JP2018048432A - Method for producing mesh woven fabric for molding - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for producing a mesh woven fabric by which the woven fabric can be made smooth and prevented from forming gaps when stuck to or embedded in a cement product, a resin product, or the like.SOLUTION: There is obtained a multifilament yarn which is formed by aligning multiple core-sheath type composite fibers having a core component comprising a high-melting-point polymer and a sheath component comprising a low-melting-point polymer. Warp yarns and weft yarns are each obtained by the soft twisting of the multifilament yarn. The warp yarns are divided into an A row group comprising A1 and A2 and a B row group comprising B1 and B2. Each group of the A row group and the B row group is vertically moved to provide gaps in a vertical direction between the A row group and the B row group. Into each gap, a weft yarn C1 is beaten, and then a weft yarn C2 is beaten to weave a mesh woven fabric. The mesh woven fabric and cement or a resin are stacked and heated or compressed to be integrated. Thereby, a cement product or a resin product is obtained.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a method for producing a mesh fabric for molding which is used by being stuck or embedded in a cement product, a resin product or the like.

  Conventionally, a cement fabric is strengthened by attaching or embedding a mesh fabric to a product molded with cement (Patent Document 1). In addition, the resin casing is reinforced by attaching or embedding a mesh fabric to a resin casing of an electronic / electric device such as an electric refrigerator, a microwave oven, and a vacuum cleaner.

  Patent Document 1 describes a mesh fabric woven using strands made of glass fiber or synthetic fiber for warp and weft. However, in such a woven fabric, warps and wefts are mixed while floating and sinking, and the surface of a cement product or a resin product is sometimes difficult to finish smoothly. In addition, since there is an eye (gap) between the warp and the weft, if the mesh fabric is attached or embedded in a state where it can be seen, the eyes in the fabric are mixed, resulting in an unclear fabric pattern. There were times when it was difficult to obtain a product with excellent feeling.

JP 2007-291590 A

  An object of the present invention is to provide a method for producing a mesh woven fabric that can smoothen the woven fabric when it is stuck or embedded in a cement product, a resin product, or the like and that is less likely to cause eyes.

  The present invention solves the above problems by using a specific warp and weft and weaving a specific method to obtain a mesh fabric. That is, the present invention includes a step of obtaining a multifilament yarn in which a core component is made of a high melting point polymer and a sheath component is made of a low melting point polymer to obtain a multifilament yarn, and the multifilament yarn A process of obtaining a warp and a weft by giving a sweet twist; and when n (n is a positive number of 2 or more; the same shall apply hereinafter) warp rows A group are simultaneously moved upward, When n adjacent sweet-twisted warp rows B group are simultaneously moved down, and when the warp row A group is simultaneously moved down, the warp row B group is simultaneously moved up, For forming comprising: a step of providing a vertical gap between the warp row A group and the warp row B group; and a step of weaving a mesh fabric by driving a sweet-twisted weft n times between the gaps The present invention relates to a method for producing a mesh fabric.

  The warp and weft used in the present invention are obtained by applying a sweet twist to a multifilament yarn. The multifilament yarn is formed by drawing a plurality of core-sheath composite fibers in which a core component made of a high-melting polymer and a sheath component made of a low-melting polymer are combined in a core-sheath type. The number of core-sheath type composite fibers constituting the multifilament yarn is arbitrary, but is generally 50 or more. When this number is small, it becomes difficult to widen the width of the warp and the weft. The fineness of the multifilament yarn is also arbitrary, but is generally 800 dtex or more. When the fineness of the multifilament yarn is too low, it becomes difficult to express a clear fabric pattern. As the combination of the core component and the sheath component, polyethylene terephthalate / polyethylene, polyethylene terephthalate / polypropylene, polyethylene terephthalate / maleic acid modified polyethylene, polyethylene terephthalate / maleic acid modified polypropylene, polyethylene terephthalate / (mixture of polyethylene and maleic acid modified polyethylene), Conventionally known combinations such as polyethylene terephthalate / (mixture of polypropylene and maleic acid-modified polypropylene) and polyethylene terephthalate / low melting point polyester can be mentioned. The weight ratio of the core component and the sheath component is about core component: sheath component = 1: 1 to 5. The reason why the low melting point polymer is used as the sheath component is to soften or melt the sheath component to improve the adhesion to cement or resin and to fuse the warp and the weft. The reason why the high melting point polymer is used as the core component is to make the core component retain the original fiber form and make it easy to express the fabric pattern even when the sheath component is softened or melted.

  Warps and wefts are multifilament yarns that are sweet-twisted. The reason for applying a sweet twist is that the width of the warp and weft yarns can be easily expanded when it is integrated with cement and resin by making the twist sweet, the fabric itself is smoothed and the warp yarn is clogged. This is because the eyes between the wefts disappear. The sweet twist generally has a twist number of about 60 to 120 T / M, and preferably 50 to 70 T / M. If the number of twists is too large, the width of the warp and the weft will not easily expand when integrated with cement or resin. On the other hand, when the number of twists is too small, fluff is likely to occur in the warp and the weft and the weaving property is lowered. The warp and the weft may be colored with a dye or a pigment, or may not be colored. In particular, it is preferable that the warp and the weft are colored differently because the fabric pattern becomes clear.

  A method for weaving a woven fabric using warp and weft will be described. The warp is divided into a plurality of warp rows A group and a plurality of warp rows B group adjacent to the warp row A group. More specifically, based on FIG. 1 and FIG. 2, the warp A1 and the warp A2 constitute two warp rows A, the warp B1 and the warp B2 constitute two warp rows B, and the warp row A group. And the warp row B group are divided so as to be adjacent to each other. In FIG. 1 and FIG. 2, the warp rows A and B are both composed of two warps, but this number may be three or four or more. Further, the number of warps constituting the warp rows A and B may be the same or different. The reason why the number of the warp rows A group and B group is 2 or more is that the width of the warp is greatly increased to eliminate the fabric eyes and to clearly express the fabric pattern.

  In order to divide the warp rows A and B, out of the two reeds provided in the loom, the warp yarns A1 and A2 are passed through one of the reeds, and the other side does not pass through the warp yarns on both sides. The warp yarns B1 and B2 may be passed through and repeated. When the warp is moved up and down, the warp row A group is moved up, the warp row B group is moved down. When the warp row A group is moved down, the warp row B group is moved up. Move to. Thereby, a gap is generated in the vertical direction between the warp row A group and the warp row B group. Then, the weft C1 is driven into this gap, and then the weft C2 is driven. 1 and 2 show an example in which wefts are driven twice, but they may be driven three times or four times or more. The reason why the weft is driven twice or more into the gap formed between the warp rows A and B is to widen the width of the weft so that the fabric pattern disappears and the fabric pattern is clearly expressed. .

  The mesh fabric obtained by the method according to the present invention, for example, is applied to the surface of the cement body after being stretched on the surface of the cement body, and is pressed with the cement body to obtain a cement product. Can do. In addition, the mesh fabric and the resin film were laminated and heated and pressurized to soften or melt the sheath component of the core-sheath type composite fiber of the mesh fabric, and to soften or melt the resin film to integrate the two. A resin product can be obtained. Furthermore, by placing a mesh fabric in the mold and press-fitting a high-temperature molten resin into the mold, the mesh fabric and the molten resin are joined and then solidified, and both are integrated into a resin product. You can also get It is also possible to mold the mesh fabric alone. That is, creating an arbitrary three-dimensional form with a mesh fabric, heating and pressurizing it, softening or melting only the sheath component in the core-sheath composite fiber, and fusing and fixing the warp and weft, It is also possible to obtain a molded product of the mesh fabric alone by closing the mesh fabric.

  When a cement product or a resin product is molded using the mesh fabric obtained by the method according to the present invention, the mesh fabric has warp yarns and weft yarns made of sweet-twisted multifilament yarns arranged in a specific manner. During pressurization, the widths of the warp and weft are greatly expanded, the fabric becomes smooth and the fabric is clogged and disappears. For example, when the mesh fabric shown in FIG. 1 is used, the state shown in FIG. 3 is obtained, and in the case of the mesh fabric shown in FIG. 2, the state shown in FIG. 4 is obtained. Therefore, the cement product and the resin product obtained by the method according to the present invention have a smooth surface and can express a clear fabric pattern and have an excellent appearance. In addition, since cement products and resin products can be reinforced with mesh fabrics, products with good mechanical strength can be obtained even if the amount of cement or resin used is reduced. Therefore, there is an effect that the cement product and the resin product can be reduced in weight.

Example 1
A core-sheath type composite fiber having a core component made of polyethylene terephthalate (melting point 260 ° C.), a sheath component made of polyethylene (melting point 130 ° C.), and a core component: sheath component = 1: 2.7 (weight ratio), 192 A single filament multifilament yarn of 1670 dtex was obtained by this regular drawing. This multifilament yarn was subjected to a sweet twist of 60 T / M in the S direction with a ring twisting machine to prepare warp and weft. The mesh fabric shown in FIG. 2 was obtained using the warp and the weft so that the warp density was 22 / inch and the weft density was 22 / inch. This mesh fabric and a polyethylene film were laminated, and heated and pressurized under the conditions of a temperature of 150 ° C., a pressure of 0.4 MPa, and a time of 60 seconds to obtain a resin product. This resin product had a smooth surface and a clear fabric pattern as shown in FIG.

Example 2
A resin product was obtained in the same manner as in Example 1 except that the warp density and the weft density were changed to 25 / inch. This resin product also had a smooth surface and a clear fabric pattern as shown in FIG.

Example 3
The mesh fabric shown in FIG. 1 was obtained by using the warp and weft used in Example 1 so that the warp density was 28 / inch and the weft density was 28 / inch. Using this mesh fabric, heating and pressing were performed under the same conditions as in Example 1 to obtain a resin product. This resin product had a smooth surface and a clear fabric pattern as shown in FIG.

Example 4
The core component is made of polyethylene terephthalate (melting point 260 ° C.), the sheath component is made of a mixture of 70 parts by weight of polyethylene (melting point 130 ° C.) and 30 parts by weight of maleic acid-modified polyethylene (melting point 122 ° C.), and the core component: sheath component = 1. : 192 core-sheath type composite fibers having a weight ratio of 2.7 were aligned to obtain 1670 dtex multifilament yarns. This multifilament yarn was subjected to a sweet twist of 60 T / M in the S direction with a ring twisting machine to prepare warp and weft. The mesh fabric shown in FIG. 2 was obtained by using the warp and the weft so that the warp density was 28 / inch and the weft density was 28 / inch. This mesh fabric and a polypropylene film were laminated, and heated and pressurized under the conditions of a temperature of 150 ° C., a pressure of 0.4 MPa, and a time of 60 seconds to obtain a resin product. This resin product had good adhesion between the polypropylene film and the mesh fabric, had a smooth surface, and the gloss of the polypropylene film appeared, and had a clear fabric pattern as shown in FIG.

It is a typical surface view of the mesh fabric used in an example of the present invention. It is a typical surface view of the mesh fabric used in the other example of the present invention. It is a typical surface view which shows the state after heat-pressing using the mesh fabric of FIG. It is a typical surface view which shows the state after heat-pressing using the mesh fabric of FIG.

A1 Warp A2 Warp B1 Warp B2 Warp C1 Weft C2 Weft

Claims (4)

A step of obtaining a multifilament yarn in which a core component is made of a high melting point polymer and a sheath component is made of a plurality of core-sheath composite fibers made of a low melting point polymer;
Applying a sweet twist to the multifilament yarn to obtain warps and wefts;
n (n is a positive number of 2 or more. The same applies hereinafter.) When the warp row A group is simultaneously moved upward, n sweet-twisted warp row B groups adjacent to the warp row A group Are simultaneously moved downward, and when the warp row A group is simultaneously moved downward, the warp row B group is simultaneously moved upward, and the warp row A group and the warp row B group are Providing a gap in the vertical direction;
A method for producing a mesh fabric for molding, comprising a step of weaving a mesh fabric by driving a sweet-twisted weft n times between the gaps.   The method for producing a mesh fabric for molding according to claim 1, wherein the sweet twist applied to the warp and the weft is a twist of 50 to 70 T / M.   The method for producing a mesh fabric for molding according to claim 1, wherein the warp and the weft are different colors.   The method for producing a mesh fabric for molding according to claim 1, wherein the core component is polyethylene terephthalate and the sheath component is polyolefin and / or maleic acid-modified polyolefin.

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