RU2436671C1 - Vibratory concrete mixer - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention refers to devices for preparation of concrete mixtures. The concrete mixer comprises a rotary body arranged on a stand by means of a frame with pneumatic balloons inserted into the device. The body is made of sections mounted along the perimetre from the following components that are alternately connected: a single equilateral trapezoid, two identical inequilateral trapezoids and the second equilateral trapezoid that is smaller in height than the first one. The lower bases of each trapezoid are equal to each other and are smaller than the upper bases, which are also equal to each other in all four trapezoids, with formation of square sections at the ends. The square of each subsequent section is turned relative to the square of the previous one by an angle of 180°, and in the other one - by an angle of 90°. Each attached section has sides of the square of the lower base equal to the sides of square of the upper base of the previous section. The concrete mixer is equipped with a pipeline inserted inside at the distance L from the end of the body to supply mixing water with a fixed helical attachment made of three and more helical strips coiled in the vertical plane and serially connected to each other along the length of the helical attachment, with formation of a three-way pipe and a more helical pipe with direction of helical surfaces that coincides with direction of rotation of the concrete mixer body.

EFFECT: invention allows to increase intensity of mortar components mixing.

2 cl, 12 dwg

Description

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

Known concrete mixer (AS No. 1199622, class B28C 5/14, 1982), comprising a housing with loading and unloading openings and with a working mixing body, longitudinally located in it and equipped with a vibratory tray under the unloading hole.

A disadvantage of the known device is 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 concrete mixer (RF patent No. 2044643, CL. B28C 5/18, 1995), containing a housing equipped with a drive in the form of interconnected elements with the formation of a multifaceted outer and inner surfaces.

A disadvantage of the known device is the insufficient intensity of the interaction of the components of the solutions or concrete mixes, limited technological capabilities.

The technical solution to the problem is to expand technological capabilities by giving the components of mortars or concrete mixtures a spatial zag-like movement and the simultaneous influence of vibrations in them in three mutually perpendicular directions.

The technical solution is achieved by the fact that according to the first embodiment, the vibratory concrete mixer contains a housing equipped with a drive in the form of interconnected elements with the formation of multifaceted external and internal surfaces, the rotating housing is placed on the bed by means of a frame with pneumatic cylinders inserted into the device, made of sections mounted on the perimeter of alternately connected one equilateral trapezoid, two identical non-equilateral trapezoid and the second smaller in height than the first, equilateral trapeziums, the lower bases of which are equal to each other in each trapezoid and smaller than the upper bases, which are also equal to each other in all four trapeziums, with the formation of square sections at the ends, while the square of each subsequent section is rotated 180 ° relative to the square of the previous one, each the attached section has the sides of the square of the lower base equal to the sides of the square of the upper base of the previous section and is provided with a pipe introduced to the inside at a distance L from the end of the housing for supplying mixing water from the still th screw nozzle made of three or more screw strips of rectangular shape, rolled up in a vertical plane and sequentially interconnected along the length of the screw nozzle, with the formation of a three-way or more screw pipe with the direction of the screw surfaces, coinciding with the direction of rotation of the concrete mixer body, according to the second embodiment in a vibratory concrete mixer containing a housing provided with a drive in the form of interconnected elements with the formation of multifaceted outer and inner surfaces, in The hinged body is placed on the bed by means of a frame with pneumatic balloons inserted into the device, made of sections mounted around the perimeter of alternately connected by one equilateral trapezoid, two identical non-equilateral trapeziums and a second, smaller in height than the first, equilateral trapezoid, the lower bases of which are equal to each other each trapezium has fewer upper bases, which are also equal to each other for all four trapezoids, with the formation of square sections along the ends, while the square of each subsequent section is rotated ut relative to the square of the previous one at an angle of 90 °, and each attached section has sides of the square of the lower base, equal to the sides of the square of the upper base, of the previous section, and is equipped with a pipe for supplying mixing water with a fixed screw nozzle made from three or more helical strips of rectangular shape, rolled up in a vertical plane and sequentially interconnected along the length of the screw nozzle with the formation of a three-way and more screw pipe s helical surfaces with the direction coinciding with the direction of rotation of the mixer housing.

According to the patent literature not found a technical solution similar to the claimed, which allows to judge the inventive step of the concrete mixer vibration.

The novelty is that the vibrating concrete mixer is equipped with a pipeline with a fixed screw nozzle for supplying mixing water at a distance L from the inlet of the housing, which ensures the activation of inert components and cement by mixing and transporting them horizontally, first in a dry state in the housing, but only then, after mixing cement and inert materials in a dry state, the process of mixing and concrete mixing is carried out with mixing water, the flows of which are twisted by internal therefore, when leaving the screw nozzle, large volumes of mass of inert materials and cement are mixed, thereby activating the process of mixing and concrete mixing, expands the technological capabilities.

The novelty also lies in the fact that during the rotation of the casing, the masses of cement and inert components rise to a certain height along the rotation and then are thrown by the walls of the casing towards each other and onto the outer screw surface of the screw nozzle, since the direction of the screw surfaces coincides with the direction of rotation of the casing, then the direction of movement of dry masses of inert materials and cement will change towards unloading under the influence of the screw outer surfaces of the screw nozzle.

The novelty of the invention lies in the fact that technological capabilities are expanded by giving the components of grouts or concrete mixtures a complex spatial zag-like movement and the simultaneous influence of vibrations on them in three mutually perpendicular directions excited by the geometry of the body during asymmetric movement of the masses of the components of the mortars and concrete mixtures as a result violation of the stationary motion of their flows by the geometric zigzag shape of the body, their mutual position relative to each other and to the axis of rotation.

The novelty of the invention lies in the fact that such a structural design of the housing surface around the perimeter allows not only the axial movement of the concrete mix components in the housing with the horizontal axis of rotation of the housing, simplify the drive and increase the operational life, but also increase the intensity of mixing and preparation of concrete mixtures due to an increase in miscibility due to the presence on the surface of the housing of zigzag lines with a variable step along the length of the housing, increasing Xia increasing passage section to be unloaded on the load that gives stationary traffic flow components of concrete mixes and improves performance betonosmeshivaniya.

The novelty also lies in the fact that the centers of symmetry of the inner surface of the body in each of its cross-sectional elements along its length are displaced relative to the axis of rotation of the body, which violates the stationary motion of the particles of the components of the mortar or concrete mixes and expands the technological capabilities.

In addition, the novelty is due to the fact that the elements from which the sections of the body are assembled are different in area, size and configuration, so the intensity of concrete mixing and mixing of inert materials increases, since these elements, working as shelves, capture portions of inert materials and cement that are different in volume and directing them towards each other, thus violate the stationary flow of their movement in the housing.

The novelty is that the step of the zigzag lines increases from loading to unloading, which not only provides axial movement of cement and inert components, as well as mixing water, but also intensifies the spatial zigzag motion of inert and cement, increases the body unbalance.

The novelty is also seen in the fact that the area and cross-sectional shape of the body along the length increases from loading to unloading, which intensifies the process of mixing concrete components, changing the amplitude of their vibrations when moving them from loading to unloading.

The invention is illustrated by drawings, where figure 1 shows a concrete mixer vibration, General view; figure 2 is a section aa in figure 1; figure 3 - the housing of the concrete mixer, axonometric projection; mounted according to the first embodiment; figure 4 - housing of the concrete mixer, axonometric projection mounted according to the second embodiment; figure 5 - one of the sections of the body, axonometric projection; 6 - the first (large) equilateral trapezoid; Fig.7 is one of two identical non-equilateral trapezoid; Fig.8 is a second (small) equilateral trapezoid, Fig.9 is a fixed three-way screw nozzle, side view; figure 10 is a view along arrow A in figure 9; 11 is a fixed four-way screw nozzle, side view; in Fig.12 is a view along arrow B in Fig.11.

The vibrating concrete mixer according to the first and second embodiment (FIG. 1, FIG. 2) consists of a rotating housing 1, loading 2 and unloading 3 devices and a drive (not shown). The housing 1 is equipped with sleeves 4 and 5 with the possibility of rotation in the bearing bearings 6 and 7. The toe 8 of the loading device 2 enters the hole of the sleeve 4 of the housing 1. The loading device 2, the bearing supports 6 and 7 with the housing 1 mounted in them, are mounted on the frame 9. The frame 9 is placed on four pneumatic cylinders 10, which are mounted on the bed 11. The vibrating concrete mixer is equipped with a pipeline with a fixed screw nozzle 12 for supplying mixing water at a distance L from the inlet of the housing 1, which ensures the activation of inert components and cement by mixing and transporting them horizontally, first in a dry state in the housing 1, and only then after mixing in a dry state of cement and inert materials is the process of their mixing and concrete mixing with mixing water, which moves under pressure along the inner multi-way surface of the screw nozzle 12 acquires a rotational movement and at the exit of the screw nozzle 12 swirls and, thus, the contact area of the mixing water with the dry mixture of cement and tnym materials.

According to the first embodiment and the second embodiment, the zigzag-shaped housing 1 (Fig. 3, Fig. 4) is made of sections 13 (Fig. 4), mounted (Fig. 5) from one large equilateral trapezoid (Fig. 6), two identical non-equilateral trapezoid (Fig. 7) and one small equilateral trapezoid (Fig. 8), the lower bases M of which are equal to each other at each of the trapezoids and are smaller than the upper bases of N, which are also equal to each other for all four trapezoids. Moreover, along the length of the housing 1, each attached section has sides of the lower bases M equal to the sides N of the upper bases of the previous section. The sides N of the upper bases of the sections 13 are larger than those of the smaller bases M. According to the first embodiment, the sections 13 are connected into the housing 1 by the remaining free sides S and T remaining equal to each other and forming a square after each section is rotated 180 ° relative to the previous section (Fig. 3). For clarity, the rotation of the sections 13 relative to each other by 180 ° small equilateral trapezoid with a side equal to S, figure 3 shows a thickened line and shaded. Thus, a zigzag casing 1 is created, in which the axis of each section rotated 180 ° relative to the previous one is located at an angle to the transport line, i.e. to the axis of rotation with increasing passage section of the housing 1 from loading to unloading.

According to the second variant, sections 13 are connected into the housing 1 by the remaining free sides S and T remaining equal to each other and forming a square after each section is rotated 90 ° relative to the previous section (Fig. 4). For clarity, the rotation of the sections 13 relative to each other by 90 ° in figure 4, a small equilateral trapezoid with a side equal to S is shown by a thickened line and shaded. Thus, a zigzag body 1 is created, in which the axis of each section rotated 90 ° relative to the previous one is located at an angle to the transport line, i.e. to the axis of rotation with increasing passage section of the housing 1 from loading to unloading.

The fixed screw nozzle 12 for supplying mixing water inside the housing 1 is made in the form of a unidirectional hollow pipe made along the perimeter of three or more vertically rolled and serially connected screw bands of the same width (Fig. 9, Fig. 10, Fig. 11 , Fig. 12). The connection lines of the strips rolled into a screw form a unidirectional three-way and more screw pipe, clearly pronounced both on the outer and inner perimeters, for example, with step S ₁ (shown in FIG. 9 with a thickened line 13-14) for a three-way screw nozzle, or, for example , in increments of Sz (shown in FIG. 11 by a weakened line 15-16) for a four-way screw nozzle. The direction of the screw surfaces of the screw nozzle coincides with the direction of rotation of the housing 1. The fixed screw nozzle 12 for supplying mixing water at a distance L from the inlet of the housing accelerates the activation of inert components and cement by mixing and transporting them horizontally, first in a dry state in the housing 1, and only then, after mixing in a dry state cement and inert materials and passing the distance L from the inlet of the housing 1, is the process of their mixing and concrete mixing with mixing water, the flows of which are twisted by the internal screw surfaces of the screw nozzle 12 and therefore cover large volumes of dry masses, mixed inert materials and cement when leaving the screw nozzle 12, thereby activating the mixing and concrete mixing process.

When the housing 1 rotates, the masses of cement and inert constituents rise to a certain height in the direction of rotation and throw themselves by the walls of the housing 1 towards each other and onto the outer screw surface of the screw nozzle 12, and since the direction of the screw surfaces of the screw nozzle 12 coincides with the direction of rotation of the housing 1, then the direction of movement of dry masses of inert materials and cement changes in the direction of discharge under the influence of the screw outer surfaces of the screw nozzle 12.

Concrete mixer vibration works as follows. The housing 1 through the loading device 2 is filled with a continuous stream of components of mortars or concrete mixtures (cement and inert sand, gravel, etc.). When the housing 1 is rotated, the components of the mortars or concrete mixtures are informed of a complex spatial zigzag motion with superposition of oscillations in three mutually perpendicular directions excited due to the geometry of the housing 1 during asymmetric motion of the components of the mortars or concrete and the occurrence of unbalance as a result of the violation of the stationarity of their geometric shape of the sections, their relative position relative to each other and to the axis of rotation. In this case, the centers of symmetry of the inner surface of the housing 1 in each of its cross-sectional elements along its length are displaced relative to the axis of rotation of the housing 1, which violates the stationary motion of the particles of the components of the solutions or concrete mixtures. Due to the simultaneous effect of complex spatial motion of mortar or concrete mix components and their low-frequency vibrations, the miscibility of mortar components or concrete mixes increases, their intensity of interaction between each other and with the walls of the housing 1. The mass of mortar or concrete mix components, mixed with cement in a dry state, moves inside the housing 1 from loading to unloading at a distance L. When the rotation of the housing 1, the mass of cement and inert constituents rise at a certain distance along the rotation direction and are thrown by the walls of the housing 1 towards each other and onto the screw surface of the nozzle 12, which ensures the activation of inert components and cement by mixing and transporting them horizontally, first in the dry state in the housing 1, and only then after mixing in the dry state cement and inert materials inside the housing 1 at a distance L, the process of mixing and concrete mixing with mixing water is carried out, the flows of which are twisted by internal screw surfaces and cover the poet when leaving the screw nozzle, large volumes of masses of mixed inert materials and cement, thus activating the mixing and concrete mixing process, while since the direction of the outer screw surfaces coincided with the direction of rotation of the housing 1, the direction of movement of the dry masses of inert materials and cement changed in the discharge side under the influence of the screw outer surfaces of the screw nozzle, which contributes to the movement of masses of inert materials and cement from loading to unloading. With the further movement of the components of the mortars or concrete mixtures and the passage of the distance L inside the housing 1 from the start of loading and the arrival of swirling flows of mixing water, they are mixed and prepared. Ready mortars or concrete mixtures through the sleeve 5 are discharged into the unloading device 3.

Technical and economic advantages arise due to the giving of the components of mortars or concrete mixtures a complex spatial zigzag motion and the simultaneous influence of vibrations on them in three mutually perpendicular directions, which increases the intensity of mixing, increases the energy consumption of the interaction of the components of the mortars or concrete mixtures with each other, with the walls of the housing 1 and expands technological capabilities. Since along the length of the housing 1, the cross-sectional dimensions, shape and location, the center of symmetry change, the disturbance of the movement of the components of the mortars or concrete mixes is aggravated, i.e. there is an increase in the intensity of interaction of the components of mortars or concrete mixtures, the expansion of technological capabilities.

Claims (2)

1. Vibratory concrete mixer, comprising a housing provided with a drive in the form of interconnected elements with the formation of multifaceted outer and inner surfaces, characterized in that the rotating housing is placed on the bed by means of a frame with pneumatic cylinders inserted into the device, made of sections mounted around the perimeter from alternately connected one equilateral trapezoid, two identical non-equilateral trapeziums and the second smaller in height than the first, equilateral trapezoid, the lower bases of which are equal each trapezoid has less than the upper bases, also equal to each other for all four trapezoids, with the formation of square sections at the ends, while the square of each subsequent section is rotated 180 ° relative to the previous square, with each attached section having sides of the square the lower base, equal to the sides of the square of the upper base of the previous section, and is equipped with a pipe introduced to the inside at a distance L from the end of the housing for supplying mixing water with a fixed screw nozzle made of t loops and more of helical strips of rectangular shape, rolled up in a vertical plane and sequentially interconnected along the length of the screw nozzle, with the formation of a three-way or more helical pipes with the direction of the screw surfaces coinciding with the direction of rotation of the concrete mixer body. 2. Vibratory concrete mixer, comprising a housing equipped with a drive in the form of interconnected elements with the formation of multifaceted outer and inner surfaces, characterized in that the rotating housing is placed on the bed by means of a frame with pneumatic cylinders inserted into the device, made of sections mounted around the perimeter from alternately connected one equilateral trapezoid, two identical non-equilateral trapeziums and the second smaller in height than the first, equilateral trapezoid, the lower bases of which are equal each trapezoid has less than the upper bases, which are also equal to each other for all four trapezoids, with the formation of square sections at the ends, while the square of each subsequent section is rotated 90 ° relative to the square of the previous one, and each attached section has sides of the square the lower base, equal to the sides of the square of the upper base of the previous section, and is equipped with a pipe introduced to the inside at a distance L from the end of the housing for supplying mixing water with a fixed screw nozzle made of t ex or more helical strips of rectangular shape, folded in a vertical plane and connected in series with each other along the length of the helical nozzles to form a three-way or more helical pipe with a direction of helical surfaces coinciding with the direction of rotation of the mixer housing.

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