Flat Machine Knitting and Fabrics
CHAPTER XII
THE FLAT JACQUARD MACHINE—HOW IT DIFFERS FROM THE PURL STITCH JACQUARD MACHINE—TYPE OF FABRIC PRODUCED—METHODS OF NEEDLE SELECTION—DIFFERENCE BETWEEN SINGLE JACQUARD AND DOUBLE JACQUARD—EXPLANATION OF DESIGN AND PATTERN CARDS
SO far as the knitting mechanism is concerned, the flat jacquard machine is designed and constructed along the same lines as the ordinary flat machine, with the card cylinder for cards and the other necessary appurtenances added. Fig. 83 is a general view of a Dubied jacquard machine, which is semi-automatic but operated by hand. This illustration and the other photographs for this chapter were secured through the courtesy of D. Nusbaum & Co.
The card cylinder and cards are practically the same as used on the purl stitch machine and explained in a former chapter, but obviously the application must be somewhat different owing to the different construction and manner of operating the needles in this machine. Inasmuch as there are two sets of needles opposed one to the other, and each set forms the stitches which show on their respective sides of the fabric, it is possible and customary to make the designs in solid colors, differing in this respect from the links and links or purl stitch machine.
The jacquard designed fabrics are usually made in what would, on an ordinary machine, be the one and one rib or plain stitch. The tuck or cardigan stitch is not resorted to to bring out the design as in some other systems. Strictly speaking, however, the stitch is not what could properly be called a rib stitch, but is a combination of a plain rib and jersey stitch when made on the single jacquard, and is almost wholly of the jersey stitch construction when made on the double jacquard where the design is brought out on both sides of the fabric. The single jacquard is so called when the jacquard arrangement is on one plate only, usually the back one. The double jacquard machine is one which has the jacquard attachment on both the front and back plates. With the single jacquard the design can be brought out on one side of the fabric only, while with the double jacquard the design may be brought out on both sides of the fabric, but the colors would be reversed.
Type of Fabric Produced
Before going into the mechanical construction of the attachment we will to some extent analyze the fabric to find out what must be done to produce it. Referring to Fig. 87, which is a photographic reproduction of a fabric made on the machine under discussion, it will be noted that both the design and the ground are in solid colors. The rectangular figures which might be called the design are in solid black, while the squares, both the large ones and the small ones, which would be the ground, are solid white. It should be understood that there are two yarn carriers used in making this fabric, one for the white yarn and one for the black, and that these carriers are changed every round; that is, one round of white, and one round of black, alternating throughout the fabric.
Now inasmuch as we know that the fabric is made in the plain stitch, it is quite obvious that in order to make this design means must be provided to permit only those needles to knit which are making the white ground on any course in which the carrier with the white yarn is being used. Similarly only those needles making the black design must be permitted to knit on the course in which the carrier with the black yarn is used. The needles or wales, of course, run vertically in the fabric, while the rectangular design is diagonal, therefore it is plain that the number of needles or their relative positions must be changed each course.
In this fabric the design is brought out on one side only, the back plate, and the needles on the opposite side or front plate are knitting each time the carriage is moved across the machine as explained in detail later. This may be plainly seen in Fig. 87, where the corner is turned over to show the back of the fabric.
Now to find the method of selecting the proper needles at the proper time we will refer first to Fig. 86, which is a photographic reproduction of the cam system used in this machine; also to Fig. 90, which is a drawing of a cross section of the needle plates. It will be noted in Fig. 90 that there are two separate needle plates. The top one is for the needles proper, while the lower one is for the auxiliary needles.
These two plates are in perfect alignment, both as to the surface and the needle tricks or slots. In the double jacquard the front plate would be in two parts and a duplicate of the back plate, but in the single jacquard the front side would have what is the upper plate on the back side only, and would use the short needles as shown at _b_, Fig. 89.
The Cam System
Referring now to the cam system shown in Fig. 86, it will be noted that while in general appearance the upper and lower set of locks are similar, the wing or stitch cam _l_ and _m_ are not only different in shape from the lower wing cams _f_ and _g_, but they are set differently in their relation to the V or rise cams _a_ and _c_.
The cams as shown are set in the proper position to make jacquard or design work. The upper rise cams _c_, _d_ and _e_ are drawn up into the plate out of working position, therefore those needles selected to operate on any course must be raised by the lower rise cams _a_ and _b_. The upper lock operates on the butts of the needles proper shown at _b_, Fig. 90, while the lower lock operates upon the auxiliary needles shown at _a_ in the same illustration. Now, then it is plain that the needles proper will not be raised up, therefore cannot draw new loops or knit unless they are raised by the auxiliary needles _a_, Fig. 90, which in their turn are raised by the cams _a_ and _b_, Fig. 86. But it should be noted that the auxiliary needles are drawn down below the point of the rise cams _a_ on each course, as the wing cams _f_ and _g_ extend below these corners, therefore, on every course, unless one of the wing cams _f_ or _g_ is drawn up into the cam plate out of working position, all of the auxiliary needles are drawn down out of working position and will not operate on the next succeeding course unless put into working position by other means.
These wing cams _f_ and _g_ are chamfered off on the outside, so that any auxiliary needles pushed up above the lower end and into operating position will slide under and raise them up into the cam plate. The inner edge is a square corner consequently will, upon coming in contact with the needle butts, draw them down out of the working position. The auxiliary needles being a separate unit have no effect on the needles proper on their downward movement, but must, of course, raise them on the upward movement by coming in contact with the lower ends.
Those of the needles proper that are moved up into work are brought down again and form new loops by the stitch cams _l_ and _m_, Fig. 86. The small triangular cams _j_ and _k_ are for clearing the needles when a very short stitch is being drawn by the stitch cams _l_ and _m_.
How Needles Are Selected
Now to show how the needles are selected we will first refer to Fig. 89, which shows the needle proper at _b_ and the auxiliary needle at _a_. The auxiliary needle has a joint in it as shown at _h_ to permit the lower end _e_ to swing to the position shown by the dotted line _i_.
Fig. 90 shows the auxiliary needles in position with the card cylinder and cards in place ready to push them up into operation. Those needles which it is desired not to operate at all, such as the needles at the end of the plate that may not be needed, are drawn down and the ends are turned down to the point where they are at right angles to the plate, as shown by the dotted line at _i_. When they are in this position the cards cannot of course push them up into operating position. The short nib that looks like a part of a needle, indicated at _f_, and the card cylinder shown at _g_ are not a part of the mechanism under consideration, but are another method of needle selection which will be explained later.
Fig. 84 is a general view of the back of the machine showing a set of cards on the card cylinder ready for work. Fig. 85 shows the mechanism used to bring the cylinder with the cards into action. The cards and cylinder need no distinguishing mark as they should be easily recognized from what has gone before. The same thing applies to the auxiliary needles just above, part of which are turned down to the point where they cannot be put into operation.
Letter _j_ indicates the end of the shaft upon which the card cylinder is mounted, and _c_ is the elongated opening in which it moves up and down. This opening is on the same diagonal plane as the needle plates and has its duplicate at the other end which carries the other end of the card cylinder. The rocker shaft _d_ is mounted just under the card cylinder and has two levers securely attached, the other ends of which are connected to the card cylinder shaft, one at either end. On the outer end of the rocker shaft _d_ is another lever indicated by the letter _e_. This is connected to the camway _h_ through the extension _k_. This camway is mounted in such a manner that it can be moved only in one direction, and that direction is up and down diagonally or on the same plane as the back needle plates.
As the carriage reaches the extreme end of its travel the pin _g_, which is attached to the carriage, enters and follows the camway. Inasmuch as the cams are set on an incline this pin or plunger must raise the camway together with the end of the lever _e_. Through the rocker shaft _d_ and the two levers before mentioned as connecting the rocker shaft with the card cylinder, this will bring the card cylinder up to the lower edge of the auxiliary needle plate. This action will of course push all those needles into action that come in contact with the particular card that may be on that side of the card cylinder at the time. Where the openings are cut in this card the needles will pass through and have no contact, therefore will not be pushed up into working position.
As the card cylinder returns to its lowest position it is turned a quarter turn by the stationary hooked dog _a_, which catches a tooth, of which there are four, of a ratchet wheel which is also securely attached to the card cylinder shaft. In this way the card cylinder is turned a quarter turn each time it is moved up to the auxiliary plate, which brings a new card into position to make another selection of needles for the next course.
Letter _f_ indicates a counterweight which, as will be noted, is attached to the rocker shaft _d_ to assist in returning the card cylinder to its lowest position and hold it there after its return. Letter _i_ indicates an ordinary pattern chain on which the proper studs are attached to change the yarn carriers automatically.
Three Units May Be Racked
In this type of jacquard machine there are three separate and distinct units which may be racked or moved at right angles to the movement of the needles. They are, first, the needle plate proper which racks the same as the ordinary flat machine; second, the auxiliary needle plate; and third, the card cylinder together with the cards. The racking of the needle plate proper is necessary to make those designs in which a rack in the fabric is required, but the other two are chiefly a matter of convenience to save making up cards. There are many designs that may be made with one or four cards, or even without any cards, by manipulation of these racking movements, where otherwise quite a string of cards would be required.
We will take for example any design consisting of a small block or check within the limits of the needles the auxiliary plate will rack over. Such a design may be made without cards in this way. Say we wish to make a black and white check four needles wide and four courses high. We would put up into operating position four auxiliary needles and draw four down, alternating in this way with four up and four down for the width of the fabric. Then, referring to Fig. 86, we would draw up out of operating position as shown the rise cams _c_, _d_ and _e_, also the wing cams _f_ and _g_. This would permit the alternating four auxiliary needles we have left in operating position to always stay in this position. Now, after putting on one round or two courses of, let us say, white we would rack the auxiliary plate over four needles and then put on a round of black; rack back the four needles and put on a round of white, rack the other way four needles and put on a round of black. If we could see the fabric made thus far we would find that we had a row of blocks or checks four needles wide and four courses high. For although we have put on four courses each of the black and white, which makes eight courses in all, each color has been put on its own group of four needles; therefore the whole will build up the fabric but four courses. If we continued to operate the machine in the same manner we would get alternate black and white stripes, each four needles wide.
To break them up into checks or squares we would at this point have to either skip racking once while continuing the change of carriers each round, or miss changing carriers once while continuing the rack of four needles each round. This change must of course be made every four rounds throughout the length of the fabric, or as long as it is desired to make the check. It should be remembered that it is the auxiliary plate that is racked in this case, and not the needles proper; therefore the rack does not show in the fabric. But the shifting of these alternate sets of four auxiliary needles each round causes alternate groups of four of the needles proper to knit, the set which knits depending on which way the auxiliary plate is racked.
This same check design may be made with one card properly cut by preventing the card cylinder from turning and racking, or moving the card cylinder back and forth four needles in the same manner as the auxiliary plate was moved. Or it may be made with four cards without moving either the plate or card cylinder. In this case it would be necessary to use all the auxiliary needles and lower the wing cams _f_ and _g_, Fig. 86, into action.
In making a fabric on a double jacquard machine which shows the design on one side only, it is good practice to put four cards on the front cylinder properly cut to put alternate needles into operation on alternate courses, in order to prevent putting more courses on the front plate than on the back. Or to explain it in another way, the needle in the back plate that makes the white part of the design knit only on the rounds on which the white thread carrier is used, and the needles that make the black parts operate only when the carrier with the black yarn is in use.
Now it is plain that if all the needles in the front plate are permitted to knit each round we would have approximately twice as many courses on the front as on the back. This is obviated, as stated before, by using cards on the front card cylinder to push up into operation every alternate needle when moving the carriage say from left to right, and permitting these to remain idle and pushing those not operated on this course into operation on the return course from right to left. While this is desirable it is not essential, for it cannot be done on a single jacquard, though there are many nice designs and fabrics made on this machine.
Explanation of Pattern
Fig. 87 shows a fabric made on a double jacquard machine with both card cylinders in operation. Before going any further it should be understood that both the front and back card cylinders can be operated and make a new selection of needles at the end of each course, or when the carriage is at the end of its travel at both ends of the machine. This design is made by operating the card cylinders in this way. Fig. 88 is a layout of the design shown in Fig. 87. It is one complete repeat of the design as shown by the square box in Fig. 87. All the rest of the fabric is simply a repetition of this, but when grouped together on a large piece of fabric they appear entirely different.
As may be seen in Fig. 88, it would take 36 cards to make this design. In cutting the cards for this we would cut out the places shown blank and leave the card whole to push the needles into operation in the places marked by an _x_ or an _o_. This cutting would of course have to be repeated the width of the fabric, or the length of each card.
The principle as explained is used on all makes of flat jacquard knitting machines, but the method used to put the needles into operation by the cards differs with the different builders. For example, one popular method is shown in Fig. 90, where the card cylinder is placed directly below the under surface of the auxiliary plate as shown at _g_, and acts on a short nib with the butt turned downward and extending through the plate as shown at _f_. With this method it is customary to use a long needle with two butts as shown in Fig. 89 at _f_, instead of the short one with an auxiliary needle. Also with this method the needle plate would be a single wide plate with the tricks or needle slots cut gradually deeper as they reached the lower edge, so that at the point where the lower butts of the needles come the trick is deep enough so that the needle may be depressed to bring the top of the lower butts flush, or just below, the top surface of the needle plate. When operating the machine these butts always remain in this position, therefore will not knit unless raised up and put into operation by the cards.
If we should cut a set of cards just the reverse of the set laid out in Fig. 88, that is, cut out where these are not, and leave uncut where these are cut, and put this set on the front card cylinder and operate them in conjunction with and opposite to the back set, we would have the same design on both sides of the fabric, but the colors would be reversed.
INDEX
=A=
Automatic Control, 60, 67
Automatic Drop Locks, 30
Automatic Drop V Cams, 31
Automatic Jacquard, Purl Stitch Machine, 100
Automatic Narrowing or Fashioning Machine, 113
Automatic Single Lock Machine, 57
Automatic Widening Machine, 78
=B=
Bridge, 59
Bridges, 91, 126
=C=
Cams, 18, 31, 115
Cams, Difference Between Dubied and Lamb System, 49
Cam, Explanation of, 18
Cams, Guard, 49
Cam Plate, 32
Cams, Purl Stitch Machine, 90, 103
Cam, Racking, 38
Cams, Stitch, 74
Cam System, Jacquard, 134
Cams, V, 31
Cams, Widening Machine, 81
Cams, Wing, 135
Carriage, 18
Carriage, Purl Stitch Machine, 90, 96
Cardigan, Half, 29
Cardigan, Full, 29
Cardigan, Half, How Made, 30, 47
Cardigan, Full, How Made, 33, 48
Cards, 106, 129, 136
Card Cylinder, 106, 129, 136
Cards, to Cut, 110, 140
Changing the Stitch, 63, 74, 96, 103
Changing Yarn Carriers, 64, 73, 75, 96
Claes & Flentje Machine, 113
Counter, 59, 89
Counting Cylinder, 67
Counting Cylinder Stops, 69
Cotton-back, 29, 46, 75
Cotton-back Sweater, 44, 48
Collar, Shaped, 40
Comb, Narrowing, 51
Comb, Set up, 52
Chain Drive, 45, 57, 100
Chain, Controlling, 57, 59
Chain, Racking, 59, 64
Chain, Pattern, 59
Control of Yarn, 70
Course, 10
Crank, 57
Crank Drive, 45
Crochet Stitch, 13
Crosswise of the Fabric, 10
Crochet Fabric, 13
Cut Pressers, 29
Cylinder or Drum, Counting, 67, 100
Cylinder Divisions, 68
Cylinder Stops, 69
Cylinder, to Stop, 70
Cylinder for Jacquard System, 103
Cylinder, Card, 106, 136
=D=
Decker, 51, 122
Design Work, 33, 35
Designs, Racked, 42
Designs, Purl Stitch Machine, 96, 97, 100
Designs, Basket Weave, 97
Designs, Diagonal Diamond, 99
Designing, Jacquard System, 106, 109
Designs, Jacquard Rib, 129
Designs, Laying Out, 109
Designs Without Cards, 138
Designed Fabric, 140
Diagonal Stitch, 40
Double Lock, 46, 73
Double Lock Machine, 44, 46
Double Jacquard, 132, 140
Drive, Chain, 45
Drive, Crank, 45
Drop Locks, 30
Drop Stitch, 22
Drum, See Cylinder
Dubied Machine, 46, 57, 78, 88
=E=
Elasticity in Knit Fabrics, 15
Elasticity of Rib Fabrics, 26
=F=
Fabric, Rib, 10
Fabric, Jersey, 10
Fabric, Flat, 10
Fabric, Crochet, 13
Fabric, Tubular, 24
Fabric, Face, 33
Fabric, Two-Faced, 44, 46
Fabric, Tension, 85
Fabric, Jacquard, 132
Fabric, Designed, See Designs
False Knop, 63, 74
Fancy Stitches, See Designs
Fashioned Goods, 51
Fashioning a Sleeve, 53, 78
Fashioning Machine, Automatic, 78, 113
Fibers, Resiliency of, 15
Fingers, 69, 127
Flat Fabrics, 23
Flat Goods, 10, 26
Frame, 31
French Rack, 63, 74
Full Cardigan, 29
Full Cardigan, How Made, 33, 48
=G=
Gib, 18
Guards, 95
=H=
Hand Knitting, 12
Half Cardigan, 29
Half Cardigan, How Made, 30, 32, 47
Hoe, 127
=I=
Invention of Knitting Machine, 9, 16, 17
=J=
Jacks, 20, 86, 105
Jacks, Hump or Head, 93
Jacks, Clutch, 94
Jacquard, 29
Jacquard Purl Stitch Machine, 100
Jacquard System, 106
Jacquard Machine, Flat, 129
Jacquard, Rib Designs, 129
Jacquard, Single, 129, 140
Jacquard, Double, 132, 140
Jacquard Fabric, 132
Jersey Fabric, 10, 23, 74
Jersey Fabric, Range of, 25
Jersey Stitch, Purl Stitch Machine, 96
=K=
Knitting Machine, Invention of, 9, 16, 17
Knitted Fabric, 13
Knitted Fabric, Construction of, 9
Knitting, Hand, 12
=L=
Latch Needles, 16
Latch Needles, Invention of, 17
Latch Brush, 22
Latch Guards, 95
Latch Openers, 103
Lamb System, 30, 47
Lengthwise of the Fabric, 10
Length of Fabric, Limits, 10
Levers, Changing, 59
Lineal Feet per Minute, 45
Links and Links Machine, See Purl Stitch Machine
Loop, 10
Loop, Study of, 11
Locks, 30
=M=
Machine, Knitting, Invention of, 9, 16, 17
Machine Knitting, Difference from Hand, 16
Machine Speed, 21, 45
Machine, Double Lock, 44, 46
Machine, Single Lock, 44, 57
Machine, Automatic Widening, 78
Machine, Automatic Narrowing, 113
Machine, Purl Stitch, 86
Machine, Jacquard, 100, 129
=N=
Narrowing Comb, 51, 122
Narrowing, How Done, 53
Narrowing Machine, Automatic, 113
Narrowing, Lines of Movement, 118
Needles, Hand, 12
Needles, Latch, Machine, 16, 56, 83
Needles, Auxiliary, 135
Needle Speed, 21
Needles, Purl Stitch, 87
Needles, Automatic Narrowing Machine, 126
Needles, Automatic Widening Machine, 80, 83
Needle Selection, Jacquard System, 132, 136
Needle Springs, 20, 80, 83
Needle Plates, 18, 31, 80, 86, 88, 105
Needle Plates, Jacquard, 134
=P=
Pattern Wheels, 29
Pattern Chain, 59
Pawls, Racking, 65
Piping, 43
Plating, 50
Plating Yarn Carrier, 50, 111
Production, 44
Purl Stitch Machine, 86, 88
Purl Stitch Fabric, 87
Purl Stitch Machine, Jacquard, 100
=R=
Rack Stitch, 29, 35
Rack Stitch, How Made, 36
Rack, French, 63, 74
Rack, Both Sides of Fabric, 41
Racked Collar, 40
Racking Chain, 59, 64
Racking Cam, 38, 65
Racking Mechanism, 65
Racking Pawls, 65
Racking Cam Ratchet, 66
Racking, Purl Stitch Machine, 89
Rib Fabric, 10, 26, 27
Rib Fabric, Elasticity of, 26
Rib Fabric, Varieties of, 29
Rib Stitch, 1 and 1, 2 and 2, etc., 96
Rib, 2 and 2, Purl Stitch Machine, 98, 100
Rules, 97
=S=
Seams on Fashioned Work, 54
Selective System, 33
Selvedge Edge, 41, 54, 72
Set Up Comb, 52
Shaped Collar, 40
Shog or Shogged, 36
Speed, 21, 45
Springs, U-shaped Needle, 20, 80
Springs, Yarn Take-up, 72
Sprocket Roller, 59, 65
Sinker Loop, 10
Single Lock Machine, 44, 57
Single Jacquard, 129, 140
Sleeve, Fashioning, 53
Slots, 17, 18
Stops, Counting Cylinder, 69
Stops, Yarn Carrier, 71, 84
Stitch, 10
Stitch Cams, 74, 91, 103
Stitch, Drop, 22
Stitch Pins, 74
Stitch, Rack, 29, 35, 36, 41
Stitch, Changing, 63, 73, 74, 103
Stitches on Purl Stitch Machine, 96
Striping, 64
Studs, Chain, 60, 65
Studs, Heights, 63
Studs, Tension, 72
=T=
Take-up Roller, 59
Textile Fibers, Resiliency of, 15
Tension Stud, 72
Tension on Fabric, 85
Tension for Yarn Take-up Spring, 72
Tricks, 17, 18, 105
Tripping Finger, 69
Tubular Fabric, 24, 26, 74
Tubular Rib Fabric, 26
Tuck Stitch, 29
Tuck Stitch, How Made, 30
Two-faced Fabric, 44, 46
=V=
V Cams, 31
=W=
Wale, 10, 30
Weights, 18, 52, 59, 80
Widening Operation, 55
Widening Machine, 78
Width of Fabric, Needles Counted, 54
Width of Fabric, Limitation, 10
Work Hook, 52, 55
=Y=
Yarn Carrier, 21, 59, 70
Yarn Carrier, Plating, 50, 111
Yarn Carrier, Changing, 64, 73, 75, 96
Yarn Carrier Stops, 71, 84
Yarn Control, 70
Yarn Take-up Spring, 72
Yoke, 59, 126
=Z=
Zig-Zag Stitch, 29
Zig-Zag Stitch, How Made, 39
“DUBIED”
Flat Knitting Machines, Links and Links Machines,
Hand and Full Automatic Power
Built by Edward Dubied & Co. Neuchatel, Switzerland
Acknowledged by Users Experts and Judges as
“THE BEST”
Dubied Machinery Company E. O. SPINDLER
139 Franklin St. Corner West Broadway New York City
SOLE AGENTS FOR U. S. A. AND CANADA
FOR QUALITY USE
Williams’ Latch Needles
and eliminate serious needle troubles
No Gauge Too Coarse
MADE IN U. S. A. THE CAW BRAND BY AMERICAN LABOR
No Gauge Too Fine
The materials used are the best obtainable, while the workmanship is all that can be desired.
We supply more sweater mills than any other manufacturer—Why?
(It will pay you to investigate)
Standard styles carried in stock Send for samples and prices
❦
CHAUNCEY A. WILLIAMS
Manchester New Hampshire
Maker of “CAW” Brand
Philadelphia Office: 40 South Seventh Street, Rooms 304 and 305
Textile Machine Works, Reading, Pa.
The European War has proved conclusively that the United States no longer depends on Europe for Full Fashioned Hosiery and Full Fashioned Knitting Machines
These machines are the most productive and durable made, and are successfully operated by nearly all the Full Fashioned Hosiery Manufacturers in the United States
AUTOMATIC FLAT KNITTING MACHINE, “GROSSER” TYPE. FrhG.
This is one of the many types of machines used in the art of knitting. Other special machines have been designed and developed in the Grosser Plants.
Should any problem of knitting puzzle you, consult
The Grosser Knitting Machine Co.
260 West Broadway, New York
WE SPECIALIZE IN
Flat Knitting Machines—For Hand and Power Operation
Full Fashioned Hosiery Machines—For Ladies’ Hose, etc.
Warp Knitting Machines—Raschel, Chain and Milanese Type
Finishing Machines—Such as Loopers, Seamers, etc.
Needles and Supplies—For All Machines Handled
MERROWING
ESTABLISHED 1838
Makers of
The Merrow High Speed Overseaming, Overedging, and Shell Stitch Machines
For Seaming, Hemming and Edging
All Kinds Knitted and Woven Fabrics
MERROWISE For Efficiency
It Means Maximum Production Minimum Expense Unexcelled Quality of Work
The Merrow Machine Co.
7 Laurel Street—Hartford, Conn.—U. S. A.
Three Departments
RODNEY HUNT
Specializing for Service
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Textile Wet Finishing Machinery
Fulling Mills
(Patented Type M)
More Fulling in less Time—without “Nips” or “Trap Tears.”
Booklet No. 1220
Washers
Equipment adapted to individual requirements. Interchangeable parts.
Booklet No. 221
Pusher Mills
Felts and Knit Goods in garment.
Circular 121
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Booklet No. 1119
* * * * *
“Rodney Hunt” Wood Rolls
Superior Quality Rolls “Registered” for Maximum Service
Send for Standard Order Sheets
* * * * *
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For Large and Small Streams. High returns from varying flow of water.
Water Controlling Apparatus
“Standardized” designs. Penstocks, Flumes, Gates and Gate Hoists, Screens, Valves and accessories.
* * * * *
RODNEY HUNT MACHINE CO.
99 Mill Street Orange, Massachusetts
The Eastman Cutter
Will enable you to save from thirty to forty per cent in your cutting costs. We can prove this to you by a free demonstration.
Eastman Machine Co.
Buffalo, N. Y.
Branch Offices:
NEW YORK 816 Broadway
CHICAGO 315 W. Van Buren Street
BOSTON 87 Summer Street
ROCHESTER 604 Elwood Building
PHILADELPHIA 110 N. Sixth Street
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ST. LOUIS 1420 Olive Street
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SAN FRANCISCO 86 Third Street
F-A Quality
“The Standard for over a Quarter of a Century”
BRAIDS EDGINGS TUBING and NARROW LOOM FABRICS
Friedberger-Aaron Mfg. Co.
MILLS AND GENERAL OFFICES:
18th and Courtland Streets :: Philadelphia
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BRAGDON, LORD & NAGLE CO. 334 Fourth Avenue New York
By the time this publication is read we expect to have ready for the market a New Coning Machine. The product of this machine has several novel features which we believe will prove of particular interest to you
Universal Winding Company
Boston Massachusetts
● Transcriber’s Notes: ○ Missing or obscured punctuation was corrected. ○ Unbalanced quotation marks were left as the author intended. ○ Typographical errors were silently corrected. ○ Inconsistent spelling and hyphenation were made consistent only when a predominant form was found in this book. ○ Text that was in italics is enclosed by underscores (_italics_); text that was bold by “equal” signs (=bold=).
End of Project Gutenberg's Flat Machine Knitting and Fabrics, by H. D. Buck