RU2500529C1 - Vibration mixer - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to concrete mixers and may be used in other fields of construction. Top and bottom vibrators are rigidly secured at the center of mixing chamber top and bottom parts. Bottom and top vibrators to excite two equal-amplitude different-frequency vibration fields by top and bottom crank gears. Vibrator casing is composed of metal shell representing a corrugated thin-wall solid of revolution making a complex truncated geometrical figure in vertical plane cross-section formed by central intersection of three circles with centers making the regular triangle vertices and radii equal to height of said triangles. It allows generating opposite direction oscillations. Disc is secured at the said figure center in horizontal plane to create rod translation from translation pair composed of mixing chamber bottom post guide and crank mechanism rod and cylindrical ledge to be fitted and secured at spring ID, said spring being set to be contracted/released in the barrel, while said rod is rigidly secured at inner part top center. Pusher is attached to outer parts centers, opposite ends of said pushers being rigidly secured to inner parts forming smallest crimps of corrugated shells Disks with cylindrical ledge is secured inside shell, at the center of horizontal plane, to be fitted and secured over spring ID, spring being arranged inside the barrel to contract/release therein. Con-rods driven by top crank gear is rigidly secured to disk inner top part center. Pusher is attached to outer parts centers, opposite ends of said pushers being rigidly secured to inner parts forming smallest crimps of corrugated shells to be excited by said pusher. Four ledges are secured in symmetry to barrels outer cylindrical surfaces.

EFFECT: ruled out dead zones in mixing chamber, intensified mixing of components.

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Description

The invention relates to devices for mixing concrete mixture and can be used in the construction materials industry, in construction and other areas of the construction industry for the production of multicomponent mixtures.

Currently, the economic development of the Russian Federation determines the processes associated with the creation of competitive production in various industries. For example, one of the urgent aspects of the development of the construction industry is monolithic construction, an important role in which is given to the preparation of concrete mixtures at the initial stage of production. Analysis of various sources makes it possible to detect the diversity of existing industrial concrete mixing machines implemented on the basis of machining in order to obtain high-quality concrete mixtures, i.e. getting them as uniform as possible in composition. The latter, in particular, makes it possible to distinguish the method of vibrational treatment of concrete mixtures, which has been tested by time and many scientific works, both in a single case and in conjunction with conventional mechanical activation.

The prior art various devices that are implemented on this basis.

For example, a rotary mixer with a mechanical vibration exciter is known (Patent RU 2297274 C1, 04.20.2007, B01F 11/00), comprising a mixing chamber, a rotor with a rotary drive, made with blades, a vibrator made in the form of disk springs with rubber shock absorbers, and rigidly fixed in the middle of the mixing chamber. The vibrator has a crank mechanism, with the help of which the Belleville springs excite particle vibrations in the horizontal direction. In the mixer, it is possible to adjust the intensity of the vibration by changing the speed of the drive of the crank mechanism.

A device for mixing concrete mixture is also known (Patent RU 239948G C1, September 20, 2010, B28C 5/16, B01F 11/00), comprising a mixing chamber, a rotor with a rotary drive, made with blades, and a vibrator with rigidly fixed in the center of the mixing chamber an axle with disc springs and shock absorbers seated on it with a clearance. The vibrator is made with thrust washers of a larger and smaller diameter, while cup springs, shock absorbers are placed on the axis in the following order: a cup spring, a thrust washer of a larger diameter, a rubber shock absorber, a thrust washer of a larger diameter, a cup spring, a thrust washer of a smaller diameter, a rubber shock absorber, thrust washer of smaller diameter. The crank mechanism has a deforming effect on the disk springs, washers, rubber shock absorbers by means of a cover bolted to it, thereby causing them to oscillate in the reciprocating direction, exciting the particles of the mixture to oscillate in the horizontal direction.

The disadvantages of these designs include significant energy costs for the deformation of Belleville springs, a high percentage of wear of rubber shock absorbers, as well as insufficiently effective thixotropic destruction (dilution) of the material structure due to the excitation of vibrations of a strictly horizontal direction in the concrete mix.

The group of vibration mixers is also known from the prior art (Patent RU 2201796 C1, 04/10/2003, B01F 11/00; Patent RU 2189854 C1, 09/27/2002, B01F 11/00; Patent RU 2140320 C1, 10.27.1999, B01F 11 / 00), containing a mountainous body resting on the frame through shock absorbers, a vibration exciter and material loading and unloading nozzles, which differ in the presence of various rigidly fixed spherical and hemispherical nozzles inside the center of the body base.

The main disadvantages of these structures include the difficulty of using mixers in the production of concrete mixtures, the low efficiency and intensity of the mixed materials, and the insufficient mixing of materials in the upper part of the mixer body due to the lack of aggregates and mechanisms moving the mixture components inside the case, as well as excitation directed in the vertical plane of vibrations directly through the mixer body.

The closest analogue is a rotary mixer with a mechanical vibration exciter (Patent RU 2398625 C1, 09/10/2010, B01F 11/00) containing a mixing chamber, a rotor with a rotary drive made with blades, and a vibrator made in the form of a welded bellows with folding corrugations. The vibrator is rigidly fixed in the middle of the mixing chamber and is connected to the electric motor by means of a crank mechanism.

Also the closest analogue is a rotary mixer with an electromechanical vibration exciter (Patent RU 2292943 C1, 02/10/2007, B01F 11/00) containing a mixing chamber, a rotor with a rotary drive, made with blades, a vibrator made in the form of a bellows with a disk, rigidly fixed in the middle of the mixing chamber. The vibrator has an electromagnet, with the help of which the bellows excites particle vibrations in the horizontal direction. The mixer has the ability to adjust the intensity of the vibration by changing the frequency of the alternating current supplied to the winding of the electromagnet.

The disadvantages of these devices include inefficient vibrational study of the mixture or its complete absence in the upper corner (“deaf”) zones of the mixing chamber due to the geometry of the bellows strictly cylindrical in shape, as well as inhomogeneous amplitude values of displacements decreasing from the place of force acting to the fixation point of the bellows , in each individual section of the bellows, as a result of which the fluctuations from the place of force impact to the place of fixation of the bellows will have a damping nature, which dit reduce the effectiveness of vibratory impacts onto the concrete at the bottom of the mixing chamber.

EFFECT: realization of the possibility of creating a vibration mixer with multidirectional vibrations throughout the entire chamber of the mixer on the mixed components of the concrete mixture, completely eliminating the presence of “dead” zones in the mixing chamber, two of the same amplitude, different in frequency and evenly distributed throughout the chamber mixing vibration fields with simultaneous qualitative intensification of the mixing process of these components as a whole.

The technical result is achieved in that a vibration mixer comprising a mixing chamber with loading and unloading windows of materials, respectively, a rotor with a rotation drive, made with blades. In the center of the lower and upper parts of the mixing chamber, two are rigidly fixed: the lower and upper vibrators made in the bodies, with the excitation of two vibration fields of the same amplitude and different frequency by means of the lower and upper crank mechanisms, respectively. The vibrator cases are made in the form of identical metal corrugated shells, which are corrugated thin-walled bodies of revolution that form complex truncated geometric shapes in the vertical plane section along the points of the corrugation vertices, formed by the central intersection of three circles with the centers making up the vertices of the regular triangle and radii equal to the height of this triangle , and made with the ability to create multidirectional vibrations, inside each of which is centered in the horizon disks with guide racks are rigidly fixed to the plane of the plane, whose function is to create stable directed translational movements of the rods from the translational pair formed by the guide strut of the lower part of the mixing chamber and the rod of the lower vibrator, the lower crank mechanism and from the translational pair formed by the guide strut of the upper part of the mixing chamber , the guide rack of the drive for rotation of the blades and the rod of the upper vibrator, upper crank mechanism, respectively but. Moreover, the disks of the lower and upper vibrators are made with cylindrical protrusions, the function of which is the ability to insert and fix along the inner diameter of the springs installed with the function of free compression / unloading in the cups, the rods are rigidly fixed to the centers of the internal parts, the pushers are rigidly to the center of the external parts fixed at the other end to the internal parts forming the smallest of corrugations, metal corrugated shells, and made with the function of exciting vibrations from the smallest of corrugations ibratorov. At the same time, four protrusions are symmetrically fixed along the outer cylindrical parts of the glasses, the function of which is the transfer of reciprocating movements to disks made with the possibility of uniform distribution of vibration fields from the smallest corrugated metal corrugated shells to the fixing points of the bodies by creating uniform amplitude values of displacements of each point external forming metal corrugated shells, at the time of compression of the springs until they stop in rubber gaskets, made x with the function of mitigating the impact with the disc protrusions.

The invention is illustrated by drawings: figure 1 presents a diagram of a vibration mixer; figure 2 is an enlarged diagram of the lower vibrator of the vibration mixer; figure 3 is an enlarged diagram of the upper vibrator of the vibration mixer.

The vibration mixer comprises a mixing chamber 1 with loading and unloading windows 3 of materials 3, respectively, a rotor 4 with a rotation drive 5, made with blades 6, 7, 8. In the lower and upper parts of the mixing chamber 1 in the center are rigidly fixed two: lower 9 and upper 10 vibrators made in the buildings 11,12, with the excitation of two identical in amplitude and different in frequency vibration fields through the lower 13 and upper 14 crank mechanisms, respectively. The housings 11, 12 of the vibrators 9, 10 are made in the form of identical metal corrugated shells, which are corrugated thin-walled bodies of revolution, forming complex truncated geometric figures in the vertical plane section along the points of the corrugations vertices formed by the central intersection of three circles with the centers that make up the vertices of the regular triangle, and radii equal to the height of this triangle, and made with the ability to create multidirectional vibrations, inside each of which is centered in th disks 15, 16 with guide racks 17, 18 are rigidly fixed to the isontal plane, the function of which is to create stable directed translational movements of the rods 19, 20 from the translational pair formed by the guide strut 21 of the lower part of the mixing chamber 1 and the rod 19 of the lower 9 vibrator, lower 13 crank the connecting rod mechanism and from the translational pair formed by the guide rack 22 of the upper part of the mixing chamber 1, the guide rack 23 of the drive 5 of the rotation of the blades and the rod 20 of the upper 10 vibrator, the upper 14 crank no-crank mechanism respectively. Moreover, the disks 15, 16 of the lower 9 and upper 10 of the vibrators are made with cylindrical protrusions 24, 25, the function of which is the ability to insert and fix the inner diameter of the springs 26, 27, installed with the function of free compression / decompression in the cups 28, 29, to the centers the internal parts of which the rods 19, 20 are rigidly fixed, to the center of the external parts are the pushers 30, 31, rigidly fixed at the other end to the internal parts forming the smallest of corrugations, corrugated metal shells, and made with the function of excitation of vibrations from the smaller of the corrugations of the bodies 11, 12 of the vibrators 9, 10. Moreover, on the outer cylindrical parts of the glasses 28, 29 four protrusions 32, 33 are symmetrically fixed, the function of which is the transfer of reciprocating movements to the disks 15, 16, made with the possibility of uniform distribution vibration fields from the smallest corrugations of metal corrugated shells to the attachment points of the housings 11, 12 by creating uniform amplitude values of the displacements of each point of the outer generatrix of the metal corrugated shells, at The compression of the springs 26, 27 against the stop in the rubber gaskets 34, 35, made with the function of softening the collision of the protrusions 32, 33 with the disks 15, 16.

The device operates as follows: first, the components of the concrete mixture, the composition of which is preliminarily selected, are loaded through the loading window 2 in layers into the mixing chamber 1 in the following sequence: sand is laid on the bottom of the mixer, then cement, after which crushed stone, lastly, is uniformly fed to the entire load the required amount of water. Then the vibrator drives 9, 10 and the rotor drive 5 of the rotor 4 with the blades 6, 7, 8 are turned on. The drive 5 rotates the rotor 4 and the blades 6, 7, 8, thereby mixing the prepared mixture. Pushers 30, 31 through the cups 28, 29 of the springs 26, 27 and rods 19, 20 through the lower 13 and upper 14 of the crank mechanisms make reciprocating movements, thereby exciting vibrations of part of the housings 11, 12, which form the smallest corrugated metal corrugations shells. Moreover, at the time of compression of the springs 26, 27 against the stop in the rubber gaskets 34, 35 of the disks 15, 16, the protrusions 32, 33 transmit reciprocating motion to the disks 15, 16, which thereby additionally excite vibrations of the middle part of the housings 11, 12 and create homogeneous distribution of the amplitude values of the displacements of each point of the external generators of the metal corrugated shells. After a specified time, the drive 5 of the rotor 4 and the drives of the crank mechanisms 13, 14 are turned off and the finished concrete mixture is unloaded through the window 3 of the mixer housing 1.

In general, the device provides the possibility of creating the entire volume of the mixer chamber on the mixed components of the concrete mixture of vibration exposure with multidirectional vibrations that completely exclude the presence of “dead” zones in the mixing chamber, two of the same amplitude, different in frequency and evenly distributed throughout the volume of the mixing chamber vibration fields with simultaneous qualitative intensification of the mixing process of these components as a whole. This is due to the fact that, firstly, the case of the vibrators, made in the form of metal corrugated shells, which are corrugated thin-walled bodies of revolution, forming in the cross section of the vertical plane at the points of the corrugation vertices complex truncated geometric shapes formed by the central intersection of three circles with the centers making up vertices of a regular triangle, and radii equal to the height of a given triangle, and made with the ability to create multidirectional vibrations, allow, with one torons, to realize the possibility of creating the entire volume of the mixer chamber on the mixed components of the concrete mixture of vibration exposure, completely eliminating the presence of “dead” zones in the mixing chamber, and on the other hand, eliminating the vibration effect on the vibrator drives, maximally protect the bearing assemblies of the vibrator drive from getting into of small particles of mixed materials, as well as realize the possibility of the complete transfer of “useful” vibrational effects to the processed material. Secondly, the implementation in the design of the mixer of two vibrators, each of which includes: a pusher, a glass with protrusions, a spring, a rod of the crank mechanism and a disk with rubber gaskets, ensures the creation of uniform amplitude values of the displacements of each point of the outer generatrix of the metal corrugated shells, thereby allows for a uniform distribution of the vibration field in the mixing chamber, allows for the implementation of high-quality intensification of the process of mixing the mixture components with many acoustic vibration, which consists in simultaneously influencing the concrete mixture with vibrations of two or more frequencies and allowing, when superimposed on each other vibration curves, to increase the speed of the particles of the mixture, which in turn increases the efficiency of vibration. Multi-frequency vibration, based on the fact that each grain size corresponds to its own vibration frequency, can be considered as a means of influencing the largest number of grains, i.e. the intensity of multi-frequency vibrations is higher than the intensity of each of its constituent vibrations, thereby reducing the mixing cycle of concrete mixtures. And thirdly, the design of the mixer allows one to realize an increase in productivity, lower energy consumption for the mixing process, increased mobility and turbulization of the mixture due to uniform thixotropic destruction of the material structure in the entire space of the mixing chamber, which is manifested in a decrease in the specific resistance to movement of the blade in the concrete mixture compared with specific resistance to the movement of the blade of non-destroyed material. In this regard, the resistance to movement of the blades and the power consumption of the rotor rotation drive are reduced. At the same time, the effect of boiling of the mixture under the influence of oscillatory processes of the vibrator body, greater turbulization and more intensive circulation of the particles of the mixture is achieved, as a result of which the mixing time is reduced, the mixer productivity is increased.

Claims (1)

A vibrating mixer comprising a mixing chamber with loading and unloading windows of materials, respectively, a rotor with a rotary drive, made with blades, characterized in that in the lower and upper parts of the mixing chamber in the center two, lower and upper, vibrators are made rigidly mounted in the housings, with the excitation of two vibration fields of the same amplitude and different frequency by means of the lower and upper crank mechanisms, respectively, the vibrator bodies are made in the form of identical metal g of corrugated shells, which are corrugated thin-walled bodies of revolution, forming complex truncated geometric shapes in the vertical plane section along the points of the corrugation vertices, formed by the central intersection of three circles with centers making up the vertices of a regular triangle, and radii equal to the height of this triangle, and made with the ability to create multidirectional vibrations, inside each of which, in the center in the horizontal plane, discs with rack rails are rigidly fixed whose function is to create stable directed translational movements of the rods from the translational pair formed by the guide rack of the lower part of the mixing chamber and the rod of the lower vibrator, the lower crank mechanism and from the translational pair formed by the guide rack of the upper part of the mixing chamber, the guide rack of the rotary blade drive and the rod of the upper vibrator, the upper crank mechanism, respectively, and the discs of the lower and upper vibrators are made with cyl single protrusions, the function of which is the ability to insert and fix along the inner diameter of springs installed with the function of free compression / expansion in the cups, the rods are rigidly fixed to the centers of the internal parts, the pushers rigidly fixed to the inner parts forming the other end to the center of the external parts the smallest of corrugations, metal corrugated shells, and made with the function of exciting vibrations from the smallest of corrugations of the vibrator bodies, while on the outer cylindrical parts of the stack four protrusions are symmetrically fixed, the function of which is the transfer of reciprocating movements to disks made with the possibility of uniform distribution of vibration fields from the smallest corrugated metal corrugated shells to the fixing points of the bodies by creating uniform amplitude values of the displacements of each point of the outer generatrix of the metal corrugated shells, at the time of compression of the springs all the way into the rubber gaskets made with the function of softening the collision of the protrusions with di skamy.

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