US2547577A - Countercurrent extraction apparatus - Google Patents

Description

3 Sheets-Sheet 1 J. D. HAMACHER ET AL COUNTER'CURRENT EXTRACTION APPARATUS INVENTORJI Josgofi Q 6 E W 1 .0 ,1 T A N 3 QEN g E z whm Apri! 3, 1951 Filed July 22, 1946 April 3, 1951 J, D. HAMACHER ETAL 2,547,577

COUNTER-CURRENT EXTRACTION APPARATUS 3 Sheets-Sheet 2 Filed July 22, 1946 N MW QN MwNb I N V EN TORS I sepiz @oyieilamatfiemf y M150 W J& R0 I? 302 05 BY rm ATTORNEYS.

3 SheetsSheet 3 Q Kw Mm M w S MQNN J. D. HAMACHER ET AL COUNTER-CURRENT EXTRACTION APPARATUS w g N 5 \N April 3, 1951 Filed July 22, 1946 WITNESSES zz/wmye f Patented Apr. 3, 1951 COUNTERCURREN T EXTRACTION APPARATUS Joseph Doyle Hamacher and Roy Wilson Barns,

Detroit, Mich., assignors to Detrex Corporation,

Detroit, Mich, a corp oration of Michigan Application July 22, 1946, Serial No. 685,406

This invention relates to methods of solvent extraction or washing and also to apparatus suitable for carrying out such processes. More specifically, it is concerned with methods and apparatus useful in extracting oils and fats from divided materials containing or having such substances associated with them, for example, vegetable oils from crushed or flaked soya beans, corn germs (dry or wet process), milk weed seeds, copra, sunflower seeds, cotton seeds, peanuts, linseed, tung and other nuts, mustard seeds, etc; or animal fats from comminuted meats and bones. The chief aim of our invention is to make it possible to carry out such processes on a commercial scale by what may be termed a continuous batch procedure in which the extraction or washing is caused to take place without interruption in successive stages with the particles or flakes (as the case may be) of the material under gentle agitation and free to move about, some submerged and others afloat in the solvent liquid Claims. (CL 23-270 in each of the several stages for maximum exposure of their surfaces to the action of the solvent while being continually advanced through the apparatus, solvent being continually introduced into and transferred between adjacent stages so as to flow in the direction in which the material is progressed, and the contaminated liquid or miscella continuously withdrawn from the last stage, all with a View toward obtaining I a maximum yield of the entrained or associated oils or fats in the shortest possible time.

further aim of our invention is to provide a simple, relativel inexpensive and eflicient apparatus suitable for expeditiously carrying out extraction or washing under the above principle.

How the foregoing and other objects and advantages may be readily realized in practice will appear from the following detailed description and the attached drawings, wherein Fig. 1 is a fragmentary view in top plan of an extraction apparatus conveniently embodying our invention in one form.

Fig. 2 shows the apparatus in longitudinal section.

Figs. 3, 4 and 5 are detail cross sectional views taken as indicated by the angled arrows III-III, IVIV, and VV in Fig. 2.

Fig. 6 is a fragmentary broken out view in plan of the feed-in end of the apparatus drawn to a larger scale.

Figs. 7 and 8 are fragmentary views corresponding to Figs. 1 and 2 showing a modified embodiment. I

Figs. 9 and 10 are fragmentary views corresponding to Figs. 2 and 3 respectively showing another modification; and

Fig. 11 is a view corresponding generally like Fig. i:2 showing still another alternative embodimen In the form illustrated in Figs. 16, our improved extraction or washing apparatus comprises an elongate horizontal channel trough [5 which is made up of a plurality of alignedsections 16 and I! with abutting connecting end flanges i8 and I9. The longer component sections l6 of the trough are U-s'haped transversely as shown in Figs. 4 and 5, and provided with outwardly extending longitudinal flanges 2i) and 2i at their tops. Each shorter trough section 5'? is rounded at the bottom at one side as shown in Fig. 3 to correspond with the transverse contour of the sections is; and provided at that side with alongitudinal top flange 22 in continuation of the longi tudinal flanges if! of the sections it contiguous thereto, (Fig. 6). The smaller sections H are moreover laterally ofiset as at 23 with resultant formation of pockets having end and longitudinal flanges 2e, 25 in continuation of the longitudinal flanges 25 of the adjacent sections it. In practice the channel trough i5 may be constructed throughout from sheet metal and is closed byremovable cover plates 26 and 21 of like material removably secured over its component sections it and. l! respectively.

Within the trough I 5 is a rotary screw con- VeyerFZB which serves to advance the divided material undergoing extraction leftward in the trough, as indicated by the arrows in Figs. 1 and 2, in flowing solvent liquid, said conveyer having itsshaft 29 extending out through a fluid-tight bearing 36 in the r ht-hand end wall 3i of said. trough for connection to a suitable drive means '(not illustrated). As shown, theconveyer 28 hassolid thread segments 32 respectively within the confines ofcontiguous trough sections 16, ii, and relatively short intervening voids 3i immediately ahead of thepockets 23 of thetrough 15 as considered'with respect to the direction of the advance of the material, except at the very lefthand end of the trough where thesegment 32 at that region is continued beyond the pocket.

Fitting into theofiset pockets 23 of the trough sections II are removable filter orstrainer units 35 each of which, as best seen from Figs. 3 and 6,

comprises aframe 36 fashioned from sheet material and having attached to it a curvedflexible screen diaphragm 31 preferably of relatively fine wire mesh with which the forward end portion of ascrew segment 32 ofthe conveyer wipes as the latter rotates. Springs shown at 38 in Figs. 3 and 6 press against thefilter units 35 so that the screens 3? are caused to yieldingly hug the conveyer threads. As a consequence of this construction and arrangement, extraction is caused to take place in a manner hereinafter set forth in successive stages within the limits of the divisions indicated by the brackets 40, 4|, 42 and $3 in Fig. 2.

.' The divided material to be processed in the apparatus is constantly fed into the extraction trough ii at the nightehand end inliigs. 1 and 2 through theinclined delivery spout 45 of an overhead supply hopper 56 under control of a rotary screw 41 for advance in said trough by theconveyer 28 from right to left, as previously pointed out.

The liquid solvent used in the extraction is continually introduced into the trough l5: near the left-hand end thereof at thebeginning of thelast stage 43 of the series, by way of apipe 48 which leads from a suitable source of supply (not shown), and the contaminated liquid is withdrawn from the screen pocket at theterminal end of that stage through anoverflow stand pipe 49, by arotary pump 50, which, through a heltconnection 5.1 is driven from an electric mo.-tor 52. By the action of the pump 5!], the iquid so withdrawn is delivered. through anotherpipe 53 which discharges into the trough at the beginning of thethird subdivision 42. By similar duplicated pump means 55,-and 56. liquid is con.- stantly transferred from the rear end of: thethird stage 62 to the second subdivision Al throughpipes 51 and 58, and from the second subdivision M .to the first subdivision .40. throughpipes 59. and so. In thelast subdivision 43, theconveyer 23 has a solid thread end portion 61' which delivers the processed material into a sumpiil at the bottom of a vertical housing 63 which encloses anendless chain 55 withdrain buckets 66 by which the material is elevated to a horizontal screw 61 for transfer to adrier or other. apparatus for further treatment. The miscella or oil-laden solvent overflows from the screen pocket 2 3. at the first extractionsubdivision All; by way of thestandpipe 58 at that region into acollecting receptacle 69 beneath the trough [5. From the receptacle [5, the liquid may be transferred, by a suitable pump means (not shown), to a still or the like for separationof .the extractedmatter from the solvent and for recovery and purification of the solvent for reuse in the apparatus.

op rat o o the pr e o rati n o th para s it is to be understood that the rate of infeed of the divided material from-the supply hopper 4 6,, the rate of withdrawal of. the processed material by thebucket conveyer 16 5, and the rotative speed of the screw conveyer 2 8 in the trough J5 are all so regulated and controlled that the particles are free to move about in the solvent within several extraction subdivisions 49-43 for maximum ex- .posure of their-surfaces to the action of the solvent whereof the level is at all times maintained at, or neaigthe top ofthescrevv conveyer threads as determined by the standpipes in theseveral screen pockets 23. The dividedmaterialis advanced leftward in the first extraction subdivision is by the action of the rigid thread segment '32 of thescrew conveyer 28 in said sub.- division with the solventuntil it reaches theend of said segment where it accumulates and piles up as indicated at 10 ahead of the first screen 3] due to thevoid 34 there in the conveyer screw, with consequent formation of a dam of the material which will prevent direct flow of solvent from said first extraction subdivision intothe-sec- 0nd subdivision M. In a like manner similar dam piles will be formed and maintained at H- and i2 beyond the remaining screen-pockets (the lastone excepted) in the directionof progression of the material in the trough I5 and so prevent direct flow ,of solvent between .the second and 4 third extraction subdivisions 4|, 42 and between the thirdandlast extraction subdivisions 42 and 43. In each extraction stage, the solvent moves along in the same direction with the material :being extracted, the fresh solvent being introduced at. the beginning of the fourth or last stage i3, and, after having traversed that stage, is transferred to the beginning of the immediately precedingstage 42 and so on throughout the length of the trough l5 until it is finally drained off as miscella from the rear end of the first stage. By-reason of being circulated in this way, the solvent liquid gains in oil content as the stagewise extraction proceeds. Accordingly, we are able to obtain maximum yield of the extract iromth -ma r al cont nu us y and xpe tiovs theleached material being removed without -in-. rr n io after disch r e from thedeii e y-e id of the extractiontrough l5 by theelevator 5 and the screw 6;! at the top of the elevator house ne u to be eont n efl w ed v th nv e r ds. t e sc ee d a hra m-31am kept clear of adhering particles or flakes of the material so that the solvent can freely pass through them with assurance against interrup; tion of solvent flow in any of the several extraort on s bdi sion ln-th e diment i l str te n Figs. and 8, rearwardly and upwardly inclined plates 'ljare placed in theextraction trough 15a, toassist'zin h rmat o an ma ten ne Q th dam illlc,

Ha, immediately beyond the filter sections lilov in h d r o o th ge a advanc of. th divided solid material in the apparatus. As shown, the plates [5 are suitably configured'to fit the, troughbottom whereto they areweldedor o e wis sec red and r ch up to a level of or. above the screw shaft :29a,-i. e., somewhat-below the top f the conveyer thread so that the material can be floated: over them-being cut out centrally of their .tops as at 15 to clear said screw shaft. In all other respects, the construction :here is exactly like that of the first embodiment. wherefore, in order-to preclude the .necessityfor repetitive description, the corresponding parts not specifically referred to are identified by the same reference characters previously used except for the addition in each instance of the letter a for convenience of more ready distinction. Inoperation, theinclined plates 15 offer suflicient resistance to too rapid advance of the flaked material to insure piling at the indicated regions without preventing progression of the flakes-ina free and unrestricted state in the solvent between dams. The modified arrangement is particularly advantageous in connection with the treatmentof finely divided materials such as soya bean or nut flakes.

The modified construction illustrated in Figs. 9 and 10 is in turn generally similar to that of the first described embodiment except in that the conveyer segments 321) have interposed in them spiral portions 11 composed of brush bristles to .wipe against the screens 31b in the-filter pockets. The brush bristles may be of any suitable flexible material such as tampico, nylon, or stainless non-corrosive material. Another difference will be noted here, in the construction of thefilter unit 35b which has the formof a box entirely of' screening with an open rear end stiifened by a .perimetric re-enforc ing band-3615 and is provided with stops, such as the one in dicated at 1.8, which limit movement of the-unit inwardly toward a brush portion H of theconveyer 28b under the pressure of springs 38b.

In the alternative embodiment of our invention illustrated in Fig. 11, the extraction trough d is inclined somewhat in respect to the horizontal, i. e., slopes upwardly from the right-hand or feed-in end of the apparatus at thematerial supply hopper 46d to the delivery end at the elevator housing 63d. The construction of the screw conveyer 28d is identical with that described in connection with the embodiment shown in Figs. 1 and 2 and is operative to form dams 79d, 'Hd etc, for establishment of the successive extraction stages ied, did, @201 and 43d. Due to the slope of the trough I50, we are here able to dispense with the use of pumps in the piping 5301, 5801 and 690'. by which solvent is transferred between adjacent extraction stages through gravitation. It is to be particularly noted that the liquid level in the respective extraction stages is determined by the standpipes in the corresponding screen pockets 2301. Here as in the other embodiments the advance of the material in the trough 15d is from right toward the left, and the flow of the solvent directionally with the material in each extraction stage. It is to be understood that the modified constructions featured in Figs. 7, 8 and in Fig. 9 may be incorporated in the alternate embodiments of Figs. 1 and 11 if found desirable or necessary.

In all cases the solvent used will depend upon the character of the material which is to be processed. For the purposes of oil or fat extraction, hydrocarbon solvents, for example, trichlorethylene or trichlorethane, may be employed to advantage in carrying out our improved method in apparatus such as hereinbefore disclosed. In addition to the several instances already mentioned, the apparatus may also be utilized in the extraction treatment or washing of other materials including asphalt paper and metal powders.

While for convenience of illustration herein, we have shown apparatus with four extraction stages or subdivisions, the invention is not to be regarded as so limited since the number of stages may, within the scope of the appended claims,

be increased or decreased to suit special cases or in accordance withthe degree of thoroughness which is to be attained in the extraction or leaching.

' Having thus described our invention, we claim:

1, In solvent extraction apparatus, 'a substantially horizontal elongate round-bottomed extractor chamber containing treating liquid; a conformative screw conveyer in the chamber with a solid thread portion and a thread portion in continuation of the solid thread portion formed of bristles for advancing divided solid matter in the liquid; a filter pocket laterally offset from the chamber adjacent the bristle portion of the conveyer; and a filter unit in said pocket comprising a screen and ashiftable supporting frame therefor, and spring means influential upon the frame to maintain the screen yieldingly engaged with the bristle portion of the conveyer.

2. In solvent extraction apparatus, a substantially horizontal elongate extractor chamber containing treating liquid; a series of conformative screw conveyer sections in the chamber for advancing divided solid matter in the liquid, each such conveyer section comprising a solid thread portion and a thread portion of bristles in continuation of the solid thread portion; and spring regulated filter units adjacent the bristle portions of the conveyer sections.

3. In solvent extraction apparatus, a substantially horizontal elongate round-bottomed extractor chamber containing treating liquid; a. series of conformative screw conveyer sections for advancing divided solid matter in the liquid, each such conveyer section comprising a solid thread portion and a thread portion of bristles in continuation of the solid thread portion; filter pockets laterally offset from the chamber adjacent the bristle portions of the respective conveyer sections; and spring regulated filter units' in the respective pockets.

4. In solvent extraction apparatus, a substantially horizontal elongate round-bottomed chamber containing treating fluid; means for continually introducing divided solid matter into the chamber at one end and for continually removing it from the other end; a conformative rotary screw conveyer in the chamber for advancing the material in the liquid, said conveyer having a series of sections comprising solid thread portions t their front ends as considered with respect to the direction of advance of the material in the apparatus, and spirally continuing thread portions at their rear ends formed of bristles, and said conveyer sections being separated by voids whereat dam piles of the material are formed and constantly maintained to set apart a series of individual extraction subdivisions in the chamber; filter units with screens bearing against the brush portions of the respective conveyer sections; and means for continually drawing liquid from the filter unit of one subdivision and continually discharging it into the front end of a preceding subdivision of the series.

5. In solvent extraction apparatus, a substantially horizontal elongate round bottomed chamber containing treating fluid; means for continually introducing divided solid matter into the chamber at one end and for continually removing it from the other end; a conformative rotary screw conveyer in the chamber for advancing the material in the liquid, said conveyer having a series of sections comprising solid thread portions at their front ends as consideredwith respect to the direction of advance of the material in the apparatus, and spirally continuing thread portions at their rear ends formed of bristles, and said conveyer sections being separated by voids whereat dam piles of the material are formed and constantly maintained set apart a series of individual extraction subdivisions in the chamber; filter units with screens bearing against the brush portions of the respective conveyer sections; and means for continually introducing fresh liquid into the rear end of the last subdivision of the series and for continually discharging it from the rear end of the first subdivision of the series.

JOSEPH DOYLE HAMACHER.

ROY WILSON BARNS.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 554,960 Scott Feb. 18, 1896 979,362 Wiegand Dec. 20, 1910 1,628,787 Kennedy May 17, 1927 2,181,404 Koppity Nov. 28, 1939 2,227,605 Swallen Jan. 7, 1941 2,273,557 Bonotto Feb. 17, 1942 r 2,355,091 McDonald Aug. 8, 1944 2,447,845 Dinley Aug. 24, 1948

Claims (1)

1. IN SOLVENT EXTRACTION APPARATUS, A SUBSTANTIALLY HORIZONTAL ELONGATE ROUND-BOTTOMED EXTRACTOR CHAMBER CONTAINING TREATING LIQUID; A CONFORMATIVE SCREW CONVEYER IN THE CHAMBER WITH A SOLID THREAD PORTION AND A THREAD PORTION IN CONTINUATION OF THE SOLID THREAD PORTION FORMED OF BRISTLES FOR ADVANCING DIVIDED SOLID MATTER IN THE LIQUID; A FILTER POCKET LATERALLY OFFSET FROM THE CHAMBER ADJACENT THE BRISTLE PROTION OF THE CONVEYER; AND A FILTER UNIT IN SAID POCKET COMPRISING A SCREEN AND A SHIFTABLE SUPPORTING FRAME THEREFOR, AND SPRING MEANS INFLUENTIAL UPON THE FRAME TO MAINTAIN THE SCREEN YIELDINGLY ENGAGED WITH THE BRISTLE PORTION OF THE CONVEYER.

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