CN104178904B - That justifies volume machine joins yarn method automatically - Google Patents
That justifies volume machine joins yarn method automatically Download PDFInfo
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- CN104178904B CN104178904B CN201310196853.2A CN201310196853A CN104178904B CN 104178904 B CN104178904 B CN 104178904B CN 201310196853 A CN201310196853 A CN 201310196853A CN 104178904 B CN104178904 B CN 104178904B
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- yarn
- collisions
- heterochromatic
- amount
- dyed
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Abstract
The present invention relates to join yarn method, disclose a kind of round volume machine joins yarn method automatically, comprise control unit in this circle mutual communication of volume machine, and comprise the steps of, step A: drawing a point design drawing and form the several color dots having at least one row's latitude row and number row through row, each color dot represents the color of a kind of dyed yarn.Step B: calculating amount of collisions n of any two heterochromatic dyed yarns in aforementioned latitude row, aforementioned amount of collisions n is decided by space-number m of any two heterochromatic color dots.Step C: sort according to the size of aforementioned amount of collisions n, the dyed yarn of the differently configured colour system of the most several fournisseurs.Whereby, the two kinds of heterochromatic dyed yarns switching out yarn in the short time are separated at different fournisseurs, be not only able to optimization color matching demand, and efficiency when can promote yarn and correctness.
Description
Technical field
The present invention relates to one and join yarn method, particularly relate to a kind of round volume machine joins yarn method automatically.
Background technology
Refering to Fig. 1, as a example by a round volume machine 1, consist predominantly of around one centrally disposed several
Fournisseur 11.Each fournisseur 11 has and imports several yarn feedings of heterochromatic dyed yarn 12 and refer to
111 (YarnFinger), and derive a yarn outlet 112 of one of which dyed yarn 12.Whereby, will be many
Individual yarn feeding refers to the mode of the 111 same yarn outlets of sensing 112, and can be at fournisseur 11 limited amount
When, dyed yarn 12 quantity of use, and number of colours are substantially improved, meet fabric color, figure
The diversified demand of case.
Refering to Fig. 2, arrange several through go with the row of number if a design drawing picture divides formation have the row's of number latitude
Color dot B, R, Y (color dot B represents blueness, color dot R represents redness, color dot Y represents yellow), permissible
Find out, aforementioned several thread-changing point a between color dot B, R, Y, can be formed respectively.
According to aforementioned, if two kinds of heterochromatic dyed yarns 12 of thread-changing point a position are configured at same fournisseur
11, often when braiding at a high speed, because switch speed has little time, cause by this yarn outlet 112
The dyed yarn 12 derived is not predetermined color, and affects weave effect.So, aforementioned round volume machine 1 is all
Having the restriction that the dyed yarn 12 of neighbouring color can not be configured at same fournisseur 11, current industry is all adopted
Configuring dyed yarn 12 by artificial experience, not only efficiency is low, and correctness changes with artificial experience difference.
Summary of the invention
It is an object of the invention to provide a kind of can promote yarn time the round volume machine of efficiency and correctness
Automatically join yarn method.
This circle compiles facility to be had around centrally disposed several fournisseurs, and is controlled by one control unit
And guide several dyed yarns and pass through aforementioned fournisseur, each fournisseur has the several of the heterochromatic dyed yarn of importing and feeds
Yarn refers to, and derive one of which dyed yarn a yarn outlet, the present invention circle volume machine automatically join yarn method bag
Containing the following step: step A: this controls the design drawing formation of unit picture point there are at least one row's latitude row
With the number row several color dots through going, each color dot represents the color of a kind of dyed yarn.Step B: control in this
Unit calculates amount of collisions n of any two heterochromatic dyed yarns in aforementioned latitude row, and aforementioned amount of collisions n is decided by wantonly two
Individual heterochromatic color dot space-number m.Step C: control unit in this and sort according to the size of aforementioned amount of collisions n,
The dyed yarn of the differently configured colour system of each fournisseur relatively.
Round volume machine of the present invention automatically join yarn method, the yarn method of automatically joining of this circle volume machine also comprises
There is step D before step C, this controls the arrangement that unit arranges at each row's latitude according to aforementioned color dot
Sequentially, produce the collision table that can represent each color dot, make adjacent in this collision table two different
Color color dot is with different visual effect display.
Round volume machine of the present invention automatically join yarn method, any two heterochromatic color dots aforementioned take adjacent heterochromatic
One of them color dot of color dot and space-number m of any one the heterochromatic color dot posterior that sorts.
Round volume machine of the present invention automatically join yarn method, this step C comprises a step further
C1: control unit in this and add up amount of collisions n of any two heterochromatic dyed yarns aforementioned, step C2: in this
Any two heterochromatic dyed yarns that amount of collisions n is minimum are arranged in identical fournisseur, and a step by control unit
C2: control unit in this and any two heterochromatic dyed yarns that amount of collisions n is maximum are arranged in different fournisseurs.
Round volume machine of the present invention automatically join yarn method, this controls unit and compares according to default one
Amount of collisions n any two heterochromatic dyed yarns less than this fiducial value K are arranged in identical fournisseur by value K,
And amount of collisions n any two heterochromatic dyed yarns more than or equal to this fiducial value K are arranged in different fournisseurs.
Round volume machine of the present invention automatically join yarn method, this amount of collisions n=weighted value S square,
This weighted value S=maximum collision amount feasible value d-space-number m.
Round volume machine of the present invention automatically join yarn method, in this control unit directly judge that space-number m is big
Amount of collisions n=0 in any two heterochromatic dyed yarns of maximum collision amount feasible value d.
The beneficial effects of the present invention is: utilize and aforementioned automatically join yarn method, switch out yarn by the short time
Two kinds of heterochromatic dyed yarns separate at different fournisseurs, not only can match colors demand with optimization, and can carry
Efficiency during liter yarn and correctness.
Accompanying drawing explanation
Fig. 1 is the axonometric chart that general round volume machine is described;
Fig. 2 is the color dot figure of a design drawing;
Fig. 3 is a square of the preferred embodiment automatically joining yarn method that the present invention one circle volume machine is described
Figure;
Fig. 4 is an axonometric chart of a fournisseur in this preferred embodiment;
Fig. 5 is a flow chart of this preferred embodiment;
Fig. 6 is that this preferred embodiment produces a collision table for point diagram of the same colour;
Fig. 7 is the schematic diagram that this preferred embodiment configures several dyed yarns;
Fig. 8 is one second preferred embodiment automatically joining yarn method first-class that the present invention one circle volume machine is described
Cheng Tu;And
Fig. 9 is the schematic diagram that this second preferred embodiment configures several dyed yarns.
Detailed description of the invention
Below in conjunction with the accompanying drawings and embodiment the present invention is described in detail:
Refering to Fig. 3, Fig. 4, the present invention joins first preferred embodiment of yarn feeding device automatically for one
Circle volume machine (not shown).This circle compiles facility to be had around centrally disposed several fournisseurs 2.Each is fed
Yarn device 2 has and imports several yarn feedings of heterochromatic dyed yarn 31,32,33 and refer to 21, and derives one of which color
One yarn outlet 22 of yarn 31,32,33.This is automatically joined yarn feeding device and comprises control unit 4 in.
This controls unit 4 and this circle mutual communication of volume machine, and there is calculating module 41, totalling
Module 42, and a configuration module 43.
Refering to Fig. 3, Fig. 5, and shown in Fig. 6, Fig. 7, with use the dyed yarn 31 of 3 kinds of colors, 32,
33, and make this fournisseur 2 have as a example by 3 yarn feedings refer to 21, the most i.e. for present invention circle volume machine
Automatically the explanation of yarn method step in conjunction with the embodiments is joined as rear:
Step 51: the design drawing formation of calculating module 41 picture point controlling unit 4 in this has number row
Latitude row X1~Xn and number arrange several color dot B, R, Y through row L1~Ln, and the weighting of default amount of collisions n=
Value S2.Wherein, weighted value S=maximum collision amount feasible value d-space-number m.
It addition, it is noted that color dot B represents the dyed yarn 31 of blueness, color dot R represents redness
Dyed yarn 32, color dot Y represents the dyed yarn 33 of yellow, although being with number row's latitude row in this preferred embodiment
X1~Xn represents aforementioned color dot B, R, Y, but, in practice, aforementioned latitude row X1~Xn is to cooperate with circle
Shape fabric and be sequentially concatenated into annular.
Step 52: the calculating module 41 controlling unit 4 in this calculates in aforementioned latitude row X1~Xn any two
Amount of collisions n of heterochromatic dyed yarn 31,32 (or dyed yarn 31,33 or dyed yarn 32,33 or 32,31).
Aforementioned amount of collisions n be decided by any two heterochromatic color dot B, R in aforementioned latitude row X1~Xn (or color dot R, Y,
Or color dot B, Y) space-number m.Aforementioned any two heterochromatic color dot B, R (or color dot R, Y or color dot B,
Y) first color dot of adjacent heterochromatic color dot and space-number m of any one the heterochromatic color dot posterior that sorts are taken,
Refering to the color dot figure of Fig. 6, as a example by maximum collision amount feasible value d=5:
1st group of space-number m=0 of color dot B (X1, L1) and color dot R (X1, L2), amount of collisions n=(weighted value
S)2=(5-0)2=25;
2nd group of space-number m=4 of color dot B (X1, L1) and color dot R (X1, L6), amount of collisions n=(weighted value
S)2=(5-4)2=1;
The 3rd group of space-number m=7 > maximum collision amount of color dot B (X1, L1) and color dot R (X1, L8) is allowed
Value d, so, not calculate, amount of collisions n=0;
The 4th group of space-number m=10 > maximum collision amount of color dot B (X1, L1) and color dot R (X2, L4) is allowed
Value d, so, not calculate, amount of collisions n=0;
5th group of space-number m=0 of color dot B (X1, L5) and color dot R (X1, L6), amount of collisions n=(weighted value
S)2=(5-0)2=25;
The 6th group of several m=2 in interval of color dot B (X1, L5) and color dot R (X1, L8), (weighting of amount of collisions n=
Value S)2=(5-2)2=9;
The 7th group of space-number m=6 > maximum collision amount of color dot B (X1, L5) and color dot R (X2, L4) is allowed
Value d, so, not calculate, amount of collisions n=0;
8th group of space-number m=0 of color dot B (X2, L3) and color dot R (X2, L4), amount of collisions n=(weighted value
S)2=(5-0)2=25;
The rest may be inferred, and color dot B and color dot Y only has 1 group of effective amount of collisions n=16;Color dot R and color
Point B has 4 groups of effective amount of collisions n=25, n=9, n=25, n=9;Color dot R and color dot Y only has 2
Organize effective amount of collisions n=1, the 2nd group of amount of collisions n=25.
Step 53: in this control unit 4 calculating module 41 according to aforementioned color dot B, R, Y each
Putting in order of row latitude row X1~Xn produces the collision table that can represent each color dot B, R, Y,
Make adjacent in this collision table two heterochromatic color dot B, R, Y with different visual effect display.
Step 54: in this control unit 4 totalling module 42 calculate any two heterochromatic dyed yarns 31 aforementioned,
The sum total of amount of collisions n of 32 (or dyed yarn 31,33 or dyed yarn 32,33 or 32,31), it is thus achieved that punching
The sum total of prominent amount n.That is:
Amount of collisions n=25+1+0+0+25+9+0+25=85 of color dot B and color dot R.
Amount of collisions n=16 of color dot B and color dot Y.
Amount of collisions n=25+9+25+9=68 of color dot R and color dot B.
Amount of collisions n=1+25=26 of color dot R and color dot Y.
Step 55: control the sum total of unit 4 relatively aforementioned amount of collisions n in this, and carry out step 56, step
Rapid 57 one of them.
Step 56: control configuration module 43 each differently configured color of fournisseur 2 relative of unit 4 in this
The dyed yarn 31,32,33 of system, makes the heterochromatic dyed yarn of maximum any two of amount of collisions n 31,32 (or dyed yarn
31,33 or dyed yarn 32,33 or 32,31) be arranged in different fournisseurs 2.
That is, maximum, so dyed yarn 31,32 can not due to amount of collisions n=94 of color dot B and color dot R
It is arranged in same fournisseur 2.
Step 57: control configuration module 43 each differently configured color of fournisseur 2 relative of unit 4 in this
The dyed yarn 31,32,33 of system, makes the heterochromatic dyed yarn of minimum any two of amount of collisions n 31,32 (or dyed yarn
31,33 or dyed yarn 32,33 or 32,31) be arranged in identical fournisseur 2.
That is, due to amount of collisions n=20 of color dot B Yu color dot Y, so dyed yarn 31,33 can configure
At same fournisseur 2.
Refering to Fig. 8, Fig. 9, and refering to Fig. 3, Fig. 6, it is second preferred embodiment of the present invention,
Its step 51~step 54 are roughly the same with this first preferred embodiment, wherein, and the meter in this step 51
Calculate module 41 and be preset with a fiducial value K the most further, be at difference:
Step 55: in this, configuration module 43 of control unit 4 is more than fiducial value K with amount of collisions n is one
Comparison condition, it is judged that any two heterochromatic dyed yarns 31,32 (or dyed yarn 31,33 or dyed yarn 32,33,
Or 32,31) amount of collisions n whether less than fiducial value K, if it does not, carry out step 56, if it is,
Carry out step 57.
Step 56: control configuration module 43 each differently configured color of fournisseur 2 relative of unit 4 in this
The dyed yarn 31,32,33 of system, makes amount of collisions n any two heterochromatic dyed yarns more than or equal to this fiducial value K
31,32 (or dyed yarn 31,33 or dyed yarn 32,33 or 32,31) is arranged in different fournisseurs 2.
Step 57: control configuration module 43 each differently configured color of fournisseur 2 relative of unit 4 in this
System dyed yarn 31,32,33, make amount of collisions n less than this fiducial value K any two heterochromatic dyed yarns 31,
32 (or dyed yarn 31,33 or dyed yarn 32,33 or 32,31) are arranged in identical fournisseur 2.
As a example by fiducial value K=15:
Amount of collisions n=94 of color dot B and color dot R > K.Dyed yarn 31 can not be arranged in same with dyed yarn 32
Individual fournisseur 2.
Amount of collisions n=20 of color dot B and color dot Y > K.
Amount of collisions n=78 of color dot R and color dot B > K.
Amount of collisions n=26 of color dot R and color dot Y > K.
According to aforementioned, dyed yarn 31, dyed yarn 32, dyed yarn 33 all conflict, so, dyed yarn 31, dyed yarn
32 can not be arranged in same fournisseur 2 with dyed yarn 33, need to be divided into 3 groups of fournisseurs 2.
In sum, the yarn method of automatically joining of the round volume machine of the present invention has following advantages and effect
The present invention can utilize aforementioned yarn method of automatically joining, and automatically calculates optimal color yarn arrangement mode,
The two kinds of heterochromatic dyed yarns switching out yarn in short time are separated at different fournisseurs 2, not only can be optimal
Change color matching demand, and efficiency when can promote yarn and correctness.
Claims (7)
1. that justifies volume machine joins a yarn method automatically, and described circle compiles facility to be had around one centrally disposed
Several fournisseurs, and be controlled by one control unit and guide several dyed yarns and pass through aforementioned fournisseur, each
Individual fournisseur has several yarn feedings of the heterochromatic dyed yarn of importing and refers to, and derives a yarn of one of which dyed yarn
Mouthful, it is characterised in that described yarn method of automatically joining comprises the steps of
Step A: described middle control unit is drawn a point design drawing formation and had at least one row's latitude row and number row
Through several color dots of row, each color dot represents the color of a kind of dyed yarn;
Step B: described middle control unit calculates amount of collisions n of any two heterochromatic dyed yarns in aforementioned latitude row, front
State amount of collisions n and be decided by space-number m of any two heterochromatic color dots;And
Step C: described middle control unit sorts according to the size of aforementioned amount of collisions n, each yarn feeding relatively
The dyed yarn of the differently configured colour system of device.
Round volume machine the most according to claim 1 automatically join yarn method, it is characterised in that described
Automatically the yarn method of joining of circle volume machine also includes step D before step C, described middle control unit root
According to aforementioned color dot putting in order that each row's latitude arranges, produce the conflict that can represent each color dot
Table, makes two heterochromatic color dots adjacent in described collision table with different visual effect display.
Round volume machine the most according to claim 1 automatically join yarn method, it is characterised in that aforementioned
First color dot that any two heterochromatic color dots of step B take adjacent heterochromatic color dot is posterior arbitrary with sequence
Space-number m of individual heterochromatic color dot.
Round volume machine the most according to claim 1 automatically join yarn method, it is characterised in that described
Step C comprises step C1 further: described middle control unit calculates any two heterochromatic dyed yarns aforementioned
The sum total of amount of collisions n, step C2: described middle control unit is by different for minimum for amount of collisions n any two
Color dyed yarn is arranged in identical fournisseur, and step C3: described middle control unit is by amount of collisions n
Any two big heterochromatic dyed yarns are arranged in different fournisseurs.
Round volume machine the most according to claim 1 automatically join yarn method, it is characterised in that described
Step C comprises step C1 further: described middle control unit calculates any two heterochromatic dyed yarns aforementioned
The sum total of amount of collisions n, step C2: described middle control unit according to preset a fiducial value K,
Amount of collisions n any two heterochromatic dyed yarns less than described fiducial value K are arranged in identical fournisseur, and
One step C3: described middle control unit is according to described fiducial value K, by amount of collisions n more than or equal to described
Any two heterochromatic dyed yarns of fiducial value K are arranged in different fournisseurs.
Round volume machine the most according to claim 5 automatically join yarn method, it is characterised in that described
Amount of collisions n=weighted value S square, described weighted value S=maximum collision amount feasible value d-space-number m.
Round volume machine the most according to claim 6 automatically join yarn method, it is characterised in that described
Middle control unit directly judges space-number m any two heterochromatic dyed yarns more than maximum collision amount feasible value d
Amount of collisions n=0.
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CN201310196853.2A CN104178904B (en) | 2013-05-23 | 2013-05-23 | That justifies volume machine joins yarn method automatically |
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CN201310196853.2A CN104178904B (en) | 2013-05-23 | 2013-05-23 | That justifies volume machine joins yarn method automatically |
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CN104178904B true CN104178904B (en) | 2016-09-14 |
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CN1776055A (en) * | 2004-11-16 | 2006-05-24 | 新昌县宝妮纺织服饰有限公司 | Silk-tery lene transverse single-face tricot fabric and its production method |
CN2866545Y (en) * | 2006-01-24 | 2007-02-07 | 戴可东 | Dyed yarn thread guide for circular knitting machine |
CN101270531A (en) * | 2008-05-14 | 2008-09-24 | 张俊杰 | Weaving technique for multicolor layer-collection high-grade flax knitting fabric |
EP1975294A1 (en) * | 2007-03-27 | 2008-10-01 | Lava BVBA | Method for knitting a double jersey knit fabric on a double jacquard, double jersey circular knitting machine and double jersey knit fabric knitted by such a method |
EP2042629A1 (en) * | 2007-09-28 | 2009-04-01 | Bodet & Horst GmbH & Co. KG | Knitwear |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
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JP2003286636A (en) * | 2002-03-26 | 2003-10-10 | Precision Fukuhara Works Ltd | Jacquard cardboard knitted fabric and method for knitting the same |
US20120285203A1 (en) * | 2011-05-13 | 2012-11-15 | Wen Jeun Industrial Co., Ltd. | Circular knitting machine |
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2013
- 2013-05-23 CN CN201310196853.2A patent/CN104178904B/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1776055A (en) * | 2004-11-16 | 2006-05-24 | 新昌县宝妮纺织服饰有限公司 | Silk-tery lene transverse single-face tricot fabric and its production method |
CN2866545Y (en) * | 2006-01-24 | 2007-02-07 | 戴可东 | Dyed yarn thread guide for circular knitting machine |
EP1975294A1 (en) * | 2007-03-27 | 2008-10-01 | Lava BVBA | Method for knitting a double jersey knit fabric on a double jacquard, double jersey circular knitting machine and double jersey knit fabric knitted by such a method |
EP2042629A1 (en) * | 2007-09-28 | 2009-04-01 | Bodet & Horst GmbH & Co. KG | Knitwear |
CN101270531A (en) * | 2008-05-14 | 2008-09-24 | 张俊杰 | Weaving technique for multicolor layer-collection high-grade flax knitting fabric |
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