RU195175U1 - Bulk Material Averager - Google Patents

Abstract

The proposed homogenizer of bulk materials relates to the processing of granular materials, namely, devices for averaging bulk materials and can be used in the chemical, food and other industries. The technical task of the utility model is to increase the efficiency of averaging due to the uniform distribution of the mixed components in the cross and longitudinal sections The solution of the technical problem is achieved by the fact that in the averager of bulk materials containing cylindrical th conical bottom body, pouring funnels in the form of truncated cones, fixed with a gap relative to the body and with a gap relative to each other in the projection onto the vertical plane, using brackets in the form of inclined plates having an opposite inclination on adjacent funnels, a fixed plate fixed axially symmetrically case under the lower bulk funnel, baking powder material in the form of blades mounted under each bulk funnel and mounted on a shaft axisymmetric to the vertical shaft, patr guides for loading non-averaged and unloading averaged material, on the case between the pouring funnels and baking powder with a gap relative to them in the projection onto a vertical plane, guide funnels are fixed in the form of inverted truncated cones, inclined blades are mounted on the inner surface of the funnel, having an opposite inclination on adjacent funnels, and the diameter of their lower base is equal to or less than the diameter of the upper base of the bulk funnels.

Description

The utility model relates to the processing of granular materials, namely, devices for averaging bulk materials and can be used in chemical, food and other industries.

Known averager of bulk materials, containing a cylindrical body with a conical bottom, axially symmetric to the body, bulk funnels in the form of truncated cones, nozzles for loading an average and unloading averaged material (AC USSR No. 1089262, CL. E21C 41/00, 1982).

The disadvantage of this device is that the movement of bulk material in a dense layer is characterized by a low intensity of mutual movement of particles and insufficient uniformity of distribution of the mixed components in the transverse and longitudinal sections of the averager. As a result, the high quality averaging of bulk materials in this device is not achieved.

Closest to the proposed one is a bulk material averager (RF patent No. 2624477, Cl. Е21С 41/00, 2017), containing a cylindrical body with a conical bottom, funnel in the form of truncated cones, fixed with a gap relative to the body and with a gap relative to each other in projections on a vertical plane, using brackets in the form of inclined plates having an opposite inclination on adjacent funnels, a fixed plate fixed axisymmetrically to the body under the lower overflow funnel, mother flow disintegrants la in the form of blades mounted under each funnel, and mixing and mounted on a vertical shaft axially symmetric body, pipes for loading and unloading unaveraged averaged material.

The disadvantage of this design is the low uniformity of the distribution of particles of averaged materials over the cross section due to the breakthrough of a part of the material in the space between the averager body and overflow funnels without mixing with the main material flow. As a result, the efficiency of transverse mixing of material particles and, as a consequence, the quality of averaging are reduced.

The technical task of the utility model is to increase the efficiency of averaging due to the uniform distribution of the mixed components in the cross and longitudinal sections of the averager.

The solution of the technical problem is achieved by the fact that in the averager of bulk materials containing a cylindrical body with a conical bottom, bulk funnels in the form of truncated cones, fixed with a gap relative to the body and with a gap relative to each other in the projection on a vertical plane, using brackets in the form of inclined plates having an opposite slope on adjacent funnels, a fixed plate fixed axisymmetrically to the body under the lower bulk funnel, baking powder material in the form parts installed under each pouring funnel and mounted on a vertical axisymmetric shaft housing, nozzles for loading averaged and unloading averaged material, guiding funnels in the form of inverted, truncated truncated cones in the projection onto a vertical plane are fixed on the housing between the pouring funnels and baking powder curved blades are mounted on the inner surface of the funnel, having an opposite inclination on adjacent funnels, and the diameter of their lower base equal to or less than the diameter of the upper base of the pouring funnels.

In FIG. 1 shows a bulk material averager, and FIG. 2 is a section AA in FIG. 1.

The averager (Fig. 1) consists of a cylindrical body 1, a conical bottom 2, fixed axisymmetrically to the body of the overflow funnels 3 in the form of truncated cones, nozzles 4 and 5 for loading an average and unloading the average material, respectively. In this case, the filling funnels 3 are fixed with a gap relative to the cylindrical body 1 and with a gap relative to each other in projection onto a vertical plane using brackets 6 in the form of inclined plates having an opposite inclination on adjacent funnels. Under each pouring funnel there are disintegrants of the material flow made in the form of blades 7. The blades are mounted on a vertical shaft 8, mounted axisymmetrically to the housing 1 and rotating from the drive 9.

In the gaps between the overflow funnels 3 and baking powder 7 with a gap relative to them in the projection onto a vertical plane on the casing of the averager fixed guide funnels 10 in the form of inverted truncated cones. On their inner surface mounted curved blades 11 having an opposite slope on adjacent funnels.

Under the lower guide funnel in the housing the plate 12 is fixedly fixed.

The averager of bulk materials (Fig. 1) works as follows.

First, the bulk material is fed through the loading nozzle 4 and the overflow funnels 3 to the plate 12 until the interior of the cascade of overflow funnels is completely filled. At the same time, under each of the overflow funnels, bulk material is formed with angles of repose. After filling the filling funnels, the supply of material is continued and the blades 7 located in the bulk of the material under the funnels are driven.

Under the action of the blades 7, a part of the material moves in parallel between the loose streams of falling particles in the space between the bulk funnels and the body. Falling particles of parallel flows in contact with the brackets 6, made in the form of inclined plates. Upon contact with the brackets, the falling particles change the trajectory of motion and mix.

Then, particles falling in the space between the bulk funnels 3 and the averager body 1 fall into the guide funnels 10. In them, using curved blades 11, the bulk material falling in the space between the bulk funnels and the body is further mixed and then again through the lower base of the guide funnels fed to the filling funnel 3.

An additional effect of mixing particles of bulk material is organized during gravity flow of the material in the bulk funnel along the averager body 1. Due to the uneven movement along the body of the averager in the conical bulk funnels, the particles of the material undergo longitudinal mixing and are also involved in radial movements. This leads to a certain longitudinal and transverse mixing of the particles, which contributes to the additional averaging of bulk materials.

Then, the bulk material is fed to the next bulk funnel, where the averaging process is repeated in a sequence similar to that considered. As a result of repeated repetition of the mixing process on subsequent funnels, a sufficiently high quality of averaging of bulk materials is achieved.

The averaged material is discharged from the averager through the pipe 5 in the conical bottom 2.

To fulfill its functional purpose, the structural elements of the proposed device must have the following geometric parameters.

In connection with its functional purpose - to direct particles of bulk material moving in the space between the body and the bulk funnels to the active mixing zone - the guide funnels should be made in the form of an inverted truncated cone and mounted on the averager body in the gap between the bulk funnels and baking powder blades.

The diameter of their lower base should be equal to or less than the diameter of the upper base of the bulk funnels. With a larger diameter of the lower base, the guide funnels will not fulfill their function, i.e. direct particles of bulk material into the active mixing zone.

To provide additional mixing of particles of bulk materials on the inner surface of the guide funnels mounted curved blades that have the opposite slope on adjacent funnels. As a result of this, particles in contact with curved blades change the trajectory of motion and are additionally mixed in the cross section.

In the absence of distinguishing features of the proposed device, a high quality of averaging is not ensured, due to the relatively low efficiency of transverse mixing of material particles.

The proposed device can significantly intensify the transverse mixing of particles of bulk materials as a result of their active interaction in the contact zones along the height of the apparatus. Compared with the known, the proposed device provides high quality averaging, which improves the technical and economic indicators of production.

Claims (1)

Bulk material averager, comprising a cylindrical body with a conical bottom, bulk funnels in the form of truncated cones, fixed with a gap relative to the body and with a gap relative to each other in projection onto a vertical plane using brackets in the form of inclined plates having an opposite inclination on adjacent funnels, fixed a plate fixed axisymmetrically to the casing under the lower bulk funnel, baking powder disintegrants in the form of blades mounted under each bulk funnel and secured ennye axisymmetric body on a vertical shaft for the loading and unloading pipes unaveraged averaged material, wherein the fact that guide funnels in the form of inverted truncated cones are fixed on the housing between the bulk funnels and baking powder with a gap relative to them in the projection onto the vertical plane, curved blades with opposite slope on adjacent funnels are mounted on the inner surface of the funnel, and the diameter of their lower base is equal to or smaller than the diameter of the upper base of the funnel.

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