RU2572259C1 - Concrete mixing machine - Google Patents

Abstract

FIELD: construction.SUBSTANCE: concrete mixing machine comprises a reservoir with helical channels on the inner surface, made in the form of internal and external drums coaxially installed with a gap, a loading unit, a device to supply tempering water. The internal drum is mounted from guide elements, made in the form of three rectangular strips with overlaps, bent in turns towards opposite sides at the angle 140° by cuts made at the angle 60° to each other and to longitudinal edges of strips, with formation of equilateral triangles along the length of the strip arranged alternately towards opposite sides. Strips are connected to each other along longitudinal edges at the angle 70° with formation of three broken helical grooves of main direction and one broken helical groove of opposite direction along the inner perimeter. Along the outer perimeter of three broken helical lines of main direction and one broken helical line of opposite direction, in points of rupture, there are areas of meeting sides of six equilateral triangles. Along the perimeter of the drum there are overlaps of rectangular shape, arranged in series with gaps one behind another along broken helical lines of the main direction. The external drum is made from three and more strips of trapezoidal shape with different dimensions by width, with their increase along the length of the external drum from loading to unloading, on which in turns from their opposite sides at the angle 60° there are areas of weakened section - cuts with tapered walls. Strips are twisted in longitudinal direction relative to their longitudinal axes and are bent in transverse direction along a helical line to form along the perimeter of the external drum three and more helical grooves and helical lines of the left and right directions with alternating increasing pitch of helical lines from loading to unloading.EFFECT: increased operational reliability.23 dwg

Description

The invention relates to the production of building materials and can be used in the construction and production of building materials.

A continuous concrete mixer is known (RF patent No. 2397865, IPC В28С 5/08, publ. 08/27/2010, bull. No. 24), containing means for loading and unloading, having a rotation drive drum, made around the perimeter in the form of a multiple screw surface with screw grooves inside the case in the form of curved pockets with centers of curvature of the pockets of a curved shape of a helical surface located inside the cross section of the drum, made of three or more identical strips, twisted in the longitudinal direction relative to the longitudinal hydrochloric axis and curved along a helical line in the transverse direction on a cylindrical mandrel strips of rectangular shape, to form along the perimeter of the body and three more internal surfaces of a convex curved shape with a curvature centers located inside and outside cross-section of the drum

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

Closest to the proposed invention is a concrete mixer for the preparation of concrete (RF patent No. 2351467, IPC В28С 5/14, publ. 04/10/2009, bull. No. 10), containing a loading unit, a container with screw channels on the inner surface, made in the form of coaxial installed with a gap of the inner and outer drums, a device for supplying mixing water, a finished product hopper, a frame with a drive.

The disadvantages of the known device are the complexity of manufacturing from a large number of individual triangles and limited technological capabilities, lack of performance.

The technical solution is to simplify the manufacture of containers with screw channels and expand technological capabilities, increasing productivity.

The technical solution is achieved by the fact that in the concrete mixer containing the loading unit, a container with screw channels on the inner surface, made in the form of coaxially installed with a gap of the inner and outer drums, a device for supplying mixing water, a hopper of the finished product, a frame with a drive, the inner drum is mounted of guiding elements made in the form of three rectangular strips with overlaps, alternately bent to opposite sides at an angle of 140 ° along cuts made at an angle of 60 ° to each other y and to the longitudinal edges of the strips, with the formation along the length of the strip of equilateral triangles arranged alternately in opposite directions, while the strips are connected to each other along the longitudinal edges at an angle of 70 °, with the formation along the inner perimeter of three broken helical grooves of the main direction and one a broken helical groove in the opposite direction, and along the outer perimeter of three broken helical lines of the main direction and one broken helical line of the opposite direction, at the break points of which places of convergence of the sides of six equilateral triangles are located, while along the perimeter of the drum rectangular overlaps are formed, located consecutively with gaps one after another along broken helical lines of the main direction, and the outer drum is made of three or more trapezoidal strips with different sizes in width, increasing them along the length of the outer drum from loading to unloading, on which zones of weakened cross-section are made alternately from their opposite sides at an angle of 60 ° - cuts with a bevel walls by milling or pressure treatment, then the strips are twisted in the longitudinal direction relative to their longitudinal axes and bent in the transverse direction along a helical line on a conical mandrel with the formation of three or more helical grooves and helical lines of the left and right directions along the perimeter of the outer drum, increasing pitch of helix from loading to unloading.

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

The novelty of the proposal lies in the fact that such a structural design of the drums around the perimeter allows not only to ensure smooth longitudinal movement of the flows of concrete components from loading to unloading, but also to ensure intensive interaction of particles of concrete components with each other and with the walls of the inner and outer drums, which expands the technological concrete mixer capabilities.

The novelty also lies in the fact that the inner drum is made of guide elements made in the form of three rectangular strips with rectangular overlaps located along the perimeter of the inner drum sequentially one after another with gaps along the broken helical lines of the main direction, which ensures an increase in the intensity of miscibility of component flows concrete, increases the intensity of concrete preparation and expands technological capabilities

The novelty also lies in the fact that rectangular blankets are made along the outer perimeter of the inner drum, which provides an increase in the miscibility of particles and flows of concrete components, increases the intensity of concrete preparation and expands technological capabilities.

The novelty also lies in the fact that by twisting stripes of trapezoidal shape of variable width in the transverse direction, multifaceted curved surfaces are formed inside the outer along its length, which not only changes the trajectory of the particles of concrete components at each point on the surface of the outer drum, but also accelerates the particle movement concrete components, expanding technological capabilities.

The novelty is due to the fact that the outer drum is made of three or more strips of trapezoidal shape, which simplifies the manufacture of the outer drum, expands the technological capabilities.

The novelty is that the strips of which the outer drum is made are twisted in the longitudinal direction relative to their longitudinal axes and bent in the transverse direction along a helical line on a conical mandrel with the formation of three or more smooth helical grooves and smooth helical lines of the left and the right direction with a variable, increasing pitch helix from loading to unloading, which increases the quality of concrete and expands technological capabilities.

The novelty is also due to the fact that the area and cross-sectional shape of the inner and outer drums change from loading to unloading, which changes the speeds and trajectories of the movement of particles of concrete components as they move from loading to unloading, intensifies heat transfer processes, increases their intensity, energy intensity and frequency interaction, expands technological capabilities.

The novelty also lies in the fact that smooth helical surfaces and smooth helical grooves swirl not only mixing water flows, but also particle flows of concrete components, which intensifies the process of concrete preparation and increases productivity, expands technological capabilities.

The novelty of the proposal is to smoothly increase the bore of the outer drum along the length from loading to unloading, which increases the speed of movement of particles of concrete components, expands technological capabilities.

The novelty also lies in the fact that due to the twisting of trapezoidal bands of variable width in the transverse direction, curved surfaces of various curvatures are formed inside the outer drum in each cross section along the length of the outer drum, which not only changes the trajectory of the particles of concrete components at each point of the curved surface of the outer drum, but also accelerates the process of movement of particles of concrete components, expands technological capabilities.

The novelty is due to the fact that the outer drum along the perimeter is equipped with three, four, five, six, etc. helical lines, the step of which varies from loading to unloading, and accordingly three, four, five, six, etc. helical grooves inside the outer drum, which increases the speed of movement of particles of concrete components from loading to unloading, intensifies the processes of concrete preparation, expands technological capabilities.

The novelty of the proposal lies in the fact that such a structural design of the inner drum with three broken screw grooves of the main direction ensures the transportation of flows of concrete components and expands technological capabilities.

The novelty is also due to the fact that the implementation of the inner drum with two broken helical grooves in the opposite direction provides a return in the opposite direction of the particles of concrete components, increases the intensity of concrete preparation, and expands technological capabilities.

The novelty is also due to the fact that the cross-sectional shape of the inner drum is an irregular quadrangle, which along the length of the inner drum changes not only the shape and dimensions of the sides of the quadrangle, but also their location relative to the axis of the inner drum, which violates the stationary motion of particles of concrete components, increases the intensity of concrete preparation expands technological capabilities.

In FIG. 1 shows a concrete mixer, general view; in FIG. 2 is a section AA in FIG. one; in FIG. 3 - inner drum, front view; in FIG. 4 is a view A in FIG. 3; in FIG. 5 is a section BB in FIG. 3; in FIG. 6 - one of the rectangular stripes with the marking of the fold lines and the squirt with a rectangular shape with gaps A, B, C, D between them; in FIG. 7 is a section BB in FIG. 6; in FIG. 8 - one of the rectangular strips twisted in a vertical plane along its longitudinal axis 0 ₁ -0 ₁ ; in FIG. 9 is a section GG in FIG. 3; in FIG. 10 is a section DD in FIG. 3; in FIG. 11 is a cross-section EE in FIG. 3; in FIG. 12 is an inner drum, a front view with thickened helical lines of the main and opposite directions shown; in FIG. 13 is a remote view 1 in FIG. 12; in FIG. 14 is a cross-section MM in FIG. 12; in FIG. 15 is a section FJ in FIG. 12; in FIG. 16 is a cross-section ZZ in FIG. 12; in FIG. 17 is a section KK in FIG. 12; in FIG. 18 is an external drum, a front view mounted of six trapezoidal strips; in FIG. 19 is a view B in FIG. eighteen; in FIG. 20 - trapezoidal strip, general view with marked areas of weakened cross-section - notches; in FIG. 21 is a section LL in FIG. twenty; in FIG. 22 - trapezoidal strip after twisting in the longitudinal direction relative to its own longitudinal axis of symmetry 0 ₂ -0 ₂ ; in FIG. 23 - trapezoidal strip after twisting in the longitudinal direction relative to its own longitudinal axis of symmetry and bending along a helical line in the transverse direction on the conical mandrel.

The concrete mixer contains a loading unit, consisting of a receiving funnel 1 with a screw 2, a container 3 with screw channels on the inner surface. Capacity 3 is made in the form of two drums coaxially installed with a gap - inner 4 and outer 5, the hopper of the finished concrete 6, the frame 7 with a drive 8 mounted on it, transmitting rotation of the support rollers 9, on which rings 10, in which the outer drum is rigidly mounted, are fixed 5. The inner drum 4 is fastened to the outer drum 5 by means of couplers 11. The concrete mixer is equipped with a device 12 for supplying mixing water inside the inner drum 4 to a distance L. A device for supplying mixing water 12 is equipped with a device for gulirovki distance L depending on technological requirements for quality concrete (not shown in the drawing).

The tank 3 is closed on the side of the device for supplying water for mixing the cover 13.

The inner drum 4 is mounted (Fig. 3, Fig. 4) from guide elements made in the form of three rectangular strips 14, 15, 16 with rectangular pouts 17, 28, 19, 20, 21; (Fig. 3, Fig. 6); 22, 23, 24, 25, 26; 27, 28, 29, 30, 31. These inlets are separated from each other by gaps, for example, as in FIG. 6 on the strip 15, the gaps A, B, C, D, which can be performed by milling, notching and other known methods. Strips 14, 15, 16 after bending alternately in opposite directions at an angle of 140 ° along the notches 34 and 35 (Fig. 6, Fig. 7, Fig. 8) are connected to each other at an angle of 70 ° (Fig. 5) along the longitudinal edges 32, 33. In FIG. 6, the longitudinal edge 33 of the strip 15 is shown by a dash-dot thickened line. On all strips 14, 15, 16 (Fig. 6, Fig. 7), at an angle of 60 ° to the longitudinal edges 32 and 33, cuts 34 and 35 with beveled walls (Fig. 7) located in pairs at an angle of one to the other through milling, pressure treatment, etc., with the formation of equilateral triangles 36 (Fig. 6). The geometry and angles λ, φ, ω, φ, α, β of the bevels of the notches 34 and 35 (Fig. 7) and their relative position determine the angles of inclination of equilateral triangles 36 to each other around the perimeter of the inner drum 4. After bending the strip 15 (Fig. .8) incisions 37-38, 38-39, 39-40, 40-41, 41-42, 42-43, 43-44, 44-45, 45-46, 46-47, 47-48, 48- 49, 49-50, 50-51 are welded, as a result, stiffeners are formed. Strips 14, 15, 16 after bending (Fig. 8) are connected to one another along the longitudinal edges 32 and 33 at an angle of 70 ° (Fig. 5). Such a connection of the three strips 14, 15, 16 becomes possible, since after the folding of the strips 14, 15, 16 along the straight fold lines 34 and 35 (Fig. 8) at an angle of 140 ° alternating to each other in opposite directions on the strip 15 in the form of equilateral triangles 36 located on the strip 15 alternately in opposite directions with the formation along the longitudinal edges of the strips 14, 15, 16, more precisely, along the perimeter of the outer diameter of the inner drum 4 (Fig. 12) of three broken helical lines of the main direction 52-53- 54-55-56-57; 58-59-60-61-62; 63-64-64-66-67 in increments of S ₁ (FIG. 12) and one broken helical line of the opposite direction shown in FIG. 12 by a line 67-62-60-66-61-55-65-60-34-59-53-63-58 with step S ₂ , one step of which is shown in FIG. 12 double line 66-61-55-65.

In each of the break points - the vertices of the broken helical lines of the main direction (Fig. 13), there are places of convergence of the sides of six equilateral triangles Τ ₁ , T ₂ , T ₃ , T ₄ , T ₅ , T ₆ . For example, at point 55 (FIG. 13), sides 68, 69, 70, 71, 72, 73 of six equilateral triangles converge. The connection of the strips 14, 15, 16 can be carried out by known methods, for example by welding.

In this design, along the length of the inner drum 4, each cross section - the bore section differs from the previous one not only in the shape of the section (Fig. 14, Fig. 15, Fig. 16, Fig. 17), but also in their location relative to each other, and the cross-sectional area, which violates the stationary motion of particles of concrete components and mixing water, increases the intensity of concrete mixing, expands technological capabilities. In this design of the inner drum 4, three broken helical grooves K ₁ , K ₂ , K _{3 of the} main direction 52-53-54-55-56-57 are also formed along the inner perimeter; 58-59-60-61-62; 63-64-64-66-67 in increments of S ₁ and one polylike helix of the opposite direction shown in FIG. 12 line 67-62-60-66-61-55-65-60-34-59-53-63-58 in increments of S ₂ . These grooves not only facilitate the movement of particles of the components of concrete and mixing water from loading to unloading, but also provide an increase in the intensity of concrete preparation and expand technological capabilities.

The outer drum 5 (Fig. 18, Fig. 19) is made, for example, of six strips of trapezoidal shape 74, 75, 76, 77, 78, 79 with different dimensions in width, increasing them along the length of the outer drum 5 from loading to unloading on which the polyhedral surfaces A, B, C, D, D are formed along the perimeter of the outer drum 5.

On the trapezoidal strips 74, 75, 76, 77, 78, 79 alternately from their opposite sides at an angle of 60 ° to the axis of the strips, zones of weakened section 80 and 81 are made - notches (Fig. 20, Fig. 21), for example, on the notch strip 77 80 and 81 with beveled walls by milling or by pressure molding and the like. The geometry and angles λ, γ, ω, ψ, α, β of the bevels of the notches (Fig. 20, Fig. 21) and their relative position determine the angles of inclination of the triangles 82 and triangles 83 to each other of each of the polyhedral surfaces A, B, C , G, D, as, for example, the surface 77 (G) (Fig. 22 and Fig. 23) and the pitch of the helical lines around the perimeter of the helical drum 5. For which each of the trapezoidal strips 74, 75, 76, 77, 78, 79 are twisted in the longitudinal direction relative to its own axis of symmetry, for example, as a trapezoidal strip 77, in which one is fixed in a hot or cold state from its ends the other end of the trapezoidal strip is rotated in a predetermined direction, relative to the longitudinal axis 0 ₂ -0 ₂ (Fig. 22). A strip twisted in this way, for example strip 77, is placed on a conical mandrel 82 (FIG. 23) and bent so that the edges of the trapezoidal strip are placed in the transverse direction along a helical line. In this case, the trapezoidal strip is deformed, and it is either removed from the mandrel or fixed on it in a deformed position. Similarly, the remaining strips forming the outer drum 5 are deformed. Next, three, four, five, six or more strips thus deformed are connected by known methods along the lateral screw edges. The twisting of each strip of trapezoidal shape provides an additional curvature of the surface of the outer drum 5, due to which the process of interaction of particles of concrete components and mixing water is intensified. After bending, the strips 74, 75, 76, 77, 78, 79 are connected to each other by the lateral sides by known methods, for example, by welding, with the formation of 5 left and right helical lines and internal helical grooves along the perimeter of the outer drum with a variable, increasing helix pitch from loading to unloading. In FIG. 18 and FIG. 19, thickened lines show one of the six right helical lines 83-84-85-86-87-88 with a variable incrementing step S ₃ and one of the six left helical lines 89-90-91-85-92-93 with a variable increasing step S ₄ .

The number of helix lines of the right and left directions at the outer drum 5 are equal. The movement of particles of the concrete components and mixing water in such an outer drum 5 is due to the natural slope of the cone of the outer drum 5, as well as the internal helical grooves inside the outer drum 5. The presence of helical lines and helical grooves directed towards each other ensures intensive interaction of particles and concrete flows.

The proposed concrete mixer operates as follows. Cement and inert materials (gravel and sand) are continuously loaded into the loading unit, from which they are fed into the inner cavity of the inner drum 3 with the help of a screw 2. The inner drum 3 conveys cement and inert materials (sand and gravel) towards the incoming into the cavity of the inner drum 3 the mixing water flow supplied by the pipe 12. During the transportation of the concrete components by the inner drum 3, the dry components and cement are activated, their large fractions are destroyed into smaller, inter sive mixing cement particles in amounts of inert materials, as well as uniform distribution of sand particles in the gravel particles. Moreover, since the mixing process is carried out before the start of the mixing process with water, the quality of mixing the dry components is much higher and the mixing process is reduced in time.

The dry concrete mixture is transported towards the flow of mixing water, counter flows are created, and the semi-liquid concrete mixture flows from the inner cavity of the screw drum 3 into the inner cavity of the outer drum 5, in which the concrete mixing process finally takes place and the finished concrete is led into the receiving hopper 6. In the process of activating dry components of the concrete mixture in the internal screw drum 3, heat is generated, which due to the large surface area of the internal screw drum 3 and the intense movement of gran cing layers dry components transmitted inner walls of the drum 3 and the screw through the walls of the concrete mix transported in the inner cavity of the outer helical drum 5, i.e. the concrete mixture is heated.

Technical and economic advantages arise due to the manufacture of internal and external drums from strips, simplification of the manufacture of containers with screw channels and expansion of technological capabilities, increase productivity, by improving the quality of the finished product and preventing overheating and combustion of small fractions of chicken manure, as well as by creating along the outer perimeter of the inner drum of squash laps, which provides an increase in the miscibility of particles and component flows concrete and mixing water, increases the intensity of heat transfer processes and the expansion of technological capabilities.

Claims (1)

A concrete mixer containing a loading unit, a container with screw channels on the inner surface, made in the form of coaxially installed with a gap of the inner and outer drums, a device for supplying mixing water, a finished product hopper, a frame with a drive, characterized in that the inner drum is mounted from guide elements made in the form of three rectangular strips with flaps, bent alternately in opposite directions at an angle of 140 ° along incisions made at an angle of 60 ° to each other and to the longitudinal edge kam strips, with the formation along the length of the strip of equilateral triangles alternately located in opposite directions, while the strips are connected to each other along the longitudinal edges at an angle of 70 °, with the formation along the inner perimeter of three broken helical grooves of the main direction and one broken helical groove of the opposite direction, and along the outer perimeter of three broken helical lines of the main direction and one broken helical line of the opposite direction, at the break points of which there are sides of six equilateral triangles, while along the perimeter of the drum formed rectangular squashes that are arranged sequentially with gaps one after another along broken helical lines of the main direction, and the outer drum is made of three or more stripes of trapezoidal shape with different sizes in width, with increasing along the length of the outer drum from loading to unloading, on which zones of weakened cross section are made alternately from their opposite sides at an angle of 60 ° - cuts with beveled walls in the middle by milling or pressure treatment, then the strips are twisted in the longitudinal direction relative to their longitudinal axes and bent in the transverse direction along a helical line on a conical mandrel with the formation of three or more helical grooves and helical lines of the left and right directions along the perimeter of the outer drum with an increasing increment helical lines from loading to unloading.

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