CN203916140U - A kind of multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device - Google Patents

Abstract

The utility model relates to a kind of multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device, comprising at least one extraction unit, extraction unit is that cavitation cylinder is set in sound attenuation, in cavitation cylinder, be provided with and extract cylinder, extract the upper processing of cylinder charging aperture, extract entrance, extract outlet and slag-drip opening, Residue extraction pipeline is set on slag-drip opening, deslagging motor and deslagging spiral propeller are set in Residue extraction pipeline, in extracting cylinder, flat spin propeller is set, flat spin propeller is connected with pusher motor; The cross section of cavitation cylinder is regular polygon, and the cross section that extracts cylinder is circular, is provided with ultrasonic oscillator group on the outer wall of cavitation cylinder, and the vibration frequency of adjacent two ultrasonic oscillator groups is different; The utility model can be realized multifrequency vibration, and sound field is even, and cavitation is effective, contributes to medicine or organic extraction, reduces supplies consumption, realizes closed continuous circulation, reduces pollutant emission, improves product yield, purity and biologically active.

Description

A kind of multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device

Technical field

The utility model relates to medicine, food and active ingredient of natural product ultrasonic extraction device technical field, particularly relates to a kind of multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device.

Background technology

At present, most of Chinese medicine factory is subject to pharmacopeia prescribed limits, all adopts single tank, batch (-type) extraction equipment, and shortcoming is that overall efficiency is low, and production cost is high, and large-scale production investment is high.There is in recent years the continuous extraction equipment of some dynamic countercurrents, as hoirzontally rotating continuous extracting device, pot group type counter-flow extraction device, the spiral continuous flow upstream ultrasonic extraction device of tubular type, many dynamic ultrasounds of pot group type adverse current continuous extracting device etc.Although, they have broken away from single tank, static, extraction at intermittence pattern, have realized dynamic, continuous, the extraction of modernization automatically pattern, but hoirzontally rotating continuous extracting device material intermittently contacts with solvent employing fountain, make the osmotic pressure producing be difficult to diffusion, reduced extraction efficiency; And the charging of pot group type counter-flow extraction device is produced the same difficulty with deslagging and single tank; The air-teturning mixed phenomenon of tubular type spiral continuous counter-flow extraction equipment solid material and the slow convection current of solvent is more serious, and speed of related movement is slow, and extraction efficiency is low, and equipment exists certain difficulty when scale is amplified.Although the functions such as dynamic agitation, extruding, ultrasound-enhanced extraction that many dynamic ultrasounds of pot group type adverse current continuous extracting device is integrated, make great progress, because the inhomogeneous sound field of the ultrasonic generation of single-frequency is failed to make studied device and obtained promising result.

In extracting industry, traditional extraction and separation technology, as solvent extraction method, circumfluence method, percolation etc. have selective height, good separating effect, be easy to realize the advantages such as large-scale continuous production, but have the problems such as recovery rate is low, raw materials consumption large, discharging of waste liquid environmental pollution is serious.The new separation technologies such as supercritical fluid extraction, Microwave-assisted Extraction are got, ultrasonic extraction and liquid film extraction are in the extraction and separation process of natural and organic ingredients, although it is high that supercritical extract advantage is extract purity, be suitable for that chemical constitution is known, the lipophilic substance of molecular weight extracts, but that shortcoming is operating pressure is high, energy consumption large, equipment while amplifying manufacturing cost high; Although Microwave Extraction utilizes microwave that cell wall is broken, reach the object of accelerating extraction, Microwave-assisted Extraction is tried to please and is easily caused, to temperature-sensitive material degraded, reducing biologically active, has some engineering problems when amplifying production scale; Liquid film extraction cost is high, is unfavorable for large-scale industrial production.

Ultrasonic wave extracts for Effective Component of Chinese Medicine, has promoted mass transfer to extract rapidly, has accelerated extraction process.Compare with traditional extraction, the speed of its leaching process improves greatly, and the impurity in extract is low compared with conventional method.But all current ultrasonic wave extraction also only limits to laboratory and studies on a small scale, and be mostly in single-frequency, discrete independent extraction operation, still lack engineering application technology and the equipment approaching with actual production line.

Utility model content

The problems such as the production equipment recovery rate that above-mentioned prior art exists is low in order to overcome, charging and deslagging difficulty, single-frequency ultrasonic sound field is inhomogeneous and material waste is many; the utility model provides a kind of automaticity high; can continued operation, can improve the utilization rate of herb resource and there is the multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device of the continuous rapid extraction Chinese herbal medicine of scale and active ingredient of natural product.

The utility model solves the problems of the technologies described above adopted technical scheme and comprises at least one extraction unit, the structure of described extraction unit is: cavitation cylinder is set in sound attenuation, in cavitation cylinder, be provided with and extract cylinder, extract on cylinder and be processed with outward extending charging aperture, extract entrance, extract outlet and slag-drip opening, on slag-drip opening, be provided with Residue extraction pipeline, the deslagging spiral propeller that is provided with deslagging motor and is connected with deslagging motor output shaft in Residue extraction pipeline, in extracting cylinder, flat spin propeller is set, flat spin propeller is connected with the power output shaft of pusher motor, the cross section of above-mentioned cavitation cylinder is the regular polygon that is at least 3 limits, the cross section that extracts cylinder is circular, on the outer wall of cavitation cylinder, be provided with about centrosymmetric ultrasonic oscillator group, a ultrasonic oscillator group is not identical with the vibration frequency of an adjacent ultrasonic oscillator group, ultrasonic oscillator group is comprised of at least one ultrasonic oscillator and multi-frequency generator, and each ultrasonic oscillator is connected with multiple frequency ultrasonic wave oscillator,

The charging aperture of said extracted unit is communicated with self-feeder by pipeline, extract entrance is connected with the liquid outlet of modulating unit by pipeline, extract outlet is connected with reflux pump by pipeline, the inlet of the liquid outlet of reflux pump and porous sample collection unit over against, porous sample collection unit is communicated with the inlet of modulating unit and the entrance of separator by pipeline, and the first outlet of separator is communicated with the inlet of modulating unit by pipeline, the second outlet is communicated with sample divider by pipeline, is also provided with ultrasonic echo positioning detector, ultrasonic echo positioning detector directly over porous sample collection unit, self-feeder, multiple frequency ultrasonic wave oscillator, pusher motor, deslagging motor, charging control valve, extract liquid inlet control valve, extract goes out hydraulic control valve, porous sample collection unit, separator, sample divider, modulating unit, extraction unit, reflux pump is connected with controller by wire respectively, and controller is connected with computer respectively with ultrasonic echo positioning detector.

The cross section of above-mentioned cavitation cylinder is the regular polygon on 3～6 limits preferably, with the coaxial setting of extraction cylinder.

Above-mentioned ultrasonic oscillator group contains 2～6 ultrasonic oscillators, and the frequency of ultrasonic oscillator is 20～80KHz, and power is 100～1500W.

Above-mentioned ultrasonic oscillator group is if even number, and the frequency of two relative ultrasonic oscillator groups is identical; If odd number, the frequency of each ultrasonic oscillator group is different.

The structure of above-mentioned porous sample collection unit can be on fixed mount, to be provided with collection sample pipe and timer, in the bottom of fixed mount, be provided with the stepper motor that drives fixed mount step-wise displacement, the inlet of clear liquid pump and the collection sample mouth of pipe are communicated with the inlet of modulating unit over against, liquid outlet, the inlet of slag liquid pump and the collection sample mouth of pipe are communicated with the entrance of separator over against, liquid outlet, and stepper motor, timer, clear liquid pump and slag liquid pump are connected with controller by wire respectively.

Above-mentioned collection sample pipe is preferably evenly distributed in 4 * n on same circumference, arbitrary integer that wherein n is 1～6.

Preferably 15 °～45 ° of angles between the center line of the center line of above-mentioned Residue extraction pipeline and extraction cylinder.

At the top of extracting cylinder, can also process visual windows, on sound attenuation, be provided with visual windows over against monitoring unit, monitoring unit is connected with controller, by data wire, is connected with computer by wire.

A kind of multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device that the utility model provides, compare and mainly there is following advantage with common extraction equipment:

1, pass through optimal design, improve the cavitation cylinder and extraction barrel structure of extraction unit, it is regular polygon that cavitation cylinder is designed to cross section, and the cross section that extracts cylinder is circular, and on each lateral wall of cavitation cylinder, is provided with the ultrasonic transduction oscillator of different frequency, thereby make ultrasonic being evenly distributed, and improve medicine or organic recovery rate, and have space between cavitation cylinder and extraction cylinder, in space, pass into recirculated water, both cavitation effect can be improved, the extraction temperature of extracting cylinder can also be reduced.By multiple frequency ultrasonic wave oscillator, adjust the vibration frequency of each ultrasonic oscillator, realize multifrequency vibration, avoid standing wave to produce, sound field is even, cavitation is effective, more contribute to the extraction of active ingredient in medicine or organic matter, in addition, in extracting cylinder, flat spin propeller is set, the space of extracting cylinder is divided into the banded space of continuous spirality, for aqueous two-phase extraction liquid and Chinese medicine solid two-phase better reverse Uniform Flow provide steric requirements with contacting, promote spread better and permeate between liquid-solid phase, the extract that thoroughly change flow is less is in the inhomogeneous disadvantage of the simplified middle distributed pole of the sample cell that there is no spiral pusher device, the equipment of realizing is produced continuously, improve medicine or organic recovery rate.

2, utilize ultrasonic echo detection and localization to combine with porous rotation collector unit, set up ultrasonic echo location technology and accurately survey the new method of liquid level, rotation porous separation equipment is carried out to real-time online detection, reach quick and precisely separating effect, by the further separation and Extraction of waste material, recycle, reduce supplies consumption, reduce waste discharge, reach environmental protection and extract requirement, realize energy-conservation, reduce discharging, reduce and pollute, promote the development of low-carbon economy, further improving and moving towards the industrialization and lay a good foundation for abstraction technique.

3, monitoring unit is installed on sound attenuation, the optical lens of monitoring unit sees through the visual windows of extracting on cylinder in medicine leaching process, the fluid micro dynamic course that directly Real-time Collection extracts in cylinder changes, exist form and the characteristics of motion to ultrasonic cavitation process, solid suspension are carried out real time and on line monitoring, inquire into the characteristics of motion of complex fluid cavitation bubble; Solve the difficult problem that can not monitor in real time in prior art, contribute to the relation of micro dynamic course and the further research of mechanism of action in multifrequency power ultrasonic extraction system, adopt numerical computations emulation and the impact of experimental study cavitation field on extraction yield, by cavitation noise signal spectra, analyze, research complex fluid ultrasonic cavitation feature and the impact of parameter on recovery rate thereof, realize and regulate multifrequency optimization, reduce technical risk and uncertainty, reach ultrasonic cavitation maximizing efficiency, improve extraction yield and phonochemistry yield.

4, the utility model is that multiple-frequency supersonic cavitation extractive technique and aqueous two-phase extractive technique is integrated, and adopt automation control system, and control quantitative feeding, discharging, realize closed continuous circulation, reduce pollutant emission, improve yield, purity and the biologically active of product.

5, the utility model is realized continuous operation, can extraction unit plural serial stage be used according to need of production.

Accompanying drawing explanation

Fig. 1 is the structural representation of embodiment 1.

Fig. 2 is the structural representation of extraction unit 2 in Fig. 1.

Fig. 3 is the sectional view of Fig. 2.

Fig. 4 is the structural representation of the porous sample collection unit 7 of Fig. 1.

Fig. 5 be Fig. 4 collection sample pipe 7 ?1 distribution schematic diagram.

The specific embodiment

Now by reference to the accompanying drawings the technical solution of the utility model is further described, but the utility model is not limited only to following enforcement situation.

Embodiment 1

As shown in Figure 1, the multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device of the present embodiment is to be connected and composed by self-feeder 1, extraction unit 2, monitoring unit 3, modulating unit 4, reflux pump 5, ultrasonic echo positioning detector 6, porous sample collection unit 7, controller 8, computer 9, separator 10, sample divider 11.

The extraction unit 2 of the present embodiment is by extract liquid inlet control valve 2 ?1, sound attenuation 2 ?2, ultrasonic oscillator group 2 ?3, charging control valve 2 ?4, extract, to go out hydraulic control valve 2 ?5, cavitation cylinder 2 ?6, extraction cylinder 2 ?7, pusher motor 2 ?8, flat spin propeller 2 ?9, deslagging motor 2 ?10, Residue extraction pipeline 2 ?11 and deslagging spiral propeller 2 ?12 to connect and compose, specifically can be referring to Fig. 2 and 3.

The sound attenuation 2 of the present embodiment ?2 roof middle part with threaded fastener, fix a monitoring unit 3, this monitoring unit 3 can be common video Optical devices, also can be high-speed motion picture camera, this monitoring unit 3 is connected with controller 8 by wire, by data wire, be connected with computer 9, controller 8 is connected with computer 9 by wire, by computer 9, send control command to controller 8, by controller 8, control monitoring unit 3 work, monitoring unit 3 sees through visual windows and gathers the fluid Micro dynamic data message in extraction tank, and be sent on computer 9 by data wire.Sound attenuation 2 ?2 interior levels install a cavitation cylinder 2 ?6, this cavitation cylinder 2 ?6 cross section be regular hexagon, cavitation cylinder 2 ?on each lateral surface of 6 with threaded fastener install mounting ultrasonic oscillator group 2 ?3, and the ultrasonic oscillator group on two relative faces 2 ?3 frequency identical, ultrasonic oscillator on two adjacent faces is different, be that supersonic frequency on first face and the 4th face is 20KHz, power is 800W, the supersonic frequency of second face and the 5th face is 30KHz, power is 600W, supersonic frequency on the 3rd face and the 6th face is 60KHz, power is 400W, can mutually superpose like this, sound field is evenly distributed, avoid producing standing wave dead angle.Each ultrasonic oscillator group 2 ?3 is comprised of 4 identical ultrasonic oscillators and multiple frequency ultrasonic wave oscillator, ultrasonic oscillator is a row between two, become in tandem 2 rows, the ultrasonic oscillator of the present embodiment adopts the common commercially available ultrasonic oscillator being comprised of ultrasonic transducer and ultrasonic transformer.Each ultrasonic oscillator is all connected with multiple frequency ultrasonic wave oscillator, and multiple frequency ultrasonic wave oscillator is connected with controller 8 by wire, by controller 8, adjusts ultrasonic power quantity and the frequency range of selecting to need use.Cavitation cylinder 2 ?one of 6 interior installation extract cylinder 2 ?7, extract cylinder 2 ?7 center line and cavitation cylinder 2 ?6 center line on same straight line, this extraction cylinder 2 ?7 cross section be inscribed within cavitation cylinder 2 ?the circular configuration of 6 cross sections, extract cylinder 2 ?7 roof left side be processed with charging aperture and extract outlet, charging aperture by be arranged on charging control valve on feed pipe 2 ?4 be communicated with self-feeder 1, extract outlet goes out hydraulic control valve 2 ?5 and is connected with the charging aperture of reflux pump 5 by being arranged on extract on extract drain pipe, extract cylinder 2 ?7 roof middle part be processed with visual windows, visual windows extends to outside cavitation slot, with sound attenuation 2 ?monitoring unit 3 on 2 over against.Extract cylinder 2 ?7 roof right side be processed with extract entrance, extract entrance by be arranged on extract liquid inlet control valve on extract feed tube 2 ?1 be connected with modulating unit 4.Extract cylinder 2 ?7 right side, bottom processing slag-drip opening, on slag-drip opening by adpting flange and Residue extraction pipeline 2 ?11 be communicated with, Residue extraction pipeline 2 ?11 interior with threaded fastener fastening be provided with deslagging motor 2 ?10, this deslagging motor 2 ?10 are also the adjustable common commercially available bunchers of rotating speed, it is connected with controller 8 by wire, by controller 8, controlled the rotating speed of its power output shaft, this deslagging motor 2 ?10 power output shaft with shaft coupling and deslagging spiral propeller 2 ?12 helical axis be connected, deslagging spiral propeller 2 ?12 are also common commercially available spiral propellers, its be coaxially arranged on Residue extraction pipeline 2 ?in 11, in order to guarantee waste residue, discharge continuously and successfully, the Residue extraction pipeline 2 of the present embodiment ?11 center line with extract cylinder 2 ?7 center line form the angle of 30 °.Extract cylinder 2 ?be provided with in 7 flat spin propeller 2 ?9, the flat spin propeller 2 of the present embodiment ?9 adopt commercially available common spiral propeller, its helical axis with shaft coupling and pusher motor 2 ?8 power output shaft be connected, pusher motor 2 ?8 are the adjustable bunchers of common commercially available rotating speed, it is connected with controller 8 by wire, by controller 8 adjust pusher motor 2 ?8 power output shaft rotating speed so that adjust flat spin propeller 2 ?9 rotary speed, by flat spin propeller 2 ?9 rotations the medicine after extracting is pushed to slag-drip opening.

It is all commercially available magnetic valves that charging control valve 2 ?4 of the present embodiment, extract liquid inlet control valve 2 ?1, extract go out hydraulic control valve 2 ?5, and it is connected with controller 8 by wire respectively.

The outlet of above-mentioned reflux pump 5 is communicated with porous sample collection unit 7 by pipeline, referring to Fig. 4, 5, this porous sample collection unit 7 be fixed mount 7 ?be provided with on 28 collection sample pipes 7 ?1 and timer 7 ?3, fixed mount 7 ?2 bottom be provided with stepper motor 7 ?4, 8 collection sample pipes 7 ?1 fixed mount 7 ?along same circumference, be evenly distributed on 2, fixed mount 7 ?2 bottom by connecting bushing and stepper motor 7 ?4 power output shaft be connected, first collection sample pipe 7 ?1 the mouth of pipe and reflux pump 5 liquid outlet over against, the extract that reflux pump 5 extracts enter first collection sample pipe 7 ?1, second collection sample pipe 7 ?1 the mouth of pipe and ultrasonic echo positioning detector 6 over against, when second collection sample pipe 7 ?after 1 extract static layering, ultrasonic echo positioning detector 6 detects the position of layering interfaces, and send information to controller 8, controller 8 respectively instruction clear liquid pump 7 ?5 and slag liquid pump 7 ?6 work, the 3rd collection sample pipe 7 ?1 the mouth of pipe and clear liquid pump 7 ?5 inlet relative, the 4th collection sample pipe 7 ?1 the mouth of pipe and slag liquid pump 7 ?6 inlet relative, clear liquid pump 7 ?5 feed liquor go out by pipeline and be communicated with the inlet of modulating unit 4, slag liquid pump 7 ?6 liquid outlet be communicated with the entrance of separator 10, by timer 7 ?3 record first collection sample pipe 7 ?feed liquor time of 1, every pipe acquisition time 10min, 10min fill with first collection sample pipe 7 ?after 1 controller 8 control step motors 7 ?45 ° of 4 rotations, start second collection sample pipe 7 ?1 feed liquor, now first collection sample pipe 7 ?1 stratification, second collection sample pipe 7 ?1 fill with after the 3rd collection sample pipe 7 ?1 feed liquor, when rotation to the 4th collection sample pipe 7 ?during 1 feed liquor, the 3rd collection sample pipe 7 ?1 at stratification, second collection sample pipe 7 ?1 layering, the position of layering interfaces according to ultrasonic echo positioning detector 6, detected, with clear liquid pump 7 ?5 extract supernatant liquors, when first collection sample pipe 7 ?1 supernatant liquor extracted complete, with slag liquid pump 7 ?the 6 slag liquid that extract lower floors, when the 4th collection sample pipe 7 ?1 fill with, first collection sample pipe 7 ?1 slag liquid discharge after stepper motor 7 ?4 drive fixed mount 7 ?45 ° of 2 rotations, start next cycle, so circulation, continued operation.

The first outlet of above-mentioned separator 10 is communicated with modulating unit 4 inlets by pipeline, and second outlet is communicated with sample divider 11 by pipeline, and again separated supernatant is recycled, and waste residue is collected.

In order accurately to detect the separating effect that reclaims liquid in porous sample collection unit 7, ultrasonic echo positioning detector 6 is arranged on the top of porous sample collection unit 7, it is connected with controller 8, by data wire, is connected with computer 9 by wire, utilize the extract layered effect in ultrasonic echo signal judgement porous sample collection unit 7, and send signal to computer 9, by computer 9, send control command to controller 8 again, controller 8 control clear liquid pump 7 ?5 drawing liquid scope, prevent clear liquid pump 7 ?5 excessive drawing liquids the slag liquid of lower floor is extracted out.

In order to realize automatic control, the ultrasonic echo positioning detector 6 of the present embodiment, porous sample collection unit 7, separator 10, sample divider 11, modulating unit 4, extraction unit 2, reflux pump 5 are connected with controller 8 by wire respectively.

The operation principle of the multiple-frequency supersonic cavitation extraction element of the present embodiment is:

First open charging control valve 2 ?4, flat spin propeller 2 ?9 and monitoring unit 3, open extract liquid inlet control valve 2 ?1 by the extract of aqueous two-phase put into extract cylinder 2 ?7, then by pending material from charging aperture put into quantitatively flat spin propeller 2 ?9, open multiple frequency ultrasonic wave oscillator, select applicable ultrasonic frequency and power, and the scope of definite frequency and power or select different frequency alternation or compound action, material by the flat spin propeller 2 rotating ?9 slowly and steadily push to extract cylinder 2 ?7 slag-drip opening, again by deslagging spiral propeller 2 ?12 medicinal material waste residue is discharged, aqueous two-phase extraction liquid moves against medicinal material flow direction simultaneously, flow to equably the extract port of export, flat spin propeller 2 ?9 are divided into a banded space of continuous spirality by the inner chamber that extracts cylinder 2 ?7, for extract and Chinese medicine solid liquid phase better reverse Uniform Flow provide steric requirements with contacting, promote spread better and permeate between liquid-solid phase, the peripherad adverse current of ultrasonic oscillator is sent mowing type ultrasonic beam, the moment immense pressure that the cavitation of ultrasonic wave in solution produces can be destroyed the cell membrane of raw material, accelerate the leaching process of its internal component, the mechanical oscillation effect producing, can accelerate the diffusion velocity of solute in solution, and stop raw material caking phenomenon to produce, the extract of discharging from extract outlet pumps into porous sample collection unit 7 through reflux pump 5, at porous sample collection unit 7 stratification, ultrasonic echo positioning detector 6 is launched ultrasonic waves simultaneously, layered effect according to ultrasonic echo signal judgement extract mixed liquor and waste liquid in porous sample collection unit 7, after echo signal is stable by controller 8 control reflux pumps 5 work to first collection sample pipe 7 ?feed liquor in 1, second collection sample pipe 7 ?1 stratification, after echo signal is stable, control clear liquid pump 7 ?5 by the 3rd collection sample pipe 7 ?1 supernatant liquor by pipeline, be directly delivered to reuse in modulating unit 4, control slag liquid pump 7 ?6 by the 4th collection sample pipe 7 ?the mixed liquor with impurity of lower floor in 1 be discharged in separator 10, so circulation, further that extract is separated with impurity by separator 10, clear liquid is delivered to reuse in modulating unit 4, extract is delivered in sample divider 11 and collects.In this process, monitoring unit 3 see through visual windows monitoring extract cylinder 2 ?the Micro dynamic change procedure of complex fluid in 7, and the information of collection is sent to computer 9.

Embodiment 2

The extraction unit 2 cavitation cylinders 2 of the present embodiment ?6 cross sections are equilateral triangles, on three faces, be separately installed with ultrasonic oscillator group 2 ?3, one of them ultrasonic oscillator group 2 ?3 supersonic frequency be 20KHz, power 100～1500W is adjustable continuously, second ultrasonic oscillator group 2 ?3 supersonic frequency be 30KHz, power 100～1500W is adjustable continuously, the 3rd ultrasonic oscillator group 2 ?3 supersonic frequency be 60KHz, power 100～1500W is adjustable continuously, and its supersonic frequency is different.Each ultrasonic oscillator group 2 ?3 be by 6 identical ultrasonic oscillator groups 2 ?3 one-tenth, a row, becomes 3 rows in tandem between two, be distributed in cavitation cylinder 2 ?on 6.

Described porous sample collection unit 7 be fixed mount 7 ?be provided with on 2 24 collection sample pipes 7 ?1, take 4 collection sample pipes 7 ?1 be a circulation, every pipe acquisition time 10min, rotates 15 ° every 10min, the connected mode of miscellaneous part is identical with embodiment 1.

The Residue extraction pipeline 2 of the present embodiment ?11 center line with extract cylinder 2 ?7 center line form the angle of 15 °.

Other parts and annexation thereof are all identical with embodiment 1.

Embodiment 3

The extraction unit 2 cavitation cylinders 2 of the present embodiment ?6 cross sections are squares, on four faces, be separately installed with ultrasonic oscillator group 2 ?3, ultrasonic oscillator group on two relative faces 2 ?3 supersonic frequency identical, be ultrasonic oscillator group on first and the 3rd face 2 ?3 supersonic frequency be 20KHz, power 600W, second with the ultrasonic oscillator group 2 of the 4th face ?3 supersonic frequency be 80KHz, power 400W, each ultrasonic oscillator group 2 ?3 be by 2 identical ultrasonic oscillator groups 2 ?3 one-tenth.

Described porous sample collection unit 7 be fixed mount 7 ?be provided with on 2 20 collection sample pipes 7 ?1, take 4 collection sample pipes 7 ?1 be a circulation, every pipe acquisition time 10min, rotates 18 ° every 10min, other parts are identical with embodiment 1.

The angle that the center line of Residue extraction pipeline 2 ?11 of the present embodiment is at 45 ° with the center line shape of extracting cylinder 2 ?7.

Other parts and annexation thereof are identical with embodiment 1.

Embodiment 4

The multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device of the present embodiment is that the extraction unit 2 by 2 series connection forms, the Residue extraction pipeline 2 of an extraction unit 2 ?11 outlets with the charging aperture of another extraction unit 2 by pipeline communication, realize the continuous extraction of medicine.

Any one is identical for the concrete structure of said extracted unit 2 and above-described embodiment 1～3.

Any one is identical for other parts and annexation thereof and above-described embodiment 1～3.

Embodiment 5

The porous sample collection unit 7 of the present embodiment be fixed mount 7 ?be provided with on 2 collection sample pipe 7 ?1 and timer 7 ?3, fixed mount 7 ?2 bottom annular belt gear is installed, belt gear by shaft coupling and stepper motor 7 ?4 power output shaft be connected, by stepper motor 7 ?4 drive belt gear transmissions realize fixed mount 7 ?2 linear displacements, any one is identical for other parts and annexation thereof and above-described embodiment 1～4.

The specification of the number of the ultrasonic oscillator in above-described embodiment, frequency and flat spin pusher and deslagging screw impeller, rotating speed all can be adjusted according to actual service condition.

Claims (9)

1. a multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device, comprise at least one extraction unit (2), the structure of described extraction unit (2) is: cavitation cylinder (2 ?6) is set in sound attenuation (2 ?2), in cavitation cylinder (2 ?6), be provided with and extract cylinder (2 ?7), extract on cylinder (2 ?7) and be processed with outward extending charging aperture, extract entrance, extract outlet and slag-drip opening, on slag-drip opening, be provided with Residue extraction pipeline (2 ?11), it is characterized in that: the deslagging spiral propeller that is provided with deslagging motor (2 ?10) and is connected with deslagging motor (2 ?10) output shaft in Residue extraction pipeline (2 ?11) (2 ?12), flat spin propeller (2 ?9) is set in extracting cylinder (2 ?7), the power output shaft of flat spin propeller (2 ?9) and pusher motor (2 ?8) is connected, the cross section of above-mentioned cavitation cylinder (2 ?6) is the regular polygon that is at least 3 limits, the cross section that extracts cylinder (2 ?7) be circle, on the outer wall of cavitation cylinder (2 ?6), be provided with about centrosymmetric ultrasonic oscillator group (2 ?3), the vibration frequency of ultrasonic oscillator group (2 ?3) and an adjacent ultrasonic oscillator group (2 ?3) is not identical, ultrasonic oscillator group (2 ?3) is comprised of at least one ultrasonic oscillator and multi-frequency generator, and each ultrasonic oscillator is connected with multiple frequency ultrasonic wave oscillator,

The charging aperture of said extracted unit (2) is communicated with self-feeder (1) by pipeline, extract entrance is connected with the liquid outlet of modulating unit (4) by pipeline, extract outlet is connected with reflux pump (5) by pipeline, the inlet of the liquid outlet of reflux pump (5) and porous sample collection unit (7) over against, porous sample collection unit (7) is communicated with the inlet of modulating unit (4) and the entrance of separator (10) by pipeline, and the first outlet of separator (10) is communicated with the inlet of modulating unit (4) by pipeline, the second outlet is communicated with sample divider (11) by pipeline, is also provided with ultrasonic echo positioning detector (6), ultrasonic echo positioning detector (6) directly over porous sample collection unit (7), self-feeder (1), multiple frequency ultrasonic wave oscillator, pusher motor (2 ?8), deslagging motor (2 ?10), charging control valve (2 ?4), extract liquid inlet control valve (2 ?1), extract goes out hydraulic control valve (2 ?5), porous sample collection unit (7), separator (10), sample divider (11), modulating unit (4), extraction unit (2), reflux pump (5) is connected with controller (8) by wire respectively, and ultrasonic echo positioning detector (6) is connected with computer (9) respectively with controller (8).

2. multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device according to claim 1, is characterized in that: the cross section of described cavitation cylinder (2 ?6) is the regular polygon on 3～6 limits, and extracts cylinder (2 ?7) and coaxially arranges.

3. multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device according to claim 1, it is characterized in that: described ultrasonic oscillator group (2 ?3) contains 2～6 ultrasonic oscillators, the frequency of ultrasonic oscillator is 20～80Khz, and power is 100～1500W.

4. multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device according to claim 1 and 2, is characterized in that: described ultrasonic oscillator group (2 ?3) is even number, and the frequency of two relative ultrasonic oscillator groups (2 ?3) is identical.

5. multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device according to claim 1 and 2, is characterized in that: described ultrasonic oscillator group (2 ?3) is odd number, and the frequency of each ultrasonic oscillator group (2 ?3) is different.

6. multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device according to claim 1, it is characterized in that: described porous sample collection unit (7) is on fixed mount (7 ?2), to be provided with collection sample pipe (7 ?1) and timer (7 ?3), in the bottom of fixed mount (7 ?2), be provided with the stepper motor (7 ?4) that drives fixed mount (7 ?2) step-wise displacement, the inlet of clear liquid pump (7 ?5) and collection sample pipe (7 ?1) mouthful over against, liquid outlet is communicated with the inlet of modulating unit (4), the inlet of slag liquid pump (7 ?6) and collection sample pipe (7 ?1) mouthful over against, liquid outlet is communicated with the entrance of separator (10), stepper motor (7 ?4), timer (7 ?3), clear liquid pump (7 ?5) and slag liquid pump (7 ?6) are connected with controller (8) by wire respectively.

7. multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device according to claim 6, is characterized in that: described collection sample pipe (7 ?1) is 4 * n that is evenly distributed on same circumference, arbitrary integer that wherein n is 1～6.

8. multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device according to claim 1, is characterized in that: the center line of described Residue extraction pipeline (2 ?11) and the angle extracting between the center line of cylinder (2 ?7) are 15 °～45 °.

9. multiple-frequency supersonic cavitation aqueous two-phase closed circulation continuous extracting device according to claim 1, it is characterized in that: at the top of extracting cylinder (2 ?7), be processed with visual windows, on sound attenuation (2 ?2), be provided with visual windows over against monitoring unit (3), monitoring unit (3) is connected with controller (8), by data wire, is connected with computer (9) by wire.