RU2460637C2 - Concrete mixer of continuous action - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: in a concrete mixer of continuous action comprising a casing arranged on a stand by means of a frame with pneumatic cylinders introduced into a device, and the casing is equipped with a drive, the casing is mounted from sections different in their shape and dimensions increasing from loading to unloading, which are joined in series and in turns, at the same time the first section is arranged from two subsections, one of which is mounted from two large scalene triangles joined by their bases with lateral sides of a large equilateral trapezoid, and the second subsection is mounted from a small equilateral trapezoid, to lateral sides of which two small equilateral triangles are connected by their small lateral sides, bases of which are equal to large lateral sides of triangles of the first subsection, by which the subsections are connected to each other, besides, upper bases of trapezoids of two subsections are equal to each other and are equal to small lateral sides of triangles of the first subsection with formation of a small inlet hole of the section, and lower bases of trapezoids are equal to each other and are equal to large lateral sides of triangles of the second subsection with formation of a large output hole of the section, to which the second section is connected, arranged in the form of a right triangular prism formed by a section of a cube along a diagonal, at the same time along the entire length of the casing there is a cylindrical spring mounted, which is equipped with a device to vary a pitch of turns by means of their tension or compression and is equipped with a pipeline with a fixed conical screw nozzle for supply of hardening water for a distance L.

EFFECT: expansion of functional capabilities.

9 dwg

Description

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

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

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

Closest to the proposed invention is a vibratory concrete mixer (RF patent No. 2398678, class B28C 5/20, 2010), containing placed on the frame by means of a frame with pneumatic cylinders inserted in the device and equipped with a drive housing made of sections mounted around the perimeter of alternately connected two rectangles and two parallelograms with the formation of square sections at the ends, while the square of the subsequent section is rotated relative to the previous one by an angle of 180 ° with the formation of zigzag lines along the perimeter of one th direction.

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

The technical solution to the problem is to expand technological capabilities by increasing the intensity of interaction of the components of mortars or concrete mixtures, giving the components of solutions or concrete mixtures complex spatial motion and expanding technological capabilities.

The technical solution is achieved by the fact that in a continuous mixer containing on the frame by means of a frame with pneumatic cylinders inserted in the device and equipped with a drive, the housing is mounted from sections, different in shape and size, increasing from loading to unloading, connected in series and alternately, at this first section is made of two subsections, one of which is mounted from two large versatile triangles connected by their bases to the sides of the large a trapezoid, and the second subsection is mounted from a small equilateral trapezoid, to the sides of which are attached two smaller miscellaneous triangles with their smaller sides, the bases of which are equal to the large sides of the triangles of the first subsection, by which the subsections are connected to each other, and the upper bases of the trapezoid of the two subsections are equal to each other and are equal to the small lateral sides of the triangles of the first subsection with the formation of a small inlet section, and the lower bases of the trapezoid are equal to angle to the other and equal to the large lateral sides of the triangles of the second subsection with the formation of a large outlet of the section to which the second section is connected, made in the form of a straight triangular prism formed by the cross section of the cube diagonally, while a coil spring is mounted along the entire length of the housing, which is equipped with a device for changing the pitch of the turns by stretching or compressing it, and is equipped with a pipeline with a fixed conical screw nozzle for supplying mixing water to a distance L.

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

The novelty is also due to the fact that the elements from which sections of the casing are assembled, different in area, size and configuration, interact with cement particles moving in the casing, inert materials and mixing water, are directed to each other at certain angles and therefore direct the concrete components at different corners, which increases the intensity of concrete preparation, the energy intensity and frequency of interaction of particles of concrete components and expands technological capabilities.

The novelty is that the concrete mixer is equipped with a pipeline with a fixed conical 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 the screw surfaces of the housing by mixing and transporting them horizontally first in the dry state in the housing and only then after mixing in a dry state cement and inert materials is the process of mixing and concrete mixing with mixing water, flows which are twisted by internal screw surfaces and therefore cover large volumes of masses of mixed inert materials and cement, thereby activating the process of mixing and concrete mixing, expanding 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 in the direction of rotation and then are thrown by the walls of the casing towards each other and due to messages to the concrete components (inert and cement), first in a dry state, and then water mixing additional cascade movements, due to the fact that the body is made of sections of different shapes and sizes, interconnected in a certain way, and is a conditionally conical helical hollow surface nce with broken lines different screw pitch and different number of directed towards each other of helical lines, the intensity of the cooking process the concrete is significantly increased.

The novelty is seen in the fact that a cylindrical spring is mounted along the entire length of the casing, which provides not only movement in the opposite direction from unloading to unloading in the radial direction of cement particles, inert materials in the opposite direction, but also contributes to the intensification of the concrete preparation process. This radial movement in the opposite direction is ensured by the fact that particles of concrete components moving inside the body in planes perpendicular to the axis of symmetry of the body, meeting with the spring coils, change their trajectory and move from unloading to loading, which creates countercurrent flows of concrete components , increases the intensity of the concrete preparation process and expands technological capabilities.

The novelty also lies in the fact that a coil spring mounted along the entire length of the housing is equipped with a device for changing the pitch of the coil spring by stretching or compressing it, which allows you to influence the nature of the movement of concrete and water components, provides control of the intensity of particles of concrete components, and expands technological capabilities.

The novelty is also seen in 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 preparation increases significantly, since these elements, working as a regiment, capture portions of cement and inert components different in volume, as well as mixing waters, direct them towards each other, intensifying the process of preparing concrete.

The novelty also lies in the fact that the pitch of the helical lines of the main direction of the hull is two times larger than the pitch of the helical lines of the opposite direction, and the number of their approaches is also twice as large as the opposite, along with the intensification of the concrete preparation process, the movement of concrete and water components along the horizontal axis of the housing , which eliminates the need for mounting the housing at an angle to the horizon, i.e. allows not only axial movement of cement and inert materials with a horizontal axis of rotation of the body, to simplify the drive and increase the operational life, but also to increase the intensity of concrete mixing due to increased miscibility due to the presence of broken helical lines opposite to each other, which violates Stationary movement of cement and inert materials, increases the productivity of concrete preparation and expands technological capabilities.

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

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.

The novelty of the invention lies in the fact that the casing is made of sections, different in shape and size, interconnected in a certain way in the form of a hollow multi-helical screw surface. The sections of the body during rotation capture portions of concrete components, mixing water as buckets and give them additional cascade movement, which ensures an increase in the intensity of concrete preparation and expands technological capabilities.

The invention is illustrated by drawings, where: in Fig.1 shows a continuous mixer, General view; figure 2 is a section aa in figure 1; figure 3 - case, front view; figure 4 is a casing, a top view of figure 3; figure 5 - the first section in the Assembly, axonometric projection; figure 6 - the first subsection of the first section Assembly, axonometric projection; in Fig.7 - the second subsection of the first section, axonometric projection; on Fig - the second section, axonometric projection; figure 9 is a diagram of the assembly of sections of the casing of the continuous mixer.

Concrete mixer continuous operation (figure 1, figure 2) consists of a housing 1, loading 2 and unloading 3 devices and a drive (not shown). The housing 1 is equipped with bushings 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 bearings 6 and 7 with the housing 1 mounted in them, are mounted on the frame 9. The frame 9 is placed on four pneumocylinders 10, which are mounted on the bed 11. The continuous mixer is equipped with a pipe 12 with a fixed conical screw nozzle 13 (not shown in the drawing) for supplying mixing water at a distance L from the inlet 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 mixing and concrete mixing with mixing water, which is under pressure moves through the pipeline 12, acquires a rotational movement and at the exit of the screw nozzle 13 swirls (twists) and, thus, the contact area of the mixing water with dry a mixture of cement and inert materials. To provide additional longitudinal movement in the opposite direction - to create counterflows of particles of the components of the mortar, concrete and water inside the housing 1, a coil spring 14 is mounted, which is equipped with a device for changing the pitch of the turns of the coil spring 14 by stretching or compressing it (not shown in the figures). The adjustment of the pitch of the turns of the coil spring 14 can also be carried out in the process of preparing mortars, concrete, i.e. in the process of operation of the concrete mixer. Depending on the required time for concrete mixing, the quality of the mixture and the required time for the preparation of the mortar or concrete, a spring pitch 14 is set that meets the optimal conditions for concrete mixing. For example, if you reduce the step of the spring 14, the flow velocity of the components of concrete and water in the opposite direction changes, which means that their speed of movement from loading to unloading decreases accordingly. In the desired position, the spring 14 is fixed with known devices (not shown in the drawing).

The housing 1 (Fig. 3, Fig. 4) is mounted (Fig. 9) from two different sections alternately connected - the first section - A (Fig. 5) and the second section - B (Fig. 6) and is equipped with multidirectional broken conical helical lines with a variable along the length of the housing 1 step S ₁ and S ₂ . The pitch of four broken conical helical lines S ₁ , one of which is shown in FIG. 3, FIG. 4 by the thickened line 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, is twice the step of two broken conical helical lines of the opposite direction S ₂ , one of which is shown in figure 3, figure 4 thickened line 25-16-17-26-27-28-29-19-20-30-31-32-33-22-23- 34-35-36. Sections A and B differ from each other not only in shape, but also in size. The first section A (Fig. 5) is mounted from two subsections 37 (Fig. 6) and 38 (Fig. 7) connected to each other by the sides 39 and 40 (Fig. 5). Subsection 37 (Fig.6) is mounted from a large equilateral trapezoid 41 and two different-sided triangles 42 and 43, the bases of which are equal to the lateral sides of the trapezoid 41, along which they are connected at an angle of 90 °. The lateral sides 44 and 45 of the triangles 42 and 43 are equal to the upper base 46 of the trapezoid 41 with the lower base 74. The second subsection 38 (Fig. 5) is mounted (Fig. 7) from a small equilateral trapezoid 48, which is connected with its lateral sides 49 and 50 at an angle 90 ° with the small sides of the triangles 51 and 52. The large sides of the triangles 51 and 52 are equal to the lower base 55 of the small trapezoid 48 and the lower base 47 (6) of the large trapezoid 41 with the formation of a large outlet of the first section. The upper base 56 of the small trapezoid 48 of the second subsection (Fig. 7) is equal to the upper base 46 of the trapezoid 41 and the sides 44 and 45 of the triangles 42 and 43 of the first subsection (Fig. 6) to form a small inlet of the first section. Therefore, when connecting the subsections 37 and 38 (Fig. 5), since the sides 44, 45, 46, 56 forming the inlet of the first section are equal to each other and are located at an angle of 90 °, an inlet of a square shape is formed, and the sides 53 , 54, 55, 47, forming the outlet of the first section, are also equal to each other and are also located at an angle of 90 °, then the outlet is also square in shape, along which the second section B is connected to the first section A.

The second section B (Fig. 8) is made in the form of a straight triangular prism formed by the cross section of the cube diagonally with the formation of sides 57, 58, 59, along which the second section B is connected to the outlet of the first section A after turning 90 ° (Fig. 9 )

Mounting the housing 1 (Fig.9) is carried out in the following sequence:

- to the first section A with a square inlet equal to, for example, a = 500 mm, and a square outlet, for example b = 600 mm, after turning 90 °, a second section B with side dimensions of c = 600 mm is attached, to which, in turn, after turning through 90 °, the next first section A is attached with a square inlet already equal to c = 600 mm and an outlet square d = 700 mm. The next second section B is connected to the outlet of this section already with side dimensions w = 700 mm, etc. Installation of the sections of the housing 1 is subsequently carried out by sections A and B, with the dimensions of the inlet and outlet square openings increasing from loading to unloading sequentially and alternately. This structural design of the housing 1 provides a change in the length of the housing 1, not only the size of the passage section of the housing 1 (figure 1, figure 2, figure 3, figure 4, figure 5), but also the shape of the passage section of the housing 1. 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 material.

Concrete mixer continuous operates 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 rotates inside its particles of cement and inert materials, water makes a spatial movement, which is aggravated when unbalance occurs.

As a result, not only the stationary motion of cement particles and inert materials is violated by the polygonal shape of the passage section of the housing 1, but also an imbalance of the housing 1 itself occurs. Inert materials and cement move along the inner opening of the housing 1 from the loading device 2 to the unloading device 3. Since the length of the housing 1, the shape and dimensions of the passage cross section vary, increases from loading to unloading and its distance from the axis of rotation of the housing 1 changes, then there is an intensification of the process concrete mixing and expansion of technological capabilities. Thus, when the housing 1 is rotated, the components of the mortars or concrete mixtures are given complex spatial motion with superposition of oscillations in three mutually perpendicular directions, excited due to the geometry of the housing 1 during the asymmetric movement of the mortar or concrete components and the occurrence of unbalance as a result of the disruption of their motion by the geometric shape of the sections case 1, 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 the complicated spatial movement of the components of mortars or concrete mixtures and their low-frequency vibrations, the miscibility of the components of mortars or concrete mixtures increases, their intensity of interaction with each other and with the walls of the housing 1. When the housing 1 rotates, the mass of cement and inert components rise to a certain height along the rotation and rush the walls of the housing 1 towards each other, which ensures the activation of inert components and cement by mixing and trans The horizontal orthocs, first in the dry state in the housing 1, and only then after mixing the dry cement and inert materials inside the housing 1 at a distance L, they are mixed and concrete mixed with mixing water, the flows of which are twisted upon leaving the screw nozzle 13 of the pipeline 12. With further movement of the components of the mortars or concrete mixtures and their passage of the distance L inside the housing 1 from the start of loading and the arrival of swirling flows of mixing water, the process x mixing, cooking, and they are sent to the discharge side. The radial movement of the components of concrete and mortars in the opposite direction is ensured by the fact that the particles of the components of concrete and mortars circulating inside the housing 1 in planes perpendicular to the axis of symmetry of the housing 1, meeting with the turns of the fixed spring 14, change their motion path and are directed in the opposite direction, while colliding with particles of the components of mortars and concrete moving in the discharge direction. The frequency of movement and collisions of particles of the components of mortars and concrete is determined not only by the number of faces of the multifaceted screw surface of the housing 1, but also by the presence of turns and the pitch of the coil spring 14 mounted stationary (motionless) inside the housing 1. Therefore, the proposed construction of the concrete mixer ensures active circulation of cement particles and particles of inert constituents and mixing water. Thus, the particles of the components of mortars and concrete, as well as portions of water, overcoming the resistance of the oncoming flows from the turns of the spring 14, make a complex spatial movement, and the finished mortars or concrete mixes are unloaded through the sleeve 5 into the unloading device 3.

Technical and economic advantages arise due to giving the components of mortars or concrete mixtures complex spatial motion and simultaneous exposure to vibrations in three mutually perpendicular directions, as well as creating counterflows of concrete and mortar components by a spring 14, 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 the 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. This is facilitated by a screw nozzle, 13, which accelerates the process of mixing with water by twisting its flows.

Claims (1)

A continuous mixer containing on the frame by means of a frame with pneumatic balloons inserted into the device and equipped with a drive housing, characterized in that the housing is mounted from sections different in shape and size, increasing from loading to unloading, connected in series and alternately, the first section made of two subsections, one of which is mounted from two large different-sided triangles connected by their bases to the sides of a large equilateral trapezoid, and in the second sub-section is mounted from a small equilateral trapezoid, to the sides of which are attached two smaller miscellaneous triangles with their smaller lateral sides, the bases of which are equal to the large lateral sides of the triangles of the first subsection, by which the subsections are connected to each other, and the upper bases of the trapezoid of the two subsections are equal to each other and equal small lateral sides of the triangles of the first subsection with the formation of a small inlet section, and the lower bases of the trapezoid are equal to each other and equal to pain the lateral sides of the triangles of the second subsection with the formation of a large outlet of the section to which the second section is connected, made in the form of a straight triangular prism formed by a cross section of the cube diagonally, while a coil spring is mounted along the entire length of the casing, which is equipped with a device for changing the pitch of the turns by its tension or compression, and is equipped with a pipeline with a fixed conical screw nozzle for supplying mixing water to a distance L.

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