INDUSTRIAL TWO-LAYERED FABRIC

Abstract

[Task] To provide an industrial two-layered fabric with a long durability which exhibits an excellent surface smoothness and excellent marking characteristics, while at the same time improving wear resistance characteristics to balance warps and wefts.

[Solution to the Task] The industrial two-layered fabric formed by binding at least one upper surface side fabric constituted by upper surface side warps and upper surface side wefts and at least one lower surface side fabric constituted by lower surface side warps and lower surface side wefts, by binding yarns, a portion of said lower surface side warps is woven with said upper surface side wefts to constitute binding yarns of the lower surface side warps serving as the binding yarn binding said at least one upper surface side fabric and said at least one lower surface side fabric, diameters of said binding yarns of the lower surface side warps are set to be the same as diameters of said upper surface side warps, and diameters of all of the lower surface side warps not serving as the binding yarns are set to be the same and larger than diameters of said upper surface side warps and said binding yarns of the lower surface side warps.

Claims

1. The industrial two-layered fabric formed by binding at least one upper surface side fabric constituted by upper surface side warps and upper surface side wefts and at least one lower surface side fabric constituted by lower surface side warps and lower surface side wefts, by binding yarns, a portion of said lower surface side warps is woven with said upper surface side wefts to constitute binding yarns of the lower surface side warps serving as the binding yarn binding said at least one upper surface side fabric and said at least one lower surface side fabric, diameters of said binding yarns of the lower surface side warps are set to be the same as diameters of said upper surface side warps, and diameters of all of the lower surface side warps not serving as the binding yarns are set to be the same and larger than diameters of said upper surface side warps and said binding yarns of the lower surface side warps.

2. The industrial two-layered fabric formed by binding at least one upper surface side fabric constituted by upper surface side warps and upper surface side wefts and at least one lower surface side fabric constituted by lower surface side warps and lower surface side wefts, by binding yarns, a portion of said lower surface side warps is woven with said upper surface side wefts to constitute binding yarns of the lower surface side warps serving as the binding yarn binding said at least one upper surface side fabric and said at least one lower surface side fabric, a portion of said upper surface side warps is woven with said lower surface side wefts to constitute binding yarns of the upper surface side warps serving as the binding yarn binding said at least one upper surface side fabric and said at least one lower surface side fabric, diameters of all of said binding yarns of the lower surface side warps, said upper surface side warps and said binding yarns of the upper surface side warps are set to be the same, and diameters of all of the lower surface side warps not serving as the binding yarns are set to be the same and larger than diameters of said upper surface side warps, said binding yarns of the upper surface side warps and said binding yarns of the lower surface side warps.

3. The industrial two-layer layered fabric according to claim 1, wherein the difference of the diameters among said upper surface side warps, said binding yarns of the lower surface side warps and said lower surface side warps are set be within a range of the following equation.
the diameter of lower surface side warp(φ)/the diameter of upper surface side warp or binding yarn of the lower surface side warp(φ)=1<φ<=2

4. The industrial two-layer layered fabric according to claim 2, wherein the difference of the diameters among said upper surface side warps, said binding yarns of the upper surface side warps, said binding yarns of the lower surface side warps and said lower surface side warps are set be within a range of the following equation.
the diameter of lower surface side warp(φ)/the diameter of upper surface side warp or binding yarn of the upper surface side warp and binding yarn of the lower surface side warp(φ)=1<φ<=2

5. The industrial two-layer layered fabric according to claim 1, wherein the difference of the diameters of said lower surface side warps not serving as the binding yarns and said lower surface side wefts are set to be within a range of the following equation.
the diameter of lower surface side warp not serving as the binding yarn(φ)/the diameter of lower surface side weft(φ)=1<φ<=2.5

Description

DETAILED DESCRIPTION OF THE INVENTION

[0038] Now, the structure and the effect of the fabric of the present invention will be described below. Since the following embodiment is a mere example of the present invention, any embodiment which is not explicitly described below can be within the scope of the present invention.

[0039] The industrial two-layered fabric of this embodiment is constituted by binding the upper surface side fabric including the upper surface side warps and the upper surface side wefts and the lower surface side fabric including the lower surface side warps and the lower surface side wefts by means of the binding yarns.

[0040] No particular limitation is imposed on a yarn to be used in the present invention and it can be selected freely depending on the properties which an industrial fabric is desired to have. Examples of it include, in addition to monofilaments, multifilaments, spun yarns, finished yarns subjected to crimping or bulking such as so-called textured yarn, bulky yarn and stretch yarn, and yarns obtained by intertwining them. As the cross-section of the yarn, not only circular form but also square or short form such as stellar form, or elliptical or hollow form can be used. The material of the yarn can be selected freely and usable examples of it include polyester, polyamide, polyphenylene sulfide, polyvinylidene fluoride, polypropylene, aramid, polyether ketone, polyethylene naphthalate, polytetrafluoroethylene, cotton, wool and metal. Of course, yarns obtained using copolymers or incorporating or mixing the above-described material with a substance selected depending on the intended purpose may be used.

[0041] The fabric of the present invention includes the biding yarns of the lower surface side warps serving as the binding yarns binding the upper surface side fabric and the lower surface side fabric by a portion of the lower surface side warps being woven with the upper surfaces side wefts.

[0042] Here, in the fabric of the present invention, the diameters of all the biding yarns of the lower surface side warps are set to be the diameters of the upper surface side warps. In addition, the diameters of the lower surface side warps not serving as the binding yarns are set to be same.

[0043] Further, the diameters of the lower surface side warps not serving as the binding yarns are set to be the diameters of the upper surface side warps and the binding yarns of the lower surface side warps.

[0044] In a case where the diameters of the lower surface side wefts are set to be larger than the diameters of the upper surface side wefts, the balance of the two-layered fabric can be improved. In addition, the cutting of the warps due to their wear can be alleviated by setting the diameters of the lower surface side warps to be large, so that the two-layered fabric with a long durability can be provided.

[0045] Further, the worsening of the surface property can be prevented by adopting the binding yarns of the lower surface side warps serving as the binding yarns and setting the diameters of the binding yarns of the lower surface side warps and the diameters of the upper surface side warps to be same. In particular, in the present invention, the upper surface side fabric with different diameters are not mixed by adopting a portion of the lower surface side warps as the binding yarns, setting the diameters of all the upper surface side warps to be same, and setting the diameters of all the lower surface side warps not serving as the binding yarns to be same, so that the worsening of the surface property can be prevented, whereby the surface smoothness and the marking characteristics can be improved.

[0046] Now, the embodiments of the present invention will be described below with reference to the drawings. FIG. 2 is a design view of the industrial fabric according to the first embodiment of the present invention. FIG. 1 is a design view of the industrial two-layered fabric according to the first embodiment of the present invention. FIG. 2 is a longitudinal cross section view showing a structure of the yarns with respect to the industrial fabric according to the first embodiment of the present invention. FIG. 3 is a design view of the industrial two-layered fabric according to the second embodiment of the present invention. FIG. 4 is a longitudinal cross section view showing a structure of the yarns with respect to the industrial fabric according to the second embodiment of the present invention.

[0047] Here, the design view corresponds to the complete structure of the fabric defining the minimum unit to be repeated of the fabric structure. A structure of the whole fabric is formed by the complete structures woven with each other in the upper and lower directions, and in the left and right directions. In addition, the longitudinal cross sectional view is the one showing a situation in which the warps are woven with each other in the complete structure. In each of the design views, the warp is indicated by a reference number such as 1,2,3 . . . . The warp binding yarn weaving the upper and lower wefts is indicated by the reference number to which b is attached. The upper and lower warps are indicated by the reference number to which U and L are attached, respectively. In each of the design views, the warps with the same reference numbers indicate to form a set, so that, in FIG. 2, the upper surface side warp U and the lower surface side warp L, the upper surface side warp U and the binding yarn b, and the upper surface side binding yarn Ub and the lower surface side binding yarn Lb form a set, respectively, for instance. In FIG. 3, the upper surface side warp U and the lower surface side warp L, the binding yarn of the upper surface side warp Ub, and the binding yarn of the lower surface side warp Lb form a set.

[0048] The weft is indicated by a reference number such as 1′,2′,3′ . . . . There is a case in which the upper surface side wefts and the lower surface side wefts are arranged upper and lower, respectively, and there is another case in which the only upper surface side wefts are arranged upper. The upper surface side weft and the lower surface side weft are indicated by the reference number to which U and L are attached, respectively, such as 1′U, 2′ L, etc.

[0049] In each of the design views, a symbol “□” indicates that the lower surface side warp (L) or the binding yarn of the lower surface side warp (Lb) is arranged below the lower surface side weft to form a knuckle, and a symbol “◯” indicates that the upper surface side warp (U) is arranged above the upper surface side weft to form a knuckle, and a symbol “Δ” indicates that the binding yarn of the lower surface side warp (Lb) is arranged below the lower surface side weft to form a knuckle, and a symbol “.square-solid.” indicates that the binding yarn of the upper surface side warp (Ub) is arranged below the lower surface side weft to form a single knuckle. More specifically, all the symbols show a position where the upper surface side fabric and the lower surface side fabric area bound with each other.

[0050] In the design view, the warps and the wefts on the upper surface side are depicted to be precisely arranged over the warps and the wefts on the upper surface side, because of the clarity of the drawing. In the real fabric, it does not matter if they are arranged to be offset.

First Embodiment

[0051] FIGS. 1 to 2 are a design view and a cross section view showing an industrial two-layered fabric according to the first embodiment, respectively.

[0052] As shown in FIGS. 1 and 2, the industrial two-layered fabric of the first embodiment includes upper surface side warps (1U˜8U), lower surface side warps (2L˜4L, 6L˜8L), and lower surface side warps 1Lb, 5Lb each serving as a binding yarn. In this connection, the diameters of the upper surface side warps (1U˜8U) are set to be same as the diameters of the binding yarns of the lower surface side warps 1Lb, 5Lb. In addition, the diameters of all the lower surface side warps (2L˜4L, 6L˜8L) which do not serve as the binding yarns are set to be same.

[0053] Further, the diameters of the lower surface side warps (2L˜4L, 6L˜8L) which do not serve as the binding yarns are set to be larger than the diameters of the upper surface side warps (1U˜8U) and the lower surface side warps 1Lb, 5Lb. By adopting such a structure, the cutting of the warps due to their wear can be alleviated, so that the industrial two-layered fabric with an excellent durability can be provided.

[0054] Still further, as shown in FIGS. 1 and 2, the industrial fabric of the first embodiment includes upper surface side wefts (1′U˜16′U), and lower surface side wefts( 1′L, 3′L, 5′L,7′L,9′L, 11′L, 13′L,15′L) to form sixteen shafts.

[0055] An arranging ratio of the upper surface side wefts (1′U˜16′U) to the lower surface side wefts (1′L, 3′L . . . ) is two.

[0056] In the first embodiment, as shown in FIG. 2, the upper surface side warps 1U˜8U pass below the three upper surface side wefts and above the one upper surface side weft. In addition, the lower surface side warps 2L, 3L, 4L,6L,7L, 8L pass below the one lower surface side weft and above the one lower surface side weft in an alternate manner. Further, the lower surface side warp 1Lb which serves as the binding yarn passes above the upper surface side weft 1′U toward the lower surface side to pass below the lower surface side weft 5′L, the lower surface side weft 9′L and the lower surface side weft 13′L.

[0057] In the industrial two-layered fabric of the first embodiment, by adopting such a structure, as shown in FIGS. 1 and 2, the upper surface side fabric with the warps of different diameters are not adapted to be mixed with each other. As a result, the worsening of the surface property can be prevented, so that the surface smoothness and the marking characteristics can be improved.

Second Embodiment

[0058] FIGS. 3 to 4 are a design view and a cross section view showing an industrial two-layered fabric according to the second embodiment, respectively.

[0059] As shown in FIGS. 3 and 4, the industrial two-layered fabric of the second embodiment includes the upper surface side warps 2U˜4U,6U˜8U, the lower side warps 2L˜4L,6L˜8L and upper surface side warps 1Ub, 5Ub each serving as a binding yarn. In this connection, the diameters of the upper surface side warps 2U˜4U,6U˜8U, the upper surface side warps 1Ub, 5Ub each serving as a binding yarn and the binding yarns of the lower surface side warps 1Lb, 5Lb are all set to be same. In addition, the diameters of all the lower surface side warps (2L˜4L, 6L˜8L) which do not serve as the binding yarns are set to be same.

[0060] Further, the diameters of the lower surface side warps (2L˜4L, 6L˜8L) which do not serve as the binding yarns are set to be larger than the diameters of the upper surface side warps (2U˜4U, 6U˜8U), the upper surface side warps 1Ub, 5Ub, and the lower surface side warps 1Lb, 5Lb. By adopting such a structure, the cutting of the warps due to their wear can be alleviated, so that the industrial two-layered fabric with an excellent durability can be provided.

[0061] Still further, as shown in FIGS. 3 and 4, the industrial fabric of the second embodiment includes upper surface side wefts (1′U˜16′U), and lower surface side wefts (1′L, 3′L, 5′L,7′L,9′L, 11′L, 13′L,15′L) to form sixteen shafts.

[0062] An arranging ratio of the upper surface side wefts (1′U˜16′U) to the lower surface side wefts (1′L, 3′L . . . ) is two.

[0063] In the second embodiment, as shown in FIG. 4, the upper surface side warps 2U,3U,4U,6U, 7U,8U pass below the three upper surface side wefts and above the one upper surface side weft. In addition, the lower surface side warps 2L, 3L, 4L,6L,7L, 8L pass below the one lower surface side weft and above the one lower surface side weft in an alternate manner. Further, the lower surface side warp 1Lb which serves as the binding yarn passes above the upper surface side weft 1′U toward the lower surface side to pass below the lower surface side weft 5′L, the lower surface side weft 9′L and the lower surface side weft 13′L. Still further, the upper surface side warp 1Ub which serves as the binding yarn passes below the lower surface side weft 1′L toward the upper surface side to pass above the upper surface side weft 5′U, the upper surface side weft 9′U and the upper surface side weft 13′U.

[0064] In the industrial two-layered fabric of the second embodiment, by adopting such a structure, as shown in FIGS. 3 and 2, the upper surface side fabric with the warps of different diameters are not adapted to be mixed with each other. As a result, the worsening of the surface property can be prevented, so that the surface smoothness and the marking characteristics can be improved.

[0065] 1Ub, 5Ub binding yarn of upper surface side warp serving as binding yarn

[0066] 1Lb, 5Lb binding yarn of lower surface side warp serving as binding yarn

[0067] 1U˜8U upper surface side warp

[0068] 2L˜4L, 6L˜8L lower surface side warp

[0069] 1′U˜16′U upper surface side weft

[0070] 1′L, 3′L, 5′L, 7′L,9′L, 11′L, 13′L, 15′L lower surface side weft