CN210458520U

CN210458520U - Fabric with interlayer tubular structure

Info

Publication number: CN210458520U
Application number: CN201920697105.5U
Authority: CN
Inventors: 蔡灿荣; 蔡少阳; 董荣华
Original assignee: Fujian Rongrong New Material Co ltd
Current assignee: Fujian Rongrong New Material Co ltd
Priority date: 2019-05-16
Filing date: 2019-05-16
Publication date: 2020-05-05
Anticipated expiration: 2029-05-16

Abstract

The utility model discloses a surface fabric with section and intermediate layer element section of thick bamboo structure are woven including first section and the section is woven to the section of weaving of intermediate layer element section of thick bamboo, the section is woven and is connected between two liang of first sections of weaving to the section is woven to the section is organized to the intermediate layer element section of weaving including the preceding weaving layer that separates and back weaving layer and the intermediate layer weaving layer that separates with preceding weaving layer and back weaving layer, the relative both sides limit of preceding weaving layer, back weaving layer and intermediate layer weaving layer is woven respectively and is connected at two liang of first sections of weaving, and this flies to weave the surface fabric and is a novel surface fabric product structure, and its appearance form is pleasing to the eye, has the design and feels, and the formation of intermediate layer weaving.

Description

Fabric with interlayer tubular structure

Technical Field

The utility model relates to a fly and weave the structure field of surface fabric, especially relate to the fly and weave surface fabric that has a first structure.

Background

The fly-knitted fabric is a fabric which is integrally knitted and formed, and has a wide application range, such as shoes, clothes, household and office articles, automobile articles and the like, taking a vamp as an example, the vamp made of the fly-knitted fabric is one of the vamp materials with higher production and manufacturing utilization rate of the existing shoes, different lines and pattern effects can be realized through knitting, the manufacture of the vamp of the shoes can be facilitated by integrally knitted and formed, such as saving production steps, reducing manufacturing difficulty and the like, the effect of the fly-knitted fabric can be achieved at present, common fabrics can be knitted through a shuttle machine, a hosiery machine (circular knitting machine) and the like, different knitting machines have different knitting principles and different knitting methods and have different characteristics, so the fabric knitted by the different knitting machines is also different, and the fly-knitted vamp is knitted and formed through a transverse knitted fly-knitting machine (also called a flat knitting machine), the knitted product is of a one-piece structure. In addition, the tubular structure is a simple fabric structure which forms a separated and double layer during weaving in the fly-weaving fabric, and most of the prior tubular structures are structures which are locally arranged on the fabric and achieve the penetrating effect.

At present, in addition to the research and development of the fly-woven fabric based on the application function of the fabric and the difference of the application products, the technical personnel in the field also need to design and research and develop the weaving method on the aspects of new product structure, appearance and shape effect and the like, so that more fabric products can be selected by the vast customer groups, and therefore the development of the structure and the weaving method of the fly-woven fabric is continuously researched.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a surface fabric with an intermediate layer element section of thick bamboo structure, this fly to weave surface fabric be a novel surface fabric product structure, and its outward appearance form is pleasing to the eye, has the design and feels.

In order to achieve the above purpose, the technical scheme of the utility model is that: the utility model provides a surface fabric with intermediate layer element section of thick bamboo structure, its characterized in that includes that first weaving section and intermediate layer element section of thick bamboo weave the section, the section is woven and is connected between two liang of first weaving sections to the intermediate layer element section of thick bamboo, the section is woven to the intermediate layer element section of thick bamboo is including the preceding weaving layer and the back weaving layer that separate and the intermediate layer weaving layer that separates with preceding weaving layer and back weaving layer, the relative both sides limit of preceding weaving layer, back weaving layer and intermediate layer weaving layer is woven respectively and is connected two liang of first weaving sections.

The front woven layer and/or the rear woven layer are/is a transparent wire woven layer.

The interlayer weaving layer is formed by one or more lines penetrating between the front weaving layer and the rear weaving layer, two adjacent first weaving sections are respectively provided with a first positioning point and a second positioning point, and the lines are hooked on the first positioning point and the second positioning point in a staggered mode to form an interlayer.

The lines are alternatively hooked at the adjacent first positioning points and the second positioning points, and the lines form a plurality of V-shaped connected structures.

The lines are two, the V-shaped corresponding opposite directions of the two lines respectively form a plurality of structures connected by the V-shaped, and the two lines form a plurality of structures connected by the X-shaped.

The lines are composed of one or more strands of wires and/or the lines are composed of multiple colored wires.

The first weaving section comprises a front surface layer and a rear surface layer, the front surface layer corresponds to one side of the front weaving layer, the rear surface layer corresponds to one side of the rear weaving layer, and a hollow needle hole is formed in the position of a second positioning point, corresponding to the line hook, of the other first weaving section.

By adopting the technical scheme, the beneficial effects of the utility model are that: the flying-weaving fabric structure is a novel fabric product structure, an interlayer weaving layer of the flying-weaving fabric structure is at least a three-layer structure, the structure is difficult to realize in the weaving method of the prior computerized flat knitting machine, the structure can enhance the strength and the thickness of the fabric, and the selection design is further made on weaving line materials, color matching, materials and weaving colors, so that the structure appearance of the flying-weaving fabric is beautiful and has more design feeling, the layer has transparent effect by the structural arrangement that the front weaving layer and/or the rear weaving layer are transparent weaving layers, the interlayer weaving layer can be seen through to form the flying-weaving fabric with novel style, the structural arrangement of lines in the further interlayer weaving layer forms the appearance effect which is different from the weaving effect, and the formed lines are obvious, independent and zigzag, the effect is more suitable for showing appearance effect in a perspective way.

The structure of the flying-knitted fabric can not be realized in the flying-knitting method of the existing known computerized flat knitting machine, is a novel computerized flat knitting machine knitting method capable of realizing a three-layer structure, and can realize that the computerized flat knitting machine knits the fabric to have the three-layer structure, the utility model discloses a fabric application range is wide, such as shoes and clothes (vamps, clothes, etc.), household articles (sofa covers, curtains, etc.), office articles (office chair covers, etc.), automobile articles (automobile seat covers, etc.) and the like.

Drawings

Fig. 1 and fig. 2 are schematic diagrams of two different structures of a fabric with a sandwich tubular structure according to the present invention;

fig. 3 is a schematic sectional view of a fabric with a sandwich tubular structure according to the present invention.

In the figure:

a first weaving section 1; a first anchor point 11; a second anchor point 12;

a front layer 13; a back side layer 14; an empty pinhole 15;

interlayer tubular weaving section 2; a front braid 21; a rear knit layer 22;

an interlayer braid 23; line 231.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

The utility model discloses a fabric with interlayer tubular structure, the structure of which is shown in figure 1, figure 2 and figure 3, comprising a first weaving section 1 and an interlayer tubular weaving section 2, the interlayer tubular weaving section 2 is connected between two pairs of first weaving sections 1 in a weaving way, the interlayer tubular weaving section 2 comprises a front weaving layer 21 and a rear weaving layer 22 which are separated and an interlayer weaving layer 23 which is separated from the front weaving layer 21 and the rear weaving layer 22, the opposite two side edges of the front weaving layer 21, the rear weaving layer 22 and the interlayer weaving layer 23 are respectively connected on two pairs of first weaving sections 1 in a weaving way, namely, the fabric is integrally formed in a weaving way and can be integrally formed by a knitting machine, for example, the utility model discloses a flying weaving method of the knitting machine of a computerized flat knitting machine, the structure of the utility model is a fabric structure which is difficult to weave to form a three-layer structure, therefore, the fabric structure of the utility model is a fabric structure which has no effect in the market, this fabric construction is through weaving the line material, match colors, the material, weave the design of choosing on the design, can make the structure outward appearance form that flies to weave the surface fabric pleasing to the eye, more have the sense of design, really as with in the novel further will preceding weaving layer 21 and/or back weaving layer 22 set up to the transparent line weaving layer, adopt the transparent line to weave promptly, for example adopt the fish tape to weave, the fish tape is a thinner, and a transparent soft line, it weaves the surface fabric effect that comes out has better printing opacity, transparent effect, can make intermediate layer weaving layer 23 reach visible effect through adopting the transparent line, so also make except can strengthening surface fabric intensity and thickness, still have the effect that promotes surface fabric outward appearance effect, it is significant to increase the structure.

For example, in order to embody the appearance effect of the fabric, the appearance effect of the interlayer weaving layer 23 is provided with perspective, and the structure formed by the interlayer weaving layer 23 is also a key point of the fabric design, as disclosed in the present invention, as shown in the figure, the interlayer weaving layer 23 is a structure in which one or more lines 231 are inserted between the front weaving layer 21 and the rear weaving layer 22, the first positioning point 11 and the second positioning point 12 are respectively arranged on the two adjacent first weaving sections 1, the interlaced position of the lines 231 is hooked on the first positioning point 11 and the second positioning point 12 to form the interlayer structure, the lines 231 can be molded into various patterns under the limited molding effect of the first positioning point 11 and the second positioning point 12, such as one vertical line, one inclined line or various linear combinations, etc., different pattern effects can be achieved, and the appearance effect is also formed because the lines 231 are viewed through, therefore, the lines 231 can also be designed, for example, the lines 231 are composed of one or more strands (with thickness), or material lines with certain hardness (capable of achieving the effect of arc-shaped wave-breaking lines), or colorful lines (colorful appearance effect), and so on.

As shown in fig. 1, the lines 231 are alternatively hooked at the adjacent first positioning points 11 and the second positioning points 12, and the lines 231 form a plurality of V-shaped connected structures.

As shown in fig. 2, a line 231 is added on the basis of fig. 1, two lines 231 respectively form a plurality of V-shaped connected structures, the V-shapes of the two lines are arranged in opposite directions, the two lines 231 form a plurality of X-shaped connected structures, and the appearance effect of the line is different from that of fig. 1. Therefore, the design of the fabric appearance effect of the present invention can also be selected for use through the above-mentioned lines 231, the moulding effect of the lines 231, weave the design and the like separately or cooperatively to achieve more embodiments, for example, different shapes of the moulding lines 231 can be achieved by changing the position relationship between the first positioning point 11 and the second positioning point 12.

In this embodiment, the first knitting section 1 includes a front layer 13 corresponding to the front knitting layer 21 and a rear layer 14 corresponding to the rear knitting layer 22, the rear layer 14 is formed with a hollow needle hole 15 at a position corresponding to the second positioning point 12 where the line 231 hooks another first knitting section 1, the structure is formed by knitting a computerized flat knitting machine, and is a structure required to be formed by knitting the second positioning point 12, the hollow needle hole 15 is formed on the fabric, and if the structure is required to be used as an appearance effect, the structure can be correspondingly formed on a side surface showing the appearance.

Because the structure of above-mentioned flyly-woven surface fabric is a new three layer construction, can't realize in the flyway method of weaving of the computerized flat knitting machine of present known, consequently the utility model discloses a flyway method of this flyway surface fabric is a new computerized flat knitting machine weaving method that can realize three layer construction, the flyway method step is as follows:

a. knitting by adopting a computerized flat knitting machine with a front needle bed and a back needle bed; designing a knitting program of the fly-knitted fabric through the software of the computerized flat knitting machine, and exporting the knitting program; importing a knitting program into a computerized flat knitting machine, and making preparation work before knitting according to the design requirement of the flying-knitted fabric, wherein the preparation work comprises setting various mechanical parameters, threading selected threads on yarn mouths with required serial numbers respectively (for example, the thread 132 adopts a fish thread and is threaded on the yarn mouths with corresponding serial numbers), and the like, and starting the computerized flat knitting machine to start knitting according to the knitting program after the preparation work is finished;

b. the front needle bed and the back needle bed start to weave from a first weaving section at one side of the interlayer element cylinder weaving section; when the last row of the first knitting section of the side is knitted, the line on the corresponding knitting needle of the back needle bed is turned over to the corresponding knitting needle of the front needle bed when the corresponding second positioning point is knitted, at the moment, the knitting needle of the back needle bed corresponding to the second positioning point is an empty needle, and thus the last row of the first knitting section of the side is knitted; or after the last row of the first knitting section on the side is knitted, the line on the knitting needle of the back needle bed corresponding to the second positioning point is turned over to the corresponding knitting needle of the front needle bed;

c. after the step b is finished, the line is led in from one end, the corresponding knitting needle of the front needle bed stretches out to hook the line when corresponding to the first positioning point, the corresponding knitting needle of the back needle bed stretches out to hook the line when corresponding to the second positioning point, and the line is led to the other end; in the step, a knitting needle of the back needle bed is an empty needle of the back needle bed in the step b, so that the needle turning action in the step b is an action reserved for line hooking of the second positioning point;

d. after step c is completed, the front needle bed starts to weave a front weaving layer of the interlayer weaving layer, and the back needle bed stops weaving;

e. when the last row of the front knitting layer in the step d is knitted, the corresponding line on the knitting needle of the back needle bed is turned over to the corresponding knitting needle of the front needle bed when the corresponding second positioning point is knitted; or, after the last row of the front knitted layer in the step d is knitted, the thread on the knitting needle of the back needle bed corresponding to the second positioning point is turned over to the knitting needle of the corresponding front needle bed, wherein the needle turning is to make the knitting needle of the back needle bed corresponding to the second positioning point free for the knitting in the step f;

f. after step e is completed, the back needle bed starts to weave a back weaving layer of the interlayer weaving layer, and the front needle bed pauses weaving;

g. and f, knitting the first knitting section on the other side of the interlayer element cylinder knitting section by the front needle bed and the back needle bed until the step f is finished.

The utility model discloses a fly to knit the method and compare current can realize that the method of knitting of at least three-layer is simpler, more is favorable to the formation of above-mentioned intermediate layer weaving layer structure, weaves in order, and maneuverability is strong, can operate out the surface fabric design of multiple difference.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be construed as departing from the scope of the present invention.

Claims

1. The utility model provides a surface fabric with intermediate layer element section of thick bamboo structure, its characterized in that includes that first weaving section and intermediate layer element section of thick bamboo weave the section, the section is woven and is connected between two liang of first weaving sections to the intermediate layer element section of thick bamboo, the section is woven to the intermediate layer element section of thick bamboo is including the preceding weaving layer and the back weaving layer that separate and the intermediate layer weaving layer that separates with preceding weaving layer and back weaving layer, the relative both sides limit of preceding weaving layer, back weaving layer and intermediate layer weaving layer is woven respectively and is connected two liang of first weaving sections.

2. The fabric with a sandwich tubular structure as claimed in claim 1, wherein: the front woven layer and/or the rear woven layer are/is a transparent wire woven layer.

3. A fabric having a sandwich tubular structure as claimed in claim 1 or 2, wherein: the interlayer weaving layer is formed by one or more lines penetrating between the front weaving layer and the rear weaving layer, two adjacent first weaving sections are respectively provided with a first positioning point and a second positioning point, and the lines are hooked on the first positioning point and the second positioning point in a staggered mode to form an interlayer.

4. A fabric having a sandwich tubular structure as claimed in claim 3, wherein: the lines are alternatively hooked at the adjacent first positioning points and the second positioning points, and the lines form a plurality of V-shaped connected structures.

5. The fabric with a sandwich tubular structure as claimed in claim 4, wherein: the lines are two, the V-shaped corresponding opposite directions of the two lines respectively form a plurality of structures connected by the V-shaped, and the two lines form a plurality of structures connected by the X-shaped.

6. A fabric having a sandwich tubular structure as claimed in claim 3, wherein: the first weaving section comprises a front surface layer and a rear surface layer, the front surface layer corresponds to one side of the front weaving layer, the rear surface layer corresponds to one side of the rear weaving layer, and a hollow needle hole is formed in the position of a second positioning point, corresponding to the line hook, of the other first weaving section.

7. A fabric having a sandwich tubular structure as claimed in claim 3, wherein: the lines are composed of one or more strands of wires and/or the lines are composed of multiple colored wires.