Patent Application
20250066969
The present disclosure relates to the technical field of knitted flannelette processing, in particular to a preparation method for a turf-like knitted flannelette fabric.
The knitted flannelette is a fabric with fluff formed by pulling out fibers in the floating threads of knitted grey cloth through fleece finishing, and is an important variety of velvet knitted fabrics. A weaving method of the knitted flannelette makes the knitted flannelette have better softness and hand feeling, which can better adapt to the body curve and bring more comfortable wearing experience. The fluff inside the knitted flannelette can keep the air to a certain extent, thus keeping the body temperature and making the knitted flannelette warmer in the cold season. Although there is air in the knitted flannelette, its air permeability is still excellent, which can keep the body dry and make the knitted flannelette more comfortable to wear. The knitted flannelette can be used for printing, dyeing and other processing methods, and can be used for producing various brightly colored fabrics.
The knitted flannelette has a wide range of applications, and its comfort and heat retention property make it become an ideal fabric for making clothes in autumn and winter, such as knitted sportswear, sweaters, and sweatshirts. Meanwhile, the soft touch and rich colors of the knitted flannelette are also suitable for making infant clothes. The knitted flannelette can also be used to make sofa cover, cushion cover, bedspread, and other home accessories, which not only has good touch and heat retention property, but also can play a role in decorating the home. The knitted flannel can also be used to make various industrial products, such as automobile seat covers, ship cloth, etc., with good softness, breathability, and wear resistance.
The existing flannelette fabric is generally called shu velveteen and berber fleece, which is a velvet-feeling fabric with fluff on the surface obtained by weaving, dyeing, and finishing polyester filaments. Due to its hand feeling, bulkiness and heat retention property, the velvet-feeling fabric is favored by people, and generally used in home fabrics, home clothes, and composite backings, but has the defects of single color, no layering and three-dimensional sense, leading to its inability to appear on top-grade fabrics. To this end, a preparation method for a turf-like knitted flannelette fabric is provided.
An objective of the present disclosure is to provide a preparation method for a turf-like knitted flannelette fabric, so as to overcome the technical problem in the prior art.
To achieve the objective above, the present disclosure employs the following technical solution:
A preparation method for a turf-like knitted flannelette fabric includes the following steps:
Further, in the yarn material, DTY600/150OF polyester-polyamide composite yarn is used as a top yarn, and 150D/288F all-polyester composite yarn is used as a bottom yarn.
Further, the weaving machine employs a five-station jacquard weaving machine for weaving.
Further, a temperature of high-temperature hot air blowing is set to 250° C., and treatment time is set to 20 minutes.
Further, an alkali concentration of low-alkali fiber opening is controlled at 3%, treatment time is set to 30 min, and a temperature rise rate is controlled at 1.5° C./min.
Further, a temperature of secondary heat setting is set to 180° C., and a setting speed is set at 40 m/min.
Further, a speed of high-speed carding is set to 50 m/min.
Further, a setting temperature of high-temperature setting of a finished product is set to 165° C., the setting time is set to 20 min, and a setting speed is set to 30 m/min.
Compared with the prior art, the present disclosure has beneficial effects as follows:
1. By adopting the low-alkali fiber opening process, better hand feeling and bulkiness can be obtained.
2. By adopting the five-station jacquard weaving machine, the fabric is endowed with a three-layer three-dimensional structure, and thus a more three-dimensional and natural flannelette fabric is obtained.
3. By using ultra-high-temperature and high-speed luster finishing and flapping processes, a fluff and soft hand feeling can be obtained.
4. A delicate and backbone structure can be obtained by adopting the polyester with ultra-high F number or cationic fiber yarn.
In conclusion, the preparation method can provide more excellent flannelette fabric to increase the competition force on the market and replace the original shu velveteen and berber fleece fabrics, thus obtaining new opportunities in the fierce market competition.
To describe the technical solutions of the embodiments of the present disclosure more clearly, the following briefly introduces the accompanying drawings required for describing the embodiments. Apparently, the accompanying drawings in the following description show merely some embodiments of the present disclosure, and those of ordinary skill in the art may still derive other drawings from these accompanying drawings without creative efforts.
The following clearly and completely describes the technical solutions in the embodiments of the present disclosure with reference to the accompanying drawings in the embodiments of the present disclosure. Apparently, the described embodiments are merely a part rather than all of the embodiments of the present disclosure. All other embodiments obtained by those of ordinary skill in the art based on the embodiments of the present disclosure without creative efforts shall fall within the scope of protection of the present disclosure.
This embodiment provides a preparation method for a turf-like knitted flannelette fabric, including the following steps:
1. Grey cloth weaving. Appropriate yarn materials are selected for carding to adapt to knitting, the treated materials are interwoven using a weaving machine to form a three-dimensional fabric structure, and a feeding amount of materials and parameters of the weaving machine are adjusted to control an extension length of plush on the surface of the fabric to meet a fabric height requirement of 1.2 cm, thus ensuring a turf-like effect of the fabric.
2. High-speed luster finishing. After-treatment is carried out on the grey cloth with a high-speed natural luster finishing machine, and surface fibers of the grey cloth can achieve effects of flatness, smoothness and brightness under the action of high-temperature and high-speed compressive rollers. At a luster finishing temperature of 200° C., fibers on the surface of the fabric are subjected to sufficient heat, and at a working speed of 25 m/min, the natural luster finishing machine can treat the fabric efficiently and improve the production efficiency, and the speed also ensures uniform heating and press-finishing effect of the fabric in the luster finishing process. After the treatment of the high-speed natural luster finishing machine, the surface of the fabric is flat, smooth, and bright, the fluff is straight, and the overall effect can be comparable to that of the natural fabric. The luster finishing treatment can enhance the wear resistance, pilling resistance and wrinkle resistance of the fabric, thus improving the service life and comfort of the fabric.
3. High-temperature hot air blowing. Air blowing treatment is carried out on the fabric in a high-temperature environment, which is conducive to setting of the fabric to make the size of the fabric more stable, and is also conducive to fixing color of the fabric to make the color on the fabric more firm and not easy to fade.
4. High-temperature high-speed flapping. A temperature is controlled at 150° C. to achieve both effects of gigging and finishing without causing excessive thermal damage to the fabric. Treatment time is set to 20 mins to ensure enough time for thermal bonding and finishing between the fibers. A flapping speed is set to 180 times per minute to ensure the continuity and uniformity of the flapping process. The bonding force between the fibers can be enhanced through high-temperature and high-speed flapping, thus improving the wear resistance and durability of the fabric. In the flapping process, part of loose or redundant fibers as well as impurities can be removed, making the fabric purer and tidier. High-temperature and high-speed flapping is conducive to forming uniform fluff on the surface of the flannelette fabric, thus improving the softness and heat retention property of the fabric.
5. High-temperature pre-setting. A temperature is controlled at 190° C., and the fabric passes through a setting machine at a speed of 30 m/min to fix the size of the fabric, thus preventing the fabric from size change in the subsequent processing and use process. The form of the fabric can be fixed through the high-temperature pre-setting, making the fabric have better wrinkle resistance and flatness, and the high-temperature pre-setting can enhance physical properties of the fabric, such as the wear resistance, tear resistance, and stretchiness. During high-temperature pre-setting, it is necessary to apply proper tension to the fabric, which is helpful to maintain the flatness and dimensional stability of the fabric.
6. Low-alkali fiber opening. Low-alkali fiber opening can make the fibers in the knitted flannelette swell and separate moderately, thus improving arrangement and interweaving states between the fibers, which is helpful to improve the softness and bulkiness of the fabric. The hygroscopicity and breathability of the knitted flannelette are improved through low-alkali fiber opening treatment, and the low-alkali fiber opening can be used as pretreatment for subsequent dyeing, printing and other treatment steps, which is conducive to improving the effect and uniformity of the treatment steps.
7. High-temperature dyeing. Dyeing is carried out for 50 minutes at a high temperature of 130-140° C. to ensure that dye molecules have enough time to diffuse and fix inside the fibers. Molecular chain movement inside the fiber is intensified, which makes dye molecules easily diffused from the surface to the inside of the fiber, thus improving a fixation rate of the dye, facilitating to reduce a flooding phenomenon after dyeing, and improving the color fastness of a dyed fabric. The high-temperature dyeing is helpful to the uniform distribution of the dye molecules in the fiber, thus improving the uniformity of the dyed fabric.
8. Secondary heat setting. The fabric is fed into the setting machine, a temperature and speed of the setting machine are adjusted to preset values, proper tension is applied to keep the fabric in a stable form in the setting process. After the fabric is heated and cooled in the setting machine for a certain period of time, the secondary heat setting treatment can be completed, such that the dimensional stability, thermal stability and physical and mechanical properties of the fabric can be significantly improved, and the handling feel and appearance of the fabric are improved at the same time. During secondary heat setting, the proper tension needs to be applied to control the size and form of the fabric.
9. High-speed carding. The knitted flannelette fabric is fed into a carding box of a high-speed carding machine, parameters, such as a speed and a tension of the carding machine, are adjusted to preset values. The carding machine is started, and the fabric is carded under the action of a carding roller. After the carding is finished, the carding machine is turned off, and the fabric is taken out for subsequent treatment. High-speed carding can significantly improve the fluff effect of the knitted flannelette fabric. Through carding, the fluff on the surface of the fabric is more uniform and delicate, and the beautiful degree and hand feeling of the fabric are improved. The carding machine can remove impurities and burrs on the surface of the fabric to improve the cleanliness and quality of the fabric.
10. Secondary flapping. The flapping temperature is set to 150° C., which is conducive to the further loosening and movement of fiber molecular chains in the fabric, making the fluff fluffier. The flapping time is set to 30 min to ensure that the fabric is sufficiently treated in the flapping process, which makes the fluff effect more significantly. A flapping speed is set to 180 times per minute to ensure that flapping equipment can flap the fabric uniformly and efficiently. The secondary flapping can significantly improve the fluff effect of the knitted flannelette fabric. Through high-temperature and high-speed flapping treatment, the fluff on the surface of the fabric becomes fluffier and more uniform, which can improve the beautiful level of the hand feeling of the fabric.
11. High-temperature setting of a finished product. The knitted flannelette fabric is heated at a specific temperature and in a specific time to fix the form and size of the fabric. Meanwhile, the physical property and appearance effect of the fabric are improved, the dimensional stability, wrinkle resistance and durability of the fabric are improved, and the hand feeling and glossiness of the fabric are improved.
12. Transferring a finished fabric. The finished fabric after setting is collected and transferred.
In the yarn material, DTY600/1500F polyester-polyamide composite yarn is used as a top yarn, which is formed by compounding polyester (PET) and polyamide (PA), and has high strength and wear resistance, and good stretchiness and glossiness. The high F number (1500F) makes the yarn extremely fine and the fibers evenly distributed, which is beneficial to the formation of delicate fluff effect and soft hand feeling. 150D/288F all-polyamide composite yarn is used as a bottom yarn, which is made of pure polyamide, and has high strength and stability, and good wrinkle resistance and durability. The high F number (288F) makes the yarn more delicate and helps to form a compact but soft backing structure. The knitted flannelette fabric with a unique three-dimensional pattern and excellent hand feeling can be produced by weaving filaments with ultra-high F number in combination with specific yarn combination and weaving process.
The weaving machine employs a five-station jacquard weaving machine for weaving, which can adjust the types and arrangement modes of the yarns at different stations as required, thus forming a complex three-dimensional pattern. The five-station design makes the pattern of the fabric richer and more diverse, which increases the appreciation and market competition of the fabric. By adopting a three-layer three-dimensional weaving technology, the top yarn, the bottom yarn and the middle layer (other yarns or materials can be selected as needed) are interwoven to form a three-dimensional fabric structure. Such a weaving mode can increase the thickness and heat retention property of the fabric, and make the surface of the fabric show a unique three-dimensional pattern. The weaving speed is set at 20 times per minutes, which can ensure that the fabric is sufficiently interwoven and set in the weaving process, and guarantee the production efficiency.
A temperature of the high-temperature hot air blowing is set to 250° C., and the treatment time is set to 20 minutes. The flannelette fabric can be softer or stiffer and smoother through proper hot air blowing treatment.
An alkali concentration in low-alkali fiber opening is controlled at 3%, which can effectively make fibers swell. The treatment time is set to 30 min to ensure that there is enough time for the fibers to swell and separate. The temperature rise rate is controlled at 1.5° C./min, thus avoiding fiber damage caused by excessive temperature rise. Moreover, in the slow temperature rise process, the fiber can gradually adapt to the temperature change, thus swelling more uniformly.
A temperature of the secondary heat setting is set to 180° C., which is enough for the fiber molecular chains in the fabric to further move and rearrange, thus stabilizing the form and size of the fabric. The setting speed is set to 40 m/min, which ensures the uniform heating and sufficient setting of the fabric in the setting process, and is also conducive to improving the production efficiency.
A high-speed carding speed is set to 50 m/min, which can ensure that the fabric is sufficiently treated during carding, and improve the production efficiency.
A setting temperature of the high-temperature setting of a finished product is set to 165° C. to ensure that the fiber molecular chains in the fabric have sufficient thermal movement, thus achieving form fixation and size stability. The setting time is set to 20 minutes to ensure that the fabric is sufficiently heated and treated in the setting process, thus achieving an expected setting effect. The setting speed is set to 30 m/minute to ensure that the fabric can pass through a heating zone evenly and stably in the setting machine, thus achieving a uniform setting effect.
In the description of this specification, descriptions referring to the terms “one embodiment”, “examples” or “specific examples” mean that specific features, structures, materials or characteristics described in connection with this embodiment or example are included in at least one embodiment or example of the present disclosure. In this specification, the schematic representations of the above terms are not necessarily aimed at the same embodiment or example. Moreover, specific features, structures, materials or characteristics described may be combined in any one or more embodiments or examples in a suitable manner.
The preferred embodiments of the present disclosure disclosed above are only used to help illustrate the present disclosure. The preferred embodiment does not describe all the details in detail, nor is it limited to the specific embodiments described. Apparently, various modifications and changes can be made according to the content of this specification. These embodiments are selected and described in detail in this specification for better explanation of the principle and practical application of the present disclosure, such that those skilled in the art can better understand and utilize the present disclosure. The present disclosure is limited only by the claims and their full scope and equivalents.
