Industrial fabric

Abstract

An industrial fabric includes upper surface side warps, lower side warps, wefts and an auxiliary yarn. Each of the lower side warps is arranged below each of the upper side warps respectively. The upper side warps and the lower side warps are woven by the wefts. The auxiliary yarn is disposed between the upper side warps and the lower side warps without being woven by the upper side warps and the lower side warps. The auxiliary yarn is disposed between two of the adjacently disposed wefts.

Claims

1. An industrial fabric, comprising upper surface side warps, lower side warps, wefts and an auxiliary yarn, the upper surface side warps, the lower side warps and the wefts form the industrial fabric; wherein each of the lower side warps is arranged below each of the upper side warps respectively; the upper side warps and the lower side warps are woven by the wefts; the auxiliary yarn is disposed between the upper side warps and the lower side warps, none of the upper side warps goes under the auxiliary yarn and none of the lower side warps goes over the auxiliary yarn; and the auxiliary yarn is disposed between two of the adjacently disposed wefts, wherein the wefts include upper wefts, middle wefts and lower wefts, each of the upper wefts is stacked above each of the middle wefts and each of the middle wefts is stacked above each of the lower wefts; each of the upper warps goes over the upper wefts or under the middle wefts and does not go under the lower wefts; and each of the lower warps goes over the middle wefts or under the lower wefts and does not goes over the upper wefts.

2. The industrial fabric according to claim 1, wherein the auxiliary yarns are disposed between the upper wefts, between the middle wefts or between the lower wefts.

3. An industrial fabric comprising a minimum repeated unit, wherein the repeated unit consisting of a first upper warp, a second upper warp that is disposed adjacent to the first upper warp, the first upper warp is stacked above a first lower warp, the second upper warp is stacked above a second lower warp, a first upper weft that is stacked above a first middle weft, the first middle weft is stacked above a first lower weft, a second upper weft that is stacked above a second middle weft, the second middle weft is stacked above a second lower weft, a first auxiliary yarn arranged adjacent to one side of the first upper weft, the first middle weft or the first lower weft and a second auxiliary yarn that is arranged between the first and second upper wefts, between the first and second middle wefts or between the first and second lower wefts, the second auxiliary yarn is arranged adjacent to another side that is opposite to the one side of the first upper weft, the first middle weft or the first lower weft; wherein in the repeated unit, the first upper warp goes over the first auxiliary yarn, over the first upper weft, over the second auxiliary yarn and between the second middle and second lower wefts, the first lower warp goes under the first auxiliary yarn, between the first upper and first middle wefts, under the second auxiliary yarn and under the second lower weft, the second upper warp goes over the first auxiliary yarn, between the first middle and first lower wefts, over the second auxiliary yarn and over the second upper weft, the second lower warp goes under the first auxiliary yarn, under the first lower weft, under the second auxiliary yarn and between the second upper and second middle wefts.

4. The industrial fabric according to claim 3, wherein a diameter of the auxiliary yarn is larger than a diameter of the wefts.

5. The industrial fabric according to claim 3, wherein the upper surface side warps are made of fluorine resin, and the wefts are made of material other than fluorine resin.

Description

BRIEF EXPLANATION OF DRAWINGS

(1) FIG. 1 is a design view showing a complete structure of the first embodiment according to the present invention.

(2) FIG. 2 is a cross section view taken along the warp of the first embodiment.

(3) FIG. 2(a) is a cross section view taken along 1U and 1L in FIG. 1.

(4) FIG. 2(b) is a cross section view taken along 2U and 2L in FIG. 1.

DETAILED DESCRIPTION OF THE INVENTION

(5) Now, the structure and the effect of the industrial fabric of the present invention will be described below. Embodiments of the industrial fabric of the present invention will be described thereafter with reference to the drawings.

(6) The technical feature of the industrial fabric of the present invention is that the upper surface side warp and the lower surface side warp are laminated to be woven by a plurality of wefts. The density of the warp can be increase by adopting double warps-single weft woven type as a fundamental structure of the industrial fabric. Based on this, the surface smoothness can be highly improved by the fact that the knuckles emerging on the surface of the fabric are formed by the upper surface side warp and the number of the knuckles is increased.

(7) In addition, according to the industrial fabric of double warps-single weft woven type of the present invention, the auxiliary weft is arranged between the adjacent wefts. The technical feature of the auxiliary weft is that the auxiliary wefts are kept arranged between the upper surface side warp and the lower surface side warp without the upper and lower surface warps being woven with each other between the adjacent wefts. Although the surface smoothness can be highly improved by adopting double warps-single weft woven type as a fundamental structure of the industrial fabric, the rigidity is decreased. In order to solve such a technical problem, the specific auxiliary wefts are kept arranged between the upper surface side warp and the lower surface side warp without the upper and lower surface warps being woven with each other between the adjacent wefts. The rigidity same as that of the conventional fabric of double-wefts type can be obtained by such specific auxiliary wefts.

(8) Further, in the industrial fabric of double warps-single weft woven type of the present invention, upper side floating yarns may be arranged above the weft so as to be woven with the upper surface side warp only. In the industrial fabric of the present invention, material with an excellent rigidity such as PET is adopted as the wefts in order to improve the rigidity. While on the other hand, a technical problem in which the wefts emerge on the surface of the fabric is raised. By arranging the upper side floating yarns above the weft, such a technical problem is solved, in other words, the wefts are prevented from emerging on the surface of the fabric.

(9) Still further, in the industrial fabric of double warps-single weft woven type of the present invention, lower side floating yarns may be arranged below the weft so as to be woven with the lower surface side warp only. By contacting such floating yarns with the upper surface side warps and/or the lower surface side warps, the shift of the warps can be controlled so as to adjust the positions at which the upper and lower warps are overlapped with each other, whereby the on-stack structure of the upper and lower warps can be controlled.

(10) Still further, in the industrial fabric of double warps-single weft woven type of the present invention, the diameter of the auxiliary weft may be set to be larger than that of the weft. By making the diameter of the auxiliary weft large, the degree of the exposure of the warp on the surface can be largely increased. In addition, the rigidity of the fabric can be largely increased by adopting the auxiliary weft with the large diameter. Further, the wefts are bound inside, even if the upper surface side floating yarns are not used, by adopting the auxiliary weft with the large diameter. Still further, the shift of the upper and lower warps can be controlled, whereby the on-stack structure of the upper and lower warps can be controlled by adopting the auxiliary weft with the large diameter.

(11) The upper surface side warps and the upper surface side floating yarns may be preferably formed by fluorine resin, and the weft may be preferably formed by yarns made of material other than fluorine resin.

(12) By adopting such a structure, since yarns emerging on the surface can be formed by fluorine resin with excellent anti-dirt characteristic, anti-dirt effect can be sufficiently obtained. In addition, since the number of relatively expensive yarns made of fluorine resin in the lateral direction can be decreased, the cost of manufacturing the fabric can be lowered.

(13) Further, by adopting such a structure, the wefts with the binding function can be formed by yarns with higher strength than that of fluorine resin, such as PET. The inner binding in which the binding yarns are not exposed on the surface by adopting the wefts as the binding yarns. In other words, the yarns such as PET can be prevented from being exposed on the surface of the upper surface side fabric formed by only fluorine resin.

(14) The fluorine resin which is material for the upper surface side warps and the upper surface side wefts of the fabric of the present invention may be preferably composite resin containing fluorine with high anti-dirt. For instance, at least one material can be selected from a group of polytetrafluoroethylene (PTFE), copolymer of tetrafluoroethylene and hexafluoropropylene (FEP), copolymer of tetrafluoroethylene and fluoro vinyl ether (PFA), polyvinylidene fluoride (PVDF), copolymer of ethylene and tetrafluoroethylene (ETFE), and copolymer of ethylene and chlorotrifluoroethylene (ECTFE). In particular, ETFE is suitable for the anti-dirt characteristics and cost.

(15) In this connection, it is preferable to impregnate silicon resin in the fluorine resin material (water dispersion) in order to improve the flexibility. In addition, the color of the surface of the fabric can be freely changed by adding various kinds of pigment to the fluorine resin material (water dispersion).

(16) The material of the yarns other than fluorine resin used for the wefts of the industrial fabric of the present invention can be freely selected in accordance with the characteristics desired for the industrial fabric, and is not limited to the specific material.

(17) The configuration of the yarn includes, 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, taslan yarns, mole yarns, 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, 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.

(18) In particular, in a case where spun yarns, processed yarns such as crimping or bulking, or the flexible yarns with a large diameter such as mole yarn, for the upper layer weft is used, the upper layer surface tends to be covered by theses yarns, so that the difference of the appearance between the bonding portion and the ordinary portion can be hardly distinguished from each other, from the upper layer side.

(19) The material of the yarns other than fluorine resin used for the wefts of the industrial fabric of the present invention can be freely selected in accordance with the characteristics desired for the industrial fabric, and is not limited to the specific material.

(20) The configuration of the yarn includes, 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.

(21) Since the yarn constituting the fabric for unwoven fabric generally includes a high rigidity, polyester monofilaments with excellent dimension stability may be preferably adopted.

(22) Further, in the industrial fabric of the present invention, the ratio of the arrangement of the upper surface side floating yarn and/or the lower surface side floating yarn to the weft may preferably be set to be 1:1. The shift of the warp can be restricted by adopting such a structure to cause the warp to contact the floating yarn. In particular, the looseness of the warp can be fully controlled by sandwiching a single weft between a single upper surface side floating yarn and a single lower surface side floating yarn.

(23) Now, the embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is the conceptual plain view showing the complete structure of the first embodiment 1. The industrial fabric of the first embodiment is the one for unwoven fabric. Here, the design view corresponds to the complete structure of the fabric defining the minimum unit to be repeated of the fabric structure. The fabric recited in the claims corresponds to this complete structure. The final product is completed by combining any number of such complete structures in the longitudinal direction and the direction perpendicular to the longitudinal direction.

(24) In each of the design views, the warp is indicated by a reference number such as 1,2, while the weft is indicated by a reference number such as 1, . . . 4. The upper and lower warps are indicated by the reference number to which U and L are attached, respectively. The weft which functions as the binding yarn is indicated by adding W, such as 2W. Further, the auxiliary weft is indicated by S, while, the floating yarn is indicated by f.

(25) In each of the design views, a symbol X indicates that the upper surface side warp is arranged above the upper surface side weft to form a knuckle on the surface of the fabric, and a symbol indicates that the lower surface side warp is arranged below the weft. A solid square symbol .square-solid. indicates that the upper surface side floating yarn is arranged above the upper surface side warps to form a knuckle on the surface of the fabric, and an open square symbol indicates that the lower surface side floating yarn is arranged below the lower surface side warps.

(26) The upper surface side warps and the lower surface side warps are overlapped in the vertical direction to form an on-stack structure.

(27) As shown in FIG. 1, in the industrial fabric for the unwoven fabric of the present invention, the upper surface side warps (1U,2U) and the lower surface side warps (1L,2L) are laminated in the vertical direction. Such upper and lower surface side warps are woven with a plurality of wefts (2W, 4W).

(28) Auxiliary wefts (1S,3S) are arranged between the adjacent wefts (2W, 4W) and kept located between the upper surface side warps (1U,2U) and the lower surface side warp (1L,2L) without being woven with the upper and lower surface side warps.

(29) As shown in FIG. 2(a), in the industrial fabric for the unwoven fabric of the present invention, upper surface side floating yarns (2Uf, 4Uf) are arranged above the wefts (2W 4W) with being woven with the upper surface side warp (1U) only. In addition, the upper surface side warp (1U) passes over the upper surface side floating yarn (2Uf) and passes under the upper surface side floating yarn (4Uf). Further, the upper surface side warp (1U) passes under the weft (4W). The lower surface side warp (1L) passes above the weft (2W). Still further, lower surface side floating yarns (2Lf, 4Lf) are arranged below the wefts (2W, 4W) with being woven with the lower surface side warp (1L) only.

(30) Such being the case, the rigidity same as that of the conventional double-wefts type can be obtained by arranging the auxiliary wefts (1S,3S) between the adjacent wefts (2W, 4W).

(31) Here, the ratio of arrangement of the upper surface side floating yarn and the lower surface side floating yarn to the weft is set to be 1:1. The technical problem in which the wefts (2W, 4W) emerge on the surface of the fabric can be solved by arranging the upper surface side floating yarns (2Uf, 4Uf) above the wefts (2W, 4W).

(32) In the fabric for unwoven fabric of the first embodiment, the density of the knuckles can be increased to improve the surface smoothness by forming the knuckles emerging on the surface by means of the upper surface side warps (1U,2U) only.

EXPLANATION OF SYMBOLS

(33) 1U, 2U: upper surface side warp 1L, 2L: lower surface side warp 2W, 4W: weft 1S, 3S: auxiliary weft 2Uf, 4Uf: upper surface side floating yarn 2Lf, 4Lf: lower surface side floating yarn