CN101063247B - Woven fabric including metal stitching by cross weave - Google Patents
Woven fabric including metal stitching by cross weave Download PDFInfo
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- CN101063247B CN101063247B CN2006100771620A CN200610077162A CN101063247B CN 101063247 B CN101063247 B CN 101063247B CN 2006100771620 A CN2006100771620 A CN 2006100771620A CN 200610077162 A CN200610077162 A CN 200610077162A CN 101063247 B CN101063247 B CN 101063247B
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Abstract
The invention relates to a woven fabric, wherein the warp element is made from metal, and the fabric comprises at least a first group of parallel connectors on the warp of the fabric which can use a roller to connect the warp and weft elements at least part of the cross points of warp and weft elements. The inventive fabric is characterized in that each connector in the first group is crossed more than one warp element, between the cross points.
Description
Technical field
The present invention relates to a kind of woven fabric, it comprises hardware, and such as steel cable (cord), this woven fabric has warp-wise element and broadwise element, and the warp-wise element is in the same place by the lace stitch access node with the broadwise element.
Background technology
Comprise by the lace stitch access node together the warp-wise element and the woven fabric of broadwise element be well known in the art.
This comprise hardware such as the woven fabric of steel cable from for example learning the EP96929B1.
But this woven fabric of introducing among the EP96929B1 has some defectives.
First defective of these fabrics is, the unstability that fabric is possible.In the production process of this fabric, and in coiling and the unwinding process, fabric misplaces easily.
In order to prevent curling of fabric, as introducing among the EP96929B1, adjacent warp-wise element twist against twist.Yet if use metallic cable, in the production process of fabric, metallic cable moves at unreeling direction easily.Therefore, the adjacent warp-wise element with opposite twist direction can misplace each other.
Summary of the invention
The object of the present invention is to provide a kind of fabric that does not have defective in the prior art.Another object of the present invention is to provide a kind of hardware that comprises, particularly comprises the woven fabric of metallic cable such as steel cable, and this woven fabric is stable dimensionally and be difficult for curling or dislocation.
Above-mentioned beneficial effect is realized by woven fabric of the present invention.
According to the present invention, a kind of woven fabric is provided, comprise broadwise element and warp-wise element, described warp-wise element is made of metal, described warp-wise element and broadwise element intersect in a plurality of crosspoints, described woven fabric also comprises the substantially parallel access node element of at least the first group that is presented on described woven fabric warp-wise, described first winding knot element is in the same place described warp-wise element and broadwise element access node at least a portion crosspoint by lace stitch, wherein, the number of warp-wise element is less than or equals the number of access node element, it is characterized in that, between the order crosspoint by described access node element access node, each the root access node element in described first winding knot element all and more than one warp-wise element intersects.
Term " lace stitch " is understood that the broadwise element is also referred to as usually that " weft yarn (filling) access node is to the warp-wise element, because the twisting between this warp-wise element and the access node element.In order to obtain this access node, the access node element passes along the fabric warp-wise, is presented on the given side that will be arrived the warp-wise element of broadwise element at the place, crosspoint of warp-wise element and broadwise element access node.Warp-wise element and access node element are presented on the first surface of fabric, and will be presented on the opposed surface of fabric by the broadwise element of access node.Along warp-wise, this access node element intersects at first direction and warp-wise element along this access node element, and passes the thickness direction of fabric towards the opposed surface of fabric.Next this access node element intersects with the outer surface of broadwise element at fabric.This access node element and then once pass the same side that fabric arrives the warp-wise element, and and same warp-wise element intersects again, yet in order to go to warp-wise element and broadwise element by the order crosspoint of this access node element access node, opposite in the crisscross and former case.Effect is exactly, because the access node element is along the intersection of this order, through the mutual access node of broadwise element together.
According to the present invention, before warp-wise element access node was arrived the broadwise element, at least the first winding was tied element and is intersected more than a warp-wise element.
This access node element is presented on the warp-wise of fabric, and is positioned at the given side of at least the first and second warp-wise elements.Warp-wise element and access node element are presented on the first surface of fabric, and to be presented on the opposed surface of fabric by the broadwise element of access node to this second warp-wise element, this broadwise element in the crosspoint of this broadwise element and this second warp-wise element by access node to this second warp-wise element.Next along warp-wise along this access node element, this access node element and the first warp-wise element and at least the second warp-wise element intersect at first direction, pass the thickness direction of fabric then towards the opposition side of fabric.Next this access node element intersects in fabric exterior with the broadwise element.Access node element and then once pass the same side that fabric arrives the second warp-wise element, and and at least the second warp-wise element but intersect again in opposite direction, going to simultaneously will be by the order crosspoint of the warp-wise element of this access node element access node and broadwise element.Especially preferred is that the access node element and at least the second and first warp-wise element in the opposite direction intersect again.
The effect that is surprised to find and intersects more than one warp-wise element is, when reeling or can preventing the fabric dislocation during unwinding fabric.This may be owing to set up the cause that the diagonal angle connects in imaginary roughly rectangle, and this rectangle is determined at two broadwise elements of place, order crosspoint access node and two warp-wise elements by the access node element.
More useful is to find that between the order crosspoint by this access node element access node this access node element and two adjacent warp-wise elements intersect.
The preferential woven fabric of selecting like this as theme of the present invention, this fabric comprises the access node element that at least the second group is substantially parallel, described second winding knot element and at least one warp-wise element intersect, and can intersect with the crisscross opposite direction of first winding knot element with warp-wise element edge.The existence of second group of warp-wise element looks and can prevent the displacement in the woven fabric production process of warp-wise element.During this particularly following situation, promptly work as in each crosspoint by access node element access node, at least an access node element in described first winding knot element is presented on by first side of the warp-wise element of access node, and an access node element in second winding knot element is presented on by the opposition side of access node warp-wise element.
The preferential existence of selecting second group of substantially parallel access node element like this, described second winding knot element and intersect more than one warp-wise element, and can with the warp-wise element along and the crisscross opposite direction of first winding knot element intersect.Second group of substantially parallel access node element of preferential selection like this, the warp-wise element radical that this second winding knot element intersects is identical with the warp-wise element radical that access node element in first winding knot element intersects, and preferably crisscross and first winding of this second winding knot element tie access node element in the element crisscross on the contrary.
Term " substantially parallel " access node element should be understood that a plurality of access node elements that extend along essentially identical path in fabric, however on one or more warp-wises position along the broadwise translation.
Should be appreciated that first group can be different mutually with second winding knot element.Access node element radical in first winding knot element can be less than or equal the access node element radical in second winding knot element.Particularly, when the access node element in second winding knot element only intersects with a warp-wise element between by the order crosspoint of this access node element access node, preferential selector woven fabric like this, it access node element radical in second winding knot element that comprises is more than the radical of access node element in first winding knot element.When the warp-wise element radical that intersects between the order crosspoint by these access node element access nodes when the access node element in first group and second winding knot element was identical, preferred first and second windings knot element comprised the access node element of equal amount.
When warp-wise element radical was less than or equal access node element radical, this woven fabric comprised the crosspoint of such warp-wise element and broadwise element, and promptly warp-wise element, broadwise element are all being located more closely access node by the crosspoint of access node element access node usually.
According to the present invention, between warp-wise element and the broadwise element to the small part crosspoint by access node element access node.May, although be not necessary, the crosspoint that between warp-wise element and broadwise element, can whether have the access node element to exist.In these crosspoints, warp-wise element and broadwise element can be by access nodes, and perhaps warp-wise element and broadwise element can be interleaved at these places, crosspoint.
According to the present invention, the warp-wise element is made of metal.
The warp-wise element can be wire, metallic cable, perhaps a plurality of wires that on whole length, are in contact with one another or metallic cable, they in woven fabric as twin.
According to the present invention, the broadwise element can be made by many different materials, such as aromatic polyamides, polyamide, polyester, polyethylene terephthalate, polypropylene, polyethylene, polyacrylic acid, glass, carbon, with the form of long filament, rove, rope, yarn, strip (sliver), ribbon (ribbon), band (tape) or fibre bundle.As selection, can use rove, rope, strip or the fibre bundle made by natural fabric or half-natural fiber.For example, the fineness scope is the glass rove of 600tex-4800tex, can use the glass rove of 2400tex-4800tex for instance.As selection, can use the glass polyfilament yarn of the about 1.5mm of optical diameter.As selection, use the polyamide rope that comprises 8 single thread, each root single thread is formed by 1400 threads plying.
They also can be to be made of metal, such as wire or metallic cable.Such metal broadwise element also can be metallic cable, wire or many metallic cables that is in contact with one another on whole length or wire, they in woven fabric as twin.
For metal broadwise element and metal warp-wise element the two, metal should be understood that the metal of any kind, such as ferrous alloy, stainless steel, high-carbon steel, mild steel, but also can be such as copper.
For metal broadwise element and warp-wise element the two, term " metallic cable " should be understood as that for form rope, rope (rope) or strand and by bunchy or and a plurality of metal filaments of twisting with the fingers.
The metallic cable of any kind rope structure can be used in the woven fabric as theme of the present invention.
Yet, preferably use the rope of n * m * D structure, such as 4 * 7 * D, 5 * 7 * D, 6 * 7 * D, or the rope of 7 * 7 * D, wherein n and m are integers, D is the nominal diameter that forms the long filament of this structure.
Possible is, the filament diameter that uses in a rope can be different, and the structure of the rope of Xing Chenging is that n * (D1+ (m-1) * D2), wherein D1 and D2 are the filament diameters that differs from one another like this.
Selectable, also can use the n+m rope, such as 1+6,3+9 or 3+2 structure.
It also is possible using different filament diameters in a rope.
For example, can use 5 * 0.8 HI high impact rope, or 0.225+18 * 0.22 rope.Selectable, also can use 5 * 0.38 the HI high impact rope or the rope of 0.25+18 * 0.22.
As the access node element of theme of the present invention such as being, such as being by aromatic polyamides
Or
Polyamide, polyester, polyethylene terephthalate, polypropylene, polyethylene, polyacrylic acid, glass, natural or half-natural fiber-based material are made, and can be long filament, rove, rope, yarn, strip, ribbon, band or fibre bundle.As selection, also can use wire or metallic cable.The preferred diameter range of wire is at 0.01mm~0.35mm, such as less than 0.2mm.
As the metallic cable of access node element preferably flexible but very thin.Such as using a kind of like this cord, it is that structure is 2 * 0.15mm, 3 * (3 * 0.04mm) or 4 * (high-elongation rope of 7 * 0.1mm) (High Elongaton).
Should be understood that in the woven fabric between the adjacent warp-wise element and the distance of adjacent weft between element can change largely.Preferably, between the adjacent warp-wise element or distance or " spacing (pitch) " of adjacent weft between element be 0.5mm-40mm, 1mm-35mm more preferably is such as 2-25mm.
Woven fabric as theme of the present invention can be used for a plurality of different application.Particularly this woven fabric can be as the reinforcing member of band, such as rubber or polymer belt, use conveyer belt such as synchronous band, a heave hand, elevator belt, passenger, coated tape (cover belt) etc., these can be considered the benefit as the woven fabric of theme of the present invention.
Can also be as this woven fabric of theme of the present invention as the reinforcing member in the impact absorption mechanism, such as impact beam, car body part, pilot beam, concrete reinforcing band (concretereinforcing tape) or fabric, rubber tyre cord or across the reinforcing member in the element (span element).
Description of drawings
With reference now to accompanying drawing, introduces the present invention in more detail, wherein
Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5 and Fig. 6 schematically show the woven fabric as theme of the present invention.
Fig. 7 a, Fig. 7 b, Fig. 7 c, Fig. 8 a and Fig. 8 b schematically show the preferred woven fabric as theme of the present invention in more detail.
Fig. 9 schematically shows the woven fabric as theme of the present invention as the reinforcing member in the band.
Figure 10 schematically shows the woven fabric as theme of the present invention, and it is used as the reinforcing member in impact absorbing structure such as the impact beam.
The specific embodiment
Fig. 1 has shown the woven fabric 100 as theme of the present invention.This fabric 100 comprises broadwise element (111,112,113), and these broadwise elements are by winding knot element (131,132,133,134) arrived warp-wise element (121 by access node, 122,123) locating all access node, and in each crosspoint of warp-wise element and broadwise element is in the same place.
In the crosspoint 141, warp-wise element 122 and broadwise element 112 intersect, and access node element 131 is in the same place this warp-wise element and broadwise element access node.At 142 places, crosspoint of order, further at the warp-wise 107 of woven fabric 100, this access node element also is in the same place broadwise element 113 and warp-wise element 121 access nodes.
At point 191 places of access node element 131, this access node element 131 is positioned at the right side of the first warp-wise element 121 and the second warp-wise element 121.At warp-wise along access node element 131 from putting 191 up, this access node element 131 is turned left and is intersected at point 192 and 193 places with warp-wise element 122,121 successively.At point 194, access node element 131 is presented on the face side 105 of woven fabric, passes fabric 100 towards the opposition side 106 of fabric 100.Next access node element 131 intersects at point 195 at fabric 100 outer surfaces and broadwise element 113.At point 196, this access node element 131 passes the same side 105 that fabric 100 arrives the second warp-wise element 121 again.At point 197, this access node element 131 intersects again with the second warp-wise element 121 at least but on opposite direction (right-hand), going to simultaneously will be by the order crosspoint of the warp-wise element of these access node element 131 access nodes and broadwise element.
So between two order crosspoints 141 and 142 by access node element 131 access nodes, this access node element and two warp-wise elements 121,122 intersect.
As shown, in each crosspoint of woven fabric 100, the warp-wise element is in the same place by access node by an access node element with the broadwise element.This woven fabric has the warp-wise element and the access node element of similar number thus.
Another woven fabric 200 as theme of the present invention is presented among Fig. 2.This fabric 200 comprises broadwise element (211,212,213), these broadwise elements by first winding knot element (251,252,253,254) and second winding knot element (261,262,263) and with warp-wise element (221,222,223) access node together.
As what show, in each crosspoint (241,242,243) of woven fabric 200, warp-wise element and broadwise element all pass through first winding tie in the element (251,252,253,254) an access node element by access node together.In each crosspoint, warp-wise element and broadwise element in addition also by the access node element (261,262,263) in second winding knot element by access node, be in the same place by access node by lace stitch warp-wise element and broadwise element.Between two order crosspoints of that same root access node element access node, this access node element only intersects with a warp-wise element in by second winding knot element, and in crisscross and first winding knot element access node element crisscross on the contrary.For example, between crosspoint 241 and 242 by same access node element 261 access nodes in second winding knot element, access node element 261 only intersects with a warp-wise element 221, and in crisscross and first winding knot element access node element 251,252 crisscross on the contrary.
Between two order crosspoints by same access node element access node in first winding knot element, this access node element and intersect more than one warp-wise element, be to intersect in this example with two warp-wise elements, and access node element crisscross opposite in crisscross and second winding knot element.For example, between crosspoint 241 and 243 by same access node element 252 access nodes in first winding knot element, access node element 252 and warp-wise element 221,222 intersect, and the access node element 261,262 in crisscross and second winding knot element is crisscross opposite.
In woven fabric 200 as theme of the present invention, in each crosspoint, access node element in first winding knot element is presented on by first side of access node warp-wise element, and the access node element in second winding knot element is presented on this by the opposition side of access node warp-wise element.For example, the access node element 252 in crosspoint 241, the first windings knot element is presented on by the left side of access node warp-wise element 221, and the access node element 261 in second winding knot element is presented on this by the right side of access node warp-wise element 221.In each side of warp-wise element the access node element is arranged all, can obviously suppress the displacement of warp-wise element in woven fabric 200 production processes, particularly when warp-wise element (221,222,223) be that metallic cable is during such as steel cable.
Another woven fabric 300 as theme of the present invention is presented among Fig. 3.This fabric 300 comprises broadwise element (311,312,313), these broadwise elements by first winding knot element (351,352) and second winding knot element (361,362) and with warp-wise element (321,322,323) access node together.
This woven fabric comprises by the crosspoint of lace stitch access node (341,342,343), also comprises crosspoint (371), warp-wise element and broadwise element in this crosspoint (371) not by access node.
As shown in the figure, in each leno access node crosspoint of woven fabric 300, warp-wise element and broadwise element by an access node element in first winding knot element (351,352) by access node.In each leno access node crosspoint, warp-wise element and broadwise element in addition also by the access node element (361,362) in second winding knot element by access node, warp-wise element and broadwise element by lace stitch by access node.Tying by second winding between two order crosspoints of that same in element root access node element access node, this access node element and intersect more than one warp-wise element, be two in this example, though the access node element in crisscross and first winding knot element is crisscross opposite.For example, between crosspoint 341 and 342 by same access node element 361 access nodes in second winding knot element, access node element 361 and warp-wise element 321,322 intersects, and in crisscross and first winding knot element access node element 351,352 crisscross on the contrary.
Between two order crosspoints by same access node element access node in first winding knot element, the warp-wise element radical that the access node element intersects is identical with the warp-wise element radical that access node element in second winding knot element intersects, but access node element crisscross and that second winding is tied in the element is crisscross on the contrary.For example, between crosspoint 343 and 342 by same access node element 352 access nodes in first winding knot element, access node element 352 and warp-wise element 323,322 intersect, and the access node element 362,361 in crisscross and second winding knot element is crisscross opposite.
The same with woven fabric 200, in woven fabric 300 as theme of the present invention, in each leno access node crosspoint, access node element in first winding knot element is presented on by first side of access node warp-wise element, and the access node element in second winding knot element is presented on this by the opposition side of access node warp-wise element, the access node element is presented on the every side of warp-wise element, can obviously suppress the displacement of warp-wise element in woven fabric 300 production processes, particularly when warp-wise element (321,322,323) be that metallic cable is during such as steel cable.
In woven fabric 300, not that warp-wise element and broadwise element be not by access node by the crosspoint 371 of access node element according to the lace stitch access node.
In the crosspoint 471, warp-wise element and broadwise element are interweaved.Term " interweaves " and should be understood that each warp-wise element and broadwise element that is presented in this woven fabric lace stitch on the fabric face intersects mutually, is presented on the opposed surface of this woven fabric simultaneously.
Selective woven fabric 500 as theme of the present invention is presented among Fig. 5.Among Fig. 5 with Fig. 3 in the corresponding identical feature of identical Reference numeral, different being of woven fabric has such broadwise element among this fabric 500 and Fig. 3, be that the broadwise element comprises more than 1, such as 2 that demonstrate, the wire of almost parallel or metallic cable.As shown in Figure 5, broadwise element 311 comprises wire or metallic cable 5111 and 5112 of two almost parallels.Broadwise element 312 comprises two substantially parallel wires or metallic cable 5121 and 5122.Broadwise element 313 comprises two substantially parallel wires or metallic cable 5131 and 5132.
Selective woven fabric 600 as theme of the present invention is presented among Fig. 6.Among Fig. 6 with Fig. 3 in the corresponding identical feature of identical Reference numeral, different being of woven fabric has such warp-wise element among this fabric 600 and Fig. 3, be that the warp-wise element comprises more than 1, such as 2 that demonstrate, the wire of almost parallel or metallic cable.As shown in Figure 6, warp-wise element 321 comprises wire or metallic cable 6211 and 6212 of two almost parallels.Warp-wise element 322 comprises two substantially parallel wires or metallic cable 6221 and 6222.Warp-wise element 323 comprises two substantially parallel wires or metallic cable 6231 and 6232.
The preferred embodiment of the woven fabric of theme of the present invention is presented among Fig. 7 a, 7b, the 7c, and Fig. 7 a schematically shows the perspective view of this embodiment.Fig. 7 b shows that woven fabric is according to the cross section of plane AA ' among Fig. 7 a.Fig. 7 c shows that woven fabric is according to the cross section of plane BB ' among Fig. 7 a.In order to understand these accompanying drawings better, increased the ratio among the figure.
Woven fabric 700 as theme of the present invention has the weaving structure that Fig. 2 shows.Warp-wise element 720 is by the high tensile steel is made, structure is 4 * (0.5+6 * 0.44) elongation steel cable.Broadwise element 710 is by the high tensile steel is made, structure is 4 * (7 * 0.30) high-elongation steel cable.Access node element in first winding knot element 750 and second winding knot element 760 is that structure is the polyamide rope of " 940 * 2 * 2 ", and this structure is the plying structure of two pairs of plying single thread, and each root single thread all comprises 940 polyamide filaments.Alternatively be, the access node element in first winding knot element 750 can be that structure is the polyamide rope of " 940 * 2 ", and this structure is the plying structure that two single thread plying form, and each root single thread all comprises 940 polyamide filaments.
As polyamide access node selection of components scheme, can use the aromatic polyamide yarn or the rope that are equal to fineness basically basically.
Spacing between the axle of two adjacent steel cable warp-wise elements or distance 780 be 5.5mm preferably.Can select this gap ratio as being 7.04mm.Spacing or the distance 790 of two adjacent weft between the axle of element is preferably 20mm.
Another preferred embodiment as the woven fabric of theme of the present invention is presented among Fig. 8 a and the 8b.Fig. 8 a schematically shows the perspective view of this embodiment.Fig. 8 b shows that woven fabric is according to the cross section of plane DD ' among Fig. 8 a.In order to understand these accompanying drawings better, increased the ratio among the figure.
Spacing between the axle of two adjacent steel cable warp-wise elements or distance 880 be 0.25mm preferably.Spacing or the distance 890 of two adjacent weft between the axle of element is preferably 2.5mm.
Woven fabric as theme of the present invention can play humidification in different technology is used.
As shown in Figure 9, woven fabric 901 is according to the fabric among Fig. 7, but also can to select be Fig. 1,2, a kind of woven fabric in 3,4,5,6 or 8, it is used as the enhancing structure with 900, and this is with 900 such as being elevator belt or horizontal conveying belt, and also comprises rubber or polymeric matrix 902 in the band.Preferably, this matrix 902 is the SBR rubber in the NR-SBR rubber.Should be understood that with 900 and can also comprise reinforcing member other except that woven fabric 901.
As shown in figure 10, woven fabric 1001 is the fabrics among Fig. 8, but also can to select be Fig. 1,2, a kind of woven fabric in 3,4,5,6 or 7, it is used as the enhancing structure in the impact absorbing structure, and this impact absorbing structure is such as the impact beam 1000 of vehicle, for example impact absorption pilot beam.This impact absorbing structure 1000 also comprises polymeric matrix 1002, and this matrix is polypropylene matrix or glass mat enhanced polypropylene matrix preferably.Should be understood that with 1000 and can also comprise reinforcing member other except that woven fabric 1001.Preferably, the fibre glass roving of use has the associativity (seizing) that is adapted to be incorporated into polypropylene matrix.
Claims (18)
1. woven fabric, comprise broadwise element and warp-wise element, described warp-wise element is made of metal, described warp-wise element and broadwise element intersect in a plurality of crosspoints, described woven fabric also comprises the substantially parallel access node element of at least the first group that is presented on described woven fabric warp-wise, described first winding knot element is in the same place described warp-wise element and broadwise element access node at least a portion crosspoint by lace stitch, wherein, the number of warp-wise element is less than or equals the number of access node element, it is characterized in that, between the order crosspoint by described access node element access node, each the root access node element in described first winding knot element all and more than one warp-wise element intersects.
2. woven fabric according to claim 1 is characterized in that, between the order crosspoint by described access node element access node, each the root access node element in described first winding knot element all intersects with two warp-wise elements.
3. woven fabric according to claim 1, it is characterized in that, described woven fabric also comprises the second group of substantially parallel access node element that is presented on described woven fabric warp-wise, described second winding knot element is in the same place the described warp-wise element of at least a portion and a part of described broadwise element by lace stitch at least a portion crosspoint access node, between the order crosspoint by described access node element access node, each the root access node element in described second winding knot element is all pitched with at least one warp-wise elements intersect.
4. woven fabric according to claim 3 is characterized in that, between the order crosspoint by described access node element access node, the number of the warp-wise element that described first winding knot element and described second winding knot element intersect is identical.
5. woven fabric according to claim 3, it is characterized in that, between the order crosspoint by described access node element access node, the direction that described first winding knot element and warp-wise element intersect and described second winding are tied element to intersect the direction of warp-wise element opposite.
6. woven fabric according to claim 3 is characterized in that, is not that warp-wise element and broadwise element interweave by the place, at least a portion crosspoint in the crosspoint of access node element access node at warp-wise element and broadwise element.
7. woven fabric according to claim 3 is characterized in that, the access node component number in described first winding knot element is less than or equals access node component number in described second winding knot element.
8. woven fabric according to claim 3, it is characterized in that, in each crosspoint by access node element access node, at least the access node element in described first winding knot element is presented on by first side of the warp-wise element of access node, and the access node element in described second winding knot element is presented on described by the opposition side of the warp-wise element of access node.
9. according to each described woven fabric of claim 1-8, it is characterized in that described warp-wise element is a steel cable.
10. according to each described woven fabric of claim 1-8, it is characterized in that described broadwise element is a steel cable.
11. woven fabric according to claim 10 is characterized in that, described broadwise element comprises the steel cable more than, and all described steel cables are parallel to each other substantially.
12., it is characterized in that described access node element is polyamide rope or polyamide yarn according to each described woven fabric of claim 1-8.
13., it is characterized in that described access node element is a glass fiber yarn according to each described woven fabric of claim 1-8.
14., it is characterized in that described access node element is aramid cords or aromatic polyamide yarn according to each described woven fabric of claim 1-8.
15. the application of the woven fabric in one of aforementioned claim is as the reinforcing material of polymer articles.
16. the application of woven fabric according to claim 15 is characterized in that, described polymer articles is a polymer belt.
17. the application of woven fabric according to claim 16 is characterized in that, described polymer belt is a rubber strip.
18. the application of woven fabric according to claim 15 is characterized in that, described polymer articles is an impact absorbing structure.
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| CN2006100771620A CN101063247B (en) | 2006-04-27 | 2006-04-27 | Woven fabric including metal stitching by cross weave |
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| EP2282897B1 (en) * | 2008-05-29 | 2012-09-19 | Milliken & Company | Pneumatic tire comprising a cap ply |
| CN104005152A (en) * | 2014-03-18 | 2014-08-27 | 巨石集团有限公司 | Woven fabric structure of glass fiber leno mesh and weaving method thereof |
| CN106637597B (en) * | 2016-10-20 | 2019-02-12 | 江苏工程职业技术学院 | A kind of production technology of fancy leno and gauze fabric |
| CN112796018A (en) * | 2020-12-16 | 2021-05-14 | 中山市缤彩之家服饰有限公司 | Novel antibacterial skin-beautifying anti-allergy fabric and processing method thereof |
| CN115386995B (en) * | 2022-08-01 | 2023-08-01 | 武汉纺织大学 | Easily deformable multilayer woven braid and weaving method thereof |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US2052808A (en) * | 1934-12-11 | 1936-09-01 | American Brakeblok Corp | Backing for composition friction elements |
| EP0096929A1 (en) * | 1982-06-14 | 1983-12-28 | N.V. Bekaert S.A. | Reinforcing structure for elastomeric article and article thereby obtained |
| CN1145870A (en) * | 1995-07-12 | 1997-03-26 | 固特异轮胎和橡胶公司 | Steel cable conveyor belt with improved penetration and rip resistance |
-
2006
- 2006-04-27 CN CN2006100771620A patent/CN101063247B/en not_active Expired - Fee Related
Patent Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US2052808A (en) * | 1934-12-11 | 1936-09-01 | American Brakeblok Corp | Backing for composition friction elements |
| EP0096929A1 (en) * | 1982-06-14 | 1983-12-28 | N.V. Bekaert S.A. | Reinforcing structure for elastomeric article and article thereby obtained |
| CN1145870A (en) * | 1995-07-12 | 1997-03-26 | 固特异轮胎和橡胶公司 | Steel cable conveyor belt with improved penetration and rip resistance |
Also Published As
| Publication number | Publication date |
|---|---|
| CN101063247A (en) | 2007-10-31 |
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