The present invention relates to the technical field of footwear products, and specifically discloses a footwear product and a manufacturing method therefor. The footwear product comprises a sole and an upper arranged on the sole. At least part of the upper is composed of a fabric woven from first yarns and second yarns, the first yarns being warp yarns which comprise ground warp yarns and twisted warp yarns, and the second yarns being weft yarns. The warp yarns and the weft yarns are woven to form a plain weave and/or a mesh weave; and in the mesh weave, the twisted warp yarns twist around the ground warp yarns and are bundled with the weft yarns into a whole, creating several ventilation holes in the mesh weave. The upper is integrally woven from the warp yarns and the weft yarns, and the plain weave and mesh weave structures are woven on the upper, so that the processing steps are simple; moreover, the entire upper, which is integrally woven, has a more stable structure, and the ventilation holes are formed in the mesh weave by means of weaving, thus providing a better ventilation effect.
D03D 25/00 - Woven fabrics not otherwise provided for
D03D 15/56 - Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used characterised by the properties of the yarns or threads elastic
2.
YARN CARRIER HAVING MOVABLE YARN FEEDER, TEXTURED WEAVE, FABRIC, FLYKNIT FABRIC, AND KNITTING PROCESS THEREFOR
The present invention relates to the technical field of knitting, in particular to a yarn carrier having a movable yarn feeder, a textured weave, a fabric, a flyknit fabric, and a knitting process therefor. The yarn carrier comprises a yarn carrier and several yarn feeders, wherein a first adjustment mechanism used for controlling and driving the position and direction of the yarn carrier is provided on the yarn carrier, a second adjustment mechanism on the yarn carrier is used for adjusting the position and direction of movable yarn feeders, and at least one movable yarn feeder is provided on the yarn carrier. The yarn carrier of the present invention may be provided with fixed yarn feeders to coordinate with the movable yarn feeders; the movable yarn feeders are controlled by a mechanical structure to move and swing within areas of activity on the yarn carrier, the areas of activity being divided into various types according to the layout of the yarn feeders, and the layout structure of the fixed yarn feeders and movable yarn feeders being designed as a layered structure, facilitating the yarn feeders to perform more knitting actions. The movable yarn feeders can swing back and forth; the amplitude of movement of the movable yarn feeders is adjusted to be smaller than the amplitude of swing of same; the back and forth swinging of the movable yarn feeders can adjust the yarn feeders to be rapidly displaced to a knitting position; and the coordination effect is good.
A warp-knitted creel Jacquard waffle fabric and a weaving method therefor. The warp-knitted creel Jacquard waffle fabric comprises a surface layer (1), a bottom layer (4), and a waffle intermediate layer (3) arranged between the surface layer (1) and the bottom layer (4), wherein the waffle intermediate layer (3) is connected to the surface layer (1) and the bottom layer (4) by means of weaving, and comprises a plurality of waffle cells; an air layer is formed between each waffle cell and the surface layer (1) and the bottom layer (4); woven yarns of the surface layer (1) comprise transparent monofilament yarns and woven yarns of the bottom layer (4) comprise polyester light-mesh yarns. The air layer can improve air permeability of the entire fabric; the surface layer (1) is woven by using the transparent monofilament yarns to improve the supporting performance of the entire fabric; in addition, the waffle intermediate layer (3) in the middle can be observed through the surface layer (1), and the plurality of waffle cells can be further presented, such that the entire fabric has rich structures and diverse functions.
D04B 21/14 - Fabrics characterised by the incorporation by knitting, in one or more thread, fleece, or fabric layers, of reinforcing, binding, or decorative threadsFabrics incorporating small auxiliary elements, e.g. for decorative purposes
D04B 21/08 - Patterned fabrics or articles characterised by thread material
D04B 21/16 - Fabrics characterised by the incorporation by knitting, in one or more thread, fleece, or fabric layers, of reinforcing, binding, or decorative threadsFabrics incorporating small auxiliary elements, e.g. for decorative purposes incorporating synthetic threads
4.
FUSION REINFORCING COMPONENT, KNITTED FABRIC, PRODUCTION PROCESS, AND SHOE UPPER
The present application discloses a fusion reinforcing component, a knitted fabric, a production process, and a shoe upper. The fusion reinforcing component at least comprises a first yarn; the first yarn comprises a core layer and a skin layer coating the core layer; and the melting point of the skin layer is lower than the melting point of the core layer, and the melting point of the skin layer is 60℃ to 170℃. The fusion reinforcing component of the present application is formed by weaving the first yarn of a skin-core structure, because the melting point of the skin layer of the first yarn is lower than that of the core layer, when heated, the skin layer may be partially melted, and when the skin layer is melted to a certain extent, coils formed by weaving the first yarn can be fused with each other, to form a protective layer on the surface of a knitted fabric, thus providing certain support for the knitted fabric; and the core layer is not melted, and still retains certain retraction performance for the knitted fabric, so that even if pulled by an external force, the knitted fabric is not prone to deformation caused by breakage, loosening, slippage, and the like.
D04B 1/16 - Other fabrics or articles characterised primarily by the use of particular thread materials synthetic threads
D04B 1/24 - Weft knitting processes for the production of fabrics or articles not dependent on the use of particular machinesFabrics or articles defined by such processes specially adapted for knitting goods of particular configuration wearing apparel
A43B 1/04 - Footwear characterised by the material made of fibres or fabrics made therefrom braided, knotted, knitted or crocheted
5.
SHOE INFLATION MODULE, AND SHOE HAVING INFLATING/DEFLATING AIR POUCH
A shoe inflation module, and a shoe having an inflating/deflating air pouch, belonging to the technical field of air pouch shoes, and comprising: an inflation cover (4), the inflation cover (4) having disposed therein an inflation/deflation structure, the inflation/deflation structure comprising an air supply cavity (405) disposed in the inflation cover (4), an air pump (4010) arranged in the air supply cavity (405), and an interface arranged on the inflation cover (4) and connected to an air conveying end of the air pump (4010); the inflation module can be installed on an air pouch shoe, communicating the interface with an inflation port of an inflation pouch (3), and then activating the air pump (4010), and using the air pump (4010) arranged in the air supply cavity (405) to inflate the inflation pouch (3), thereby achieving efficient inflation of the inflation pouch (3), with high efficiency and good effect.
A module assembly used in footwear, a shoe sole assembly, and a light-emitting sports shoe. The module assembly comprises an attachment member (12), a connection member (11), and a module (10); the module (10) is connected to the attachment member(12) by means of the connection member (11); the attachment member (12) is snap fitted on the footwear; the module (10) is a light-emitting module or a vibration module; by means of optimizing module (10) configuration, the module (10) undergoes simple connection and combination by means of the attachment member (12) and the connection member (11), installation is easy, and the connection and matching effect is good. By means of optimally providing the light-emitting module and the vibration module, a user can flexibly switch between said modules as necessary. The inner structures of the modules (10) are simple, both can be controlled to turn on and off by means of a control switch (21), a first charging port (22) allows power storage of the first battery (23), and user requirements are met by means of a core light strip (19) and a vibration unit (4).
A fabric, a manufacturing method therefor, a vamp and a shoe. The fabric comprises a winding layer, the winding layer comprising multiple yarn groups, multiple outer peripheral winding points and multiple pattern winding points (13). A yarn group comprises two continuous yarns (21) which are different from each other in color, material and thread diameter, each continuous yarn (21) comprising a folded thread section (22). Some continuous yarns (21) of different yarn groups overlap with each other, and contact positions between the continuous yarns (21) are fixedly connected to each other. In the same yarn group, the pattern winding points (13) around which mutually corresponding folded thread sections (22) are wound are the same, and the mutually corresponding folded thread sections (22) only have intersection points at the positions of corresponding pattern winding points (13). By using two different continuous yarns (21) in the same yarn group and causing the continuous yarns to intersect only at the pattern winding points (13), a fabric pattern may be delineated using an interface line between different visual effects presented by the two continuous yarns (21), making the patterns relatively diverse.
D04H 3/05 - Non woven fabrics formed wholly or mainly of yarns or like filamentary material of substantial length characterised by the method of forming fleeces or layers, e.g. reorientation of yarns or filaments in another pattern, e.g. zig-zag, sinusoidal
D04H 3/10 - Non woven fabrics formed wholly or mainly of yarns or like filamentary material of substantial length characterised by the method of strengthening or consolidating with bonds between yarns or filaments made mechanically
8.
PRECISE FLYKNIT FABRIC AND MANUFACTURING METHOD THEREFOR
A precise flyknit fabric, comprising an integrally-woven fabric body (1). The fabric body (1) comprises a plurality of knitting units (2); the size of the knitting units (2) is 1 square centimeter; the thread count of each knitting unit (2) is 7-20, and the number of knitting rows of each knitting unit (2) is 12-40; and each knitting unit (2) comprises a first knitting position (3) or/and a second knitting position (4). A first surface layer (31), a first bottom layer (32), a second surface layer (41), a second bottom layer (42), and an intermediate support layer (43) of the fabric are woven by using transparent yarns and colored yarns, so that the fabric has certain support and ductility, the transparent yarns can enable the weaving of the fabric to have a transparent effect, the clearance of the transparent yarns also increases a breathable effect, the fabric is similar in style to a warp-knitted Jacquard cloth piece, the fabric overall is fine, compact and thin and has high stability, a visual effect and the texture are both fine and exquisite, the physical properties and the comfort of the fabric are improved, and the fabric overall is clean and tidy.
A knitted fabric fitted with a heel physiological curve and a manufacturing method therefor. The knitted fabric comprises a fabric body, wherein the fabric body comprises an upper (1), a heel collar (2), a tongue (3), and a heel counter (4) which are integrally woven; the heel counter (4) is divided into an outer side layer (41) and an inner side layer (42) which are separately woven; the fabric is woven from at least one first yarn and at least one second yarn, the first yarn and the second yarn are subjected to bottom weaving and surface weaving, a bag-shaped stitch is provided between the outer side layer (41) and the inner side layer (42), the heel counter (4) further comprises a heel integrally woven and having a bending arc, and the fabric is woven by means of a knitting machine. The upper (1), the heel collar (2), the tongue (3), and a physiological curve of the heel counter (4) of the fabric are all integrally woven, and the upper (1) is fully fitted with a foot, such that all-around protection is provided, and the effect of comfortable wearing is achieved.
The present invention relates to the technical field of fabric, in particular to a multi-bar jacquard fabric having a local sandwich effect. The fabric is integrally knitted by means of a double-needle-bed high-speed jacquard machine, and comprises a surface layer, a bottom layer, and a pile-height layer, which is knitted between the surface layer and the bottom layer. The pile-height layer is at least formed by laying and knitting yarns by means of a jacquard bar. The jacquard bar lays and knits yarns on a front needle bed and a back needle bed to form a first knitted region, and the jacquard bar lays and knits the yarns on the front needle bed or the back needle bed, or does not lay and knit the yarns on the front and back needle beds (i.e. the yarns are suspended between the front needle bed and the back needle bed) to form a second knitted region. Since the thickness of the pile-height layer in the first knitted region is greater than that of the pile-height layer in the second knitted region, the thickness of the first knitted region is greater than that of the second knitted region, such that the fabric has a local uneven sandwich effect, a good visual effect, strong structural stability, and good breathability.
D04B 21/20 - Warp knitting processes for the production of fabrics or articles not dependent on the use of particular machinesFabrics or articles defined by such processes specially adapted for knitting articles of particular configuration
A stitchless integrally-knitted flyknit upper and a knitting process therefor, and a shoe. The stitchless integrally-knitted flyknit upper is obtained by using a flyknitting machine to integrally knit upper components comprising a tongue (1), a collar rib (2), a shoe body (3) and a heel (4) radian, and the upper is three dimensional when the knitting is completed. The knitting of the upper comprises two knitting modes: splicing the shoe body (3) and the tongue (1) to form two splicing lines, and splicing the shoe body (3) and the shoe body (3) to form one splicing line. Only the edge contour of the upper needs to be cut, and splicing and stitching process steps for changing a 2D upper into a three-dimensional upper are omitted.
D04B 1/24 - Weft knitting processes for the production of fabrics or articles not dependent on the use of particular machinesFabrics or articles defined by such processes specially adapted for knitting goods of particular configuration wearing apparel
The present invention relates to the technical field of fabrics, and in particular, to a jacquard process mesh featuring flower comb sandwich jacquard lace, and a manufacturing method therefor. The mesh comprises a mesh body that is integrally woven by a warp knitting machine, and the mesh body sequentially comprises a layered structure of, from bottom to top: a bottom base layer, a warp-knit comb connection layer, a jacquard layer, and a flower comb jacquard layer. The flower comb jacquard layer is provided with a weft inlay fabric; the weft inlay yarn of the weft inlay fabric is only wound at two ends around a root portion of a coil formed by a second warp-knit base fabric and a third warp-knit base fabric; and the extension line of the weft inlay yarn of the weft inlay fabric is not clamped by other yarn, and floats on the uppermost layer of the surface of the mesh to form a jacquard texture. The sandwich mesh of the present invention has good air permeability, wrinkle resistance, shape retention, and a strong 3D volume impression. The overall unique jacquard effect of the fabric has a more exquisite design, the texture is light and thin, and the layered aesthetics of the "flower" and "ground" of the lace product are highlighted, breaking through restrictions of mesh currently on the market.
D04B 21/14 - Fabrics characterised by the incorporation by knitting, in one or more thread, fleece, or fabric layers, of reinforcing, binding, or decorative threadsFabrics incorporating small auxiliary elements, e.g. for decorative purposes
13.
WARP KNITTED STRUCTURAL AIR LAYER TEXTURED FABRIC AND MANUFACTURING METHOD THEREFOR
Disclosed are a warp knitted structural air layer textured fabric and a manufacturing method therefor. The fabric comprises a fabric body. The fabric body comprises a surface layer (1), a structural air layer (3), and a bottom layer (2) which are sequentially stacked from top to bottom. The structural air layer (3) is woven by yarn having rigid support, and a first texture taking the structural air layer (3) as a substrate is formed on the surface of the surface layer. The fabric further comprises a pattern layer (4). The pattern layer (4) is located between the surface layer (1) and the structural air layer (3), and a second texture taking the pattern layer (4) as substrate is formed on the surface of the surface layer (1). The air structure layer is woven between the surface layer and the bottom layer by using the yarn having rigid support. The air structure layer matches the surface layer, so that the first texture is formed on the surface of the surface layer. Compared with a texture formed by hot pressing, the shape and air permeability of the whole fabric are not influenced; the combination of the first texture and the air structure layer improves the air permeability, shape retention, and abrasion resistance of the whole fabric; moreover, the fabric has a strong visual impact and a comfortable sense of touch.
D04B 21/14 - Fabrics characterised by the incorporation by knitting, in one or more thread, fleece, or fabric layers, of reinforcing, binding, or decorative threadsFabrics incorporating small auxiliary elements, e.g. for decorative purposes
FUJIAN ALL THINGS ZHILIAN TECHNOLOGY CO., LTD. (China)
Inventor
Cai, Qinglai
Cai, Yizhen
Chen, Yanping
Peng, Xukun
Wu, Kangqiang
Shi, Weixiong
Cai, Jinwei
Deng, Jianfeng
Abstract
A fabric production method, comprising: collecting fabric patterns to be produced, digitizing the fabric patterns and then storing same, carrying out calculation, matching, and comparison on the digitized fabric patterns to obtain a weaving plan, controlling a weaving device according to the weaving plan to perform weaving, and carrying out hot-press fusion on woven fabric, cooling and shaping the hot-pressed and fused fabric, and demolding the cooled and shaped fabric to form a piece of finished fabric. The production method is simple, effectively solves the limitation problem of the existing fabric in the warp and weft directions, realizes weaving in any direction and partial weaving, and integrates multiple weaving processes, truly realizes weaving at will, and achieves a great improvement and breakthrough in the weaving industry.
A fabric having open mesh structures. The fabric comprises a surface layer (1), a bottom layer (2), a connecting layer (3), and a jacquard layer (4). The surface layer (1) comprises a plurality of first yarns, the plurality of first yarns are crossed and woven to form the surface layer (1), a plurality of mesh structures (11) are formed on the surface layer (1), and each of the mesh structures comprises a plurality of open meshes (111) and a plurality of closed meshes (112). The bottom layer (2) comprises a plurality of second yarns, and the plurality of second yarns are crossed and woven to form the bottom layer (2). The connecting layer (3) comprises a plurality of third yarns, the plurality of third yarns are crossed and woven to form the connecting layer (3), and the connecting layer (3) is used for connecting the surface layer (1) and the bottom layer (2). The jacquard layer (4) comprises a plurality of fourth yarns, the plurality of fourth yarns are crossed and woven, and the jacquard layer (4) is formed on the surface layer (1). The fabric is formed by integrally weaving, is attractive and novel in appearance, high in interestingness, good in air permeability, strong in three-dimensional effect and obvious in touch feeling, and a manufacturing process is simplified, thereby improving the production efficiency and reducing the production cost.
D04B 21/12 - Open-work fabrics characterised by thread material
D04B 21/16 - Fabrics characterised by the incorporation by knitting, in one or more thread, fleece, or fabric layers, of reinforcing, binding, or decorative threadsFabrics incorporating small auxiliary elements, e.g. for decorative purposes incorporating synthetic threads
16.
MESH-TYPE PATTERNED CREEL DOUBLE-JACQUARD MESH FABRIC AND MANUFACTURING METHOD THEREFOR
A mesh-type patterned creel double-Jacquard mesh fabric, comprising a mesh fabric body integrally woven by a warp knitting machine; the mesh fabric body comprises a surface layer (1) and a bottom layer (2), the surface layer (1) is woven by polyester monofilament transparent yarns, the bottom layer (2) is woven by polyester low-elastic yarns, a mesh patterned layer (3) woven by polyester low-elastic lightweight mesh yarns is provided between the surface layer (1) and the bottom layer (2), meshes (31) are formed by weaving the mesh patterned layer (3) on the surface layer (1), and the meshes (31) penetrate from the upper surface of the surface layer (1) to the upper surface of the bottom layer (2). By means of the principle and the process designs of a double-Jacquard machine, the creel mesh fabric products are more abundant, and mesh patterning can be performed by using two Jacquards, maintaining the initial transparency of creels, increasing the mesh diversity of creel products, and further solving the problems of double-layer creel products such as easily wrinkling, foaming and edge curling.
D04B 21/08 - Patterned fabrics or articles characterised by thread material
D04B 21/12 - Open-work fabrics characterised by thread material
D04B 21/16 - Fabrics characterised by the incorporation by knitting, in one or more thread, fleece, or fabric layers, of reinforcing, binding, or decorative threadsFabrics incorporating small auxiliary elements, e.g. for decorative purposes incorporating synthetic threads
WORLD LINKING (FUJIAN) TECHNOLOGY CO., LTD. (China)
Inventor
Cai, Qinglai
Xu, Jinsheng
Xu, Jintai
Guo, Xianzhao
Yang, Xinjie
Abstract
A light-emitting sole, comprising a midsole (10) and an outsole (20) connected to the midsole (10). An electronic unit is mounted at the midsole (10), and the electronic unit comprises a light-emitting light strip (103) and a control chip for driving the light-emitting light strip (103) to turn on/off. The midsole (10) and/or the outsole (20) is provided with a light-transmitting portion for transmitting light from the light-emitting light strip (103). The light-emitting light strip (103) is mounted at the midsole (10), so that the light-emitting light strip (103) can be effectively prevented from breaking, and the service life of the light-emitting light strip (103) can be prolonged, thereby prolonging the light-emitting life. A light-transmitting portion is provided at a side edge of the midsole (10) and/or at the outsole (20), and thus, it is easy to transmit light emitted by the light-emitting light strip (103), and the light-emitting effect is better.
WORLD LINKING (FUJIAN) TECHNOLOGY CO., LTD. (China)
Inventor
Cai, Qinglai
Xu, Jinsheng
Xu, Jintai
Guo, Xianzhao
Yang, Xinjie
Abstract
A pump-up shoe with multiple airbags and a manufacturing method therefor, comprising a shoe sole (2), a vamp (1), and an airbag mechanism, the airbag mechanism comprising an inflating and deflating apparatus (41), an air guide tube (42), a solenoid valve (44), and multiple airbags (43), the solenoid valve (44) having an air inlet (441) and an air outlet (442), and air guide openings (434) being provided on each of the multiple airbags (43), one end of the air guide tube (42) being connected to the inflating and deflating apparatus (41) and the other end being connected to the air inlet (441), the air outlet (442) respectively being connected to the air guide openings (434), and the airbags (43) being composited on the vamp. The solenoid valve (44) controls the corresponding air guide openings (434) to implement separate or simultaneous inflation and deflation of the airbags (43) in different areas; distributing the airbags (43) in various parts of the shoe improves the encapsulation of the foot.
A weaving method of double jacquard mesh cloth comprises: first, basic organizations of guide bars are defined, then weaving of double-jacquard mesh cloth of weave; the guide bars laying yarns comprise: ground guide bar GB1 works in the front needle bar in cooperation with the jacquard pattern guide bar JB1, weaves and forms a jacquard pattern effect on the grey cloth front side; the ground guide bar GB6 and the jacquard guide bar JB2 together weaves and forms base cloth of grey cloth, and the jacquard guide bar JB2 weaves and forms a V-point jacquard effect on the grey cloth front side; the ground guide bar GB5 weaves and forms front-back-side connection threads of grey cloth, and by weaving performed by the ground guide bar GB5, the front side and the back side of grey cloth are one-piece-woven and connected into one piece, and double jacquard mesh cloth is woven and formed.
A one-piece-vamp manufacture method includes: (1) weaving preparation: arranging different required raw material color yarn, hot melt silk and stretch yarn at a main color opening yarn feeding orifice, a match color opening yarn feeding orifice and a stretch yarn yarn feeding orifice; (2) weaving U shape tube fabric: a vamp machine weaving in an order of a starting opening, an outer toe cap, an outer shoe body, an outer heel, an outer shoe opening to an inner shoe opening, an inner heel, an inner shoe body, an inner toe cap; (3) stitching an inner toe cap stitch eyelet; (4) stitching the outer toe cap stitch eyelet; (5) forming a one-piece-vamp semifinished product; and (6) reshaping, setting and shape fixing.
D03D 15/00 - Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used
D03D 15/08 - Woven fabrics characterised by the material or construction of the yarn or other warp or weft elements used using stretchable or elastic threads
D03D 1/00 - Woven fabrics designed to make specified articles
21.
Vamp with loop protection eyelets and manufacture method thereof
A vamp with loop protection eyelets and a manufacture method thereof are disclosed. The vamp comprises a vamp body including a middle part having a notch which functions as a shoe tongue part. The vamp body is one-piece knitted fabric or a sheet-splice-vamp. Strings are projectively fixed on the upper surface of the vamp body. Threads embroider and fix the strings on the vamp body along a path of the length direction of the strings. The strings not only form a pattern on the vamp body but also leave loops on the shoe tongue part. Loops protrude inwards from both side edges of the shoe tongue part. The vamp has ventilation and has good supportability and straightness, is not only esthetic but also can protect feet. Protection eyelets are connected very firmly and do not come off easily. The pattern with a stereoscopic visual effect is formed on the vamp.
D05C 5/04 - Embroidering machines with arrangements for automatic control of a series of individual steps by input of recorded information, e.g. on perforated tape
D05C 17/00 - Embroidered or tufted productsBase fabrics specially adapted for embroidered workInserts for producing surface irregularities in embroidered products
A43D 100/00 - Setting or removing eyelets, buttons, lacing-hooks, or elastic gussets in shoes
An embroidered vamp process includes the following steps: (1) designing a vamp manufacture drawing by a computer; (2) according to the design drawing of step (1), cutting different pieces of cloth into base fabric of the vamp and a splice component of the vamp respectively by a laser; (3) typesetting the splice component cut in step (2) on the base fabric, then embroidering the splice component on the base fabric according to an embroidery thread pattern of the drawing by an embroidery machine; (4) cutting out the redundant base fabric of the vamp along the edge the splice component by, once again, the laser, forming the vamp of the finished product shoe model. An embroidered vamp comprises a vamp body, said vamp body comprising the base fabric and the splice component, said splice component being embroidered on the surface of base fabric by embroidery thread.
patents
