CN219010605U

CN219010605U - Knitted vamp with stereoscopic effect

Info

Publication number: CN219010605U
Application number: CN202222731192.6U
Authority: CN
Inventors: 许金升; 李颖泉; 聂海轩; 张衡
Original assignee: Sincetech Fujian Technology Co Ltd
Current assignee: Sincetech Fujian Technology Co Ltd
Priority date: 2022-10-17
Filing date: 2022-10-17
Publication date: 2023-05-12
Anticipated expiration: 2032-10-17

Abstract

The utility model relates to a knitted vamp with a three-dimensional effect, which comprises a vamp body and a rope body arranged in the vamp body, wherein the vamp body comprises a surface layer and a bottom layer which are compounded together, the rope body is arranged between the surface layer and the bottom layer, the surface layer is formed by knitting monofilaments in a knitting mode, the knitted vamp further comprises locking yarns, the locking yarns are interwoven with the bottom layer and the surface layer and lock the rope body on the bottom layer, and the diameter of the rope body is larger than that of the monofilaments. After the technical scheme of the utility model is adopted, the extensibility of the vamp can be reduced, the protection of the foot is enhanced, and the rope is fixed on the bottom layer through the locking yarns, so that the rope is not easy to slide, and the structure is more stable.

Description

Knitted vamp with stereoscopic effect

Technical Field

The utility model relates to a knitted vamp with a three-dimensional effect.

Background

The knitted vamp has the characteristics of softness, comfort and good air permeability. In order to improve the three-dimensional effect of the knitted fabric, common practice on the market is to integrally weave patterns on the knitted vamp by designing jacquard tissues, and the patterns are used for forming the three-dimensional effect, so that the requirement on knitting equipment is high, and the manufacturing process is relatively complex. There are also reinforcing members attached to the upper to provide decorative and reinforcing effects, but if reinforcing pieces are provided at positions where the upper needs to be repeatedly bent, the risk of the reinforcing pieces falling off is relatively large. In the application publication number CN107157017A, the name is "rope-embedded integrated vamp and the Chinese utility model patent application of the braiding process thereof", the rope-embedded integrated vamp is disclosed, comprising a vamp body, wherein the vamp body is used for taking the direction of the vamp body corresponding to the toe as the front and the direction of the vamp body corresponding to the heel as the rear, the vamp body comprises a vamp part, a vamp body part and a heel part from front to back, the heel part is provided with the vamp part, the rope-embedded integrated vamp further comprises a reinforcing rope which is embedded in the vamp body in a braiding mode, the two ends of the reinforcing rope along the length direction are provided with a first end and a second end, the first end and the second end are connected to the vamp body, the part between the first end and the second end is provided with a embedded block and a protruding dew block, the embedded block is embedded in the vamp body, and the protruding dew block is exposed on the surface of the vamp body.

The rope is embedded into an organic whole and is woven vamp in above-mentioned patent, can strengthen the vamp through the rope that inlays, the rope that inlays includes the embedded section and protruding dew section, protruding dew section can form integrative three-dimensional effect, nevertheless because still hide in the vamp in some embedded section, its three-dimensional decorative effect is difficult to demonstrate, protruding dew section is because exposing at the surface of vamp in addition, and it is greater by the risk of scraping or pulling, especially protruding dew section longer time, this kind of condition is more serious, and the rope body as decorative effect is scraped and is lost, its influence to vamp outward appearance will be more obvious.

In view of this, the present inventors have conducted intensive studies on the above problems, and have produced the present utility model.

Disclosure of Invention

The utility model aims to provide a knitted vamp with a three-dimensional effect and capable of better protecting a rope body.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a knitting vamp with three-dimensional effect, includes vamp body and the rope body of setting in the vamp body, the vamp body is including compounding together surface course and bottom, the rope body sets up between surface course and bottom, the surface course is woven with knitting mode by the monofilament and is formed, still includes the lock yarn, lock yarn interweaves in bottom and surface course and locks the rope body on the bottom, the diameter of rope body is greater than the diameter of monofilament.

In a preferred embodiment of the present utility model, the surface layer is provided with a plurality of meshes, and the locking yarn is a monofilament.

In a preferred embodiment of the present utility model, the monofilament is a transparent monofilament or a translucent monofilament, the diameter of the monofilament is 0.2mm or less, and the diameter of the string is 5mm or less.

As a preferable mode of the utility model, the monofilament is a terylene monofilament, a chinlon monofilament, a polypropylene monofilament or a TPU monofilament, and the bottom layer is formed by interweaving terylene high-elastic yarns, terylene low-elastic yarns or chinlon yarns.

As a preferable mode of the utility model, the specification of the terylene high elastic yarn is 75D/36F, the specification of the terylene low elastic yarn is 150D/36F, and the specification of the nylon yarn is 70D.

As a preferred mode of the present utility model, the monofilament has a diameter of 0.1mm to 0.15mm, and the string has a diameter of 0.8mm to 1.6mm.

As a preferable mode of the present utility model, the rope is a colored rope.

As a preferable mode of the utility model, the surface layer comprises a plurality of coil rows, the plurality of coil rows are sleeved together in the longitudinal direction, each coil row comprises a plurality of coils which are arranged in the transverse direction, and the rope body extends in the transverse direction.

The utility model also provides a manufacturing method of the knitted vamp with the three-dimensional effect, the vamp is knitted by adopting a flat knitting machine with a front needle bed and a back needle bed, the flat knitting machine is provided with a first yarn nozzle carrying A yarns, a second yarn nozzle carrying B yarns, a third yarn nozzle carrying C yarns and a fourth yarn nozzle carrying D yarns, the first yarn nozzle carries A yarns to knit a surface layer on the front needle bed, the second yarn nozzle carries B yarns to knit a bottom layer on the back needle bed, the A yarns are monofilaments, the C yarns are ropes, the diameters of the ropes are larger than the diameters of the monofilaments, the third yarn nozzle carries C yarns to pull floating yarns, the fourth yarn nozzle carries D yarns to knit on the bottom layer in a loop, and the ropes are locked on the bottom layer.

As a preferred mode of the present utility model, the upper is woven with 52 weave as one circulation unit, and the 52 weave is woven as follows:

the 1 st weaving line is that A yarn is used for surface layer weaving, and a separation needle is used for weaving;

the 2 nd weaving line is that the B yarn is used as the bottom layer to weave, the spacing needle is adopted to weave, and the weaving position is offset by 1 needle position than the 1 st weaving line;

the 3 rd weaving line is that A yarn is used for surface layer weaving, and the spacing needle weaving is adopted, and the 1 st weaving line is offset by 1 needle position;

the 4 th weaving line is that the B yarn is used for bottom weaving, and the spacing knitting is adopted, and the 1 branch needle position is deviated from the 2 nd weaving line;

the 5 th knitting row and the 6 th knitting row are formed by transferring loops of the corresponding front needle bed knitting needles to the knitting needles of the rear needle bed in a needle turning mode;

the knitting actions from the 7 th knitting line to the 12 th knitting line are consistent with those from the 1 st knitting line to the 6 th knitting line, but the knitting needle positions are offset by 1 branch;

the weaving actions of the 13 th weaving line to the 18 th weaving line are consistent with those of the 1 st to the 6 th weaving lines;

the 19 th weaving line is that A yarn is used for surface layer weaving, and a separation needle is used for weaving;

the 20 th weaving line is that the B yarn is used as the bottom layer to weave, and the spacing needle is adopted to weave, and the position of the 1 branch needle is deviated from that of the 19 th weaving line;

the 21 st weaving line is that the yarn A is used for surface layer weaving, and the needle separation weaving is adopted;

the 22 nd weaving line and the 23 rd weaving line are yarn kicking actions of C yarns for adjusting yarn nozzle positions;

the 24 th weaving line is that the C yarn performs a floating yarn pulling action;

the 25 th weaving line is that D yarns are looped on the bottom layer and are gathered on the surface layer, and the C yarns are fixed on the bottom layer by adopting a separation needle for weaving;

the 26 th weaving line is the bottom layer weaving of the B yarn on the 25 th weaving line tuck needle position;

the 27 th weaving line to the 47 th weaving line are consistent with the weaving actions of the 1 st to the 21 st weaving lines, and the weaving position is shifted by 1 needle position;

the 48 th and 49 th weaving lines are yarn kicking actions of C yarn for adjusting the yarn nozzle position;

the 50 th weaving line is that the C yarn performs a floating yarn pulling action;

the 51 st weaving line is that D yarns are looped on the bottom layer and are gathered on the surface layer, and the C yarns are fixed on the bottom layer by adopting a separation needle for weaving;

the 52 th weaving row is the bottom weaving of the B yarn on the 51 st weaving row tuck needle position.

After the technical scheme of the utility model is adopted, the rope body diameter is larger than that of the monofilaments, the stereoscopic effect of the vamp is enhanced, when the rope body diameter is larger, the stereoscopic effect is more obvious, due to the fact that the monofilaments are thinner, gaps in a surface layer woven by using the existing knitting equipment are larger, the rope body can be seen through the gaps, the decorative effect of the rope body is displayed, in addition, due to the fact that the rope body is arranged between the surface layer and the bottom layer, the surface layer is protected, the decorative effect is not easy to scratch, the extensibility of the vamp can be reduced through the arrangement of the rope body, the protection of feet is enhanced, and the rope body is fixed on the bottom layer through locking yarns, so that the rope body is not easy to slide, and the structure is more stable. The manufacturing method of the utility model not only places the rope body between the surface layer and the bottom layer like the prior art, but also firmly locks the rope body on the bottom layer through the tuck knitting of the locking yarns on the surface layer and the looping knitting on the bottom layer, thereby improving the stability of the vamp.

Drawings

Fig. 1 is a schematic view of the structure of the present utility model (wherein the facing is not shown).

Fig. 2 is a schematic diagram of the matching structure of the surface layer, the rope body and the bottom layer in the present utility model.

In the figure:

first connecting portion 11 of bottom layer 10

Second connecting portion 12 first heel portion 13

Second heel 14 half sole 15

Tongue

16 and 17

Face layer 20 monofilament 21

Locking yarn 22 rope 30

Detailed Description

In order to further explain the technical scheme of the present utility model, the following is described in detail with reference to examples.

Referring to fig. 1 to 2, a knitted vamp with a stereoscopic effect, comprising a vamp body and a rope 30 disposed in the vamp body, the vamp body being shown in fig. 1 in a state of being unfolded, said vamp body comprising a face layer 20 and a bottom layer 10 which are composited (in particular integrally knitted together by a flat knitting machine), said rope 30 being disposed between the face layer 20 and the bottom layer 10. The surface layer 20 is formed by knitting with the mode of knitting by monofilament 21, still includes locking yarn 21, locking yarn 21 interweaves in bottom 20 and surface layer 10 and locks the rope body 30 on bottom 20, and in the vamp of past, the rope body presss from both sides and establishes between surface layer and bottom, though through the centre gripping effect of surface layer and bottom, also can carry out certain spacing to the rope body, but the stability of rope body is relatively poor, and the atress easily slides. Preferably, the diameter of the monofilament 21 is less than 0.2mm, the diameter of the rope 30 is greater than the diameter of the monofilament 21, and the diameter of the rope 30 is less than 5 mm.

As a preferred form of the utility model, the facing 20 is provided with a plurality of mesh openings which may be naturally porous by braiding with conventional braiding equipment due to the small filament diameter, or may be patterned by mesh openings.

As a preferred embodiment of the present utility model, the monofilament 21 is a transparent monofilament. As a preferred embodiment of the present utility model, the monofilament 21 is a polyester monofilament, a nylon monofilament, a polypropylene monofilament or a TPU monofilament 21.

As a preferred mode of the present utility model, the bottom layer 10 is formed by interweaving polyester high-elastic yarns, polyester low-elastic yarns or nylon yarns. As a preferable mode of the utility model, the specification of the terylene high elastic yarn is 75D/36F, the specification of the terylene low elastic yarn is 150D/36F, and the specification of the nylon yarn is 70D. The D of the present utility model, referred to in the industry as denier, refers to the weight (in grams) of 9000 meters of yarn. In the present utility model, F means the number of microfibers in one yarn.

As a preferred embodiment of the present utility model, the diameter of the monofilament 21 is 0.1mm to 0.15mm, and the diameter of the string body 30 is 0.8mm to 1.6mm.

In a preferred embodiment of the present utility model, the string 30 is a colored string 30, and may be, for example, a black string 30 or a colored string 30.

As a preferred mode of the present utility model, the facing 20 includes a plurality of courses, the plurality of courses being longitudinally nested together, each course including a plurality of transversely disposed loops, the rope 30 extending in a transverse direction.

As a preferred mode of the present utility model, the vamp body includes a half sole portion 15 corresponding to the front portion of the sole, and a first heel portion 13 and a second heel portion 14 corresponding to the heel, the half sole portion 15 is connected to the first heel portion 13 through a first connection portion 11, the half sole portion 15 is connected to the second heel portion 14 through a second connection portion 12, and a tongue opening 16 for installing a tongue and a shoe opening 17 for allowing the foot to penetrate into the shoe are formed between the first connection portion 11 and the second connection portion 12. When the vamp body is mounted on the sole, the first heel portion 13 and the second heel portion 14 are connected together to form a heel portion of the vamp.

In a preferred embodiment of the present utility model, the plurality of strings 30 are arranged in a left-right direction of the vamp body, and the plurality of strings 30 extend in a front-rear direction of the vamp body, with a direction from the first connecting portion 11 to the second connecting portion 12 being a left-right direction.

The utility model also provides a method for manufacturing the knitted vamp with the three-dimensional effect, the vamp is knitted by adopting a flat knitting machine with a front needle bed and a back needle bed, the flat knitting machine is provided with a first yarn nozzle carrying A yarn, a second yarn nozzle carrying B yarn, a third yarn nozzle carrying C yarn and a fourth yarn nozzle carrying D yarn, the first yarn nozzle carries A yarn to knit the surface layer 20 on the front needle bed, the second yarn nozzle carries B yarn to knit the bottom layer 10 on the back needle bed, the A yarn is a monofilament, the C yarn is a rope body, the diameter of the rope body 30 is larger than the diameter of the monofilament 21, the third yarn nozzle carries C yarn to pull and float, the float is a tensioned straight line, the fourth yarn nozzle carries D yarn to knit on the bottom layer 10 in a ring to knit on the surface layer 20 in a gathering mode, the rope body is locked on the bottom layer 10, and the D yarn is a locking yarn.

the 25 th weaving line is that D yarns are looped on the bottom layer and are gathered on the surface layer, and the C yarns are fixed on the bottom layer by adopting a separation needle for weaving; the rope body 30 is bound on the bottom layer through the locking yarns 22, so that the rope body is prevented from being knitted to cause the damage of knitting needles;

The fabric is woven and treated at high temperature. For the fabric without using the thermal fuse, the high-temperature treatment can lead the fabric to be heated and fully contracted, so as to achieve proper fabric effect; for fabrics using thermal fuses, it is necessary to melt and adhere the thermal fuses to the inside of the fabric through a high temperature treatment to achieve a proper fabric effect.

The utility model can directly weave the vamp shape, also can weave the vamp into the fabric, and then cut into the vamp shape by a cutting mode.

The product form of the present utility model is not limited to the embodiments described herein, and any suitable variations or modifications of the similar concept should be regarded as not departing from the scope of the utility model.

Claims

1. The utility model provides a knitting vamp with stereoscopic effect, includes vamp body and the rope body of setting in the vamp body, the vamp body is including compound surface course and the bottom together, the rope body sets up between surface course and bottom, its characterized in that: the surface layer is formed by knitting monofilaments in a knitting mode, and the surface layer further comprises locking yarns which are interwoven with the bottom layer and the surface layer and lock the rope body on the bottom layer, wherein the diameter of the rope body is larger than that of the monofilaments.

2. A knitted upper with stereoscopic effect according to claim 1, characterized in that: the surface layer is provided with a plurality of meshes, and the locking yarns are monofilaments.

3. A knitted upper with stereoscopic effect according to claim 1, characterized in that: the monofilament is transparent or semitransparent, the diameter of the monofilament is below 0.2mm, and the diameter of the rope body is below 5 mm.

4. A knitted upper having a three-dimensional effect according to claim 3, characterized in that: the monofilament is a terylene monofilament, a chinlon monofilament, a polypropylene monofilament or a TPU monofilament, and the bottom layer is formed by interweaving terylene high-elastic yarns, terylene low-elastic yarns or chinlon yarns.

5. A knitted upper having a three-dimensional effect according to claim 4, wherein: the specification of the terylene high elastic yarn is 75D/36F, the specification of the terylene low elastic yarn is 150D/36F, and the specification of the nylon yarn is 70D.

6. A knitted upper with stereoscopic effect according to claim 1, characterized in that: the diameter of the monofilament is 0.1mm to 0.15mm, and the diameter of the rope body is 0.8mm to 1.6mm.

7. A knitted upper with stereoscopic effect according to claim 1, characterized in that: the rope body is a colored rope body.

8. A knitted upper with stereoscopic effect according to claim 1, characterized in that: the surface layer comprises a plurality of coil courses, the coil courses are longitudinally sleeved together, each coil course comprises a plurality of coils which are transversely arranged, and the rope body transversely extends.