The present invention falls in the technical field of textile fabrics, and in particular, in a super-elastic arbitrarily-cut lace fabric formed by knitting a non-hot-melt material.
There are three well-known ground bars for prior lace machines, and the fabrics produced generally have a large opening in the warp direction and a small opening in the weft direction (usually 30%-40%), thus the warp and weft need to be exchanged for use in producing clothing. The common lace fabric is most used in underwear, so the opening issue leads to great restriction in the application of common raschel lace fabric in many cases, and the ground yam of common lace is prone to falling apart after being cut along the weft direction.
The knitted lace fabric disclosed in the CN101426971A publication is knitted lace fabric using a hot-melt yarn and a production method thereof. After undergoing a knitting operation, the knitted lace fabric is heated at a temperature lower than a melting temperature of a chain stitch yarn but not lower than a melting temperature of a hot-melt yarn, so that the hot-melt yarn is partially melted. A part of the melted portion is stuck to the chain stitch yarn and inserted into the yarn. As a result, the connected state of each yarn can be maintained, thereby preventing wear of the yarn. In addition, the melt and bonded portion may be formed by means of breaking the hot-melt yarn. Therefore, even if a part of the chain stitch yarn constituting chain stitch texture is segmented, it is possible to prevent the chain stitch texture from being worn away by the stuck portion of the hot-melt yarn, thereby wearing the chain stitch texture. The portion beyond the stuck portion may be prohibited.
The hot-melt yarns, and heating and cutting processes are required for the foregoing patented lace fabrics to achieve its purpose, which greatly increases the cost, prolongs production processes, increases energy consumption, and imposes a certain impact on the environment, and makes the opening of the fabric subject to certain limitations as well.
The technical problem to be solved by the present invention is to provide arbitrarily-cut lace fabric of non-hot-melt material, with the advantages of good tensile properties in the warp and weft directions, which can be stretched freely in all directions and is not prone to falling apart after being cut, and can be widely used in underwear, corsets, sports, and leisure clothing.
To resolve the foregoing technical problem, the present invention adopts the following technical solutions:
Arbitrarily-cut lace fabric of non-hot-melt material includes a fabric body knitted on a lace machine. The fabric body has a main body knitted by using two filament bars and two spandex bars. A pattern layer, formed by knitting an elastic yarn or filament following a weft insertion structure or a looping structure using a pattern bar, is provided on the main body; an elastic weft opening layer, configured to provide weft elasticity and increase weft opening and obtained by using one of the filament bars to knit a filament yarn following a weft insertion structure, is provided inside the main body; a warp opening layer, configured to increase warp opening and obtained by using one of the spandex bars to knit a non-hot-melt spandex yarn by means of full-set threading and following a weft insertion structure along the warp knitting direction, is further provided inside the main body, and a tight resistance layer, configured to increase tightness of yarns and sliding resistance between yarns and obtained by using the other spandex bar to knit a non-hot-melt spandex yarn by means of full-set threading and following a chain stitch structure along the warp knitting direction, is further provided inside the main body.
The openings of the elastic weft opening layer and the warp opening layer are each greater than or equal to 80%.
The filament yarn used for the elastic weft opening layer is a 20-140 denier polyamide yarn or polyester yarn.
The filament yarn used for the elastic weft opening layer is a 20-140 denier spandex core-spun yarn of non-hot-melt material, where the spandex core-spun yarn is composed of a non-hot-melt spandex yarn covered with a layer of polyamide yarn or polyester yarn.
The non-hot-melt spandex yarn used for the warp opening layer has a density of 70-560 denier.
The non-hot-melt pandex yarn used for he tight resistance layer has a density of 20-140 denier.
The weft insertion structure is a weft insertion structure in a same direction or a weft insertion structure in a reverse direction.
A knitting needle density of the lace machine used is 18-32 stitches per inch.
The present invention has the advantages of good tensile properties in the warp and weft directions, which can be stretched freely in all directions and is not prone to falling apart after being cut, and can be widely used in underwear, corsets, sports, and leisure clothing.
To facilitate deeper understanding of the features and technical means of and specific objectives and functions achieved by the present invention, the following will further describe the present invention in detail with reference to the accompanying drawings and specific embodiments.
As shown in
The main body of the fabric is knitted by using two filament bars, two non-hot-melt spandex bars, and multiple pattern bars through a chain stitch and weft insertion structure.
Under the force of 7.5 pounds, both warp and weft openings of the fabric body can be greater than 80%.
In addition, the filament yarn used for the elastic weft opening layer is a 20-140 denier polyamide yarn or polyester yarn. The filament yarn used for the elastic weft opening layer is a 20-140 denier spandex core-spun yarn of non-hot-melt material, where the spandex core-spun yarn is composed of a non-hot-melt spandex yarn covered with a layer of polyamide yarn or polyester yam. The non-hot-melt spandex yarn used for the warp opening layer has a density of 70-560 denier. The non-hot-melt spandex yarn used for the tight resistance layer has a density of 20-140 denier. The weft insertion structure is a weft insertion structure in a same direction or a weft insertion structure in a reverse direction. A knitting needle density of the lace machine used is 18-32 stitches per inch.
During knitting, the present invention is specifically as follows: the filament bar 2 as shown in
The bar 3 as shown in
The bar 4 as shown in
The bar 1 as shown in
As shown in
As shown in
During a specific knitting process, the present invention adopts the following methods:
1.Warping of yam used in pattern knitting:
1) Warping of core-spun yarn and filament:
Warping machine model: Karl Mayer DS 21/30 NC-2, passive yarn feeding.
Warping temperature: 23° C. Warping humidity: 65%
The process parameters are set for the workshop under the foregoing temperature and humidity conditions, and the decision of whether to add oil to the yarn is made according to the actual situation.
2) Warping of spandex;
Warping machine model: Karl Mayer DSE-H21/30 NC-2, positive yarn feeding.
Warping temperature: 24° C. Warping humidity: 78%
The process parameters are set for the workshop under the foregoing temperature and humidity conditions.
2. Knitting
Knitting machine model: LRJ 83/1B
Machine number: E24 or E28
3. The threading modes are GB1, GB10 GB92 fully threaded, with JB89&JB90 one in one out, and the pattern bar is threaded according to a pattern need.
The yarn used for the fabric: spandex core-spun yarn, filament, spandex, elastic yarn.
4. Production procedure
Open-width washing→predetermined shaping→overflow single dyeing→finishing.
It should be noted that the foregoing embodiments are merely preferred embodiments of the present invention and are not intended to limit the present invention. Although the present invention is described in detail with reference to the embodiments, a person skilled in the art can still modify the technical solution described in the foregoing embodiments or make an equivalent replacement for some of the technical features thereof. Nevertheless, any modification, equivalent replacement, improvement, and the like made within the spirit and principle of the present invention shall fall in the scope claimed by the present invention.
Number | Date | Country | Kind |
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201811610244.6 | Dec 2018 | CN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/CN2019/072889 | 1/24/2019 | WO | 00 |