CN107724111A - Textile dyeing formula acquisition methods, device, storage medium and computer equipment - Google Patents

Abstract

The present invention relates to a kind of textile dyeing formula acquisition methods, device, readable storage medium storing program for executing and computer equipment.Textile dyeing is formulated throwing of the acquisition methods by obtaining textile to be dyed and contaminates parameter value, standard parameter value and multiple history formulas, parameter value and standard parameter value acquisition adjustment ratio are contaminated according to throwing, sample formula is obtained according to multiple history formulas, sample formula is adjusted using adjustment ratio, obtains the dyeing recipe of textile to be dyed.On the one hand, it can shorten and obtain the duration that dyeing recipe is consumed, so as to improve dyeing production efficiency, on the other hand, the acquisition of dyeing recipe can be automatically performed, it is not necessary to arrange draw a design personnel and toning personnel in addition, labor workload can be reduced.In addition, dyeing recipe stability is good, dyeing production percent of pass is high.

Description

Textile dyeing formula acquisition methods, device, storage medium and computer equipment

Technical field

The present invention relates to textile technology field, is formulated acquisition methods, device more particularly to a kind of textile dyeing, deposits Storage media and computer equipment.

Background technology

The process of production textile generally comprises the dyeing processing to textile.Textile dyeing is needed according to certain Bath raio corresponding with the formula dye liquor of textile is put into dye vat, textile is dyed color of object corresponding to formula；Wherein, Bath raio is the textile of throwing dye and the part by weight of dye liquor.The Color of textile and textile batch, cylinder type, bath raio etc. Series of factors is related, thus every time to textile dyeing before, be required for determining this according to textile batch, bath raio for throwing dye etc. Formula required for secondary dyeing.

The mode of formula, usually arranges the color of object dyed on demand after cylinder in plan needed for traditional determination dyeing Dye combinations, the basic dosage of dyestuff carry out running for multiple formulations, select formula according to the color that recalls is run.Run bag Include draw a design, two processes of mixing colours, expend time length, and need to arrange for the personnel of drawing a design and toning personnel, workload is big.

The content of the invention

Based on this, it is necessary to obtain the problem of time is long, labor workload is big for traditional formula, there is provided one kind contracting Short textile dyeing formula acquisition methods, device, storage medium and the computer equipment for expending duration, reducing workload.

A kind of textile dyeing is formulated acquisition methods, including：

Obtain throwing dye parameter value, standard parameter value and the multiple history formulas of textile to be dyed；

Parameter value and standard parameter value acquisition adjustment ratio are contaminated according to described throw；

Sample formula is obtained according to multiple history formulas；

The sample formula is adjusted using the adjustment ratio, the dyeing for obtaining the textile to be dyed is matched somebody with somebody Side.

A kind of textile dyeing is formulated acquisition device, including：

Data obtaining module, the throwing for obtaining textile to be dyed contaminate parameter value, standard parameter value and multiple history and matched somebody with somebody Side；

Adjustment ratio computing module, for contaminating parameter value and standard parameter value acquisition adjustment ratio according to described throw；

Sample is formulated generation module, for obtaining sample formula according to multiple history formulas；

Dyeing recipe acquisition module, for being adjusted using the adjustment ratio to the sample formula, obtain described The dyeing recipe of textile to be dyed.

Above-mentioned textile dyeing formula acquisition methods and device, the throwing by obtaining textile to be dyed contaminate parameter value, mark Quasi- parameter value and multiple history formulas, adjustment ratio is then obtained according to throwing dye parameter value and standard parameter value, and according to more Individual history formula obtains sample formula, and finally sample formula is adjusted using adjustment ratio, obtains textile to be dyed Dyeing recipe.In this way, on the basis of handling history formula to obtain sample formula, using according to throwing dye parameter value and standard The adjustment ratio that parameter value obtains is adjusted optimization to sample formula and obtains dyeing recipe, it is not necessary to the tune in conventional art Color, the process drawn a design；On the one hand, it can shorten and obtain the duration that dyeing recipe is consumed, so as to improve dyeing production efficiency, On the other hand, the acquisition of dyeing recipe can be automatically performed, it is not necessary to arrange draw a design personnel and toning personnel in addition, can reduce Labor workload.Further, since based on having history formula, can avoid in conventional art because drawing a design, appearance abnormality of mixing colours Situation and the situation for causing color to be returned something for repairs, dyeing recipe stability are good, dyeing production percent of pass is high.

A kind of storage medium, is stored with computer program, is realized when the computer program of storage is executed by processor above-mentioned Textile dyeing is formulated the step of acquisition methods.

A kind of computer equipment, including memory, processor and storage can be run on a memory and on a processor Computer program, the step of above-mentioned textile dyeing formula acquisition methods is realized described in the computing device during computer program Suddenly.

Above-mentioned storage medium and computer equipment, due to realizing above-mentioned textile dyeing formula acquisition methods, similarly may be used To shorten the duration for obtaining dyeing recipe and being consumed, and reduce labor workload；And dyeing recipe stability is good, dyeing life It is high to produce percent of pass.

Brief description of the drawings

Fig. 1 is the flow chart that textile dyeing is formulated acquisition methods in an embodiment；

Fig. 2 is the flow chart that textile dyeing is formulated acquisition methods in another embodiment；

Fig. 3 is the structure chart that textile dyeing is formulated acquisition device in an embodiment；

Fig. 4 is the L values of each numbering yarn and the line of L# values during the researching and analysing of the first predetermined coefficient and formula (1) Shape figure；

Fig. 5 be 1DE1-1DE15,2DE1-2DE15 during the researching and analysing of the second predetermined coefficient and formula (2), The Line Chart that 3DE1-3DE15 is respectively worth.

Embodiment

With reference to figure 1, the textile dyeing in an embodiment is formulated acquisition methods, can be applied to terminal, including step S110 To step S170.

S110：Obtain throwing dye parameter value, standard parameter value and the multiple history formulas of textile to be dyed.

Textile to be dyed refers to the textile for needing to be colored.For example, textile can be yarn, i.e., weaving to be dyed Product can be yarn to be dyed.It is to treat the parameter value set required for dyed textiles are dyed, example to throw dye parameter value It such as can be the bath raio that dyeing is used；The weight of textile and the weight ratio of dye liquor that bath raio contaminates for throwing.Standard parameter value and It is equal to throw the quantity of dye parameter value, each throws the corresponding standard parameter value of dye parameter value.Textile is typically dyed into needs Color after, information corresponding to each secondary dyeing course can be stored, therefore terminal is typically stored with various textiles and dyes difference The information of the history dyeing production of color, including dye the formula that different colours are used.History formula is textile to be dyed The formula that history dyeing production is used.

S130：Parameter value and standard parameter value acquisition adjustment ratio are contaminated according to throwing.

Wherein, adjustment ratio can be on the occasion of or negative value.Specifically, adjustment ratio can be according to throwing dye ginseng Numerical value and standard parameter value are calculated.

S150：Sample formula is obtained according to multiple history formulas.

Sample formula is to be formulated integrated treatment according to multiple history to obtain.Specifically, can be according to multiple history formulas Acquire a sample formula.

S170：Sample formula is adjusted using adjustment ratio, obtains the dyeing recipe of textile to be dyed.

Textile is carried out to use corresponding to the two or more dyestuffs and each dyestuff that are formulated including using that dyeing is used Amount.Sample formula is adjusted using adjustment ratio, specifically using each dyestuff in adjustment ratio adjustment sample formula Dosage.

Above-mentioned textile dyeing is formulated acquisition methods, contaminates parameter value, canonical parameter by the throwing for obtaining textile to be dyed Value and multiple history formulas, adjustment ratio is then obtained according to throwing dye parameter value and standard parameter value, and according to multiple history Formula obtains sample formula, finally sample formula is adjusted using adjustment ratio, the dyeing for obtaining textile to be dyed is matched somebody with somebody Side.In this way, on the basis of handling history formula to obtain sample formula, using according to throwing dye parameter value and standard parameter value The adjustment ratio of acquisition is adjusted optimization to sample formula and obtains dyeing recipe, it is not necessary to toning in conventional art, draws a design Process；On the one hand, it can shorten and obtain the duration that dyeing recipe is consumed, so as to improve dyeing production efficiency, the opposing party Face, the acquisition of dyeing recipe can be automatically performed, it is not necessary to arrange draw a design personnel and toning personnel in addition, artificial work can be reduced Measure.Further, since based on having history formula, can avoid in conventional art because draw a design, mix colours there are abnormal conditions and Cause the situation that color is returned something for repairs, dyeing recipe stability is good, and dyeing production percent of pass is high.

In one embodiment, throwing dye parameter value includes throwing dye bath ratio and throws dye number, and standard parameter value includes standard bath raio And norm value.It is to treat bath raio when dyed textiles are dyed to throw dye bath ratio；It is textile to be dyed to throw dye number For representing the parameter value of shade.In the present embodiment, the parameter value for representing shade is brightness value, that is, throws dye For colour to throw dye brightness value, norm value is normal brightness value.

With reference to figure 2, step S110 includes step S111 and step S115.

S111：Receive the batch and color of object of textile to be dyed.

Textile can include variety classes, and each textile is all corresponding with respective batch, refers to the production of textile Batch；The batch of same textile may also be different.Color of object refers to the color that textile to be dyed needs to dye.Specifically Ground, the batch and color of object of textile to be dyed can be obtained by receiving the information being manually entered.

S113：Obtain and dye bath ratio is thrown corresponding to batch, throws dye number and norm value.

Throw dye number and norm value and batch corresponding storage in advance.Specifically, terminal is previously stored with various textiles Each batch corresponding to throw dye number and norm value, terminal dye number and reference colour thrown according to corresponding to being found batch Value.Terminal can be the throwing dye bath ratio by receiving the corresponding batch being manually entered, and can also prestore each of various textiles Dye bath ratio is thrown corresponding to individual batch, terminal throws dye bath ratio according to corresponding to searching batch.

S115：Search the history formula of standard bath raio corresponding to color of object and the dyeing production of multiple history.

Terminal can be previously stored with standard bath raio corresponding to each color, and various textiles dye different colours The history formula of history dyeing production；After receiving color of object, the standard bath raio and multiple according to corresponding to being searched color of object History formula.

Throw dye number and norm value is related to the type of textile to be dyed；The color difference dyed is needed, it is corresponding to adopt Formula is also different, and therefore, the history formula of textile to be dyed is related to the color of object to be dyed.Pass through step S111 to step S115, acquired respectively according to batch and color of object high with each autocorrelative information, accuracy.

It is appreciated that in other embodiments, step S110 can be：Receive the throwing dye of the textile to be dyed of input Parameter value, standard parameter value and multiple history formulas.That is, the throwing dye parameter value of textile to be dyed, standard parameter value and multiple History formula directly can be manually entered by user.

In one embodiment, before step S115, in addition to step (a1) and step (a2).

Step (a1)：The bath raio of each self-corresponding repeatedly history dyeing production of a variety of colors is searched, respectively obtains various face Multiple history bath raioes of color.

Wherein, history bath raio is the bath raio that history dyeing production is used.Each color can be corresponding with multiple history dyeing Production, the corresponding bath raio of the production of history dyeing each time, therefore a kind of color corresponds to multiple history bath raioes.

Step (a2)：The maximum history bath raio of quantitative proportion is chosen from multiple history bath raioes of a variety of colors respectively simultaneously Storage, obtains standard bath raio corresponding to a variety of colors.

In multiple history bath raioes corresponding to a kind of color, it is understood that there may be the history bath raio of identical numerical value.Quantitative proportion is maximum History bath raio, be that same color is corresponded in multiple history bath raioes, history bath raio corresponding to the maximum numerical value of the frequency of occurrences. For example, history bath raio has 1 corresponding to blueness:8、1:5、1:8 and 1:10；1:8 quantitative proportion is 1/2,1:5 and 1:10 number Amount ratio is 1/4, then and 1:8 quantitative proportion is maximum, by 1:8 as standard bath raio corresponding to blueness.

By step (a1) and step (a2), the maximum history bath raio of quantitative proportion is chosen as standard bath raio, can be improved The accuracy of standard bath raio, so as to improve the accuracy of the adjustment ratio obtained based on standard bath raio.Specifically, step (a1) It can perform, can also be performed before step S111 after step S111.

Accordingly, step S115 is to search the formula that repeatedly history dyeing produces corresponding to color of object, obtains target face Multiple history formulas corresponding to color；Standard bath raio corresponding to color of object is searched from standard bath raio corresponding to each color.

In one embodiment, throwing dye parameter value includes throwing dye bath ratio and throws dye number, and standard parameter value includes standard bath raio And norm value.Specifically, adjustment ratio includes the first ratio and the second ratio.Include step with continued reference to Fig. 2, S130 S131 and step S133.

S131：First ratio is calculated according to throwing dye number and norm value.

S133：Second ratio is calculated according to throwing dye bath ratio and standard bath raio.

By obtaining the first ratio, according to throwing dye bath ratio and standard bath raio meter according to throwing dye number and norm value respectively Calculation obtains the second ratio, so as to be adjusted using the first ratio and the second ratio to sample formula, considered bath raio and Influence of the parameter value of shade to dyeing is represented, the accuracy to the adjustment of sample formula can be improved.

In one embodiment, step S131 includes：The difference for calculating throwing dye number and norm value obtains colour difference； First ratio is obtained according to colour difference and the first predetermined coefficient, the first ratio increases with the increase of colour difference.

Colour difference can be on the occasion of or negative value.Specifically, calculated in step S131 and throw dye number and standard The difference of colour, which obtains the step of colour difference, to be included：Calculate throw that dye number subtracts norm value be worth to colour difference.It is right Ying Di, if colour difference is more than norm value just, to throw dye number, the trend that first ratio that represents corresponds to adjustment is will formula Middle dye strength is deepened；If colour difference is negative, throws dye number and be less than norm value, represent becoming for the corresponding adjustment of the first ratio Gesture is shallow for dye strength in formula is subtracted.

It is appreciated that in other embodiments or calculating norm value and subtracting and throw dye number and be worth to colour Difference；Accordingly, if colour difference is just, then it represents that the trend of the corresponding adjustment of the first ratio is to subtract dye strength in formula It is shallow, if colour difference is negative, then it represents that the trend of the corresponding adjustment of the first ratio is that dye strength will be deepened in being formulated.

Specifically, after the difference of calculating norm value and throwing dye number obtains colour difference in step S131, also wrap Include：Judge whether colour difference is less than preset value, if so, then using 0 as the first ratio；If otherwise perform according to colour difference The step of the first ratio being obtained with the first predetermined coefficient.By by colour difference compared with preset value, if colour difference be less than it is pre- If value, represent that norm value and throwing dye number are essentially identical, the first ratio is now set to 0, i.e., without according to the first ratio pair Sample formula is adjusted, and can simplify calculation procedure.In the present embodiment, preset value 0.01.

First predetermined coefficient is the coefficient obtained by carefully studying analysis, by using the first predetermined coefficient and colour Difference obtains the first ratio, and accuracy is high.In the present embodiment, the first ratio is 20%/5.

Specifically, the step of obtaining the first ratio according to colour difference and the first predetermined coefficient in step S131 includes：Meter Colour difference and the product of the first predetermined coefficient are calculated, obtains the first ratio.Step S131 calculates by using equation below (1) Obtain the first ratio：

TD1=Δs L* (20%/5) formula (1)；

Wherein, Δ L is colour difference, and TD1 is the first ratio, and 20%/5 is the first predetermined coefficient.

In one embodiment, step S133 includes：Calculate and throw corresponding to dye liquor ratio number corresponding to dye bath ratio and standard bath raio The difference of dye liquor ratio number obtains bath raio difference；Second ratio is obtained according to bath raio difference and the second predetermined coefficient, the second ratio with The increase of bath raio difference and increase.

The weight of textile and the weight ratio of dye liquor that bath raio contaminates for throwing, the weight for the textile that a bath raio is contaminated by throwing Than being formed corresponding to the weight of number and dye liquor than number corresponding to amount；Dye liquor ratio number is to compare number corresponding to the weight of dye liquor.For example, It is 1 to throw dye bath ratio/standard bath raio:10, then it is 10 to throw dye bath ratio/dye liquor ratio number corresponding to standard bath raio.

Bath raio difference can be on the occasion of or negative value.Specifically, calculate and thrown corresponding to dye bath ratio in step S133 The step of difference of dye liquor ratio number obtains bath raio difference corresponding to dye liquor ratio number and standard bath raio includes：Calculate and throw dye bath comparison What the dye liquor proportion answered subtracted dye liquor proportion corresponding to standard bath raio is worth to bath raio difference.Accordingly, if bath raio difference is Just, the trend for representing the corresponding adjustment of the second ratio is to deepen dye strength in formula；If bath raio difference is negative, second is represented The trend of the corresponding adjustment of ratio is shallow for dye strength in formula is subtracted.

It is appreciated that in other embodiments or calculate standard bath raio corresponding to dye liquor proportion subtract throwing dye bath Bath raio difference is worth to than corresponding dye liquor proportion；Accordingly, if bath raio difference is just, then it represents that the second ratio is corresponding to be adjusted Whole trend is shallow for dye strength in formula is subtracted, if bath raio difference is negative, then it represents that the second ratio corresponds to the trend adjusted and is Dye strength is deepened in being formulated.As long as the trend and bath raio difference of the specific corresponding adjustment of the sign symbol for meeting colour difference The corresponding adjustment of sign symbol trend it is identical；That is, if colour difference subtracts norm value to calculate throwing dye number Value, then bath raio difference is to calculate to throw the value that dye bath subtracts dye liquor proportion corresponding to standard bath raio than corresponding dye liquor proportion.

Specifically, step S133, which is calculated, throws dye bath than dye liquor ratio number corresponding to corresponding dye liquor ratio number and standard bath raio After difference obtains bath raio difference, in addition to：Judge whether bath raio difference is less than preset value, if so, then using 0 as the second ratio Example；If otherwise perform the step of the second ratio is obtained according to bath raio difference and the second predetermined coefficient.By by bath raio difference and in advance If value compares, if bath raio difference is less than preset value, represents to throw dye bath ratio and standard bath raio is essentially identical, now by the second ratio 0 is set to, i.e., without being adjusted according to the second ratio to sample formula, calculation procedure can be simplified.In the present embodiment, preset value For 0.01.

Second predetermined coefficient is the coefficient obtained by carefully studying analysis, by using the second predetermined coefficient and bath raio Difference obtains the second ratio, and accuracy is high.In the present embodiment, the second ratio is 1.5%/2.

Specifically, the step of obtaining the second ratio according to bath raio difference and the second predetermined coefficient in step S133 includes：Meter Bath raio difference and the product of the second predetermined coefficient are calculated, obtains the second ratio.Step S133 calculates by using equation below (2) Obtain the second ratio：

TD2=Δs Y* (1.5%/2) formula (2)；

Wherein, Δ Y is bath raio difference, and TD2 is the second ratio, and 1.5%/2 is the second predetermined coefficient.

In one embodiment, the original weight parameter value of two or more dyestuffs is included with continued reference to Fig. 2, history formula.Weight It is the parameter value for representing dye dosage in being formulated to measure parameter value, such as can be that dyestuff weight accounts for textile weight to be dyed The percentage of amount.Original weight parameter value is the weight parameter value of dye dosage in history formula.

Step S150 includes step S151 and step S153.

S151：The average value that each history formula corresponds to the original weight parameter value of same dyestuff is calculated, is respectively obtained each The average weight parameter value of dyestuff.

The kind of dyes used in history formula corresponding to same color of object is identical.By obtaining same dyestuff Original weight parameter value in each history formula is simultaneously averaging, and can obtain the average weight parameter value of this dyestuff.

S153：Sample formula is worth to according to the average weight parameter of each dyestuff.

Sample formula be formulated by history in dyestuff corresponding to average weight parameter value form.

It is averaging by the original weight parameter value of each dyestuff in being formulated to history, a variety of history formulas can be integrated, obtained It is good to sample formulation efficacy.

Specifically, the average weight parameter value of each dyestuff is calculated using equation below (3) by step S151.

Fi=C1+C2+C3+C4+C5+ ...+CN/N formula (3)；

Wherein, C1, C2, C3, C4, C5 ... CN is respectively first history formula be formulated to n-th history in i-th kind The original weight parameter value of dyestuff；N is the total quantity of history formula；Fi is the average weight parameter value of i-th kind of dyestuff.

In one embodiment, adjustment ratio has multiple.Step S170 includes step (b1) to step (b3).

Step (b1)：Calculate respectively default radix and each adjustment ratio and obtain multiple and value.

Default radix is the number pre-set according to actual conditions.In the present embodiment, it is 1 to preset radix.It is appreciated that In other embodiments, default radix can also be other numerical value.Specifically, each adjustment ratio corresponding one and value.

Step (b2)：The product of the average weight parameter value of each dyestuff in multiple and value and sample formula is calculated respectively, is obtained To the optimization weight parameter value of each dyestuff.

A kind of optimization weight parameter value of dyestuff is calculated, each average weight parameter value with value and this dyestuff is joined Calculated with product, obtain corresponding optimization weight parameter value.

Step (b3)：Dyeing recipe is worth to according to the optimization weight parameter of each dyestuff.

Dyeing recipe optimizes weight parameter value and formed corresponding to each dyestuff in being formulated by sample.

Specifically, adjustment ratio includes the first ratio and the second ratio.With continued reference to Fig. 2, step (b1) includes step S171, step (b2) include step S173, and step (b3) includes step S175.

S171：Calculate default radix and the first ratio and obtain first and value, radix and the second ratio are preset in calculating With obtain second and value.

S173：The average weight parameter value of each dyestuff in sample formula is calculated respectively with first and value, second and value to multiply Product, obtain the optimization weight parameter value of corresponding dyestuff.

Specifically, the optimization weight parameter value of dyestuff is calculated by equation below (4) by step S173.

S=Fi* (1+TD1) * (1+TD2) formula (4)；

Wherein, the optimization weight parameter of the dyestuff corresponding to S TD1, TD2 and Fi.

S175：Dyeing recipe is worth to according to the optimization weight parameter of each dyestuff.

With reference to figure 3, the textile dyeing in an embodiment is formulated acquisition device, including data obtaining module 110, adjustment Ratio computing module 130, sample formula generation module 150 and dyeing recipe acquisition module 170.

Data obtaining module 110 is used for throwing dye parameter value, standard parameter value and the multiple history for obtaining textile to be dyed Formula.

Adjustment ratio computing module 130 is used to contaminate parameter value and standard parameter value acquisition adjustment ratio according to described throw Example.

Sample formula generation module 150 is used to obtain sample formula according to multiple history formulas.

Dyeing recipe acquisition module 170 is used to be adjusted the sample formula using the adjustment ratio, obtains institute State the dyeing recipe of textile to be dyed.

Above-mentioned textile dyeing is formulated acquisition device, and the throwing that textile to be dyed is obtained by data obtaining module 110 contaminates Parameter value, standard parameter value and multiple history formulas, ratio computing module 130 is then adjusted according to throwing dye parameter value and standard Parameter value obtains adjustment ratio, and sample formula generation module 150 obtains sample formula according to multiple history formulas, finally Dyeing recipe acquisition module 170 is adjusted using adjustment ratio to sample formula, and the dyeing for obtaining textile to be dyed is matched somebody with somebody Side.In this way, on the basis of handling history formula to obtain sample formula, using according to throwing dye parameter value and standard parameter value The adjustment ratio of acquisition is adjusted optimization to sample formula and obtains dyeing recipe, it is not necessary to toning in conventional art, draws a design Process；On the one hand, it can shorten and obtain the duration that dyeing recipe is consumed, so as to improve dyeing production efficiency, the opposing party Face, the acquisition of dyeing recipe can be automatically performed, it is not necessary to arrange draw a design personnel and toning personnel in addition, artificial work can be reduced Measure.Further, since based on having history formula, can avoid in conventional art because drawing a design, mixing colours abnormal conditions occurs and draw The situation that color is returned something for repairs is played, dyeing recipe stability is good, and dyeing production percent of pass is high.

In one embodiment, throwing dye parameter value includes throwing dye bath ratio and throws dye number, and standard parameter value includes standard bath raio And norm value.Data obtaining module 110 is specifically used for the batch and color of object for receiving textile to be dyed；Obtain batch Corresponding throwing dye bath ratio, throw dye number and norm value；Search standard bath raio corresponding to color of object and the dyeing life of multiple history The history formula of production.

Throw dye number and norm value is related to the type of textile to be dyed；The color difference dyed is needed, it is corresponding to adopt Formula is also different, and therefore, the history formula of textile to be dyed is related to the color of object to be dyed.Pass through root respectively Acquired according to batch and color of object high with each autocorrelative information, accuracy.

It is appreciated that in other embodiments, data obtaining module 110 can be also used for receiving the spinning to be dyed of input Throwing dye parameter value, standard parameter value and the multiple history formulas of fabric.That is, the throwing dye parameter value of textile to be dyed, standard ginseng Numerical value and multiple history formulas directly can be manually entered by user.

In one embodiment, data obtaining module 110 searches standard bath raio corresponding to color of object and the dyeing of multiple history Before the history formula of production, it can be also used for：The bath raio of each self-corresponding repeatedly history dyeing production of a variety of colors is searched, Respectively obtain multiple history bath raioes of a variety of colors；Respectively quantitative proportion is chosen from multiple history bath raioes of a variety of colors most Big history bath raio simultaneously stores, and obtains standard bath raio corresponding to a variety of colors.The history bath raio maximum by choosing quantitative proportion As standard bath raio, the accuracy of standard bath raio can be improved, so as to improve the accurate of the adjustment ratio obtained based on standard bath raio Property.

In one embodiment, throwing dye parameter value includes throwing dye bath ratio and throws dye number, and standard parameter value includes standard bath raio And norm value.Specifically, adjustment ratio includes the first ratio and the second ratio.Adjustment ratio computing module 130 includes first Computing unit (not shown) and the second computing unit (not shown).

First computing unit is used to the first ratio be calculated according to throwing dye number and norm value.Second computing unit For the second ratio to be calculated according to throwing dye bath ratio and standard bath raio.By being obtained respectively according to throwing dye number and norm value The second ratio is calculated to the first ratio, according to throwing dye bath ratio and standard bath raio, so as to use the first ratio and the second ratio Sample formula is adjusted, bath raio has been considered and has represented influence of the parameter value of shade to dyeing, can improve To the accuracy of sample formula adjustment.

In one embodiment, the first computing unit is used to calculating the difference for throwing dye number and norm value to obtain colour poor Value；First ratio is obtained according to colour difference and the first predetermined coefficient, the first ratio increases with the increase of colour difference.

Specifically, the first computing unit calculate throw that dye number subtracts norm value be worth to colour difference.First calculates Unit calculates colour difference and the product of the first predetermined coefficient, obtains the first ratio.

Specifically, after the difference of the first computing unit calculating throwing dye number and standard dye number obtains colour difference, also For judging whether colour difference is less than preset value, if so, then using 0 as the first ratio；If otherwise according to colour difference and One predetermined coefficient obtains the first ratio.By the way that colour difference compared with preset value, if colour difference is less than preset value, is represented Norm value and throwing dye number are essentially identical, and the first ratio now is set into 0, i.e., need not be according to the first ratio to sample formula It is adjusted, calculation procedure can be simplified.In the present embodiment, preset value 0.01.

First predetermined coefficient is the coefficient obtained by carefully studying analysis, by using the first predetermined coefficient and colour Difference obtains the first ratio, and accuracy is high.In the present embodiment, the first ratio is 20%/5.

In one embodiment, the second computing unit, which is used to calculate, throws dye liquor ratio number and standard bath raio pair corresponding to dye bath ratio The difference for the dye liquor ratio number answered obtains bath raio difference；Second ratio, the second ratio are obtained according to bath raio difference and the second predetermined coefficient Example increases with the increase of bath raio difference.

Specifically, dye liquor proportion corresponding to the second computing unit calculating throwing dye bath ratio subtracts dye liquor corresponding to standard bath raio Proportion is worth to bath raio difference.Second computing unit calculates bath raio difference and the product of the second predetermined coefficient, obtains the second ratio Example.

Specifically, the second computing unit, which calculates, throws dye liquor ratio corresponding to dye liquor ratio number corresponding to dye bath ratio and standard bath raio After several differences obtains bath raio difference, it is additionally operable to judge whether bath raio difference is less than preset value, if so, then using 0 as second Ratio；If the second ratio is otherwise obtained according to bath raio difference and the second predetermined coefficient.By by bath raio difference and preset value ratio Compared with, if bath raio difference is less than preset value, represents to throw dye bath ratio and standard bath raio be essentially identical, the second ratio is now set to 0, I.e. without being adjusted according to the second ratio to sample formula, calculation procedure can be simplified.In the present embodiment, preset value 0.01.

Second predetermined coefficient is the coefficient obtained by carefully studying analysis, by using the second predetermined coefficient and bath raio Difference obtains the second ratio, and accuracy is high.In the present embodiment, the second ratio is 1.5%/2.

In one embodiment, history formula includes the original weight parameter value of two or more dyestuffs.Sample formula generates mould Block 150 is used for：The average value that each history formula corresponds to the original weight parameter value of same dyestuff is calculated, respectively obtains each dye The average weight parameter value of material；Sample formula is worth to according to the average weight parameter of each dyestuff.By each in being formulated to history The original weight parameter value of dyestuff is averaging, and can integrate a variety of history formulas, it is good to obtain sample formulation efficacy.

In one embodiment, adjustment ratio has multiple.Dyeing recipe acquisition module 170 is used for：Default radix is calculated respectively With each adjustment ratio and obtain multiple and value；The average weight ginseng of each dyestuff in multiple and value and sample formula is calculated respectively The product of numerical value, obtain the optimization weight parameter value of each dyestuff；Dyeing is worth to according to the optimization weight parameter of each dyestuff to match somebody with somebody Side.

Specifically, adjustment ratio includes the first ratio and the second ratio.Dyeing recipe acquisition module 170 is specifically used for meter Calculate default radix and the first ratio and obtain first and value, it is that radix and the second ratio are preset in calculating and obtain second and value； Respectively calculate sample formula in each dyestuff average weight parameter value with first and value, second and be worth product, obtain correspond to contaminate The optimization weight parameter value of material；Dyeing recipe is worth to according to the optimization weight parameter of each dyestuff.

A kind of storage medium, is stored with computer program, is realized when the computer program of storage is executed by processor above-mentioned Textile dyeing is formulated the step of acquisition methods.

Specifically, storage medium can be readable storage medium storing program for executing.

A kind of computer equipment, including memory, processor and storage can be run on a memory and on a processor Computer program, the step of above-mentioned textile dyeing formula acquisition methods are realized during computing device computer program.

Above-mentioned storage medium and computer equipment, due to realizing above-mentioned textile dyeing formula acquisition methods, similarly may be used To shorten the duration for obtaining dyeing recipe and being consumed, and reduce labor workload；And dyeing recipe stability is good, dyeing life It is high to produce percent of pass.

Illustrated in detail below by taking yarn as an example, the first predetermined coefficient and formula (1) in the application are researched and analysed Process is as follows：

1st, the dyeing recipe D of a cadet blue reactive dye is chosen, takes 10 brightness value Ls different yarn batch, it is big by L values Small number consecutively is 1# to 10#.

2nd, 1# to 10# is dyed with cup by D formulas, bath raio 1：12.

3rd, the yarn sending computer colour examining of the 1# to 10# after dyeing, records corresponding brightness value L #, number consecutively be L1# extremely L10#。

4th, the yarn color for the yarn batch for being 1# using numbering is surveyed using 2# to 10# yarn as than sample respectively as standard Examination, measures DL value and DE value of the 2# yarns to 10# yarns relative to 1# yarns.Wherein, DL values by corresponding yarn contaminated color and The depth difference of Standard Colors (1# yarns contaminate color), if DL values compare Standard Colors just, to represent that corresponding yarn contaminates color It is partially shallow, on the contrary it is partially deep.DE values contaminate value of chromatism of the color relative to Standard Colors for corresponding yarn.

5th, using the color of 1# yarns as standard, the color and the color of 1# yarns of human eye verification 2# yarn -10# yarns Depth discrepancy delta D1.Difference is represented by depth percentage.For statistics as shown in table 1 below and Fig. 4, wherein Δ L is reference numeral Yarn L values and 1# yarns L values difference.In Fig. 4, the curve of top is curve corresponding to L1# to L10# value, under Side curve be 1# to 10# yarn be colored before L values corresponding to curve.

Table 1

From table 1 and Fig. 4, yarn obtains that color depth is shallow relevant with the L values of yarn, i.e. L values are bigger, and it is more shallow that yarn obtains color.

6th, calculate according to norm value and throw the calculation formula of dye number the first ratio of acquisition：

1), using L1# as standard, L10#-L1#=5 (rounds up), and the color of 10# yarns is partially deep compared with the color of 1# yarns 20% (being specifically shown in table 2 below).

2), 10# yarns calculate simulation formula compared with the color partially deep 20% of 1# yarns：Td1=Δs L* (20%/5), wherein Td1 is the ratio to color depth adjustment.

3), formula is verified：

Calculate ratio and the adjustment of color depth adjustment of the 2#-10# yarns to 1# yarns respectively according to simulation formula 2) The color depth of 2#-10# yarns is as shown in table 2 below to the discrepancy delta TD1 of the color depth of 1# yarns afterwards.Wherein, Δ TD1= ΔD1+td1。

Table 2

As can be seen from Table 2, the color of the 2#-10# yarns after adjustment and the difference of the shade of 1# yarns are obvious Reduce, and substantially can be to the color depth of time 1# yarns.Therefore different yarns batch can according to used in it with Standard Colors yarn batch The discrepancy delta L of L values extrapolates the ratio for the color depth for needing to adjust.In this way, the first predetermined coefficient of checking and formula (1) Feasibility.

To the second predetermined coefficient and formula (2) to research and analyse process as follows：

1st, the dyeing recipe of a black and active dye is selected, and selects 1:8/10/12/14/16/18/20/22/24/26 Bath raio carries out hand sample dyeing to yarn.Yarn after dyeing is 1#-10# by bath raio number consecutively.

2nd, the L# values (brightness value after dyeing) of 1#-10# yarns are tested, numbering is respectively L1#-L10#.

3rd, using 1# yarns as standard, respectively using 2#-10# yarns as the aberration that 2#-10# yarns and 1# yarns are tested than sample It is worth (DE) and DL values.

4th, using 1# yarns as standard, respectively with 2#-10# yarns compared with its human eye, color distortion value Δ D2 is provided.With Upper data record such as table 3 below.

Table 3

As can be seen from Table 3, as bath raio increases, the color depth of yarn has partially shallow trend.

5th, simulation formula is summed up with bath raio changing rule by color in upper table 3：Td2=Δs Y* (1.5%/2), wherein Td2 is the ratio to color depth adjustment.

6th, the accuracy of checking simulation formula：By the simulation formula in 5 with the bath raio (1 of 1# yarns：8) it is standard, for The bath raio of 2#-10# yarns carries out formula adjustment, calculates the ratio td2 for the color depth for needing to adjust, real further according to color Border difference with adjustment after color depth extrapolate adjustment after 2#-10# yarns color depth to standard (1#) color depth Discrepancy delta TD2.Wherein, Δ TD2=Δs D2+td2.Specific data are as shown in table 4 below.

Table 4

It can be received by the color depth difference of the 2#-10# yarns after adjustment as can be seen from Table 4.In this way, test Demonstrate,prove the feasibility of the second predetermined coefficient and formula (2).

To formula (3) to research and analyse process as follows：

1st, the grey of a color rdativery sensitive is selected, the dye formulation of grey is defined as C.

2nd, yarn batch selection, the yarn of the model 40 of 15 yarns batch, number consecutively 1#- are randomly selected in systems 15#。

3rd, dyeing recipe is studied：

1), the yarn of 1#-15# yarns batch surveys computer value (DE by selected dye formulation C dyeing, dyeing sample to standard respectively Value), it is 1DE1-1DE15 to survey DE values and number respectively.

2), carry out being formulated adjustment and beat according to the difference condition of the color after 1#-15# yarn dyeings and standard gray color Sample is contrasted, until drawing each self-corresponding OK formulas of 1#-15# yarns, 1#-15# yarns are contaminated using respective OK formulas The DE value numberings that color obtains are 2DE1-2DE15.

3) OK formulas, are simulated to determine:

Simulation OK formula in dyestuff dyestuff weight account for dyeing textile weight percentage f=(C1+C2+ ...+ C15)/15。

4) OK recipe verifications, are simulated：

1#-15# yarns survey DE values by simulation OK formula dyeing, dyeing sample to standard testing computer value (DE values) respectively Numbering is 3DE1-3DE15 respectively.Specific data statistics is as shown in table 5 below and Fig. 5.In Fig. 5, the curve difference of upper, middle and lower three Correspond to curve corresponding to 1DE1-1DE15, curve corresponding to 3DE1-3DE15, curve corresponding to 2DE1-2DE15.

Table 5

Numbering	1	2	3	4	5	6	7	8	9	10
											1DE	1.54	0.96	1.14	1.01	1.07	0.97	1.55	1.11	1.56	1.28
2DE	0.6	0.55	0.42	0.67	0.5	0.34	0.69	0.68	0.67	0.66
											3DE	0.7	0.76	0.76	0.72	0.78	0.68	0.76	0.8	0.72	0.67

The obtained DE dyed by simulation OK formulas to the yarn of each numbering yarn batch is can be seen that from table 5 and Fig. 5 Value meets the requirements, so as to verify the feasibility of formula (3).

Above-mentioned textile dyeing formula acquisition methods can be used for terminal to obtain the dyeing recipe of yarn.Below with two Individual concrete application example illustrates.

First, application examples (one)

Yarn count：40S；Color：It is light blue；Dye bath is thrown than 1：6.8；Standard bath raio 1：10；Throw dye number： 22.2；Reference colour Value：21.05；Sample formula：D1#-D10#, as shown in table 6.

Table 6

1st, the first ratio is calculated using formula (1) according to throwing dye number and norm value：

TD1=(22.2-21.05) * 20%/5=4.6%；

The trend for representing to need to adjust sample formula is that dye strength will deepen 4.6% in being formulated.

2nd, the second ratio is calculated using formula (2) according to standard bath raio and throwing dye bath ratio：

TD2=(6.8-10) * 1.5%/2=-2.4%；

The trend for representing to need to adjust sample formula is that dye strength in formula is subtracted into shallow 2.4%.

3rd, the data in table 6 are calculated using formula (3)：Red average weight parameter value in sample formula For 0.00624；The average weight parameter value of blueness is 0.266.

4th, it is calculated according to the first ratio, the second ratio using formula (4)：Red optimization weight in dyeing recipe Parameter value is 0.0058；The optimization weight parameter value of blueness is 0.2472.

The color meets production requirement by above dyeing recipe according to dye, coloration result is thrown after the factor addition such as cylinder type.

2nd, application examples (two)

Yarn count：40S；Color：Light gray；Dye bath is thrown than 1：8.3；Standard bath raio 1：10；Throw dye number： 21.81；Reference colour Value：21.82；Sample formula：D1#-D10#, as shown in table 7.

Table 7

1st, throw dye number and norm value is essentially identical, therefore the first ratio need not be calculated.

2nd, the second ratio is calculated using formula (2) according to standard bath raio and throwing dye bath ratio：

TD2=(8.3-10) * 1.5%/2=-1.275%；

The trend for representing to need to adjust sample formula is that dye strength in formula is subtracted into shallow 1.275%.

3rd, the data in table 7 are calculated using formula (3)：The average weight parameter value of yellow in sample formula For 0.0633；Red average weight parameter value is 0.0441；The average weight parameter value of blueness is 0.154.

4th, it is calculated according to the first ratio, the second ratio using formula (4)：The optimization weight of yellow in dyeing recipe Parameter value is 0.0625；Red optimization weight parameter value is 0.0435；The optimization weight parameter value of blueness is 0.152.

The color meets production requirement by above dyeing recipe according to dye, coloration result is thrown after the factor addition such as cylinder type.

Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope that this specification is recorded all is considered to be.

Embodiment described above only expresses the several embodiments of the present invention, and its description is more specific and detailed, but simultaneously Can not therefore it be construed as limiting the scope of the patent.It should be pointed out that come for one of ordinary skill in the art Say, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the guarantor of the present invention Protect scope.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (10)

1. a kind of textile dyeing is formulated acquisition methods, it is characterised in that including：

Obtain throwing dye parameter value, standard parameter value and the multiple history formulas of textile to be dyed；

Parameter value and standard parameter value acquisition adjustment ratio are contaminated according to described throw；

Sample formula is obtained according to multiple history formulas；

The sample formula is adjusted using the adjustment ratio, obtains the dyeing recipe of the textile to be dyed.

2. textile dyeing according to claim 1 is formulated acquisition methods, it is characterised in that the dye parameter value of throwing includes Throw dye bath ratio and throw dye number, the standard parameter value includes standard bath raio and norm value；It is described to obtain textile to be dyed Throwing dye parameter value, standard parameter value and multiple history formulas, including：

Receive the batch and color of object of textile to be dyed；

Obtain and dye bath ratio is thrown corresponding to the batch, throws dye number and norm value；

Search the history formula of standard bath raio corresponding to the color of object and the dyeing production of multiple history.

3. textile dyeing according to claim 2 is formulated acquisition methods, it is characterised in that described to search the target face Before standard bath raio corresponding to color and the history formula of multiple history dyeing production, in addition to：

The bath raio of each self-corresponding repeatedly history dyeing production of a variety of colors is searched, respectively obtains multiple history bath of a variety of colors Than；

The maximum history bath raio of quantitative proportion is chosen from multiple history bath raioes of a variety of colors respectively and is stored, obtains various face Standard bath raio corresponding to color.

4. textile dyeing according to claim 2 is formulated acquisition methods, it is characterised in that the adjustment ratio includes the One ratio and the second ratio, it is described that parameter value and standard parameter value acquisition adjustment ratio are contaminated according to described throw, including：

First ratio is calculated according to the throwing dye number and the norm value；

Second ratio is calculated according to the throwing dye bath ratio and the standard bath raio.

5. textile dyeing according to claim 4 is formulated acquisition methods, it is characterised in that including in following two extremely One item missing：

It is described that first ratio is calculated according to the throwing dye number and the norm value, including：

The difference for calculating the throwing dye number and the standard dye number obtains colour difference；

First ratio is obtained according to the colour difference and the first predetermined coefficient, first ratio is with the colour difference Increase and increase；

It is described that second ratio is calculated according to the throwing dye bath ratio and the standard bath raio, including：

Calculating the throwing dye bath, than the difference of dye liquor ratio number corresponding to corresponding dye liquor ratio number and institute's standard bath raio to obtain bath raio poor Value；

Second ratio is obtained according to the bath raio difference and the second predetermined coefficient, second ratio is with the bath raio difference Increase and increase.

6. the textile dyeing formula acquisition methods according to claim any one of 1-5, it is characterised in that the history is matched somebody with somebody Side includes the original weight parameter value of two or more dyestuffs, described to obtain sample formula according to multiple history formulas, including：

The average value that each history formula corresponds to the original weight parameter value of same dyestuff is calculated, respectively obtains being averaged for each dyestuff Weight parameter value；

The sample formula is worth to according to the average weight parameter of each dyestuff.

7. textile dyeing according to claim 6 is formulated acquisition methods, it is characterised in that the adjustment ratio has more It is individual, it is described that the sample formula is adjusted using the adjustment ratio, the dyeing recipe of the textile to be dyed is obtained, Including：

Calculate respectively default radix and each adjustment ratio and obtain multiple and value；

The product of the average weight parameter value of each dyestuff in multiple and value and sample formula is calculated respectively, obtains each dyestuff Optimize weight parameter value；

The dyeing recipe is worth to according to the optimization weight parameter of each dyestuff.

8. a kind of textile dyeing is formulated acquisition device, it is characterised in that including：

Data obtaining module, the throwing for obtaining textile to be dyed contaminate parameter value, standard parameter value and multiple history formulas；

Adjustment ratio computing module, for contaminating parameter value and standard parameter value acquisition adjustment ratio according to described throw；

Sample is formulated generation module, for obtaining sample formula according to multiple history formulas；

Dyeing recipe acquisition module, for being adjusted the sample formula using the adjustment ratio, obtain described waiting to contaminate The dyeing recipe of color textile.

9. a kind of storage medium, is stored with computer program, it is characterised in that when the computer program of storage is executed by processor Realize as any one of claim 1-7 the step of method.

10. a kind of computer equipment, including memory, processor and storage are on a memory and the meter that can run on a processor Calculation machine program, it is characterised in that realized described in the computing device during computer program as described in claim any one of 1-7 The step of method.