CN114369896A

CN114369896A - Production method of high-flame-retardancy wall cloth

Info

Publication number: CN114369896A
Application number: CN202111514068.8A
Authority: CN
Inventors: 方柏松
Original assignee: Zhejiang Hongjing Textile Technology Co ltd
Current assignee: Zhejiang Hongjing Textile Technology Co ltd
Priority date: 2021-12-13
Filing date: 2021-12-13
Publication date: 2022-04-19
Anticipated expiration: 2041-12-13
Also published as: CN114369896B

Abstract

The utility model relates to a production method of high-flame-retardance wall cloth, which comprises the following steps: s1: preparing warps, namely twisting all-wool yarns and glass fibers as raw materials of the warps; s2: weaving on a loom: the jacquard loom is used for production, and the warp density on the loom is 32-36 pieces/CM; the weft is of a two-layer texture, the weft of the surface layer is wool raised, the weft of the bottom layer is glass fiber, the weft of the surface layer is designed to be interwoven with the full wool weft every eight warps, the weft of the bottom layer is designed to be interwoven with the satin of the warps by the glass fiber weft, and the weft density of the upper machine is 35-55/CM; obtaining a gray fabric with the upper breadth of 305-310CM by adopting 318 CM; s3: and (3) after finishing: the high-temperature setting machine is used for carrying out the sewage setting treatment, the requirement of 290 plus 295CM width is met, the speed is 15-20m/min, and the temperature is controlled to be 150-160 ℃. The utility model effectively solves the problem of environment-friendly flame retardant property of the wall cloth, achieves the effect of high flame retardant, has high-quality decorative property and good sound insulation, heat preservation and moisture preservation effects.

Description

Production method of high-flame-retardancy wall cloth

Technical Field

The utility model relates to the technical field of preparation of flame-retardant wall cloth, in particular to a production method of high-flame-retardancy wall cloth.

Background

The trend that wall cloth is mostly used for replacing paint and coating in the indoor wall decoration nowadays, and the worldwide sales volume of wall cloth decoration materials all the year around reaches about hundreds of billions of square meters. The wall cloth has various varieties and inexhaustibility, from the popular paper coating to the advanced wool weaving jacquard, from the single color to the multi-color, and from chemical fiber weaving, straw weaving, silk weaving, micro-veneer, flocking, foaming plastic and the like.

Along with the improvement of the fire safety consciousness of people, the fireproof performance of various decorative articles used in daily life is correspondingly improved. In particular, the recent national level has made higher demands on the fire protection performance in the public domain. Wall cloth is used more and more widely as common interior decoration fabric. The conventional flame-retardant wall cloth is generally subjected to flame-retardant treatment in an after-finishing mode. The permanent flame-retardant purpose can not be achieved, and the cloth surface after flame-retardant treatment has flame retardant residues which are not beneficial to human health. Meanwhile, the production process has the environmental protection problems of waste gas and waste water pollution and the like, and the ecological environment can be seriously damaged.

In order to solve the above problems, workers in the field have made various studies on the production method of high flame-retardant wall cloth:

chinese patent application No. 200820084649.6 discloses a glass fiber curtain fabric, which comprises a woven strip for weaving the curtain fabric, and is characterized in that: at least part of the braided strip comprises an inner core part and an outer layer part coated outside, wherein the inner core part is made of glass fiber, and the outer layer part is made of PVC material. The utility model has the advantages of simple manufacturing process, easy operation and high quality qualification rate of the produced product; the product is that the PVC material wraps up the glass fiber core in the mould through the melting state, so that the weaving strip has high strength, can directly absorb ultraviolet rays in light, and also has good light transmission.

However, in the application patent, the glass fiber is wrapped by the PVC material, the outer layer is made of the PVC material, the PVC material is nonflammable, but can be burnt to reach a molten state when reaching a certain melting point, and in the burning process of the PVC, the PVC firstly has dehydrochlorination reaction, then has a series of reactions such as crosslinking, cyclization and chain scission, and is continuously burnt to generate carbon monoxide, carbon dioxide, benzene-containing cyclic compounds and carbon smoke dust, so that the environment and the personal safety are greatly harmed.

Therefore, there is a need for further improvement of the production method of the high flame-retardant wall covering to solve the above-mentioned disadvantages.

Disclosure of Invention

The purpose of the application is: the utility model aims to overcome the defects of the prior art and application and provides a production method of the high-flame-retardance wall cloth, which effectively solves the problem of low flame-retardance effect of the wall cloth, achieves the high-flame-retardance effect, has high-quality decorative performance and good sound insulation, heat preservation and moisture preservation effects.

The production method of the high-flame-retardance wall cloth is characterized by comprising the following steps of:

s1: preparing warp yarns: the warp yarn raw material adopts full wool yarn and glass fiber for splicing and twisting, and the splicing and twisting of the full wool yarn and the glass fiber adopts 300 twists/m;

s2: weaving on a loom: the jacquard loom is used for production, and the warp density on the loom is 32-36 pieces/CM; the weft is of a two-layer texture, the surface layer weft is a wool weft which is patterned, the bottom layer weft is glass fiber, the surface layer weft is designed to be interwoven with the full wool weft every eight warps, the bottom layer weft is designed to be interwoven with the warp satin by the glass fiber weft, and the upper weft density adopts 35-55/CM; obtaining a gray fabric with the upper breadth of 305-310CM by adopting 318 CM;

s3: and (3) after finishing: the shaping treatment is carried out by using a high-temperature shaping machine, the requirement of 290 plus 295CM width is met, the speed is 15-20m/min, and the temperature is controlled to be 150-160 ℃.

Preferably, the warp yarns in the S1 are spliced and twisted by adopting a single 34T glass fiber protofilament and a single 60N/2 full wool warp yarn.

Preferably, in the step S2, the top weft yarn is 24N all wool yarn, and the bottom weft yarn is 68T glass fiber strand.

Preferably, the after-finishing adopts launching for shaping, so as to be beneficial to removing oil stains caused by working procedures such as weaving and the like and also be more beneficial to fulling of wool.

Preferably, in S2, the surface layer weft yarns and the bottom layer weft yarns are arranged alternately in a ratio of 1:1, and the density of the upper machine weft yarns is 35-55/CM. In order to improve the jacquard effect, the jacquard weaving method can be realized by increasing the number of surface layer weft yarns and improving the upper weft density, for example, the surface layer weft yarns and the bottom layer weft yarns are arranged in a 2:1 alternating mode, and the upper weft density is 50-55/CM.

Preferably, the face layer wool weft yarns are dyed yarns.

Preferably, a weft straightening device is adopted in the S3, the setting width is 290CM-295CM, and the setting speed is 15-20 m/min.

Preferably, the jacquard is a 2688-needle jacquard, wherein the cloth body is 2640-needle 4-needle, and the weaving width of the machine body is 318 CM.

Preferably, the glass fiber component of the high-flame-retardant wall cloth reaches 60 percent, so that the high-flame-retardant effect is achieved.

It should be particularly pointed out that, if the wool raw materials of the warp and the weft in the utility model are replaced by aramid, namely the warp adopts aramid and glass fiber for splicing and twisting, and the surface layer weft in the weft adopts aramid, so that the flame retardant effect is similar, but the aramid is difficult to completely coat the glass fiber by the warp splicing and twisting no matter how much the twist degree is achieved, namely after the product is prepared, the naked glass fiber is scattered into the air and still can be harmful to the human body, but the wool is adopted in the utility model, and the glass fiber can be completely coated and hidden by utilizing the fulling characteristic of the wool.

Compared with the prior art, the application has the following obvious advantages and effects:

1. in the utility model, the warp yarn raw materials adopt wool and glass fiber for splicing and twisting, the weft yarn is of a two-layer structure, the weft yarn of the surface layer is wool weft yarn, the weft yarn of the bottom layer is glass fiber, the wool is natural flame-retardant fiber and cannot be melted or dropped during combustion, the generated foam ash has good insulativity, the glass fiber has high temperature resistance, is non-combustible, corrosion-resistant, heat-insulating and sound-insulating, and the wall cloth made by combining the two materials not only achieves the high flame-retardant effect, but also has high-quality decorative performance and good sound-insulating, heat-insulating and moisture-preserving effects.

2. According to the utility model, the wool fibers have unique felting property, and the glass fibers can be well wrapped in the middle layer of the fabric by using a high-temperature setting machine for water setting treatment, and the surface layer is made of wool, so that the burr feeling of the fabric is reduced, and the effects of skin friendliness, sound insulation, heat preservation and moisture preservation are achieved.

3. In the utility model, the manufacturing conditions are simple, the environment-friendly effect of the material is good, the whole production process is free from stains, and the environment-friendly production is realized.

Drawings

Fig. 1 is a general structural layout diagram of the high fire-retardant wall covering of the present application.

Reference numbers in this application:

100 warp yarns, 200 weft yarns, 201 face weft yarns, and 202 bottom weft yarns.

Detailed Description

Specific embodiments thereof are described below in conjunction with the following description and the accompanying drawings to teach those skilled in the art how to make and use the best mode of the present application. For the purpose of teaching application principles, the following conventional aspects have been simplified or omitted. Those skilled in the art will appreciate variations from these embodiments that fall within the scope of the application. Those skilled in the art will appreciate that the features described below can be combined in various ways to form multiple variations of the present application. In the present application, the terms "upper", "lower", "left", "right", "middle" and "one" are used for clarity of description, and are not used to limit the scope of the utility model, and the relative relationship between the terms and the corresponding terms may be changed or adjusted without substantial technical change. Thus, the present application is not limited to the specific embodiments described below, but only by the claims and their equivalents.

Fig. 1 shows a method for producing a high flame-retardant wall cloth of the formwork of the present application.

The utility model relates to a production method of high-flame-retardance wall cloth, which comprises the following steps: s1: preparing warp 100, namely twisting the warp 100 by adopting all wool yarns and glass fibers; s2: weaving on a loom: the jacquard loom is used for production, and the warp density on the loom is 32-36 pieces/CM; the weft yarns 200 are of two-layer texture, the surface layer weft yarns 201 are wool weft yarns and are patterned, the bottom layer weft yarns 202 are glass fibers, the texture of the surface layer weft yarns 201 is designed to be that every 100 warp yarns are interwoven with all-wool weft yarns by one weft yarn, the texture of the bottom layer weft yarns 202 is designed to be that the glass fiber weft yarns are interwoven with 100 satin weaves of the warp yarns, and the weaving density of the upper machine is 35-55/CM; obtaining a gray fabric with the upper breadth of 305-310CM by adopting 318 CM; s3: and (3) after finishing: the high-temperature setting machine is used for carrying out the sewage setting treatment, the requirement of 290 plus 295CM width is met, the speed is 15-20m/min, and the temperature is controlled to be 150-160 ℃. The utility model effectively solves the problem of low flame retardant effect of wall cloth, achieves high flame retardant effect, has high-quality decorative performance and good sound insulation, heat preservation and moisture preservation effects.

Specifically, as shown in fig. 1, in the present embodiment, in the S1, the warp yarn 100 is pieced together by using a single 34T glass fiber strand and a single 60N/2 all-wool warp yarn, the glass fiber yarn has the disadvantages of brittleness and poor extensibility, so that the glass fiber all-wool piecing is adopted to facilitate weaving on a loom.

Still to be noted, as shown in fig. 1, in S2, the surface layer weft 201 is 24N all-wool yarn, the bottom layer weft 202 is 68T glass fiber strand, and is divided into an upper and a lower two-layer structure, the surface layer weft 201 is designed in a manner that every eight warp yarns 100 are interwoven with the all-wool weft, so as to ensure that no glass fiber is exposed on the surface, and the bottom layer weft 202 is designed in a manner that the glass fiber weft is interwoven with the warp 100 in a satin manner; the surface layer weft yarns 201 and the bottom layer weft yarns 202 are arranged in a 1:1 alternating mode, and the density of the upper machine weft yarns 200 is 35-40/CM. The surface layer weft yarns 201 adopt dyed yarns to meet the design requirements of cloth cover patterns, and the bottom layer weft yarns 202 adopt white raw yarns, so that the surface is not exposed, and the pattern effect is not influenced.

It should be noted that, in the embodiment of the present application, in order to achieve a better flame retardant effect, the wool fibers have unique shrinkability, and the high-temperature setting machine is used for performing the water drainage setting treatment, so that the glass fibers can be wrapped in the middle layer of the fabric well, and simultaneously, the oil stains caused by the weaving and other processes can be removed, and the wool is used as the surface layer, so that the burr feeling of the fabric is reduced, and the effects of skin friendliness, sound insulation, heat preservation and moisture preservation are achieved.

It should be noted that, in the embodiment of the present application, a weft straightening device is adopted in S3, the setting width is 290CM to 295CM, the setting speed is 15 to 20m/min, the cloth surface is flat, and the skew is reduced. The jacquard is a 2688-needle jacquard, wherein the cloth body is 2640-needle 4-needle, and the weaving width of the machine body is 318 CM.

It should be further noted that, in the embodiments of the present application, the bottom surface of the glass fiber is coated with a flame retardant film to reduce the shedding of the glass fiber and achieve the waterproof and leakproof performance.

In the utility model, the warp 100 adopts wool and glass fiber for splicing and twisting, the weft 200 is of a two-layer structure, the weft of the surface layer is wool weft which is embossed, the weft of the bottom layer is glass fiber, the wool is natural flame-retardant fiber and can not be melted or dropped during combustion, the generated foam ash has good insulativity, the glass fiber has high temperature resistance, and the wall cloth made of the two materials has the advantages of non-combustibility, corrosion resistance, heat insulation and sound insulation.

Since any modifications, equivalents, improvements, etc. made within the spirit and principles of the application may readily occur to those skilled in the art, it is intended to be included within the scope of the claims of this application.

Claims

1. The production method of the high-flame-retardance wall cloth is characterized by comprising the following steps of:

s1: preparing warps, namely twisting all wool yarns and glass fibers by using a warp raw material, wherein the twisting of the all wool yarns and the glass fibers is 300 twists/m;

s2: weaving on a loom: the jacquard loom is used for production, and the warp density on the loom is 32-36 pieces/CM; the weft is of a two-layer structure, the surface layer weft is wool raised, the bottom layer weft is glass fiber, the surface layer weft is designed to be interwoven with all-wool weft every eight warps, the bottom layer weft is designed to be interwoven with satin weaves of the warps by the glass fiber weft, and the upper weft density adopts 35-55 pieces/CM; obtaining a gray fabric with the upper breadth of 305-310CM by adopting 318 CM;

s3: and (3) after finishing: the high-temperature setting machine is used for carrying out the sewage setting treatment, the requirement of 290 plus 295CM width is met, the speed is 15-20m/min, and the temperature is controlled to be 150-160 ℃.

2. The method for producing a high flame-retardant wall cloth according to claim 1, characterized in that: in the S1, the warp yarn is spliced and twisted by adopting a single 34T glass fiber protofilament and a single 60N/2 full wool warp yarn.

3. The method for producing a high flame-retardant wall cloth according to claim 1, characterized in that: in the S2, the top weft yarn is 24N all wool yarn, and the bottom weft yarn is 68T glass fiber strand.

4. The method for producing a high flame-retardant wall cloth according to claim 1, characterized in that: in S2, the surface layer weft yarns and the bottom layer weft yarns are alternately arranged in a ratio of 1:1, and the weft density on the machine is 35-40/CM.

5. The method for producing a high flame-retardant wall cloth according to claim 1, characterized in that: in S2, the surface layer weft yarns and the bottom layer weft yarns are arranged alternately in a ratio of 2:1, and the weft density on the machine is 50-55/CM.

6. The method for producing a high flame-retardant wall cloth according to claim 1, characterized in that: the surface layer wool weft adopts dyed yarns.

7. The method for producing a high flame-retardant wall cloth according to claim 1, characterized in that: the jacquard is a 2688-needle jacquard, wherein the cloth body is 2640-needle 4-needle, and the weaving width of the machine body is 318 CM.