US3120050A - Method for treating continuous running materials - Google Patents

Description

Feb. 4, 1964 coc m I 3,120,050

METHOD FOR TREATING CONTINUOUS RUNNING MATERIALS Original Filed June 12, 1958 3 Sheets-Sheet l INVENTOR.

Ja/m 000/723.

By @314 6 0i ATTORNEYS.

Feb. 4, 1964 J. cocKER 111 3,120,050

METHOD FOR TREATING CONTINUOUS RUNNING MATERIALS Original Filed June 12, 1958 3 Sheets-Sheet 2 .F Z. 63 I 3 69 f If?" WIIIIIIIZ'iiIIIIIIIIIII;illlIllll 9 \o i 1| "1 21 FJCid- 8 VII 1/ 1m IN V EN TOR. Jab/7 flav/Tegfi A TTORNEYS.

J. COCKER m 3,120,050

METHOD FOR TREATING CONTINUOUS RUNNING MATERIALS Feb. 4, 1964 3 Sheets-Sheet 3 Original Filed June 12, 1958 III 5 INVENTOR. Jafi/i lm'fimfl. "15621 ATTORNEYS.

United States Patent 3,12%,050 METHOD FQR TREATKNG (JONTKNUOUS RUNNING MATEREALS John Corker Ill, Gastonia, N.C., assignor to Cooker Machine & Foundry (Zompany, Gastonia, N.., a corporation of North Carolina Original application June 12, 1958, Ser. No. 741,683, new Patent No. 3,tl36,35, dated May 29, 1962. Divided and this application Oct. 26, 1961, Ser. No. 147,999

7 (Ilaims. (Cl. 28--72-.6)

This invention relates to methods for treating continuous running materials such as yarn, fabrics, and the like, with liquids such as sizing, dyes, resins, rinses, fixers, etc. More particularly this invention relates to methods for treating elongated textile materials in a variety of forms and sequences.

In the manufacture of woven fabrics preparatory to introducing the yarn into a loom, the yarn is passed through a slasher with many ends in contiguous parallel relation. The yarn is thereby impregnated and coated with size, such as starch or the like, in order to make the yarn sufficiently strong to withstand the strains imposed by the heddle in the loom and resistant to the abrasive action of filler yarns during the weaving operation. The particular kinds of size treatment which it may be desirable to apply to the yarn depends upon the type of textile being treated, weight of the yarn, subsequent use to which the yarn will be put, as Well as the physical characteristics of the textile itself. For example, it may be desirable to have a quetsch roll arrangement provide a single nip for rayon yarn, a double nip for a textile such as cotton, or even three or four nips for materials such as stretchable tire cord.

Heretofore the conventional arrangement of quetsch rolls in a slasher apparatus has consisted of two pairs of horizontally aligned quetsch rolls, each quetsch roll consisting of an upper press roll and a lower fixed roll. In such an arrangement, however, it is not possible to vary the treatment beyond an adjustment of the pressure between the quetsch rolls.

Accordingly, it is an object of this invention to provide a method of treating elongated textile materials whereby the material is subjected to multiple nips in a variety of forms and sequences.

It is another object of this invention to provide a method of treating elongated textile materials wherein the treated materials may be stretched or not according to the desired treatment.

Further objects will become apparent from a considera tion of the following description and the accompanying drawings, wherein:

FIG. 1 is a side elevational View, with parts in longitudinal section, of an apparatus for treating textile materials in accordance with this invention;

FIG. 2 is a view similar to FIG. 1, showing a different arrangement of parts;

FIG. 3 is a view in cross-section of the apparatus taken as indicated by the lines and arrows III-III which appear in FIG. 1;

FIG. 4 is a plan view of the apparatus taken as indicated by the lines and arrows IVIV which appears in FIG. 1;

FIG. 5 is a side elevational view with parts in longitudinal section of an apparatus similar to FIG. 1 but provided with a modified form of driving means, and with the parts arranged in different relative positions.

The following description is directed to the specific forms of the apparatus and method as shown in the drawing and is not intended to be addressed to the scope of the invention itself which is capable of being practiced in a wide variety of forms and arrangements.

Adverting herewith to the specific form of the apparatus as shown in FIGS. 1-5 of the drawings, a lower rotatable quetsch roll 26 is journalled in suitably packed bearings 30 and 31 mounted on the top of opposite Walls of a trough 21. Likewise another lower rotatable quetsch roll 28 is journalled in bearings 32 and 33 similarly mounted. Although lower quetsch rolls 26 and 28 are rotatably mounted they are otherwise journalled in stationary bearings. As best seen in FIG. 3, an upper rotatable quetsch roll 29 is journalled in vertically movable blocks 34 and 35 which are themselves positioned in vertical slots 36 and 37 within the vertically movable bearings 38 and 39 respectively. Movable blocks 34 and 35 are capable of reciprocating movement within the vertical slots 36 and 37, said movement being actuated by the pressure of fiuid in the pneumatic cylinders 4-2 and 43 upon pistons 44 and 45 connected by rods 46 and 47 to the aforesaid movable blocks 34 and 35 respectively. An inlet tube 50 is provided to permit the entry of fluid into pneumatic cylinder 43 under pressure, forcing piston 45 and its connecting rod 47 downwardly and causing quetsch roll 29 to be pressed firmly against its opposing lower quetsch roll.

Movable bearings 38 and 39 are slidably attached to sliding frames 52 and 53 respectively. The aforesaid sliding frames are fitted in position between channel bars 54 and 55 and angle bars 56 and 57 respectively. Channel bars 54 and 55 are supported by posts 58 and 59 respectively to which are also bolted wall frame members 62 and 63 which support trough 21. Bolted to the slidable frame 53 is a fixed block 64 having a threaded hole through which passes screw 65. Screw 65 extends through a threaded hole in another fixed block 65 bolted to the end of channel bar 55. A manual wheel 67 is provided for the turning of the screw 65 to force the movement of slidable frames 52 and 53 backward or forward in a horizontal direction which in turn forces the two upper quetsch rolls 27 and 29 to roll over the two lower quetsch rolls 26 and 28 into a selected position. The horizontal movement of quetsch rolls 27 and 29 is accompanied and facilitated by a vertical movement of the same quetsch rolls which is made possible by the movement of guide members 68 and 69 along curved guide stops such as 70 and a similar curved stop 71 and another guide member not illustrated. In like manner guide member 73 moves along the curved guide stop 72 and another curved guide stop not illustrated, as quetsch roll 27 rolls across the upper periphery of quetsch roll 26, see FIG. 1.

As best seen in PEG. 4- the shafts of quetsch rolls 2.6 and 28 extend through channel bars 55 and afiixed to their ends is a sprocket wheel arrangement in which a chain 84 driven by the motor M is arranged to pass around a sprocket wheel 76 affixed to the end of the shaft 77 of the quetsch roll 26. Sprocket wheels 81 and d2 of equal size are affixed respectively to the ends of shafts 77 and 73 of quetsch rolls 26 and 28. Passing around these sprocket wheels is another drive chain 83.

FIG. 5 illustrates a modification of the apparatus according to this invention in which the shaft 78 of quetsch roll 28 has afiixed thereto a sprocket wheel of smaller dimension than the sprocket wheel 31 affixed to the shaft 77 of quetsch roll 26. A chain 84 extends from the motor M to pass around sprocket 76 afiixed to the shaft 77 of quetsch roll 26 by means of which said roll is rotated in a clockwise direction. Another chain 83 passes around a second sprocket wheel 81 affixed to the end of shaft '77 of quetsch roll 26 and also around a sprocket 85 of smaller diameter which is afiixed to the shaft 78 of quetsch roll 28. The revolution of shaft 77 thereby communicates a rotary motion to shaft 78. As a consequence of the fact that sprocket wheel 85 is of smaller dimension than sprocket wheel 31, the rotation of shaft '78 will be more rapid than the rotation of shaft 77.

In accordance with the method of this invention, when the quetsch rolls are positioned as in PEG. 1 of the drawingS, the textile material T is drawn over a lead-in roll 20 to enter the trough 21 in which a treating liquid is normally maintained at level L. After entering the treating liquid in trough 21 at level L the material T rounds immersion roll 25 to travel upward through the treating liquid until it emerges again at level L. Upon emergence the materal T rounds lower quetsch roll 26 to travel downwardly between lower quetsch roll 26 and its cooperative upper quetsch roll 27; it then rounds cooperative roll 27 to pass upwardly between upper quetsch roll 27 and its cooperative lower quetsch roll 28; rounding quetsch roll 28 the material passes downwardly once more between lower quetsch roll 28 and its cooperative upper quetsch roll 29, whence the material passes to a dryer, not shown.

When the treating liquid is a size solution the effect of a squeeze between quetsch rolls 26 and 27 is that of a slop size, that is, the size material squeezed out of the material collects and forms a smallpool just above the point where the quetsch rolls 26 and 27 touch, thus, in effect, treating the material to an additional bath in the size solution and tending to press the size more fully into the textile being treated. When the textile later passes between quetsch rolls 27 and 28 it is afforded a drain size so that the sizing liquid pressed from the textile drains back into the trough 21 instead of collecting in a pool between the two rolls. When the textile still later passes between quetsch rolls 28 and 29 the effect is that of a dressing action to smooth out the coating of size material and to make the impregnation more uniform.

In accordance with the method of this invention as shown in FIG. 2, the material T, after emergence from the treating medium, passes upwardly between lower quetsch roll 26 and upper quetsch roll 27, around quetsch roll 26 and then downwardly between lower quetsch roll 26 and upper quetsch roll 29; it then passes around quetsch roll 29 to travel upwardly again between upper quetsch roll 29 and lower quetsch roll 28, whence it passes to a dryer not shown.

It will be seen that the effect of the quetsch roll arrangement in FIG. 2 is to afford a drain size as the material T passes upwardly between quetsch rolls 26 and 27; a slop size is affected upon the textile when it passes downwardlly between quetsch rolls 26 and 29, and finally the textile is given an additional drain size when it passes between quetsch rolls 28 and 29 in an upwardly direction.

In accordance with the method of this invention as illustrated in FIG. 5, the material T, after emerging from the treating liquid, passes upwardly between quetsch rolls 26 and 27 and then passes again in an upwardly direction between quetsch rolls 28 and 29 at which point it passes on to a dryer not shown. In this arrangement the textile is given first a drain size and is then subjected to another drain size in the nature of a dressing action.

When upper quetsch rolls 27 and 29 have been moved longitudinally by means of manual wheel 67 to a position in which the axes of upper quetsch roll 27 and of upper quetsch roll 29 are directly above the axes of lower quetsch roll 26 and lower quetsch roll 28, respectively, the guide members 69 and 73 have reached their maximum height along the guide stops 71 and 72. When quetsch rolls 27 and 29 have been placed in this position, fluid may then be admitted to pneumatic cylinders 43 and 48 through inlet tubes 50 and 75, forcing downward pistons 45 and 96 to press quetsch rolls 27 and 29 firmly against their cooperative quetsch rolls 26 and 28 respectively. From this position by turning the manual wheel 67 upper quetsch rolls 27 and 29 may be moved in either direction longitudinally across the trough to effect other desired arrangements of the rolls while maintaining a constant pressure by means of the four fluid cylinders as adjusted in the initial vertical positions described. To release the pressure of the upper quetsch rolls 27 and 29 against the lower quetsch rolls 26 and 28, a valve (not shown) is opened in inlet tube 50 to permit the release of fluid pressure on the top of the piston 45 in cylinder 43 which t of quetsch rolls 27 and 29 by frictional contact.

will serve as an example to illustrate the operation of each of the four cylinders, and another valve associated with inlet tube 51 is opened to admit fluid under pressure into the cylinder forcing the piston in an upward direction.

For example where it is desired to change the quetsch roll arrangement from that in FIG. 1 to that in FIG. 2 the pressure in the four fluid cylinders attached to the movable blocks bearing the shafts of quetsch rolls 27 and 29 may be reversed by opening the inlet tubes in the tops of the cylinders and admitting fluid under pressure through the inlet tubes in the bottom of the cylinders effecting a lifting motion on the pistons in the cylinders and thereby releasing the pressure of quetsch rolls 27 and 29 against quetsch rolls 26 and 28. By means of manual wheel 67 the movable frame 53 is cranked forward and quetsch rolls 27 and 29 roll over the tops of quetsch rolls 26 and 28 which motion is permitted in a vertical direction by the vertical movement of the bearings in which the movable blocks are positioned. When the guide members 69 and 73 reach the opposite side of the guide stops 71 and 72 the rolls have then been positioned as in FIG. 2. Pressure may then again be reversed in the cylinders to force quetsch rolls 27 and 29 down firmly against the peripheries of quetsch rolls 26 and 28.

Lower quetsch roll 26 is driven from its shaft by the chain drive 84 which is connected to the motor M and passes around sprocket wheel 76. Lower quetsch roll 28 is similarly driven by a chain 83 which passes around sprocket wheels 81 and 82 afiixed to the shafts 77 and 78 of quetsch rolls 26 and 28 respectively. Quetsch rolls 26 and 28 rotate at the same speed therefore, since sprocket wheels 81 and 82 are of equal size.

Since the fluid pressure in the four pneumatic cylinders associated with the upper quetsch rolls 27 and 29 acts to press said quetsch rolls down firmly upon the peripheries of lower quetsch rolls 26 and 28 the rotation of the two latter quetsch rolls also causes the rotation It will be noted that in FIG. 1, since both quetsch rolls 26 and 28 rotate in a clockwise direction, the effect of said rotation is to impart a counter-clockwise rotation to quetsch roll 27 which is in contact with both quetsch rolls 26 and 28, and a similar rotation to quetsch roll 29 which is in contact with quetsch roll 28 alone.

In the modification illustrated in FIG. 5 when the quetsch roll 26 is rotated by the chain drive 84 passing around the sprocket 76 aflixed to the shaft 77, its clockwise rotation imparts a counter-clockwise rotation to the quetsch roll 27 by means of frictional contact. Likewise the clockwise rotation of the chain driven lower quetsch roll 28 imparts a counter-clockwise rotation to upper quetsch roll 29 by peripheral contact. Since as hereinbefore described the sprocket 85 afiixed to the shaft 78 of quetsch roll 28 is of smaller diameter than the sprocket 81 aflixed to the shaft 77 of quetsch roll 26, quetsch roll 28 is driven at a rate of speed greater than that of quetsch roll 26, and, of course, the rotation of upper quetsch roll 29 is more rapid than that of upper quetsch roll 27. The modification as described is useful in those cases where it is desirable to effect a stretching of the textile during the sizing operation.

It will be apparent that an important advantage of the method of treating textile materials as provided in accordance with this invention lies in the number and varieties of treatment which may be affected on many different kinds of textiles.

This application is a division of my co-pending application Serial No. 741,683, filed June 12, 1958, now US. Patent No. 3,036,359.

Although this invention has been disclosed with reference to specific forms and embodiments thereof, it should be evident that a great number of variations may be made without departing from the spirit and the scope of this invention. For example, parts may be reversed,

equivalent elements may be substituted for those specifi cally disclosed and certain features of the invention may be used independently from other features, all without departing from the spirit and scope of this invention as defined in the appended claims.

Having thus described my invention, I claim:

1. In a method of sizing yarn, the steps which comprise continuously passing said yarn beneath the surface of the sizing liquid bringing said yarn above the surface of said liquid, squeezing said yarn while passing said yarn downwardly so that the yarn is immersed in its own sizing liquid while it is being squeezed, then squeezing said yarn at a location remote from the first squeezing location while said yarn is passing upwardly thereby draining size liquid from said yarn as it is being squeezed, and then again passing said yarn downwardly and squeezing said yarn while it is moving downwardly.

2. In a method of sizing yarn, the steps which comprise continuously passing said yarn beneath the surface of a size liquid, bringing said yarn upwardly above the surface of said liquid and squeezing said yarn while it is moving upwardly, thereby draining the liquid from said yarn as it is being squeezed, then passing said yarn downwardly and squeezing said yarn in the liquid expressed from the yarn in the squeezing operation, and then again squeezing said yarn as it passes upwardly, permitting the liquid to drain from the yarn as it is being squeezed.

3. In a method of sizing yarn, the steps which comprise continuously passing said yarn beneath the surface of the sizing liquid, bringing said yarn above the surface of said liquid, squeezing said yarn while passing said yarn downwardly between a pair of squeeze rolls arranged so that the yarn is immersed in its own sizing liquid while it is being squeezed, then squeezing said yarn at a location remote irorn the first squeezing location while said yarn is passing upwardly between a pair of squeeze rolls arranged so that the size liquid drains from said yarn as it is being squeezed, and then again passing said yarn downwardly between a pair of squeeze rolls and squeezing said yarn while it is moving downwardly.

4. The method defined in claim 3 wherein the axes of said pairs of squeeze rolls are disposed above the surface of said liquid so that a geometric line drawn to intersect the aXes of each pair and extended to the surface of said liquid forms an acute angle therewith.

5. The method defined in claim 4 wherein said acute angles are equal.

6. In a method of sizing yarn, the steps which comprise continuously passing said yarn beneath the surface of a size liquid, bringing said yarn upwardly above the surface of said liquid and squeezing said yarn above the surface of said liquid while it is moving upwardly between a. pair of squeeze rolls arranged so that the size iiquid drains from said yarn as it is being squeezed, then squeezing said yarn while passing said yarn downwardiy between a pair of squeeze rolls arranged so that said yarn is immersed in the liquid expressed from the yarn in the squeezing operation, and then again squeezing said yarn between a pair of squeeze rolls as it passes upwardly, permitting the liquid to drain from the yarn as it is being squeezed.

7. In a method of sizing yarn, the steps which comprise continuously passing said yarn beneath the surface of a sizing liquid, passing said yarn upwardly above the surface of said iliquid, squeezing said yarn above said surface while said yarn is passing upwardly between a pair of squeeze rolls arranged so that the size liquid drains from the yarn, passing said yarn through a predetermined horizontal distance above said iiquid surface, and again passing said yarn upwardly between a pair of squeeze rolls and again squeezing and simultaneously stretching said yarn as it is passing through said predetermined horizontal distance between said first and second mentioned pairs of squeeze rolls.

References Cited in the file of this patent UNITED STATES PATENTS

Claims (1)

1. IN A METHOD OF SIZING YARN, THE STEPS WHICH COMPRISE CONTINUSOULY PASSING SAID YARN BENEATH THE SURFACE OF THE SIZING LIQUID BRINGING SAID YARN ABOVE THE SURFACE OF SAID LIQUID, SQUEEZING SAID YARN WHILE PASSING SAID YARN DOWNWARDLY SO THAT THE YARN IS IMMERSED IN ITS OWN SIZING LIQUID WHILE IT IS BEING SQUEEZED, THEN SQUEEZING SAID YARN AT A LOCATION REMOTE FROM THE FIRST SQUEEZING LOCATION WHILE SAID YARN IS PASSING UPWARDLY THEREBY DRAINING SIZE LIQUID FROM SAID YARN AS IT IS BEING SQUEEZED, AND THEN AGAIN PASSING SAID YARN DOWNWARDLY AND SQUEEZING SAID YARN WHILE IT IS MOVING DOWNWARDLY.

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