• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
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    • 专利摘要:
    MULTIPLE LAYERED WOVEN CLOTHES AND MANUFACTURING METHODS OF THE SAME. The present invention relates to a multi-layer woven ballistic cloth, including an upper woven layer having upper warp threads and upper weft threads that are woven together to form the upper woven layer. The multilayer woven ballistic cloth also includes a lower woven layer having lower warp threads and lower weft threads that are woven together, and a plurality of safety threads, each safety thread interwoven with at least some of the upper threads and some of the lower threads in order to hold the upper and lower woven layers together. At least one of the safety threads being woven under a first lower weft thread, then above a second upper weft thread adjacent to the first lower weft thread, then under a third lower weft thread adjacent to the second weft thread and then above a fourth upper weft thread adjacent to the third upper weft thread. The multilayered ballistic cloth being formed by entertainment of the security threads with the warp threads and the weft threads (...).
    公开号:BR112012007306B1
    申请号:R112012007306-0
    申请日:2010-10-04
    公开日:2021-03-09
    发明作者:Shekoufeh Shahkarami
    申请人:Barrday Inc;
    IPC主号:
    专利说明:

    Related Requests
    [001] This application claims the benefit of Provisional Patent Application US 61 / 248,123, filed on October 2, 2009, the content of which is incorporated herein by reference for all purposes. Technical Field
    [002] The modalities here refer to cloths, and in particular woven cloths for use in ballistic applications, and methods of making them. Introduction
    [003] Woven cloths are cloths in which two different sets of threads are interwoven with each other to form the cloth. Typically, woven cloths include warp yarns that run longitudinally along the cloth and weft yarns that run through the length of the cloth, and which are interwoven with and generally perpendicular to the warp yarns.
    [004] In some ballistic applications, it is desired that two or more layers of woven cloth be held together. Conventionally, this can be done by supplying the woven cloths separately and then combining them to produce a multilayered structure. For example, several layers of cloth can be stored and then joined together by resin. However, there are several disadvantages to this technique. First, since woven fabrics are manufactured separately, this tends to result in higher associated costs. In addition, there may be many issues related to the compatibility of the resin added to the cloth, or various types of ballistic hazards to which it can be subjected. Finally, there is a trend towards increased labor costs associated with storing the layers of cloth.
    [005] In other known cloths, multiple layers of woven cloth can be sewn together after being made as separate layers. However, there is a tendency for a number of obstacles with layers sewn together. Since the sewn cloths use needles that penetrate through the layers of yarn, crevices can be formed where the seams are provided. In addition, the penetration of needles can cause damage to the threads. Both results are generally undesirable. Brief Description of Drawings
    [006] The drawings included here are to illustrate various examples of articles, methods and apparatus of the present application and in any case are not intended to limit the scope of what is taught. In the drawings:
    [007] figure 1 is a perspective view over a multilayered woven cloth according to one embodiment;
    [008] figure 2 is a cross-sectional side view of the multilayer woven cloth of figure 1;
    [009] figure 3A is a photo of a multilayered cloth according to another mode;
    [0010] figure 3B is a close view of the photo in figure 3A;
    [0011] figure 4 is a photo of a multilayered cloth according to yet another modality having a distant weave;
    [0012] figure 5 is a flow chart illustrating a method of making a multilayered woven cloth according to another embodiment;
    [0013] figure 6 is a side view in cross section of a multilayered cloth having a weaving apart according to another embodiment;
    [0014] figure 7 is a side view in cross section of a multilayered cloth having a weave apart according to another embodiment;
    [0015] figure 8 is a photo of a multilayered cloth having a flat weave and plaid satin weave pattern according to yet another modality; and
    [0016] figure 9 is a photo of a multilayered cloth having a flat weave and plaid satin weave pattern according to yet another modality. Detailed Description
    [0017] Generally illustrated in figures 1 and 2 is a multilayered cloth 10 according to one embodiment.
    [0018] The cloth 10 has a first (or higher) woven layer generally indicated as 11. The upper woven layer 11 includes first (or higher) warp yarns 12 and first (or higher) weft threads 14 (e.g. 14a , 14b, 14c, 14d) which are woven together to form the first or upper woven layer 11. The first warp yarns 12 and the first weft yarns 14 in the upper woven layer 11 are twisted, in the sense that each first yarn 12 , 14 is folded around the other first wires 12, 14 in points or crossed nodes to provide a locking or woven structure.
    [0019] The cloth 10 also has a second (or lower) woven layer generally indicated as 13. The lower woven layer 13 includes second (or lower) warp yarns 15 and second (or lower) weft yarns 17 (e.g. 17a, 17b, 17c, 17d) which are woven together to form the second or lower woven layer 13. The second warp yarns 15 and the second weft yarns 17 in the second layer 13 are twisted, in the sense that each second yarn 15, 17 is folded around the other wires 15, 17 in points or crossed nodes to provide a woven structure.
    [0020] It will be appreciated that the terms, "upper" and "lower", as used here, are used only for convenience, and the actual relative positions of the first or upper woven layer 11 and the second or lower woven layer 13 can be varied. .
    [0021] Generally the threads of one layer are not interwoven with the threads of another layer because such interweaving tends to increase the degree of twisting of the thread in relation to the rest of the threads in the cloth, which can create ballistic weakness points . In particular, the first or upper threads 12, 14 are not interwoven with the second or lower threads 15, 17, and vice versa. Instead, as shown, the first layer or upper layer 11 and the second layer or lower layer 13 are held together by one or more security threads 22. Security threads 22 are interwoven with at least some of the upper threads 12, 14 and some of the lower threads 15, 17 in order to hold the upper and lower layers 11, 13 together.
    [0022] Security threads 22 generally form part of woven cloth 10. In particular, woven cloth 10 is formed by interweaving security threads 22 with warp threads 12, 15 and weft threads 14, 17 like cloth 10 It is formed. Then, the upper and lower layers 11, 13 can be held together without the need for stitching, resin or other mechanisms to join the upper and lower layers 11, 13 together.
    [0023] In this way, a cloth 10 having two (or more) woven layers 11, 13 can be manufactured as a unified construction, without the need for joining two different layers of cloth together after being formed individually.
    [0024] The fabrication of the cloth as a unified construction also tends to provide a lower level of twisting for each layer, which tends to maintain or improve the performance of the ballistic potential of the individual layers while achieving the additional benefits associated with holding the layers joints, such as greater integrity, intensified trauma and total ballistics performance as well as manufacturing advantages.
    [0025] As shown, in some embodiments the security threads 22 can be aligned with warp and weft threads. For example, security threads 22 can generally be parallel to or aligned with warp threads 12, 15 and generally perpendicular to weft threads 14, 17. In other embodiments, security threads 22 can be generally parallel to or aligned with weft threads 14, 17 and generally perpendicular to warp threads 12, 15. In yet other embodiments (for example, as shown in figure 3), safety threads 22 can be provided in both warp and weft directions (for example, in a checkered pattern) with at least a few safety threads 22 parallel to the warp threads 12, 15 while at least some other safety threads 22 are parallel to the weft threads 14, 17.
    [0026] Turning now specifically to figure 2, a cross-sectional side view of the multi-layer woven cloth 10 is illustrated here. As shown, (from left to right in figure 2) one of the security threads 22 extends from above of the upper layer 11 and passes under a first lower weft yarn 17a (from the weft yarns 17), then over a second upper weft yarn 14b (from the upper weft yarns 14, and generally close to or adjacent to the first weft yarn lower 17a), then under a third lower weft 17c (usually close to or adjacent to the second upper weft thread 14b), and then above a fourth upper weft 14d (usually near or adjacent to the lower third weft thread) 17c) and then extends under the lower layer 13. In this way the safety thread 22 tends to hold the upper weft threads 14 and the lower weft threads 17 together, therefore, joining the first woven layer 11 and the second cam woven fabric 13.
    [0027] Although the illustrated modality shows a security thread extending over and under a weft thread at once, in other modalities, the security threads can extend over or under more than one weft thread at the same time . For example, security threads can be woven under two weft threads, and then above five weft threads adjacent to the lower weft threads. In this way, the safety threads can be woven under at least one lower weft thread, and then above at least one upper weft thread adjacent to at least one lower weft thread.
    [0028] In some embodiments, one or more warp yarns 12, 15 and / or weft yarns 14, 17 could be used in addition to, or in place of, one or more security yarns 22 to secure the two or more layers together. For example, one or more of the warp yarns 12, 15 and / or weft yarns 14, 17 could be woven along a path similar to the path of the safety yarn 22 as shown in figure 2 to hold the first layer 11 to the second layer 13.
    [0029] Each of the warp yarns 12, 15 and the weft yarns 14, 17 and the safety yarns 22 may include a plurality of fibers or filaments of one or more materials as will be described in greater detail below.
    [0030] In some embodiments, the selection and arrangement of the security threads 22 can be varied to obtain the desired performance of the cloth 10. For example, the size, ratio and / or spacing of the security threads 22 can be in different modalities of the cloth 10.
    [0031] In some embodiments, a plurality of security wires 22 could be distanced from each other by a distance between 0.0254 m (one inch) and 0.0762 m (three inches). In other embodiments, the safety wires 22 may be spaced less than 0.0254 m (one inch) apart. In still other modalities, the security wires can be spaced more than 0.0762 m (three inches) apart.
    [0032] The ratio between the safety yarns 22 and the ballistic yarns (for example, warp yarns 12, 15 and weft yarns 14, 17) as well as the spacing between them tends to depend on the desired inter-layer stability (for example , providing more security wires 22 or providing security wires 22 spaced closer together tends to result in a more stable cloth 10) versus the degree of interference between the upper and lower layer 11, 13 (for example, more security wires 22 tend to result in woven portions deviating more than a conventional woven cloth, for example, which can cause more distortion between the layers of woven cloth).
    [0033] In some embodiments, safety wires 22 are made of a high elongation, low strength, and / or a low modulus wire, as generally described below.
    [0034] In some embodiments, the warp yarns 12, 15 and the weft yarns 14, 17 are ballistic yarns. For example, warp yarns 12, 15 and weft yarns 14, 17 can be ballistic yarns having a toughness of about 15 grams per denier and greater, and with a tension modulus of at least about 400 grams per denier .
    [0035] Some examples of suitable yarns could include carbon, basalt and glass fibers. Other examples include aramid and aramid copolymer fibers (produced commercially by DuPont and Teijin under the trade names Kevlar® and Technora®, extended chain polyethylene fibers (commercially produced by Honeywell, and DSM under the trade names Spectra® and Dyneema®, polyethylene fibers and films produced by Synthetic Industries and sold under the trade name Tensylon®, poly (p-phenylene-2,6-benzoisoxazole) (PBO) (produced by Toyobo under the trade name Zylon®), and polymers of liquid crystal produced by Kuraray under the trade name Vectran®, other suitable yarns can also be used.
    [0036] In some embodiments, safety yarns 22 are generally significantly less denier than warp yarns 12, 15 and / or weft yarns 14, 17 and may have significantly lower tenacity and tension modulus. As a result, safety threads 22 tend to greatly reduce or eliminate undesirable deflection or distortion of the first and second layers 11, 13. In particular, the safety thread 22 can be substantially twisted although it may be desirable to have layers 11, 13 as flat as possible.
    [0037] In some instances, safety threads 22 have a toughness of less than about 10 grams per denier, and a tension modulus of less than about 40 grams per denier. In one example, safety yarns 22 are made of nylon dtex 78, while warp yarns 12, 15 and weft yarns 14, 17 can be made of 3000 denier aramid (e.g., Kevlar®).
    [0038] In some examples, the denier of the security yarns 22 can vary from about 20 denier (or less), to about 1000 denier, depending on the size of the warp yarns 12, 15 and the weft yarns 14, 17, and the desired ballistic applications.
    [0039] In some embodiments, the security yarns 22 can generally be of a much smaller size than the warp yarns 12, 15 and the weft yarns 14, 17. The diameter of the security yarns 22 can be selected based on in the modules and resistance parameters of the safety wires 22. In some embodiments, where the safety wires 22 are made of non-ballistic wires (for example, Nylon etc.), it may be desirable for the safety wires 22 to be high wires stretches that are as stretched as possible and as small as possible.
    [0040] In some examples, the security threads 22 can be selected from a wide range of fibers. Some suitable exemplary fibers include natural fibers, such as cotton, wool, sisal, linen, jute and silk. Other suitable fibers include man-made or synthetic fibers and filaments, such as regenerated cellulose, rayon, polynosic rayon, and synthetic cellulose esters, fibers and filaments, such as acrylics, polyacrylonitrile, modacrylics such as acrylonitrile-vinyl chloride copolymers, polyamides, for example, polyiexamethylene adipamide (nylon 66), polycaproamide, polyundecanoamide (nylon 11), polyolefin, for example, polyethylene and polypropylene, polyester, for example, poly (ethylene terephthalate), rubber and synthetic rubber and saran. Glass, carbon or any other high-performance fiber can also be used.
    [0041] Artificial fibers can also be used and may include any of the above fibers, low-denier artificial fibers or any combination of these fibers. Artificial fibers, due to the discontinuous nature of their filaments that form the yarn, tend to have much lower tension and modulus properties as opposed to yarns composed of continuous filaments.
    [0042] The performance of the cloth 10 is generally a function of the properties of the safety yarns 22 and the warp yarns 12, 15 and the weft yarns 14, 17. In ballistic cloths, maximize the amount of ballistic fibers (for example, warp yarns 12, 15 and weft yarns 14, 17) in a given volume tend to be beneficial, the larger the fiber for the volume ratio fraction generally means improved ballistic properties. Therefore, in some examples it may be desirable for the safety threads 22 to have a denier that is as low as practical while still being able to weave the cloth 10.
    [0043] On the cloth 10, it may be desirable to minimize the weight of the security threads 22 as a percentage of the total weight of the cloth 10, since the security threads 22 may not contribute as much to the strength of the cloth 10 as the ballistic threads. (for example, warp yarns 12, 15 and weft yarns 14, 17). Conversely, an increased number of security threads 22 may result in a more durable, stable cloth 10; however, the cloth 10 may tend to be heavier.
    [0044] In some instances, safety yarns 22 can be selected to have the lowest denier, and the lowest resistance so practical that they can be woven between the layers, and that they satisfy the requirements for a particular ballistic application.
    [0045] In some embodiments, two or more cloths 10 can be joined to form a ballistic member having four or more layers woven (for example, two cloths 10 can be joined using a resin, film or other suitable techniques to form a cloth that have four layers woven).
    [0046] The cloth 10 can also be manufactured in a prepreg using a film or a wet resin. Depending on the application, the film or resin can be applied to one side of the cloth 10, the cloth 10 can be completely impregnated with a resin, or the film can be worked on the cloth 10. In some examples, the film or resin can be a thermoplastic or thermosetting resin. Generally, any resin or film that can be used to create a prepreg can be used with this cloth 10. In some embodiments, two or more layers of cloth 10 can be laminated together to additionally increase the number of layers.
    [0047] In some embodiments, three or more woven layers can be held together to form a cloth using one or more safety threads that are interwoven as the cloth is being made.
    [0048] Now returning to figures 3A and 3B, a cloth 110 is shown here according to another mode. Cloth 110 has a first woven layer 111 (for example, having first interwoven warp and weft threads) and a second woven layer 113 (for example, having second woven warp and weft threads). The first and second layers 111, 113 are held together by security threads 22 which are interwoven with the first and the second warp and weft threads as the cloth 110 is woven together.
    [0049] With reference now to the approach of figure 3B, the cloth 110 is being separated to reveal the security threads 122 in more detail. In particular, the first safety threads 122a are oriented in a first direction (for example, the warp direction) while the second safety threads 122b are oriented in a second direction (for example, the weft direction).
    [0050] In an exemplary embodiment, a multi-layer woven cloth according to figures 3A and 3B was created and tested in a 9 mm V50 ballistic test. In particular, a multi-layer woven cloth as generally described here made of dtex aramid 3360 has been compared to a traditional cloth with separate layers laminated together using a resin. The V50 ballistic test for these cloths was conducted in a standard setting for a 40.64 cm x 40.64 cm (16 "x16") group using 9 mm Remington and 3.64 kg / m2 (0.75 lb / ft2) ) for both examples, with the following results:

    [0051] As shown, the multilayer woven cloth tends to provide similar performance as a conventional cloth while providing at least some of the advantages as generally described here. For example, the new multi-layered cloth went through about half the number of processing steps compared to the conventional cloth, which is advantageous for both performance and cost.
    [0052] In some modalities, the multilayer cloth must be used with a resin. If the cloth has a high adhesion to the resin, the safety thread can dissipate energy by interruption during the ballistic event while the resin holds the other layers together and prevents trauma.
    [0053] Now returning to figure 4, a cloth 210 is illustrated here according to another embodiment in which the cloth 210 has a deflection weave. In particular, the cloth 210 has two separate layers: that is, a first or higher layer 211 and a second or lower layer (not shown). In this cloth 210, the upper and lower warps and the wefts are spaced apart. In particular, the upper warp yarns are not located on top of the lower warp yarns, but are preferably located apart from each other (for example, they are at least slightly), and the upper weft yarns are not located at the top of the lower weft yarns, but instead are located one behind the other (for example, they are at least slightly apart). This wide-open weave generally provides the cloth 210 with more area to stretch, resulting in less squirt or sprain of the cloth 210.
    [0054] The drawing away also tends to improve ballistic performance by reducing the number and / or size of openings between threads in the cloth because the threads in one layer cover the openings in the adjacent layer, as described below.
    [0055] In some ballistic applications, it is sometimes desirable to decrease the cloth covering factor (for example, by distancing the threads and providing openings between them) in order to increase the number of layers of cloth in a group for a given density of areas. The increased number of layers of cloth tends to enhance the V50 ballistic performance. However, there is a limit to the increase in performance because having a coverage factor that is too low results in an open construction, which tends to increase bullet penetration during a ballistic event and intensifies decreases in ballistic resistance. The spacing design described above tends to intensify ballistic performance for a given wire size and density of ballistic areas providing layer effect while covering the openings in each layer with the wires of the adjacent layer as the two layers are woven into a pattern of distant layers.
    [0056] In some embodiments, some of the warp yarns and / or weft yarns may at least partially overlap, which the inventor believes may tend to increase ballistics performance.
    [0057] As shown, the first layer 211 and the second layer are held together by a plurality of first security wires 222a and a plurality of second security wires 222b (generally similar to security wires 22 as described above) which are generally perpendicular to each other and which are arranged in a row or pattern. For example, the first safety threads 222a can be oriented in a first direction (for example, the warp direction), while the second safety threads 222b can be oriented in a second direction (for example, the weft direction).
    [0058] As shown, the first safety wires 222a can be separated from each other by a first spacing T, while the second safety wires 222b can be separated from each other by a second spacing S. The first and second spacing T , S can be similar or different. Generally, spacings T, S can be selected in order to obtain desired properties for the cloth 210.
    [0059] In some modalities, the first T spacing can be between 0.0254 m (one inch) and 0.0762 m (three inches). In other embodiments, the first T spacing can be less than 0.0254 m (one inch) and more than 0.0762 m (three inches).
    [0060] In some modalities, the second spacing S can be between 0.0254 m (one inch) and 0.0762 m (three inches). In other embodiments, the second spacing S can be less than 0.0254 m (one inch) and 0.0762 m (three inches).
    [0061] In some embodiments, the layers of cloth can be secured using safety threads that extend only in one direction (for example, only in the weft direction).
    [0062] Now returning to figure 5, here is illustrated a method 100 of forming a multilayered woven cloth according to one embodiment.
    [0063] In step 102, warp yarns are provided. For example, the first warp yarns 12 and the second warp yarns 15 can be supplied on a loom or weaving machine (for example, standard 2D weaving looms, including sword, shuttle, air jet and jet looms). Water).
    [0064] In step 104, weft yarns are interwoven with the warp yarns to form at least two woven layers (for example, a first woven layer and a second woven layer). For example, the first weft yarns 14 could be interwoven with the first warp yarns 12 alternatively by moving the first warp yarns 12 up and down and passing a shuttle with the first weft yarns 14 between them, as will generally be understood . Similarly, the second warp yarns 15 could be interwoven with the second weft yarns 17 to form the second woven layer 13.
    [0065] In step 106, the security threads are interwoven with the warp threads and the weft threads, since the cloth is being made (for example, as warp threads and the weft threads are being woven together) to hold the first and second layers together. For example, the safety yarns 22 can alternatively be interwoven with the first and the second warp yarns 12, 15 by selectively moving the safety yarns 22 through them since the warp yarns 12, 15 and the weft yarns 15, 17 are being woven together.
    [0066] It will be appreciated that steps 102, 104 and 106 of method 110 generally do not have to be done in a specific order and that the order as listed does not mean to be limiting.
    [0067] Now returning to figure 6, another cloth 310 is illustrated here according to another embodiment having an upper layer 311 which is separated from the lower layer 313. For example, the cloth 310 may be similar to the cloth 210 previously described .
    [0068] The top layer 311 includes warp yarns 312 and top weft yarns 314 (e.g. 314a, 314b, 314c, 314d) which are woven together to form the first or top woven layer 311. The bottom woven layer 313 includes lower warp yarns 315 and lower weft yarns 317 (for example, 317a, 317b, 317c, 317d) which are woven together to form the second and lower woven layer 313. The woven upper and lower layers 311, 313 are held joints using one or more 322 security wires generally as previously described.
    [0069] As shown, the upper weft threads 314 and the lower weft threads 317 are spaced apart so that, for example, the first upper weft thread 314a overlaps the first lower weft thread 317a by an overlapping amount P. In this way, the safety thread 322 tends to be less twisted and more distended (as compared to the more compact path of the safety thread 22 described above).
    [0070] In some modalities, the overlapping quantity P is between 10% and 95%. In other modalities, the superimposed quantity P is between 30% and 70%. In other embodiments, the overlapped amount is about 50%.
    [0071] Now returning to figure 7, a cloth 410 is illustrated here according to yet another modality. Cloth 410 has an upper layer 411 which is spaced from the lower layer 413.
    [0072] The upper woven layer 411 includes warp yarns 412 and upper weft yarns 414 (e.g. 414a, 414b, 414c, 414d) which are woven together to form the first or higher woven layer 411. The lower woven layer 413 includes lower warp yarns 415 and lower weft yarns 417 (for example, 417a, 417b, 417c, 417d) which are woven together to form the second or lower woven layer 413. The woven layers, upper and lower 411, 413, are held together using one or more 422 security wires generally as described above.
    [0073] As shown, the upper weft threads 414 and the lower weft threads 417 are spaced similarly to the cloth 310, so that, for example, the first upper weft thread 414a overlaps the first lower weft thread 417a by an overlapping quantity P. In this embodiment, the upper weft threads 414 and the lower weft threads 417 are generally more uniformly spaced apart by the overlapping quantity P.
    [0074] Now returning to figure 8, a multi-layer woven cloth 510 is illustrated here according to another mode. Cloth 510 generally includes an upper woven layer 511 and a lower woven layer 513 held together using first security threads 522a and second security threads 522b generally as previously described. In this embodiment, each of the upper woven layer 511 and the lower woven layer 513 has a "plaid" pattern composed of adjacent flat woven portions 525 (e.g., portions of layers 511, 513 with a flat weave) and woven satin portions 527 (for example, portions of layers 511, 513 with a satin weave). These types of woven layers can be referred to as Platin (TM) and are described more generally in PCT International Patent Application Publication WO2009153120 and WO2009153121.
    [0075] In this modality, the flat woven portions 525 and satin woven portions of the upper and lower layers 511, 513, are aligned. For example, as shown, a first flat woven portion 525a in the top layer 511 is aligned with and positioned above a second flat woven portion 525b in the bottom layer.
    [0076] Turning now to figure 9, a 610 multilayer woven cloth is illustrated here according to another modality. Cloth 610 is similar to cloth 510 and generally includes an upper woven layer 611 and lower woven layer 613 held together using first safety threads 622a and second safety threads 622b generally as previously described. However, in these modalities the woven flat and satin portions "checked" are alternated with respect to each other. For example, as shown, a first flat woven portion 625a in the upper layer 611 is aligned with and positioned above a second woven satin portion 627b in the lower layer 613.
    [0077] Although the modalities of figures 8 and 9 have layers with Platin (TM) arranged so that the woven portions and the satin portions both match and oppose, in some modalities, the layers with Platin (TM) can be arranged in a random design so that the woven portions and the satin portions, of each layer, are separated from each other, opposite to be aligned in both patterns of combination and opposition.
    [0078] The multi-layer woven cloths with Platin (TM), and as described above, were created and tested in a 9 mm ballistic test V50, with the following results: Product Description Area Density of the

    [0079] As shown, the performance of the cloth with Platin in layer 2 with combination patterns performed better than the other two cloths.
    [0080] In another exemplary modality, a multilayered woven cloth with woven layers apart was created and tested in a 9 mm ballistics test as well as a 17 Cal .22 grain FSP test and compared to a flat cloth. The separated woven layers were held together using safety threads aligned only with the weft threads. The safety wires were spaced apart by a spacing of about 0.0254 m. The ballistics tests for these cloths were conducted in a standard setting for a 40.64 cm x 40.64 cm (16 "x16") group using 9 mm Remington and a Cal .22 FSP at an area density of 5 , 4 kg / m2 for both samples, with the following results:

    [0081] The performance in the 9 mm FSP Cal .22 tests were both improved. Furthermore, the performance in the FSP Cal .22 test was improved with the cloth removed by 10.05 m (33 feet), an increase of approximately 5.3%.
    [0082] The new cloth with woven layers apart had a higher performance in both tests with smaller layers of cloth. This is despite the conventional understanding that a cloth having a lower covering factor and more layers of cloth for a given density of areas should work better. The inventor believes that the increased performance is due to the drawing away, in which the coverage for each thread within the cloth structure is maximized by having each direction thread (warp or weft) situated on two levels with overlaps.
    [0083] Although the exemplary modality tested used safety threads aligned with the weft threads and distanced by about 0.0254 m, in other modalities, the safety threads can be aligned with warp threads and / or threads weft, and can be separated by a spacing of less than 0.0762 m (three inches).
    [0084] The cloths described here can generally be used in any combination with the materials listed above and can replace any material or combination of materials in an existing ballistic cloth. In addition, the cloths described here can be laminated together or laminated with films to produce ballistic elements for various applications, including soft shielding applications, severe shielding applications and rigid and / or semi-rigid applications. The proportions of each selected material and the design of the ballistics elements may vary depending on the intended application (ie, particular specifications for military or police applications).
    [0085] Generally, the multilayer cloths described here use a unique technique to hold layers of cloth together and limit the use of extra stitching and application of resin unless desired to provide particular properties.
    [0086] Although the above description provides examples of one or more fabrics, processes or devices, it will be appreciated that other fabrics, processes or devices may be within the scope of the present description as interpreted by someone skilled in the art.
    权利要求:
    Claims (24)
    [0001]
    1. Multilayer woven ballistic cloth, characterized by the fact that it comprises: a. an upper woven layer having upper warp threads and upper weft threads that are interwoven together to form the upper woven layer, the upper warp threads and the upper weft threads being ballistic threads; B. a lower woven layer having lower warp yarns and lower weft yarns which are woven together to form the lower woven layer, lower warp yarns and lower weft yarns being ballistic yarns, c. a plurality of safety threads, each safety thread interwoven with at least some of the upper threads and some of the lower threads in order to hold the upper and lower woven layers together, the safety threads being significantly less denier than the safety threads. warp and weft yarns and having significantly lower tenacities and tension modules than warp yarns and weft yarns; d. wherein the multilayered ballistic cloth is formed by interweaving the security yarns with the warp yarns and weft yarns as the upper woven layer and the lower woven layer are made; and additionally in that at least some of the upper and lower wires are spaced apart from each other in order to overlap by more than 10%.
    [0002]
    2. Multilayered woven ballistic cloth according to claim 1, characterized in that at least some of the upper and lower threads are separated from each other in order to overlap by between 30% and 70%.
    [0003]
    3. Multilayer woven ballistic cloth according to claim 1, characterized in that at least some of the upper and lower threads are completely separated from each other so that they do not overlap.
    [0004]
    4. Multilayer woven ballistic cloth according to claim 1, characterized in that the warp yarns and weft yarns are ballistic yarns.
    [0005]
    5. Multilayer woven ballistic cloth according to claim 1, characterized in that the safety threads include first safety threads oriented in a first direction and second safety threads oriented in a second direction.
    [0006]
    6. Multilayer woven ballistic cloth according to claim 5, characterized in that the first security threads are separated by a first spacing, and the second security threads are separated by a second spacing.
    [0007]
    7. Multilayered woven ballistic cloth according to claim 1, characterized by the fact that the threads are securely separated by a spacing of less than 25.4 mm (1 inch).
    [0008]
    8. Multilayer woven ballistic cloth according to claim 1, characterized by the fact that the safety threads are separated by a space of 6.35 mm (1/4 inch).
    [0009]
    9. Multilayered woven ballistic cloth according to claim 1, characterized in that the safety threads are separated by a distance between 25.4 mm (1 inch) and 76.2 mm (3 inches).
    [0010]
    10. Multilayer woven ballistic cloth according to claim 1, characterized in that the security threads include one or more of the upper warp threads, the lower warp threads, the upper weft threads and the warp threads. lower weft.
    [0011]
    11. Multilayer woven ballistic cloth according to claim 1, characterized in that the security threads include one or more of the upper warp threads and the upper weft threads.
    [0012]
    Multilayered ballistic cloth according to claim 1, characterized in that the security threads include one or more of the lower warp threads and the lower weft threads.
    [0013]
    13. Multilayer woven ballistic cloth according to claim 1, characterized in that the safety threads include one or more of the upper and lower warps.
    [0014]
    Multi-layer woven ballistic cloth according to claim 1, characterized in that the security threads include one or more of the upper weft threads and the lower weft threads.
    [0015]
    15. Multilayer woven ballistic cloth according to claim 1, characterized by the fact that the security threads are selected from a group consisting of: (i) natural fibers, such as: a) cotton, b) wool, c ) sisal, d) linen, e) jute, and, f) silk; (ii) man-made or synthetic fibers and filaments, such as: a) regenerated cellulose, b) rayon, c) polynosic rayon, and, d) cellulose esters; (iii) synthetic fibers and filaments, such as: a) acrylics, b) polyacrylonitrile, c) modacrylics such as acrylonitrile-vinyl chloride copolymers, d) polyamides, for example: polyamethylene adipamide (nylon 66), polycaproamide (nylon 6), polyundecanoamide (nylon 11), e) polyolefin, for example, polyethylene and polypropylene, f) polyester, for example, poly (ethylene terephthalate), g) rubber, h) synthetic rubber, i) saran; and, (iv) high performance fiber, such as: a) glass, and, b) carbon.
    [0016]
    16. Multilayer woven ballistic cloth according to claim 1, characterized by the fact that the safety threads include high performance fibers.
    [0017]
    17. Multilayer woven ballistic cloth according to claim 1, characterized in that the security threads are made of non-ballistic threads.
    [0018]
    18. Multilayer woven ballistic cloth according to claim 1, characterized in that the safety threads include aramid threads.
    [0019]
    19. Multilayered woven ballistic cloth according to claim 14, characterized in that the safety threads are separated by a spacing of less than 25.4 mm (1 inch).
    [0020]
    20. Multilayer woven ballistic cloth according to claim 14, characterized in that the safety threads are separated by a space of 6.35 mm (1/4 inch).
    [0021]
    21. Multi-layer woven ballistic cloth according to claim 14, characterized in that the security threads include one or more of the upper warp threads, the lower warp threads, the upper weft threads and the warp threads. lower weft.
    [0022]
    22. Multilayered woven ballistic cloth according to claim 1, characterized in that the safety threads are separated by a spacing of less than 25.4 mm (1 inch).
    [0023]
    23. Multilayered woven ballistic cloth according to claim 1, characterized in that the safety threads are separated by a space of 6.35 mm (1/4 inch).
    [0024]
    24. Multilayer woven ballistic cloth according to claim 1, characterized in that the security threads include one or more of the upper warp threads, the lower warp threads, the upper weft threads and the warp threads. lower weft.
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    同族专利:
    公开号 | 公开日
    EP3056594A2|2016-08-17|
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    EP3056594A3|2016-12-07|
    US20130025736A1|2013-01-31|
    MX350493B|2017-09-07|
    IL218954A|2017-04-30|
    CA2738987A1|2011-04-07|
    EP2462266A4|2012-12-12|
    US20200354862A1|2020-11-12|
    US20110240168A1|2011-10-06|
    IL218954D0|2012-06-28|
    US8573261B2|2013-11-05|
    US8256470B2|2012-09-04|
    EP3865611A1|2021-08-18|
    KR20120062871A|2012-06-14|
    US20160053413A1|2016-02-25|
    CA2738987C|2012-05-01|
    EP2462266A1|2012-06-13|
    MX371120B|2020-01-17|
    WO2011038510A1|2011-04-07|
    EP2462266B1|2016-05-18|
    MX2012003995A|2012-06-27|
    BR112012007306A2|2016-04-19|
    US9127379B2|2015-09-08|
    US9850598B2|2017-12-26|
    US20180105959A1|2018-04-19|
    EP3056594B1|2020-12-30|
    KR101365274B1|2014-02-19|
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    法律状态:
    2018-04-10| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|
    2019-02-05| B06T| Formal requirements before examination [chapter 6.20 patent gazette]|
    2019-12-10| B07A| Application suspended after technical examination (opinion) [chapter 7.1 patent gazette]|
    2020-05-19| B06A| Patent application procedure suspended [chapter 6.1 patent gazette]|
    2020-09-15| B06A| Patent application procedure suspended [chapter 6.1 patent gazette]|
    2020-12-22| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|
    2021-03-09| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 10 (DEZ) ANOS CONTADOS A PARTIR DE 09/03/2021, OBSERVADAS AS CONDICOES LEGAIS. |
    优先权:
    申请号 | 申请日 | 专利标题
    US24812309P| true| 2009-10-02|2009-10-02|
    US61/248,123|2009-10-02|
    PCT/CA2010/001566|WO2011038510A1|2009-10-02|2010-10-04|Woven multi-layer fabrics and methods of fabricating same|
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