurities and a fan. Fan provides blowing of granular material layer on inclined perforated surface in direction from open surface layer to its base. It is possible to shift gravity flow of granular material on said surface with movement of upper layers with considerably higher speeds than that of lower layers, and separation of granular layers in height by impurities and seeds.

EFFECT: higher efficiency of separation of loose grain materials in gravity flow due to use of segregation and migration effects on cascade inclined perforated rough plane.

1 cl, 1 dwg

Description

The present invention relates to the field of separation of granular bulk materials by size, density, shape, roughness, elasticity and can be used in agriculture, chemistry, metallurgy, construction industry.

A known separator of bulk materials, providing for the supply of material to inclined trays and the separation of particles sliding on an inclined plane (SU No. 426717, M. class. B07B 1/04, BI No. 17, 1974).

The disadvantage of this device is that it: limited opportunities due to the separation of granular materials only inertial and frictional properties; low quality of separation due to the absence of a stable shear flow of the layer on an inclined plane.

The closest in technical essence to the claimed device is a bulk material separator (RU 2147257 C1, B07B 1/04, 10.04.2000) containing trays sequentially installed in cascade with a gap between them in the projection on a horizontal plane, devices for regulating the position of the trays, the frame and collections of finished products. The classifier is installed in a single housing and it has a device for controlling the initial speed, including racks with movable supports on which the rails are mounted. Using brackets, a loading device is fixed that has two shutters for regulating the load. The device also includes an acceleration section, pivotally mounted on the housing, and a locking device.

However, in the known separator of bulk materials, the separation of bulk materials occurs only by inertial and frictional properties, which limits its capabilities. The absence of processes of segregation and migration of bulk materials (shear flow of the material layer) on the cascade (step) inclined plane reduces the quality of separation.

An object of the invention is to increase the efficiency of separation of granular granular materials in a fast shear gravitational flow using the effects of segregation and migration on a cascade (step) inclined perforated rough plane.

The problem is solved due to the fact that the separator of granular granular materials, including a loading hopper, a device for regulating the load, inclined trays successively installed in cascade with a gap between them, product collectors, according to the invention, inclined trays are installed at an angle to the horizontal close to the angle of repose granular material, and made in the form of a rough plane with perforations, the size of the holes of which is smaller than the size of small particles of the mixture of material, above the lower edge of the lower a perforated rough plane, parallel to it, is installed with the possibility of moving the separation plate, while the device for regulating the load is made in the form of a gate mounted at the outlet of the loading hopper, above and below the layer of granular material located on inclined perforated planes, an air channel connected to cyclone to isolate small mineral impurities connected to a fan.

Distinctive features of the claimed device are:

- the implementation of inclined trays in the form of a perforated rough plane installed at an angle to the horizon, close to the angle of repose of the granular material;

- the implementation of the device for regulating the load in the form of a gate installed at the output of the loading hopper;

- the presence of a separation plate installed above the lower edge of the lower perforated rough plane;

- the presence of an air channel passing above and below the layer of granular material located on a cascade (step) inclined perforated rough plane;

- the presence of a cyclone for the allocation of mineral impurities connected to a fan.

On an inclined perforated rough plane of the inventive separator, conditions are formed that are close to the condition of adhesion or delay of the lower layer of granular particles. In this case, the upper layers of particles move with significantly higher speeds than the lower ones. It follows from this that in the regime of their fast shear flow, which depends on the ratio of the intensity of simultaneously occurring processes of segregation, migration, and mixing, a certain part of the particles of the granular mixture having similar properties move toward the upper open surface of the layer (impurity), and the other part in the opposite direction, i.e. to the base of the layer (seeds). This ensures the efficiency of the selection of high-quality seeds from the initial mixture.

Installation at the outlet of the loading hopper of the gate allows you to adjust the flow of granular material by the thickness or height of the layer, because the quality of separation according to one or several dominant features (size, density, shape, roughness, elasticity) depends on the ratio of the intensity of the simultaneously occurring processes of segregation and mixing.

The presence of a separation plate installed parallel to the rolling plane along an inclined perforated rough plane, with the possibility of translational movement relative to the lower edge of the plane, contributes to the separation of the granular layer by thickness or height into impurities and seeds. The clarity of the separation of inhomogeneous particles of granular materials by the thickness or height of the granular layer increases with increasing ratio of the intensity of segregation to the intensity of mixing.

The presence of an air channel above and below the layer of granular material or its transverse purging with air helps to intensify the shear flow by increasing the angle of inclination of the cascade (step) perforated rough plane, in which conditions are formed on it that are close to the adhesion or retention of the lower layer of granular particles.

Air purging of a layer of granular material allows you to combine the separation process with the release of mineral impurities. Small mineral impurities are carried out by the air flow and sent to the trapping equipment cyclone connected to the fan.

Thus, the identified distinctive features of the claimed device ensure the achievement of a technical result, which consists in increasing the productivity and efficiency of selection of high-quality seeds from the initial mixture.

The invention is illustrated in the drawing, which shows a diagram of a separator of bulk granular materials.

The separator of granular granular materials contains a feed hopper 1, at the output of which a slide 2 is installed to control the thickness of the grain layer. Under the hopper 1, there are successively cascaded inclined perforated rough planes 3 with a clearance of 4 in height between them in the projection onto the horizontal plane. The size of the holes of the perforated planes 3 is smaller than the size of the fine particles of the mixture of granular material. Perforated rough plane 3 is installed at an angle to the horizon, close to the angle of repose of the granular material. Over the lower edge of the lower perforated rough plane 3, a separation plate 5 is mounted parallel to it with the possibility of translational movement relative to the lower edge of the plane 3. Above and below the layer of granular material 6 located on the inclined cascade perforated rough planes 3, there is an air channel 7 connected to a cyclone for the separation of small mineral impurities and exhaust air by a fan (not shown in the drawing).

The separator is equipped with collections of seeds and impurities. The separator of granular granular materials works as follows. From the hopper 1, the granular material with a layer of a certain thickness or height, adjustable by the gate 2, is fed to the inclined rough plane 3 sequentially set in cascade. The layer of granular material 6 on the inclined rough plane 3 is transversely blown with air in the direction from the open surface of the layer to its base. Due to the roughness of the inclined plane 3 and under the influence of air flow, particles of the lower layer of granular material adhere to or linger on the perforated rough plane 3. In this case, a shear gravitational flow of granular material is organized on the plane 3 at the base of the perforated rough plane 3 from stationary particles of the mixture. In the process of shear flow, the upper layers of the granular material 6 overtake the lower ones and, interacting with them, exchange particles between themselves. When particles interact, they collide, as a result of which they move in a certain direction from the collision site. As a result, a certain part of the granular material with similar properties (impurities) moves towards the open surface of the layer, and the other part (seeds) moves in the opposite direction, i.e. to the base. The fractions of the finished product are regulated using the separation plate 5 by translational movement relative to the lower edge of the inclined plane. The air stream created by the fan carries out small impurities deposited in the cyclone. Thus, the separation of granular layers by thickness or height into impurities and seeds occurs.

The positive effect is as follows. In the process of separation of inhomogeneous particles in the regime of fast shear flow, the effect of separation of particles in the transversely blown layer is realized. Some particles (impurities) move toward the open surface of the layer, while others (seeds) move toward the base of the layer. In this case, the upper layers move with significantly higher speeds than the lower ones, and interacting with them, exchange particles between themselves.

Claims (1)

A separator of granular granular materials, including a loading hopper, a device for regulating the load, inclined trays sequentially installed in cascade with a gap between them in the projection on a horizontal plane, collectors of separation products, characterized in that the device for regulating the load is made in the form of a gate mounted at the outlet of the loading hopper, while the inclined trays are installed at an angle to the horizon, close to the angle of repose of the granular material, and made in the form of rough planes with perforations, the size of the openings of which is smaller than the size of small particles of a mixture of granular material, above the lower edge of the lower perforated rough plane, parallel to it, a separation plate is mounted with the possibility of movement, above and below the layer of granular material located on inclined perforated rough planes, an air channel passes connected to a cyclone for the separation of fine mineral impurities and a fan, providing the ability to purge a layer of granular material to incline perforated surface in the direction from the open surface of the layer to its base, providing a shear gravitational flow of granular material on the said surface with the movement of the upper layers at significantly higher speeds than the lower ones, and the separation of the granular layers in height into impurities and seeds.

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