CN111455535B

CN111455535B - Hollow built-in braided fabric, vamp and fabric manufacturing method

Info

Publication number: CN111455535B
Application number: CN202010402119.7A
Authority: CN
Inventors: 许金升; 李颖泉; 李代
Original assignee: Sincetech Fujian Technology Co Ltd
Current assignee: Sincetech Fujian Technology Co Ltd
Priority date: 2020-05-13
Filing date: 2020-05-13
Publication date: 2023-09-29
Anticipated expiration: 2040-05-13
Also published as: CN111455535A

Abstract

The application relates to a hollow built-in braided fabric, which comprises a fabric body, wherein the fabric body comprises a bottom layer and a surface layer which are braided together, the fabric body comprises a bonding area and a hollow area, the bottom layer is connected with the surface layer in the bonding area, the bottom layer is arranged in the hollow area and separated from the surface layer, the braided fabric is arranged in the hollow area and provided with a first connecting end, a second connecting end and a middle section formed between the first connecting end and the second connecting end, the first connecting end and the second connecting end are connected in the bonding area in a braiding mode, and the middle section is arranged in a separated mode with the bottom layer and the surface layer. After the technical scheme of the application is adopted, the first connecting end and the second connecting end of the knitted fabric are connected to the bonding area in a knitting mode, the knitted fabric is not easy to slide, in addition, the knitted fabric is separated from the bottom layer and the surface layer, and the knitted fabric can prop open the bottom layer and the surface layer of the hollow area, so that the bottom layer and the surface layer are not easy to adhere together, and the air permeability of the fabric body is improved.

Description

Hollow built-in braided fabric, vamp and fabric manufacturing method

Technical Field

The application relates to a hollow built-in braided fabric, a vamp and a manufacturing method of the fabric.

Background

Some of the currently marketed fabrics with hollow structures mainly include a bottom layer, a surface layer, and a cavity formed between the bottom layer and the surface layer. One of the processing modes is that the bottom layer and the surface layer are compounded together, and a cavity is reserved at the corresponding position; another processing mode is to integrally weave double-layer fabrics with a bottom layer, a surface layer and a cavity at the position by using weaving equipment. Filling materials can be put into the cavity, so that the decorative effect is achieved, and the stereoscopic impression, the fluffiness and the comfort are improved. In the traditional fabric, if the filler in the cavity is not filled, the filler is easy to slide in the cavity and even accumulate together, so that the visual effect and comfort of the fabric are affected, and if the filler is filled in the whole cavity, the air permeability of the corresponding position is affected.

In view of this, the present inventors have conducted intensive studies on the above problems, and have made the present application.

Disclosure of Invention

The application aims to provide a hollow built-in braided fabric with good air permeability and controllable decorative effect, and the other aim of the application is to provide a vamp manufactured by the fabric and a manufacturing method of the fabric, wherein the manufacturing method has the advantage of convenience in processing, and the fabric manufactured by the processing method has the advantage of stable structure.

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

the utility model provides a cavity embeds knitting surface fabric, includes the surface fabric body, and the surface fabric body is including weaving bottom and the surface course that is in the same place, and the surface fabric body is including joining district and cavity district, and in the joining district, the bottom is in the same place with the surface course separation setting in the hollow district, be equipped with the knitting in the hollow district, the knitting has first link, second link and forms the interlude between first link and second link, and first link and second link are all in with the mode of weaving connect in the joining district, the interlude with the bottom with the equal separation setting of surface course.

As an alternative of the present application, the braid is in the form of a rope or a belt.

As an optional mode of the application, the braided fabric is a plurality of rope bodies, the rope bodies extend transversely, the plurality of rope bodies are longitudinally arranged, and ventilation spaces are formed between adjacent rope bodies.

As an alternative of the present application, the bottom layer has a plurality of meshes corresponding to the position of the hollow region.

As an alternative mode of the application, the bottom layer is woven by transparent yarns at the position corresponding to the hollow area.

As an alternative of the present application, the rope body is formed by interweaving a plurality of sections of yarns.

The application further provides a vamp, which comprises a vamp body matched with the sole, wherein the vamp body is surrounded by a fabric body, the fabric body comprises a bottom layer and a surface layer which are woven together, the fabric body comprises a bonding area and a hollow area, the bottom layer is connected with the surface layer in the bonding area, the bottom layer and the surface layer are arranged in the hollow area in a separated mode, the hollow area is provided with a woven fabric, the woven fabric is provided with a first connecting end, a second connecting end and a middle section formed between the first connecting end and the second connecting end, the first connecting end and the second connecting end are connected in the bonding area in a woven mode, and the middle section is arranged in a separated mode with the bottom layer and the surface layer.

The application also provides a manufacturing method of the hollow built-in braided fabric, the hollow built-in braided fabric comprises a fabric body, the fabric body comprises a bottom layer and a surface layer which are braided together, the fabric body comprises a bonding area and a hollow area, the bottom layer is connected with the surface layer in the bonding area, the middle bottom layer in the hollow area is separated from the surface layer, the braided fabric is arranged in the hollow area, the braided fabric is provided with a first connecting end, a second connecting end and a middle section formed between the first connecting end and the second connecting end, the first connecting end and the second connecting end are connected in the bonding area in a braiding manner, the middle section is separately arranged with the bottom layer and the surface layer, the hollow built-in braided fabric is integrally braided by a braiding machine with a front needle bed and a rear needle bed, the first connecting end and the second connecting end are braided into the bonding area in a position of the hollow area where the fabric body needs to be braided, a part of knitting needles form a loop or a collection of knitting bottom layer on the front needle bed, a part of knitting needles form a loop or collection of knitting needles on the front needle bed, and another part of knitting needles on the rear needle bed are braided with another part of the knitting needles.

As an alternative of the present application, the braid includes a first yarn, in the bonding region, a yarn nozzle carries the first yarn to move left and right, the first yarn is alternately looped or tucked on a front needle bed and a rear needle bed to connect the bottom layer and the face layer together, in the hollow region, the yarn nozzle carries the first yarn to move left and right, the first yarn is looped or tucked on the front needle bed and the rear needle bed to form a main body structure of the braid, the main body structure is braided, and the reinforcing structure is braided by: step A, a yarn nozzle carries a first yarn, a new loop is formed by looping on a knitting needle on a front needle bed, and the loop is transferred to a rear needle bed knitting needle at the left rear side in a loop transferring mode; step B, a yarn nozzle carries a first yarn, a new loop is formed on the back needle bed knitting needle in the step A, and the loop is transferred to the front needle bed knitting needle at the left front in a loop transferring mode; and C, carrying the first yarn by a yarn nozzle, and knitting the first yarn on the back needle bed knitting needle corresponding to the step B in a tucking mode.

As an alternative to the application, the thermoplastic yarn contained in the intermediate section comprises thermoplastic material, and after the fabric body has been knitted, the thermoplastic yarn is partly or entirely melted and cooled by means of the application of heat energy, so that the knitted fabric is bonded into one body.

After the technical scheme of the application is adopted, the first connecting end and the second connecting end of the knitted fabric are connected in the bonding area in a knitting mode, the knitted fabric is not easy to slide, the shape of the knitted fabric can be controlled in a knitting mode, a better decorative effect is formed, in addition, the knitted fabric is arranged separately from the bottom layer and the surface layer, the bottom layer and the surface layer in the hollow area can be spread by the knitted fabric, the bottom layer and the surface layer are not easy to adhere together, and the air permeability of the fabric body is improved. The application also provides a vamp manufactured by the hollow built-in braided fabric, which has the advantages of good air permeability and good decoration. The application also provides a manufacturing method of the hollow built-in braided fabric, and the bottom layer, the surface layer and the braided fabric are integrally formed through a knitting machine, so that the hollow built-in braided fabric has the advantages of high processing efficiency and convenience in processing.

Drawings

Fig. 1 is a schematic structural view of a hollow built-in braid fabric in the present application.

Fig. 2 is a cross-sectional view at A-A in fig. 1.

Fig. 3 is a schematic structural view of an upper in accordance with the present application.

Fig. 4 is a schematic diagram of a first knitting method according to the present application.

Fig. 5 is a schematic diagram of a second knitting method according to the present application.

Fig. 6 is a schematic diagram of a third knitting method according to the present application.

In the figure:

bonding area 301 of fabric body 300

Hollow area 302 braid 303

Intermediate section 305 of first connecting end 304

Face 307 of hollow region in second connecting end 306

Sole 308 upper body 400 of the hollow area

Face layer 3001 bottom layer 3002

Detailed Description

For further explanation of the technical scheme of the present application, the following is described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 6, the hollow built-in braid fabric includes a fabric body 300, the fabric body 300 including a bottom layer 3002 and a surface layer 3001 woven together, the fabric body 300 including a bonding region 301 and a hollow region 302, the hollow region 302 may be one or more, and in an embodiment, only one is shown. In the bonding area 301, the bottom layer 3002 is connected with the surface layer 3001, the bottom layer 3002 is separated from the surface layer 3001 in the hollow area 302, a braid 303 is arranged in the hollow area 302, the braid 303 is provided with a first connecting end 304, a second connecting end 306 and an intermediate section 305 formed between the first connecting end 304 and the second connecting end 306, the first connecting end 304 and the second connecting end 306 are connected in a braiding manner in the bonding area 301, and the intermediate section 305 is separated from the bottom layer 3002 and the surface layer 3001. Preferably, the cross-sectional area of the hollow region 302 in the direction of extension of the fabric body 300 is larger than the cross-sectional area of the braid 303 in the direction of extension of the fabric body 300.

As an alternative to the present application, the braid 303 is a rope or a belt, and of course, the shape of the braid 303 is not limited to these two types, and may be provided in other shapes.

As an alternative mode of the present application, the braid 303 is a plurality of ropes, the ropes extend in a transverse direction, the plurality of ropes are arranged in a longitudinal direction, and ventilation spaces are formed between adjacent ropes. In the transverse direction of the fabric, the extending direction of the coil is the sleeve channeling direction of the coil in the fabric, and the transverse direction is vertical to the longitudinal direction.

As an alternative to the present application, the bottom layer 3002 has a plurality of meshes through which the braid 303 can be seen at positions corresponding to the hollow region 302.

As another alternative of the present application, the bottom layer 3002 is woven by transparent yarns at a position corresponding to the hollow area 302, in an embodiment, transparent TPU yarns are used, in an embodiment, in the hollow area 302, the bottom layer 3002 and the surface layer 3001 are both woven by a structure with meshes, so that the woven fabric 303 can be better displayed while the air permeability is improved.

As an alternative to the present application, the rope body is formed by interlacing a plurality of yarns, and in the present application, the plurality of yarns may be formed by one yarn being folded back in the transverse direction, or may be formed by a plurality of yarns.

The application also provides an vamp comprising a vamp body 400 matched with a sole, wherein the vamp body 400 is surrounded by a fabric body 300 (specifically, the fabric can be cut or cut into a vamp shape), the fabric body 300 comprises a bottom layer 3002 and a surface layer 3001 which are woven together, the fabric body 300 comprises a bonding area 301 and a hollow area 302, the bottom layer 3002 is connected with the surface layer 3001 in the bonding area 301, the bottom layer 3002 is arranged separately from the surface layer 3001 in the hollow area 302, the woven fabric 303 is arranged in the hollow area 302, the woven fabric 303 is provided with a first connecting end 304, a second connecting end 306 and an intermediate section 305 formed between the first connecting end 304 and the second connecting end 306, the first connecting end 304 and the second connecting end 306 are connected in the bonding area 301 in a woven mode, and the intermediate section 305 is arranged separately from the bottom layer 3002 and the surface layer 3001. In the present application, one or more hollow areas 302 may be provided at various positions of the upper body 400.

The application also provides a manufacturing method of the hollow built-in braided fabric, the hollow built-in braided fabric 303 comprises a fabric body 300, the fabric body 300 comprises a bottom layer 3002 and a surface layer 3001 which are braided together, the fabric body 300 comprises a bonding area 301 and a hollow area 302, the bottom layer 3002 and the surface layer 3001 are connected together in the bonding area 301, the bottom layer 3002 and the surface layer 3001 are arranged in the hollow area 302 in a separated mode, the braided fabric 303 is arranged in the hollow area 302, the braided fabric 303 is provided with a first connecting end 304, a second connecting end 306 and a middle section 305 formed between the first connecting end 304 and the second connecting end 306, the first connecting end 304 and the second connecting end 306 are connected in the bonding area 301 in a braiding mode, the middle section 305 is separately arranged with the bottom layer 3002 and the surface layer 3001, the hollow built-in braided fabric 303 is integrally braided with a knitting machine with a front needle bed and a rear needle bed, and particularly a flat knitting machine can be adopted in the process of braiding the bonding area 301 of the fabric body 300, and the braided fabric is fixed. In the present application, the bonding area 301 is knitted in a conventional manner, for example, the bottom layer 3002 may be knitted by a back needle bed, the surface layer 3001 may be knitted by a front needle bed, the bottom layer 3002 and the surface layer 3001 may be connected together by connecting yarns alternately looping or gathering on the front needle bed and the back needle bed, and the bottom layer 3002 and the surface layer 3001 may be in a dense needle structure or a mesh structure.

The present application, where it meets the hollow zone 302 of the fabric body 300 to be knitted, stitches or tucks the bottom layer 3002 on a portion of the needles of the rear needle bed, stitches or tucks the face layer 3001 on a portion of the needles of the front needle bed, and knits said intermediate section 305 on another portion of the needles of the front needle bed and on another portion of the needles of the rear knitting.

Referring to fig. 4 to 6, the symbol at a represents looping on the back needle bed, the symbol at B represents looping on the front needle bed, the symbol at C represents looping on the back needle bed, the symbol at D represents looping on the front needle bed, the symbol at E represents non-knitting (i.e., floating-up), the symbol at F represents a back needle bed needle transfer (also called turning-over, a normal operation in the knitting field) operation from the front needle bed to the left and back, the symbol at G represents a front needle bed needle transfer operation from the back needle bed to the left and front, H represents a back needle bed stitch-off operation, the symbol at I represents a front needle bed stitch-off operation, the number in the transverse direction (left-right direction in the figure) represents the number of columns of knitting, and the number in the longitudinal direction (up-down direction in the figure) represents the number of rows of knitting.

As an alternative to the present application, the knitted fabric 303 comprises first yarns, in the bonding area 301, yarn nozzles carry the first yarns to move left and right, the first yarns are looped or tucked alternately on the front needle bed and the rear needle bed so as to connect the bottom layer 3002 and the face layer 3001 together, in the hollow area 302, yarn nozzles carry the first yarns to move left and right, the first yarns are looped or tucked on the front needle bed and the rear needle bed to form a main body structure of the knitted fabric 303, and the main body structure is knitted by knitting a reinforcing structure as follows: step A, a yarn nozzle carries a first yarn, a new loop is formed by looping on a knitting needle on a front needle bed, and the loop is transferred to a rear needle bed knitting needle at the left rear side in a loop transferring mode; step B, a yarn nozzle carries a first yarn, a new loop is formed on the back needle bed knitting needle in the step A, and the loop is transferred to the front needle bed knitting needle at the left front in a loop transferring mode; and C, carrying the first yarn by a yarn nozzle, and knitting the first yarn on the back needle bed knitting needle corresponding to the step B in a tucking mode. Specifically, in row 1, a hollow region bottom 308 is formed by needle-separated knitting, and rows 1, 3, 5, 7 and 9 form hollow needle positions; the row 2 is a bottom 308 of a hollow area formed by needle-separated knitting, and the columns 1, 3, 5, 7 and 9 form hollow needle positions; rows 3 and 4 are knitted with a spacer needle to form a face 307 of the hollow area, in embodiments, rows 1 to 4 are all clear TPU yarns; columns 2, 4, 6, 8 and 10 are empty needle positions; the 5 th to 7 th rows are used for knitting the middle section 305 of the knitted fabric 303, and knitting is performed by adopting common yarns, such as terylene high elastic yarns, the yarns are alternatively knitted on the front needle bed and the rear needle bed in a needle separation mode, looping or floating is performed on the 1 st, 3 rd, 5 th, 7 th and 9 th columns of needle positions of the rear needle bed, and looping or floating is performed on the 2 th, 4 th, 6 th, 8 th and 10 th columns of the front needle bed; the 8 th to 28 th actions are reinforced by looping the 10 th row of needle position of the front needle bed, transferring the loop to the 9 th row of needle position of the back needle bed, looping the 9 th row of needle position of the back needle bed, transferring the loop to the 8 th row of needle position of the front needle bed, looping the 8 th row of needle position of the front needle bed, transferring the loop to the 7 th row of needle position of the back needle bed, and sequentially adopting the knitting and loop transferring actions of a knitting schematic diagram to the 27 th row and the 28 th row, and looping the loop on the 1 st row of needle position of the back needle bed to realize ending knitting of the rope body. Row 29 to 30 act as a continuation of the knitting of the bottom 308 of the hollow area and the face 307 of the hollow area.

As an alternative to the present application, the intermediate section 305 contains thermoplastic yarns of thermoplastic material, and after the fabric body 300 is knitted, the thermoplastic yarns are melted partially or completely by providing heat energy (for example, may be ironing) and cooled, so as to bond the knitted fabric 303 into a whole. Referring to fig. 5, rows 1 through 4 represent the knitting of the bottom 308 of the hollow region and the face 307 of the hollow region, i.e., the region at 101; rows 5 to 10 represent the braiding of the rope, i.e. the region where 102 is located, where the thermoplastic yarns are used for braiding; region 103 represents the loopers of the thermoplastic yarns on the front and back needle beds, i.e., rows 11 and 12; region 104 represents the continued knitting of the bottom 308 of the hollow region and the face 307 of the hollow region, i.e., rows 13 through 16. After the fabric body 300 is woven, the thermoplastic yarn is partially melted and cooled to harden by heating or ironing, so that the main body portion of the rope is bonded into one body.

Referring to fig. 6, in this embodiment, rows 1 through 4 represent the braiding of the bottom 308 of the hollow region and the face 307 of the hollow region, i.e., the region at 201; rows 5 to 10 represent the braiding of the rope, wherein rows 5 to 8 represent the part of the rope body braided with non-thermoplastic material yarns, i.e. the area where 202 is located, and rows 9 to 10 represent the part of the rope body braided with thermoplastic material yarns, i.e. the area where 203 is located; region 204 represents the loopers of the thermoplastic yarns on the front and back needle beds, i.e., rows 11 and 12; region 104 represents the continued knitting of the bottom 308 of the hollow region and the face 307 of the hollow region, i.e., rows 13 through 16. After the fabric body 300 is woven, the thermoplastic yarn is partially melted and cooled to harden by heating or ironing, so that the main body portion of the rope is bonded into one body.

The thermoplastic yarn of the present application may be a thermal fuse, monofilament or TPU yarn, and the non-thermoplastic yarn may be a polyester high stretch yarn or the like.

The form of the present application is not limited to the illustrations and examples, and any person who performs a similar idea of the present application should be regarded as not departing from the scope of the patent of the application.

Claims

1. The utility model provides a cavity embeds knitting surface fabric, includes the surface fabric body, and the surface fabric body is including weaving bottom and the surface course together, and the surface fabric body includes bonding zone and cavity district, in the bonding zone, bottom and surface course link together, and bottom and surface course separation set up its characterized in that in the hollow district: the hollow area is internally provided with a braided fabric, the braided fabric is provided with a first connecting end, a second connecting end and an intermediate section formed between the first connecting end and the second connecting end, the first connecting end and the second connecting end are connected in the bonding area in a braiding mode, and the intermediate section is separated from the bottom layer and the surface layer.

2. The hollow interior braid fabric of claim 1, wherein: the braided fabric is a rope body or a belt body.

3. The hollow, internally woven fabric according to claim 2, wherein: the braided fabric is a plurality of rope bodies, the rope bodies extend transversely, the rope bodies are longitudinally distributed, and ventilation spaces are formed between adjacent rope bodies.

4. A hollow innerbraid fabric as claimed in claim 3, wherein: the bottom layer is provided with a plurality of meshes corresponding to the position of the hollow area.

5. A hollow innerbraid fabric as claimed in claim 3, wherein: the bottom layer is woven by transparent yarns at the position corresponding to the hollow area.

6. A hollow innerbraid fabric as claimed in claim 3, wherein: the rope body is formed by interweaving a plurality of sections of yarns.

7. The utility model provides an vamp, includes with sole complex vamp body, the vamp body is enclosed by the surface fabric body, and the surface fabric body is including weaving bottom and the surface course together, and the surface fabric body includes bonding area and hollow zone, in the bonding area, the bottom links together with the surface course, and bottom and surface course separation set up in the hollow zone, its characterized in that: the hollow area is internally provided with a braided fabric, the braided fabric is provided with a first connecting end, a second connecting end and an intermediate section formed between the first connecting end and the second connecting end, the first connecting end and the second connecting end are connected in the bonding area in a braiding mode, and the intermediate section is separated from the bottom layer and the surface layer.

8. The manufacturing method of the hollow built-in braided fabric comprises a fabric body, wherein the fabric body comprises a bottom layer and a surface layer which are braided together, the fabric body comprises a bonding area and a hollow area, the bottom layer is connected with the surface layer in the bonding area, and the bottom layer and the surface layer are separated in the hollow area, and the manufacturing method is characterized in that: the hollow area is internally provided with a braided fabric, the braided fabric is provided with a first connecting end, a second connecting end and a middle section formed between the first connecting end and the second connecting end, the first connecting end and the second connecting end are connected in the joint area in a braiding mode, the middle section is separated from the bottom layer and the surface layer, the hollow built-in braided fabric is integrally braided by adopting a braiding machine with a front needle bed and a rear needle bed, the first connecting end and the second connecting end are braided into the joint area in the process of braiding the joint area of the fabric body, the middle section is braided by looping or gathering a ring on a part of knitting needles of the front needle bed, the middle section is braided by looping or gathering a ring on a part of knitting needles of the rear needle bed and braiding on another part of knitting needles of the front needle bed and another part of knitting needles of the rear knitting.

9. The method for manufacturing the hollow built-in braided fabric according to claim 8, wherein: the knitted fabric comprises first yarns, wherein in the bonding area, yarn nozzles carry the first yarns to move left and right, the first yarns are alternately looped or gathered on a front needle bed and a rear needle bed so as to connect the bottom layer and the surface layer together, in the hollow area, the yarn nozzles carry the first yarns to move left and right, the first yarns are looped or gathered on the front needle bed and the rear needle bed to form a main body structure of the knitted fabric, and the main body structure is knitted by adopting the following mode: step A, a yarn nozzle carries a first yarn, a new loop is formed by looping on a knitting needle on a front needle bed, and the loop is transferred to a rear needle bed knitting needle at the left rear side in a loop transferring mode; step B, a yarn nozzle carries a first yarn, a new loop is formed on the back needle bed knitting needle in the step A, and the loop is transferred to the front needle bed knitting needle at the left front in a loop transferring mode; and C, carrying the first yarn by a yarn nozzle, and knitting the first yarn on the back needle bed knitting needle corresponding to the step B in a tucking mode.

10. The method for manufacturing the hollow built-in braided fabric according to claim 8, wherein: the thermoplastic yarns containing thermoplastic materials in the middle section are partially or completely melted and cooled by providing heat energy after the fabric body is knitted, and the knitted fabric is bonded into a whole.