RU2478441C1 - Spiral drum screen for sizing construction materials - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to screening rocks and construction materials, crushing and sorting jobs, and screen sizing of construction materials. Proposed screen comprises trough closed on all sides with helical hollow drums arranged in tiers, one above the other, vibroexciters and elastic elements, loose material loaders and unloaders. Every drum is composed of, at least, one perforated strip bent in straight lines equally spaced apart at equal angles to perforated strip lengthwise edges to make identical perforated parallelograms located thereon behind the bend to alternate in opposite directions. Said perforated strip is Every drum is composed of, at least, one perforated strip bent in straight lines equally spaced apart at equal angles to perforated strip lengthwise edges to make identical perforated parallelograms located thereon behind the bend to alternate in opposite directions.

EFFECT: expanded performances and higher efficiency.

8 dwg

Description

The invention relates to devices for screening rocks, building materials in preparation for transportation, to perform crushing and screening operations, as well as for the classification of building materials.

Known is a vibrating screw screen (SU 614832 A, 07/15/1978, B07B 1/40), including a housing closed on all sides with spiral sifting surfaces located underneath and connected into a single technological chain, vibration exciter and elastic elements, loading and unloading means .

A disadvantage of the known device is low productivity, limited technological capabilities.

Closest to the proposed invention is a vibrating screw screen (patent No. 2368433, publ. 09/27/2009, bull. No. 27) including a closed box on all sides with belts located on each other and rigidly connected in a single technological chain by screw drums formed around the perimeter three or more curved in a vertical plane and sequentially interconnected along the length of the perforated stripes of curvilinear shape of various orders, vibration exciter and elastic elements, loading means and unloading small and large particles of bulk material.

A disadvantage of the known device is low productivity, limited technological capabilities.

The technical solution to the problem is to expand technological capabilities, increase productivity.

The technical solution is achieved by the fact that in a drum screw drum for the classification of building materials, including a box closed on all sides with a belt located on each other and rigidly connected in a single technological chain by screw hollow drums, vibration exciter and elastic elements, means for loading and unloading small and large particles of bulk material, each drum is mounted from at least one perforated strip bent in straight lines placed at equal distances and from each other at equal angles to the longitudinal edges of the perforated strip with the formation of the same perforated parallelograms, located after bending on the perforated strip alternately in opposite directions from each other, while the perforated strip is folded into cylindrical coils connected to each other along the longitudinal edges, with the formation along the perimeter of unidirectional broken helical lines and the same broken helical perforated screw pockets of a triangular shape on the outer and inner perforations drum surface.

According to the patent literature not found a technical solution similar to the claimed, which allows us to judge the inventive step of the proposed roar drum screw for the classification of building materials.

The novelty of the invention lies in the fact that when the exciter is operating, particles of bulk materials that circulate inside screw drums rigidly fixed in the vibrating housing in planes perpendicular to their horizontal axes receive additional movement from the internal perforated surfaces of a triangular shape, which intensifies the mixing of the loading mass and increases screening performance.

The novelty also lies in the fact that under the influence of the perturbing forces of the vibrator through the walls of the duct particles of building materials rotate in planes perpendicular to the axis of symmetry of the screw drums, while the screw screening surfaces of the triangular shape of the screw drums change and give additional movement to the particles of building materials, provide an increase performance classification of building materials by size, and also move them from loading to outlet m.

The novelty lies in the fact that such a structural design of the drum allows for axial movement of particles of bulk material from loading to unloading with a horizontal axis of the drum, which simplifies operation due to the lack of slope of the drum.

The novelty lies in the fact that thanks to the broken triangular-shaped internal screw perforated pockets, the vectors of the velocity of particles of bulk materials move during loading from unloading to unloading, which contributes to the intensification of screening and expands technological capabilities.

The novelty of the proposal also lies in the fact that screw perforated surfaces are formed inside the drum in the form of broken perforated triangular pockets, which intensifies screening and expands technological capabilities.

The novelty also lies in the fact that with the same diameters of the drums in the proposed design, the length of the path of the passage of particles of bulk materials in comparison with the known designs of the drums is much larger, which makes it possible to reduce the dimensions of the drum of the screen both in length and in diameter, as well as contributes to the intensification of the screening process and expands technological capabilities.

The novelty is that the drum is made of at least one perforated strip, which simplifies the manufacture.

The novelty is due to the fact that pockets of a triangular shape are formed along a broken helix, with the help of which portions of the material are captured, raised up and rushed down, which expands technological capabilities and increases the intensity of mixing and grinding.

The novelty is due to the fact that along the inner surface of the drum broken lines are formed in one direction, which extends the technological capabilities and increases the speed of the longitudinal movement of the material.

In Fig.1 shows a General view of a drum screw for classifying building materials: in Fig.2 - section aa in Fig.1; figure 3 is a view a in figure 1; figure 4 is one of three screw perforated drums, General view; figure 5 is a section aa in figure 4; figure 6 - perforated strip with marked bend lines in the form of straight lines; Fig.7 - perforated strip, bent in straight lines with the formation of pockets of a triangular shape; Fig. 8 is a perspective view of a perforated strip folded into a cylindrical coil.

The screw drum screen for classifying building materials (FIG. 1, FIG. 2) consists of means for loading 1, means for unloading 2, 3, 4, 5 for withdrawing fractions of bulk materials outside the drum screen for classifying building materials, box 6, installed using elastic elements 7 on the base 8. In the lower part of the box 6 is mounted a vibration exciter 9. The screw drum screen for classifying building materials is equipped with containers 10, 11, 12, 13 for receiving particles of bulk materials after screening. In the box 6, made closed on all sides, mounted on top of each other and connected into a single technological chain screw perforated drums 14, 15, 16.

Perforated screw drums 14, 15, 16 are made hollow, one of which, for example 14, is presented in Fig.4.

The direction of the helical lines of each half below the installed screw perforated drums is opposite to the direction of the helical lines of the screw perforated drum mounted above, for example, the direction of the helical lines of the screw perforated drum 15 is opposite to the direction of the helical lines of the screw perforated drum 14, and the direction of the helical lines of the screw perforated drum 16 is opposite to the direction of the helical lines screw perforated drum 15 (figure 1). Therefore, when the drum screen is used to classify building materials, continuous movement of bulk materials from loading to unloading is ensured.

The nozzle of the loading device 1 is mounted in the inlet of the screw perforated drum 14. The outlet 17 of the screw perforated drum 14 is closed by a lid 18, which simultaneously covers the inlet 19 of the screw perforated drum 15 and allows the masses of bulk materials to move from the upper - first screw perforated drum 14 to underlying screw perforated drum 15, namely from the outlet 17 of the screw perforated drum 14 into the inlet 19 of the wines a perforated drum 15. The outlet 20 of the second screw perforated drum 15 is closed by a lid 21, which simultaneously covers the inlet 22 of the underlying third screw perforated drum 16, allowing bulk materials to be transferred from the second middle screw perforated drum 15 to the lower third screw perforated drum 16. To receive small fractions of classified material under the first screw perforated drum 14 mounted means for unloading 2, under the second the first perforated screw drum 15 - means for unloading 3, under the third screw perforated drum 16 - means for unloading 4. Under the outlet 23 of the third screw perforated drum 16, an unloading device 5 is mounted.

A screw perforated drum, for example, 14 (FIG. 4) is made of at least one perforated strip 24 connected along the longitudinal edges 25 (shown in FIG. 4 by a dash-dot line) by known methods, for example, welding to form on the outer and inner surfaces helical lines (in Fig. 4 one of the helical lines is shown by a thickened line 26-27-28-29-30-31-32-33-34-35-36-37 of helical perforated surfaces of a triangular shape (Fig. 5) in the form of pockets 38, 39, 40, 41, 42, 43, 44.

The perforated strip, for example, 14 (FIG. 6, FIG. 7) is bent along straight lines 45 placed at equal distance L from each other and at equal angles α to the longitudinal edges 25 of the perforated strip 24 to form parallelograms 46, 47 located after fold alternately in opposite directions from each other.

After bending in straight lines (Fig. 7), the perforated strip 14 is folded into cylindrical coils (Fig. 8), connected to each other along the longitudinal edges 12 by known methods, for example, by welding, into a screw perforated drum 14. Thus, inside screw perforated drums 14, 15, 16 formed screw perforated surfaces in the form of broken perforated triangular pockets.

The drum screw for the classification of building materials works as follows.

By means of a loading device 1, classified granular material is continuously loaded into the upper screw perforated drum 14. Under the influence of the disturbing forces of the rotating vibrator 9 through the walls of the box 6 and rigidly connected to it screw perforated drums 14, 15, 16, disturbing forces are transmitted to the particles of bulk materials. Particles of bulk materials under the influence of these disturbing forces under the influence of vibration rotate in planes perpendicular to the axis of symmetry of the screw perforated drums 14, 15, 16. The screw perforated walls of the triangular shape of the screw perforated drums 14, 15, 16 change and give additional movement to the particles of bulk materials and provide increased performance classification of bulk materials by size, and also move them from loading to the outlet, for example to the exit hole 17 of the screw perforated drum 14. As the particles of bulk materials move along the horizontal axis of the screw perforated drum 14, small particles of bulk materials are separated, and they are discharged through the holes of the screw perforated drum 14 into the means for unloading 2 and then beyond the screen of the drum vibrating for classification of building materials. Under the influence of vibration and with the help of the lid 18, the particles of bulk materials are reloaded through the hole 19 into the underlying screw perforated drum 15, along the perimeter of which there are helical lines, the direction of which is opposite to the direction of the helical lines of the upper screening perforated drum 14. With their help and under the influence of vibration, small particles bulk materials through the holes of the screw perforated drum 15 are discharged into the means for unloading 3 and then beyond the scope of the drum screw for I classifications of building materials, and the larger fractions of bulk materials are moved to the outlet 20 and through the cover 21 are moved through the inlet 22 into the internal cavity of the sifting surface 16. Under the influence of vibration of the screw perforated walls of a triangular shape and helical lines around the perimeter of the screw perforated drum 16 small fractions of bulk materials are discharged into the means for unloading 4 and then beyond the limits of the drum screw for the classification of building materials fishing, and large particles of bulk materials are moved along the horizontal axis and through the hole 23 and with the help of the unloading device 5 are removed outside the screen of a drum screw to classify building materials.

The technical and economic advantages of the invention arise due to an increase in miscibility, imposition on the complex rotational movement of bulk materials from vibration in planes perpendicular to the horizontal axis of the screw perforated drums, additional movement imparted by the walls of the triangular shape of the screw perforated drums, which facilitate the passage of particles through their perforated holes and expands technological capabilities. In the process of moving bulk materials from loading to unloading, their particles make a complex spatial movement, since the direction of their movement under the influence of vibration changes under the influence of triangular walls of screw perforated drums, which intensifies the process of mixing and screening.

Claims (1)

Screw drum for classifying building materials, including a box closed on all sides, with belt hollow drums, vibration exciter and elastic elements, means for loading and unloading small and large particles of bulk material, which are closed on all sides and rigidly connected into a single technological chain that each drum is mounted from at least one perforated strip bent in straight lines placed at an equal distance from each other under one other angles to the longitudinal edges of the perforated strip with the formation of the same perforated parallelograms, located after bending on the perforated strip alternately in opposite directions from each other, while the perforated strip is folded into cylindrical coils connected to each other along the longitudinal edges, with the formation of unidirectional broken lines around the perimeter helical lines and identical broken helical perforated triangular pockets on the outer and inner perforated surface drum.

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