RU2734304C1 - Continuous-action concrete mixer - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to devices for preparation of mortar and concrete mixtures. In a continuous-action concrete mixer comprising a resilient mounted on a platform mounted by means of rubber-cord pneumatic bottles on the base, a hollow housing, inside of which a tension spring is fixed, a loading and unloading device, a pipeline for supply of tempering water to the housing, the housing is screw-type in the form of installed at an acute angle α relative to truncated pyramid horizontal axis of rotation, with base in form of hexagram and with flat end face polygonal jaws, arranged at different angles ϕ and ψ to axis of rotation of truncated pyramid and to each other at angle β. Edge jaws of polygonal shape are turned along axis of rotation of truncated pyramid relative to each other by angle ω with formation along inner perimeter of helical lines and helical pockets of triangular shape along its entire length. Inside the mounted conical spring with round section of turns, which is equipped with mechanism for change of turns pitch by its expansion or compression, note here that said pipeline for tempering water supply to screw housing is mounted on discharge side by 1/2 of screw housing length.

EFFECT: expansion of technological capabilities, increased efficiency and intensity of interaction of components of mortars or concrete mixtures and tempering water in a continuous-action concrete mixer.

1 cl, 5 dwg

Description

The invention relates to a device for the preparation of solutions and concrete mixtures.

Known vibrating concrete mixer (RF patent No. 2398678, class В28С 5/20, 2010), containing placed on the frame by means of a platform introduced into the device with pneumatic bellows and equipped with a drive, a hollow body assembled from sections, loading and unloading devices.

The disadvantage of the known device is insufficient productivity and intensity of interaction of the components of solutions or concrete mixtures, limited technological capabilities.

The closest to the proposed invention is a continuous concrete mixer (RF patent No. 2653208, class В28С 5/20, 2018), containing an elastically installed on a platform mounted by rubber-cord pneumatic bellows on the base, a hollow body, inside which a tension spring is fixed, a loading and an unloading device, a pipeline for supplying mixing water to the body, mounted on the unloading side by 2/3 of the body length, made in the form of a cylinder installed obliquely at an acute angle α relative to the horizontal body axis with flat end walls of an elliptical shape, parallel to each other, placed perpendicularly or obliquely at an acute angle β to the horizontal axis of rotation of the body, but maintaining parallelism to each other, while the major axes of the ellipses of the end walls are rotated relative to each other by an acute angle ω.

The disadvantage of the known device is insufficient productivity and intensity of interaction between the components of solutions or concrete mixtures and mixing water, limited technological capabilities.

The objective of the invention is to expand the technological capabilities, increase the productivity and intensity of interaction between the components of solutions or concrete mixtures and mixing water.

The technical result is achieved by the fact that in a continuous concrete mixer containing resiliently mounted on a platform mounted by rubber-cord air bellows on the base, a hollow body, inside which a tension spring, loading and unloading devices are fixed, a pipeline for supplying mixing water to the body, while the body is made helical in the form of a truncated pyramid installed at an acute angle relative to the horizontal axis of rotation, with a base in the form of a hexogram and with flat end cheeks of a polygonal shape placed at different angles ϕ and ψ to the axis of rotation of the truncated pyramid and to each other at an angle β, with the end cheeks of a polygonal shape are rotated along the axis of rotation of the truncated pyramid relative to each other at an angle ω with the formation of helical lines and helical pockets of a triangular shape along its entire length along the inner perimeter, and a conical spring with a circular cross-section of turns is mounted inside It is equipped with a mechanism for changing the pitch of the turns by stretching or compressing it, and the pipeline for supplying mixing water to the screw body is mounted on the unloading side by 1/2 the length of the screw body.

According to the data of the patent-technical literature, a technical solution similar to the claimed one was not found, which makes it possible to judge the inventive level of the proposed continuous mixer.

The novelty lies in the fact that the body is made of a screw in the form of a truncated pyramid installed at an acute angle α relative to the horizontal axis of rotation, with a base in the form of a hexogram and with flat end cheeks of a polygonal shape, placed at different angles ϕ and ψ to the axis of rotation of the truncated pyramid, and other to the other at an angle β, while the end cheeks of a polygonal shape are rotated along the axis of rotation relative to each other at an angle ω, with the formation of helical lines and helical pockets of a triangular shape along its entire length along the inner perimeter, and a conical spring is mounted inside its entire length of the body with a round section of turns, which is equipped with a mechanism for changing the pitch of the turns by stretching or compressing it. Such a technical solution ensures the simultaneous impact of vibrations with different amplitudes and frequencies on the components of solutions or concrete mixtures and mixing water in three mutually perpendicular directions, enhances the influence of vibrations on the process of preparing concrete and mortars, expands technological capabilities, increases the productivity and intensity of interaction between the components of solutions or concrete mixtures and mixing water.

The novelty lies in the fact that the shape of the section of the screw housing along its entire length from loading to unloading is a hexogram with polygonal repeating protrusions and depressions of a triangular shape, which gives the components of solutions or concrete mixtures and mixing water additional movement, changes the direction of their movement in each section of the screw the body along its entire length, expands the technological capabilities, which increases the productivity and intensity of interaction between the components of solutions or concrete mixtures and mixing water.

The novelty lies in the fact that the screw body along the inner perimeter is equipped with triangular pockets, which increases the productivity and intensity of interaction between the components of solutions or concrete mixtures and mixing water.

The novelty lies in the fact that the combined effect of the rotational motion of the screw body of such a design and the components of solutions or concrete mixtures and mixing water moving inside it gives them a complex spatial movement, which increases the productivity and intensity of interaction between the components of solutions or concrete mixtures and mixing water.

The novelty lies in the fact that the centers of symmetry of the inner surface of the screw body in each element of the cross-section along its length are displaced relative to the axis of rotation, which not only violates the stationary motion of the components of solutions or concrete mixtures and mixing water, but also expands the technological capabilities.

The novelty lies in the fact that as a result of the implementation of the screw body in the form of a truncated pyramid installed obliquely at an acute angle α relative to the horizontal axis of rotation with flat end cheeks of a polygonal shape, placed at different angles not only to the horizontal axis of rotation, but also to each other, stationarity of movement of the components of solutions or concrete mixtures and mixing water, which perform a complex spatial movement in the vertical plane - along elliptical trajectories, since along the perimeter the screw body is made in the form of an inclined truncated pyramid, and in the horizontal plane - reciprocating, which increases productivity and the intensity of interaction between the components of solutions or concrete mixtures and mixing water, expands the technological capabilities.

The novelty also lies in the fact that such a design of the screw body creates an unbalance inside it during rotation, which gives it low-frequency oscillations, which intensify the process of preparing solutions and concrete, increase productivity and expand technological capabilities.

The novelty is also seen in the fact that the surface along the perimeter of the screw body is made multifaceted, the axis of which makes an acute angle with the axis of rotation, and therefore the position of the centers of symmetry of the screw body in the form of ellipses in the process of its rotation is movable, which increases the energy intensity of the interaction of flows of components of concrete, mortar and mixing water, increases productivity.

The novelty also lies in the fact that the flat end cheeks of a polygonal shape are placed at different angles ϕ and ψ to the axis of rotation of the truncated pyramid and to each other at an angle β, while the end cheeks of the polygonal shape are rotated along the axis of rotation of the truncated pyramid relative to each other by an angle ω with the formation along the inner perimeter of helical lines and screw pockets of a triangular shape along its entire length, which violates the stationarity of the movement of flows of the components of concrete, mortar and mixing water, therefore the size and place of their active interaction change noticeably during one turn of the screw body, expands the technological capabilities and improves productivity.

The novelty is also seen in the fact that the location of the multifaceted end cheeks at an acute angle to the axis of rotation of the multifaceted conical surface of the screw body provides not only the pressure difference on the components of concrete, mortar and mixing water, but also their movement from loading to unloading.

The novelty lies in the fact that as a result of the implementation of the screw body in the form of a truncated pyramid installed obliquely at an acute angle α relative to the horizontal axis of the truncated pyramid with end walls located at different angles not only to the horizontal axis of rotation, but also to each other, the stationarity of the movement of concrete components is disturbed, solution and mixing water, which make a complex spatial movement in the vertical plane - along elliptical trajectories, since the screw body is made in the form of an inclined pyramid around the perimeter, and reciprocating in the horizontal plane, which expands the technological capabilities.

The novelty of the proposal also lies in the fact that a conical spring with a circular cross-section of turns is mounted along the entire length of the screw body, which not only ensures the movement of the components of concrete, mortar and mixing water in the radial direction, but also contributes to the intensification of the process of mixing them, making a circulating movement inside the screw the housing in planes perpendicular to its axis of symmetry, meeting with the spring coils, change the trajectory of its movement and move not only to the periphery of the screw housing, but also towards the unloading pin, which expands the technological capabilities.

The novelty also lies in the fact that a conical spring with a circular section of turns mounted along the entire length of the helical body is equipped with a mechanism for changing the pitch of the turns by stretching or compressing it, which makes it possible to influence the nature of the movement of the components of concrete, mortar and mixing water, expands technological capabilities.

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

The novelty lies in the fact that the combined effect of the rotational movement of the screw body and the components of concrete or mortar and mixing water moving inside and the combination of oscillations of the platform with the screw body fixed on it gives the components of concrete or mortar and mixing water a complex spatial movement, which increases productivity , expands technological capabilities.

The novelty lies in the fact that due to the fact that the major axes of the ellipses of the end walls are rotated relative to each other by an angle ω, the centers of symmetry of the inner surface of the screw body, in each of its cross-sectional elements, are displaced relative to its axis of rotation, which violates not only the stationary motion particles of concrete components or mortar and mixing water, expands the technological capabilities, but also contributes to the creation of eccentricity and excitation of vibrations of the body together with the platform and particles of concrete or solution and mixing water placed in the body.

The novelty also lies in the fact that the pipeline for supplying mixing water to the concrete mixer body is mounted on the unloading side by 1/2 the length of the screw body and therefore the particles of the components of concrete or mortar (inert) are mixed in a dry state at the beginning of the technological process, and only then, having passed half distances along the length of the screw body are sealed with water, which improves the quality of concrete or mortar and increases productivity.

The essence of the invention is illustrated by drawings, where FIG. 1 shows a continuous concrete mixer, general view; in fig. 2 - section a-a in Fig. 1; in fig. 3 - screw body, general view; in fig. 4 - screw body, visual illustration.

A continuous concrete mixer consists (Fig. 1, Fig. 2) of a housing 1, a loading device 2, an unloading device 3 and a drive (not shown). The screw housing 1 is equipped with bushings 4 and 5 with the possibility of rotation in bearing supports 6 and 7. The toe 8 of the loading device 2 enters the hole in the sleeve 4 of the screw housing 1. The loading device 2, bearing supports 6 and 7, with the screw housing 1 mounted in them, are fixed on platform 9. Platform 9 is suspended on four pneumatic bellows 10, which are fixed on the frame 11. To increase the speed of longitudinal movement of concrete or mortar components from loading to unloading, the continuous mixer is equipped with a device (not shown in the drawing) for tilting the axis of rotation of the screw housing 1 relative to the horizon. The drive is not shown in the drawings. To provide additional longitudinal movement of particles of concrete or mortar components, a conical spring 12 with a circular section of turns is mounted inside the helical body 1. The spring 12 is equipped with a mechanism for changing the pitch of the turns by stretching or compressing (not shown in the drawings). Adjustment of the pitch of the coils of the spring 12 can be made during the preparation of concrete or mortar.

To move the components of solutions and concrete from the loading device 2 and transport them to the screw housing 1, a spring 13 with a flat section of turns is rigidly attached inside the sleeve 4.

To withdraw and move the ready-made mortar or concrete from the housing 1 to the unloading device 3 and transport them inside the sleeve 5, a spring 14 with a flat section of turns is rigidly attached.

To supply mixing water to the screw body 1, a pipeline 15 is mounted on the unloading side 1/2 of the body length 1.

The screw body 1 (Fig. 3, Fig. 4) is made in the form of a truncated pyramid installed at an acute angle α relative to the horizontal axis of rotation with a base in the form of a hexogram and with flat end polygonal cheeks 16 and 17, placed at different angles ϕ and ψ to the axes of rotation of the truncated pyramid and to each other at an angle β, while the end cheeks 16 and 17 of the polygonal shape are rotated along the axis of rotation of the screw body 1 relative to each other at an angle ω, with the formation of screw pockets of a triangular shape 18, 19, 20 along the inner perimeter, 21, 22, 23 (Fig. 4) along the entire length of the screw housing 1 and with the formation of helical lines 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35 ( Fig. 5).

FIG. 5 shows the axes i ₁ -i ₁ and i ₂ -i _{2 of the} end cheeks 16 and 17 of polygonal shape, rotated along the axis of rotation of the screw housing 1 relative to each other at an angle ω, while i ₁ -i ₁ = i ₁ ¹ -i ₁ ¹ .

Continuous concrete mixer works as follows. When the screw body 1 rotates, the particles of concrete or mortar components (inert) are loaded into the inside of the screw body 1 using a loading device 2, where they move along different elliptical trajectories, the dimensions of which vary along the length of the screw body 1 in each cross section (Fig. 1 , Fig. 2, Fig. 3, Fig. 4, Fig. 5), while the centers of symmetry of the inner surface of the screw housing 1 in each of its cross-sectional elements are displaced relative to the axis of rotation of the screw housing 1, which violates not only the stationary movement of particles of concrete components or solution, but also contributes to the creation of eccentricity and excitation of vibrations of the screw body 1 together with the platform and placed inside the screw body 1 particles of the components of concrete or mortar. Therefore, the particles of the components of concrete or mortar perform a complex spatial motion in the vertical plane - along elliptical trajectories, since the screw body 1 is made in the form of a truncated pyramid installed at an acute angle α relative to the horizontal axis of rotation of a truncated pyramid, and in the horizontal plane - reciprocating with superposition on these motion of vibrations, excited by the asymmetric position of the screw housing 1 (obliquely relative to the horizontal axis of rotation), and the simultaneous action of vibrations on them in three mutually perpendicular directions. Violation of the stationarity of the movement of concrete or mortar is also facilitated by triangular screw pockets 18-23, as well as screw lines 24-35 formed along the entire length of the screw body 1. As a result, the flow of moving particles of concrete or mortar components is not stationary, but the size and location of active mixing components of concrete or mortar change noticeably during one revolution of the screw housing 1. Therefore, as a result of disturbance in the ordering of the process of movement of the components of concrete or mortar, their movement becomes more active, the zone of inactivity is eliminated, the energy intensity of the collisions of particles of the concrete or mortar components between themselves and with the walls of the screw housing increases 1, as well as the end walls of the cheeks, which ensures intensive mixing of the components of solutions or concrete with each other in a dry state. The process of non-stationary movement of concrete or mortar components is aggravated by the location of the end walls of the cheeks 16 and 17, the axes i ₁ -i ₁ and i ₂ -i _{2 of} which are rotated along the axis of rotation of the screw body 1 relative to each other at an angle ω, while i ₁ -i ₁ = i ₁ ¹ -i ₁ ¹ (Fig. 5), which significantly changes the direction of movement of particles of the components of concrete or mortar along the axis of rotation of the screw housing 1 and creates zones of different pressure of the end walls 16 and 17 on these particles. Therefore, the particles of the components of concrete or mortar have the ability, under the influence of the geometric slope of the screw housing 1 and the pressure difference of the end walls of the elliptical shape 16 and 17 to each other and to the axis of rotation of the screw housing 1, not only move along complex trajectories, but also move in the axial direction from the load to unloading. The coils of the conical spring 12 also contribute to the complication of the trajectories of movement of the concrete or mortar components.

The speed of movement of the components of concrete or mortar from loading to unloading can be regulated by changing the angle of inclination of the entire continuous mixer.

Since the pipeline 15 for supplying mixing water to the housing 1 of the concrete mixer is mounted on the unloading side for 1/2 the length of the screw housing 1, the particles of the components of concrete or mortar (inert) are mixed in the dry state at the beginning of the technological process, and only then, having passed half the distance along the length of the screw housings 1 are sealed with water, which improves the quality of concrete or mortar and increases productivity.

The proposed design of a continuous mixer allows expanding technological capabilities, increasing the intensity of interaction between the components of solutions or concrete mixtures, and increasing productivity.

Technical appraisal and economic benefits arise due to the design features of the housing 1, including by making it screw, in the form of a truncated pyramid, with a base in the form of a hexogram and the formation of triangular pockets and helical lines along the inner perimeter of the screw housing along its entire length.

Claims (1)

A continuous concrete mixer containing an elastically installed on a platform mounted by rubber-cord pneumatic bellows on the base, a hollow body, inside which a tension spring is fixed, a loading and unloading device, a pipeline for supplying mixing water to the body, characterized in that the body is made of a screw type installed under an acute angle α relative to the horizontal axis of rotation of the truncated pyramid, with a base in the form of a hexagram and with flat end cheeks of a polygonal shape, placed at different angles ϕ and ψ to the axis of rotation of the truncated pyramid and to each other at an angle β, while the end cheeks of a polygonal shape are turned along the axis of rotation of the truncated pyramid relative to each other by an angle ω with the formation of helical lines and helical pockets of a triangular shape along its entire length along the inner perimeter, a conical spring with a circular section of turns is mounted inside, which is equipped with a mechanism for changing the pitch of the coil ov by stretching or compressing it, and the pipeline for feeding the mixing water into the screw body is mounted on the unloading side by 1/2 the length of the screw body.

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