CN220132468U

CN220132468U - Full flame-retardant curtain fabric for cruise ship

Info

Publication number: CN220132468U
Application number: CN202320940092.6U
Authority: CN
Inventors: 杨文基
Original assignee: Zhejiang Babei Textile Co ltd
Current assignee: Zhejiang Babei Textile Co ltd
Priority date: 2023-04-24
Filing date: 2023-04-24
Publication date: 2023-12-05
Anticipated expiration: 2033-04-24

Abstract

The utility model provides a full flame-retardant curtain fabric for a cruise ship, and belongs to the technical field of embossed woven fabrics with special purposes. The first weft yarns and the second weft yarns are used as weft yarn raw materials, the warp-starting warp yarns, the three-dimensional warp yarns and the weft-starting warp yarns are used as warp yarn raw materials, the weft yarns and the warp yarns are interwoven in the warp yarn direction to form a curtain fabric comprising a plurality of weave loops, and each weave loop comprises one group of the first weft yarns, one group of the second weft yarns, twelve groups of the warp-starting warp yarns, ten groups of the three-dimensional warp yarns and ten groups of weft-starting warp yarns. The fabric is used for occasions such as a cruise ship, a curtain and the like, and the special arrangement of weft yarns and warp yarns is used for endowing the fabric with flame-retardant and three-dimensional pattern effects.

Description

Full flame-retardant curtain fabric for cruise ship

Technical Field

The utility model relates to a full flame-retardant curtain fabric for a cruise ship, and belongs to the technical field of embossed woven fabrics with special purposes.

Background

The curtain plays the effects of beauty, decoration, dust prevention and sun shading in the household life, the common curtain mainly comprises fabrics woven by fibers, such as cotton-flax fabrics, polyester fabrics and the like, and has the flexibility of the fabrics, but correspondingly brings the characteristics of the fabrics, namely inflammable substances, so that the safety problem caused by inflammability is solved by the intervention of flame retardant materials: such as coating a flame-retardant layer, taking flame-retardant modified fiber as a raw material, introducing glass fiber cloth and the like. Although the method realizes flame retardance, for wading appliances such as a cruise ship, the method is very critical whether the curtain can solve the problems, and not only ensures good flame retardance, but also adapts to the damp-heat and boring environment on water. And the common decorative curtains obviously cannot meet the requirement.

Disclosure of Invention

In view of the above, the utility model provides a curtain fabric for a full flame-retardant cruise ship, which not only gives flame-retardant effect to a curtain, but also gives a sense of front venation and a sense of back relative smoothness to the fabric, thereby achieving good flame retardance and decorative effects and improving sense of front three-dimensional sense and back fitting sense.

Specifically, the utility model is realized by the following scheme:

a full flame-retardant curtain fabric for a loose pulley takes first wefts and second wefts as weft yarn raw materials, warp-starting warps, stereoscopic warps and weft-starting warps as warp yarn raw materials, at least one of the first wefts, the second wefts, the warp-starting warps, the stereoscopic warps and the weft-starting warps is flame-retardant, the wefts and the warps are interwoven along the warp direction to form the curtain fabric comprising a plurality of weave loops, and each weave loop comprises a warp-starting weave, a stereoscopic weave and a weft-starting weave:

the warp starting structure is formed by interweaving a first weft yarn and a second weft yarn with twelve groups of warp starting warp yarns respectively,

the three-dimensional structure is formed by interweaving first wefts and second wefts with ten groups of three-dimensional warps respectively,

the weft lifting mechanism is formed by interweaving first wefts and second wefts with ten groups of weft lifting warps respectively.

According to the scheme, in the weaving process, the above interweaving mode of the warp yarn raw materials and the weft yarn raw materials not only realizes the introduction of flame retardant components, but also enables the fabric to have softness, three-dimensional sense and fitting sense when being used for similar occasions such as a cruise ship through circulation of warp starting tissues (warp starting means that the warp raw materials are above the weft raw materials), weft starting tissues (weft starting means that the weft raw materials are above the warp raw materials) and three-dimensional tissues in the warp direction, three structures with different heights are formed on the front surface of the fabric, the different heights are expressed as the venation sense of the fabric, the back surface of the fabric is relatively smooth, and the fabric is provided with better practicability.

Further, as preferable:

in the warp starting structure, the positions of the first weft yarn relative to the twelve groups of warp starting yarns are as follows: the positions of the second weft yarn relative to the twelve groups of warp starting yarns are as follows: seven at one time, three at one time.

In the three-dimensional structure, the first weft yarn is positioned below ten groups of three-dimensional warp yarns, and the second weft yarn is positioned above ten groups of three-dimensional warp yarns.

In the weft lifting organization, the positions of the first weft relative to ten groups of weft lifting warp yarns are as follows: on the next four, the positions of the second weft yarn relative to the ten sets of the weft-starting warp yarns are: one at the lower and one at the upper.

In the scheme, the first weft yarn is 300D flame-retardant polyester yarn (two-color 150D doubling), the second weft yarn is flame-retardant high-shrinkage yarn, and the warp yarn, the stereoscopic warp yarn and the weft yarn are all 75D flame-retardant polyester yarn.

According to the scheme, the flame-retardant silk is introduced into the cruise pulley fabric, the cruise pulley curtain fabric is endowed with flame-retardant effect, the front side of the curtain faces indoors, and the back side of the curtain faces outdoors.

Drawings

FIG. 1 is a schematic view of the structure of warp starting tissue in the fabric of the present utility model;

FIG. 2 is a schematic view of a three-dimensional structure in the fabric of the present utility model;

fig. 3 is a schematic structural view of a weft lifting weave in the fabric of the present utility model.

Reference numerals in the drawings: 1. a first weft thread; 2. a second weft thread; 3. warp yarns; 301. initiating warp yarn I; 302. a second warp yarn is started; 303. warp yarn III is started; 304. a fourth warp yarn is started; 305. a fifth warp yarn is started; 306. initiating warp yarn six; 307. initiating warp yarn seven; 308. initiating warp yarn eight; 309. warp yarn nine; 310. starting warp yarn ten; 311. eleven warp yarns are raised; 312. twelve warp yarns are formed; 4. stereoscopic warp yarns; 401. three-dimensional yarn I; 402. a second three-dimensional yarn; 403. three dimensional yarn; 404. three-dimensional yarn IV; 405. three-dimensional yarn five; 406. a stereoscopic yarn six; 407. three-dimensional yarn seven; 408. three-dimensional yarn eight; 409. a three-dimensional yarn nine; 410. a three-dimensional yarn ten; 5. a pick-up warp yarn; 501. a first weft yarn is started; 502. a second weft yarn is lifted; 503. lifting a weft yarn III; 504. a fourth weft yarn is lifted; 505. a fifth weft yarn is lifted; 506. a sixth weft yarn is lifted; 507. starting weft yarn seven; 508. lifting a weft yarn eight; 509. a weft yarn is lifted; 510. and (5) taking up the weft yarn ten.

Detailed Description

The embodiment provides a full fire-retardant loose pulley is with (window) curtain surface fabric, has a plurality of circulations along warp direction distribution on the surface fabric, and each circulation all includes a play warp organization, a three-dimensional organization and a play weft organization, and each circulation is including a set of first latitude 1, a set of second latitude 2, twelve play warp yarns 3, ten three-dimensional warp yarns 4 and ten play weft yarns 5:

in connection with fig. 1, in the warp let-down tissue, the first weft yarn 1 is interwoven with the warp yarn 3 in a mode of one-by-one, five-by-one, one-by-one and one-by-one, the second weft yarn 2 is interwoven with the warp starting warp yarn 3 in a manner of seven at a time and three at a time, namely, in one cycle:

after entering from below the first warp yarn 301, the first weft yarn 1 goes up to above the second warp yarn 302, goes down to below the third warp yarn 303, goes up to above the fourth warp yarn 304, goes through the fourth warp yarn 304, the fifth warp yarn 305, the sixth warp yarn 306, the seventh warp yarn 307 and the eighth warp yarn 308, goes down to below the ninth warp yarn 309, goes up to above the tenth warp yarn 310, goes down to above the eleventh warp yarn 311, and finally goes up to above the twelfth warp yarn 312, and finishes the interweaving of the first weft yarn 1 and the twelve groups of the warp yarns 3 in the cycle.

After entering from below the first warp yarn 301, the second weft yarn 2 goes up to above the second warp yarn 302, warp yarn two 302, warp yarn three 303, warp yarn four 304, warp yarn five 305, warp yarn six 306, warp yarn seven 307, and warp yarn eight 308, goes down to below warp yarn nine 309, goes up to above warp yarn ten 310, warp yarn eleven 311, and warp yarn twelve 312, and finishes the interweaving of the second weft yarn 2 and twelve groups of warp yarns 3 in the cycle.

The first weft yarn 1, the second weft yarn 2 and the warp yarn 3 are interwoven in the above manner to form a warp starting structure.

In the weft lifting structure, referring to fig. 3, the first weft yarn 1 and the ten sets of weft lifting warp yarns 5 are interwoven in a four-next-up manner, and the second weft yarn 2 and the ten sets of weft lifting warp yarns 5 are interwoven in a one-next-four-up manner, namely:

the first weft yarn 1 enters from the lower part of the first weft yarn 501, and after the warp yarn is started from the first weft yarn 501, the weft yarn is started from the second 502, the weft yarn is started from the third 503 and the weft yarn is started from the fourth 504, the warp yarn goes upwards to the upper part of the weft yarn started from the fifth 505, then goes downwards to the lower part of the weft yarn started from the sixth 506, and after the warp yarn started from the sixth 506, the weft yarn started from the seventh 507, the weft yarn started from the eighth 508 and the weft yarn started from the ninth 509, goes upwards to the upper part of the weft yarn started from the tenth 510, and the interweaving of the first weft yarn 1 and the ten groups of weft yarn started from the warp yarn 5 in the circulation is completed.

After entering from below the first weft yarn 501, the second weft yarn 2 goes up to above the second weft yarn 502, and goes down to below the sixth weft yarn 506 after the second weft yarn 502, the third weft yarn 503, the fourth weft yarn 504 and the fifth weft yarn 505 go up to above the seventh weft yarn 507, and goes up to above the seventh weft yarn 507, and the first weft yarn 1 and the ten groups of weft yarn 5 interweave in the cycle.

In the three-dimensional structure, with reference to fig. 2, the first weft 1 is lower, the second weft 2 is upper, the first weft 1 is positioned below ten groups of three-dimensional warp yarns 4, the second weft 2 is positioned above ten groups of three-dimensional warp yarns 4, namely, the first weft 1 is positioned down, the second weft 2 is positioned up, the three-dimensional yarns one 401, two 402, three 403, four 404, five 405, six 406, seven 407, eight 408, nine 409 and ten 410 are positioned between the second weft 2 and the first weft 1, the second weft 2 and the first weft 1 are not interwoven with the three-dimensional warp yarns 4, and the warp and weft lifting structures are combined, so that a male part, a female part and a venation part are formed on the front surface of the fabric, and the overall three-dimensional sense is enhanced; the back of the fabric is relatively smooth.

Wherein, in the weft yarn raw material, the first weft yarn 1 is flame-retardant polyester yarn, and the fineness is 300D (150D and 150D); the second weft yarn 2 is flame-retardant high-shrinkage yarn with fineness of 18S/1; in the warp raw material, the warp starting warp 3 is flame-retardant polyester yarn with fineness of 75D; the stereoscopic warp yarn 4 is flame-retardant polyester yarn and has fineness of 75D; the pick-up warp yarn 5 is flame-retardant polyester yarn and has a fineness of 75D.

Claims

1. The utility model provides a full fire-retardant loose pulley is with (window) curtain surface fabric which characterized in that: the first weft yarn and the second weft yarn are used as weft yarn raw materials, the warp-starting warp yarn, the three-dimensional warp yarn and the weft-starting warp yarn are used as warp yarn raw materials, at least one of the first weft yarn, the second weft yarn, the warp-starting warp yarn, the three-dimensional warp yarn and the weft-starting warp yarn is flame retardant yarn, the weft yarn and the warp yarn are interwoven along the warp yarn direction to form a curtain fabric comprising a plurality of weave loops, each weave loop comprises a group of first weft yarn, a group of second weft yarn, twelve warp-starting warp yarns, ten three-dimensional warp yarns and ten weft-starting warp yarns,

the first weft and the second weft are respectively interweaved with twelve groups of warp starting yarns to form a warp starting structure,

the first weft and the second weft are respectively interwoven with ten groups of three-dimensional warp yarns to form a three-dimensional structure,

the first weft and the second weft are respectively interweaved with ten groups of weft-starting warp yarns to form weft-starting structures,

the warp starting tissue, the weft starting tissue and the three-dimensional tissue are circulated, three venation with different heights are formed on the front surface of the fabric, and the back surface of the fabric is relatively smooth.

2. The full fire resistant cruise ship curtain fabric of claim 1, wherein in the warp starting structure, the positions of the first weft yarn relative to the twelve groups of warp starting yarns are: the positions of the second weft yarn relative to the twelve groups of warp starting yarns are as follows: seven at one time, three at one time.

3. The fabric for a curtain for a full fire-retardant cruise ship according to claim 1, wherein in the three-dimensional structure, the first weft is positioned below ten sets of three-dimensional warp yarns, and the second weft is positioned above ten sets of three-dimensional warp yarns.

4. The fully flame resistant cruise ship curtain fabric of claim 1, wherein in the pick weave, the positions of the first pick relative to the ten sets of pick warp yarns are: the positions of the second weft yarn relative to the ten groups of the weft starting warp yarns on the four next upper four next lower upper four lower four are as follows: one at one end and four at the other end one at the lower and one at the upper.

5. A fully flame retardant cruise ship curtain fabric as claimed in any one of claims 1 to 4, wherein: the first weft yarn is 300D flame-retardant polyester yarn, the second weft yarn is flame-retardant high-shrinkage yarn, and the warp-starting warp yarn, the stereoscopic warp yarn and the weft-starting warp yarn are all 75D flame-retardant polyester yarn.