CN218521389U - Composite woven tape - Google Patents

Abstract

The utility model provides a compound meshbelt, includes the meshbelt main part, the meshbelt main part includes the bottom meshbelt body and the surface course meshbelt body, and the surface course meshbelt body is woven and is formed with tubulose portion and the non-tubulose portion that extends along meshbelt main part length direction on the bottom meshbelt body, has the passageway in the tubulose portion, and the interlude has the area of drawing rope in this passageway, and the inside of non-tubulose portion is solid construction, and the area that lies in tubulose portion on the surface course meshbelt body or the bottom meshbelt body is equipped with two at least holes, and the bottom meshbelt body is woven through the chaining organizational structure with the surface course meshbelt body and is connected. The utility model discloses have higher operability, weave efficiently, conveniently carry out abundant outward appearance form's change, can improve production efficiency.

Description

Composite woven tape

Technical Field

The utility model relates to a meshbelt, specifically speaking are compound meshbelt of mainly using on all kinds of dresses.

Background

At present, the elastic rope-drawing belt is widely used in the field of clothes, particularly sports clothes, and mainly has the function of adjusting the tightness of the waistband. The traditional production mode is that cloth is turned into a channel structure, and an elastic rope drawing belt is threaded after date beating, and the structure is an integral structure of wrapping cloth, so that the terminal product has the effect of wrapping cloth, the appearance diversity is relatively limited, and more diversified product designs cannot be designed and shown; the production is carried out by the structure of the wrapping cloth, the production efficiency is low and the cost is high.

The existing mesh belt structure of the type is usually a piece of integral cloth, a channel is woven in the fabric, and then the rope drawing belt is threaded.

CN212088350U discloses a drawstring area, including taking the body, take the body to be the banding and have flexible elasticity, its characterized in that, takes the body to include upper belt body and the lower floor that is located upper belt body below takes the body to have the cavity between upper belt body and the lower floor and takes the body, the cavity runs through taking the body in the length direction of body, and upper belt body has two intercommunications the through-hole of cavity, two through-holes are respectively in the different positions of upper belt body length direction, and the string is followed pass in the cavity, and the both ends of string are stretched out from the both ends of cavity respectively, and the string is followed the through-hole stretches out outside the cavity. The disclosed webbing structure is a conventional typical structure, and although the webbing structure is also a two-layer structure, the webbing structure is low in operability and difficult to be provided in a diversified manner.

Disclosure of Invention

The invention aims to provide a composite woven belt.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a compound meshbelt, includes the meshbelt main part, the meshbelt main part includes the bottom meshbelt body and the surface course meshbelt body, and the surface course meshbelt body is woven and is formed with tubulose portion and the non-tubulose portion that extends along meshbelt main part length direction on the bottom meshbelt body, has the passageway in the tubulose portion, and the interlude has the drawstring area in this passageway, and the inside of non-tubulose portion is solid construction, and the region that lies in tubulose portion on the surface course meshbelt body or the bottom meshbelt body is equipped with two at least holes, and the bottom meshbelt body and the surface course meshbelt body weave the connection through the chaining organizational structure.

As a further improvement, the bottom layer woven belt body and the surface layer woven belt body are both single woven belts, or are formed by jointing and weaving more than two woven belt single bodies.

As a further improvement, the single braid forming the bottom braid body and the single braid forming the surface braid body have the same structure or different structures.

As a further improvement, the single ribbon is of a woven structure or a knitted structure.

As a further improvement, the width of the surface layer braid body is the same as or different from that of the bottom layer braid body.

As a further improvement, when the width of the surface layer band body is different from the width of the bottom layer band body, the tubular part is located in an upper region, a middle region or a lower region of the webbing main body in the width direction.

As a further improvement, the non-tubular part is of a plane structure, or is of a jacquard structure, a mesh structure or is printed with a LOGO pattern.

As a further improvement, the width of the braid main body is the larger one of the bottom layer braid body and the surface layer braid body, and the widths of the bottom layer braid body and the surface layer braid body are both more than or equal to 10mm.

As a further improvement, the warp and weft of the braid monomer are made of terylene, chinlon, cotton or acrylic fibers, the braid monomer is also provided with high-elastic or low-elastic yarns, and the high-elastic or low-elastic yarns are selected from wrap yarns or bare spandex.

As a further improvement, the main body of the mesh belt is a non-elastic mesh belt or an elastic mesh belt.

Compared with the prior art, the utility model, following beneficial effect has:

weave through at least two meshbelt monomers and constitute the meshbelt main part, form the passageway, can promote the operability, improve production efficiency, save manufacturing cost.

The knitting machine is convenient to weave to form various shapes so as to meet different appearance changes and conveniently carry out diversified design.

Drawings

FIG. 1 is an exploded view of the present invention;

FIG. 2 is a schematic sectional view of the present invention;

fig. 3 is a schematic structural diagram of an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a second embodiment of the present invention;

FIG. 5 is a schematic diagram of a third embodiment of the present invention;

fig. 6 is another representation structure diagram of a third embodiment of the present invention;

fig. 7 is a schematic structural diagram of a fifth embodiment of the present invention;

fig. 8 is another schematic surface structure diagram according to a fifth embodiment of the present invention;

fig. 9 is a schematic view of the application of the present invention.

Reference numerals:

1-bottom layer webbing body; 2-surface layer braid body; 3-a through hole; 4-a rope drawing belt; 5-hole; 6. 7-weft; 8-a tubular portion; 9-non-tubular portion.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it should be understood that if the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. are referred to, they refer to the orientation or positional relationship shown in the drawings, and are used for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example one

Referring to branch of academic or vocational study 1-3 shown, a compound meshbelt, including the meshbelt main part, the meshbelt main part includes the bottom braid body 1 and the surface course braid body 2, the surface course braid body 2 is woven and is formed with tubular portion 8 and non-tubular portion 9 that extend along braid body length direction on the bottom braid body 1, passageway 3 has in the tubular portion 8, this passageway 3 interpolation has the area of drawstring 4, the inside of non-tubular portion 9 is solid structure, the region that lies in tubular portion 8 on the bottom braid body 1 is equipped with two holes 5, the bottom braid body 1 and the surface course braid body 2 are woven in order to knit chain organizational structure 4 through the crochet machine and are connected. Through set up two holes 5 on the bottom braid body 1, for convenient the elasticity lacing tape of wearing during later stage ready-made clothe production, the interlude of carrying out the lacing tape that can relax more.

The bottom layer braid body 1 and the surface layer braid body 2 are both a braid monomer, the braid monomer forming the bottom layer braid body is of a woven structure, the braid monomer forming the surface layer braid body is also of a woven structure, and the bottom layer braid body 1 and the surface layer braid body 2 are woven by the same weave structure.

In this embodiment, the width of the face-side webbing body 2 is less than the width of the bottom-side webbing body 1, and the width of the main webbing body is equal to the width of the bottom-side webbing body 1, and the width of the tubular portion is equal to the width of the face-side webbing body. In addition, in the structural form in which the tubular portion, i.e., the portion where the passage is provided, is provided in the middle region of the webbing main body, non-tubular portions, which are planar structures, are formed in both the upper portion and the lower portion of the bottom webbing body 1.

During specific weaving, a drawstring belt 3 is placed on the surface of a bottom layer fabric belt body, then a surface layer fabric belt body is placed on the drawstring belt 3, and then a crochet machine is used for weaving and connecting the top ends of two sides of the surface layer fabric belt body 2 and the bottom layer fabric belt body 1 together through a chaining organizational structure 4, so that a channel is formed, and a drawstring belt is integrally woven in the channel.

In the first embodiment, the width of the main webbing body is equal to the width of the bottom webbing body 1, the width of the channel is equal to the width of the surface webbing body 2, the width of the bottom webbing body 1 can be set to 20 mm, and the width of the surface webbing body 2 can be set to 13 mm.

Example two

Referring to fig. 1, 2, 4, a compound meshbelt, including the meshbelt main part, the meshbelt main part includes the bottom layer meshbelt body 1 and the surface course meshbelt body 2, and the surface course meshbelt body 2 is woven and is formed with tubular portion and non-tubular portion that extend along meshbelt main part length direction on the bottom layer meshbelt body 1, has the passageway in the tubular portion, and it has the rope drawing area to alternate in this passageway, and the major structure of this embodiment is the same with embodiment one, and the difference lies in: the surface layer woven belt body and the bottom layer woven belt body are different in structure, and the width of the surface layer woven belt body is the same as that of the bottom layer woven belt body.

Specifically, the surface layer braid body 2 is woven by adopting a woven structure, and the bottom layer braid body 1 is woven by adopting a knitted structure. Because the width of surface layer meshbelt body 2 is the same with bottom layer meshbelt body 1, consequently, the both sides of surface layer meshbelt body 2 width direction are connected with bottom layer meshbelt body 1 to can form non-tubular portion, and this kind of structure, the most area of meshbelt main part are tubular portion, and non-tubular portion can not obviously appear this moment, is fit for some pursuits the dress that the outward appearance is comparatively succinct.

At this time, the width of the webbing body is the width of the face-layer webbing body 2 and the bottom-layer webbing body 1, and the width of the passage may be set to be equal to or smaller than the width of the face-layer webbing body 2. When the width of the channel is equal to the width of the surface layer braid body, the side edge of the surface layer braid body and the side edge of the bottom layer braid body can be sewn and woven by adopting yarns to form a connecting structure when the connecting structure is woven. Of course, for the implementation of knitting, there will be a certain error of about one millimeter for the width of the channel and the width of the surface layer webbing body, and this error can be ignored. The width of both the bottom and face webbing bodies may be set to 14 mm.

The surface fabric body is a two-layer fabric structure formed by two braid single bodies which are jointed and woven, and the bottom fabric body is a braid single body which is a one-layer fabric structure.

EXAMPLE III

Referring to fig. 1 and 2, a composite woven belt comprises a woven belt main body, wherein the woven belt main body comprises a bottom woven belt body 1 and a surface woven belt body 2, the surface woven belt body 2 is woven on the bottom woven belt body 1 to form a tubular part and a non-tubular part which extend along the length direction of the woven belt main body, a channel is arranged in the tubular part, a rope drawing belt is inserted in the channel, and the main structure of the embodiment is basically the same as that of the first embodiment, and the difference is that: the forming positions of the tubular parts are different; the weave structures of the surface layer braid body and the bottom layer braid body are different; the widths of the surface layer braid body and the bottom layer braid body are different; a tubular portion and a non-tubular portion are formed.

Specifically, the width of the surface layer braid body 2 is smaller than that of the bottom layer braid body 1, and in this structure, the width of the braid body is the width of the bottom layer braid body 1, and the width of the surface layer braid body 2 is set as the width of the channel. The surface layer braid body and the bottom layer braid body are both formed by two braid monomers.

In addition, the surface layer braid body is woven by adopting a knitting structure, and the bottom layer braid body is woven by adopting a tatting structure and is respectively formed by weaving different weave structures.

Referring to fig. 5, the surface fabric body 2 is woven and connected to the upper part of the bottom fabric body 1, that is, the upper side of the surface fabric body 2 is connected to the upper side of the bottom fabric body 1, and the lower side of the surface fabric body is still located above the middle of the bottom fabric body, that is, the width of the surface fabric body is less than or approximately equal to half of the width of the bottom fabric body 1. With this construction, the tubular portion is formed in the upper middle portion of the bottom fabric body 1, while the non-tubular portion is located in the lower middle portion of the bottom fabric body.

Alternatively, as shown in fig. 6, the surface layer webbing body 2 is connected to the lower portion of the bottom layer webbing body 1 by weaving, i.e. the lower side of the surface layer webbing body 2 is connected to the lower side of the bottom layer webbing body 1, and the upper side of the surface layer webbing body is still located at a position below the middle of the bottom layer webbing body, i.e. the width of the surface layer webbing body is less than or approximately equal to half of the width of the bottom layer webbing body 1. With this construction, the tubular portion is formed in the lower middle portion of the bottom fabric body 1, while the non-tubular portion is located in the upper middle portion of the bottom fabric body.

In this structure, the width of the bottom layer braid body can be set to 30 mm and the width of the face layer braid body can be set to 14 mm at the time of actual knitting.

Example four

Referring to fig. 1 and 2, a composite woven belt comprises a woven belt main body, wherein the woven belt main body comprises a bottom woven belt body 1 and a surface woven belt body 2, the surface woven belt body 2 is woven on the bottom woven belt body 1 to form a tubular part and a non-tubular part which extend along the length direction of the woven belt main body, a channel is arranged in the tubular part, a rope drawing belt is inserted in the channel, and the difference between the first embodiment and the second embodiment is that: the bottom layer braid body and the surface layer braid body are different in organizational structure, the tubular part is different in arrangement position, and the non-tubular part is different in arrangement. The tubular part is arranged at the lower part of the braid main body, and the non-tubular part is formed at the upper part of the braid main body.

Specifically, referring to fig. 7, the width of the top fabric body 2 is smaller than that of the bottom fabric body 1, and both the top fabric body 2 and the bottom fabric body 1 are woven by using a knitting structure. The surface layer webbing body 1 is arranged at the lower part of the bottom layer webbing body, so that the lower part of the bottom layer webbing body is formed into a tubular part, the upper part of the bottom layer webbing body 1 is formed into a non-tubular part, the width of an internal channel of the tubular part is the width of the surface layer webbing body, and the width of the webbing body is the width of the bottom layer webbing body. The jacquard structure is woven in the non-tubular part, so that the appearance of the woven belt has more variability. Referring to fig. 8, the non-tubular portions are provided in a LOGO pattern. That is, in the non-tubular part, can carry out nimble weaving setting as required, can also be for other mesh structures, the structure of polychrome combination, can bring the diversified scheme in the design, satisfy different demands.

The width of the bottom layer webbing body is 25 mm, and the width of the surface layer webbing body is 14 mm.

In addition, the warp and weft of the braid monomer are made of terylene, chinlon, cotton or acrylic fibers, the braid monomer is also provided with high-elastic or low-elastic yarns, and the high-elastic or low-elastic yarns are selected from wrapping yarns or bare spandex. The main body of the mesh belt is an elastic mesh belt or an elastic mesh belt.

In addition, the holes can be arranged on the bottom layer braid body or the surface layer braid body. When the drawstring is arranged on the surface layer braid body, the drawstring is inserted from the outside; when the holes are arranged on the bottom braid body, the inner part of the drawstring band is inserted. The holes may be integrally woven or may be subsequently perforated. The following describes the embodiment of the open hole with the hole integrally woven in the knitted structure as an example:

as shown in FIG. 3, the weft threads 6 and 7 are in plane contact with each other by traversing N-needles, and the weft threads 6 are repeatedly circulated many times by traversing 1 needle less at the opening provided, thereby forming one small opening 5. The length of the opening of the holes and the distance between the two holes can be set as desired, the longer the cycle, the longer the length.

In addition, for the connecting surface of the surface layer braid body and the bottom layer braid body, the front surface of the surface layer braid body can be connected with the front surface of the bottom layer braid body, or the front surface of the surface layer braid body is connected with the front surface of the bottom layer braid body, or the back surface of the surface layer braid body is connected with the back surface of the bottom layer braid body, or the back surface of the surface layer braid body is connected with the front surface of the bottom layer braid body.

Referring to fig. 9, in an embodiment of the present invention in which the composite webbing is applied to trousers, the surface webbing is disposed in the middle region of the bottom webbing, that is, a tubular portion is formed in the middle region of the webbing main body, and non-tubular portions are formed in the upper and lower regions of the webbing main body, and the non-tubular portions are formed with a mesh structure as a decorative effect.

It should be noted that, although the present invention has been described in detail with reference to the embodiments, the technical solutions described in the foregoing embodiments or some of the technical features of the embodiments can be modified or replaced with equivalents by those skilled in the art, but any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a compound meshbelt, includes the meshbelt main part, its characterized in that, the meshbelt main part includes the bottom meshbelt body and the surface course meshbelt body, and the surface course meshbelt body is woven and is formed with tubular portion and non-tubular portion that extend along meshbelt main part length direction on the bottom meshbelt body, has the passageway in the tubular portion, and the interlude has the drawstring area in this passageway, and the inside of non-tubular portion is solid construction, and the region that lies in tubular portion on the surface course meshbelt body or the bottom meshbelt body is equipped with two at least holes, and the bottom meshbelt body and the surface course meshbelt body weave the connection through the chaining organizational structure.

2. The composite woven belt as claimed in claim 1, wherein the bottom layer woven belt body and the surface layer woven belt body are both a single woven belt body, or are formed by laminating and weaving more than two woven belt bodies.

3. The composite webbing of claim 2, wherein the webbing body forming the bottom webbing body has the same structure or a different structure from the webbing body forming the face webbing body.

4. A composite webbing belt according to claim 3, wherein the webbing elements are of woven or knitted construction.

5. The composite webbing as claimed in claim 4, wherein the width of the face webbing body is the same as or different from the width of the base webbing body.

6. The composite webbing of claim 5, wherein the width of the face webbing body is different from the width of the base webbing body, and the tubular portion is located in an upper region, a middle region or a lower region in the width direction of the webbing body.

7. The composite webbing of claim 6, wherein the non-tubular portions are planar in structure, or are of a jacquard, mesh or are printed with a LOGO pattern.

8. The composite webbing of claim 7, wherein the main body of the webbing has a width that is the greater of the width of the bottom layer webbing and the width of the face layer webbing, and wherein the widths of the bottom layer webbing and the face layer webbing are both greater than or equal to 10mm.

9. The composite woven tape of claim 8, wherein the warp and weft of the woven tape monomer are made of terylene, chinlon, cotton or acrylic, the woven tape monomer further comprises high-elasticity or low-elasticity yarns, and the high-elasticity or low-elasticity yarns are selected from wrapping yarns or bare spandex.

10. The composite webbing of claim 9, wherein the webbing body is a non-stretch webbing or a stretch webbing.

Images