US2731820A - Fiber treating tank - Google Patents

Fiber treating tank Download PDF

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US2731820A
US2731820A US2731820DA US2731820A US 2731820 A US2731820 A US 2731820A US 2731820D A US2731820D A US 2731820DA US 2731820 A US2731820 A US 2731820A
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tank
web
degumming
fibre
fibres
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    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01CCHEMICAL OR BIOLOGICAL TREATMENT OF NATURAL FILAMENTARY OR FIBROUS MATERIAL TO OBTAIN FILAMENTS OR FIBRES FOR SPINNING; CARBONISING RAGS TO RECOVER ANIMAL FIBRES
    • D01C1/00Treatment of vegetable material
    • D01C1/02Treatment of vegetable material by chemical methods to obtain bast fibres

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  • Figure 1A is a diagrammatic view of the layout of the apparatus necessary to practice the invention.
  • Figure 1B is a diagrammaticview of a modification of the apparatus Figure 1A;
  • Figure 1C is a diagrammatic view of additional apparatus used with that shown in Figures 1A and 1B;
  • Figure 2 is a sectional view of the web F2 of fibre on the line 2, 2, Figure 1;
  • Figure 3 is a sectional view of the web P3 of fibre on the line 3, 3, Figure'l;
  • Figure 4 is a sectional view of the web F4? on the line 4, 4, Figure 1-;
  • Figure 5 is a side View of a pile of webs F5 laid" on each other, as placed in the degumming-tank 14, Figure l, for treatment;
  • Figure 6 is a transverse. sectional view. on the line 6, 6, Figure 1B, of the degummingtank 15;
  • Figure 7 is a fragmentary, longitudinal, sectional View on the line 7, 7, Figure. 6, of thedegumming tank 15;
  • Figure 8 is. a fragmentary longitudinal view of' an alternate form of degumrningtank.
  • the apparatus will be described as used to process hemp fibre suitable for textiles.
  • this fibre is grown by the method described in the co-pending application, Serial Number 87,594, dated April 15, 1949, but the instant apparatus can be used with other fibres and with fibre grown in any known manner.
  • Raw, undegummed fibre F1 isfed in any suitable manner into any suitable. device such as the spreader 11, where the fibres are paralleled, lumpsandsnarls broken up and the fibres formed into a soft, fluffy web or bat which is discharged from the spreader via the forming nozzle 12.
  • bat or roving is approximately of circular cross-section and may have a diameter of 4 inches, as shown in Figure 2 and is designated as F2.
  • the web F2 is fed to any suitable compressing means, such as the rollers 13, whereby it is lightly formed or compressed and may begiven a rectangular or any other form. Where the web leaves these rollers it may be approximately 4 inches Wide and inch thick, and is designated as F3. This forming is merely to facilitate winding.
  • the web F3 is now fed to a suitable winding machine 14 where several hundred feet of it may be wound in layers, layer over layer, to form a web or bat which may be 4 feet wide and 6 inches thick, now designated as F4W.
  • the web F4 As the web F4 is discharged from the winder, it may be wound up on itself to form a coil weighing 500 to 1600 lbs. Burlap can be wound up with the coil to prevent the layers from entangling.
  • the web F4 may be fed directly to tank 15 or from the roll into the tank, or unrolled onto the floor alongside the treating or degumming tank 15 and cut into lengths that will fit lengthwise into said tank. These lengths may, for example, be 50 feet long and are piled on top of each other to form a composite bat that will be 50 feet long and 4 feet Wide and, if 5 layers are used, 30 inches thick.
  • This composite bat is designated F5 and, like the preceding webs or bats, is relatively long compared to its Width.
  • the degumming tank 15 is preferably made of stainless steel and has side walls 16, i7 and bottom 18, and end walls.
  • the tank forms a long, rectangular trough.
  • a perforated false bottom 19 Above the bottom 13 is a perforated false bottom 19 to which is secured standpipes 20 which may be 3 /2 inches in diameter spaced longitudinally about 22 inches apart and located in the center of the tank.
  • a steam supply pipe 21 Extending longitudinally of the tank, below the perforated bottom 19, is a steam supply pipe 21 provided with a plurality of vertical nozzles or jets 2-2, one for each of the standpipes 20.
  • the pipe 21 has a valve 23 for regulating the admission of steam thereto.
  • a length of the webFS' is now placed at each side 24, 25 of the longitudinal row of pipes 20 and, as-these bats are loose and fluffy, they are expandedso-as to fit longitudinally around said pipes to fill all of the space within the tank, the sides of which extend above the bats to form a free space 26 therebove. While the bat F has several layers of bat F4, it will be understood that because the fibres throughout lie loosely and parallel, that the layers merge and the bat F5 becomes one floating mass of fibre.
  • This floating mass has just sufficient strength longitudinally to enable it to be withdrawn from the tank endwise, as presently described. This eliminates the necessity of handling the bat while it is in the tank and it is never distended while undergoing treatment.
  • Sufiicient degumming fluid of any suitable character is introduced into the tank 15 via the fluid pipe 27 having a regulating valve 28 therein.
  • the fluid fills the tank and pipes up to the top of the latter, overflows and submerges the bats F5 therein, leaving the free space 26.
  • the steam pipes 22 may have horizontal side jets or perforations 29 therein, whereby steam is blown into the body of liquid in the space 30 to circulate same longitudinally along the bottom of the tank, but any other fluid circulating means may be employed. Jets 29 cause a thorough mixture of the degumming fluid and aid the vertical jets in maintaining said fluid at the proper temperature.
  • the upper ends of pipes 29 may be provided with overhead spray nozzles 32. These nozzles are swivelled on the pipe so they can be turned horizontally when filling the tank with fibres.
  • the liquid is fed to these nozzles via the longitudinal pipe 33.
  • the liquid will then be sprayed downwardly onto the bats F5, pass through the perforated bottom 19 and into the space 34 below same, where it is carried off via drainpipe 35 to a pump 36 which recirculates same via pipe 37, valves 38, 39 being open the while, and valves 40, 4& closed.
  • a normally closed charging valve 40 is provided for charging the tank with liquid. 40 is a normally closed valve for draining the system.
  • the bats F5 are shown as lying on the bottom 19, being compressed thereon by the sprays from the nozzles 32. This illustrates a Washing step which can be employed if desired in the method to be presently described.
  • the steam coils 41 are located as shown in the lower portion 34 of the tank to heat the fluid if desired.
  • Any of the tanks may be provided with a suitable cover 42, Figure 9, which is lifted off the tank in a manner that will be obvious, and the tanks may be provided with side shelves 43, 44, Figure 9, to facilitate loading.
  • the steam coil 4-1, Figure 9, may also be used with any of the tanks, Figures 7 to inclusive.
  • FIG. 10 another type of tank is shown.
  • the tank has a lower compartment 45, and a second compartment 46 within the dome 48, both compartments being below the false bottom 19 in communication with each other via holes 47 in the wall of dome 43.
  • the holes are of such size compared with pipes 20, that when the liquid in 46 is heated in any suitable manner, as by the gas burner 49, the liquid is ejected from the upper ends of pipes and percolates down through the bats F5.
  • the composite bats F5 made up of layers of F4 being submerged in the degumming liquid in any of the tanks previously described, will be in a loose fluffy condition, as throughout the preceding steps care has been taken to avoid as much as possible compressing or matting the fibres.
  • the fibres making up the bat are parallel and in a condition to floatmore or less individually-in the liquid.
  • the vertical circulation or percolation through the bats may be controlled so that the entire mass of fibres floats free and does not pack on the perforated bottom 19, the fibres separating and tending to float individually in one long floating mass, the fibres being surrounded on all sides by the degumming liquid so that uniform action is obtained, the exposure of the fibres to the liquid being the maximum obtainable.
  • the bats F5 remain in the boiling degumming liquid until the desired amount of gum has been removed from the fibre.
  • the length of time the bats remain in the liquid is dependent on the nature of the raw fibre, particularly in respect to the gum content and the nature of the degurnming liquid used.
  • the bats F5 may remain in the tank for an hour and forty-five minutes when known Castile soap degumming liquids are used at a temperature of approximately 212 degrees F.
  • the bats F5 having been treated as just described, may be withdrawn from tank 15 and passed through the wringer rolls 50 to remove surplus degumming fluid. They may then be fed via rollers 51 to a treating tank 52 in which they may be subjected to a second degumming bath (tank 52 being any of the previously described tanks) or to a plain rinse or boil-off, or any other desired treatment.
  • the bat F6 may be withdrawn from tank 52 by rollers 53 and delivered to any suitable type of washer such as the roll or squeeze washer 54, where the bat is given a final rinse in a suitable neutralizing solution or water.
  • the rolls 55 of the washer 54 are reversed at suitable inetrvals to squeeze the web from end to end as many times as is necessary.
  • the web F6 is removed from washer 54 and placed in a suitable centrifugal extractor 56 to remove the liquid therefrom.
  • the web, as it leaves the extractor, may be designated as F7.
  • the web F7 is now fed through any suitable dryer 57, and the finished web of degummed fibre leaving the dryer is now designated as F8.
  • the web F8 can be opened up and prepared for spinning by a picker, card or other suitable machinery.
  • valves 38 and 40 and open valve 40 to drain the degumming fluid. This permits the webs F5 to settle on the screen or perforated bottom 19, where they drain free from degumrning fluid.
  • Water is now admitted via valve 40 (or in any suitable manner) and, valves 38 and 39 being open, and valves 40 and 49 being closed, the water floats the webs as did the degumming fluid and same now float as previously described and are sprayed meanwhile by water from nozzles 32, said water be- 1ng circulated by pump 36 as previously described for the degumming fluid.
  • the water is gradually withdrawn from the system, the webs again sink and rest on the bottom 19, and the last of the water from sprays 32 percolated through the webs and flows away via valve 40.
  • the web may, by this means, be washed in the degumming tank and compacted by permitting it to. set- '5 tle on the screen 19.
  • The; compacted. web may. then be conveyed totank- 52 or direct to. the washer 54, or direct to the extractor or centrifuge-'6 or to dryer 57.
  • the web or bats F5 may, be pre-shrunk by the action of the degumming fluid or by the application of Water or other fluid thereto while in either tank 15 or 52.
  • a web F5 50 feet long, will shrink approximately 8 feet. That is to say, if the web F5 is approximately 50 feet long when dry, the Web F6 leaving the tank after treatment will be approximately 42 feet long. Therefore, the web may be degummed and the fibre pre-shrunk in the same operation.
  • the weight of a web F5 may be 500 pounds and after degumming, the weight of the web (now F6) will be approximately 350 pounds.
  • the apparatus herein described is suitable for processing fibre in a continuous process and is one capable of handling a large quantity of fibre.
  • the spreader 11 may discharge directly via nozzle 12 to the winder 14 to produce the roll of web F4W.
  • the winding machine 14 may produce the multi-layer web F5, or the web F4 may be fed to any suitable web forming and loop storage device 14WS, where the composite bat or web F5 is produced at a rate necessary to supply tank 15 as needed. From either of the tanks, the web F5 may be automatically fed to a suitable washer 54, extractor 56 and dryer 57.
  • each run by the instant method may handle 500 pounds or more in a single loading and unloading operation.
  • the tanks are loaded with fibres which are laid out or combed longitudinally in the direction of the length of the web and which readily separate laterally like strands of hair to permit the circulation of the degumming fluid.
  • No constant hand regulation of the liquid is necessary when treating such fibres, as the fibres float freely and are unrestrained.
  • the fibresin the present method not only float freely but the entire mass or web floats and is removed from the tank by a single operation, requiring a minimum of labor.
  • degumming tank 15 The second feature of importance herein disclosed isthe degumming tank 15 and its modifications.
  • Degumming tanks of the prior art required batch loading of the fibre in comparatively small lots (such as the tray method referred to above) and careful and continuous manual regulation of the flow of degumming fluid was necessary.
  • the long heavy web herein described may be used to advantage with many degumming devices, and while the tanks herein described may be used to advantage with smaller bats or even by filling them with loose fibre, the preferred method is a combination of the long heavy bat and applicants tank.
  • the term relatively long (as applied to the webs or bats F1 to F8 inclusive and their tanks) is hereby defined as meaning a hat or tank in which the length is at least 4 times the width. As an illustration, if the bat is 4 inches wide it will be at least 16 inches long, and if 4 feet wide, at least 16 feet long.
  • Fibre can be produced of any desired staple length by controlling the flow of degumming fluid through the fibre and regulating the time the fibre is subjected to the action of said fluid. This controls the amount of gum left in the fibre.
  • Fibre varies in specific gravity.
  • fibre of any given weight may be kept submerged in a floating position while the fluid circulates in a path perpendicular to the length of: the fibres.
  • the rate of flow of the liquid may be made to compensate for the difference in weight of the fibre.
  • Apparatus for treating fibres including an elongated tank; a perforated bottom above the bottom of said tank; a plurality of upstanding standpipes extending through said perforated bottom and in fluid communication with said tank below said perforated bottom; steam pipes extending into said standpipes, said steam pipes having longitudinally directed orifices at a point below said perforated bottom; and means connected to said steam pipes to supply steam thereto.

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  • Chemical & Material Sciences (AREA)
  • General Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Molecular Biology (AREA)
  • Wood Science & Technology (AREA)
  • Zoology (AREA)
  • Textile Engineering (AREA)
  • Treatment Of Fiber Materials (AREA)

Description

Jan. 24, 1956 A. Fl BURKARDT ET AL FIBER TREATING TANK 3 Sheets-Sheet 1 Original Filed July 6, 1949 /n van fors.
5mm- 24, W56 A. F. BURKARDT ET AL FIBER TREATING TANK 3 Sheets-Sheet 2 Original Filed July 6, 1949 In venfors.
Mr. w M I By fluwm m/M Altar/7 eys Jan. 1956 A. F. BURKARDT ET AL 2,731,820
FIBER TREATING TANK 5 Sheets-Sheet 6 Original Filed July 6, 1949 WM Mag Afforne J/s PEER TREATING TANK Anton F. Burkardt, New York, N. Y., and Edward H.
Boeglin, Washington, R. L, assignors to Sativa Corporation, a corporation of New Jersey Original application July 6, 1949, Serial No. 103,262. Divided and this application October 11, 1951, Serial No.250,848
1 Claim. (Cl. 68-207) This invention relates to a fiber treating tank for treating ramie, jute, flax, hemp-or any hast fibres; and this application is a division of the co-pending application Serial No. 103,262, filed July 6, 1949.
While many attempts have been made to improve the art of fiber treatment which resulted in the production of beautiful samples of yarn and fabrics, only moderate success was achieved in European countries while the efforts in the United States can be termed a complete failure.
The reason for this can be found in the following facts:
(1) The cost of degumming.
(2) The fibre produced under existing methods was uneven. Some strands of fibres were degumrned more or less than others, so that different quality of fibres were produced, making the spinning of the fibres into fine counts of yarns impossible.
(3) The methods employed in degumming these fibres could not be controlled so that fibres of certain staple length could be produced at will.
(4) Special machinery was required to prepare and spin these fibres. This was the main reason why textile mills had rejected these fibres as a basic raw material.
It is known that the packing of fibres caused some of these difficulties, and the provision'of trays into which limited quantities of fibre could befloated to overcome the packing while degumming has been used. Such methods, while overcoming some of the above difficulties, increased the labor cost to such an extent that this method has never become commercially practical.
The object of the apparatusherein disclosed in to overcome all the. above-mentioned difficulties and objections.
Other objects will more fully appear from a perusal of the following specification and accompanying draw ings, in which:
Figure 1A is a diagrammatic view of the layout of the apparatus necessary to practice the invention;
Figure 1B is a diagrammaticview of a modification of the apparatus Figure 1A;
Figure 1C is a diagrammatic view of additional apparatus used with that shown in Figures 1A and 1B;
Figure 2 is a sectional view of the web F2 of fibre on the line 2, 2, Figure 1;
Figure 3 is a sectional view of the web P3 of fibre on the line 3, 3, Figure'l;
Figure 4 is a sectional view of the web F4? on the line 4, 4, Figure 1-;
Figure 5 is a side View of a pile of webs F5 laid" on each other, as placed in the degumming-tank 14, Figure l, for treatment;
Figure 6 is a transverse. sectional view. on the line 6, 6, Figure 1B, of the degummingtank 15;
Figure 7 is a fragmentary, longitudinal, sectional View on the line 7, 7, Figure. 6, of thedegumming tank 15; and
Figure 8 is. a fragmentary longitudinal view of' an alternate form of degumrningtank.
nited States Patent Figures 9 and 10 illustrate alternate forms of degumming tanks.
For the sake of illustration, the apparatus will be described as used to process hemp fibre suitable for textiles. Preferably, this fibre is grown by the method described in the co-pending application, Serial Number 87,594, dated April 15, 1949, but the instant apparatus can be used with other fibres and with fibre grown in any known manner.
Raw, undegummed fibre F1 isfed in any suitable manner into any suitable. device such as the spreader 11, where the fibres are paralleled, lumpsandsnarls broken up and the fibres formed into a soft, fluffy web or bat which is discharged from the spreader via the forming nozzle 12.
At this stage in the process the. web, bat or roving is approximately of circular cross-section and may have a diameter of 4 inches, as shown in Figure 2 and is designated as F2.
It will be understood that the designations F1 to F6 inclusive referred to herein apply to the web or bat throughout and are used to indicate its condition as described at various stages during the processing.
The web F2 is fed to any suitable compressing means, such as the rollers 13, whereby it is lightly formed or compressed and may begiven a rectangular or any other form. Where the web leaves these rollers it may be approximately 4 inches Wide and inch thick, and is designated as F3. This forming is merely to facilitate winding.
The web F3 is now fed to a suitable winding machine 14 where several hundred feet of it may be wound in layers, layer over layer, to form a web or bat which may be 4 feet wide and 6 inches thick, now designated as F4W.
As the web F4 is discharged from the winder, it may be wound up on itself to form a coil weighing 500 to 1600 lbs. Burlap can be wound up with the coil to prevent the layers from entangling.
instead of winding the Web into a coil, it can be fed into a loop-storage or other device to store it temporarily while tanks 15 and 52 are in operation, as hereinafter described. Such loop-storage devices are well known and are not here shown in detail, but one is indicated at MWS and it will be understood that the webis fed into MWS, stored therein and fed out therefrom to tank 15.
The web F4 may be fed directly to tank 15 or from the roll into the tank, or unrolled onto the floor alongside the treating or degumming tank 15 and cut into lengths that will fit lengthwise into said tank. These lengths may, for example, be 50 feet long and are piled on top of each other to form a composite bat that will be 50 feet long and 4 feet Wide and, if 5 layers are used, 30 inches thick. This composite bat is designated F5 and, like the preceding webs or bats, is relatively long compared to its Width.
Referring to Figure 6, the degumming tank 15 is preferably made of stainless steel and has side walls 16, i7 and bottom 18, and end walls. The tank forms a long, rectangular trough. Above the bottom 13 is a perforated false bottom 19 to which is secured standpipes 20 which may be 3 /2 inches in diameter spaced longitudinally about 22 inches apart and located in the center of the tank.
Extending longitudinally of the tank, below the perforated bottom 19, is a steam supply pipe 21 provided with a plurality of vertical nozzles or jets 2-2, one for each of the standpipes 20. The pipe 21 has a valve 23 for regulating the admission of steam thereto.
A length of the webFS' is now placed at each side 24, 25 of the longitudinal row of pipes 20 and, as-these bats are loose and fluffy, they are expandedso-as to fit longitudinally around said pipes to fill all of the space within the tank, the sides of which extend above the bats to form a free space 26 therebove. While the bat F has several layers of bat F4, it will be understood that because the fibres throughout lie loosely and parallel, that the layers merge and the bat F5 becomes one floating mass of fibre.
This floating mass has just sufficient strength longitudinally to enable it to be withdrawn from the tank endwise, as presently described. This eliminates the necessity of handling the bat while it is in the tank and it is never distended while undergoing treatment.
Sufiicient degumming fluid of any suitable character is introduced into the tank 15 via the fluid pipe 27 having a regulating valve 28 therein. The fluid fills the tank and pipes up to the top of the latter, overflows and submerges the bats F5 therein, leaving the free space 26.
As shown in Figure 7, the steam pipes 22 may have horizontal side jets or perforations 29 therein, whereby steam is blown into the body of liquid in the space 30 to circulate same longitudinally along the bottom of the tank, but any other fluid circulating means may be employed. Jets 29 cause a thorough mixture of the degumming fluid and aid the vertical jets in maintaining said fluid at the proper temperature.
Instead of the construction shown in Figure 6 and Figure 7, the circulation of the liquid below the bats can be accomplished as shown in Figure 8, where the side or horizontal jets 31 fed from pipe 21 or a separate supply pipe 31a are alternately directed in opposite directions to cause what may be termed a sectionalized circulation of the liquid below the perforated bottom 19. Also, the
shown in Figure 9, the upper ends of pipes 29 may be provided with overhead spray nozzles 32. These nozzles are swivelled on the pipe so they can be turned horizontally when filling the tank with fibres. The liquid is fed to these nozzles via the longitudinal pipe 33. The liquid will then be sprayed downwardly onto the bats F5, pass through the perforated bottom 19 and into the space 34 below same, where it is carried off via drainpipe 35 to a pump 36 which recirculates same via pipe 37, valves 38, 39 being open the while, and valves 40, 4& closed.
A normally closed charging valve 40 is provided for charging the tank with liquid. 40 is a normally closed valve for draining the system. In Figure 9 the bats F5 are shown as lying on the bottom 19, being compressed thereon by the sprays from the nozzles 32. This illustrates a Washing step which can be employed if desired in the method to be presently described.
The steam coils 41 are located as shown in the lower portion 34 of the tank to heat the fluid if desired. Any of the tanks may be provided with a suitable cover 42, Figure 9, which is lifted off the tank in a manner that will be obvious, and the tanks may be provided with side shelves 43, 44, Figure 9, to facilitate loading. The steam coil 4-1, Figure 9, may also be used with any of the tanks, Figures 7 to inclusive.
Referring to Figure 10, another type of tank is shown. Here the tank has a lower compartment 45, and a second compartment 46 within the dome 48, both compartments being below the false bottom 19 in communication with each other via holes 47 in the wall of dome 43. The holes are of such size compared with pipes 20, that when the liquid in 46 is heated in any suitable manner, as by the gas burner 49, the liquid is ejected from the upper ends of pipes and percolates down through the bats F5.
The composite bats F5 made up of layers of F4 being submerged in the degumming liquid in any of the tanks previously described, will be in a loose fluffy condition, as throughout the preceding steps care has been taken to avoid as much as possible compressing or matting the fibres. As a result, the fibres making up the bat are parallel and in a condition to floatmore or less individually-in the liquid. As there is no cover or screen over the top of the bats in contact therewith, there is no way for the bats to be compressed thereby and same float in the body of liquid as it circulates through the bat or web.
By regulating the flow of liquid from pipes 20 or nozzles 32, the vertical circulation or percolation through the bats may be controlled so that the entire mass of fibres floats free and does not pack on the perforated bottom 19, the fibres separating and tending to float individually in one long floating mass, the fibres being surrounded on all sides by the degumming liquid so that uniform action is obtained, the exposure of the fibres to the liquid being the maximum obtainable.
The bats F5 remain in the boiling degumming liquid until the desired amount of gum has been removed from the fibre. The length of time the bats remain in the liquid is dependent on the nature of the raw fibre, particularly in respect to the gum content and the nature of the degurnming liquid used. By way of illustration, it will be pointed out that the bats F5 may remain in the tank for an hour and forty-five minutes when known Castile soap degumming liquids are used at a temperature of approximately 212 degrees F. Obviously, no exact figures can be given for the pressure for nozzles 22, 29 and 32, as that depends upon the degumming fluid used, room temperature, the character of the fibre and other variable factors, but this and the regulation of the whole degumming action which occurs in the tank is easily ascertained by a brief experience with any given installation. Once determined, the process can be repeated with uniform results.
The bats F5, having been treated as just described, may be withdrawn from tank 15 and passed through the wringer rolls 50 to remove surplus degumming fluid. They may then be fed via rollers 51 to a treating tank 52 in which they may be subjected to a second degumming bath (tank 52 being any of the previously described tanks) or to a plain rinse or boil-off, or any other desired treatment. The bat F5, when it leaves rollers 50, hangs together as though it were a woven fibre and is easy to handle and is now referred to as F6.
The bat F6 may be withdrawn from tank 52 by rollers 53 and delivered to any suitable type of washer such as the roll or squeeze washer 54, where the bat is given a final rinse in a suitable neutralizing solution or water. The rolls 55 of the washer 54 are reversed at suitable inetrvals to squeeze the web from end to end as many times as is necessary.
The web F6 is removed from washer 54 and placed in a suitable centrifugal extractor 56 to remove the liquid therefrom. The web, as it leaves the extractor, may be designated as F7. The web F7 is now fed through any suitable dryer 57, and the finished web of degummed fibre leaving the dryer is now designated as F8. The web F8 can be opened up and prepared for spinning by a picker, card or other suitable machinery.
Reference has been made to washing the web or bat F5 while in the tank 15, reference being made to Figure 9. To accomplish this it is necessary to close valves 38 and 40 and open valve 40 to drain the degumming fluid. This permits the webs F5 to settle on the screen or perforated bottom 19, where they drain free from degumrning fluid. Water is now admitted via valve 40 (or in any suitable manner) and, valves 38 and 39 being open, and valves 40 and 49 being closed, the water floats the webs as did the degumming fluid and same now float as previously described and are sprayed meanwhile by water from nozzles 32, said water be- 1ng circulated by pump 36 as previously described for the degumming fluid.
The water is gradually withdrawn from the system, the webs again sink and rest on the bottom 19, and the last of the water from sprays 32 percolated through the webs and flows away via valve 40.
The web may, by this means, be washed in the degumming tank and compacted by permitting it to. set- '5 tle on the screen 19. The; compacted. web may. then be conveyed totank- 52 or direct to. the washer 54, or direct to the extractor or centrifuge-'6 or to dryer 57.
The web or bats F5 may, be pre-shrunk by the action of the degumming fluid or by the application of Water or other fluid thereto while in either tank 15 or 52.
During the one and three-quarter hour treatment referred to, a web F5, 50 feet long, will shrink approximately 8 feet. That is to say, if the web F5 is approximately 50 feet long when dry, the Web F6 leaving the tank after treatment will be approximately 42 feet long. Therefore, the web may be degummed and the fibre pre-shrunk in the same operation. The weight of a web F5 may be 500 pounds and after degumming, the weight of the web (now F6) will be approximately 350 pounds.
It will be seen from the foregoing that the apparatus herein described is suitable for processing fibre in a continuous process and is one capable of handling a large quantity of fibre. The spreader 11 may discharge directly via nozzle 12 to the winder 14 to produce the roll of web F4W.
Instead of producing roll F4W and then unrolling it and building up bat F5, as previously described, the winding machine 14 may produce the multi-layer web F5, or the web F4 may be fed to any suitable web forming and loop storage device 14WS, where the composite bat or web F5 is produced at a rate necessary to supply tank 15 as needed. From either of the tanks, the web F5 may be automatically fed to a suitable washer 54, extractor 56 and dryer 57.
As suitable conveying mechanisms to carry the web through the various above-described steps are well known, they are not herein described in detail as such details form no part of the method and apparatus claimed herein.
It will also be observed that the inventive concept of forming the fibres into a long web or bat is most important as it enables hundreds of pounds of fibre to be simultaneously processed without hand labor.
Heretofore the practice has been to employ trays having perforated bottoms and stack one on the other, so as to form receptacles 6 to 7 inches deep, each tray acting as a perforated cover for the one below.
A few pounds of fibre is placed in each tray by hand, the individual fibres lying haphazardly and being uncombed and often snarled. The stack of trays is then immersed in degumming fluid which is circulated through the trays from top to bottom, the liquid being prevented from flowing laterally.
Obviously the mass of fibre in each tray is not free to float, as it is held either against the top or bottom of the tray, depending on the direction of flow of the fluid. To float so located requires constant watching and hand regulation of the fluid, which is commercially impossible.
The herein described method distinguishes from and is an improvement over the prior art method just described, in that there are no trays employed which need frequent cleaning and repair. Instead of hand loading and unloading small batches, each run by the instant method may handle 500 pounds or more in a single loading and unloading operation.
With the instant apparatus the tanks are loaded with fibres which are laid out or combed longitudinally in the direction of the length of the web and which readily separate laterally like strands of hair to permit the circulation of the degumming fluid. No constant hand regulation of the liquid is necessary when treating such fibres, as the fibres float freely and are unrestrained.
There is a current flowing in the tanks, as shown by arrows, Figure 6, which very slowly rotates the bat, thus repeatedly bringing the fibres from the bottom to 6 the top of the. tank, thusensuring thorough treatment of the. fibre.
The fibresin the present method not only float freely but the entire mass or web floats and is removed from the tank by a single operation, requiring a minimum of labor.
The second feature of importance herein disclosed isthe degumming tank 15 and its modifications. Degumming tanks of the prior art required batch loading of the fibre in comparatively small lots (such as the tray method referred to above) and careful and continuous manual regulation of the flow of degumming fluid was necessary.
Often some mechanical means of agitating the fibre to bring the degumming fluid into proper contact therewith was employed which snarled and often broke the fibres.
None of the prior art devices enabled fibres of the class herein described to be economically and efficiently degummed, as such devices required excessive hand labor for their operation, frequent loading and unloading and, mainly because the fibres were matted and uncombed when introduced into such tanks, produced non-uniform and unsatisfactory results.
While the long heavy web herein described may be used to advantage with many degumming devices, and while the tanks herein described may be used to advantage with smaller bats or even by filling them with loose fibre, the preferred method is a combination of the long heavy bat and applicants tank.
Other steps herein set forth may be carried out when desired by well known apparatus commonly employed for handling fibrous materials. However, applicants employment of these devices in the sequence claimed is new and useful and results in the production of treated fibre in large quantities at low cost by a continuous process.
In this specification and claims, the term relatively long (as applied to the webs or bats F1 to F8 inclusive and their tanks) is hereby defined as meaning a hat or tank in which the length is at least 4 times the width. As an illustration, if the bat is 4 inches wide it will be at least 16 inches long, and if 4 feet wide, at least 16 feet long.
Fibre can be produced of any desired staple length by controlling the flow of degumming fluid through the fibre and regulating the time the fibre is subjected to the action of said fluid. This controls the amount of gum left in the fibre.
Fibre varies in specific gravity. By controlling the flow of the degumming fluid, fibre of any given weight may be kept submerged in a floating position while the fluid circulates in a path perpendicular to the length of: the fibres. The rate of flow of the liquid may be made to compensate for the difference in weight of the fibre.
What is claimed is:
Apparatus for treating fibres including an elongated tank; a perforated bottom above the bottom of said tank; a plurality of upstanding standpipes extending through said perforated bottom and in fluid communication with said tank below said perforated bottom; steam pipes extending into said standpipes, said steam pipes having longitudinally directed orifices at a point below said perforated bottom; and means connected to said steam pipes to supply steam thereto.
References Cited in the file of this patent UNITED STATES PATENTS 112,275 Parker Feb. 28, 1871 300,010 Riley June 10, 1884 410,744 Sprague a- Sept. 10, 1889 473,266 Rusden Apr. 19, 1892 (Other references on following page) 7 UNITED STATES PATENTS Kershaw Nov. 29, 1904 Johnson June 26, 1906 Gruenstern July 14, 1914- Kluge Dec. 15, 1914 5 Milnes June 19, 1917 Donahue Apr. 16, 1918 Bonneau Apr. 3, 1928 Von Recklenghausen Mar; 7, 1939 Hinnekens Jan. 6, 1942 Fumess Aug. 11, 1942 FOREIGN PATENTS Great Britain Sept. 7, 1911 Great Britain June 26, 1936
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