US2451498A - Flat warp knitting machine - Google Patents
Flat warp knitting machine Download PDFInfo
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- US2451498A US2451498A US596362A US59636245A US2451498A US 2451498 A US2451498 A US 2451498A US 596362 A US596362 A US 596362A US 59636245 A US59636245 A US 59636245A US 2451498 A US2451498 A US 2451498A
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- sinker
- needles
- series
- cam
- bar
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- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04B—KNITTING
- D04B27/00—Details of, or auxiliary devices incorporated in, warp knitting machines, restricted to machines of this kind
- D04B27/06—Needle bars; Sinker bars
- D04B27/08—Driving devices therefor
Definitions
- My invention relates to flat warp knitting machines, and ,more particularly to the drive of knitting implements in such warp knitting machines.
- an object of my invention is to reduce the individual travelling motion of the knitting implements in a flat warp knitting machine to a minimum so as to reduce the acceleration of the masses of the knitting implements and their drives, for the purpose of increasing the speed of the machine to a maximum.
- Another object of my invention is to provide means in a fiat Warp knitting machine, by which .the stroke of the needle ibar carrying a series of needles may be reduced to a minimum and yet certain extreme positions of the needles relative to other knitting implements determined by the length of the needle beards may be obtained.
- a further object of my invention is to provide means in a flat warp knitting machine, bywhich sudden high accelerations of the knitting implements and their drives, especially of the needles, the needle bar, and the needle bar drive, are eliminated, so that a smooth running of the machine is obtained and the pressures on the cams and in the bearings of the drives are reduced to a minimum.
- Still another object of my invention is to provide means in a flat warp knitting machine, by which the downward movement of the needles may be continued during the pressing of the needles by the press edge.
- a further object of my invention is to improve on the timing of the various knitting operations by the various knitting implementsrelative to each other in flat warp knitting machines as now ordinarily made.
- Fig. lie 9. side elevational view of a flat warp knitting machine, some partsbeing broken away; said figure illustrates only those parts of the flat warp knitting machine which are necessary for an understanding of the invention
- FIG. 2 is a fragmentary front elevational view of the flat warp knitting machine shown in Fig. 1, some parts being broken away.
- Fig. '3 is 'axsectional View taken on line .33 of Fig. 2., illustrating thene'edle bar drive
- Figs. 4 and '5 are sectional views taken on lines 4-4 and 55 respectively of Fig. 2, illustrating the sinker bar drive
- Figs. 6-13 are di-ag-rammatical illustrations of various relative positions between a needle and a sinker of the machine shown in Fig. 1 during a cycle of operation of said machine, and
- Fig. 14 is a diagrammatic illustration of the relative position between -a needle and a sinker during the pressing of the needles, when the sinker drive of the machine shown in Fig. 1 is somewhat modified.
- Figs. 1 and '2, 2'9 generally indicates the frame of a 'flat warp knitting machine or a so-called tricot rnac'ahine.
- a motor 22 mounted in a, suitable manner on the name 29 is connected by a belt drive generally indicated by '24 with the main cam shaft 25 journalled in suitable bearings of the frame.
- the main cam shaft 26 Upon an energization of said motor 22-, the main cam shaft 26 is rotated for an actuation of the various knitting implements of the machine driven by cams keyed to said main camshaft 26.
- the drive of the guide bars 28, 38 carrying a series of guides ⁇ 52, 34 and the drive of the press bar 35 carrying the press edge 38 are not described in detail hereinafter, as they are of conventional for-m.
- the needle bar 42 carrying the series of needles 40 is supported by arms 56 (only one being shown in the drawings) secured to a needle bar shaft-58 journalled in suitable bearings of the frame 2!].
- One end of an actuating lever 60 is keyed to said needle 'bar shaft 58 the other end of said actuating lever 60 carries a roller 62 held in operative engagement with the surface of a needle bar cam 64 by means of a spring 66 stretched between said actuating lever fill and astationary point 68 of the machine.
- the needle bar cam 64 is keyed to the main cam aha-it -25.
- a rotation of the main cam shaft 26 in the direction of the arrow A causes an upward and downward movement of the needle bar 42 with its series of needles 4!! in the direction of the arrows B and C (see Fig. '3) in dependence on the shape of the needle bar cam 64.
- a sinker bar 10 carrying a series of 'si-nkers "I2 is supported by arms 14 (only one arm being shown in the drawings),
- the low-er end of each arm I4 is pivoted at I6 to an actuating lever I8 keyed to a sinker bar shaft 80 journalled in suitable bearings of the frame 20.
- the free end of the actuating lever I8 carries a roller 82 held in operative engagement with the surface of a sinker bar cam 84 by means of a spring 86 stretched between a stationary point 88 of the machine and an arm 90 keyed to said sinker bar shaft 80.
- the sinker bar cam 84 is keyed to the main cam shaft 26.
- each arm I4 At an intermediate point 92 of each arm I4, one end of a connecting link 94 is pivoted to said arm 14. The other end of said connecting link 94 is pivoted at 96 to an arm 98 keyed to another sinker bar shaft I journalled in suitable bearings of the frame 20.
- One end of an actuating lever I02 is keyed to said sinker bar shaft I00, and the other end of said actuating lever I02 carries a roller I04 held in operative engagement with the surface of another sinker bar cam I06 by means of a spring I88 stretched between said actuating lever I02 and a stationar point IIO of the machine.
- the sinker bar cam I06 is keyed to the main cam shaft 26.
- a rotation of the main cam shaft 26 in the direction of the arrow A causes a backward and forward movement of the sinkers I2 in the direction of the arrows D and E by means of the sinker bar cam I08 in dependence on the shape of its surface and a downward and upward movementin the direction of the arrows F and G by the sinker bar cam 84 in dependence on the shape of the surface thereof.
- the sinkers I2 Owing to the coupling of the two drives with each other by means of the connecting link 94 the sinkers I2 will be subject to a movement in the direction D or E simultaneously with a movement in the direction F or G if the rollers I84 and 82 are at the same time in engagement with drops or rises on the sinker bar cams I06 and 84. If, however, one of said rollers is in engagement with a dwell on one of said sinker bar cams and the other roller is at this time in engagement with a drop or rise on the other sinker bar cam, the sinkers I2 will be moved only either in the direction D or E or in the direction F or G.
- Figs. 6-13 illustrate various relative position between a sinker I2 and a needle 40 during one cycle of operation of the warp knitting machine.
- Fig. 6 illustratesthe position of the sinker and the needle at the beginning of such a cycle, i, e.
- Fig. 6 illustrates the position of the sinkers and needles and their drives shown in Figs. 1, and 3-5.
- the sinkers I2 are in their most forward position indicated by the line a and at their normal level indicated by the line sinker gauge.
- the needles 40 are at their normal level indicated by the line needle gauge.
- Fig. 7 illustrates the position of the sinker and needle at the position 140, 1, e. after the rotation of the main cam shaft through an angle of 140 from the 0 position shown in Figs. 1, and 3-5.
- Figs. 8-13 show the various positions of the sinker and needle at the 160 position, 180 position, 200
- rollers 62, 82, I04 at the points indicated by 0' in Figs. 3-5.
- the points indicated by 140 or 160 or 180 on said cams are in contact with their respective cam roller.
- All of the cams 64, 84, and I06 have a round surface between 0 and 140, so that, as shown in Fig. 7, the sinkers I2 and the needles 40 remain in the same position as shown in Fig. 6, i. e. the sinkers are still in their most forward position at their normal level and the needles are at their normal level.
- the sinkers are still in their most forward position at their normal level and the needles are at their normal level.
- the needle bar cam 64 has a rise between 140 and 180, the maximum being at 160.
- the surface of the sinker bar cam I06 is round up to the point 180.
- the sinker bar cam 84 has a drop between 140 and 180, the minimum being at 160. Therefore, at I40 the needle bar cam 64 starts to move the needles 40 upwardly in the direction of the arrow B, while at the same time the sinker bar cam 84 startsto move the sinker I2 downwardly in the direction of the arrow F.
- the arrows B and F are indicated in Fig. 7.
- the needle bar cam 64 starts to reverse the direction of movement of the needles 40 and drives same to move downwardly in the direction of the arrow C shown inFig. 8. Furthermore, at
- sinkers remain in their most forward position between 140 and 180. As will be readily understood, between 140 and 180 the needles 40 and the sinkers I2 are moved in an opposite direction as described above. This movement takes place .during the catching of yarn by the needles.
- the upward strokeof the needles 40 from their normal position indicated by line needle gauge t their highest position indicated by the line needle highes may be reducedas compared with hitherto conventional warp knitting machines, wherein thesinkers remain at their normal level and consequently th'eneedles must be moved upwardlyto a greater extent, for example up to the level indicated by the line b in Fig. 8, sorthat the needle may catch the yarn.
- the re- 7 and in the bearings of theineedle bar drive are reduced, so that the machine may be operated at a considerable higher speed than. the hitherto conventional warp knitting machines.
- the needle bar cam 64' is of such a shape, that the needles 40 are moved downwardly in the direction of the arrow C from their normal position shown in Fig. 9 at 180 into their lowest position shown in Fig. 11 at 240.
- the sinkers I2 are moved backwardly in the direction of the arrow D by the sinker bar cam I06, until they reach their most backward position as shown in Fig. 11.
- the sinker bar cam 84 has a dwell between 180 and 240, so that the sinkers I2 remain in their normal position between 180 and 240 as shown in Figs. 9-11. Between 200 and 240 the pressing of the needles 40 by the press edge 38 takes place.
- the needle bar cam 64 is of such a shape, that between 240 and 310 the needles remain in their lowest position shown in Figs. 11-13, whereupon they are moved upwardly in the direction of the arrow B, until they reach their normal position at the end of the cycle, which coincides with the beginning of the next cycle illustrated by Fig. 6.
- the sinker bar 84 is of such a shape, that starting at 240 the sinkers 12 are moved upwardly in the direction of the arrow G, until they reach their highest position at 310 as shown in Fig. 13, whereupon they are moved downwardly in the direction of the arrow F, until they are returned into their normal position at the end of the cycle as shown in Fig. 6.
- Fig. 3 the needle bar cam 64 is of such a shape, that between 240 and 310 the needles remain in their lowest position shown in Figs. 11-13, whereupon they are moved upwardly in the direction of the arrow B, until they reach their normal position at the end of the cycle, which coincides with the beginning of the next
- the sinker bar cam I06 is of such a shape, that between 240 and 280 the sinkers remain in their most backward position that, however, starting at 280, the sinkers are moved forwardly in the direction of the arrow E, simultaneously with the lifting and lowering movements caused by the sinker bar cam 84 as described above, until they reach their most forward position at the end of the cycle as shown in Fig. 6.
- the movements just described represent the knocking over of the fabric by the sinkers. Said knocking over requires, that the end of the needle is brought into a level below the recess N2 of, the sinker I2.
- this feature is obtained by moving the sinkers I2 upwardly from its normal position indicated by the line sinker gauge into its highest position indicated by the line sinker'highest. Therefore, the arrangement of the sinker drive according to the invention eliminates a continuation of the downward movements of the needles 4!] from the position shown in Fig. 11 into a position indicated by the line 0 in Fig. 12, which movement is necessary in hitherto conventional. warp knitting machines, wherein the sinkers cannot be moved in upward and downward direction.
- means are provided in the machine for considerable reduction of the stroke of the needle bar and its needles during the knocking over of the fabric, which results in a considerable reduction of the acceleration of the masses and consequently permits a considerable higher speed of operation of the machine.
- the needle bar cam 64 shown in the drawings has a dwell between 240 and 310, so that the needles 40 are held in their lowest position during this portion of the cycle as shown in Figs. 11-13. If desired, however, the needle bar cam 64 may be shaped in such a way, that the needles are moved once or several times during said portion of the cycle between 240 and 310.
- the point of the needle beard must remain just slightly be- 6 low the upper edge I I4 of the sinker (see Fig. 10). If the sinkers remain at their normal position shown in said Fig. 10, the downward movement of the needles 40 must be interrupted between 200 and 220 so as to obtain this feature. If desired, however, according to the invention such an interruption of the downward movement of the needles 40 may be eliminated for a smoothening of their motion by a modification of the shape of the sinker bar cam 84 as indicated by the dash and dot lines H6 in Fig. 5.
- Said line IIS forms a drop on the sinker bar cam 84, with the minimum at 220.
- the sinker bar cam 84 is of such modified shape, the sinkers I2 are moved downwardly between 200 and 220 until they reach the position shown in Fig. 14, whereupon they are returned into their normal position shown in Fig. 11 for 240.
- the dwell shown in Fig. 3 for the needle bar cam 64 between 200 and 220 may be omitted and the shape of the needle bar cam 64 may be smoothened out between 180 and 240 so as to obtain a uniform downward movement of the needles.
- the modified sinker bar cam 64 may be easily shaped in such a Way, that the sinkers I2 are moved downwardly between 200 and 220 with the needles 40 at the same rate of speed as the latter.
- the arrangement of the sinker bar drive 84, 82, 18, I4 permitting the lifting and lowering of the sinkers I2 in the direction of the arrows G and F results in a reduction of the stroke necessary for the needle bar with its needles, so that, owing to the reduced acceleration of the masses, the machine may be operated at a high speed.
- said sinker bar drive 84, 82, 18, I4 permits the design of a needle bar cam with a rather smooth surface, so that a smooth running of the machines at high speeds is obtained.
- said sinker bar drive 84, 82, 18, I4 permits an improvement of the timing of the various knitting operations by the various knitting implements relative to each other; the reduced stroke of the needle bar permits an actuation of the needle bar by the needle bar cam during a smaller angle of rotation of the cam shaft than in warp knitting machines of hitherto conventional construction, and said reduced angle of rotation leaves a larger angle of rotation of the main cam shaft for the actuation of other knitting implements, for example the guides for laying the yarn.
- the drawings illustrate means (the sinker :bar drive 84, 82, 78, M) for reciprocating the sinkers of a flat warp knitting machine substantially in the. direction of movement of the needles.
- similar drives may be provided for in a fiat warp knitting machine i or reciprocating another knitting implement (for example the guides) in the direction of movement of cooperating knitting implements (for example, the needles).
- a flat warp knitting machine comprising: a
- first series of knitting implements arranged for reciprocating movements
- a first drive associated with said first series of knitting implements for imparting periodic reciprocating movements in a predetermined direction to said first series of knitting implements
- a second series of knitting implements arranged for movements transversely of and substantially in the same direction as said.
- said second series of knitting implements being arranged for performing movements in coordinated relation with movements of said first series of knitting implements, a second drive associated with said second series of knitting implements for imparting at predetermined intervals periodic movements transversely of the direction of the strokes of said first series of knitting implements to said second series of knitting implements, said second series of knitting implements being further reciprocable substantially in the direction of the strokes of said first series of knitting implements, and an actuating drive associated with said second series of knitting implements for imparting at predetermined intervals an additional movement to said second series of knitting implements in a direction opposite to the direction of movement performed by said first series of knitting implements during a stroke thereof whereby the length of such a stroke of said first series of knitting implements may be reduced in accordance with the length of the additional movement of said second series Of knitting implements.
- said second drive including a linkmechanism, and said actuating drive being in operative connection with said link-mechanism.
- said actuating drive including controlling means adjusted for imparting said additional movement to said second series of knitting imple- -ments during a movement of said first series of knitting implements in the opposite direction.
- said actuating drive including controlling means adjusted for imparting said additional movement to said second series of knitting implements during a standstill of said first series of knitting implements.
- said actuating drive including controlling means adjusted for imparting said additional movement to said second series of knitting implements during a movement of said secondseries of knitting implements toward the direction of the strokes of said first series of knitting implements.
- said first series of knitting implements being arranged in the machine for reciprocating movements in an upward and downward direction.
- a fiat warp knitting machine comprising: a needle bar carrying a series of needles and arranged f or reciprocating movements substantially in the direction of the longitudinal axis of the needles, a needle bar drive associated with said needle bar for imparting periodic reciprocating movements to said series of needles substantially in the direction of the longitudinal axis of the needles, a sinker bar carrying a series of sinkers arranged for knocking over knitted fabric over said needles and arranged for movements transversely of and substantially in the direction of the longitudinal axis of said needles, a sinker bar drive associated with said sinker bar for imparting at predetermined intervals periodic move-, ments transversely of the longitudinal axis f the needles to said series of sinkers, said sinker bar being further reciprocable substantially in the direction of the strokes of said needles, .an actuating drive associated with said sinker bar for imparting at predetermined intervals an additional movement to said sinker bar and said series of sinkers in a direction opposite to the direction of movement performed by said series of needles during
- said sinker bar drive including a linkmechanism, and said actuating drive being in operative connection with said link-mechanism.
- said sinker bar drive including swingable supporting arms and a mechanism for rocking same at predetermined intervals, said sinker bar being mounted on said supporting arms, said actuating drive including reciprocable actuating means and a mechanism for imparting periodic reciprocating movements to said actuating means, and said actuating means being in operative connection with said supporting arms.
- said actuating drive including reciprocable actuating elements and a mechanism for imparting periodic reciprocating movements to said actuating elements
- said sinker bar drive including swingable supporting arms and a mechanism for rocking same at predetermined intervals, said sinker bar being mounted on said supporting arms, and said supporting arms being swingably mounted on said actuating lements.
- said actuating drive including swingable actuating levers and a mechanism for rocking same at predetermined intervals, said sinker 15.- In a flat warpknitting machine as claimed in claim 9, said actuating drive including controlling means adjusted for imparting said additional movement to said series of sinkers during a movement of said series of needles in the opposite direction.
- said actuating drive including controlling means adjusted for impartingsaid additional movement to said series of sinkers during a standstill of said series of needles.
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Description
Oct. 19, 1948. F. LAMBACH 2,451,498
, FLAT WARP KNITTING MACHINE Filed May 28, 1945 4 Sheets-Sheet 1 W? V ATTORNEY Oct. 19, 1948. F. LAMBACH 2,451,498
FLAT WARP KNITTING MACHINE Filed May 28, 1945 4 Sheets-Sheet 2 INVENTOR fie/r2 14/75/467/ ATTORNEY Oct. 19, 1948. LAMBACH 2,451,498
FLAT WARP KNITTING MACHINE Filed May 28, 1945 4 Sheets-Sheet 3 INVENTOR Fe/ 72 44/75/407 ATTORNEY Oct. 19, 1948. F. LAMBACH FLAT WARP KNITTING MACHINE 4 Sheets-Sheet 4 Filed May 28, 1945 1 Kala kwkkk Patented Oct. 19, 1948 UNITED STATES; PATENT OFFICE 19 Claims.
My invention relates to flat warp knitting machines, and ,more particularly to the drive of knitting implements in such warp knitting machines.
an object of my invention is to reduce the individual travelling motion of the knitting implements in a flat warp knitting machine to a minimum so as to reduce the acceleration of the masses of the knitting implements and their drives, for the purpose of increasing the speed of the machine to a maximum.
Another object of my invention is to provide means in a fiat Warp knitting machine, by which .the stroke of the needle ibar carrying a series of needles may be reduced to a minimum and yet certain extreme positions of the needles relative to other knitting implements determined by the length of the needle beards may be obtained.
A further object of my invention is to provide means in a flat warp knitting machine, bywhich sudden high accelerations of the knitting implements and their drives, especially of the needles, the needle bar, and the needle bar drive, are eliminated, so that a smooth running of the machine is obtained and the pressures on the cams and in the bearings of the drives are reduced to a minimum.
Still another object of my invention is to provide means in a flat warp knitting machine, by which the downward movement of the needles may be continued during the pressing of the needles by the press edge.
A further object of my invention is to improve on the timing of the various knitting operations by the various knitting implementsrelative to each other in flat warp knitting machines as now ordinarily made.
With the above and other objects of the invention in view, the invention consists in the novel construction, .Jarrangement and combination of various devices, elements and parts, as set forth in the claims hereof, certain embodiments of the same being described in the specification and being illustrated in the accompanying drawings forming part of this specification, wherein:
Fig. lie 9. side elevational view of a flat warp knitting machine, some partsbeing broken away; said figure illustrates only those parts of the flat warp knitting machine which are necessary for an understanding of the invention,
2 is a fragmentary front elevational view of the flat warp knitting machine shown in Fig. 1, some parts being broken away.
I, Fig. '3 is 'axsectional View taken on line .33 of Fig. 2., illustrating thene'edle bar drive,
Figs. 4 and '5 are sectional views taken on lines 4-4 and 55 respectively of Fig. 2, illustrating the sinker bar drive,
Figs. 6-13 are di-ag-rammatical illustrations of various relative positions between a needle and a sinker of the machine shown in Fig. 1 during a cycle of operation of said machine, and
Fig. 14 is a diagrammatic illustration of the relative position between -a needle and a sinker during the pressing of the needles, when the sinker drive of the machine shown in Fig. 1 is somewhat modified.
Referring now to Figs. 1 and '2, 2'9 generally indicates the frame of a 'flat warp knitting machine or a so-called tricot rnac'ahine. A motor 22 mounted in a, suitable manner on the name 29 is connected by a belt drive generally indicated by '24 with the main cam shaft 25 journalled in suitable bearings of the frame. Upon an energization of said motor 22-, the main cam shaft 26 is rotated for an actuation of the various knitting implements of the machine driven by cams keyed to said main camshaft 26. The drive of the guide bars 28, 38 carrying a series of guides {52, 34 and the drive of the press bar 35 carrying the press edge 38 are not described in detail hereinafter, as they are of conventional for-m. During the operation of the warp knitting machine, the series of needles 4%! carried by the needle barAZ draw yarn 44, 45 from an upper warp beam 58 and a lower warp beam 5!! rotatably mounted in suit ble bearings of the frame '20 of the machine. Furthermore, in a manner known per se the knitted fabric 52 is taken up by a take-up roller 54. I I
As best shown in Figs. l-3, the needle bar 42 carrying the series of needles 40 is supported by arms 56 (only one being shown in the drawings) secured to a needle bar shaft-58 journalled in suitable bearings of the frame 2!]. One end of an actuating lever 60 is keyed to said needle 'bar shaft 58 the other end of said actuating lever 60 carries a roller 62 held in operative engagement with the surface of a needle bar cam 64 by means of a spring 66 stretched between said actuating lever fill and astationary point 68 of the machine. The needle bar cam 64 is keyed to the main cam aha-it -25. As will be readily understood, a rotation of the main cam shaft 26 in the direction of the arrow A causes an upward and downward movement of the needle bar 42 with its series of needles 4!! in the direction of the arrows B and C (see Fig. '3) in dependence on the shape of the needle bar cam 64.
As best shown in Figs. 1, '2, 4 and 5 a sinker bar 10 carrying a series of 'si-nkers "I2 is supported by arms 14 (only one arm being shown in the drawings), The low-er end of each arm I4 is pivoted at I6 to an actuating lever I8 keyed to a sinker bar shaft 80 journalled in suitable bearings of the frame 20. The free end of the actuating lever I8 carries a roller 82 held in operative engagement with the surface of a sinker bar cam 84 by means of a spring 86 stretched between a stationary point 88 of the machine and an arm 90 keyed to said sinker bar shaft 80. The sinker bar cam 84 is keyed to the main cam shaft 26.
At an intermediate point 92 of each arm I4, one end of a connecting link 94 is pivoted to said arm 14. The other end of said connecting link 94 is pivoted at 96 to an arm 98 keyed to another sinker bar shaft I journalled in suitable bearings of the frame 20. One end of an actuating lever I02 is keyed to said sinker bar shaft I00, and the other end of said actuating lever I02 carries a roller I04 held in operative engagement with the surface of another sinker bar cam I06 by means of a spring I88 stretched between said actuating lever I02 and a stationar point IIO of the machine. The sinker bar cam I06 is keyed to the main cam shaft 26.
As will be readily understood from above description and from the arrangement of the various elements of said two sinker bar drives clearly shown in Figs. 4 and 5, a rotation of the main cam shaft 26 in the direction of the arrow A causes a backward and forward movement of the sinkers I2 in the direction of the arrows D and E by means of the sinker bar cam I08 in dependence on the shape of its surface and a downward and upward movementin the direction of the arrows F and G by the sinker bar cam 84 in dependence on the shape of the surface thereof. Owing to the coupling of the two drives with each other by means of the connecting link 94 the sinkers I2 will be subject to a movement in the direction D or E simultaneously with a movement in the direction F or G if the rollers I84 and 82 are at the same time in engagement with drops or rises on the sinker bar cams I06 and 84. If, however, one of said rollers is in engagement with a dwell on one of said sinker bar cams and the other roller is at this time in engagement with a drop or rise on the other sinker bar cam, the sinkers I2 will be moved only either in the direction D or E or in the direction F or G.
Figs. 6-13 illustrate various relative position between a sinker I2 and a needle 40 during one cycle of operation of the warp knitting machine. Fig. 6 illustratesthe position of the sinker and the needle at the beginning of such a cycle, i, e.
at the position 0; said 0 position shown in Fig. 6 corresponds to the position of the sinkers and needles and their drives shown in Figs. 1, and 3-5. In the position of Fig. 6, the sinkers I2 are in their most forward position indicated by the line a and at their normal level indicated by the line sinker gauge. Furthermore, the needles 40 are at their normal level indicated by the line needle gauge. Fig. 7 illustrates the position of the sinker and needle at the position 140, 1, e. after the rotation of the main cam shaft through an angle of 140 from the 0 position shown in Figs. 1, and 3-5. In similar manner, Figs. 8-13 show the various positions of the sinker and needle at the 160 position, 180 position, 200
position, 240 position, 280 position, and 310po- V sition. Y
When the needle bar cam 64, the sinker bar cam 84, and the sinker bar cam I06 are in the 0 position, they contact their associated. c m
All of the cams 64, 84, and I06 have a round surface between 0 and 140, so that, as shown in Fig. 7, the sinkers I2 and the needles 40 remain in the same position as shown in Fig. 6, i. e. the sinkers are still in their most forward position at their normal level and the needles are at their normal level. Thus, during this portion of the cycle of operation of the machine other knitting implements, such as the guides are active,
As shown in Fig. 3, the needle bar cam 64 has a rise between 140 and 180, the maximum being at 160. According to Fig. 4, the surface of the sinker bar cam I06 is round up to the point 180. As shown in Fig. 5, the sinker bar cam 84 has a drop between 140 and 180, the minimum being at 160. Therefore, at I40 the needle bar cam 64 starts to move the needles 40 upwardly in the direction of the arrow B, while at the same time the sinker bar cam 84 startsto move the sinker I2 downwardly in the direction of the arrow F. The arrows B and F are indicated in Fig. 7. At 160 the needle bar cam 64 starts to reverse the direction of movement of the needles 40 and drives same to move downwardly in the direction of the arrow C shown inFig. 8. Furthermore, at
. sinkers remain in their most forward position between 140 and 180. As will be readily understood, between 140 and 180 the needles 40 and the sinkers I2 are moved in an opposite direction as described above. This movement takes place .during the catching of yarn by the needles. The
downward movement of the sinkers 'IZ'from their normal position shown in Fig. 7 into theirllowest position shown in Fig. 8, according to the inven-- tion, causes a downward pull of the fabric by the sinker, which, in turn, results in a downward pull of the yarn connected with the fabric towards the point of the needle beards; Therefore, according to the invention, the upward strokeof the needles 40 from their normal position indicated by line needle gauge t their highest position indicated by the line needle highes may be reducedas compared with hitherto conventional warp knitting machines, wherein thesinkers remain at their normal level and consequently th'eneedles must be moved upwardlyto a greater extent, for example up to the level indicated by the line b in Fig. 8, sorthat the needle may catch the yarn. As will be readily understood, the re- 7 and in the bearings of theineedle bar drive are reduced, so that the machine may be operated at a considerable higher speed than. the hitherto conventional warp knitting machines.
According to Fig. 3, the needle bar cam 64'is of such a shape, that the needles 40 are moved downwardly in the direction of the arrow C from their normal position shown in Fig. 9 at 180 into their lowest position shown in Fig. 11 at 240. During the same portion of the cycle of operation between 180 and 240 the sinkers I2 are moved backwardly in the direction of the arrow D by the sinker bar cam I06, until they reach their most backward position as shown in Fig. 11. According to Fig. 5, the sinker bar cam 84 has a dwell between 180 and 240, so that the sinkers I2 remain in their normal position between 180 and 240 as shown in Figs. 9-11. Between 200 and 240 the pressing of the needles 40 by the press edge 38 takes place.
According to Fig. 3, the needle bar cam 64 is of such a shape, that between 240 and 310 the needles remain in their lowest position shown in Figs. 11-13, whereupon they are moved upwardly in the direction of the arrow B, until they reach their normal position at the end of the cycle, which coincides with the beginning of the next cycle illustrated by Fig. 6. According to Fig. 5, the sinker bar 84 is of such a shape, that starting at 240 the sinkers 12 are moved upwardly in the direction of the arrow G, until they reach their highest position at 310 as shown in Fig. 13, whereupon they are moved downwardly in the direction of the arrow F, until they are returned into their normal position at the end of the cycle as shown in Fig. 6. According to Fig. 4 the sinker bar cam I06 is of such a shape, that between 240 and 280 the sinkers remain in their most backward position that, however, starting at 280, the sinkers are moved forwardly in the direction of the arrow E, simultaneously with the lifting and lowering movements caused by the sinker bar cam 84 as described above, until they reach their most forward position at the end of the cycle as shown in Fig. 6. The movements just described represent the knocking over of the fabric by the sinkers. Said knocking over requires, that the end of the needle is brought into a level below the recess N2 of, the sinker I2. As described above, according to the invention, this feature is obtained by moving the sinkers I2 upwardly from its normal position indicated by the line sinker gauge into its highest position indicated by the line sinker'highest. Therefore, the arrangement of the sinker drive according to the invention eliminates a continuation of the downward movements of the needles 4!] from the position shown in Fig. 11 into a position indicated by the line 0 in Fig. 12, which movement is necessary in hitherto conventional. warp knitting machines, wherein the sinkers cannot be moved in upward and downward direction. Thus, according to the invention, means are provided in the machine for considerable reduction of the stroke of the needle bar and its needles during the knocking over of the fabric, which results in a considerable reduction of the acceleration of the masses and consequently permits a considerable higher speed of operation of the machine.
According to Fig. 3, the needle bar cam 64 shown in the drawings has a dwell between 240 and 310, so that the needles 40 are held in their lowest position during this portion of the cycle as shown in Figs. 11-13. If desired, however, the needle bar cam 64 may be shaped in such a way, that the needles are moved once or several times during said portion of the cycle between 240 and 310.
As a matter of fact, at the beginning of the pressing of the needles by the press edge 38 (approximately between 200 and 220) the point of the needle beard must remain just slightly be- 6 low the upper edge I I4 of the sinker (see Fig. 10). If the sinkers remain at their normal position shown in said Fig. 10, the downward movement of the needles 40 must be interrupted between 200 and 220 so as to obtain this feature. If desired, however, according to the invention such an interruption of the downward movement of the needles 40 may be eliminated for a smoothening of their motion by a modification of the shape of the sinker bar cam 84 as indicated by the dash and dot lines H6 in Fig. 5. Said line IIS forms a drop on the sinker bar cam 84, with the minimum at 220. If the sinker bar cam 84 is of such modified shape, the sinkers I2 are moved downwardly between 200 and 220 until they reach the position shown in Fig. 14, whereupon they are returned into their normal position shown in Fig. 11 for 240. Under these circumstances, the dwell shown in Fig. 3 for the needle bar cam 64 between 200 and 220 may be omitted and the shape of the needle bar cam 64 may be smoothened out between 180 and 240 so as to obtain a uniform downward movement of the needles. As will be readily understood, the modified sinker bar cam 64 may be easily shaped in such a Way, that the sinkers I2 are moved downwardly between 200 and 220 with the needles 40 at the same rate of speed as the latter.
As will be apparent from above, the arrangement of the sinker bar drive 84, 82, 18, I4 permitting the lifting and lowering of the sinkers I2 in the direction of the arrows G and F results in a reduction of the stroke necessary for the needle bar with its needles, so that, owing to the reduced acceleration of the masses, the machine may be operated at a high speed. Furthermore, said sinker bar drive 84, 82, 18, I4 permits the design of a needle bar cam with a rather smooth surface, so that a smooth running of the machines at high speeds is obtained. Moreover, said sinker bar drive 84, 82, 18, I4 permits an improvement of the timing of the various knitting operations by the various knitting implements relative to each other; the reduced stroke of the needle bar permits an actuation of the needle bar by the needle bar cam during a smaller angle of rotation of the cam shaft than in warp knitting machines of hitherto conventional construction, and said reduced angle of rotation leaves a larger angle of rotation of the main cam shaft for the actuation of other knitting implements, for example the guides for laying the yarn.
The drawings illustrate means (the sinker : bar drive 84, 82, 78, M) for reciprocating the sinkers of a flat warp knitting machine substantially in the. direction of movement of the needles. If desired, however, according to the invention, similar drives may be provided for in a fiat warp knitting machine i or reciprocating another knitting implement (for example the guides) in the direction of movement of cooperating knitting implements (for example, the needles).
I have described preferred embodiments of my invention, but it is clear that numerous changes a first actuating lever swingably mounted on the machine and operatively engaged with said first cam, a second cam secured to said 'cam shaft, a second actuating lever swingably mounted on the machine and operatively engaged with said second cam, a support pivotally connected with said second actuating lever, a mechanism connecting said first actuating lever with said support so as to cause rocking movements of the latter about its pivot on the second actuating lever, and a sinker bar carrying a series of sinkers, said sinker bar being mounted on said support, and the elements of said two cam drives bein arranged in such a manner that said first cam causes backward and forward movements of the sinker bar and said second cam causes upward and downward movements of the sinker bar at predetermined intervals during a cycle of the operation of the machine.
2. A flat warp knitting machine comprising: a
first series of knitting implements arranged for reciprocating movements, a first drive associated with said first series of knitting implements for imparting periodic reciprocating movements in a predetermined direction to said first series of knitting implements, a second series of knitting implements arranged for movements transversely of and substantially in the same direction as said.
first series of knitting implements, said second series of knitting implements being arranged for performing movements in coordinated relation with movements of said first series of knitting implements, a second drive associated with said second series of knitting implements for imparting at predetermined intervals periodic movements transversely of the direction of the strokes of said first series of knitting implements to said second series of knitting implements, said second series of knitting implements being further reciprocable substantially in the direction of the strokes of said first series of knitting implements, and an actuating drive associated with said second series of knitting implements for imparting at predetermined intervals an additional movement to said second series of knitting implements in a direction opposite to the direction of movement performed by said first series of knitting implements during a stroke thereof whereby the length of such a stroke of said first series of knitting implements may be reduced in accordance with the length of the additional movement of said second series Of knitting implements.
3. In a fiat warp knitting machine as claimed in claim 2, said actuating drive being coupled with said second drive.
4. In a fiat warp knitting machine as claimed in claim 2, said second drive including a linkmechanism, and said actuating drive being in operative connection with said link-mechanism.
5. In a fiat warp knitting machine as claimed in claim 2, said actuating drive including controlling means adjusted for imparting said additional movement to said second series of knitting imple- -ments during a movement of said first series of knitting implements in the opposite direction.
6. In a flat warp knitting machine as claimed in claim 2, said actuating drive including controlling means adjusted for imparting said additional movement to said second series of knitting implements during a standstill of said first series of knitting implements.
'7. In a flat warp knitting machine as claimed in claim 2, said actuating drive including controlling means adjusted for imparting said additional movement to said second series of knitting implements during a movement of said secondseries of knitting implements toward the direction of the strokes of said first series of knitting implements. 8. In a flatwarp knitting machine as claime in claim 2, said first series of knitting implements being arranged in the machine for reciprocating movements in an upward and downward direction. 9. A fiat warp knitting machine comprising: a needle bar carrying a series of needles and arranged f or reciprocating movements substantially in the direction of the longitudinal axis of the needles, a needle bar drive associated with said needle bar for imparting periodic reciprocating movements to said series of needles substantially in the direction of the longitudinal axis of the needles, a sinker bar carrying a series of sinkers arranged for knocking over knitted fabric over said needles and arranged for movements transversely of and substantially in the direction of the longitudinal axis of said needles, a sinker bar drive associated with said sinker bar for imparting at predetermined intervals periodic move-, ments transversely of the longitudinal axis f the needles to said series of sinkers, said sinker bar being further reciprocable substantially in the direction of the strokes of said needles, .an actuating drive associated with said sinker bar for imparting at predetermined intervals an additional movement to said sinker bar and said series of sinkers in a direction opposite to the direction of movement performed by said series of needles during a stroke thereof whereby the length of such a stroke of said needles may be reduced in accordance with the length Of the additional movement of said series of sinkers.
10. In a fiat warp knitting machine as claimed in claim 9, said actuating drive being coupled with said sinker bar drive. j
11. In a flat warp knitting machine as claimed in claim 9, said sinker bar drive including a linkmechanism, and said actuating drive being in operative connection with said link-mechanism.
12. In a fiat warp knitting machine as claimed in claim 9, said sinker bar drive including swingable supporting arms and a mechanism for rocking same at predetermined intervals, said sinker bar being mounted on said supporting arms, said actuating drive including reciprocable actuating means and a mechanism for imparting periodic reciprocating movements to said actuating means, and said actuating means being in operative connection with said supporting arms. 7
13. In a fiat warp knitting machine as claimed in claim 9, said actuating drive including reciprocable actuating elements and a mechanism for imparting periodic reciprocating movements to said actuating elements, said sinker bar drive including swingable supporting arms and a mechanism for rocking same at predetermined intervals, said sinker bar being mounted on said supporting arms, and said supporting arms being swingably mounted on said actuating lements.
,- 14. In a flat warp knitting machine as claimed in claim 9, said actuating drive including swingable actuating levers and a mechanism for rocking same at predetermined intervals, said sinker 15.- In a flat warpknitting machine as claimed in claim 9, said actuating drive including controlling means adjusted for imparting said additional movement to said series of sinkers during a movement of said series of needles in the opposite direction.
16. In a flat warp knitting machine as claimed in claim 9, said actuating drive including controlling means adjusted for impartingsaid additional movement to said series of sinkers during a standstill of said series of needles.
17. In a fiat warp knitting machine as claimed 10 10 19. In a flat warp knitting machine as claimed in claim 9, said series of needles being arranged in the machine for reciprocating movements in an upward and downward direction.
FRITZ LAMBACH.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Number Name Date 2,143,609 Morton et a1. Jan. 10, 1939 2,333,697 Boaler et a1 Nov. 9, 1943 15 2,339,153 Cotterill' Jan. 11, 1944 FOREIGN PATENTS Number Country Date 5,235 Great Britain 1884 5,274 Great Britain 1884 201,188 Great Britain July 25, 1923 471,147 Great Britain Aug. 23, 1937
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US596362A US2451498A (en) | 1945-05-28 | 1945-05-28 | Flat warp knitting machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US596362A US2451498A (en) | 1945-05-28 | 1945-05-28 | Flat warp knitting machine |
Publications (1)
Publication Number | Publication Date |
---|---|
US2451498A true US2451498A (en) | 1948-10-19 |
Family
ID=24387012
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US596362A Expired - Lifetime US2451498A (en) | 1945-05-28 | 1945-05-28 | Flat warp knitting machine |
Country Status (1)
Country | Link |
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US (1) | US2451498A (en) |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2508209A (en) * | 1945-10-15 | 1950-05-16 | Vanity Fair Mills Inc | Knitting machine and method |
US2959948A (en) * | 1955-02-04 | 1960-11-15 | Hobourn F N F Ltd | Flat warp knitting machines |
US2984998A (en) * | 1957-10-30 | 1961-05-23 | Liebrandt | Driving mechanism for warp knitting machines |
US2986909A (en) * | 1957-10-29 | 1961-06-06 | Liebrandt | Driving mechanism for knitting tools of warp knitting machines |
US3444702A (en) * | 1966-03-10 | 1969-05-20 | Karl Kohl | Stroke control device for the needle bar mechanism of a warp knitting machine |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB201188A (en) * | 1922-01-25 | 1923-07-25 | Augustin Serra | A method of and means for the manufacture of an improved knitted fabric |
GB471147A (en) * | 1936-02-21 | 1937-08-23 | James Morton | Improvements in knitting machinery |
US2143609A (en) * | 1937-01-07 | 1939-01-10 | Fnf Ltd | Knitting machinery |
US2333697A (en) * | 1940-02-03 | 1943-11-09 | Celanese Corp | Knitting machine |
US2339153A (en) * | 1941-07-17 | 1944-01-11 | Courtaulds Ltd | Warp knitting machine |
-
1945
- 1945-05-28 US US596362A patent/US2451498A/en not_active Expired - Lifetime
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB201188A (en) * | 1922-01-25 | 1923-07-25 | Augustin Serra | A method of and means for the manufacture of an improved knitted fabric |
GB471147A (en) * | 1936-02-21 | 1937-08-23 | James Morton | Improvements in knitting machinery |
US2143609A (en) * | 1937-01-07 | 1939-01-10 | Fnf Ltd | Knitting machinery |
US2333697A (en) * | 1940-02-03 | 1943-11-09 | Celanese Corp | Knitting machine |
US2339153A (en) * | 1941-07-17 | 1944-01-11 | Courtaulds Ltd | Warp knitting machine |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2508209A (en) * | 1945-10-15 | 1950-05-16 | Vanity Fair Mills Inc | Knitting machine and method |
US2959948A (en) * | 1955-02-04 | 1960-11-15 | Hobourn F N F Ltd | Flat warp knitting machines |
US2986909A (en) * | 1957-10-29 | 1961-06-06 | Liebrandt | Driving mechanism for knitting tools of warp knitting machines |
US2984998A (en) * | 1957-10-30 | 1961-05-23 | Liebrandt | Driving mechanism for warp knitting machines |
US3444702A (en) * | 1966-03-10 | 1969-05-20 | Karl Kohl | Stroke control device for the needle bar mechanism of a warp knitting machine |
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