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The present invention relates to a fabric for a roofing membrane adapted to waterproof a roof of a building, and more particularly, to a fabric for a roofing membrane that is capable of providing stability in shape of the roofing membrane and achieving precise coating of a waterproofing layer, thereby improving a quality of the roofing membrane.
In case of a steel plate type roofing material, leakage may become severe on a bolt portion connecting steel plates according to changes in external environments like temperature changes, climate changes, and so on, and as the roofing material is generally used for 10 to 15 years or more, further, it has to have excellent durability. In addition thereto, the roofing material should have high weather, antimicrobial, water, heat, and flame resistances.
To overcome the disadvantages of the steel plate type roofing material, recently, there are provided multi-layer composite thermoplastic elastomer roofing membrane capable of performing hot gas welding. Such roofing membrane are disclosed in Korean Utility Model Registration No. 20-0428210 (entitled “thermoplastic polyolefin synthetic polymer roofing sheet”) and in Korean Patent Registration No. 10-0820597 (entitled “synthetic polymer roofing sheet capable of improving pollution and weather resistance and method for manufacturing the same”).
Even if the roofing membrane are somewhat different in their structure, in detail, each roofing membrane largely includes a fabric serving as a frame and waterproofing layers made of a rubber component and formed on top and underside of the fabric. Unlike the existing steel plate type roofing material, accordingly, the roofing membrane is connected to another roofing membrane by means of hot gas welding, thereby advantageously preventing the occurrence of leakage. In this case, the roofing membrane are continuously connected and arranged on a roof, and if the connected portions are misaligned, leakage may occur. Referring further to Korean Patent Registration No. 10-0416107 (entitled “waterproofing structure using roofing sheet”), the connected portions of the roofing membrane are alternately laid up and down on each other, thereby improving waterproofing effects.
Like this, it is very important that the roofing membrane have linearity (straight lines) on edges connected to each other, and according to the weaving characteristics, as shown in
Up to now, furthermore, the roofing membrane has been improved only in the waterproofing layer capable of ensuring high pollution, weather, and antimicrobial resistance, but actually, the fabric serving as the frame of the roofing membrane remarkably lacks the performance corresponding to the performance of the waterproofing layer. Accordingly, there is a need for the improvement in the tissue of a fabric so that the fabric provides high durability and long life span, and further, a waterproofing layer ensures high pollution, weather, and antimicrobial resistance.
Accordingly, the present invention has been made in view of the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a fabric for a roofing membrane that is capable of allowing tissues of edges to be rigidly attached to each other through heat treatment in a process where the fabric is woven and further allowing the attached edges to be clearly cut to linear forms, thereby improving manufacturability and constructability thereof and also increasing durability and life span thereof through strengthening of the coupling forces of tissues obtained by improvements of weaving and yarns.
To accomplish the above-mentioned object, according to the present invention, there is provided a fabric for a roofing membrane adapted to waterproof a roof of a building, the fabric including: warp and weft yarns laid on each other on the front and back sides thereof in such a manner as to have numbers and lengths corresponding to an area of the fabric; ground yarns wound around one side warp yarn and the other side warp yarn in a zigzag form in such a manner as to interlace the weft yarn; and finishing yarns arranged on edges thereof to allow the ground yarns to be arranged therebetween, upper loops and lower loops being formed alternately on the warp yarns where the ground yarns, the finishing yarns, or the ground yarn and the finishing yarn are laid on each other, wherein the finishing yarns are melted by means of ultrasonic waves and are fixedly attached to the warp and weft yarns, and the warp and weft yarns and the ground yarns protruding unnecessarily from the melted finishing yarns are cut.
According to the present invention, desirably, each finishing yarn is a low-melting yarn comprising 99.85% by weight of polyethylene terephthalate and 0.15% by weight of titanium dioxide and having a melting point of 110 to 180° C. and 30 to 500 deniers.
According to the present invention, desirably, in a process where waterproofing layers are formed on top and underside of the fabric, the fabric is conveyed arrangedly by means of the finishing yarns fixedly attached to the edges thereof.
The above and other objects, features and advantages of the present invention will be apparent from the following detailed description of the preferred embodiments of the invention in conjunction with the accompanying drawings, in which:
Hereinafter, an explanation on a fabric for a roofing membrane according to the present invention will be in detail described with reference to the attached drawing.
All terms used herein, including technical or scientific terms, unless otherwise defined, have the same meanings which are typically understood by those having ordinary skill in the art. The terms, such as ones defined in common dictionaries, should be interpreted as having the same meanings as terms in the context of pertinent technology, and should not be interpreted as having ideal or excessively formal meanings unless clearly defined in the specification. The present invention may be modified in various ways and may have several exemplary embodiments. Specific exemplary embodiments of the present invention are illustrated in the drawings and described in detail in the detailed description. However, this does not limit the invention within specific embodiments and it should be understood that the invention covers all the modifications, equivalents, and replacements within the idea and technical scope of the invention.
The present invention relates to a fabric for a roofing membrane adapted to waterproof a roof of a building, and as shown in
First, as shown in
For example, the odd number ground yarn 30 turns to the left on the odd number warp 10 to form the lower loop 35 and then moves to the even number warp 10. After that, the odd number ground yarn 30 is wound interlacedly around the even number warp 10 in a right direction to form the upper loop 31. Contrarily, the even number ground yarn 30 moves from the even number warp 10 to the odd number warp 10 and is then wound interlacedly around the odd number warp 10 to sequentially form the upper loop 31 and the lower loop 35.
In the process where the odd and even ground yarns 30 move to the respective warps 10, they are laid on the weft 20, and through the ‘8’-shaped operations for interlacedly winding the weft 20, in this case, they restrain the weft 20 on the front and back surfaces of the weft 20. In the process where the ground yarns 30 form the upper loops 31 and the lower loops 35, further, the upper loops 31 and the lower loops 35 are alternately woven to each other. The weaving process of the ground yarns 30 is the same as the finishing yarns 40.
At this time, the warp and weft yarns 10 and 20 are high strength yarns made of polyethylene terephthalate as a main component and having 800 to 1500 deniers. If the warp and weft yarns 10 and 20 have 800 deniers or under, the durability and strength of the fabric are decreased, and if they have 1500 deniers or more, the cost and deformation resistance of the fabric are increased. Accordingly, the warp and weft yarns 10 and 20 desirably have either 1000 deniers or 1300 deniers.
Further, the ground yarn 30 is a high strength yarn made of polyethylene terephthalate as a main component and having 50 to 100 deniers. Under the same reason as the warp and weft yarns 10 and 20, the ground yarn 30 desirably has either 68 deniers or 75 deniers.
On the other hand, the finishing yarn 40 is a low-melting yarn comprising 99.85% by weight of polyethylene terephthalate and 0.15% by weight of titanium dioxide and having a melting point of 110 to 180° C. The finishing yarn 40 may have 30 to 500 deniers, and under the same reason as the warp and weft yarns 10 and 20, desirably, the finishing yarn has 70 deniers.
In more detail, as shown in
In a process where waterproofing layers are formed on top and underside of the fabric 100, as mentioned above, the fabric 100 can be conveyed arrangedly through the edges made of the finishing yarns 40 in the form of clear lines, thereby inducing precise coating. Accordingly, a process for cutting the edges of the fabric is not required after the coating, and further, precise and rigid connection between roofing membrane is provided to optimize a degree of completeness in construction.
As described above, the fabric according to the present invention is woven with the warp and weft yarns having optimal physical properties and deniers and the ground yarns for weaving the warp and weft yarns like a net, thereby increasing durability and life span through strengthening of tissue coupling force, and further, the fabric according to the present invention is provided with the low-melting finishing yarns located on the edges thereof in such a manner as to be melted and rigidly fixed and attached to the warp and weft yarns and the ground yarns, so that the fabric is clearly cut along the finishing yarns to the linear form, thereby improving manufacturability and constructability.
While the present invention has been described with reference to the particular illustrative embodiments, it is not to be restricted by the embodiments but only by the appended claims. It is to be appreciated that those skilled in the art can change or modify the embodiments without departing from the scope and spirit of the present invention.
Number | Date | Country | Kind |
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10-2017-0063900 | May 2017 | KR | national |
Number | Name | Date | Kind |
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4431035 | Young | Feb 1984 | A |
4651620 | Lyons | Mar 1987 | A |
20040121685 | Hallam | Jun 2004 | A1 |
20130224424 | Horne | Aug 2013 | A1 |
Number | Date | Country | |
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20180340274 A1 | Nov 2018 | US |