CN105239263A - Composite triangle system applied to fully moulding computerized flat knitting machine - Google Patents

Composite triangle system applied to fully moulding computerized flat knitting machine Download PDF

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Publication number
CN105239263A
CN105239263A CN201510713760.1A CN201510713760A CN105239263A CN 105239263 A CN105239263 A CN 105239263A CN 201510713760 A CN201510713760 A CN 201510713760A CN 105239263 A CN105239263 A CN 105239263A
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China
Prior art keywords
needle
triangle
barring
cam
compressing tablet
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CN201510713760.1A
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Chinese (zh)
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CN105239263B (en
Inventor
何勇
马晓建
张栋
刘传群
费胜巍
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Donghua University
National Dong Hwa University
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Donghua University
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Publication of CN105239263A publication Critical patent/CN105239263A/en
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Publication of CN105239263B publication Critical patent/CN105239263B/en
Expired - Fee Related legal-status Critical Current
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Abstract

The invention provides a composite triangle system applied to a fully moulding computerized flat knitting machine; the composite triangle system comprises a needle starting triangle; a needle pushing triangle is arranged above the needle starting triangle, and two sides of the needling pushing triangle are provided with a kinking triangle; a loop transfer triangle is arranged above the needle pushing triangle; a lower needle turning guide triangle is arranged above the loop transfer triangle; an upper needle turning guide triangle is arranged above the lower needle turning guide triangle; a loop reception triangle is respectively arranged on two sides of the lower portion of the loop transfer triangle; a press sheet mechanism is arranged below the needle starting triangle; a climbing track is arranged between the press sheet mechanism and the upper needle turning guide triangle; the system also comprises a needle pushing sheet; a front sheet heel, a middle sheet heel and a tail sheet heel are arranged in sequence on the needle pushing sheet. The composite triangle system can complete basic motions like loop transfer, loop reception, loop forming, double stitching, and non-weaving, can realize mutual loop transfer and loop reception between an upper needle bed and a lower needle bed, thus improving flat knitting machine braiding efficiency, and providing verified braiding pattern effects.

Description

A kind of complex cam system being applied to complete shaping Computerized flat knitting machine
Technical field
The present invention relates to one to be loaded on carriage in flat knitting machine and to move back and forth along needle-bar direction, can carry out barring-on, adapter ring, braiding, tuck, not knit the cam system of elemental motion, this cam system is applied to the complete shaping Computerized flat knitting machine of four needle-bar three systems.
Background technology
At present, straight-bar machines needle-bar arranges multiple knitting needle, and cam carrier moves along needle-bar, it loads weaving textile triangle device.When cam carrier is reciprocating along needle-bar while, triangle device will optionally drive knitting needle on needle-bar to retreat along tooth mouth, thus hook gets yarn braided fabric.
Under normal circumstances, cross machine triangulo system, according to system number, can be divided into single system, dual system and three systems.Be mostly dual system straight-bar machines on the market at present, and single system straight-bar machines loses market gradually due to function singleness, inefficiency, three system straight-bar machines establishment efficiency is high, functional diversities, its design difficulty is high, and price is also very high, is generally applied to high-end field.
Straight-bar machines divides by needle-bar quantity can be divided into two needle-bars, four needle-bars, five needle-bar three kinds.Generally in two needle-bar straight-bar machines be equipped with two cam system, this two needle-bar configures before and after becoming about 90 degree, so just can braided fabric separately on these two needle-bars, and in addition, two needle-bars also can coordinate braiding rib stitch.Four needle-bar straight-bar machines and two needle-bar differences are and are equipped with three cam systems, and many two auxiliary needle-bars, two auxiliary needle-bars are configured with auxiliary needle, its function is auxiliary barring-on and adapter ring action, each travel efficiency of cam carrier can be made so higher, thus improve straight-bar machines whole efficiency.In four needle-bar straight-bar machines, four needle-bar configuration modes are probably, and two main needle-bars configure before and after becoming about 90 degree, and on it, the auxiliary needle-bar of horizontal arrangement other two, four needle-bar straight-bar machines comparatively two needle-bar straight-bar machines efficiency improve greatly.
In patent document US6079231, disclose a kind of four needle-bar three system straight-bar machines, before and after this straight-bar machines, needle-bar uses compound needle, auxiliary needle-bar is configured with auxiliary needle, before and after the compound needle of needle-bar can coordinate with the auxiliary needle on auxiliary needle-bar and carry out barring-on action, such straight-bar machines can not only carry out basic weaving textile in a stroke of triangle balladeur train, can also carry out the braiding comprising the various fabrics such as barring-on, substantially increase braid efficiency.The design shortcoming of this cam system is apparent, and namely complex structure, manufacturing cost are high.
In patent document US5992183, disclose cam system structure that is a kind of and the cam system similar disclosed by patent document US6079231, but this cam system complex structure, this will cause cam carrier overall weight higher, when straight-bar machines runs, cam carrier vibration is large, and straight-bar machines energy consumption is high.In addition, this design and manufacture cost is high, and maintenance difficulty is large, is unfavorable for cost control and the production in enormous quantities of straight-bar machines.
Summary of the invention
The technical problem to be solved in the present invention is to provide simple, the easy to manufacture cam system being applied to the complete shaping Computerized flat knitting machine of four needle-bar three systems of a kind of structure, this cam system can not only complete barring-on, adapter ring, lopping, tuck, not knit these elemental motion, and the mutual barring-on that can carry out between upper and lower needle-bar and adapter ring, reach the effect improving cross machine knitting efficiency, diversified weave pattern.
In order to solve the problems of the technologies described above, technical scheme of the present invention is to provide a kind of complex cam system being applied to complete shaping Computerized flat knitting machine, and it is characterized in that: comprise rise cam, elevating cam is located at above rise cam, elevating cam both sides degree of being provided with order triangle; Be provided with transfer cam above elevating cam, under turn over pin guide pin triangular and be located at above transfer cam, above turn over pin guide pin triangular and be located at down and turn over above pin guide pin triangular, both sides, transfer cam bottom are equipped with adapter ring triangle; Be provided with tablet press mechanism below rise cam, tablet press mechanism and on turn between pin guide pin triangular and be provided with the track that climbs;
Also comprise needle jack, needle jack is provided with successively front piece heel, the heel of middle part sheet, tail sheet heel; Tail sheet heel and the selection of sheet heel in middle part for controlling each track of needle jack; Front piece heel is used for and each triangle rail effect, thus drives needle jack motion.
Preferably, described transfer cam, adapter ring triangle and rise cam have difference in height between any two.
Preferably, described degree order triangle is the slide block mechanism from the horizontal by an angle of inclination.
Preferably, when carrying out barring-on action between upper and lower needle-bar, transfer cam, rise cam, elevating cam will sink to triangle floor, on turn over pin guide pin triangular and under turn over the motion path that passage that pin guide pin triangular closes composition is the heel of needle jack front piece, this path is called barring-on track between upper and lower needle-bar.
Preferably, when carrying out barring-on action between lower needle-bar, rise cam will sink to triangle floor, under turn over the motion path that passage that pin guide pin triangular and transfer cam close composition is the heel of needle jack front piece, this path is called barring-on track between lower needle-bar.
Preferably, when carrying out adapter ring action between lower needle-bar, only has the effect of an adapter ring triangle, the adapter ring triangle do not acted on will sink to triangle floor, and elevating cam also will sink to triangle floor, the passage that transfer cam and adapter ring triangle close composition is the motion path that needle jack front piece is called in person, and this path is called adapter ring track between lower needle-bar.
Preferably, described tablet press mechanism comprise highly select compressing tablet, barring-on adapter ring select compressing tablet, barring-on select compressing tablet, tuck compressing tablet, do not knit compressing tablet;
Highly select compressing tablet for controlling needle jack initial motion height; When highly selecting compressing tablet effect, needle jack moves to rise cam height; When highly selecting compressing tablet not act on, continuation is risen to barring-on or adapter ring triangle height along the track that climbs by needle jack;
During barring-on adapter ring selection compressing tablet effect, needle jack will stop rising at adapter ring height; If barring-on adapter ring selects compressing tablet not act on, continuation is risen to barring-on height along the track that climbs by needle jack;
Barring-on selects compressing tablet to carry out between upper and lower needle-bar barring-on action between barring-on or lower needle-bar for controlling needle jack.
When highly selecting compressing tablet to act on sheet heel in the middle part of needle jack, the heel of needle jack front piece will be lifted, thus leap is climbed, track moves along a straight line; Highly select compressing tablet to be in the state of sinking to when not working, needle jack front piece heel track driving of continuations being climbed rises to barring-on or adapter ring triangle height; If now barring-on adapter ring selects compressing tablet effect, the heel of needle jack tail sheet will be lifted, and cross over the track that climbs, enter adapter ring track at adapter ring height; If barring-on adapter ring selects compressing tablet to be in the state of sinking to and not act on, needle jack front piece heel track driving of continuations being climbed rises to barring-on height; Now, if barring-on selects compressing tablet work, the heel of needle jack front piece will be lifted, and stride across the whole of transfer cam, thus enter the barring-on track between lower needle-bar; Do not work if barring-on selects compressing tablet to be in the state of sinking to, continuation is driven by transfer cam by the heel of needle jack front piece, thus enters the barring-on track between upper and lower needle-bar.
Device provided by the invention overcomes the deficiencies in the prior art, barring-on, adapter ring, lopping, tuck can not only be completed, do not knit these elemental motion, and the mutual barring-on that can carry out between upper and lower needle-bar and adapter ring, reach the effect improving cross machine knitting efficiency, diversified weave pattern.
Accompanying drawing explanation
Fig. 1 is a kind of structural representation being applied to the complex cam system of complete shaping Computerized flat knitting machine of the present invention;
Fig. 2 is a kind of needle jack structural representation joined together by complex cam system being applied to complete shaping Computerized flat knitting machine with the present invention;
Fig. 3 be the present invention a kind of be applied to the complex cam system of complete shaping Computerized flat knitting machine do not knit path figure;
Fig. 4 is a kind of lopping mark route map being applied to the complex cam system of complete shaping Computerized flat knitting machine of the present invention;
Fig. 5 is a kind of tuck path figure being applied to the complex cam system of complete shaping Computerized flat knitting machine of the present invention;
Fig. 6 is a kind of path figure of barring-on between needle-bar being up and down applied to the complex cam system of complete shaping Computerized flat knitting machine of the present invention;
Fig. 7 is the path figure of barring-on between a kind of lower needle-bar being applied to the complex cam system of complete shaping Computerized flat knitting machine of the present invention;
Fig. 8 is the path figure of adapter ring between a kind of lower needle-bar being applied to the complex cam system of complete shaping Computerized flat knitting machine of the present invention.
Detailed description of the invention
For making the present invention become apparent, hereby with a preferred embodiment, and accompanying drawing is coordinated to be described in detail below.
What Fig. 1 represented is a kind of structure composition being applied to the complex cam system of complete shaping Computerized flat knitting machine of the present invention, usually, carriage in flat knitting machine is mounted with the cam system of multiple similar, the present invention only indicates the cam system being positioned at the rightmost side on cam carrier, this cam system, except substantially weaving except function, also can carry out adapter ring action between barring-on and lower needle-bar between upper and lower needle-bar, between lower needle-bar.Its structure is formed primarily of with lower component: rise cam 8, elevating cam 7, degree order triangle 6a, 6b, transfer cam 4, adapter ring triangle 5a, 5b, above turn over pin guide pin triangular 1, under turn over pin guide pin triangular 2, tablet press mechanism 9a, 9b, 9c, 9d, 9e, 9f, climb track 3.Elevating cam 7 is located at above rise cam 8, elevating cam 7 both sides degree of being provided with order triangle 6a, 6b; Be provided with transfer cam 4 above elevating cam 7, under turn over pin guide pin triangular 2 and be positioned at above transfer cam 4, above turn under pin guide pin triangular 1 is positioned at and turn over above pin guide pin triangular 2, transfer cam 4 bottom is provided with adapter ring triangle 5a, 5b; Be provided with tablet press mechanism 9a, 9b, 9c, 9d, 9e, 9f below rise cam 8, tablet press mechanism and on turn between pin guide pin triangular 1 and be provided with the track 3 that climbs.
Fig. 2 is a kind of needle jack 10 structural representation joined together by complex cam system being applied to complete shaping Computerized flat knitting machine with the present invention, needle jack 10 is provided with successively front piece heel 10c, middle part sheet heel 10b, tail sheet heel 10a, this needle jack tail sheet heel 10a and middle part sheet heel 10b is for controlling the selection of each track of needle jack, front piece heel 10c is mainly used in and each triangle rail effect, thus drives needle jack motion.
Needle jack structure and traditional needle jack similar, difference is that needle jack afterbody additionally with the addition of a slice heel, the needle jack that the complex cam system utilizing traditional needle jack manufacturing process to process to be applied to complete shaping Computerized flat knitting machine with the present invention matches.
Tablet press mechanism, can be divided into by function highly selects compressing tablet, barring-on adapter ring to select compressing tablet, barring-on to select compressing tablet, tuck compressing tablet, do not knit compressing tablet, in Fig. 1,9a for highly to select compressing tablet, 9b barring-on adapter ring select compressing tablet, 9c be move to left that compressing tablet selected by circle, 9d is tuck compressing tablet, 9e selects compressing tablet, 9f for not knit compressing tablet for the circle that moves to right.Highly select compressing tablet for controlling needle jack moving height, when it acts on, needle jack moves to rise cam height and just no longer rises along the track that climbs, when it does not act on, continuation is risen to barring-on or adapter ring triangle height along the track that climbs by needle jack, if now barring-on adapter ring selects compressing tablet effect, needle jack will stop rising at adapter ring height, if barring-on adapter ring selects compressing tablet not act on, continuation is risen to barring-on height along the track that climbs by needle jack, last barring-on selects compressing tablet to carry out between upper and lower needle-bar barring-on action between barring-on or lower needle-bar for controlling needle jack.
Complex cam system provided by the invention has the movement locus of 6 differing heights, to be respectively between barring-on track between upper and lower needle-bar, lower needle-bar adapter ring track, lopping track, tuck track between barring-on track, lower needle-bar, not to knit track, specific as follows:
Fig. 3 be the present invention a kind of be applied to the complex cam system of complete shaping Computerized flat knitting machine do not knit path figure.When cam carrier is turned left from the right side and is run, the sheet heel movement locus direction of needle jack 10 should be from left to right, when needle jack 10 is positioned at compressing tablet 9a position, now compressing tablet 9a is in protruding duty, then in the middle part of needle jack, sheet heel 10b will be lifted leap and to climb track 3, the track 3 that then climbs can not continue to drive needle jack front piece heel 10c to rise, when needle jack 10 is positioned at compressing tablet 9f position, now compressing tablet 9f is in protruding duty, in the middle part of needle jack, sheet heel 10b continues to be lifted, cross over rise cam 8, the whole process of needle jack 10 transfixion all the time.
Fig. 4 is a kind of lopping path figure being applied to the complex cam system of complete shaping Computerized flat knitting machine of the present invention.When needle jack 10 is positioned at compressing tablet 9a position, now compressing tablet 9a is in protruding duty, then in the middle part of needle jack, sheet heel 10b will be lifted leap and to climb track 3, the track 3 that then climbs can not continue to drive needle jack front piece heel 10c to rise, when needle jack 10 is positioned at compressing tablet 9f position, now compressing tablet 9f is in the state of sinking to and does not work, needle jack 10b can not be lifted, the track that needle jack front piece heel 10c will sink between rise cam 8 and elevating cam 7, thus needle jack 10 will be driven rising, until lopping campaign completes by continuation.It should be noted that, degree order triangle 6b is a slide block mechanism from the horizontal by certain angle, when needle jack is when spending order triangle 6b position, regulating winding tightness degree can be reached by the height of degree of control order triangle 6b, finally reaching the object regulating Density.
Fig. 5 is a kind of tuck path figure being applied to the complex cam system of complete shaping Computerized flat knitting machine of the present invention.When needle jack 10 is positioned at compressing tablet 9a position, now compressing tablet 9a is in protruding duty, then in the middle part of needle jack, sheet heel 10b will be lifted, disengaging is climbed in track 3 by needle jack front piece heel 10c, the track 3 that climbs can not continue to drive needle jack front piece heel 10c to rise, when needle jack 10 is positioned at compressing tablet 9f position, now compressing tablet 9f is in the state of sinking to and does not work, needle jack 10 can not be lifted, the track that needle jack front piece heel 10c will sink between rise cam 8 and elevating cam 7, thus needle jack 10 will be driven rising by continuation, when needle jack 10 is positioned at compressing tablet 9d, now compressing tablet 9f is in protruding duty, in the middle part of needle jack, sheet heel 10b will be lifted, when continuing along the orbital motion between rise cam rise cam 8 and elevating cam 7 after needle jack 10 crosses over compressing tablet 9d, until tuck has moved.In the tuck process of complex cam system, for preventing the heel of needle jack sheet from interfering with compressing tablet 9f, compressing tablet 9f is in settling phase all the time.
Fig. 6 is a kind of path figure of barring-on between needle-bar being up and down applied to the complex cam system of complete shaping Computerized flat knitting machine of the present invention.When needle jack 10 is positioned at compressing tablet 9a position, now compressing tablet 9a is in the state of sinking to and does not work, then in the middle part of needle jack, sheet heel 10b can not be lifted, needle jack front piece heel 10c climbs in track 3 by continuing to submerge, continuation drives needle jack front piece heel 10c to rise by the track 3 that climbs, when needle jack 10 is positioned at compressing tablet 9b, now 9b is in sedimentation off position, then needle jack tail sheet heel 10a can not be lifted, the needle jack front piece heel 10c track 3 that continuation climbed drives rising, when needle jack 10 is positioned at compressing tablet 9c, now 9c is in sedimentation off position, then needle jack tail sheet heel 10a can not be lifted, needle jack front piece heel 10c will along above turn over pin guide pin triangular 1 and under the track turned between pin guide pin triangular 2 continue to rise, until whole barring-on process completes.Needs are said, in the whole process of barring-on, for preventing needle jack tail sheet heel 10a and rise cam 8, elevating cam 7 from interfering, rise cam 8, elevating cam 7 are in settling phase all the time.
Fig. 7 is the path figure of barring-on between a kind of lower needle-bar being applied to the complex cam system of complete shaping Computerized flat knitting machine of the present invention.When needle jack 10 is positioned at compressing tablet 9a position, now compressing tablet 9a is in the state of sinking to and does not work, then in the middle part of needle jack, sheet heel 10b can not be lifted, needle jack front piece heel 10c climbs in track 3 by continuing to submerge, continuation drives needle jack front piece heel 10c to rise by the track 3 that climbs, when needle jack 10 is positioned at compressing tablet 9b, now compressing tablet 9b is in sedimentation off position, then needle jack tail sheet heel 10a can not be lifted, the needle jack front piece heel 10c track 3 that continuation climbed drives rising, when needle jack 10 is positioned at compressing tablet 9c, now 9c is in protruding duty, then needle jack tail sheet heel 10a can be lifted, needle jack front piece heel 10c will along under the track turned between pin guide pin triangular 2 and transfer cam 4 continue to rise, until whole barring-on process completes.Needs are said, in the whole process of barring-on, for preventing needle jack tail sheet heel 10a and rise cam 8 from interfering, rise cam 8 is in settling phase all the time.
Fig. 8 is the path figure of adapter ring between a kind of lower needle-bar being applied to the complex cam system of complete shaping Computerized flat knitting machine of the present invention.When needle jack 10 is positioned at compressing tablet 9a position, now compressing tablet 9a is in the state of sinking to and does not work, then in the middle part of needle jack, sheet heel 10b can not be lifted, needle jack front piece heel 10c climbs in track 3 by continuing to submerge, continuation drives needle jack front piece heel 10c to rise by the track 3 that climbs, when needle jack 10 is positioned at compressing tablet 9b, now 9b is in protruding duty, then needle jack tail sheet heel 10a can be lifted, leap is climbed track 3 by needle jack front piece heel 10c, the track 3 that can not continue to be climbed drives rising, when needle jack 10 arrives adapter ring triangle 5a position, adapter ring triangle 5a is in settling phase and does not work, needle jack 10 keeps static difference, when arriving adapter ring triangle 5b position, adapter ring triangle 5b is in protruding duty, 10c is by along the orbital motion between transfer cam 4 and adapter ring triangle 5b for the heel of needle jack front piece, until adapter ring action completes.

Claims (8)

1. one kind is applied to the complex cam system of complete shaping Computerized flat knitting machine, it is characterized in that: comprise rise cam (8), elevating cam (7) is located at rise cam (8) top, elevating cam (7) both sides degree of being provided with order triangle; Elevating cam (7) top is provided with transfer cam (4), under turn over pin guide pin triangular (2) be located at transfer cam (4) top, on turn over pin guide pin triangular (1) be located at down turn over pin guide pin triangular (2) top, transfer cam (4) both sides, bottom are equipped with adapter ring triangle; Rise cam (8) below is provided with tablet press mechanism, tablet press mechanism and on turn between pin guide pin triangular (1) and be provided with the track that climbs (3);
Also comprise needle jack (10), needle jack (10) is provided with successively front piece heel (10c), middle part sheet heel (10b), tail sheet heel (10a); Tail sheet heel (10a) and middle part sheet heel (10b) are for controlling the selection of each track of needle jack; Front piece heel (10c) for each triangle rail effect, thus drive needle jack motion.
2. a kind of complex cam system being applied to complete shaping Computerized flat knitting machine as claimed in claim 1, is characterized in that: described transfer cam (4), adapter ring triangle and rise cam (8) have difference in height between any two.
3. a kind of complex cam system being applied to complete shaping Computerized flat knitting machine as claimed in claim 1, is characterized in that: described degree order triangle is the slide block mechanism from the horizontal by an angle of inclination.
4. a kind of complex cam system being applied to complete shaping Computerized flat knitting machine as claimed in claim 1, it is characterized in that: when carrying out barring-on action between upper and lower needle-bar, transfer cam (4), rise cam (8), elevating cam (7) will sink to triangle floor, on turn over pin guide pin triangular (1) and under turn over pin guide pin triangular (2) close composition passage be needle jack front piece heel (10c) motion path, this path is called barring-on track between upper and lower needle-bar.
5. a kind of complex cam system being applied to complete shaping Computerized flat knitting machine as claimed in claim 4, it is characterized in that: when carrying out barring-on action between lower needle-bar, rise cam (8) will sink to triangle floor, under turn over the motion path that passage that pin guide pin triangular (2) and transfer cam (4) close composition is needle jack front piece heel (10c), this path is called barring-on track between lower needle-bar.
6. a kind of complex cam system being applied to complete shaping Computerized flat knitting machine as claimed in claim 5, it is characterized in that: when carrying out adapter ring action between lower needle-bar, only has the effect of an adapter ring triangle, the adapter ring triangle do not acted on will sink to triangle floor, and elevating cam (7) also will sink to triangle floor, the passage that transfer cam (4) and adapter ring triangle close composition is that needle jack front piece is called in person the motion path of (10c), and this path is called adapter ring track between lower needle-bar.
7. a kind of complex cam system being applied to complete shaping Computerized flat knitting machine as claimed in claim 6, is characterized in that: described tablet press mechanism comprises highly selects compressing tablet, barring-on adapter ring to select compressing tablet, barring-on to select compressing tablet, tuck compressing tablet, do not knit compressing tablet;
Highly select compressing tablet for controlling needle jack initial motion height; When highly selecting compressing tablet effect, needle jack moves to rise cam height; When highly selecting compressing tablet not act on, continuation is risen to barring-on or adapter ring triangle height along the track that climbs by needle jack;
During barring-on adapter ring selection compressing tablet effect, needle jack will stop rising at adapter ring height; If barring-on adapter ring selects compressing tablet not act on, continuation is risen to barring-on height along the track that climbs by needle jack;
Barring-on selects compressing tablet to carry out between upper and lower needle-bar barring-on action between barring-on or lower needle-bar for controlling needle jack.
8. a kind of complex cam system being applied to complete shaping Computerized flat knitting machine as claimed in claim 7, it is characterized in that: when highly selecting compressing tablet to act on sheet heel (10b) in the middle part of needle jack, needle jack front piece heel (10c) will be lifted, thus leap is climbed, track (3) moves along a straight line; Highly select compressing tablet to be in the state of sinking to when not working, needle jack front piece heel (10c) track (3) driving of continuations being climbed rises to barring-on or adapter ring triangle height; If now barring-on adapter ring selects compressing tablet effect, needle jack tail sheet heel (10a) will be lifted, and cross over the track (3) that climbs, enter adapter ring track at adapter ring height; If barring-on adapter ring selects compressing tablet to be in the state of sinking to and not act on, needle jack front piece heel (10c) track (3) driving of continuations being climbed rises to barring-on height; Now, if barring-on selects compressing tablet work, needle jack front piece heel (10c) will be lifted, and stride across the whole of transfer cam (4), thus enter the barring-on track between lower needle-bar; Do not work if barring-on selects compressing tablet to be in the state of sinking to, needle jack front piece heel (10c) will continue to be driven by transfer cam (4), thus enter the barring-on track between the celebrating of upper and lower pin.
CN201510713760.1A 2015-10-28 2015-10-28 A kind of complex cam system for being applied to full molding Computerized flat knitting machine Expired - Fee Related CN105239263B (en)

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH042847A (en) * 1990-04-17 1992-01-07 Shima Seiki Mfg Ltd Operating needle cam for weft knitting machine
EP0896078A2 (en) * 1997-08-08 1999-02-10 Shima Seiki Manufacturing, Ltd. A flat knitting machine
CN1133767C (en) * 1998-05-15 2004-01-07 株式会社岛精机制作所 Stitch loop holding apparatus for flat knitting machine
CN201347489Y (en) * 2009-01-15 2009-11-18 浙江虎王数控科技有限公司 Knitting triangular system of electrically controlled automatic flat knitting machine
CN104328594A (en) * 2014-11-24 2015-02-04 西安工程大学 Five-location computerized flat knitting machine knitting mechanism adopting electromagnetic needle selection

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH042847A (en) * 1990-04-17 1992-01-07 Shima Seiki Mfg Ltd Operating needle cam for weft knitting machine
EP0896078A2 (en) * 1997-08-08 1999-02-10 Shima Seiki Manufacturing, Ltd. A flat knitting machine
CN1133767C (en) * 1998-05-15 2004-01-07 株式会社岛精机制作所 Stitch loop holding apparatus for flat knitting machine
CN201347489Y (en) * 2009-01-15 2009-11-18 浙江虎王数控科技有限公司 Knitting triangular system of electrically controlled automatic flat knitting machine
CN104328594A (en) * 2014-11-24 2015-02-04 西安工程大学 Five-location computerized flat knitting machine knitting mechanism adopting electromagnetic needle selection

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