CN218621242U - Novel reinforced braid rope - Google Patents

Abstract

The utility model relates to a meshbelt technical field discloses a novel enhancement meshbelt rope. It includes: meshbelt warp, meshbelt weft, the meshbelt sideline, outer meshbelt layer, middle meshbelt layer and outer two meshbelt layers are by meshbelt warp and meshbelt weft through the closed meshbelt layer that intercrossing formed, outer meshbelt layer passes through the meshbelt sideline with outer two meshbelt layers and is connected, and outer meshbelt layer encloses into a cavity with outer two meshbelt layers, be provided with middle meshbelt layer in the cavity, middle meshbelt layer is connected through the meshbelt sideline with outer meshbelt layer and outer two meshbelt layers. This meshbelt rope can reduce rope body area effectively, reduces air resistance, increases bearing capacity and the people of being convenient for use etc. can realize compressing meshbelt area, improves the space utilization of meshbelt etc. can realize stepping down of department is woven to the meshbelt, produces the extrusion of meshbelt warp when being unlikely to weave, the phenomenon etc. of weaving of imbalance appears.

Description

Novel reinforced braid rope

Technical Field

The utility model relates to a meshbelt technical field, concretely relates to novel enhancement meshbelt rope.

Background

The woven belts in life are various in shape and color, and nowadays, the woven belts are made into narrow-width fabrics or tubular fabrics by taking various yarns or synthetic fibers as raw materials. The woven tape has a wide variety, is widely applied to various aspects in life, and plays an important role in life. People pull or hang heavy objects and the like by using the woven belts, but most woven belts in the market are flat, so that a larger plane area is occupied, the flat woven belts are not easy to move, the heavy objects are hung in a certain limit, if the woven belts are placed in the space, certain air resistance is brought, and the using effect of the woven belts is greatly influenced; the meshbelt is also more than using on the parachute, and the parachute generally is used for throwing in the heavy object or carrying people, just needs the meshbelt on the parachute to have very strong resistant dragging, resistant gravity, resistant damage etc. traditional meshbelt has not satisfied the demand in this aspect, has restricted the usage space of meshbelt, also can not make things convenient for people to use etc..

Therefore, in order to solve the above problems, a technique of the webbing cord has been developed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems of the prior woven belt, such as flat shape, large occupied plane area, easy generation of air resistance, insufficient bearing capacity, inconvenient use for people, and the like; through the reasonable design of the braid rope, the braid warp, the braid weft, the braid sideline, the outer woven belt layer, the middle woven belt layer and the outer woven belt layer are adopted, and the weaving technology of integrated forming is combined, so that the rope body area can be effectively reduced, the air resistance is reduced, the bearing capacity is increased, the use by people is facilitated, and the like; the middle braid layer is placed in the cavity, so that the area of the braid can be compressed, the space utilization rate of the braid is improved, and the like; adopt the combination of meshbelt sideline and outer meshbelt sideline, two outer meshbelt sidelines, can realize stepping down of department that the meshbelt weaves, produce the extrusion of meshbelt warp when being unlikely to weave, the phenomenon of weaving etc. that appears disproportionately.

The technical scheme of the utility model is specifically as follows:

a novel reinforcement webbing cord, comprising: meshbelt warp, meshbelt weft, meshbelt sideline, outer one braid layer, middle braid layer and outer two braid layers by meshbelt warp and meshbelt weft are through the close mesh braid layer of intercrossing formation, outer one braid layer with outer two braid layers are through the meshbelt sideline is connected, just outer one braid layer with outer two braid layers enclose into a cavity be provided with in the cavity middle braid layer, middle braid layer with outer one braid layer with outer two braid layers are through the meshbelt sideline is connected.

Furthermore, the weaving band sidelines select a plurality of weaving band warps and/or a plurality of weaving band wefts, and correspondingly interweave and weave the weaving band warps and/or the weaving band wefts to form the interweaving lock catch.

Further, the interweaving lock catch is formed by mutually winding or knotting a plurality of woven belt warps or a plurality of woven belt wefts or a plurality of woven belt warps and woven belt wefts.

Furthermore, the braid sideline comprises a plurality of braid wefts, and two adjacent braid wefts are interwoven with each other to form a lock catch; the lock catch is formed in the following mode: one ribbon weft is carried on the other ribbon weft, and then after one ribbon weft bypasses the other ribbon weft, the contact part of the two ribbon wefts forms a lock catch; subsequent weaving is carried out by utilizing the lock catch mode, and the weaving mode is sequentially and circularly copied, so that the required braid sideline is finally formed.

Further, the weaving belt warp threads wrap the weaving belt weft threads.

Furthermore, the weaving belt weft is arranged on the same layer, and the same layer refers to the plane parallel to the weaving belt warp after being straightened.

Furthermore, the middle woven belt layer comprises a plurality of inner woven belt layers, and the inner woven belt layers are connected with the outer woven belt layers and the outer woven belt layers through woven belt sidelines.

Furthermore, the mesh belt warp is two, and the mesh belt warp is interwoven on the mesh belt weft.

Further, the two braid warps are woven in a form of "standing wave", and braid wefts are arranged in a wave cavity of the "standing wave".

Furthermore, the first woven belt layer, the second woven belt layer and the middle woven belt layer are woven fabric layers formed by interweaving two woven belt warps on the woven belt wefts.

Further, the weaving band sideline selects a layer of weaving band weft to be interwoven.

And furthermore, at least two same woven belt warps are arranged on the outer woven belt layer adjacent to the woven belt sidelines, and the same woven belt warps are woven belt warps with the same interweaving mode.

And further, at least two same woven belt warps are arranged on the outer two woven belt layers adjacent to the woven belt sidelines, and the same woven belt warps are woven belt warps with the same interweaving mode.

Furthermore, the outer woven belt layer, the outer two woven belt layers and the middle woven belt layer are all integrally woven.

Furthermore, the outer woven belt layer, the outer two woven belt layers, the middle woven belt layer and the woven belt sideline are integrally formed and woven.

Furthermore, the meshbelt warp, the meshbelt weft, the meshbelt sideline, the outer first woven belt layer, the middle woven belt layer and the outer second woven belt layer all adopt one or more materials of chemical fiber, carbon fiber and cotton thread.

Advantageous effects

The utility model adopts the reasonable design of the ribbon warp, the ribbon weft, the ribbon sideline, the outer first ribbon layer, the middle ribbon layer and the outer second ribbon layer, and combines the weaving technology of integral forming, thereby effectively reducing the area of the rope body, reducing the air resistance, increasing the bearing capacity, facilitating the use of people, and the like; the middle woven belt layer is placed in the cavity, so that the area of the woven belt can be compressed, the space utilization rate of the woven belt is improved, and the like; adopt the combination of meshbelt sideline and outer meshbelt sideline, two outer meshbelt sidelines, can realize the position of stepping down of meshbelt weaving department, produce the extrusion of meshbelt warp when being unlikely to weave, the phenomenon of weaving etc. that appears unbalance. The braid rope can be widely applied to life.

Drawings

Fig. 1 is a schematic structural view of the novel reinforced webbing rope of the present invention.

Fig. 2 is a schematic view of the expansion structure of the reinforced webbing rope of the present invention.

Fig. 3 is a schematic structural view illustrating the novel reinforced webbing rope of the present invention.

Fig. 4 is a schematic view of a layer structure of the novel reinforced webbing rope of the present invention.

Reference numerals: 01. a webbing cord; 02. weaving warp yarns in the woven tape; 03. weaving weft yarns; 04. a woven belt layer is arranged outside; 05. an outer two woven belt layers; 06. an inner woven belt layer; 08. side lines of the woven belt; 11. an outer braid sideline; 12. and two outer woven tape sidelines.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a novel reinforced braid rope, which includes: the weaving device comprises weaving belt warps 02, weaving belt wefts 03, weaving belt sidelines 08, an outer woven belt layer 04, a middle woven belt layer and an outer woven belt layer 05;

the middle woven belt layer is formed by selecting chemical fibers from an inner woven belt layer 06, and weaving warps 02, wefts 03, an outer woven belt layer 04, an outer woven belt layer 05, an inner woven belt layer 06 and woven belt sidelines 08 of the woven belts through criss-cross weaving;

the outer woven belt layer 04, the inner woven belt layer 06 and the outer woven belt layer 05 are dense mesh woven belt layers formed by weaving belt warps 02 and weaving belt wefts 03 through mutual crossing, the outer woven belt layer 04 and the outer woven belt layer 05 are connected through weaving belt sidelines 08, a cavity is surrounded by the outer woven belt layer 04 and the outer woven belt layer 05, the inner woven belt layer 06 is arranged in the cavity, and the inner woven belt layer 06, the outer woven belt layer 04 and the outer woven belt layer 05 are connected through weaving belt sidelines 08;

wherein, an outer woven belt layer 04 adjacent to the woven belt sideline 08 is provided with two same woven belt warps 02, and the same woven belt warps 02 are woven belt warps with the same interweaving mode, namely the outer woven belt sideline 11; two same woven belt warps 02 are arranged on the outer two woven belt layers 05 adjacent to the woven belt sidelines 08, and the same woven belt warps 02 are woven belt warps with the same interweaving mode, namely the outer two woven belt sidelines 12;

wherein, this meshbelt warp 02 parcel lives meshbelt weft 03, promptly: the two braid warps 02 are woven in a 'standing wave' form, and braid wefts 03 are arranged in a wave abdominal cavity of the 'standing wave'; meshbelt weft 03 sets up on same aspect, and same aspect is parallel and the face of the meshbelt warp after flare-outing, promptly: the central axial plane of the standing wave is the central axial plane if the standing wave extends outwards on the X axis;

the weaving belt sideline 08 selects a plurality of weaving belt wefts 03, the weaving belt sideline 08 selects a layer of weaving belt wefts 03 to be interwoven, and two adjacent weaving belt wefts 03 are interwoven with each other to form a lock catch; the lock catch is formed in the following way: one ribbon weft 03 is carried on the other ribbon weft 03, and then after the other ribbon weft 03 is wound by the one ribbon weft 03, a lock catch is formed at the mutual contact position of the two ribbon wefts 03; subsequent weaving is carried out by utilizing the lock catch mode, and the weaving mode is sequentially and circularly copied to finally form a required weaving sideline 08;

the braid rope 01 can be manufactured in the weaving mode, and the braid rope 01 comprises three layers: an outer belt layer 04, an inner belt layer 06 and an outer belt layer 05; it is also possible to have a plurality of inner webbing layers 06, woven as described above, without specific mention.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A novel reinforced webbing cord, comprising: meshbelt warp, meshbelt weft, meshbelt sideline, outer one braid layer, middle braid layer and outer two braid layers by meshbelt warp and meshbelt weft pass through the close-packed meshwork braid layer of intercrossing formation, outer one braid layer with outer two braid layers pass through the meshbelt sideline is connected, just outer one braid layer with outer two braid layers enclose into a cavity be provided with in the cavity middle braid layer, middle braid layer with outer one braid layer with outer two braid layers are through the meshbelt sideline is connected.

2. The novel reinforced woven belt rope as claimed in claim 1, wherein the woven belt borderline comprises a plurality of woven belt wefts, and two adjacent woven belt wefts are interwoven with each other to form a lock catch.

3. A novel reinforced webbing cord as claimed in claim 1, wherein said webbing warp threads wrap around said webbing weft threads.

4. A novel reinforced fabric belt cord according to claim 3 wherein said weft threads of the fabric are provided on the same plane, said same plane being parallel to the warp threads of the fabric belt after straightening.

5. The novel reinforced webbing cord of claim 1, wherein the intermediate webbing layers include inner webbing layers, the inner webbing layers being connected to the outer one and two webbing layers by webbing borders.

6. A novel reinforced woven belt cord according to claim 4, wherein said woven belt warp threads are arranged in two rows and said woven belt warp threads are interwoven with said woven belt weft threads.

7. The novel reinforced woven belt rope as claimed in claim 6, wherein said outer woven belt layer, said outer two woven belt layers and said intermediate woven belt layer are woven fabric layers woven by weaving said woven belt warp threads and said woven belt weft threads.

8. The novel reinforced webbing cord of claim 1, wherein the webbing side lines are selected from a layer of webbing weft interweaving.

9. The novel reinforced webbing cord of claim 1, wherein the outer primary, secondary and intermediate webbing layers are integrally woven.

10. The novel reinforced webbing cord of claim 1, wherein the outer primary webbing layer, the outer secondary webbing layer, the intermediate webbing layer and the webbing border are integrally woven.

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