EP0874077B1 - Jacquerd pattern control mechanism for a circular knitting machine - Google Patents
Jacquerd pattern control mechanism for a circular knitting machine Download PDFInfo
- Publication number
- EP0874077B1 EP0874077B1 EP98302552A EP98302552A EP0874077B1 EP 0874077 B1 EP0874077 B1 EP 0874077B1 EP 98302552 A EP98302552 A EP 98302552A EP 98302552 A EP98302552 A EP 98302552A EP 0874077 B1 EP0874077 B1 EP 0874077B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- rocker bar
- rocker
- end portions
- permanent magnet
- knitting machine
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Classifications
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- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04B—KNITTING
- D04B15/00—Details of, or auxiliary devices incorporated in, weft knitting machines, restricted to machines of this kind
- D04B15/66—Devices for determining or controlling patterns ; Programme-control arrangements
- D04B15/82—Devices for determining or controlling patterns ; Programme-control arrangements characterised by the needle cams used
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- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04B—KNITTING
- D04B15/00—Details of, or auxiliary devices incorporated in, weft knitting machines, restricted to machines of this kind
- D04B15/66—Devices for determining or controlling patterns ; Programme-control arrangements
- D04B15/68—Devices for determining or controlling patterns ; Programme-control arrangements characterised by the knitting instruments used
- D04B15/78—Electrical devices
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- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04B—KNITTING
- D04B15/00—Details of, or auxiliary devices incorporated in, weft knitting machines, restricted to machines of this kind
- D04B15/06—Sinkers
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- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04B—KNITTING
- D04B15/00—Details of, or auxiliary devices incorporated in, weft knitting machines, restricted to machines of this kind
- D04B15/24—Sinker heads; Sinker bars
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- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04B—KNITTING
- D04B15/00—Details of, or auxiliary devices incorporated in, weft knitting machines, restricted to machines of this kind
- D04B15/32—Cam systems or assemblies for operating knitting instruments
- D04B15/322—Cam systems or assemblies for operating knitting instruments in circular knitting machines with needle cylinder and dial
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- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04B—KNITTING
- D04B35/00—Details of, or auxiliary devices incorporated in, knitting machines, not otherwise provided for
- D04B35/02—Knitting tools or instruments not provided for in group D04B15/00 or D04B27/00
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- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04B—KNITTING
- D04B37/00—Auxiliary apparatus or devices for use with knitting machines
- D04B37/02—Auxiliary apparatus or devices for use with knitting machines with weft knitting machines
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- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04B—KNITTING
- D04B9/00—Circular knitting machines with independently-movable needles
- D04B9/26—Circular knitting machines with independently-movable needles for producing patterned fabrics
Definitions
- the present invention relates to circular knitting machines and, more particularly, to a jacquard pattern control mechanism therefor.
- Jacquard knitting on a circular knitting machine requires needle selection of specific knitting needles being switched between active and inactive positions. Such needle selection is typically provided by jacquard pattern control mechanisms which include pattern selection devices. Such jacquard control mechanisms, including their pattern selection devices, are discussed in United States Patent No. 5,689,977.
- prior pattern selection devices combining a permanent magnet and an electromagnet required a plurality of control electromagnets in order to function properly.
- such devices were required to limit the size of the electromagnets such that the magnetic attraction generated thereby would not be stronger than that of the permanent magnet. Therefore, both the permanent magnet and the electromagnets had to be quite large which caused spatial problems in the knitting machines.
- the electromagnetic selecting device or mechanism includes a rocker bar having first and second attractable portions at its opposite ends and magnetic attracting means comprising a permanent magnet and first and second electromagnets connected to opposite sides of the permanent magnet in series.
- the electromagnets include first and second cores and first and second coils, with the cores having one end thereof disposed in attracting relation to a portion of the first and second attractable portions of the rocker bar.
- the permanent magnet includes a center tip extending therefrom into juxtaposed relation to the medial portion of the rocker bar and having a pair of wings extending outwardly therefrom toward the ends of the cores and into juxtaposed relation to portions of the first and second attractable portions of the rocker bar.
- Circular knitting machine 20 includes a rotary cylinder 21 having a multiplicity of grooves (not shown) therein.
- a knitting needle 22 is mounted for vertical sliding movement in each of the grooves in the needle cylinder 21 .
- Circular knitting machine 20 further includes a cam block 23 mounted adjacent the periphery of the needle cylinder 21.
- Cam block 23 mounts a needle cam (not shown) for raising and lowering the needles 22 between an active (knitting) position and an inactive (welting) position.
- a rotary sinker cap or dial 25 is mounted on top of the needle cylinder 21 and has a multiplicity of grooves 26 extending radially from the outer periphery to the inner periphery thereof.
- a sinker 27 is slidably mounted in each of the sinker grooves 26 for movement between an active (extended) position and an inactive (retracted) position.
- a sinker cam block 30 is mounted above the sinker cap 25 and mounts on its lower surface an inner sinker cam 31 and an outer sinker cam 32 in facing relation to the grooves 26 and sinker cap 25 .
- Sinker 27 has a main section 27a and an extension section 27b.
- the outer end of the main section 27a defines a vertical edge 27c .
- a butt 27d protrudes upwardly from extension section 27b and has vertical edges 27e and 27f .
- the main section 27a has a nose 27g defining a first top edge 27h for forming pile loops from a pile yarn PY .
- Main section 27a has a second top edge 27i for forming ground or nonpile stitch loops from a ground yarn GY .
- Pile yarn PY and ground yarn GY are fed to the needles 22 by a yarn carrier 28 ( Figures 7-12).
- Cam 31 has a side edge 31a that engages the vertical edge 27c of sinker 27 and a side edge 31b which cooperates with a side edge 32a on cam 32 to define a cam track 33 which receives the butt 27d and controls sinker 27 by engagement of side edge 31b with vertical edge 27e and side edge 32a with vertical edge 27f.
- Cam 32 has another side edge 32b, the function of which will be described presently.
- An intermediate member 34 is disposed in each sinker groove in sinker cap 25 outwardly of sinker 27 ( Figures 8-13). Intermediate member 34 has a butt 34a thereon which has a first vertical edge 34b and a second vertical edge 34c ( Figure 7).
- a first intermediate cam 35 is mounted on cam block 30 adjacent cam 32 and has a first side edge 35a which cooperates with side edge 32b of cam 32 to define a cam track 36.
- Cam track 36 receives butt 34a on intermediate member 34 and controls and moves intermediate member 34 by engagement with side edge 32b with vertical edge 34b and side edge 35a with vertical edge 34c ( Figure 7).
- a second intermediate cam 37 is disposed in cam track 36 and has a first side edge 37a and a second side edge 37b.
- Side edge 37a has a first slope or angled section 37a 1 and a second straight section 37a 2 .
- Side edge 37b of cam 37 is straight and parallel to side edge 35a of cam 35.
- Cam 37 divides cam track 36 into two branches 36a and 36b. If butt 34a on intermediate member 34 is caused to follow branch 36a of cam track 36, side edge 37a of cam 37 engages vertical edge 34c of butt 34a and moves intermediate member 34 into contact with sinker 27 and moves sinker 27 further toward the needles 22. Such movement brings the nose 27g of sinker 27 into operative position to form pile loops over top edge 27h. Thereafter, side edge 32b returns intermediate member 34 back to its retracted position which corresponds to branch 36b of cam track 36.
- the second intermediate cam 37 is preferably mounted on cam block 30 for movement between an extended, operative position and a retracted, inoperative position ( Figures 12A and 12B).
- cam block 30 is provided with a recess 30a into which an inner end of a threaded operating member 38 extends.
- Cam 37 is mounted on the inner end of operating member 38 by receiving this inner end in a cavity in cam 37 .
- This cavity is larger than the inner end of operating member 38 such that cam 37 may move a predetermined amount longitudinally or axially of operating member 38.
- a coil spring is positioned around operating member 38 between cam 37 and the bottom of recess to bias cam 37 toward the inner end of operating member 38 and toward its operative position.
- cam 37 protects the butt 34a from damage from outside forces which may act thereon.
- a rocker bar supporting member 40 ( Figures 7-14) is slidably mounted in each sinker groove 26 outwardly of intermediate member 34.
- Rocker bar supporting member 40 includes an inner end section 41, the lower portion of which is received in sinker groove 26 and the upper portion of which includes a butt 41a.
- Butt 41a includes a first vertical edge 41b and a second vertical edge 41c.
- Rocker bar supporting member 40 includes a medial section 42 having a central portion 42a and opposite end portions 42b and 42c .
- the lower portion of central portion 42a is received in sinker groove 26 and the upper portion of which has a recess or socket 42d therein.
- Opposite end portions 42b and 42c of medial section 42 are of less height than central portion 42a such that the top edges thereof are recessed below the top edge of the central portion 42a.
- rocker bar supporting member 40 includes an outer end section 43, the lower portion of which is received in sinker groove 26.
- a rocker bar 44 is mounted on the medial section 42 of rocker bar supporting member 40 for pivotal movement by a circular pivot protrusion 44a which is received in socket 42d.
- Rocker bar 44 has symmetrical opposite end portions 44b and 44c which are beveled, wedge-shaped at their outer extremities at 44d and 44e .
- the lower portions of opposite end portions 44b and 44c are bulbous-shaped and serve to engage the upper ends of end portions 42b and 42c of medial section 42 of rocker bar supporting member 40 to limit the pivotal movement of rocker bar 44 .
- the upper sections 44f and 44g of end portions 44b and 44c are magnetically attractable and are raised above the central portion of rocker bar 44 .
- a rocker bar supporting member cam 46 is carried by cam block 30 adjacent cam 35.
- Cam 46 has a side edge 46a which is straight and spaced from a second side edge 35b of cam 35 to define therewith a cam track 47 which receives and controls butt 41a on rocker bar supporting member 40.
- Cam 35 has a concave section 35c in its second side edge 35b corresponding to the location of second intermediate cam 37.
- Cam 46 has a second side edge 46b which is positioned to engage wedge-shaped end 44d of rocker bar 44 when rocker bar 44 is pivoted to have end portion 44b extended to maintain the rocker bar 44 and rocker bar supporting member 40 in the inactive, retracted position.
- a rocker bar actuating cam 48 is mounted on cam block 30 and has a side edge 48a spaced from side edge 46b a distance equal to the length of rocker bar 44 . Side edge 48a engages the wedge-shaped end 44e when rocker bar 44 is pivoted to position end portion 44c in extended position.
- Cam 48 has a protruding portion 48b in side edge 48a in alignment with and of the same shape as the concave section 35c in side edge 35b of cam 35.
- the protruding portion 48b preferably has a trapezial-shaped cross section corresponding to the wedge-shaped end 44e of rocker bar 44.
- a cancelling cam 49 is positioned above the path of travel of rocker bar 44 and includes an upperly and outwardly sloped surface 49a to engage a pivoted or tilted rocker bar 44 and cam rocker bar 44 back to a level or neutral position.
- Cancelling cam 49 will function irrespective of the direction in which rocker bar 44 is pivoted.
- cancelling cam 49 is constructed of an antimagnetic material so that it effectively weakens leaking magnetic attraction from the permanent magnet.
- a magnetic attraction selection device is positioned immediately downstream of cancelling cam 49 and above the path of travel of rocker bar 44 such that the rocker bar 44 on the rocker bar supporting member 40 passes closely therebeneath.
- Selection device 50 is positioned upstream of protruding portion 48b of cam 48 .
- Selection device 50 includes two magnetic attraction means 51 and 52 ( Figures 2, 7 and 14) disposed in position to attract magnetically the magnetic attractable sections 44f and 44g, respectively, of rocker bar 44 when rocker bar 44 passes therebeneath ( Figures 1, 2, 3 and 4 are shown with the elements upside down).
- magnetic attraction selection device 50 comprises a permanent magnet 53 in the center and first and second electromagnets 54 and 55 on opposite sides thereof, which define the magnetic attraction means 51 and 52.
- Permanent magnet 53 and electromagnets 54 and 55 are all supported by a support member 56 ( Figure 2).
- the permanent magnet 53 has an extension 53a which extends toward rocker bar 44 and has a central section 53b which engages the medial portion of rocker bar 44 to stabilize the same.
- Extension 53a also has two wing portions 53c and 53d extending generally parallel to rocker bar support member 40 and into overlying relation to portions of the magnetic attractable sections 44f and 44g, respectively, of rocker bar 44 when rocker bar 44 is passing therebeneath.
- the extension 53a must be of a magnetic material and may be part of the permanent magnet 53 and, therefore, will be of permanent magnetic material.
- the wings 53c and 53d are tapered or beveled outwardly and upwardly from the center section 53b to the outer ends such that when rocker bar 44 is pivoted the lower surfaces of the wings 53c and 53d will be parallel to the magnetic attractable sections 44f and 44g and spaced therefrom a gap distance of between about 0.5 mm and about 2.0 mm.
- Electromagnets 54 and 55 include first and second exciting coils 54a, 55a on opposite sides of permanent magnet 53 and first and second cores 54b, 55b inside and extending to the left and right, respectively, of the coils 54a, 55a.
- the outer tips 54c, 55c of the cores 54b, 55b are slanted upwardly and outwardly from the inside to the outside to accommodate sufficient pivotal movement of rocker bar 44 without contact with these tips 54c, 55c.
- the magnetically attractable sections 44f and 44g of rocker bar 44 slant downwardly and outwardly for this same reason, with the same gap distance as stated above.
- the coils 54a, 55a are connected in series ( Figures 3 and 4).
- the tips 54c, 55c selectively attract magnetically attractable sections 44f, 44g of rocker bar 44 .
- positive voltage is applied from A to B ( Figure 3)
- the magnetic field of the permanent magnet 53 is shut off by a flux generated by the first electromagnet 54 and this shut off first magnetic field and a flux generated by the second electromagnet 55 are added to the magnetic flux of the first electromagnet 54 creating a stronger magnetic field.
- the core 54b of the first electromagnet 54 selectively attracts the attractable section 44f of the rocker bar 44.
- the electromagnetic selection device 50' includes two magnetic attraction means 51' and 52' disposed in position to attract magnetically the magnetic attractable sections 44f and 44g respectively of rocket bar 44 when rocket bar 44 passes therebeneath.
- magnetic attraction selection device 50' comprises a first permanent magnet 53' in the center and first and second electromagnets 54' and 55' on opposite sides thereof, which define the magnetic attraction means 51' and 52'.
- Permanent magnet 53' and electromagnets 54' and 55' are identical to the permanent magnet 53 and electromagnets 54 and 55 described above and will, therefore, not be described again.
- Electromagnets 54' and 55' include first and second cores 54b' and 55b' .
- Cores 54b ' and 55b' include second and third permanent magnets 70, 71 .
- the second and third permanent magnets 70, 71 By providing the second and third permanent magnets 70, 71 underneath the tips 54c' and 55c', even when the next signal for attraction of the rocker bar 44 is sent to the electromagnets 54', 55' , the second and third permanent magnets 70, 71 continue attracting the attractable sections 44f and 44g of the rocker bar 44.
- the electromagnetic selection device when the electromagnetic selection device is used in a circular knitting machine, after a needle selection has been performed, the electromagnetic selection device will receive no influence of the next needle selection signal. Therefore, there will be much less needle selection errors even at high speed operation.
- sinker 27 When sinker 27 is to be advanced, a signal from a controller (not shown) is sent to the magnetic selection device 50 or 50' to cause electromagnetic electromagnet 55 to attract magnetically attractable section 44g of rocker bar 44 to pivot rocket bar 44 and move wedged-shaped end 44e in extended position ( Figure 14).
- a signal from a controller (not shown) is sent to the magnetic selection device 50 or 50' to cause electromagnetic electromagnet 55 to attract magnetically attractable section 44g of rocker bar 44 to pivot rocket bar 44 and move wedged-shaped end 44e in extended position ( Figure 14).
- ground yarn GY is supplied from yarn carrier 28 and crosses over top edge 27i of sinker 27 and is fed to the knitting needle 22.
- rocker bar supporting member 40 engages and pushes inwardly intermediate member 34 such that butt 34a engages the inwardly slanting section 37a 1 of side edge 37a of second intermediate cam 37 which pushes intermediate member 34 even further inwardly toward cylinder 21.
- Intermediate member 34 engages sinker 27 and advances sinker 27 to its most extended inward position in which nose 27g is in position to receive pile yarn PY from yarn carrier 28 across the top edge 27h thereof to form a pile loop in concert with needle 22.
- the tip of nose 27g of sinker 27 is preferably at least 0.3 mm inward from the circumferential action line L ( Figure 7) of the knitting needle 22. Therefore, formation of a pile loop at least 0.3 mm from the tip of nose 27g is ensured and will prevent such pile loop from prematurely slipping off of top edge 27h of sinker 27 .
- sinker 27 When sinker 27 is not to be advanced, a signal is sent to electromagnet 54 so as to attract magnetically attractable section 44f of rocker bar 44 to pivot rocker bar 44 to extend wedge-shaped end 44d.
- Rocker bar 44 does not engage rocker bar actuating cam 48 and, therefore, rocker bar 44 and rocker bar supporting member 40 do not move inwardly in groove 26 of sinker cap 25. Consequently, intermediate member 34 is not pushed inwardly and butt 34a thereon remains in branch 36b of cam track 36 .
- Sinker 27 is thus only controlled by cam track 33 and both the pile yarn and ground yarn GY are fed to needle 22 and form ground stitch loops across the second top edge 27i of sinker 27.
- the action line L 2 ( Figure 7) shows the action of sinker 27 forming pile and nonpile loops in the knitted fabric.
- rocker bar 44 As each rocker bar 44 approaches the electronic attracting device 50, the rocker bar 44 is preferably aligned to be horizontal by the cancelling cam 49 . The rocker bar 44 is thus always in the neutral position when it reaches the magnetic selecting device 50 or 50'.
- the North pole and the South pole of the permanent magnet 53 are arranged outward and inward respectively.
- this electromagnetic selecting device 50, 50' is employed as a sinker control in a circular knitting machine, alternating the poles between mutually adjacent yarn feeders eliminates residual magnetism in the rocker bar 44.
- control signals for other action or nonaction from the control apparatus can have the same polarity for every yarn feeder.
- the sinker control mechanism of the present invention it is possible to select "pile” or “non-pile” in accordance with the pattern signal output from the controller and knit a jacquard pile fabric with a profiled surface.
- the application of the present invention is not restricted to knitting machines for manufacturing jacquard pile fabrics.
- the present invention contemplates application of the jacquard selection mechanism to a wide variety of knitting machines in which knitting elements, such as sinkers, cylinder needles, dial needles and jacquards, to name just a few, are selectively controlled in at least two different paths.
- the electronic magnetic selection device of the present invention minimizes needle selection errors by minimizing the influence from the previous or subsequent signals to the electronic selection device 50 or 50' .
- a rocker bar 44 and its associated electromagnetic selection means 51 and 52 receive a first signal at a needle selection point, this first rocker bar 44 moves for a certain distance in the rotational direction of the knitting machine before a subsequent signal is sent to the electromagnetic selecting device 50 or 50' for the next rocker bar 44.
- the subsequent signal is sent to the electromagnetic selecting device 50 or 50' is of opposite polarity from the immediately preceding signal, the potential for the second signal being influenced by the first signal was present.
- the length of the moving distance of the previous rocker bar i.e. the longer the pitch between the rocker bars, and the lower the needle-selection current to the electromagnetic selection device 50 , the less influence from the previous or subsequent signals occurs and, therefore, a more stable needle selection is achieved.
- Model 1 represents a gap distance between the tips of 54c and 55c and the attractable sections 44f and 44g to be 1.0 mm with a single permanent magnet 53 associated therewith.
- Model 2 shows a gap of 1.0 mm with two permanent magnets 70 and 71 associated with the cores 54b', 55b' of the electromagnets 54' and 55' , while Model 3 employs a gap of 5.0 mm and one permanent magnet 53.
- Model 3 has the weakest attraction while Model 1 has a stronger attraction than Model 3. However, Model 2 has the strongest attraction of all.
- the electromagnetic selecting mechanism 50 or 50' of the present invention when, used in a jacquard circular knitting machine, occupies considerable less space within the knitting machine. Further, because the electromagnetic selecting mechanism of the present invention has a strong magnetic field, needle selection errors are minimized.
- a further advantage of the present invention is that the rocker bar 44 does not employ a projecting butt, but instead the end portions 44d and 44e of the rocker bar 44 engage directly against the rocker bar raising cam 48. Therefore, the rocker bar 44 does not slip off of the rocker bar raising cam 48 and this eliminates selection errors. In addition, the danger of butt breakage is minimal or nonexistent.
- the rocker bar 44 is the only item to be controlled, the magnetic attracting means 51 and 52 may also be made compact.
- the electronic magnetic selecting device 50 or 50' can be computer controlled and, therefore, fabrics of a wide variety of patterns can be produced.
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- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Knitting Machines (AREA)
Description
- The present invention relates to circular knitting machines and, more particularly, to a jacquard pattern control mechanism therefor.
- Jacquard knitting on a circular knitting machine requires needle selection of specific knitting needles being switched between active and inactive positions. Such needle selection is typically provided by jacquard pattern control mechanisms which include pattern selection devices. Such jacquard control mechanisms, including their pattern selection devices, are discussed in United States Patent No. 5,689,977.
- As is stated in United States Patent No. 5,689,977, prior pattern selection devices combining a permanent magnet and an electromagnet required a plurality of control electromagnets in order to function properly. In addition, such devices were required to limit the size of the electromagnets such that the magnetic attraction generated thereby would not be stronger than that of the permanent magnet. Therefore, both the permanent magnet and the electromagnets had to be quite large which caused spatial problems in the knitting machines.
- Many of these problems and deficiencies have been solved in United States Patent No. 5,689,977 by pattern selection devices embodying both a permanent magnet and an electromagnet working in concert to provide the necessary magnetic attraction while using small magnets. The present invention is an improvement on the invention of United States Patent No. 5,689,977.
- It is an object of the present invention to provide a jacquard control mechanism for a circular knitting machine that provides an improved electromagnetic pattern selection device producing even stronger magnetic attraction than has been achieved heretofore by comparable sized magnets.
- The invention resides in a circular knitting machine as set forth in claim 1 hereof. In one embodiment, the electromagnetic selecting device or mechanism includes a rocker bar having first and second attractable portions at its opposite ends and magnetic attracting means comprising a permanent magnet and first and second electromagnets connected to opposite sides of the permanent magnet in series. The electromagnets include first and second cores and first and second coils, with the cores having one end thereof disposed in attracting relation to a portion of the first and second attractable portions of the rocker bar. The permanent magnet includes a center tip extending therefrom into juxtaposed relation to the medial portion of the rocker bar and having a pair of wings extending outwardly therefrom toward the ends of the cores and into juxtaposed relation to portions of the first and second attractable portions of the rocker bar.
- In order that the present invention may be more readily understood, reference will now be made to the accompanying drawings, in which:-
- Figure 1 is a fragmentary schematic view of the electromagnetic selecting mechanism of the present invention;
- Figure 2 is a side elevation of the mechanism shown in Figure 1 taken substantially along line 2-2 in Figure 1;
- Figure 3 is a schematic view of the mechanism of Figure 2 and illustrating the lines of magnetic force generated when a positive voltage is applied thereto;
- Figure 4 is a schematic view similar to Figure 3 illustrating the lines of magnetic force generated when a negative voltage is applied thereto;
- Figure 5 is a view similar to Figure 1 of another embodiment of the electromagnetic selecting mechanism of the present invention;
- Figure 6 is a fragmentary, vertical sectional view taken substantially along line 6-6 in Figure 5;
- Figure 7 is a fragmentary, schematic view of cams, needle, sinker and operating elements of a jacquard control mechanism of the present invention;
- Figure 8 is a fragmentary vertical sectional view taken substantially along line 8-8 in Figure 7;
- Figure 9 is a fragmentary vertical sectional view taken substantially along line 9-9 in Figure 7;
- Figure 10A is a fragmentary vertical sectional view taken substantially along line 10-10 in Figure 7 with the sinker in its pile forming operational position;
- Figure 10B is a view similar to Figure 10A with the sinker in its non-pile forming operational position;
- Figure 11A is a fragmentary vertical section taken substantially along line 11-11 in Figure 7 with the sinker in its pile forming position;
- Figure 11B is a view similar to Figure 11A with the sinker in its non-pile forming position;
- Figure 12A is a fragmentary, vertical sectional view taken substantially along line 12-12 in
- Figure 7 with the sinker in its pile forming position;
- Figure 12B is a view similar to Figure 12A with the sinker in its non-pile forming position;
- Figure 13 ia a fragmentary, vertical sectional view taken substantially along line 13-13 in Figure 7;
- Figure 14 is an enlarged, fragmentary perspective view of the rocker bar supporting member, rocker bar, rocker bar cam and electromagnetic selection mechanism of the present invention;
- Figure 15A is a schematic view of a still further embodiment of the electromagnetic selecting mechanism of the present invention with wiring for the selection of even numbered knitting elements; and
- Figure 15B is a view similar to Figure 15A with wiring for the selection of odd numbered knitting elements.
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- Referring now more specifically to the drawings and particularly to Figures 7-14, there is illustrated schematically and sectionally the core part of a circular knitting machine, generally indicated at 20, which incorporates the jacquard pattern control mechanism of the present invention.
Circular knitting machine 20 includes a rotary cylinder 21 having a multiplicity of grooves (not shown) therein. A knittingneedle 22 is mounted for vertical sliding movement in each of the grooves in the needle cylinder 21. -
Circular knitting machine 20 further includes acam block 23 mounted adjacent the periphery of the needle cylinder 21.Cam block 23 mounts a needle cam (not shown) for raising and lowering theneedles 22 between an active (knitting) position and an inactive (welting) position. - A rotary sinker cap or
dial 25 is mounted on top of the needle cylinder 21 and has a multiplicity ofgrooves 26 extending radially from the outer periphery to the inner periphery thereof. Asinker 27 is slidably mounted in each of thesinker grooves 26 for movement between an active (extended) position and an inactive (retracted) position. Asinker cam block 30 is mounted above thesinker cap 25 and mounts on its lower surface an inner sinker cam 31 and anouter sinker cam 32 in facing relation to thegrooves 26 andsinker cap 25. - Sinker 27 has a main section 27a and an extension section 27b. The outer end of the main section 27a defines a vertical edge 27c. A
butt 27d protrudes upwardly from extension section 27b and has vertical edges 27e and 27f. The main section 27a has a nose 27g defining a first top edge 27h for forming pile loops from a pile yarn PY. Main section 27a has a secondtop edge 27i for forming ground or nonpile stitch loops from a ground yarn GY. Pile yarn PY and ground yarn GY are fed to theneedles 22 by a yarn carrier 28 (Figures 7-12). - Cam 31 has a side edge 31a that engages the vertical edge 27c of
sinker 27 and a side edge 31b which cooperates with a side edge 32a oncam 32 to define acam track 33 which receives thebutt 27d and controlssinker 27 by engagement of side edge 31b with vertical edge 27e and side edge 32a with vertical edge 27f. Cam 32 has another side edge 32b, the function of which will be described presently. - An
intermediate member 34 is disposed in each sinker groove insinker cap 25 outwardly of sinker 27 (Figures 8-13).Intermediate member 34 has abutt 34a thereon which has a first vertical edge 34b and a second vertical edge 34c (Figure 7). A firstintermediate cam 35 is mounted oncam block 30adjacent cam 32 and has a first side edge 35a which cooperates with side edge 32b ofcam 32 to define acam track 36.Cam track 36 receivesbutt 34a onintermediate member 34 and controls and movesintermediate member 34 by engagement with side edge 32b with vertical edge 34b and side edge 35a with vertical edge 34c (Figure 7). A secondintermediate cam 37 is disposed incam track 36 and has a first side edge 37a and a second side edge 37b. Side edge 37a has a first slope or angled section 37a1 and a second straight section 37a2 . Side edge 37b ofcam 37 is straight and parallel to side edge 35a ofcam 35. Cam 37 dividescam track 36 into two branches 36a and 36b. Ifbutt 34a onintermediate member 34 is caused to follow branch 36a ofcam track 36, side edge 37a ofcam 37 engages vertical edge 34c ofbutt 34a and movesintermediate member 34 into contact withsinker 27 and movessinker 27 further toward theneedles 22. Such movement brings the nose 27g ofsinker 27 into operative position to form pile loops over top edge 27h. Thereafter, side edge 32b returnsintermediate member 34 back to its retracted position which corresponds to branch 36b ofcam track 36. - The second
intermediate cam 37 is preferably mounted oncam block 30 for movement between an extended, operative position and a retracted, inoperative position (Figures 12A and 12B). Accordingly,cam block 30 is provided with a recess 30a into which an inner end of a threadedoperating member 38 extends.Cam 37 is mounted on the inner end of operatingmember 38 by receiving this inner end in a cavity incam 37. This cavity is larger than the inner end of operatingmember 38 such thatcam 37 may move a predetermined amount longitudinally or axially of operatingmember 38. A coil spring is positioned around operatingmember 38 betweencam 37 and the bottom of recess to biascam 37 toward the inner end of operatingmember 38 and toward its operative position. Thus,cam 37 protects thebutt 34a from damage from outside forces which may act thereon. - A rocker bar supporting member 40 (Figures 7-14) is slidably mounted in each
sinker groove 26 outwardly ofintermediate member 34. Rockerbar supporting member 40 includes aninner end section 41, the lower portion of which is received insinker groove 26 and the upper portion of which includes abutt 41a.Butt 41a includes a first vertical edge 41b and a second vertical edge 41c. - Rocker
bar supporting member 40 includes amedial section 42 having a central portion 42a and opposite end portions 42b and 42c. The lower portion of central portion 42a is received insinker groove 26 and the upper portion of which has a recess or socket 42d therein. Opposite end portions 42b and 42c ofmedial section 42 are of less height than central portion 42a such that the top edges thereof are recessed below the top edge of the central portion 42a. Finally, rockerbar supporting member 40 includes anouter end section 43, the lower portion of which is received insinker groove 26. - A
rocker bar 44 is mounted on themedial section 42 of rockerbar supporting member 40 for pivotal movement by acircular pivot protrusion 44a which is received in socket 42d.Rocker bar 44 has symmetrical opposite end portions 44b and 44c which are beveled, wedge-shaped at their outer extremities at 44d and 44e. The lower portions of opposite end portions 44b and 44c are bulbous-shaped and serve to engage the upper ends of end portions 42b and 42c ofmedial section 42 of rockerbar supporting member 40 to limit the pivotal movement ofrocker bar 44. The upper sections 44f and 44g of end portions 44b and 44c are magnetically attractable and are raised above the central portion ofrocker bar 44. - A rocker bar supporting
member cam 46 is carried bycam block 30adjacent cam 35.Cam 46 has a side edge 46a which is straight and spaced from a second side edge 35b ofcam 35 to define therewith a cam track 47 which receives and controlsbutt 41a on rockerbar supporting member 40.Cam 35 has a concave section 35c in its second side edge 35b corresponding to the location of secondintermediate cam 37. -
Cam 46 has a second side edge 46b which is positioned to engage wedge-shapedend 44d ofrocker bar 44 whenrocker bar 44 is pivoted to have end portion 44b extended to maintain therocker bar 44 and rockerbar supporting member 40 in the inactive, retracted position. A rockerbar actuating cam 48 is mounted oncam block 30 and has a side edge 48a spaced from side edge 46b a distance equal to the length ofrocker bar 44. Side edge 48a engages the wedge-shapedend 44e whenrocker bar 44 is pivoted to position end portion 44c in extended position.Cam 48 has a protruding portion 48b in side edge 48a in alignment with and of the same shape as the concave section 35c in side edge 35b ofcam 35. The protruding portion 48b preferably has a trapezial-shaped cross section corresponding to the wedge-shapedend 44e ofrocker bar 44. - Upstream of protruding portion 48b of
cam 48, a cancelling cam 49 is positioned above the path of travel ofrocker bar 44 and includes an upperly and outwardlysloped surface 49a to engage a pivoted or tiltedrocker bar 44 andcam rocker bar 44 back to a level or neutral position. Cancelling cam 49 will function irrespective of the direction in whichrocker bar 44 is pivoted. Preferably, cancelling cam 49 is constructed of an antimagnetic material so that it effectively weakens leaking magnetic attraction from the permanent magnet. - A magnetic attraction selection device, generally indicated at 50, is positioned immediately downstream of cancelling cam 49 and above the path of travel of
rocker bar 44 such that therocker bar 44 on the rockerbar supporting member 40 passes closely therebeneath.Selection device 50 is positioned upstream of protruding portion 48b ofcam 48. -
Selection device 50 includes two magnetic attraction means 51 and 52 (Figures 2, 7 and 14) disposed in position to attract magnetically the magnetic attractable sections 44f and 44g, respectively, ofrocker bar 44 whenrocker bar 44 passes therebeneath (Figures 1, 2, 3 and 4 are shown with the elements upside down). Preferably, magneticattraction selection device 50 comprises apermanent magnet 53 in the center and first andsecond electromagnets Permanent magnet 53 andelectromagnets permanent magnet 53 has an extension 53a which extends towardrocker bar 44 and has a central section 53b which engages the medial portion ofrocker bar 44 to stabilize the same. Extension 53a also has two wing portions 53c and 53d extending generally parallel to rockerbar support member 40 and into overlying relation to portions of the magnetic attractable sections 44f and 44g, respectively, ofrocker bar 44 whenrocker bar 44 is passing therebeneath. - The extension 53a must be of a magnetic material and may be part of the
permanent magnet 53 and, therefore, will be of permanent magnetic material. The wings 53c and 53d are tapered or beveled outwardly and upwardly from the center section 53b to the outer ends such that whenrocker bar 44 is pivoted the lower surfaces of the wings 53c and 53d will be parallel to the magnetic attractable sections 44f and 44g and spaced therefrom a gap distance of between about 0.5 mm and about 2.0 mm. - Electromagnets 54 and 55 include first and second
exciting coils permanent magnet 53 and first and second cores 54b, 55b inside and extending to the left and right, respectively, of thecoils rocker bar 44 without contact with these tips 54c, 55c. Also preferably, the magnetically attractable sections 44f and 44g ofrocker bar 44 slant downwardly and outwardly for this same reason, with the same gap distance as stated above. Thecoils - By applying positive or negative voltage to the
electromagnets rocker bar 44. For example, when positive voltage is applied from A to B (Figure 3), the magnetic field of thepermanent magnet 53 is shut off by a flux generated by thefirst electromagnet 54 and this shut off first magnetic field and a flux generated by thesecond electromagnet 55 are added to the magnetic flux of thefirst electromagnet 54 creating a stronger magnetic field. At this time, the core 54b of thefirst electromagnet 54 selectively attracts the attractable section 44f of therocker bar 44. - As shown in Figure 4, when a negative voltage is applied from B to A, the magnetic field of the
permanent magnet 53 is shut-off by the flux generated by thesecond electromagnet 55 and the shut-off magnetic field from thepermanent magnet 53 and the flux generated by thefirst electromagnet 54 are added to the first magnetic flux of thesecond electromagnet 55, creating a stronger magnetic field. At this time, the core 55b of thesecond electromagnet 55 selectively attracts the attractable section 44g of therocker bar 44. - Referring now to Figures 5 and 6, another embodiment of the electromagnetic selection device 50' of the present invention is illustrated and in which like parts are referred to by like reference characters with the prime notation added. The electromagnetic selection device 50' includes two magnetic attraction means 51' and 52' disposed in position to attract magnetically the magnetic attractable sections 44f and 44g respectively of
rocket bar 44 whenrocket bar 44 passes therebeneath. Preferably, magnetic attraction selection device 50' comprises a first permanent magnet 53' in the center and first and second electromagnets 54' and 55' on opposite sides thereof, which define the magnetic attraction means 51' and 52'. Permanent magnet 53' and electromagnets 54' and 55' are identical to thepermanent magnet 53 andelectromagnets - Electromagnets 54' and 55' include first and second cores 54b' and 55b'. Cores 54b' and 55b' include second and third permanent magnets 70, 71. By providing the second and third permanent magnets 70, 71 underneath the tips 54c' and 55c', even when the next signal for attraction of the
rocker bar 44 is sent to the electromagnets 54', 55', the second and third permanent magnets 70, 71 continue attracting the attractable sections 44f and 44g of therocker bar 44. As a result, when the electromagnetic selection device is used in a circular knitting machine, after a needle selection has been performed, the electromagnetic selection device will receive no influence of the next needle selection signal. Therefore, there will be much less needle selection errors even at high speed operation. - The operation of the various embodiments will now be described. When
sinker 27 is to be advanced, a signal from a controller (not shown) is sent to themagnetic selection device 50 or 50' to causeelectromagnetic electromagnet 55 to attract magnetically attractable section 44g ofrocker bar 44 to pivotrocket bar 44 and move wedged-shapedend 44e in extended position (Figure 14). By this time, ground yarn GY is supplied from yarn carrier 28 and crosses overtop edge 27i ofsinker 27 and is fed to theknitting needle 22. - As
rocker bar 44 moves withrotating sinker cap 25, wedge-shapedend 44e engages the protrusion 48b ofcam 48 androcker bar 44 and rockerbar supporting member 40 are pushed inwardly toward the cylinder 21. Rockerbar supporting member 40 engages and pushes inwardlyintermediate member 34 such thatbutt 34a engages the inwardly slanting section 37a1 of side edge 37a of secondintermediate cam 37 which pushesintermediate member 34 even further inwardly toward cylinder 21. -
Intermediate member 34 engagessinker 27 and advancessinker 27 to its most extended inward position in which nose 27g is in position to receive pile yarn PY from yarn carrier 28 across the top edge 27h thereof to form a pile loop in concert withneedle 22. Whenbutt 34a reaches the straight section 37a2 of side edge 37a of secondintermediate cam 37, the tip of nose 27g ofsinker 27 is preferably at least 0.3 mm inward from the circumferential action line L (Figure 7) of theknitting needle 22. Therefore, formation of a pile loop at least 0.3 mm from the tip of nose 27g is ensured and will prevent such pile loop from prematurely slipping off of top edge 27h ofsinker 27. - While
intermediate member 34 is being pushed further out by secondintermediate cam 37,butt 41a on rockerbar supporting member 40 engages the outwardly slanting portion of concave section 35c of firstintermediate cam 35 which returns rockerbar supporting member 40 and thusrocker bar 44 to their original retracted positions. Of course, it is possible to omitintermediate member 34 and have rockerbar supporting member 40 act directly onsinker 27. Suitable modification of the cam system would also be required. - When
sinker 27 is not to be advanced, a signal is sent toelectromagnet 54 so as to attract magnetically attractable section 44f ofrocker bar 44 to pivotrocker bar 44 to extend wedge-shapedend 44d.Rocker bar 44 does not engage rockerbar actuating cam 48 and, therefore,rocker bar 44 and rockerbar supporting member 40 do not move inwardly ingroove 26 ofsinker cap 25. Consequently,intermediate member 34 is not pushed inwardly andbutt 34a thereon remains in branch 36b ofcam track 36.Sinker 27 is thus only controlled bycam track 33 and both the pile yarn and ground yarn GY are fed toneedle 22 and form ground stitch loops across the secondtop edge 27i ofsinker 27. The action line L2 (Figure 7) shows the action ofsinker 27 forming pile and nonpile loops in the knitted fabric. - As each
rocker bar 44 approaches the electronic attractingdevice 50, therocker bar 44 is preferably aligned to be horizontal by the cancelling cam 49. Therocker bar 44 is thus always in the neutral position when it reaches the magnetic selectingdevice 50 or 50'. - In the electromagnetic selecting
device 50 and 50', the North pole and the South pole of thepermanent magnet 53 are arranged outward and inward respectively. When this electromagnetic selectingdevice 50, 50' is employed as a sinker control in a circular knitting machine, alternating the poles between mutually adjacent yarn feeders eliminates residual magnetism in therocker bar 44. In this manner, if a positive voltage applied toelectromagnets 54 and 55 (Figure 15A) at one yarn feeder is alternated with a negative voltage applied to theelectromagnets - As described above, by using the sinker control mechanism of the present invention, it is possible to select "pile" or "non-pile" in accordance with the pattern signal output from the controller and knit a jacquard pile fabric with a profiled surface. The application of the present invention, however, is not restricted to knitting machines for manufacturing jacquard pile fabrics. The present invention contemplates application of the jacquard selection mechanism to a wide variety of knitting machines in which knitting elements, such as sinkers, cylinder needles, dial needles and jacquards, to name just a few, are selectively controlled in at least two different paths.
- The electronic magnetic selection device of the present invention minimizes needle selection errors by minimizing the influence from the previous or subsequent signals to the
electronic selection device 50 or 50'. Previously, when arocker bar 44 and its associated electromagnetic selection means 51 and 52 receive a first signal at a needle selection point, thisfirst rocker bar 44 moves for a certain distance in the rotational direction of the knitting machine before a subsequent signal is sent to the electromagnetic selectingdevice 50 or 50' for thenext rocker bar 44. When the subsequent signal is sent to the electromagnetic selectingdevice 50 or 50' is of opposite polarity from the immediately preceding signal, the potential for the second signal being influenced by the first signal was present. In general, the length of the moving distance of the previous rocker bar, i.e. the longer the pitch between the rocker bars, and the lower the needle-selection current to theelectromagnetic selection device 50, the less influence from the previous or subsequent signals occurs and, therefore, a more stable needle selection is achieved. - Tests have been conducted which have measured the moving distance required for stable needle selection. The performance test results of the control mechanism of the present invention are shown below in Table 1, whereas the performance test results of the control mechanism of U.S. Patent No. 5,689,977 are shown in Table 2.
- It is evident from Table 2 that heretofore a minimum pitch between rocker bars was 0.8 mm before stable needle selection was achieved. With the present invention, a pitch of only 0.4 mm is necessary to obtain stable needle selection as is shown in Table 1. Accordingly, fine gauge, high speed operation with a short rocker-bar-to-rocker-bar pitch is possible (e.g., a minimum of 32 needles per inch with a pitch distance of 0.79 mm or less).
- The chart contained in Table 3 below illustrates test results where the performance of the electromagnetic selecting
mechanism 50 are shown. In this chart, the X axis represents current values while the Y axis represents the attraction between the tips 54c, 55c of thecores rocker bar 44. Model 1 represents a gap distance between the tips of 54c and 55c and the attractable sections 44f and 44g to be 1.0 mm with a singlepermanent magnet 53 associated therewith. Model 2 shows a gap of 1.0 mm with two permanent magnets 70 and 71 associated with the cores 54b', 55b' of the electromagnets 54' and 55', while Model 3 employs a gap of 5.0 mm and onepermanent magnet 53. As shown in this chart, Model 3 has the weakest attraction while Model 1 has a stronger attraction than Model 3. However, Model 2 has the strongest attraction of all. - The electromagnetic selecting
mechanism 50 or 50' of the present invention when, used in a jacquard circular knitting machine, occupies considerable less space within the knitting machine. Further, because the electromagnetic selecting mechanism of the present invention has a strong magnetic field, needle selection errors are minimized. A further advantage of the present invention is that therocker bar 44 does not employ a projecting butt, but instead theend portions rocker bar 44 engage directly against the rockerbar raising cam 48. Therefore, therocker bar 44 does not slip off of the rockerbar raising cam 48 and this eliminates selection errors. In addition, the danger of butt breakage is minimal or nonexistent. Finally, because therocker bar 44 is the only item to be controlled, the magnetic attractingmeans 51 and 52 may also be made compact. The electronic magnetic selectingdevice 50 or 50' can be computer controlled and, therefore, fabrics of a wide variety of patterns can be produced.
Claims (8)
- A circular knitting machine (20) having knitting instrumentalities (22,27,34) for forming knit fabric and including a rotating member (21,25) having a plurality of grooves (26) in which said knitting instrumentalities are slidably mounted, and control means for controlling said knitting instrumentalities to produce jacquard knit fabric, said control means comprisinga plurality of rocker bar supporting members (40) each slidably mounted in one of the grooves (26) along with one of said knitting instrumentalities, each of said plurality of rocker bar supporting members including at least one butt (41a) protruding therefrom,a plurality of elongate rocker bars (44) formed free of butts and having magnetically attractable opposite end portions (44b,44c), each elongate rocker bar being pivotally mounted on one of said plurality of rocker bar supporting members for movement about a medial pivot (44a) and having its opposite end portions (44b,44c) selectively movable between operative and inoperative positions,magnetic attracting means (50) operatively associated with the opposite end portions (44b,44c) of said elongate rocker bars (44) for selectively attracting one of said magnetically attractable opposite end portions to pivot said elongate rocker bars and selectively move one of the opposite end portions to said operative position and the other of the opposite end portions to said inoperative position,said magnetic attracting means (50) comprises a permanent magnetic (53) and a pair of electromagnets (54,55) disposed on opposite sides of said permanent magnet and connected in series, said permanent magnet (53) having an extension (53a) extending outwardly toward said rocker bars (44) and having a pair of wing portions (53c,53d) generally parallel to said rocker bar supporting members (40) and having outer sections disposed in attractable relation to said magnetically attractable end portions (44b,44c) of said rocker bars (44),rocker bar operating cam means (46,48) engageable with the end portion (44b,44c) of said rocker bar (44) in said operative position for either moving the rocker bar and the rocker bar supporting member assembly from a retracted position to an extended position for engagement and movement of said knitting instrumentality or maintaining the rocker bar and the rocker bar supporting member assembly in said retracted position, andcontrol cam means (31,32,35) engageable with said knitting instrumentalities for controlling said knitting instrumentalities and for moving each instrumentality to at least one knitting position upon movement of the associated rocker bar supporting member (40) to the extended position and for maintaining said instrumentality in a non-knitting position when the rocker bar supporting member is in the retracted position.
- A circular knitting machine according to claim 1 wherein said wing portions (53c,53d) of said extension (53a) of said permanent magnet (53) are slanted upwardly and outwardly to accommodate pivotal movement of said rocker bars (44) without being touched thereby.
- A circular knitting machine according to claim 2 wherein said magnetically attractable end portions (44b,44c) of said rocker bars (44) slant downwardly and outwardly substantially to the same degree as the slant on said wing portions (53c,53d) of said extension of said permanent magnet.
- A circular knitting machine according to claim 3 wherein each of said electromagnets comprises a core (54b,55b) and a coil (54a,55a) surrounding a portion of said core, the cores having tips (54c,55c) disposed in magnetic attractable relation to said magnetically attractable end portions (44b,44c) of said rocker bars (44) and being slanted upwardly and outwardly substantially as the slant on said wing portions (53c,53d) of said extension of said permanent magnet, whereby upon pivotal movement of said rocker bar (44) a gap is maintained between said magnetically attractable end portions of said rocker bars and said wing portions and said core tips.
- A circular knitting machine according to claim 4 wherein said gaps have a width of between about 0.5 mm and about 2.0 mm.
- A circular knitting machine according to claim 1, 2 or 3 wherein said electromagnets (54,55) comprise cores (54b,55b) and coils (54a,55a) wound about portions of said cores, said cores having core tips (54c,55c) disposed in magnetic attractable relation to said attractable end portions (44b,44c) of said rocker bars.
- A circular knitting machine according to claim 4, 5 or 6 including an additional permanent magnet (70,71) disposed in operative association with each of said core tips (54c',55c') of said electromagnets (54',55')
- A circular knitting machine according to any preceding claim wherein said extension (56a) of said permanent magnet is of magnetic material.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP9963897 | 1997-04-01 | ||
JP9963897 | 1997-04-01 | ||
JP99638/97 | 1997-04-01 |
Publications (3)
Publication Number | Publication Date |
---|---|
EP0874077A2 EP0874077A2 (en) | 1998-10-28 |
EP0874077A3 EP0874077A3 (en) | 1999-10-20 |
EP0874077B1 true EP0874077B1 (en) | 2003-10-01 |
Family
ID=14252613
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP98302552A Expired - Lifetime EP0874077B1 (en) | 1997-04-01 | 1998-04-01 | Jacquerd pattern control mechanism for a circular knitting machine |
Country Status (5)
Country | Link |
---|---|
EP (1) | EP0874077B1 (en) |
JP (1) | JPH10331060A (en) |
KR (1) | KR19980079834A (en) |
DE (1) | DE69818540T2 (en) |
TW (2) | TW390367U (en) |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE69826449T2 (en) * | 1998-03-31 | 2005-09-29 | Precision Fukuhara Works, Ltd., Kobe | Jacquard pattern control device for a circular knitting machine |
CN102605534A (en) * | 2012-03-22 | 2012-07-25 | 张家港润山针织机械有限公司 | Cam in computer jacquard machine |
ITMI20121091A1 (en) * | 2012-06-21 | 2013-12-22 | Santoni & C Spa | ELECTROMAGNETIC ACTUATOR, PARTICULARLY FOR DEVICES FOR SELECTION OF NEEDLES IN KNITTING MACHINES, FOOTWEAR OR SIMILAR, AT HIGH-END QUALITY. |
ITUB20150954A1 (en) * | 2015-05-29 | 2016-11-29 | Santoni & C Spa | Support and control device for circular textile machines |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CH415926A (en) * | 1962-07-11 | 1966-06-30 | Beguin Rene | Device for selecting the needles of a knitting machine |
CZ281720B6 (en) * | 1992-11-16 | 1996-12-11 | Milan Fučík | Needle selection apparatus |
EP0752490B1 (en) * | 1995-07-04 | 2001-04-04 | Precision Fukuhara Works, Ltd | Circular knitting machine with jacquard pattern control mechanism |
-
1998
- 1998-02-06 TW TW086219999U patent/TW390367U/en not_active IP Right Cessation
- 1998-03-03 KR KR1019980006928A patent/KR19980079834A/en not_active Application Discontinuation
- 1998-03-27 JP JP10100515A patent/JPH10331060A/en active Pending
- 1998-04-01 EP EP98302552A patent/EP0874077B1/en not_active Expired - Lifetime
- 1998-04-01 DE DE69818540T patent/DE69818540T2/en not_active Expired - Lifetime
- 1998-05-05 TW TW086219999U patent/TW482198U/en not_active IP Right Cessation
Also Published As
Publication number | Publication date |
---|---|
KR19980079834A (en) | 1998-11-25 |
JPH10331060A (en) | 1998-12-15 |
TW390367U (en) | 2000-05-11 |
EP0874077A3 (en) | 1999-10-20 |
TW482198U (en) | 2002-04-01 |
DE69818540D1 (en) | 2003-11-06 |
DE69818540T2 (en) | 2004-08-19 |
EP0874077A2 (en) | 1998-10-28 |
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