RU2192920C2 - Rotary pulsating apparatus - Google Patents

Abstract

FIELD: mixing equipment; applicable in chemical, food, pharmaceutical and other industries for processes of dispersion, homogenization, pasteurization and sterilization of liquid media, and also in conduction of sonochemical reactions within ultrasound frequency band. SUBSTANCE: rotary pulsating apparatus has stepped shaft connected by means of its internal surface of rear end to shaft of combined electric motor and rigidly secured to it by flexible clamps belonging to shaft. Adapter of right-hand stator section has cavity accommodating seal to which washing agent is supplied and withdrawn by means of channels and pipe elbows located on internal end surface of conical spacer, and interconnected by pipelines running through holes in conical spacer with distributing block. Besides, conical spacer lower part has drain hole for accidentally soaked-through treated fluid medium, and its upper part has hole ensuring access to screw for tightening of flexible clamp of shaft. Cavity located behind seal is drained by channel made in conical spacer lower part ending in turning elbow located inside conical spacer on its end surface, and communicated by pipeline with distributing block secured to flange of conical spacer from outside of it. Scroll is provided with two pipe unions for supply of washing agent to internal cavity. Pipe unions are located in cavity upper part on wall between outlet branch pipe and noise-suppressing casing. In addition, scroll has load-bearing belt forming annular cavity filled with sound-reducing material. EFFECT: reduced expenses for maintenance of apparatus due to absence of lubrication and bearings in apparatus. 4 cl, 6 dwg

Description

 The invention relates to devices used in the chemical, food, pharmaceutical, microbiological, perfumery, paint and varnish, photochemical industries for dispersing, homogenizing, dissolving, mixing, obtaining, according to the simplified technology, ultra-thin dispersions (emulsions), low-temperature pasteurization and sterilization of liquid media, including liquid food products for oxidative processes.

 Known devices for processing fluid media, for example, to obtain dispersions or emulsions in which processes of emulsification of the dispersed phase in a dispersed medium are carried out.

 A device [1] is known, which comprises a rotor mounted on a shaft, made in the form of a disk with coaxial blades placed at its ends. The rotor is installed in the stator and together they are placed in the body of the device. The stator is made of coaxial cylinders (can be removable) with flow channels (slots). The casing of the apparatus has an inlet and outlet nozzles.

 The device operates as follows. The medium being processed through the inlet pipe enters the device body, where due to the centrifugal forces created by the rotating rotor, it moves in the radial direction. Passing sequentially through the rotor-stator stages, the fluid medium is subjected to mechanical action from the structural elements of the apparatus: rotor blades and stator formed by the side surfaces and slots of the coaxial cylinders. These effects lead to mixing, dissolution, grinding, dispersion, emulsification, homogenization in liquid multicomponent systems.

 Closest to the invention in technical essence is a device [2 - prototype], comprising a housing with inlet and outlet pipes. A rotor is installed in the housing, made in the form of a disk with coaxial cylinders located at its ends with slots (blades). The disk is mounted on a shaft connected to an electric motor. In the housing on supports made in the form of elastic blades, cylindrical or conical shells, a stator is installed, covering the rotor disk on both sides, the elastic elements of which are placed between the outer surface of the hub and the inner disk. Structurally, the attachment unit of the stator disk to the housing can be located in the Central part of the stator in the region of the axis of rotation of the rotor. This embodiment of the stator disk allows it to perform forced volumetric oscillations, exerting an acoustic effect on the processed fluid medium. Stator disks under the influence of pressure pulsations, pulsations of the flow rate of the processed fluid medium carry out volumetric oscillations, having a wide spectrum of radiation, excite acoustic vibrations of various powers in the fluid medium processed in the device, which, in turn, intensify the processes of dispersion, dissolution, and in addition, they allow for additional pasteurization or sterilization of liquid media.

 The apparatus used in the production of photographic materials [2], the manufacture of emulsions (dispersions) of hydrophobic color-forming components, stabilizers, antivalents with an average diameter of droplets (particles) of 0.05-0.1 microns, for the first time in the USSR made it possible to obtain original without gelatin and low boiling solvents compositions of dispersions containing a color-forming component, a plasticizer and a UV absorber with a shelf life of up to 1.5 years.

 In the technological process for the production of ethyl alcohol, the apparatus allows eliminating the stage of high-temperature digestion of starch-containing raw materials, increasing the degree of starch extraction, the amount and speed of fermentation of sugars, and increasing the alcohol yield to 9.44% in comparison with the previously adopted technology at the Tatarstan Usadsky Distillery.

In the food industry, the apparatus allows to increase the shelf life of processed whole milk during storage (10-15 ^o C) by 3-7 times (without packaging), reduce the pasteurization temperature of milk from 75-85 to 60-65 ^o C, and sterilization from 150 to 80 -90 ^o With without changing the indicators of its nutritional value, simultaneously with the pasteurization of milk to carry out homogenization processes; when restoring whole milk powder, completely eliminate its loss, improve the quality of the reconstituted milk, and simultaneously pasteurize and homogenize it. Carry out highly effective extraction of pectin from amaranth, increase the yield of pectin by 5-10%.

 The reasons that impede the full achievement of the expected result from the rotary pulsation apparatus made according to the patent 2090253 and identified in operation include: fast speed of leaving the working area with liquid, contamination of the seal cavity, vibration of the inlet pipe, increased maintenance costs, laboriousness in the manufacture of parts.

 The technical effect of the invention is to eliminate the causes of deficiencies in the operating apparatus, increase reliability and service life, improve manufacturability, reduce noise and metal consumption, reduce the cost of operation, maintenance and repair.

 The specified technical effect in part of the device is achieved by the fact that in the device of the rotary-pulsating apparatus, comprising a housing formed by a cochlea with inlet and outlet pipes having an internal cavity passing into the output channel, the input channel, the stator, consisting of disks of the right and left sections and right and left adapters connected to each other, a rotor mounted inside the stator and containing a disk equipped with protrusions and flow channels displaced relative to each other in the circumferential direction, is rigidly connected a key with a shaft that is connected to the electric motor, the rotor shaft being stepped and its inner surface of the rear end connected to the electric motor shaft and rigidly fixed to it by elastic clamps, the cross-sectional area of the output channel is 2-15% smaller than the input cross-sectional area channel formed by the inner surface of the inlet pipe and the outer surface of the hub of the screw mounted on the rotor shaft, the adapter of the right section of the stator is connected to a conical spacer that is attached the forward flange of the motor, the motor is mounted on the frame, the front wall of which is mounted a bracket rack associated with the left adapter stator section and a receiving weight and vibration from the housing and pipes associated with the inlet and outlet, wherein the apparatus is provided with noise-reducing casing.

 The technical effect, in terms of the device according to claim 2, is achieved by the fact that the adapter of the right stator section contains a seal location cavity, into which the flushing agent is supplied and removed by means of channels and elbows located on the inner end surface of the conical spacer, connected by pipelines passing through holes in the conical spacer with a distribution block, in addition, in the conical spacer in the lower part, a drain hole of a randomly leaked processed fluid otekuchey medium, and in its upper part an opening providing access to the screw clamps contractible elastic shaft.

 The technical effect, in terms of the device according to claim 3, is achieved by the fact that the cavity located behind the seal between the rotor and the stator is drained by a channel made in the lower part of the conical spacer and ending with a rotary angle located inside the conical spacer on its end surface and connected by a pipeline with a distribution block mounted on the flange of the conical spacer on the outside of it.

 The technical effect, in the part of the device according to claim 4, is achieved by the fact that the cochlea is equipped with two fittings for supplying a washing agent into the internal cavity located in its upper part on the wall between the outlet pipe and the noise-reducing casing, in addition, the cochlea is equipped with a power belt forming an annular cavity filled with sound-absorbing material.

 A comparative analysis of the invention with known technical solutions allows us to conclude that the novelty and compliance with the condition of the inventive step of the invention.

 Figure 1 shows a longitudinal section of the proposed device; figure 2 - section bb In figure 1; figure 3 is a section aa of figure 1; in Fig.4 - element G of Fig. 1; figure 5 is a view D of figure 1; figure 6 is a view B of figure 1.

 The rotary-pulsation apparatus (Fig. 1) contains a housing formed by a cochlea 1 with an outlet pipe 2 having an internal cavity 3, passing into the outlet channel 4 of the outlet pipe 2, the cross-sectional area of which is 2-15% smaller than the cross-sectional area of the input channel 5, the right adapter 6, with its rear flange connected to a conical spacer 7, attached to the front flange of the combined electric motor 8 mounted on the frame 9, a noise-reducing casing 10, a stator consisting of disks of the left and right sections 11, 12 (fi .1), the left adapter 13, while the adapters 6, 13 are interconnected via a cochlea, a rotor located inside the stator and containing a screw 14, a disk 15 provided with protrusions 16 (Fig. 2), flow channels 7 and rigidly connected with a step shaft 18 key 19.

 The cochlea 1 is made of a welded corrosion-resistant material, its internal cavity 3 passes into the outlet channel 4 of the outlet pipe 2 connected to the flange 20 of the pipeline for discharge of the processed fluid medium. The inner cavity of the cochlea is formed by the walls 21, 22 and the trailing wall 23 (Fig. 2), in the lower part it has a sleeve 24 connected to the wall 23 and the power belt 25 forming an annular cavity 26 filled with sound-absorbing material 27. The sleeve 24 has a drain hole 28 connected to the adapter 29, designed to drain the residues of the processed fluid medium from the inner cavity 3 of the cochlea during routine maintenance. The flushing agent is introduced into the internal cavity 3 through the nozzle 30 located in the upper part of the cochlea on the wall 23, under the outlet pipe 2, in the annular groove of which the sealing ring 31 is located.

 To the cochlea 1 from the side of the inlet pipe 32, the left adapter 13 of the disk of the left stator section 11 is attached, at the front end of which, in its annular groove, is located the rear annular protrusion (Fig. 1) of the inlet pipe. A gasket 33 is installed between the inlet pipe 32 and the left adapter 13, and the inlet pipe with a step pin 34 is fixed in a certain position and clamped by an annular clip 35 on the adapter 13, in the groove of which the disk 11 is mounted and secured in it with screws 36, unloaded from the cut , a stepped pin 34, and the inlet pipe 32 is removable and may have a different diameter of the inner surface forming with the outer surface of the hub of the screw 14 the input channel 5, the cross-sectional area of which can be l changed by selecting the appropriate screw, the outer diameter of which is consistent with the size (diameter) of the inner surface of the inlet pipe 32, for which he (screw) is also removable. The ratio of the areas of the input 5 and output 4 channels is determined empirically based on the specific viscosity of the processed fluid medium and obtaining the maximum result that is expected from the use of the device (for example, the maximum percentage of starch output from a ton of raw material in the production of alcohol).

 The right adapter 6 of the disk of the right stator section 12, with the adapter sleeve 37, in the groove of which the flange of the disk 12 is located, is attached to the cochlea 1 from the motor side, and the sleeve itself in the central part is in contact with the driving sleeve 38, which consists of two parts, with the external the surface of one of them with helical grooves 39 (Fig. 4), preventing the ingress of solid particles (for example, ground grain during the production of alcohol) into the cavity 40 of the seal - an elastic sealing collar 41, pressed into the housing 42 of the cuff 41, the outer surface, and its inner working surface, the jaw is in contact with the surface of the jaw 43 (Fig. 4) of the step reflector 44, which, in turn, with its annular protrusion 45 enters the annular groove of the separation sleeve 46, mounted on a conical spacer 7, and the stepped reflector 44 on the inner surface has an annular groove in which a sealing ring 47 is placed in contact with the rotor shaft 18.

 At the front end of the shaft 18 there is a screw 14 (Fig. 1), a key 48 connected to a shaft having a nut 49 with a lower hydraulic resistance at the front end compared to the prototype, and behind the screw on the shaft there is an adapter sleeve 50 in contact with the rotor disk 15 and allowing you to organize the flow of a fluid medium at the entrance to the disk without disruptions, leading to the occurrence of vibrations of the inlet pipe 32.

 The rotor shaft 18 at its rear end has a bore with a combined electric motor 8 shaft located therein with a key 51 (Fig. 3) and clamped thereon by the jaws of the clamp 52 of the shaft 18.

 The noise-reducing casing 10 of the welded construction consists of two parts having a plane of the connector coinciding with the vertical plane of the apparatus, and covering the cochlea from the outside. In the upper part, the casing is equipped with an opening 53 (Fig. 2) for the passage of the outlet pipe 2, and in the lower part has a cavity 54 for accommodating the adapter 29 for draining the residues of the processed medium from the inner cavity 3 of the cochlea.

 On the conical spacer 7 (FIGS. 3, 5) are located: a swivel angle 55 for supplying a flushing agent, a pipe 56 connected to a distribution block 57 mounted on the flange of the conical spacer on the outside, and a square 58 (FIG. 5). Through the square 55, the flushing agent enters the cavity 40 of the placement of the elastic sealing cuff 41, and merges through the pipe 59 and the square 60 (figure 5).

 The cavity 61 (figure 4), formed by the housing 42 and the stepped reflector 44, is drained through the pipe 62 (figure 3, 5) and the elbow 63.

 In the conical spacer 7 there are three holes 64 (FIG. 3) for passage of pipelines 56, 59, 62 and one hole 65 for approaching the screw 66 of the clamp 52 of the shaft 18.

 On the frame 9, on its front wall, a bracket 67 is fixed, connected by a strut 68 to the adapter 13 of the disk of the left stator section and absorbing weight and vibration loads from the apparatus body and pipes connected with the inlet and outlet pipes. Stand 68 with its upper part passes through the cavity 54 of the noise reduction casing 10.

 The stator disks 11, 12, performing volumetric oscillations during operation of the apparatus, have shells 69, 70 (Fig. 4) with wall thickness h from 1.5 to 3.5 mm, depending on the capacity of the apparatus (from 5 to 25 m / h) being processed fluid medium.

 On the conical spacer 7 in the lower part, a control hole 71 is made, through which a fluid medium can merge in case of overflow of the cavity 61 (Fig. 4).

 The device (Fig. 1) works as follows. The processed fluid medium through the inlet pipe 32 enters thanks to the screw 14 at the entrance to the disk 15 of the rotor. The rotation from the combined electric motor 8 through the shaft 18 is transmitted to the disk 15 and the screw 14 located inside the inlet pipe 32. The blades that rotate together with the rotor disk (protrusions 16), flow channels 17 due to centrifugal forces create a radial movement of the medium being processed. Due to the displacement of the flow channels of the rotor disk and the flow channels of the stator disks, the fluid medium is subjected to intense influences due to the velocity gradient, pressure gradient, cavitation, acoustics, and volume oscillations of the stator and rotor disks. The washing of the cavity 40 (Fig. 4) of the placement of the elastic sealing collar 41 is carried out through the elbow 58, the pipeline 56 and the elbow 55 for supplying the flushing agent.

Sources of information:
1. Auth. St. USSR 1148638.

 2. RF patent 2090253.

Claims (4)

 1. A rotary-pulsation apparatus, comprising a housing formed by a cochlea with inlet and outlet nozzles having an internal cavity turning into an output channel, an input channel, a stator, consisting of disks of the right and left sections and right and left adapters connected to each other, a rotor mounted inside the stator and comprising a disk provided with protrusions and flow channels offset in the circumferential direction relative to each other, rigidly connected by a key to the shaft, which is connected to the electric motor, characterized in that the shaft the torus is made stepped and its inner surface of the rear end is connected to the motor shaft and rigidly fixed to it by elastic clamps, the cross-sectional area of the output channel is 2-15% smaller than the cross-sectional area of the input channel formed by the inner surface of the inlet pipe and the outer surface of the screw hub, mounted on the rotor shaft, the adapter of the right stator section is connected with a conical spacer attached to the front flange of the electric motor, the electric motor is mounted on p IU, the front wall of which is mounted a bracket rack associated with the left adapter stator section and a receiving weight and vibration from the housing and pipes associated with the inlet and outlet, wherein the apparatus is provided with noise-reducing casing.  2. The apparatus according to claim 1, characterized in that the disk adapter of the right stator section contains a seal cavity into which the flushing agent is supplied and withdrawn by means of channels and elbows located on the inner end surface of the conical spacer, connected by pipelines passing through the openings in a conical spacer with a distribution block, in addition, in a conical spacer in its lower part, a drain hole of a randomly leaked processed fluid is made, and in the upper part has a hole that provides access to the screw tightening the elastic clamps of the shaft.  3. The device according to paragraphs. 1 and 2, characterized in that the cavity located behind the seal is drained by a channel made in the lower part of the conical spacer ending with a turning angle located inside the conical spacer on its end surface and connected by a pipe with a distribution block mounted on the flange of the conical spacer outside it.  4. The apparatus according to claims. 1-3, characterized in that the cochlea is equipped with two fittings for supplying a flushing agent to the internal cavity located in its upper part on the wall between the outlet pipe and the noise-reducing casing, in addition, the cochlea is equipped with a power belt forming an annular cavity filled with sound-reducing material.

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