KR20100011270A - A fabric for a screen blind and a method for manufacturing the same - Google Patents

Abstract

The present invention relates to a screen fabric for a window shade. More specifically, the present invention is a seed / core (Sheath / Core) of the yarn, the seed is a polyester having a low melting point, the core is woven with a flame retardant yarn LM yarn, a polyester having a general melting point, weaving In the window shade fabric obtained by heat treatment (tentering) to give rigidity to the surface, the weight ratio of the LM yarn and the flame retardant yarn is 5:95 to 50:50, the polyester of the general melting point used as the core The present invention relates to a fabric for window shades characterized by being flame retardant polyester.

Description

Flame retardant window shade screen fabric and manufacturing method {A FABRIC FOR A SCREEN BLIND AND A METHOD FOR MANUFACTURING THE SAME}

The present invention relates to a screen fabric for window shades and a method for manufacturing the same, more specifically, the stiffness is a characteristic that is easy to manufacture and excellent in flame retardancy and is required as a window shade without generating any toxic gas during combustion. It relates to an excellent window shade fabric and a method of manufacturing the same.

A screen is a type of window shade product that is generally used in homes, hotels, restaurants, and other buildings for privacy protection and sun protection. It is fixed to the window so that users can unwind the roll to cover the window or roll the roll to secure the view. This product is called roll roll, panel screen, vertical, etc. by cutting fabric in the form of rolls and panels.

Screen fabric having the above characteristics was conventionally produced mainly by using the rear salt method. That is, conventionally by blending a flame retardant to the acrylic resin after weaving blended products such as polyester, T / C, T / R, coated with a roller and knife coating method, by coating the acrylic resin on the fabric in a way to complete the drying, It has been used to provide a flame retardant property while preventing hard loosening of the cut side and physical properties, which are physical properties for use as a screen. However, this conventional method often loses the texture of the original material by immersing or applying acrylic resin to the fabric, and sticks to each other in a roll state at a time of high humidity such as contamination and rainy season. Toxic gas is easily generated during combustion due to a fire or the like, which is not environmentally preferable.

Accordingly, an object of the present invention is to provide a screen fabric having a rigid as a screen shader, without losing the original texture, no deformation due to temperature and humidity, excellent flame retardancy and does not generate toxic gas during combustion. It is to.

Still another object of the present invention is to provide a method for more effectively and easily manufacturing a window shader having the above characteristics.

In order to achieve the above object, the present invention is a yarn of a seed / core structure, wherein the seed is a polyester having a low melting point, and the core is a polyester having a general melting point. In a window shade fabric obtained by weaving a phosphorus LM yarn together with a flame retardant yarn and heat-treated (tentering) to impart rigidity to the fabric surface, the weight ratio of the LM yarn and the flame retardant yarn is 30:70 to 70:30, It provides a window shade fabric, characterized in that the polyester of the general melting point used as the core is a flame retardant polyester.

In addition, the present invention is a seed / core structure of the yarn, the seed is a low melting polyester (Polyester), the core is a step of preparing a LM yarn of a general melting point polyester, and weaving the LM yarn with a flame retardant yarn In the manufacturing method of the screen shade screen fabric for window shade comprising the step of preparing a fabric by processing, and heat-treating (tentering) the fabric to give rigidity to the surface of the fabric, the weight ratio of the LM yarn and the flame retardant yarn 5:95 to 50:50, and the general melting point of the polyester used as the core is a flame retardant polyester is provided a method for producing a screen shade screen fabric.

When the weight ratio of the LM yarn and the flame retardant yarn exceeds 5:95 to 50:50, all of flame retardancy, rigidity, or flame retardancy and rigidity may not satisfy the conditions required for the screen covering for window shades. Preferably, the weight ratio may be 5:95 to 30:70, more preferably 10:90 to 30:70. When the weight ratio is 5:95 to 30:70, both flame retardancy and rigidity is excellent, so it is more preferable to use as a screen cloth for window shades.

The polyester of the seed is a low melting polyester, which means that the low melting point is relatively lower than the melting point of the polyester used for the core. That is, the reference temperature, which means the low melting point, is not particularly determined, and may vary fluidly according to the type of polyester used as the core. Therefore, the melting point temperature for the polyester of the low melting point is not particularly limited, but is preferably 130 to 230 ° C, more preferably 150 to 220 ° C. Preferably, the polyesters of the seeds are prepared by copolymerization or blending of cationic dye cation dyable polyesters.

The polyester used for the core has a general melting point, where the general melting point is a mid-range melting point commonly accepted by those skilled in the art, and means a melting point relatively higher than that of the polyester used in the seed. Although melting | fusing point temperature with respect to the said polyester of the said general melting | fusing point is not specifically limited, Preferably it is 240-300 degreeC, More preferably, it is 240-270 degreeC.

The polyester used for the core has flame retardancy in addition to the general melting point. Screen cloth for window shade according to an embodiment of the present invention, by having a flame-retardant polyester in the inner, that is, the core of the LM company of the seed / core structure, the synergistic effect of the flame retardant yarn present outside the flame retardant core and LM company Due to this, excellent flame retardancy is shown.

Preferably, the low melting polyester and the general melting polyester have a weight ratio of 5:95 to 50:50, more preferably 10:90 to 40:60. Preferably the LM yarn is selected from spun yarn or filament yarn.

The flame retardant yarn used in the present invention is not limited to a specific one, and all kinds of flame retardant yarns can be used. Preferably, the flame retardant yarn has a LOI index (Limited Oxygen Index) of 25 or more, more preferably 28 or more. Since the flame retardant yarn and its manufacturing method are well known in the art, those skilled in the art can select various cooking according to the physical properties of the fabric to be obtained. For example, the flame retardant yarn is 86 wt% to 90 wt% of synthetic resin and polypropylene in the manufacture of a flame retardant yarn which is cooled after the synthetic resin is melt-spun into the yarn in the initial state and is drawn into the yarn in the initial state in which the yarn is cooled. , Flame retardant prepared by mixing 10 wt% to 14 wt% of magnesium hydroxide, tetrabromine bisphenol A and polymer wax, and preparing a flame retardant to make the flame retardant into a particle shape, which is output from the initial yarn manufacturing step. The cooling step of cooling the initial yarn to 15 ° C ~ 30 ° C, and the drawing step of drawing the initial yarn of the cooling step at a temperature of 100 ° C ~ 200 ° C to produce a final yarn.

In addition to the flame retardant, the screen screen fabric for window shades woven from LM and flame retardant yarns according to the present invention can be used for ultraviolet absorbers such as benzotriazole-based or benzophenone-based or other textile processing agents conventionally used to improve the light fastness. have. Antistatic agents, water and oil repellents, antifouling agents, antibacterial agents, moisture absorbents, anti slip agents, and the like, which are generally used as processing agents for textiles, may be additionally used, and the processing agents may be added without departing from the spirit of the essential invention of the present invention. Of course, unless included in the scope of the present invention.

The window screening screen fabric of the present invention configured as described above can be woven in a manner of blending LM yarn and flame retardant yarn or arranging the respective yarns in the inclined yarn. Here, the term 'blend' means that the LM yarn and the flame retardant yarn are mixed and spun, and the term 'array' does not mean the blend, but the LM yarn and the flame retardant yarn are used as the diameter and weft yarn in the fabric, respectively. It means to make the composition of. In other words, the arrangement of LM and flame retardant yarn 1: 4 means that LM, flame retardant yarn, flame retardant yarn, flame retardant yarn, LM yarn, flame retardant yarn, flame retardant yarn, flame retardant yarn, flame retardant yarn, and LM yarn are produced. do. Preferably, the weft yarns are blended, including dope dyeing yarns, special dye yarns, and pre-dyed yarns of ordinary flame retardant yarns. In addition, when the LM yarn and the flame retardant yarn are drilled, blended, or jointly arranged by blending, a textured yarn by an air jet is used as the weft yarn.

The woven fabric is heat-treated according to a conventional method in order to impart the rigidity of the physical properties required as the screen fabric for a certain temperature. Preferably the heat treatment is carried out at a temperature higher than the melting point of the low melting polyester. Although not limited thereto, the heat treatment may be performed at a temperature of 180 to 250 ° C. for 30 to 120 seconds. By heat-treating the fabric surface, the low-melting point polyester of the LM yarn seed portion melts and melts with other LM yarns and flame retardant yarns. In this state, the molten polyester is cured as it is directly cooled and stiffened to provide rigidity to the screen fabric. Therefore, it gives rigidity to the fabric without using the acrylic resin, and furthermore, by not applying other materials such as acrylic resin, it does not lose the texture of the original fabric, and also has high durability against contamination and moisture. In particular, when an environmentally undesirable material such as acrylic resin is used, it is not preferable because toxic gas is generated during combustion due to a fire or the like. However, in the present invention, even when a fire occurs, such a material is not used at all. Does not occur at all. In addition, according to the manufacturing method of the screen shade screen fabric of the present invention can be more easily manufactured screen fabric having the above characteristics can reduce the number of manufacturing process of the screen fabric and improve the workability.

The screen fabric for window shade of the present invention configured as described above is composed of only LM yarn and flame retardant yarns exhibiting flame retardancy, and acrylic resin is not used, thereby giving the fabric a desired degree of rigidity and flame retardancy while simultaneously providing a texture of the original fabric. Do not lose. Moreover, it is highly resistant to pollution and moisture, and does not generate toxic gases during combustion due to fire or the like. In addition, according to the manufacturing method of the window shade screen fabric of the present invention can be more easily manufactured screen fabric having the above characteristics can reduce the number of manufacturing process of the screen fabric, useful to improve the workability Invention.

Hereinafter, the present invention will be described in more detail based on the following examples. However, these are only for the understanding of the present invention and do not limit the scope of the present invention.

Example  One

A seed / core structure filament yarn is used to prepare an LM yarn having a 20:80 ratio of a low melting point polyester having a melting point temperature of 190 ° C. and a core having a melting point temperature of 250 ° C. using a LOI 30 polyester. The fabric was woven by arranging the flame retardant yarn of 30 and the ratio of 10:90. The woven fabric was tension heat treated at 195 ° C. for 60 seconds to obtain a screen shader for window shades.

Example  2

A screen fabric for window shade was obtained in the same manner as in Example 1 except that the use ratio of LM and flame retardant yarns was 20:80.

Example  3

A screen fabric for window shade was obtained in the same manner as in Example 1 except that the use ratio of LM and flame retardant yarns was 40:60.

Example  4

A screen fabric for window shade was obtained in the same manner as in Example 1 except that the use ratio of LM and flame retardant yarns was 50:50.

Example  5

A screen fabric for window shade was obtained in the same manner as in Example 1 except that the use ratio of LM and flame retardant yarns was 60:40.

Comparative example  One

A screen fabric for window shades was obtained in the same manner as in Example 1 except for using a polyester having a melting point of 255 ° C. instead of a flame retardant polyester in the LM core part.

Comparative example  2

A screen fabric for window shades was obtained in the same manner as in Example 2 except that a non-flame-retardant polyester instead of a flame-retardant polyester was used in the LM core part.

Comparative example  3

A screen fabric for window shades was obtained in the same manner as in Example 3 except that a non-flame-retardant polyester instead of a flame-retardant polyester was used in the LM core part.

Comparative example  4

A screen fabric for window shades was obtained in the same manner as in Example 4 except that a non-flame-retardant polyester was used instead of the flame retardant polyester in the LM core part.

Comparative example  5

A screen fabric for window shades was obtained in the same manner as in Example 5 except that a non-flammable polyester general polyester having a melting point of 255 ° C. was used instead of the LM core.

Experimental Example

The rigidity of the fabrics prepared in Examples 1 to 5 and Comparative Examples 1 to 5 was evaluated by visual and touch to determine whether they were suitable for use as a screen for window shades. It also evaluated flame retardancy.

As a result, the fabrics of Examples 1 to 3 were excellent in flame retardancy and each exhibited a certain degree of stiffness, which was judged to be suitable for use as a screen. Examples 4 to 5 and Comparative Example 1 required hardness as a fabric for window shade Although the LOI was 25, it did not show satisfactory flame retardancy. On the other hand, the fabrics of Comparative Examples 2 to 5 were satisfied with the required rigidity as the window shade fabric as in all the other examples, but the LOI was 23, 21, 20 and 20, respectively, so that the flame retardancy was not satisfactory for use as the screen. It was judged inappropriate.

Table 1. Properties of Fabrics Prepared in Examples and Comparative Examples

 Item  Yarn Ratio (wt%)  Weight ratio (% by weight)  Flame retardant LOI ^{c )} Stiffness ^d)  LM company  Flame retardant Low melting point ^a) Flame retardant ^b)  Example 1  10  90  2  98  Very good  29  usually  Example 2  20  80  4  96  Very good  29  Great  Example 3  40  60  8  92  Great  27  Great  Example 4  50  50  10  90  usually  25  Great  Example 5  60  40  12  88  usually  25  Great  Comparative Example 1  10  90  10  90  usually  25  Great  Comparative Example 2  20  80  20  80  usually  23  Great  Comparative Example 3  40  60  40  60  Bad  21  Great  Comparative Example 4  50  50  50  50  Very bad  20  Great  Comparative Example 5  60  40  60  40  Very bad  20  Great

a) is the weight percent of low melting polyester in the fabric and b) represents the total weight percent of the flame retardant material in the fabric. And c), the Limited Oxygen Index, d) indicates the degree of hardening by heat treatment by tentering, and it can be used as the screen paper fabric of the present technology more than ordinary in all the experimental ranges.

For example, the polymer ratio calculation in Example 1 was as follows. In the LM yarn, the ratio of the low-melting point polyester of the seed portion and the flame retardant polyester of the core portion is 20:80, so that 40 × 0.8 (LM yarn) + 60 (flame retardant yarn) = 92% by weight is a flame retardant material, and the remaining 40 × 0.2 (LM company) = 8 weight% becomes a pure low melting-polyester ratio.

As can be seen from Table 1, it can be seen that the physical properties such as flame retardancy, rigidity, etc. can vary greatly depending on the fabric and the structure of the yarn constituting it. That is, the fabrics of Examples 1 to 5 achieved simultaneous improvement of flame retardancy and rigidity, which are difficult to predict from the comparative examples due to its structure and composition characteristics.

1 is a cross-sectional view showing the LM yarn yarn constituting the screen fabric according to the present invention. As shown, the LM yarn 1 is a filament yarn having a seed / core structure, wherein the seed portion is a low melting polyester 11 having a melting point temperature of 130 to 200 ° C., and the core portion is a melting point temperature of 240 to 270 ° C., LOI 25. The flame retardant polyester 12 described above is used. The mixed yarn was made by arranging the LM yarn 1 shown in FIG. 1 and the flame retardant yarn (including metal yarn, etc.) at a weight ratio of 30:70 to 70:30. Weaving was carried out using the blended yarn to obtain a fabric, and the process diagram is shown in FIG. 2.

Figure 2 is an exemplary view showing a development process for developing a non-coated flame retardant window shade screen fabric development.

Claims (13)

As a seed / core yarn, the seed is a polyester having a low melting point, and the core is woven with a flame retardant yarn of LM yarn, a polyester having a general melting point, to impart rigidity to the fabric surface. In the screen fabric for window shades obtained by heat treatment (tentering), The weight ratio of the LM yarn and the flame retardant yarn is 5:95 to 50:50, Screen fabric for window shades, characterized in that the general melting point polyester used as the core is flame retardant polyester. The method of claim 1, The screen cloth for window shades, characterized in that the weight ratio of the LM yarn and the flame retardant yarn is 5:95 to 30:70. The method of claim 1, Polyester of the seed screen material for window shades, characterized in that the melting point temperature is 130 to 230 ℃. The method of claim 1, The low melting point polyester and the general melting point polyester screen weight window fabrics, characterized in that the weight ratio of 5:95 to 50:50. The method of claim 1, The flame retardant yarn window screen fabric, characterized in that the LOI index (Limited Oxygen Index; oxygen limit index) is 25 or more. The method of claim 1, The seed polyester is a screen shade screen fabric, characterized in that produced by copolymerization or blending cation dye salt (cation dyable) polyester. The method of claim 1, The LM yarn and flame retardant yarns are arranged in a weft yarn, and the weaving yarns are woven, wherein the weft yarns are blended including dope dyeing dyeing yarn, special dye yarn, and pre-dyed yarn of general flame retardant yarn. Preparing a LM yarn, wherein the seed is a low melting polyester and the core is a polyester of a common melting point; Preparing a fabric by weaving the LM yarn together with flame retardant yarns; In the manufacturing method of the screen shade screen fabric for window covering comprising the step of heat-treating (tentering) the fabric in order to give rigidity to the fabric surface, The weight ratio of the LM yarn and the flame retardant yarn is 5:95 to 50:50, A general melting point polyester used as the core is a method of manufacturing a screen shade for window shades, characterized in that the flame retardant polyester. The method of claim 8, The weight ratio of the LM yarn and the flame retardant yarn is 5:95 to 30:70 manufacturing method of the screen shade for fabrics characterized in that the. The method of claim 8, Polyester of the seed is a manufacturing method of the screen cloth for window shades, characterized in that the melting point temperature is 130 to 230 ℃. The method of claim 8, The low melting point polyester and the general melting point polyester has a weight ratio of 5:95 to 50:50 manufacturing method of the window shade screen fabric. The method of claim 8, The flame retardant yarn is a method of manufacturing a window shade screen fabric, characterized in that the LOI index is 25 or more. The method of claim 8, When the LM yarn and the flame retardant yarn is drilled, blended, or jointly arranged by blending, a method of manufacturing a screen shade fabric for window shades, characterized in that the textured yarn by air jet is used as a theodolite. .

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