The present invention relates to a three-dimensional woven hollow layer-connecting fabric, which belongs to a technical field of a special woven fabric structure.
There are layer-connecting fabrics made of cotton or wool in the civil textile, which are also known as warp pile wool fabrics. The typical sorts are plain velvet fabric and plush fabric etc. Their common features are the use of double layer-connecting weave and that poil warps with only differences in length and density are uniformly sandwiched between the upper and lower layer weave by certain weaving design. For example, the upper layer weave of plain velvet weave (see
In addition, the Chinese patent (00135845.6) introduces a hollow layer-connecting composite material, wherein the upper and lower layers of the fabric are connected “forwardly” by a poil warp; the pile height is 20-600 mm; the spatial height of the fabric is comparatively huge; the fabric is used to produce sound-proof materials and filling materials. However, it has the defects that the connecting manner of poil warps is simple, and spatial structure lacks variation. The lower strength of the framework of the composite material of the fabric affects its use as a structure material. European patent (DLE19609492), (93119483.1) and American patent (U.S. Pat. No. 5,175,034) introduce several kinds of layer-connecting fabrics. But in all the fabrics mentioned by these patents, the poil warps are crossed “forwardly” respectively with different weft yarns on each layer. The poil warps using such manner of crossing are easy to slidably move such that the fastness of poil warps is influenced. Therefore, the framework feature of the layer-connecting fabric made by the “forward” manner of crossing is not distinct, nor is the vertical support function of poil warps between two layers. These render the anti-pressure strength of the composite material decreasing and the mechanical properties fluctuating greatly. At present, the “forward” crossing structure of poil warps is adopted in weaving all kinds of layer-connecting fabrics developed home and abroad.
The problems to be solved by the present invention are that the poil warps are easy to slidably move such that the fastness of poil warps is influenced, the framework feature of the layer-connecting fabric is not distinct, and the vertical support function of poil warps between two layer-surfaces is not distinct, which are all caused by the “forward” crossing structure of poil warps adopted in weaving all kinds of existing layer-connecting fabrics.
To solve the above technical problem, the present invention adopts a structure that the poil warps and the weft yarns on the same layer-surface are crossed “backward”. The specifics are as follows:
The present invention comprises an upper layer-surface 10 formed by crossing upper ground warp yarns 1, 2 and a weft yarn 3, and a lower layer-surface 11 formed by crossing lower ground warp yarns 4, 5 and a weft yarn 6; weft yarns 3, 6 on the upper and lower layer-surfaces being also crossed with poil warps 7, 8 besides crossing with ground warp yarns 1, 2 and 4, 5 on their own layer-surfaces, characterized in that the spatial walking direction of poil warps 7, 8 between two layer-surfaces, when woven from one layer-surface to another layer-surface of the fabric, is opposite to the weft-inserting direction of the fabric.
The above poil warps 7, 8, when woven on any layer-surface, are simultaneously crossed with the same weft yarn 3 or 6, and the length range between the upper and lower layer-surfaces connected by poil warps 7, 8 is 0-50 mm.
The present invention can use high-performance continuous monofilament to weave, or use high-performance continuous multifilament to weave blendedly.
Compared with other types of layer-connecting fabrics, the biggest difference of the present invention lies in that the poil warps and weft yarns of this fabric are crossed in a “backward” way. The poil warps are crossed with the same weft yarn on the same layer-surface so as to form a particular pile spatial structure. “Backward” crossing can prevent poil warps from slidably moving in the fabric, render the framework feature of the compounded layer-connecting fabric distinct and the vertical support function of poil warps between two layer-surfaces good. The present invention also has the advantages of variations in conformation, being easy to design and adapted to produce on a large scale. The profile compounded and strengthened by this type of fabric has characteristics, such as anti-corrosion, anti-penetration, light weight and excellent physical mechanical properties, and is widely used in fields of aeronautics, astronautics, shipbuilding, petro-chemistry, underground storage tanks, architectural material, sports equipments and automobile manufacturing.
As shown in
The above transitional manner of the poil warps of the present invention is different from the “forward” crossing of other pile fabrics. Take simple plain velvet fabric (see
The advantages of the “backward” crossing structure of the present invention lie in that: due to the special spatial walking positions, the tension of poil warps can be well-retained upon weaving. The poil warps are not easy to slidably move for being closely connected with the upper and lower layers. The poil warps between the two layers of the fabric effectively support the fabric so that the fabric is stiffer than the fabric made by the “forward” crossing manner. Having been stretched under pressure, the upper and lower layer-surfaces of the fabric are easy to resile due to the stress effect of the poil warps such that the mechanical properties of the fabric are not easy to attenuate. On one side, this facilitates the storage and transportation of the fabric; on the other side, the fabric is ensured to keep a good spatial status during the compounding process (the two layer-surfaces are not easy to slidably move relative to each other). Because the “backward” crossing structure can ensure the warp yarns and weft yarns closely crossed, the pile height of the layer-connecting fabric using this structure can be 50 mm to the maximum, which improves the defect that the pile height using the “forward” structure is no more than 20 mm, so that the requirement of the material spatial thickness in the warm-keeping and heat-proof fields is satisfied. In the compounding process of the fabric, the tension of the poil warps is released instantly so that the fabric and the resin can be combined quickly and effectively. The molded poil warps are the framework of the composite material. Because the poil warps of the fabric using the “backward” crossing structure retain stress as much as possible, the strength of the compounded framework is comparatively high, which greatly increases the physical mechanical properties of the composite material. Under the same testing conditions and in the same manner, the mechanical properties of the material increased 15-35% compared with the material (the same standard) compounded by “forward” crossing. The poil warps of other layer-connecting fabrics are respectively crossed with weft yarns on different layer-surfaces; however, the poil warps of the fabric of the present invention are crossed with the same weft yarn on the same layer-surface so that the crossed positions of the poil warps are concentrated, the poil warps are closely connected to the weft yarns of the two layers, the spatial conformation of the poil warps are symmetrical and the framework of the compounded fabric is distinct.
The upper and lower ground weave of the present invention can be a plurality of weaves, such as plain, diversified plain and twill. In
The design of the upper and lower ground weave of the fabric is to meet needs of different cloth application. To avoid the breaking of the poil warps on the fabric layer-surface caused by friction, diversified plain, twill, diversified twill weave etc. can be used to protect the poil warps; to improve the compact property of the fabric layer-surface, multi-crossed plain is used so as to have the warp yarns and weft yarns compactly crossed. Different weft yarns of the upper and lower ground weave have different gripping forces towards the poil warps. Generally speaking, the gripping force of diversified plain and twill to poil warps is greater than the gripping force of plain to poil warps.
See
According to the present invention, single high-performance fibers, such as glass fibers, carbon fibers, aramid fibers, NOMEX fibers, PBO fibers and PTFE fibers, can be used to weave, the above fibers can also be used to weave blendedly so that the fabric has the physical and chemical advantages of a plurality of fibers, such as, glass fibers are used as warp yarns and carbon fibers as weft yarns to increase the strength and stiffness between the layers of the fabric.
Number | Date | Country | Kind |
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200610038306.1 | Feb 2006 | CN | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CN2007/000067 | 1/11/2007 | WO | 00 | 10/23/2008 |