CN108193409A - The dyeing and finishing system and technique of the fine color-woven fabric of plain color terylene length - Google Patents

Abstract

The present invention provides the dyeing and finishing systems and technique that plain color terylene grows fine color-woven fabric, including babinet, the babinet is divided into electrostatic room and dyeing chamber, fabric is delivered to dyeing chamber by electrostatic room and is exported again by dyeing chamber, electrostatic dust removal mechanism is set in the electrostatic room, fabric is dusted, dyeing mechanism is set in the dyeing chamber, when it enters dye liquor by fabric, dye liquor meeting released part impurity, remaining impurity is removed using the component that cleans simultaneously, it swings fabric the impurity of stripping is pushed to outside dip dyeing channel, fabric is solved to contact with dye liquor when being dyed, impurity on fabric formed color defect the problem of, it realizes while dyeing fabric quality is ensured, improve the efficiency of dyeing.

Description

The dyeing and finishing system and technique of the fine color-woven fabric of plain color terylene length

Technical field

The present invention relates to the dyeing and finishing systems and technique of textile technology field, the specially fine color-woven fabric of plain color terylene length.

Background technology

The fine color-woven fabric of plain color terylene length is very more a kind of chemical fiber garment fabrics in daily life.Its maximum Advantage is that wrinkle resistance and conformality are fine, therefore, is suitble to do coat garment.Polyester fabric has the characteristics that：Dacron has There are higher intensity and elastic recovery capability, therefore, strong durable, wash and wear.Dacron hygroscopicity is poor, and dress has Feeling of oppression and heat, while easily static electrification, contamination dust, influence beautiful and comfort.It is easily dry after but washing, and it is wet it is strong hardly under Drop, it is indeformable, there is good well-flushing truck energy.Terylene is to close the fabric that heat resistance is best in fine fabric, has thermoplasticity, can make Accordion-pleated skirt is made, rivel is lasting.Meanwhile the melt resistance of dacron is poor, meets cigarette ash, Mars etc. and easily forms hole.Therefore, it wears The contact of cigarette butt, spark etc. should be avoided when as possible.The light resistance of dacron is preferable, in addition to poorer than acrylic fibers, sun-proof ability Surpass natural fabric.Sun-proof ability especially behind glass is fine, almost equally matched with acrylic fibers.Dacron is resistance to Various chemicals are functional.Acid, alkali are all little to its extent of the destruction, while are not afraid of mould, are not afraid of and damage by worms.

But the characteristics of due to its easy static electrification, various dusts, filament and the end of a thread etc. are easily infected on fabric, because This when being dyed on fabric needs that sundries is avoided to form the dyeing defect such as specking, dyeing flower, color spot on fabric as far as possible Disease.

In the Chinese patent of Patent No. CN102644170B, a kind of horizontal type high-temperature high-pressure overflow dyeing machine is disclosed, The present invention includes staining bath, carries cotton piece buff, nozzle and dye liquor cyclic delivery system, and upper and lower two layers of conveyer is equipped in the staining bath, Dye liquor height in staining bath when the height of lower floor's conveyer is higher than work.In dyeing, fabric and dye liquor are kept completely separate the present invention, institute The amount of dye liquor is needed, as long as ensureing dye liquor cycle.

But contacted due to facing with the dye liquor portion in staining bath, speed, the efficiency of dyeing are had a greatly reduced quality.

Invention content

In view of the above problems, the present invention provides dyeing and finishing system and technique that plain color terylene grows fine color-woven fabric, pass through When fabric enters dye liquor, dye liquor meeting released part impurity, while removed remaining impurity using the component that cleans, swing fabric The impurity of stripping is pushed to outside dip dyeing channel, fabric is solved and is contacted with dye liquor when being dyed, impurity forms color on fabric The problem of defect, realizes the efficiency for while dyeing fabric quality is ensured, improving dyeing.

To achieve the above object, the present invention provides following technical solution：

The dyeing and finishing system of the fine color-woven fabric of plain color terylene length, including babinet, which is divided into electrostatic room and dyeing chamber, face Material is delivered to dyeing chamber, then exported by dyeing chamber by electrostatic room, further includes：

Electrostatic dust removal mechanism, the electrostatic dust removal mechanism is set in the electrostatic room, including setting symmetrical above and below Dedusting component, the middle part of the electrostatic dust removal mechanism form the dedusting channel passed through for fabric；And

Mechanism is dyed, the dyeing mechanism is set in the dyeing chamber, including guidance set, spray-painting component, dip dyeing Component and removal of impurities component, the guidance set are set along the conveying direction of the fabric, and the spray-painting component is set to the dye The top of color room, the dip dyeing component are set to the bottom of the dyeing chamber, and the removal of impurities component is set to the dip dyeing component Feed end.

As an improvement, the electrostatic precipitation component includes：

Electrostatic belt, the electrostatic belt revolution is set to the side of the fabric, and it is arranged in parallel with the fabric； And

Rubber rollers, several rubber rollers are set to the electrostatic belt backwards to the side of the fabric, and it is along institute The gyratory directions for stating electrostatic belt equidistantly contradict setting.

As an improvement, the electrostatic belt towards gyratory directions and the fabric of the fabric side conveying direction into It is oppositely arranged.

As an improvement, the guidance set includes：

Fixed fabric guide roll, several fixed fabric guide rolls are rotated along the conveying direction of the fabric and are set, and make institute Fabric is stated to convey in own font；And

Movable fabric guide roll, the activity fabric guide roll are set to the top of the dip dyeing component, are located at the removal of impurities component Side, with the up and down adjusting of the tensioning of the fabric.

As an improvement, the spray-painting component includes：

Nozzle, several nozzles may be contained within the top of the dyeing chamber, and it covers the width side of the fabric To；And

Dyestuff pipeline, the dyestuff pipeline connect setting, and its feed end and the dye with nozzle one-to-one correspondence The lower part connection setting of color room.

As an improvement, the dip dyeing component includes：

Channel is disseminated, the dip dyeing channel is set to the lower part of the dyeing chamber, is in hook-shaped setting；

Separation layer, the separation layer are set to the both sides of the dip dyeing channel, are dank material.

As an improvement, the removal of impurities component includes：

Brushing unit, the brushing unit are set at the feed end of the dip dyeing component, the fabric are rolled Brush processing；And

Control unit, the top controlled unit and be set to the feed end, to the fabric horizontal hunting.

As an improvement, the brushing unit includes：

V belt, the vertically symmetrical both ends for being set to the fabric of the V belt, the V belt is towards described The conveying direction of the gyratory directions of fabric side and the fabric is into oppositely arranged；And

Brushing channel, the brushing channel are set to the middle part of the V belt, the toroidal including top Impurity discharging passage and the vertical round brush channel of lower part.

As an improvement, the unit of controlling includes：

Roller is controlled, the both sides controlled roller and be symmetrically disposed on the fabric, this controls the setting of roller horizontal hunting, and the pendulum The both sides of cloth rewinder roll are connected with rack；

Half gear, the half gear engagement rotation is set to the top of the rack, and half gear is by the brushing Unit, which drives, to be rotated synchronously；

Slag trap, the slag trap are set to the underface of corresponding half gear, for arrow-shaped set, and its by The roller of controlling is lifted by crank handle turns；And

Dynamic clamping head and quiet clamping head, the dynamic clamping head and quiet clamping head, which is set to, described controls roller backwards to the side of fabric.

The dyeing and finishing technology of the fine color-woven fabric of plain color terylene length, includes the following steps：

Step 1 unreels, and fabric has let off roll to carry out unreeling conveying；

Step 2, dedusting, the fabric after unreeling tilt conveying, are removed parallel across what the electrostatic belt by revolution setting was formed Dirt channel carries out Electrostatic Absorption dedusting by electrostatic belt to fabric；

Step 3, spray-painting are completed the fabric after dedusting and are input in dyeing chamber by guidance set, the spray at the top of the dyeing chamber Mouth carries out spray-painting to fabric；

Step 4, removal of impurities are completed the fabric after spray-painting and are delivered at the removal of impurities component of dyeing chamber lower part, by brushing list Member is right, and fabric carries out round brush processing, and synchronous fabric is swung by controlling unit horizontal, and the impurity fallen by brushing unit brush is carried out Level push；

Step 5, dip dyeing, the fabric for completing removal of impurities pass through the bottom of dyeing chamber along dip dyeing channel；

Step 6, output complete the output of the fabric after dip dyeing dyeing chamber and carry out dehydration to it by subsequent dehydration equipment Amount.

The beneficial effects of the present invention are：

(1) when the present invention enters dye liquor by fabric, dye liquor meeting released part impurity, while will be remaining using component is cleaned Impurity stripping, swing fabric and the impurity of stripping be pushed to outside dip dyeing channel, avoid impurity fabric contact with dye liquor into During row dyeing, color defect is formed on fabric, realizes the effect for while dyeing fabric quality is ensured, improving dyeing as far as possible Rate；

(2) present invention carries out round brush using vertical V belt in the brushing unit of setting removal of impurities component to fabric, Remaining impurity is removed, using impurity discharging passage rolling dye liquor, impurity is discharged upwards, to both sides, reduction impurity as possible enters Into dip dyeing channel；

(3) present invention carries out horizontal hunting to fabric, passes through the swing of fabric when V belt carries out round brush to fabric Make to shift the impurity side that impurity discharging passage rolls out outside dip dyeing channel onto, the influence that impurity is avoided to disseminate fabric；

(4) material carries out horizontal hunting and makes the present invention over there, and speed when making the fabric side push away impurity is slower, as far as possible side More impurity are released, and when fabric is replied, accelerate the reply speed of fabric, fabric is made quickly to be removed with impurity, simultaneously Coordinate the reflux of the lifting barrier impurity of slag trap.

In conclusion the present invention has many advantages, such as that thorough removal of impurities, even dyeing, structure novel, working efficiency are fast, it is especially suitable For dope dyeing technical field.

Description of the drawings

Fig. 1 is schematic cross-sectional view of the present invention；

Fig. 2 is electrostatic dust removal mechanism structure diagram of the present invention；

Fig. 3 is present invention removal of impurities component structure diagram；

Fig. 4 is present invention removal of impurities component operation status diagram one；

Fig. 5 is present invention removal of impurities component operation status diagram two；

Fig. 6 is fabric swing state schematic diagram one of the present invention；

Fig. 7 is fabric swing state schematic diagram two of the present invention；

Fig. 8 is slag trap working state schematic representation one of the present invention；

Fig. 9 is slag trap working state schematic representation two of the present invention；

Figure 10 is two process flow diagram of the embodiment of the present invention.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained every other without making creative work Embodiment shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer ", " up time The orientation or position relationship of the instructions such as needle ", " counterclockwise " are based on orientation shown in the drawings or position relationship, are for only for ease of The description present invention and simplified description rather than instruction imply that signified equipment or element must be with specific orientation, Yi Te Fixed azimuth configuration and operation, therefore be not considered as limiting the invention.

In addition, term " first ", " second " are only used for description purpose, and it is not intended that instruction or hint relative importance Or the implicit quantity for indicating indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more this feature.In the description of the present invention, " multiple " are meant that two or more, Unless otherwise specifically defined.

Embodiment one：

As shown in Figure 1, the dyeing and finishing system of the fine color-woven fabric of plain color terylene length, including babinet 1, which is divided into electrostatic Room 11 and dyeing chamber 12, fabric 10 are delivered to dyeing chamber 12, then exported by dyeing chamber 12 by electrostatic room 11, further include：

Electrostatic dust removal mechanism 2, the electrostatic dust removal mechanism 2 are set in the electrostatic room 11, are set including symmetrical above and below The dedusting component 21 put, the middle part of the electrostatic dust removal mechanism 2 form the dedusting channel 22 passed through for fabric 10；And

Mechanism 3 is dyed, the dyeing mechanism 3 is set in the dyeing chamber 12, including guidance set 31, spray-painting component 32nd, dip dyeing component 33 and removal of impurities component 34, the guidance set 31 are set along the conveying direction of the fabric 10, the spray-painting group Part 32 is set to the top of the dyeing chamber 12, and the dip dyeing component 33 is set to the bottom of the dyeing chamber 12, the removal of impurities Component 34 is set to the feed end of the dip dyeing component 33.

It should be noted that the large-sized impurity on fabric 10 is passed through by Electrostatic Absorption by electrostatic dust removal mechanism 2 Mode is absorbed, then fabric 10 is delivered into, dyeing processing is carried out in dyeing chamber 12, wherein spray-painting component 32 to fabric 10 into Row spray-painting is handled, after spray-painting processing, issuable impurity and fabric 10 during spray-painting is removed by removal of impurities component 34 The impurity of upper existing small particle itself, carries out dip dyeing treatment by disseminating component 33 to fabric 10 again later.

As shown in Fig. 2, as a preferred embodiment, the electrostatic precipitation component 21 includes：

Electrostatic belt 211, the electrostatic belt 211 turn round the side for being set to the fabric 10, and itself and the fabric 10 are arranged in parallel；And

Rubber rollers 212, several rubber rollers 212 are set to the electrostatic belt 211 backwards to the one of the fabric 10 Side, and its gyratory directions along the electrostatic belt 211 equidistantly contradicts setting.

It is wherein preferred, gyratory directions and the fabric 10 of the electrostatic belt 211 towards 10 side of fabric Conveying direction is into oppositely arranged.

It should be noted that by the friction of electrostatic belt 211 and rubber rollers 212, make to carry on electrostatic belt 211 big The electrostatic of amount carries out Electrostatic Absorption processing to the big grain size impurity of the both sides of fabric 10 by electrostatic belt 211, realizes fabric 10 On big grain size impurity removal.

It further illustrates, gyratory directions and the fabric 10 of the electrostatic belt 211 towards 10 side of fabric Conveying direction is preferably oppositely arranged, can fall to fabric 10 again to avoid the big grain size impurity for adsorbing electrostatic belt 211 On.

As shown in Figure 1, as a preferred embodiment, the guidance set 31 includes：

Fixed fabric guide roll 311, several fixed fabric guide rolls 311 are set along the rotation of the conveying direction of the fabric 10 It puts, the fabric 10 is made to be conveyed in own font；And

Movable fabric guide roll 312, the activity fabric guide roll 312 are set to the top of the dip dyeing component 33, are located at described The side of removal of impurities component 34, with the up and down adjusting of tensioning of the fabric 10.

It should be noted that while making fabric 10 always in tensioning by setting activity fabric guide roll 312, can utilize Swing of the movable fabric guide roll about 312 adjusts the length of fabric 10, fabric 10 is allow to realize horizontal swing.

As shown in Figure 1, as a preferred embodiment, the spray-painting component 32 includes：

Nozzle 321, several nozzles 321 may be contained within the top of the dyeing chamber 12, and it covers the fabric 10 width direction；And

Dyestuff pipeline 322, the dyestuff pipeline 322 connect setting, and its feed end with the nozzle 321 one-to-one correspondence Setting is connected with the lower part of the dyeing chamber 12.

It should be noted that nozzle 321 extracts spray by dyestuff pipeline 322 by dye liquor cleaner in channel 331 is disseminated Go out and spray-painting is carried out to fabric 10, during spray-painting, dyeing can wash away fabric 10, and the impurity of the fine grain on fabric 10 is rushed A brush separation part.

It further illustrates, preliminary dyeing can be carried out to fabric 10 by spray-painting is handled.

As shown in Figure 1, further, the dip dyeing component 33 includes：

Channel 331 is disseminated, the dip dyeing channel 331 is set to the lower part of the dyeing chamber 12, is in hook-shaped setting；

Separation layer 332, the separation layer 332 are set to the both sides of the dip dyeing channel 331, are dank material.

It should be noted that separation layer 332 is preferably the material of water penetration, such as sponge, filter paper etc., separation layer 332 Dye liquor can be passed through, and impurity can not pass through, and ensure the cleaning of dye liquor in dip dyeing channel 331.

As shown in Figures 1 and 3, as a preferred embodiment, the removal of impurities component 34 includes：

Brushing unit 341, the brushing unit 341 is set at the feed end 331a of the dip dyeing component 33, to institute It states fabric 10 and carries out round brush processing；And

Control unit 342, the top controlled unit 342 and be set to the feed end 331a, to the fabric 10 Horizontal hunting.

As shown in figure 3, further, the brushing unit 341 includes：

The vertically symmetrical both ends for being set to the fabric 10 of V belt 341a, the V belt 341a, three cuticle With 341a towards gyratory directions and the fabric 10 of 10 side of fabric conveying direction into oppositely arranged；And

Brushing channel 341b, the brushing channel 341b is set to the middle part of the V belt 341a, including top Toroidal impurity discharging passage 3411 and lower part vertical round brush channel 3412.

As shown in figs. 4 and 5, more further, the unit 342 of controlling includes：

Roller 342a is controlled, the both sides controlled roller 342a and be symmetrically disposed on the fabric 10, this controls roller 342a levels Setting is swung, and the both sides for controlling roller 342a are connected with rack 342b；

Half gear 342c, the half gear 342c engagement rotations are set to the top of the rack 342b, and half gear 342c is driven by the brushing unit 341 and rotated synchronously；

Slag trap 342d, the slag trap 342d are set to the underface of the corresponding half gear 342c, are arrow Shape is set, and it drives lifting by the roller 342a that controls by crank 342e；And

Dynamic clamping head and quiet clamping head 342f, the dynamic clamping head and quiet clamping head 342f, which are set to, described controls roller 342a backwards to the one of fabric 10 Side.

It should be noted that after fabric 10 is entered in dip dyeing channel 331, remaining partial impurities can have illicit sexual relations on fabric Liquid realizes it stripping, swims at the feed end 331a of dip dyeing channel 331, and V belt 341a is located at round brush channel 3412 Part, can to fabric 10 carry out round brush, brushed the impurity on fabric 10 and fallen, brushing the impurity fallen can be with V belt 341a Revolution, circulation are arrived in impurity discharging passage 3411, and with the revolution of V belt 341a, trash flow goes to the both sides of fabric 10.

As shown in Figures 6 and 7, further explanation during V belt 341a is turned round, drives corresponding Half gear 342c rotated, and then make to control roller 342a horizontal huntings, the horizontal hunting of fabric 10 is realized, in the mistake of swing Cheng Zhong, when fabric 10 is flapped toward side, the slag trap 342d of the side is risen by crank 342e by controlling roller 342a and driving, impurity by Dip dyeing channel 331 is discharged in the swing of fabric 10 at the slag trap 342d of the side,

And when fabric 10 is flapped toward opposite side, the slag trap 342d rapid decreases of the side stop the impurity of discharge, avoid Reflux.

It as shown in Fig. 8 and Fig. 9, illustrates further, slag trap 342d is set for arrow-shaped, under slag trap 342d When falling, inclined baffle can push impurity, by the farther of impurity push, and when slag trap 342d is above carried, the arrow portion of V-arrangement, It can will be close to the impurity gripping of dip dyeing channel 331.

It is worth noting that, being provided with elastic recovery part 342f in the side for controlling roller 342a, roller is being controlled During 342a is swung, when elastic recovery part 342f makes the fabric 10 push away impurity in side, speed is slower, and when far from impurity, Speed.

Embodiment two：

Reference implementation example one describes the high solidity modified by cardanol epoxy curing agent preparation process of the present invention.

As shown in Figure 10, the dyeing and finishing technology of the fine color-woven fabric of plain color terylene length, includes the following steps：

Step 1 unreels, and fabric 10 is carried out unreeling conveying by let off roll；

Step 2, dedusting, the fabric 10 after unreeling tilts conveying, parallel across 211 shape of electrostatic belt by revolution setting Into dedusting channel 22, Electrostatic Absorption dedusting is carried out to fabric 10 by electrostatic belt 211；

Step 3, spray-painting are completed the fabric 10 after dedusting and are input in dyeing chamber 12 by guidance set 31, the dyeing chamber 12 The nozzle 321 at top carries out spray-painting to fabric 10；

Step 4, removal of impurities are completed the fabric 10 after spray-painting and are delivered at the removal of impurities component 34 of 12 lower part of dyeing chamber, by Brushing unit 341 carries out round brush processing to fabric 10, synchronizes, fabric 10 is by controlling 342 horizontal hunting of unit, to by brushing list The impurity carry out level push that 341 brush of member is fallen；

Step 5, dip dyeing, the fabric 10 for completing removal of impurities pass through the bottom of dyeing chamber 12 along dip dyeing channel 331；

Step 6, output complete the output of the fabric 10 after dip dyeing dyeing chamber 12 and it are taken off by subsequent dehydration equipment It is measured at water.

It should be noted that in step 3, the dye liquor that nozzle 321 sprays is extracted by the bottom of dyeing chamber 12, makes dyeing chamber The dye liquor of 12 bottoms can form cycle circulation, and the dyestuff in dye liquor is avoided to contaminate fabric 10 in the bottom deposit of dyeing chamber 12 Color is more uniform.

It further illustrates, in step 4, controls unit 342 and the power of 10 horizontal hunting of fabric is pushed to come from brushing The remote of unit 341 turns.

It illustrates further, the horizontal hunting of fabric 10, dye liquor is made to be more conducive to penetrate fabric 10, absorbs fabric 10 Dyestuff is more thorough, and the color of formation is more uniform.

The course of work：

Fabric 10 is carried out unreeling conveying by let off roll, and the fabric 10 after unreeling tilts conveying, is set parallel across by revolution The dedusting channel 22 that is formed of electrostatic belt 211, carry out Electrostatic Absorption dedusting to fabric 10 by electrostatic belt 211, complete dedusting Fabric 10 afterwards is input to by guidance set 31 in dyeing chamber 12, and the nozzle 321 at 12 top of dyeing chamber sprays fabric 10 Dye is completed the fabric 10 after spray-painting and is delivered at the removal of impurities component 34 of 12 lower part of dyeing chamber, by brushing unit 341 to fabric 10 carry out round brush processing, synchronous, fabric 10 by controlling 342 horizontal hunting of unit, to by brushing unit 341 brush the impurity fallen into The horizontal push of row, the fabric 10 for completing removal of impurities pass through the bottom of dyeing chamber 12 along dip dyeing channel 331, complete the fabric 10 after dip dyeing Output dyeing chamber 12 carries out dehydration amount by subsequent dehydration equipment to it.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention All any modification, equivalent and improvement made within refreshing and principle etc., should all be included in the protection scope of the present invention.

Claims (10)

1. the dyeing and finishing system of the fine color-woven fabric of plain color terylene length, including babinet (1), the babinet (1) be divided into electrostatic room (11) with Dyeing chamber (12), fabric (10) are delivered to dyeing chamber (12), then exported by dyeing chamber (12) by electrostatic room (11), and feature exists In further including：

Electrostatic dust removal mechanism (2), the electrostatic dust removal mechanism (2) is set in the electrostatic room (11), including symmetrical above and below The dedusting component (21) of setting, the middle part of the electrostatic dust removal mechanism (2) form the dedusting channel (22) passed through for fabric (10)；With And

Mechanism (3) is dyed, the dyeing mechanism (3) is set in the dyeing chamber (12), including guidance set (31), spray-painting Component (32), dip dyeing component (33) and removal of impurities component (34), conveying direction of the guidance set (31) along the fabric (10) Setting, the spray-painting component (32) are set to the top of the dyeing chamber (12), and the dip dyeing component (33) is set to the dye The bottom of color room (12), the removal of impurities component (34) are set to the feed end of the dip dyeing component (33).

2. the dyeing and finishing system of the fine color-woven fabric of plain color terylene length according to claim 1, which is characterized in that the electrostatic removes Dirt component (21) includes：

Electrostatic belt (211), electrostatic belt (211) revolution are set to the side of the fabric (10), and itself and the face Material (10) is arranged in parallel；And

Rubber rollers (212), several rubber rollers (212) are set to the electrostatic belt (211) backwards to the fabric (10) Side, and its gyratory directions along the electrostatic belt (211) equidistantly contradicts setting.

3. the dyeing and finishing system of the fine color-woven fabric of plain color terylene length according to claim 2, which is characterized in that the electrostatic skin Band (211) towards the gyratory directions and the fabric (10) of the fabric (10) side conveying direction into oppositely arranged.

4. the dyeing and finishing system of the fine color-woven fabric of plain color terylene length according to claim 1, which is characterized in that the guiding group Part (31) includes：

Fixed fabric guide roll (311), several fixed fabric guide rolls (311) set along the rotation of the conveying direction of the fabric (10) It puts, the fabric (10) is made to be conveyed in own font；And

Movable fabric guide roll (312), the activity fabric guide roll (312) are set to the top of the dip dyeing component (33), are located at institute The side of removal of impurities component (34) is stated, with the up and down adjusting of tensioning of the fabric (10).

5. the dyeing and finishing system of the fine color-woven fabric of plain color terylene length according to claim 1, which is characterized in that the spray-painting group Part (32) includes：

Nozzle (321), several nozzles (321) may be contained within the top of the dyeing chamber (12), and it covers the face Expect the width direction of (10)；And

Dyestuff pipeline (322), the dyestuff pipeline (322) connects setting with the nozzle (321) one-to-one correspondence, and it feeds End connects setting with the lower part of the dyeing chamber (12).

6. the dyeing and finishing system of fine color-woven fabric is grown according to plain color terylene described in claim 1, which is characterized in that the dip dyeing component (33) include：

Channel (331) is disseminated, the dip dyeing channel (331) is set to the lower part of the dyeing chamber (12), is in hook-shaped setting；

Separation layer (332), the separation layer (332) are set to the both sides of the dip dyeing channel (331), are dank material.

7. the dyeing and finishing system of the fine color-woven fabric of plain color terylene length according to claim 1, which is characterized in that the removal of impurities group Part (34) includes：

Brushing unit (341), the brushing unit (341) are set at the feed end (331a) of the dip dyeing component (33), Round brush processing is carried out to the fabric (10)；And

Control unit (342), the top controlled unit (342) and be set to the feed end (331a), to the fabric (10) horizontal hunting.

8. the dyeing and finishing system of the fine color-woven fabric of plain color terylene length according to claim 7, which is characterized in that the brushing list First (341) include：

V belt (341a), the vertically symmetrical both ends for being set to the fabric (10) of V belt (341a), the triangle Belt (341a) towards the gyratory directions and the fabric (10) of the fabric (10) side conveying direction into oppositely arranged；With And

Brushing channel (341b), the brushing channel (341b) is set to the middle part of the V belt (341a), including upper The impurity discharging passage (3411) of the toroidal in portion and the vertical round brush channel (3412) of lower part.

9. the dyeing and finishing system of the fine color-woven fabric of plain color terylene length according to claim 7, which is characterized in that described to control list First (342) include：

Roller (342a) is controlled, the both sides controlled roller (342a) and be symmetrically disposed on the fabric (10), this controls roller (342a) Horizontal hunting is set, and the both sides for controlling roller (342a) are connected with rack (342b)；

Half gear (342c), half gear (342c) engagement rotation are set to the top of the rack (342b), and half tooth It takes turns (342c) and synchronous rotation is driven by the brushing unit (341)；

Slag trap (342d), the slag trap (342d) are set to the underface of corresponding half gear (342c), are arrow Capitiform is set, and it drives lifting by the roller (342a) of controlling by crank (342e)；And

Dynamic clamping head and quiet clamping head (342f), the dynamic clamping head and quiet clamping head (342f) are set to the roller (342a) of controlling backwards to fabric (10) Side.

10. the dyeing and finishing technology of the fine color-woven fabric of plain color terylene length, which is characterized in that include the following steps：

Step 1 unreels, and fabric (10) is carried out unreeling conveying by let off roll；

Step 2, dedusting, the fabric (10) after unreeling tilts conveying, parallel across electrostatic belt (211) shape by revolution setting Into dedusting channel (22), by electrostatic belt (211) to fabric (10) carry out Electrostatic Absorption dedusting；

Step 3, spray-painting are completed the fabric (10) after dedusting and are input in dyeing chamber (12) by guidance set (31), the dyeing chamber (12) nozzle (321) at the top of carries out spray-painting to fabric (10)；

Step 4, removal of impurities are completed the fabric (10) after spray-painting and are delivered at the removal of impurities component (34) of dyeing chamber (12) lower part, Carry out round brush processing to fabric (10) by brushing unit (341), it is synchronous, fabric (10) by controlling unit (342) horizontal hunting, Impurity carry out level push to being fallen by brushing unit (341) brush；

Bottom of the fabric (10) of removal of impurities along dip dyeing channel (331) across dyeing chamber (12) is completed in step 5, dip dyeing；

Step 6, output complete the output dyeing chamber of the fabric (10) after dip dyeing (12) and it are taken off by subsequent dehydration equipment It is measured at water.