• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention discloses a shark resistant composite fabric that has an outer layer of a woven or knitted shark bite resistant fabric material; an intermediate layer neoprene. An inner layer of a woven or knitted shark bite resistant fabric material may also be provided.
    公开号:ES2874184A2
    申请号:ES202190061
    申请日:2020-04-09
    公开日:2021-11-04
    发明作者:Haydon Burford
    申请人:Shark Stop Australia Pty Ltd;
    IPC主号:
    专利说明:

    [0004] Technical field
    [0005] The present invention relates to fabrics for use in diving suits and similar applications, and to garments and other objects formed using such fabrics.
    [0007] Background of the invention
    [0009] Scuba divers, surfers and other water users are at risk of attack from a shark. Most of the attacks are produced by a small subset of shark species, mainly bull, tiger and white. A variety of strategies, electronic shark protection devices, chemical deterrents and other approaches have been developed to reduce the risk of shark attack. These have had varied but generally limited efficacy.
    [0011] It has also been proposed to modify a diving suit, so that the user is less likely to be perceived as food by the shark, including camouflage motifs, stripes and other motifs.
    [0013] Other approaches to diving suit design have attached rigid plates to parts of the suit in an attempt to prevent bite injuries. For example, U.S. Patent No. 4,356,569 to Sullivan discloses a shark deterrent suit with a base garment that is a chainmail or foam rubber diving suit material with a multiplicity of hard protection elements embedded. US Patent No. 3,284,806 to Prasser discloses a protective body garment having a rubber foam with a metal reinforcement and a metal mesh for reinforcement.
    [0015] US Patent No. 4,833,729 to Fox discloses a shark protective suit having a plurality of tips to prevent a shark from clenching its jaws on the wearer.
    [0017] However, these wetsuit designs have not been bought or dressed because they are heavy, expensive to manufacture, and imposed difficulties on the wearers. user movements.
    [0019] Hennessey US Patent Application No. 20130091610A discloses a diving suit having an inner layer of neoprene, an ultra-high molecular weight polyethylene woven material, a layer of bitter agent (denatonium benzoate) and another outer layer of neoprene.
    [0021] Sundnes US Patent Publication No. 2008/0289087 A1 discloses a garment for use with diving suits having a layer of elastic material and at least one layer of one or more protective elements.
    [0023] It is an object of the present invention to provide an improved shark resistant material for use in diving suits and similar applications.
    [0025] Summary of the invention
    [0027] In a first broad form, the present invention provides a composite material with an outer layer of a woven or knitted ultra-high molecular weight polyethylene (UHMwPE) material, an interlayer of neoprene and an inner layer of woven or knitted UHMwPE. .
    [0029] In accordance with one aspect, the present invention provides a composite shark resistant fabric that includes an outer layer of a shark bite resistant fabric, material, knit or fabric, an intermediate layer of neoprene and an inner layer comprising a material resistant to shark bites.
    [0031] In accordance with another aspect, the present invention provides a composite shark resistant fabric including an outer layer of a shark bite resistant knitted or woven material and an inner layer of neoprene.
    [0033] In accordance with another aspect, the present invention provides a shark resistant composite fabric for use in a garment such that during a shark attack, contact of the shark's tooth with an outer layer of woven or woven UHMwPE material Knit resists or deters the completion of a test bite.
    [0034] The implementations of the present invention allow a diving suit that has two different modes of resisting shark attack. First, in test or exploratory bite mode, sharks find the texture and feel of the outer shell unsatisfactory and, in some cases, cease their attack at that stage. Second, even if an attack successfully penetrates the outer layer, it has been found that penetration of the inner layer is unlikely, especially since it is separated from the outer layer by the neoprene interlayer.
    [0036] Brief description of the drawings
    [0038] Illustrative embodiments of the present invention will now be described with reference to the accompanying figures, in which:
    [0040] Figure 1 is a cross-sectional view of an implementation of a fabric in accordance with the present invention;
    [0042] Figure 2 is a cross-sectional view of another implementation of a fabric in accordance with the present invention;
    [0044] Figure 3 is a perspective view of a diving suit made from the fabric of Figure 1 or Figure 2;
    [0046] Figure 4a shows a single shark tooth in initial contact with the tissue of Figure 1; and
    [0048] Figure 4b shows a single shark tooth sunk in the tissue of Figure 1.
    [0049] Detailed description of the invention
    [0051] The present invention will be described with reference to specific implementations. However, it will be understood that it is contemplated that alternative implementations may employ additional features. For example, additional layers of material can be used at specific locations; an inner lining or neoprene or other material can be added; and the thickness of the neoprene can vary depending on the temperature of the water or other conditions of the body of water where the suit is to be used. Could also be used in conjunction with a camouflaged outer surface or with another reason.
    [0053] It will be further understood that although specific details such as materials and dimensions are provided, these are intended to be illustrative and not limiting of the possible ways in which the present invention could be implemented.
    [0055] The present implementation contemplates a diving suit generally conventional in shape, with full length arms and legs. However, the fabric can clearly be incorporated into other garments or diving suit shapes and styles, as required, including boots and hoods.
    [0057] Figure 1 shows a cross-sectional view of a fabric 10 according to a first implementation of the present invention. The fabric 10 has an outer layer 11 of woven or knitted ultra-high molecular weight polyethylene (UHMwPE) material, an interlayer of neoprene 15 and an inner layer 13 of woven or knitted UHMwPE material. The neoprene layer 15 is located between the outer layer 11 of woven or knitted UHMwPE material and the inner layer 13 of woven or knitted UHMwPE material. The outer and inner layers 11,13 of woven or knitted UHMwPE material in this implementation are 1.2mm thick. Neoprene interlayer 15 has a thickness in the range of about 1 to about 7mm, for example. A typical value is 3 to 5 mm. The neoprene interlayer 15 is bonded to the outer and inner layers 11,13 of knitted or woven UHMwPE material by gluing, heat fusion or any other suitable process. A suitable approach is to use the adhesives normally used in the construction of diving suits.
    [0059] In another implementation as shown in Figure 2, a fabric 40 has an outer layer 41 of woven or knitted ultra high molecular weight polyethylene (UHMwPE) material and an inner layer of neoprene 45.
    [0061] In another implementation, the outer and inner layers 11,13 of fabric 10 and outer layer 41 of fabric 40 comprise a knitted or woven layer of UHMwPE, fiberglass, and polyester material. Preferably, the outer and inner woven or knit layers 11,13 of the fabric 10 and the outer layer 41 of the fabric 40 have a composition of 42% UHMwPE material, 31% polyester and 27% polyester fiber. glass. The properties of this composition of the outer and inner woven or knit layers 11, 13 of the fabric 10 and of the outer layer 41 of the fabric 40 are shown in the table below.
    [0063]
    [0066] The UHMwPE material is selected from any suitable commercial material, eg Dyneema® and Spectra®. Dyneema is commercially available in DSM, UHMwPE. (https://www.dsm.com/products/dyneema/en_GB/technologies/dyneema-formfactors.html).
    [0068] Spectra is commercially available from Honeywell and is a UHMwPE fiber that claims to be stronger and lighter than other ingredient fibers. It is created using a gel spinning process, which forms long oriented molecular chains as the fiber is stretched. (https://www.spectra-fiber.com/science-behind-spectrafiber/).
    [0070] Figure 3 shows a diving suit 20 made of the fabric 10,40. The diving suit 20 has a closable opening 21, expansive connections in the seams 23 of the panels and fabrics 10,40 of different sizes. The thickness of the fabric 10.40 depends on its area in the diving suit 20 and can be varied by adjusting the thickness of the neoprene layer 15. For example, the thickness of the fabric 10.40 could be greater in the torso and chest areas. back 25 than arm and leg areas 27. For high mobility areas 28 such as elbows and knees, the tissue thickness 10.40 could be less compared to the other areas. For areas such as the armpits 29 and the groin, the neoprene interlayer 15 may not be present.
    [0072] Although it is preferred that a diving suit or similar garment be formed entirely of fabric in accordance with the present invention, it is also contemplated that a diving suit may have panels or sections of fabric in accordance with the present invention and sections that are of another construction, for example, plain neoprene. Other garments can be constructed, for example boots, hoods, vests, etc. with tissue. The fabric can also be used for applications other than apparel where shark resistance is desired.
    [0074] It will be appreciated that the thicknesses of the layers discussed are the presently preferred form, however many different thicknesses can be used, subject to efficiency and practicality. For example, the outer and inner layers can be of different thickness and the interlayer can vary in thickness for different conditions or uses. The present invention can be applied to a wetsuit fabric of any suitable thickness or to applications such as dry suits where the neoprene is formed from crushed neoprene material and an additional fleece or other layer is provided within the suit.
    [0075] Sharks are curious when they encounter something unusual, such as a diver or swimmer. Their way of exploring an object, or potential prey, is to bite it; these bites are known as test bites. Shark bites in humans are generally exploratory and the animal swims away after a bite. Many exploratory bites in surfers may be due to the shark mistaking the surfer and the surfboard for a seal or other prey. These bites generally do not have the full force of the bite, but if made by a large shark, they are likely to result in significant injuries.
    [0077] Large predatory sharks generally have multiple rows of triangular shaped teeth, with serrated surfaces. Figure 4a shows a single shark tooth 30 with serrated edges 31 in initial contact with tissue 10. Figure 4b shows the single shark tooth 30 being sunk into tissue 10 and coming into contact with outer layer 11 of tissue material. UHMwPE woven or knitted. It has been observed in trials of implementations of the present invention that the shark in some cases does not complete a test bite after coming into contact with the outer layer 11 of woven or knitted UHMwPE. The teeth are postulated to engage tissue in a way that is unfamiliar to the shark, inconsistent with prey, or otherwise terminates the test bite behavior. This may be because the serrated edges of the teeth catch on the outer tissue.
    [0079] In some trials, some sharks have been observed to make a more determined, full force bite, especially if there is blood and other attractive odors in the water. In tests, shark teeth 30 penetrated outer layer 11 and neoprene 15 in some cases, but did not penetrate inner layer 13 of UHMwPE. Although it cannot be said that it is not possible for a shark to penetrate the full thickness of the material used in this example, it certainly appears to greatly reduce the risk of such penetration. It will be appreciated that, although there may be injuries from a blunt bite, the blood in the water is much less likely to excite the attacking shark or other sharks, and much less likely that the victim will experience the catastrophic blood loss that is often common. cause of death from shark bite.
    [0081] Although UHMwPE material is currently preferred, it is contemplated that the present invention could be implemented using alternate fibers, or in a fiber fabric. mixed, for example, with fiberglass, polyester or other materials known or to be developed. The fabric should provide the desired levels of bite resistance, however other factors such as ease of use and that it has sufficient flexibility and comfort to allow practical use by divers and surfers are also important to practical implementation.
    [0083] The term neoprene is used in a general sense to refer to any type of synthetic rubber material that is suitable for the present application. Generally, it will have a degree of buoyancy with respect to the water. It will normally be a closed cell foam, but can be formed from crushed neoprene or other materials. The precise composition of the neoprene layer is not critical to the inventive concept.
    [0085] Reference in this specification to any prior publication (or information derived from it), or to any known matter, is not, and should not be taken as an acknowledgment or admission or any form of suggestion that the prior publication (or information derived from it) or known subject matter is part of the common general knowledge in the field of effort to which the present specification refers.
    [0087] All patents and other references cited above are hereby incorporated by reference into the specification.
    权利要求:
    Claims (6)
    [1]
    1. A composite shark resistant fabric adapted for use in a garment, the fabric including an outer layer of shark bite resistant material, a middle layer of neoprene and an inner layer of a bite resistant material of shark, the material resistant to shark bites being formed by a woven or knitted layer of UHMwPE material and optionally further comprising fiberglass and / or polyester, wherein in the event of a shark attack, the Contact of the shark's tooth with the outer layer resists or deters the completion of a test bite.
    [2]
    A shark resistant composite fabric according to claim 1, wherein each of the outer and inner layers has a thickness of about 1.2mm.
    [3]
    A shark resistant composite fabric according to claim 1 or claim 2, wherein the interlayer has a thickness in the range of about 1 to about 7mm.
    [4]
    4. A shark resistant garment, the garment being formed using a fabric that includes an outer layer of material resistant to shark bites, a middle layer of neoprene and an inner layer of material resistant to shark bites, being formed the material resistant to shark bites by a knitted or woven layer of UHMwPE material and optionally further comprises fiberglass and / or polyester, wherein in the event of a shark attack, the contact of the shark's tooth with the outer layer resists or deters the completion of a trial bite.
    [5]
    5. A shark resistant garment according to claim 4, wherein each of the outer and inner layers has a thickness of about 1.2mm.
    [6]
    6. A shark resistant garment according to claim 4, wherein the interlayer has a thickness in the range of about 1 to about 7mm.
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    同族专利:
    公开号 | 公开日
    ES2874184R1|2021-12-22|
    AU2020256634A1|2022-01-06|
    WO2020206496A1|2020-10-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US8069494B2|2006-01-09|2011-12-06|John Sundnes|Puncture and cut resistant material|
    US20100287689A1|2009-05-12|2010-11-18|Jeremiah Sawyer Sullivan|Protective garments and accessories|
    US20110159264A1|2009-12-22|2011-06-30|Jeremiah Sullivan|Multifunctional protective fabric|
    US8578512B2|2011-08-19|2013-11-12|Nike, Inc.|Siped wetsuit|
    US20130091610A1|2011-09-02|2013-04-18|William Francis Hennessey, IV|Wetsuit System With Shark Deterrents|
    US9056662B2|2012-02-29|2015-06-16|Nike, Inc.|Wetsuits with hydrodynamic interlocking and kinesiologic features|
    CN104389074A|2014-11-17|2015-03-04|江阴市红柳被单厂有限公司|UHMWPE textile and manufacturing method thereof and application of manufacturing of fabric with touch cooling feel|
    法律状态:
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    优先权:
    申请号 | 申请日 | 专利标题
    AU2019901237A|AU2019901237A0|2019-04-10|Shark resistant composite fabric|
    PCT/AU2020/050351|WO2020206496A1|2019-04-10|2020-04-09|Shark resistant composite fabric|
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