RU2467870C2 - Unit with toroidal working chamber for making mortars - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to preparation of mortars. Proposed unit comprises working chamber mounted elastically on bed and equipped with drive. Said chamber is shaped to torus with bicurved wavy multi-start screw surface provided with screw grooves, inside and outside of said chamber, arranged at surface axis and shaped to curvilinear pockets with centers of curvature located inside and outside of said chamber. It is composed of sections, each being shaped to circular sector composed of coiled strip to make different-size quadrangles with two parallel sides. Note here that said sections are interconnected by free sides of said quadrangles to hollow working chamber with wavy screw surfaces in the form of curvilinear pockets that differ in shape and size. Note here that distance between bend lines equals the sum of inner and outer surface pocket perimeters.

EFFECT: expanded operating performances, smaller overall dimensions.

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Description

The invention relates to devices for the preparation of mortars and concrete mixtures.

Known concrete mixer (AS No. 11999622, class. B28C 5/14, 1982), containing a housing with loading and unloading holes and with a working mixing body, longitudinally located in it and equipped with a vibratory tray under the unloading hole.

The disadvantages of the known device are the insufficient intensity of the interaction of the components of the solutions and concrete mixtures, limited technological capabilities.

Closest to the proposed invention is a vibrating device for the preparation of solutions (the decision to grant a patent for an invention according to RU 2398678, C1, 09/10/2010), comprising an elastically mounted base, equipped with a drive, made in the form of interconnected sections with the formation of a multifaceted outer and inner surfaces, mounted from alternately connected two rectangles and two parallelograms with the formation of square sections at the ends, while the square of each subsequent section is rotated tnositelno preceding by an angle of 180 °.

The disadvantages of the known device are limited technological capabilities, large dimensions in length.

The technical solution is the expansion of technological capabilities, reduction in size.

The technical solution is achieved by the fact that the working chamber is made in the form of a torus with a wave-like multi-start screw surface of double curvature, equipped with helical grooves inside and outside the working chamber at an angle to its axis in the form of pockets of curvilinear shape with centers of curvature located outside and inside the cross section of the working chamber mounted from sections, each of which is made in the form of a circular sector, made of a strip rolled into a ring with the formation of different sizes of quadrangles with two I parallel sides, parallel to each other, while the sections are connected to each other by the free sides of the said quadrangles in the form of a hollow working chamber, with the formation of outer and inner surfaces directed to one side at an angle to the longitudinal axis of the working chamber of wavy helical surfaces in the form of pockets curvilinear shape on the outer and inner surfaces, which around the perimeter of the working chamber can be different not only in shape but also in size, while the distance between the fold lines is equal to the sum of the lengths of the perimeters of the geometric shapes of the pockets of the inner and outer surfaces.

According to the patent literature not found a technical solution similar to the claimed, which allows to judge the inventive step of the proposed installation for the preparation of solutions with a toroidal working chamber.

The novelty is due to the fact that the working chamber is made in the form of a torus with a wave-like multi-starting helical surface of double curvature, equipped with helical grooves inside and outside the working chamber at an angle to its axis in the form of pockets of curvilinear shape with centers of curvature located outside and inside the cross section of the working chamber, which provides not only an intensification of the interaction of the components of the solutions, but also a reduction in size along the length and expansion of technological capabilities.

The invention is illustrated by drawings, where: in Fig.1 shows an installation for the preparation of solutions with a toroidal working chamber, General view; figure 2 - working chamber, top view; figure 3 is a section aa in figure 1; figure 4 - ¼ of the working chamber, top view; figure 5 - section bb in figure 4; figure 6 is a strip with marked straight lines of bending and cutting lines of the edges of the quadrangles; 7 is a strip after trimming the edges of the quadrangles; on Fig - strip after trimming the edges of the quadrangles, bent along the straight lines of the fold, a visual image; Fig.9 is a perspective view of a strip rolled up into a ring (in the form of a circular sector - section).

Installation for the preparation of solutions with a toroidal working chamber (Fig. 1) consists of a bed 1, on which, using springs 2, a toroidal working chamber 4 is elastically attached and equipped with a vibrator 3. Loading and unloading devices, as well as devices for supplying mixing water in the drawings, are not are shown.

The toroidal working chamber 4 (FIG. 2, FIG. 3, FIG. 4) is made in the form of a torus from sections 5 (FIG. 4) with a wave-like multi-start screw surface of double curvature provided with helical grooves inside and outside the working chamber at an angle to its axis in the form of pockets of curvilinear shape with centers of curvature located outside, 6, 7, 8, 9, 10, 11 and pockets of curvilinear shape with centers of curvature located inside the cross section of a toroidal working chamber, 12, 13, 14, 15, 16, 17 .

Section 5 (one of the sections 5 in Fig. 4 is indicated by solid thickened lines), made in the form of a circular sector and interconnected by known methods, for example, by sticky welding and the like, with the formation of 4 screw-shaped toroidal working chambers on the outer and inner perimeters grooves inside and outside the working chamber 4 at an angle to the axis in the form of pockets of curved shape with centers of curvature located outside and inside the cross section of the working chamber 4.

Pockets of curved shape on the outer surface 6, 7, 8, 9, 10, 11 (Fig.6) and pockets of curved shape on the inner surface 12, 13, 14, 15, 16, 17 around the perimeter of the working chamber 4 can be different not only in shape, but also in size.

Each of the sections 5 is made of a strip 18 (Fig. 5), bent in a wave-like fashion along the fold lines 19, located at equal angles α to the longitudinal edges of the strip 18 and placed at equal distances L between the fold lines 19. The distance L is equal to the sum of the lengths of the perimeters of the geometric figures pockets of the inner and outer surfaces, namely the distance between points AB, BB, BB, GD, DE, EA.

Thus, each of the sections 5 is made in the form of a circular sector (Fig. 4) and is mounted from a strip 18 (Fig. 6, Fig. 7), on which rectangles 20 are marked (one of the rectangles is shown in Fig. 6 by a double line) and fold lines 19, located from each other at equal distances equal to the length of the scan of the perimeter of curved pockets at distances L and at an angle α to the longitudinal edges of the strip 18.

The strip 18 also marks the trim lines 21 of the edges of the strip 18, shown in FIG. 5 with a dash-dot line with two points. After marking along the trim line of the edges 21, the sections of the strip 18 (in FIG. 6 these sections of the strip 18 are shaded) are cut off, and the strip 18 takes on the form shown in FIG. 7, in which the fold lines 19 of the strip 18 are different in length L ₁ , L ₂ , L ₃ , L ₄ , L ₅ , L ₆ with the formation at the same time of different sizes of quadrangles with two parallel sides - fold lines 19 parallel to each other. The strip 18 (Fig.7) after trimming the edges of the rectangles 20 along the trim line 21 is bent in a wave-like fashion along straight lines placed at an angle α to the edges of the strip 18 to form undulating surfaces AB, BB, BB, GD, DE, EA, and then rolled into a ring 22 (Fig.9) with a curved wavy surface. The wave-like strip 18 after folding into the ring 22 is connected by known methods, for example by welding, soldering, etc. along the transverse edges 23 and 24 (Fig.7, Fig.8) strip 18 with the formation of section 5 in the form of a circular sector.

Thus, the toroidal working chamber 4 (Fig. 3, Fig. 4), made in the form of a torus, is made around the perimeter in the form of a multi-starting wave-shaped helical surface of a curved shape at an angle to the axis of the housing 1. In Fig. 4 it is shown that the outer diameter D of the toroidal working chamber 4, the distance between the screw surfaces is S ₁ , and according to the inner diameter d, the distance between the screw surfaces is S ₂ . Moreover, S _{1 is} greater than S ₂ .

A toroidal working chamber 4 (FIG. 2, FIG. 3) in the form of a torus (circular ring) with a wavy curved helical surface along its inner and outer perimeter with the formation of curved pockets with a step varying in diameter of the working chamber can be made in another way.

Installation for the preparation of solutions with a toroidal working chamber works as follows.

The components (cement and inert materials) of the mortar or concrete mixture, as well as the mixing water, are continuously loaded into the toroidal working chamber 4 through the loading means. The perturbing force of the vibrator 3 through the walls of the toroidal working chamber 4 is transmitted to the particles of the components inside the working chamber, and they undergo vibrational rotation in a plane perpendicular to the passage section of the working chamber 4. Since the components move with different rotational motion under different the corners are helical wavy surfaces, then the particles of the components are forced to change the direction of their movement and make a complex movement, in which they not only move from loading to unloading, but also provide for their mixing. When the particles of the solution components move along the flow section in shape and size, compression and rarefaction zones are formed alternately in each section of the working chamber 4 throughout the volume, which intensifies the process of preparing solutions and expands technological capabilities.

Technical and economic advantages arise due to the execution of the working chamber 4 in the form of a torus, the surface of which is equipped with unidirectional wave-like helical surfaces of double curvature in the form of pockets of curvilinear shape, which provide not only the expansion of technological capabilities, but also the reduction in size.

Claims (1)

Installation for the preparation of solutions with a toroidal working chamber, comprising a working chamber resiliently mounted on a base and equipped with a drive, characterized in that the working chamber is made in the form of a torus with a wave-like multi-start screw surface of double curvature, equipped with screw grooves inside and outside the working chamber at an angle to it axes in the form of pockets of curvilinear shape with centers of curvature located outside and inside the cross section of the working chamber are mounted from sections, each of which is made in the form of a circular sector made of a strip rolled into a ring to form different-sized quadrangles with two parallel sides parallel to each other, while the sections are connected to each other by the free sides of the said quadrangles in the form of a hollow working chamber, with the formation of the outer and internal surfaces directed to one side at an angle to the longitudinal axis of the working chamber, wave-shaped helical surfaces in the form of pockets of curved shape on the outer and inner nney surfaces that on the perimeter of the working chamber may be different not only in shape but also in size, the distance between the fold lines is equal to the sum of the lengths of the perimeters of the geometric shapes of pockets inner and outer surfaces.

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