WO2017031613A1 - 一种双棉条异步输入和三级分梳的转杯纺纺纱方法及装置 - Google Patents
一种双棉条异步输入和三级分梳的转杯纺纺纱方法及装置 Download PDFInfo
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- WO2017031613A1 WO2017031613A1 PCT/CN2015/000738 CN2015000738W WO2017031613A1 WO 2017031613 A1 WO2017031613 A1 WO 2017031613A1 CN 2015000738 W CN2015000738 W CN 2015000738W WO 2017031613 A1 WO2017031613 A1 WO 2017031613A1
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- yarn
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- rollers
- cotton
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- D—TEXTILES; PAPER
- D01—NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
- D01H—SPINNING OR TWISTING
- D01H4/00—Open-end spinning machines or arrangements for imparting twist to independently moving fibres separated from slivers; Piecing arrangements therefor; Covering endless core threads with fibres by open-end spinning techniques
- D01H4/30—Arrangements for separating slivers into fibres; Orienting or straightening fibres, e.g. using guide-rolls
- D01H4/32—Arrangements for separating slivers into fibres; Orienting or straightening fibres, e.g. using guide-rolls using opening rollers
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- D—TEXTILES; PAPER
- D01—NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
- D01H—SPINNING OR TWISTING
- D01H4/00—Open-end spinning machines or arrangements for imparting twist to independently moving fibres separated from slivers; Piecing arrangements therefor; Covering endless core threads with fibres by open-end spinning techniques
- D01H4/42—Control of driving or stopping
- D01H4/44—Control of driving or stopping in rotor spinning
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- D—TEXTILES; PAPER
- D02—YARNS; MECHANICAL FINISHING OF YARNS OR ROPES; WARPING OR BEAMING
- D02G—CRIMPING OR CURLING FIBRES, FILAMENTS, THREADS, OR YARNS; YARNS OR THREADS
- D02G3/00—Yarns or threads, e.g. fancy yarns; Processes or apparatus for the production thereof, not otherwise provided for
- D02G3/22—Yarns or threads characterised by constructional features, e.g. blending, filament/fibre
- D02G3/34—Yarns or threads having slubs, knops, spirals, loops, tufts, or other irregular or decorative effects, i.e. effect yarns
- D02G3/346—Yarns or threads having slubs, knops, spirals, loops, tufts, or other irregular or decorative effects, i.e. effect yarns with coloured effects, i.e. by differential dyeing process
Definitions
- the basic principle of spinning a rotor into a yarn is as follows: the sliver is held by the bell mouth through the grip of the cotton sheet and the cotton roller, and the cotton sliver is rotated to convey the sliver to the combing zone; the combing roller pair of the high-speed rotating combing zone The sliver is opened and stripped, combed and separated, and mixed into single fibers which are separated from each other and arranged in parallel and enter the cotton conveying passage; under the action of the air stream, the fiber flow enters the rotor through the cotton conveying passage, and rotates at high speed. Under the centrifugal force of the cup, the fibers are further superimposed and mixed in the coagulation tank, and are taken out by the mother yarn and twisted by a damper to form a yarn.
- two or more rovings that need to be fed can control the respective feeding amounts online, and the total roving is fed while changing the feeding amount of each roving separately.
- the input can also be controlled, and there is currently no patent to achieve the production of this yarn.
- the main problem with yarns that do not change in line density and blending ratio is that two or more fibers cannot be blended at any ratio in the rotor spinning process.
- the invention relates to a device for a three-stage carding and multi-component feeding rotor spinning method, comprising a spinning system and a computer control system, and the spinning system comprises a feeding carding mechanism, a cohesive twisting mechanism, a winding forming mechanism,
- the utility model is characterized in that the feeding carding mechanism comprises a three-stage carding roller and a combined rotary cotton roller with two degrees of freedom, and the combined speed ratio of the two rotary degrees of freedom to the two rollers of the cotton roller is adjustable. .
- the coagulation and twisting mechanism comprises a cotton conveying passage, a rotor cup and a yarn feeding device; and the winding forming mechanism comprises a yarn winding mechanism.
- the computer control system comprises a PLC programmable controller, a servo driver and a servo motor, and the two rotary degrees of freedom combined cotton roller and three-stage opening roller are driven by a servo motor.
- the combined rotation of the rotary degree of freedom includes a shaft, a bearing, a hollow shaft, a first gear, a second gear, a washer, a first movable roller, a second movable roller, the first gear, the second gear,
- the first movable roller and the second movable roller rotate about the same axis, the first gear drives the first movable roller, and the second gear drives the second movable roller.
- the three-stage opening roller is composed of a first opening roller, a second opening roller and a third opening roller arranged in parallel.
- the rotation speed of the three-stage opening roller is gradually increased, the rotation speed of the first opening roller is 1500-3000 rpm, the rotation speed of the second opening roller is 3000-6000 rpm, and the rotation speed of the third opening roller is 6000-12000 rpm.
- the needle density of the three-stage opening roller is increased step by step.
- Another object of the present invention is to provide a method for performing rotor spinning using the above apparatus, comprising cotton feeding, carding, cohesive twisting, and yarn take-up, wherein the cotton feed is free to rotate.
- the combination of degrees is fed to the combing zone asynchronously to the cotton roller, and the carding is performed by a three-stage opening roller.
- two slivers (or two kinds of strips of different raw materials, or two kinds of strips, referred to as two groups) can be combined and fed to the cotton roller. Feeding the rotor spinning and combing zone asynchronously, and gradually unwinding, combing, orienting, mixing, and decomposing the three-stage opening roller to separate the two slivers into bundle fibers and further decompose them into single sheets. Root fiber. Under the action of centrifugal force and gas flow, the continuous single fiber stream which is detached and transferred from the opening roller enters the spinning cup which rotates at a high speed.
- the fiber flow is condensed into a whisker under the centrifugal force of the rotor, and then twisted by a dragging device.
- the rotor spinning yarn is formed by the take-up roller.
- the servo drive system is controlled by a computer program, so that the two cotton slivers of the two degrees of freedom are fed into the combing zone asynchronously, and the feeding amount of the two cotton rollers is regulated.
- the linear density of the final yarn of the rotor spinning and the blending ratio of the two components can be dynamically configured to produce slub yarn, segment color yarn, segment color bamboo yarn, and color matching yarn.
- the rotation speed of the first opening roller is low, so as to ensure that the difference in the feeding amount of the plurality of slivers is large, the total number of combing times of the fibers in the slivers is within a reasonable range, and the fiber damage is reduced.
- the rotation speed of the second opening roller is higher than that of the first opening roller, and the longitudinal orientation of the fiber is optimized by the combing of the second opening roller, and the lateral transfer mixing is further optimized;
- the third opening roller is a high-speed opening roller, the fiber After the third opening roller, not only better carding and transfer, but also the speed is increased, and the centrifugal force required to enter the carding passage can be smoothly and orderly entered into the rotor.
- the cotton strip is decomposed into a cotton net, the cotton web is decomposed into bundle fibers, and the bundle fibers are decomposed into single fibers. It enhances the function of the rotor spinning and combing area, and has the effects of flexibility, high efficiency and high yield.
- the invention patent constructs the corresponding spinning mathematical model and program algorithm.
- the linear density and blending ratio of the randomly controlled rotor spinning yarn are realized.
- the following four yarns are spun:
- a yarn having a constant linear density and a blending ratio such as a linear density yarn having a gradation color or a segmented color
- Yarns with varying linear density and blending ratio such as segmental bamboo slub yarn, segment color big belly yarn, segment color dot yarn, etc.;
- 4-wire density and blending ratio do not change, but blended yarn or mixed color yarn blended in any ratio.
- Figure 2 Three-point comb roller rotor spinning roving combing process
- FIG. 3 Schematic diagram of the drive to the cotton roller, 3b is the right view of 3a
- V 01 linear velocity of the cotton roller 1
- V 02 linear velocity of the cotton roller 2
- V 1 linear velocity of the opening roller 1
- V 2 linear velocity of the opening roller 2
- V 3 opening roller 3 line speed
- V 4 rotor line speed
- V 5 take-up roller line speed
- ⁇ 1 linear density of tampon A (gram weight / meter);
- ⁇ 2 linear density of tampon B (gram weight / meter);
- ⁇ 11 the linear density (gram weight / meter) of the sliver A passing through the opening roller 1;
- ⁇ 12 the linear density (gram weight / meter) of the sliver A passing through the opening roller 2;
- ⁇ 13 the linear density (gram weight / meter) of the sliver A passing through the opening roller 3;
- ⁇ 14 the linear density of the sliver A in the rotor (gram weight / meter),
- ⁇ 21 the linear density (gram weight / meter) of the sliver B passing through the opening roller 1;
- ⁇ 22 the linear density (gram weight / meter) of the sliver B passing through the opening roller 2;
- ⁇ 23 the linear density (gram weight / meter) of the sliver B passing through the opening roller 3;
- ⁇ 24 the linear density of the sliver B in the rotor (gram weight / meter),
- E 1 a draft ratio of the opening roller 1 relative to the feed roller
- E 2 a draft ratio of the opening roller 2 to the opening roller 1;
- E 3 a draft ratio of the opening roller 3 to the opening roller 2;
- E 4 a draft ratio of the rotor to the opening roller 3;
- E 5 the draw ratio of the take-up roller relative to the rotor
- the total draft ratio of the rotor spinning is equal to the draft ratio of the yarn feeding roller relative to the cotton roller.
- the subscripts 1, 2 represent component A, component B, respectively.
- the patent adopts the form of a three-way comb roll, that is, the first opening roller, the second opening roller and the third opening roller.
- the main purpose is to strip, open, remove and separate the comb.
- the number of combing of the sliver is within a reasonable range to reduce the damage of the fiber;
- the density of the combing roller and the working angle of the comb are also relatively large.
- ⁇ 6000-12000rpm
- the sliver is decomposed into a cotton net, the cotton web is decomposed into bundle fibers, and the bundle fibers are decomposed into single fibers.
- the large drafting function enhances the function of the rotor spinning and combing area, meets the special requirements of the rotor spinning of the multiple feeding slivers, and realizes the flexible and efficient combing function.
- the blending ratio of components A and B in the rotor spinning yarn is K 1 , K 2 , then:
- V 01 ′ V 01 + ⁇ V 01
- V 02 ′ V 02 + ⁇ V 02
- V 01 +V 02 V 0
- k 2 1, 0.9, 0.8, 0.7, 0.6, 0.5, 0.4, 0.3, 0.2, 0.1, 0
- the blending ratio (mixing ratio) of different fibers (different colors) in the yarn can be changed by changing V 01 and V 02 so that k 1 and k 2 are in the range of 0 to 100%. Variety.
- the color mixing ratio is incremented by 0.1 as the minimum increment, and the color matching can form the following color mixing:
- the patent of the present invention selects gradient mixed color matching with 0.1 as a gradient. According to the above statistics, the two primary color slivers (two color slivers) are coupled and drawn. Cross-change color, gradient color matching, twisting and mixing can finally form 11 kinds of color matching, and can also form segment color yarns with 11 color distributions on the yarn.
- V 01 +V 02 V 0
- variable linear density yarn having a change in linear density of components and a linear density of one component
- variable linear density yarns with varying linear density of two components
- variable linear density yarns with continuous composition but varying linear density
- ⁇ V may be from ⁇ V 01 or from ⁇ V 02 , which can be determined by the blend ratio. Then there are:
- ⁇ V 01 K' 1 (V 0 + ⁇ V)-V 01
- ⁇ V 02 K' 2 (V 0 + ⁇ V)-V 02
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- Preliminary Treatment Of Fibers (AREA)
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Abstract
公开了一种多级分梳转杯纺纱方法的装置。该装置包括纺纱系统和电脑控制系统,纺纱系统包括喂给分梳机构、凝聚加捻机构、卷绕成型机构。喂给分梳机构包括两个回转自由度的组合式给棉罗拉(2-1,2-2)、多级分梳辊(2-6,2-7,2-8),两个回转自由度的组合式给棉罗拉(2-1,2-2)的两个罗拉的速度比可调,实现了随机调控转杯纺成纱的线密度及混纺比。还公开了一种双棉条异步输入和三级分梳的转杯纺纺纱方法。
Description
本发明属纺织行业的转杯纺纱领域
转杯纺成纱的基本原理为:棉条由喇叭口经给棉板和给棉罗拉的握持,给棉罗拉转动输送棉条送至分梳区;分梳区高速旋转的分梳辊对棉条进行开松剥取、梳理分离、混合,使其变为相互分离、平行排列的单纤维并进入输棉通道;在气流作用下,纤维流经由输棉通道进入转杯,在高速旋转纺杯的离心力作用下,纤维在凝聚槽内进一步叠加混合,由母纱引出并经阻捻器加捻后形成纱线。
专利“一种转杯纺混色成纱方法及装置与产品”(申请号CN201410190891.1)及“一种转杯纺混色成纱装置”(CN201420229715.X)通过控制喂给罗拉速度,以连续恒量喂入、或者分段变量喂入两根或两根以上的熟条,变混纺比形成具有单色或者多色纤维混合,以实现纺纱线密度恒定而调整混纺比的效果。但该发明存在两个问题:第一,在发明中只是在概念上提出通过耦合牵伸实现线密度恒定的混色及段彩纺纱,并未给出耦合牵伸实现线密度恒定的条件下如何改变混合比及混色比。同时,未给出具体的实施方案及实施例。第二,该专利申请仍使用传统的单一分梳辊,当三根棉条同时喂入时,原有的分梳牵伸系统不能充分地完成对多根棉条剥取、梳理、混合和分解牵伸,由此会导致纤维丛分解不充分,造成堵分梳辊和堵转杯情况发生,纺纱易出现断头及粗节、棉结等缺陷。同时,耦合喂入的各根棉条虽然总量恒定,但各棉条喂入量存在差异,较短的分梳区导致纤维横向混合的机会也不多,因此导致混色效果不理想。
目前转杯纺中可以实现混纺比恒定而线密度变化的主要有专利“转杯纺竹节纱的方法和纺纱装置”(授权号CN00137211.4),它的原理是异步电机和步进电机,经差动器、丝杆和蜗轮,驱动喂给罗拉,通过步进电机在智能控制器控制下执行下列操作:从高速减至低速;持续运行一段时间;加速至高速;持续运行一段时间,转杯纺制一段竹节纱。该专利可以生产变线密度的纱线,但无法改变纱线混纺比。
生产线密度和混纺比均变化的纱线,需要喂入的两根或两根以上粗纱能够分别在线控制各自的喂入量,并且在分别改变各粗纱喂入量的同时还要使总的粗纱喂入量也能得到控制,目前尚无专利能实现这种纱的生产。生产线密度和混纺比均不变化的纱线,主要问题是,不能在转杯纺细纱工序实现两种以上纤维以任意比例进行混纺。
发明内容
为了解决上述问题,本发明在机构上对传统转杯纺纱机进行了改进。一种三级分梳及多组份喂入的转杯纺纱方法的装置,包括纺纱系统和电脑控制系统,纺纱系统包括喂给分梳机构、凝聚加捻机构、卷绕成型机构,其特征在于喂给分梳机构包括三级分梳辊和两个回转自由度的组合式给棉罗拉,所述的两个回转自由度的组合式给棉罗拉的两个罗拉的速度比可调。所述凝聚加捻机构包括输棉通道、转杯和引纱装置;卷绕成型机构包括引纱卷绕机构。所述的电脑控制系统包括PLC可编程控制器、伺服驱动器、伺服电机,所述的两个回转自由度的组合式给棉罗拉、三级分梳辊由伺服电机驱动。所述的回转自由度的组合式给棉罗拉包括轴、轴承、空心轴、第一齿轮、第二齿轮、垫圈、第一活动罗拉、第二活动罗拉,所述第一齿轮、第二齿轮、第一活动罗拉、第二活动罗拉围绕同一轴线转动,第一齿轮驱动第一活动罗拉,第二齿轮驱动第二活动罗拉。所述的三级分梳辊由第一分梳辊、第二分梳辊和第三分梳辊平行排列组成。所述的三级分梳辊的转速逐级递增,第一分梳辊的转速为1500-3000rpm,第二分梳辊的转速为3000-6000rpm,第三分梳辊的转速为6000-12000rpm。,所述三级分梳辊的梳针密度逐级增大。
本发明的另一个目的是提供一种使用上述装置进行转杯纺纱的方法,包括给棉、分梳、凝聚加捻、引纱卷绕,其特征在于:所述给棉采用两个回转自由度的组合式给棉罗拉非同步喂入分梳区,所述分梳采用三级分梳辊。
通过本发明配置设计的组合罗拉和三个分梳辊,可将两根棉条(或两种不同原料的条子、或两种色彩的条子,下简称两组份),经组合式给棉罗拉非同步地喂入转杯纺分梳区,经三级分梳辊的逐级开松、梳理、取向、混合、及分解牵伸,将两根棉条逐步分解为束纤维并进一步分解为单根纤维。在离心力和气流的作用下,从分梳辊上脱离和转移的连续单纤维流进入高速旋转的纺杯。纤维流在转杯离心力作用下又凝聚成须条,再经阻捻器加捻,
由引纱罗拉导出形成转杯纺纱线。在纺纱过程中,通过电脑程序控制伺服驱动系统,使具有两个自由度的给棉罗拉非同步地分别将两根棉条喂入分梳区,通过调控两个给棉罗拉的喂入量和喂入比,就可以动态配置该转杯纺最终成纱的线密度及两个组份的混纺比,生产竹节纱、段彩纱、段彩竹节纱、配色纱。
第一分梳辊的转速较低,这样可以保证多根棉条喂入量差异较大时,各棉条中纤维受到分梳辊的梳理次数总量都在合理的范围内,减少纤维的损伤;第二分梳辊的转速高于第一分梳辊,经过第二分梳辊的梳理,纤维的纵向取向得到优化,横向转移混合进一步优化;第三分梳辊是高速分梳辊,纤维经过第三分梳辊不仅得到更好的梳理与转移,并且速度得到提升,到达进入梳棉通道的离心力要求,可以顺利有序的进入转杯成纱。通过上述多级剥取、开松、除杂、分梳牵伸、转移,顺利完成将棉条分解成棉网、棉网再分解成束纤维、束纤维在分解成单纤维的超大牵伸功能,提升了转杯纺分梳区的功能,具有柔性、高效、高产的效果。
(2)本发明专利在机械创新设计的基础上,构建了相应的纺纱数学模型和程序算法,通过机电一体化的伺服控制系统,实现了随机调控转杯纺成纱的线密度及混纺比。在具体的实施例中,进行了如下四种纱线的纺纱:
①线密度恒定而混纺比变化的纱线,如具有渐变色彩或分段色彩的等线密度段彩纱;
②混纺比恒定而线密度变化的纱线,如竹节纱、大肚纱、点点纱等;
③线密度和混纺比均变化的纱线,如段彩竹节纱、段彩大肚纱、段彩点点纱等;
④线密度和混纺比不变化,但以任意比例混配的混纺纱或混配色纱。
图1:转杯纺纱流程图
图2:三分梳辊转杯纺粗纱梳理牵伸过过程图
图3:给棉罗拉传动示意图,3b为3a的右视图
图4:组合式给棉罗拉结构图
图5:双组份异步二级牵伸纺纱控制系统图
图6:双组份异步输入转杯纺成纱系统控制模式图
1-1,1-2,1-3-分梳辊,1-4,1-5-排杂口,1-6-给棉罗拉,1-7-棉条,1-8-加压弹片,1-9-给棉板,1-10-输棉通道,1-11-阻捻器,1-12-转杯,1-13-抽气孔,1-14,1-15-引纱罗拉,1-16-纱线
2-1,2-2-给棉罗拉,2-3,2-4-棉条,2-5-给棉板,2-6,2-7,2-8-分梳辊,2-9-纤维流,2-10-转杯,2-11-纱线
3a-1,3a-4-罗拉,3a-2,3a-7-齿轮,3a-3,3a-5-过桥齿轮,3a-6-罗拉轴,3a-8,3a-9,3a-10-分梳辊,3a-11-细纱;3b-1-齿轮,3b-2-罗拉,3b-3-齿轮,3b-4-齿轮。
4-1-轴承,4-2-空心轴,4-3-齿轮,4-4-垫圈,4-5-罗拉,4-6-罗拉,4-7-齿轮,4-8-轴。4-5、4-6两个活动罗拉分别由齿轮4-3和齿轮4-7驱动。
纺纱工艺设计:
V01:给棉罗拉1的线速度;V02:给棉罗拉2的线速度;V1:分梳辊1的线速度;V2:分梳辊2的线速度;V3:分梳辊3的线速度;V4:转杯线速度;V5:引纱罗拉线速度;
ρ1::棉条A的线密度(克重/米);
ρ2:棉条B的线密度(克重/米);
ρ:成纱线密度(克重/米);
ρ11:棉条A经过分梳辊1的线密度(克重/米);
ρ12:棉条A经过分梳辊2的线密度(克重/米);
ρ13:棉条A经过分梳辊3的线密度(克重/米);
ρ14:棉条A在转杯内的线密度(克重/米),
ρ21:棉条B经过分梳辊1的线密度(克重/米);
ρ22:棉条B经过分梳辊2的线密度(克重/米);
ρ23:棉条B经过分梳辊3的线密度(克重/米);
ρ24:棉条B在转杯内的线密度(克重/米),
E1:分梳辊1相对于给棉罗拉的牵伸比;
E2:分梳辊2相对于分梳辊1的牵伸比;
E3:分梳辊3相对于分梳辊2的牵伸比;
E4:转杯相对于分梳辊3的牵伸比;
E5:引纱罗拉相对于转杯的牵伸比;
E:转杯纺总牵伸比,等于引纱罗拉相对于给棉罗拉的牵伸比。
下标1,2分别代表组分A,组分B。
(1)三分梳辊分梳工艺的设计:
针对多根棉条喂入时,喂给罗拉喂入速度相差较大的情况下,各组份纤维握持时间相差较大,在单分梳辊转杯纺中,由于需要平衡剥削/梳理纤维,以及转移到梳棉通道时对纤维速度的要求,单分梳辊的转速很高,这样棉条喂入量差异大的时候,两根棉条中纤维受到的梳理次数相差很大,梳理次数多的纤维损伤过大。
为了解决分梳辊转速对纤维损伤和纤维流均匀混合的问题,本专利采用三分梳辊形式,即第1分梳辊、第2分梳辊和第3分梳辊。第一分梳辊的转速(ω=1500-3000rpm)较低、梳针密度相对较低、梳针工作角相对较小,以剥取、开松、除杂和分梳为主,重点使各棉条受到的梳理次数在合理的范围,减少纤维的损伤;第二分梳辊的转速(ω=3000-6000rpm),以剥取、分梳牵伸和纤维转移为主,梳针密度大于第一分梳辊梳针密度,梳针工作角也相对略大,经过第二分梳辊的梳理,纤维的纵向取向得到优化,横向转移混合进一步优化;第三分梳辊是高速分梳辊(ω=6000-12000rpm),以剥取、分梳牵伸和纤维转移为主,梳针密度大于第二分梳辊梳针密度,梳针工作角最大,纤维经过第三分梳辊不仅得到更好的梳理与转移,并且由于第三分梳辊的高速运转,在气流和离心力作用下,高度分离且连续的纤维流顺势通过输棉通道,排列有序地进入转杯凝聚成纱。
通过三分梳辊的多级剥取、开松、除杂、分梳牵伸、转移,顺利完成将棉条分解成棉网、棉网再分解成束纤维、束纤维在分解成单纤维的超大牵伸功能,提升了转杯纺分梳区的功能,满足了多根棉条异步喂入的转杯纺纱对分梳的特殊要求,实现了柔性、高效的分梳功能。
(2)转杯纺成纱牵伸倍数:
(3)成纱后细纱线密度
(4)混纺比
组份A,B在转杯纺纱线中的混纺比为K1、K2,则:
(4)细纱动态线密度
假设引纱速度V5不变,成分A,B的喂给罗拉速度V01,V02的变量分别为:
V01′=V01+ΔV01
V02′=V02+ΔV02
因此新的细纱动态线密度为
(5)细纱动态混纺比
假定:ρ1=ρ2=ρ0
V01+V02=V0
则基准混纺比
当V01+V02→V01+ΔV01+V02+ΔV02时混纺比变化为:
假定k1=0,0.1,0.2,0.3,0.4,0.5,0.6,0.7,0.8,0.9,1
k2=1,0.9,0.8,0.7,0.6,0.5,0.4,0.3,0.2,0.1,0
混色比的梯度配置,实现不同配色的方案
在V0保持恒定的条件下,通过改变V01、V02就可以改变纱线内不同纤维(不同色彩)的混纺比(混色比),使k1、k2在0~100%范围内进行变化。在两原色的各种混色模式下,混色比的递增以0.1为最小增量,进行配色可形成如下混色:
表1 配色方案
注:K1+K2=1可以有无数种组合,本发明专利选择以0.1为一个梯度进行梯度混色配色,经以上统计,按两原色棉条(两种色彩棉条)经耦合牵伸、交变换色、梯度配色、加捻混合,最终可形成11种配色,也可在纱线上形成具有11种色彩分布的段彩纱。
(6)细纱线密度及混纺比随机动态调控方法
细纱线密度动态变化率
又:
ρ1=ρ2=ρ0
V01+V02=V0
则:
由线密度的相对增量和线密度的绝对增量可以看出,纱线线密度的变化,完全取决于V01+ΔV01、V02+ΔV02的变化,则可以有一下5种变化形式,从而可有5种不同形态的纱线。
①一个组份线密度变化、一个组份线密度不变化的变线密度纱线;
或
②两个组份线密度均变化的变线密度纱线;
③一个组份连续、一个组份不连续的变线密度纱线;
④两个组份均不连续的变线密度纱线;
⑤两个组份均连续、但线密度变化的变线密度纱线
⑥细纱动态喂入速度调控方法
由于
ΔV0=ΔV01+ΔV02
ΔV可能来自ΔV01,也可能来自ΔV02,这可由混纺比来确定。则有:
ΔV01=K‘1(V0+ΔV)-V01
ΔV02=K‘2(V0+ΔV)-V02
Claims (10)
- 一种双棉条异步输入和三级分梳的转杯纺纺纱方法,其特征在于具体包括:1)给棉采用两个回转自由度的组合式给棉罗拉非同步喂入分梳区,分梳采用三级分梳辊;2)组合式给棉罗拉1、2分别以线速度V01、V02运动;转杯以线速度V4运动,引纱罗拉以线速度V5运动;设两个给棉罗拉牵引的两个棉条的线密度分别为ρ1、ρ2,成纱线密度为ρ,则转杯纺成纱牵伸倍数成纱后线密度三个分梳辊的速度依次为:第一分梳辊的转速为1500-3000rpm,第二分梳辊的转速为3000-6000rpm,第三分梳辊的转速为6000-12000rpm。3)两个棉条在转杯纺纱线中的混纺比为K1、K2则:4)假设引纱速度V5不变,两棉条的喂给罗拉速度V01,V02的变量分别为:V01′=V01+ΔV01,V02′=V02+ΔV02,则根据公式(2)得出成纱后的动态线密度通过控制V01、V02实现纱线内不同纤维或不同色彩的混纺比或混色比的动态调整纺纱。
- 如权利要求2所述的方法,其特征在于:细纱动态喂入速度调控方法ΔV0=ΔV01+ΔV02,速度变化来自ΔV01或ΔV02,由混纺比来确定,则:ΔV01=K′1(V0+ΔV)-V01、ΔV02=K′2(V0+ΔV)-V02。
- 实现上述任一权利要求所述方法的装置,其特征在于:包括纺纱系统和电脑控制系统,纺纱系统包括喂给分梳机构、凝聚加捻机构、卷绕成型机构,其特征在于喂给分梳机构包括两个回转自由度的组合式给棉罗拉、三级分梳辊,所述两个回转自由度的组合式给棉罗拉的两个罗拉速度比可调,所述凝聚加捻机构包括输棉通道、转杯和引纱装置;卷绕成型机构包括引纱卷绕机构,所述的电脑控制系统包括PLC可编程控制器、伺服驱动器、伺服电机,所述的两个回转自由度的组合式给棉罗拉、三级分梳辊由伺服电机驱动。
- 如权利要求9所述装置,其特征在于所述的两个回转自由度的组合式给棉罗拉包括轴、轴承、空心轴、第一齿轮、第二齿轮、垫圈、第一活动罗拉、第二活动罗拉,所述第一齿轮、第二齿轮、第一活动罗拉、第二活动罗拉围绕同一轴线转动,第一齿轮驱动第一活动罗拉,第二齿轮驱动第二活动罗拉。
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