CN211284736U - Unilateral double-layer type oxear belt - Google Patents

Abstract

The utility model discloses a unilateral double-deck formula ox ear area, include: the woven belt main body is of a double-layer structure with an upper layer and a lower layer, and is formed by weaving surface wefts, inner wefts, surface warps and inner warps, the surface warps and the inner warps are mutually interwoven to form connection, and the surface warps and the inner warps are mutually staggered to form layering; the two horse-walking ropes are respectively woven into the upper layer and the lower layer in a wavy form along the warp direction, each horse-walking rope is provided with a plurality of floating line parts and a plurality of fixing parts which are alternately arranged, the floating line parts respectively protrude out of the surface of the upper layer and the surface of the lower layer, first holes are formed between the floating line parts protruding out of the surface of the upper layer and the upper layer, second holes are formed between the floating line parts protruding out of the surface of the lower layer and the lower layer, and the fixing parts are respectively tightly connected with the upper layer and the lower layer. The utility model discloses form double-deck punchhole in the meshbelt main part, but independent change combination between double-deck punchhole more can adapt to the various demands of product.

Description

Unilateral double-layer type oxear belt

Technical Field

The utility model relates to a knitting field, in particular to unilateral double-deck formula ox ear area.

Background

The single-side single oxear strap has only one type of eyelet, so the change form is single, and the eyelet connecting point is limited, thereby being difficult to meet the variable requirements in the field of clothing production. In order to form a bull-ear strap with a plurality of holes, a single-side double-bull-ear strap is adopted in the prior art, the two walking ropes are combined to be woven into the woven strap, so that the two walking ropes form two holes at the same position of the woven strap, although the connection points of the holes are increased, the sizes and the positions of the two holes are kept consistent and can only be changed simultaneously, difference change cannot be carried out independently, the combination form of the holes is too single, and market adaptability is poor. In view of the above, there is a need in the art for further improvements in the techniques for forming eyelets from webbing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a unilateral double-deck formula ox ear area to solve one or more technical problem that exist among the prior art, provide a profitable selection or create the condition at least.

The technical scheme adopted for solving the technical problems is as follows:

a single-sided double-layered bovine ear band comprising: the woven belt main body is of a double-layer structure with an upper layer and a lower layer, and is formed by weaving surface wefts, inner wefts, surface warps and inner warps, the surface warps and the inner warps are mutually interwoven to form connection, and the surface warps and the inner warps are mutually staggered to form layering; the two horse-walking ropes are respectively woven into the upper layer and the lower layer in a wavy form along the warp direction, each horse-walking rope is provided with a plurality of floating line parts and a plurality of fixing parts which are alternately arranged, the floating line parts respectively protrude out of the surface of the upper layer and the surface of the lower layer, first holes are formed between the floating line parts protruding out of the surface of the upper layer and the upper layer, second holes are formed between the floating line parts protruding out of the surface of the lower layer and the lower layer, and the fixing parts are respectively tightly connected with the upper layer and the lower layer.

Through weaving first punchhole second punchhole separately on bilayer structure's upper strata and lower floor, the punchhole of bilayer distributes about forming, not only can realize many places and connect, simultaneously, first punchhole and second punchhole independent setting relatively make it can separate carry out the change of multiform, including the size and the position of punchhole, the combination mode variation of first punchhole and second punchhole is various, more can adapt to the various demand of product.

As a further improvement of the technical scheme, the upper layer and the lower layer are respectively hollow tissues of the connection part with the walking rope, so that the walking rope can be better woven into the upper layer and the lower layer, and the connection between the upper layer and the lower layer is tighter.

As a further improvement of the above technical solution, the width of the upper layer is narrower than the width of the lower layer.

As a further improvement of the above technical solution, the first eyelet of the upper layer and the second eyelet of the lower layer are arranged in a staggered manner so that the connection points of the first eyelet and the second eyelet do not overlap.

As a further improvement of the technical scheme, the braid main body contains hot melt yarns, the hot melt yarns are respectively woven into the upper layer and the lower layer along the weft direction, or the two horseline cables are respectively provided with the hot melt yarns, so that the horseline cables are fixed in the positions of the eyelets after high-temperature shaping in the later period, and the first eyelet and the second eyelet are not easy to deform.

As a further improvement of the above technical solution, the length of the tissue points of the fixing portions on the upper layer or the lower layer is the same, or at least two of the tissue points of the fixing portions are different, the eyelets on the upper layer and the lower layer of the braid main body can be uniformly distributed or non-uniformly distributed at intervals, and can be adjusted according to different product requirements, so that the market adaptability is wide.

As a further improvement of the above technical solution, two of the walking ropes are woven into the webbing main body in parallel.

As a further improvement of the technical scheme, the diameter of the walking rope is 1 mm.

As a further improvement of the technical scheme, in the weft insertion process, the surface weft and the lining weft are respectively coated with the two walking ropes at intervals.

As a further improvement of the above technical solution, the front weft, the back weft, the front warp and the back warp are all low-elastic yarns.

Drawings

The present invention will be further explained with reference to the drawings and examples;

fig. 1 is a schematic structural view provided by the present invention;

fig. 2 is a schematic diagram of the weaving provided by the present invention;

FIG. 3 is a drawing of a threading and yarn arranging provided by the present invention;

fig. 4 is a structural view of the webbing main body according to the present invention.

In the drawings: 100-mesh belt main body, 110-surface weft, 120-inner weft, 200-horse walking rope, 210-floating line part, 220-fixing part, 300-first eyelet, 400-second eyelet, 500-first crochet hook, 600-second crochet hook, 700-first picking device and 800-second picking device.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

Referring to fig. 1 to 4, the present invention provides a single-side double-layer type cattle ear band, which comprises the following embodiments:

the webbing main body 100 is formed by weaving surface wefts 110 and inner wefts 120, and surface warps and inner warps which are interwoven to form a connection, the surface warps and the inner warps are staggered to form a layer, the two running ropes are respectively woven into the upper layer and the lower layer in a wavy form along the warp direction, the diameter of the running rope 200 used in the embodiment is 1mm, the two running ropes 200 are woven into the webbing main body 100 in parallel, each running rope 200 is provided with a plurality of floating parts 210 and fixing parts 220 which are alternately arranged, the floating parts 210 respectively protrude out of the surface of the upper layer and the surface of the lower layer, first eyelets 300 are formed between the floating parts 210 protruding out of the surface of the upper layer and the upper layer, second eyelets 400 are formed between the floating parts 210 protruding out of the surface of the lower layer and the lower layer, the fixing parts 220 are respectively and tightly connected with the upper layer and the lower layer, the lower layer serves as a junction of the first and second eyelets 300 and 400 with the outer fabric, and the lower layer has a width wider than that of the upper layer. Through the perforation of integrated into one piece bilayer on meshbelt main part 100, it is durable pleasing to the eye, the formation of perforation is to the organizational structure not damaged of meshbelt main part 100, first perforation 300 and the distribution of second perforation 400 layering, not only can realize many places and connect, simultaneously, first perforation 300 and the relative independence of second perforation 400 set up, make its detachable carry out the change of multiform, including the size and the position of perforation, the combination mode of first perforation 300 and second perforation 400 changes variously, more can adapt to the various demands of product.

In some embodiments, the upper layer and the lower layer both comprise hollow tissues and solid tissues, and the tissues of the parts of the upper layer and the lower layer, which are respectively connected with the walking ropes 200, are both hollow tissues, so that the walking ropes 200 can be better woven into the upper layer and the lower layer, and the connection between the upper layer and the lower layer is tighter.

For the relatively independent use of the layered first and second eyelets 300, 400, the first eyelet 300 of the upper layer is staggered from the second eyelet 400 of the lower layer such that the connection points of the first and second eyelets 300, 400 do not overlap.

Considering the shaping of the first eyelet 300 and the second eyelet 400, the woven belt main body 100 contains the hot melt yarn, and the hot melt yarn is woven into the woven belt main body 100 in two ways, one is to weave the hot melt yarn into the upper layer and the lower layer along the weft direction respectively with the front weft 110 yarn and the back weft 120, the other is to weave the two horseline cords 200 with the hot melt yarn, the hot melt yarn can be woven into the woven belt main body 100 along with the two horseline cords 200, after the woven belt main body 100 containing the hot melt yarn is subjected to high-temperature shaping treatment in the later period, the positions of the eyelets are fixed, and the eyelets are not easy to deform and slide.

Further, the length of the tissue points of the fixing parts 220 on the upper layer or the lower layer is the same, namely, the first holes 300 on the upper layer and the second holes 400 on the lower layer are uniformly arranged at intervals, in addition, in order to meet various requirements of products, the length of the tissue points of at least two fixing parts 220 on the upper layer or the lower layer is different, so that the first holes 300 on the upper layer or the second holes 400 on the lower layer are non-uniformly arranged at intervals, the distance between the holes can be adjusted and set according to actual product requirements, and the market adaptability is wide.

In some embodiments, during picking, the front weft 110 and the back weft 120 are respectively wrapped with two walking ropes 200 at intervals.

Further, the surface weft 110, the inner weft 120, the surface warp and the inner warp are all low-elasticity yarns, such as polyester low-elasticity yarns or nylon, which can prevent the braid main body 100 from generating obvious elastic deformation under external force and protect the weave structure of the braid main body 100, and it should be understood that the surface warp, the surface weft 110, the inner warp and the inner weft 120 can be woven by using yarns of the same material, and can also be woven by using yarns of different materials in a mixed manner.

Specifically, in this embodiment, referring to fig. 2 and 3, two tram ropes 200, surface warps and inner warps penetrate into heddles in an organizational arrangement, a main webbing body 100 is partially formed by weaving surface wefts 110, inner wefts 120, surface warps and inner warps, the surface warps and the inner warps are interwoven to form connecting portions, the surface warps and the inner warps are staggered to form upper and lower layers, the surface wefts 110 and the inner wefts 120 are inserted by a first weft inserting device 700 and a second weft inserting device 800 respectively, and the surface wefts 110 and the inner wefts 120 are hooked by a first crochet hook 500 and a second crochet hook 600 respectively, wherein the number of the surface warps is less than that of the inner warps, the two tram ropes 200 are conveyed by a conveying device controlled by a motor, the conveying speed of the conveying device can be adjusted as required, the tram ropes 200 and the surface warps and the inner warps are controlled to move by the heddles, the heddles are controlled by a computerized heald lifting device, the conveying speed of the conveying device is cooperatively controlled with the heald lifting height of the computerized heald lifting device, the two horseline moving ropes 200 form floating lines on the braid main body 100, and finally form a wavy appearance, the width of the horseline moving rope 200 floating line part 210 is determined by the tissue length of the weaving floating lines, the height of the floating line part 210 is determined by the conveying length of a conveying device during the weaving floating lines, and further the braid structure shown in fig. 1 is realized, and the movement rules of the horseline moving ropes 200 at the upper layer and the lower layer can be designed and changed according to actual requirements. FIG. 4 is a block diagram of the weave of the interlaced webbing body 100 from top to bottom, when shown at X and a tangle-solidup on a computer, with the rosette pulled up to the top of the machine design, noted as "up"; when the computer shows o, the faceplate is pulled up to the bottom of the machine design, noted down.

The utility model discloses a weaving step of unilateral double-deck formula ox ear area as follows:

(1) the yarns are warped to control the tension strength in the yarns, so that the tension in each yarn is equal;

(2) typesetting on a floral disc typesetting software on a computer according to organization requirements;

(3) the warped yarns and the horseline 200 are threaded into corresponding heddle eyes according to the typesetting mode of a computer;

(4) penetrating corresponding yarns according to design requirements, debugging a machine and judging whether the woven grains meet the design requirements or not; after the requirement is met, weaving of the woven tape can be started.

A specific embodiment of the present invention is provided below:

the used material of surface warp, lining warp, surface weft and lining weft is 300D/96F dacron low stretch yarn, and the rope 200 diameter of walking a horse is 1mm, and the width of meshbelt main part 100 is 10mm, and the eyelet width of first eyelet and second eyelet is 7mm, highly is 8mm, and the hollow tissue of upper strata and lower floor respectively is 1 with the proportion of solid tissue: 10.

while the preferred embodiments of the present invention have been described in detail, it will be understood by those skilled in the art that the invention is not limited to the details of the embodiments shown, but is capable of various modifications and substitutions without departing from the spirit of the invention.

Claims (10)

1. The utility model provides a unilateral double-deck formula ox ear area which characterized in that: the method comprises the following steps:

the woven belt main body (100) is of a double-layer structure with an upper layer and a lower layer, the woven belt main body (100) is formed by weaving surface wefts (110), inner wefts (120), surface warps and inner warps, the surface warps and the inner warps are mutually interwoven to form connection, and the surface warps and the inner warps are mutually staggered to form layering;

the two horse-walking ropes are respectively woven into the upper layer and the lower layer in a wavy mode along the warp direction, each horse-walking rope (200) is provided with a plurality of floating line parts (210) and a plurality of fixing parts (220) which are alternately arranged, the floating line parts (210) respectively protrude out of the surfaces of the upper layer and the lower layer, first holes (300) are formed between the floating line parts (210) protruding out of the surfaces of the upper layer and the upper layer, second holes (400) are formed between the floating line parts (210) protruding out of the surfaces of the lower layer and the lower layer, and the fixing parts (220) are respectively tightly connected with the upper layer and the lower layer.

2. The single-sided double-layered bovine earring according to claim 1, wherein: the tissues of the parts, connected with the trotting horse rope (200), of the upper layer and the lower layer are hollow tissues.

3. The single-sided double-layered bovine earring according to claim 1, wherein: the width of the upper layer is narrower than the width of the lower layer.

4. The single-sided double-layered bovine earring according to claim 1, wherein: the first perforation (300) of the upper layer is staggered from the second perforation (400) of the lower layer.

5. The single-sided double-layered bovine earring according to claim 1, wherein: the woven belt main body (100) contains hot melt yarns, and the hot melt yarns are woven into the upper layer and the lower layer respectively along the weft direction, or the two walking ropes (200) are provided with the hot melt yarns.

6. The single-sided double-layered bovine ear belt according to claim 1 or 4, wherein: the tissue point lengths of the fixing parts (220) of the upper layer or the lower layer are the same, or the tissue point lengths of at least two fixing parts (220) are different.

7. The single-sided double-layered bovine earring according to claim 1, wherein: the two walking ropes (200) are woven into the mesh belt main body (100) in parallel.

8. The single-sided double-layered bovine earring according to claim 1, wherein: the diameter of the horse walking rope (200) is 1 mm.

9. The single-sided double-layered bovine earring according to claim 1, wherein: in the weft inserting process, the front weft (110) and the back weft (120) are respectively coated with the two walking ropes (200) at intervals.

10. The single-sided double-layered bovine earring according to claim 1, wherein: the surface weft (110), the inner weft (120), the surface warp and the inner warp are all low-elastic yarns.

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