FR2996341A1 - Autonomous and rechargeable sound diffuser housing for use with e.g. aquatic sports equipment, to protect e.g. surfers, against attacks of sharks, has rechargeable battery supplying electric energy to emitter device by using charger - Google Patents

Abstract

The housing (BD) has a part formed for being immersed in a hemispherical dome (D) and a support plate (P) for being plated on a support, where the part and the plate are associated with each other or removable to form an inner volume to receive action units. Electronic emitter reproduces the sounds e.g. alarm cries, emitted by dolphins and emits the sounds under conditions of power and frequency to move away sharks from the emitter at secure distance. A rechargeable battery supplies electric energy to the emitter through connection to a sector by using a charger (C).

Description

AUTONOMOUS AND RECHARGEABLE SOUND DIFFUSER HOUSING FOR PROTECTION AGAINST SHARKS.

The news reports more and more often accidents sometimes fatal due to the meeting of a surfer and a shark. Statistics show that more than 50 countries around the world have been exposed to shark attacks on swimmers, surfers, windsurfers and other water sports enthusiasts. The United States and especially Florida is a place in the world where there are the most shark attacks. Australia is also an area of the world very concerned because of the configuration of the country, the shark species present in the neighboring seas and the nautical and fishing activities widely practiced by people living on the coast rather than the sea. inside. Sharks are known to be found in all the seas and oceans of the globe except Antarctica. They evolve from the surface to 2000 or 2500 meters depth, are all carnivorous and can perceive sounds up to two kilometers away. Many of the shark species hunt in packs to capture prey. In their search for food, they can travel very long distances around ocean basins in large schools leaving little chance of survival for prey in their path. Some species with very sharp and pointed lower teeth remove large pieces of flesh from large fish and marine mammals (sea lions, seals, etc.), while others, such as the Great White Shark, swallow small prey in their entirety. 30 Only five species are considered dangerous for humans because of their size and diet, they are tiger sharks, white sharks, bulldog sharks, mako sharks and logiman sharks. According to some scientists, despite its reputation, the shark would not be a man-eater but would attack the man by confusion, taking it for one of his usual prey. These claims are confirmed by the fact that most shark attacks are of the "exploration bite" type, that is to say a single bite, the consequences of which of course remain mutilating and sometimes fatal because of haemorrhage. This hypothesis has been questioned by other scientists since it is known that many sharks have excellent vision and that their technique of attacking humans differs substantially from that of their usual prey. Even though shark attacks are relatively low compared to other causes of human mortality, the feeling of fear remains present in all swimmers and sport users of the seas affected by shark attacks. 10 It should also be noted that climate change, and particularly the warming of the seas and oceans, opens new doors to the geographical movements of sharks, thus extending the feeling of anxiety to parts of the world hitherto foreign to this phenomenon. Thus, the man has sought and always seeks to protect himself from these 15 shark attacks by means not always effective. For example, many American beaches, especially in California, are equipped with protective nets placed off beaches and beyond which swimming is prohibited. On several occasions this means has shown faults due to the fact that the shark can evolve in great depths and pass under said protection nets. Other varied means have so far been experimented with little results such as: the wearing of striped suits, bubble walls, local application of chemicals and the warning and surveillance network that remains to this day the most serious. 25 Some researchers and inventors have thought to lead to the implementation of a device consisting of a small device used in personal protection against attacks of persons, designated "Shark shield" that the persons concerned carry on them and in particular surfers . This apparatus functions by emitting an electromagnetic field in the water surrounding the carrier individual and whose particularity would be to irritate certain organs of the shark (Lorenzini ampoules) tending to move the shark away from the apparatus. This device is limited by its field of action which is restricted around the wearer of the device and seems insufficient to stop a shark during an attack. The effect on the shark's organs is often insufficient to deter him from attacking when he has already started his aggression.

Other systems have been implemented and are still used on a large scale in the fisheries sector to keep small cetaceans, such as porpoises, dolphins etc. from fishing nets, attracted by fish caught and present in fish. the nets, which are caught in the said nets and most often die asphyxiated. These devices are usually designated by "pingers" for the sole purpose of removing cetaceans by emitting repetitive sounds and strident, the risk of disturbing the auditory sense of some fish. The sound impulses are unbearable for porpoises and most other cetaceans. While "pingers" seem to be able to meet the urgent needs of protecting highly endangered cetacean populations that feed on heavily fished areas, they do not provide much evidence in protecting humans from shark aggression. The inventor's thinking therefore focused on the analysis of the community life of species in the marine environment and identified a number of findings that led to the present invention. 20 This analysis first concerned the cohabitation between sharks and delphinids and more specifically dolphins. It has revealed numerous cases of dolphin mating, especially during the pups' birth period, the object of which is the protection of offspring against the attack of sharks attracted by the blood. 25 It has been found on many occasions that the dolphin has the power to kill the shark by hitting it at high speed with its rostrum at the precise location of the liver. Indeed, the liver of a shark can represent 25% of its weight, consists of 90% of squalene represents a large energy reserve and serves to compensate for its lack of swim bladder to stabilize. This organ is therefore vital to the shark 30 and makes it vulnerable to powerful shocks that the dolphin's rostrum can inflict on it.

When dolphin females give birth to their young, mothers do not support the presence of sharks in the area. In case of danger, for example facing a shark, the group is in solidarity and the young swim against their mother. At the time of birth, two females, and sometimes more, surround the mother to protect her and her cub from shark attacks attracted by the smell of blood. In group, the dolphins do not fear much, the shark too enterprising that would attack a member of the group, would not resist long against the attack. The dolphins, much more agile, dive under the shark and their hard beater as concrete carry thrusts in the soft part of the belly of the shark causing him to burst the liver. These facts result in the finding that led the inventor to its creation: sharks fear the presence of dolphins in their entourage and are quick to leave the places as soon as they detect their presence. Sharks with a very sharp hearing that allows to perceive the cries of dolphins up to 10 km in the marine environment, the inventor has devised the present invention to protect humans against attacks sharks. In addition to the devices currently exploited by industrial fishing, other inventions have emerged in the past years but none is based on the phenomenon which motivated the present invention, but rather on the emission of electrical pulses. , electromagnetic waves or other means of visual perception. It may be noted, for example, the international patent of origin US VLADIMIR VLAD published on 09/15/2005 under the number WO 2005085064 which mentions a garment characterized in that it is constructed of an electro-active material constituting it around of the person who wears it a sensible electric field to prohibit the approach of a shark. This device which is exclusively limited to a garment worn by a plunger is distinguishable from the present invention by the fact that it uses an electrical emission on a very limited environment and sensible repelled a shark during a possible attack. The present invention is not intended to create an electric barrier opposed to an attack and active only when the shark is in very close proximity to its human victim but on the contrary makes it possible to keep the shark away from its prey by dissuading it to approach it and that under the effect of a sound emission.

On the other hand, the device of the present invention provides protection not only to divers immersed in the marine environment but also to other non-immersed actors such as windsurfers, suri or sail. Another patent may be raised in the context of the present invention, for example the international patent of origin (AU) WILLS CRAIG STEPHEN published on 10/10/2009 under the number WO2009146491 which relates to a shark repellent means based on the emission on the submerged face of a surfboard of a digital image deemed to be a deterrent to the attack of sharks.

Many other devices have been devised in order to protect swimmers, divers and sports users of the sea but none so far has used the sound removal of sharks. The present invention consists of a sound diffuser housing supplied with electric energy by an integrated rechargeable battery on a mains socket, characterized in that it diffuses preferably intermittently the distress cries of a group of dolphins. Sharks fearing the presence of group dolphins and having a hearing allowing them to interception of these cries of alert several kilometers of their emission, they stand as far as possible According to the embodiment of the invention , the sound diffuser housing is preferably made of a material compatible with immersion in a marine environment, for example ABS plastic or any other material, it is of 25 dimensions and shapes adapted to its function, its use and its conservation . According to the preferred embodiment of the invention, the outer structure of the sound diffuser housing is composed mainly of two parts associated with each other in a fixed or removable manner: a preferably flat part intended to be plated on a support, designated hereinafter after a support plate and a portion formed opposite to said support plate intended to be immersed in a marine environment and for example of hemispherical shape, hereinafter referred to as a dome. The two support plate and dome portions are associated with each other to form an available interior volume capable of receiving, in an integrated or reported manner, the means of action of the sound diffuser housing of the invention.

According to the preferred embodiment of the invention, the support plate and the preferably hemispherical dome cooperate with one another in a demountable or definitive manner, in a manner sufficiently sealed to prevent water from entering the internal volume of the housing. sound diffuser once it is constituted.

According to the preferred embodiment of the invention, the sound diffuser housing preferably has in its interior volume an electronic device capable of reproducing the cries of one or more dolphins and in particular the cries of alertness or distress of those at frequencies sufficient to be perceptible at defined distances sufficient to keep the sharks away from the transmitter.

According to the preferred embodiment of the invention, the sound diffuser housing preferably has in its interior volume a battery-type rechargeable electric energy accumulator on the sector, capable of supplying sufficient electricity to the electronic transmitter device of the sounds. Thus, the sound diffuser housing of the invention can be recharged with electrical energy by means of a standard charger when not in use to be ready for use for future use. According to the preferred embodiment of the invention, the sound diffuser housing has means of facilitating the transmission of the sounds emitted by the emitting electronic device, from the inside of the sound diffuser housing closed towards the outside thereof, by example of watertight orifices or loudspeakers designed specifically for this purpose. According to the preferred embodiment of the invention, the support plate associated with the dome preferably hemispherical to form the sound diffuser housing, has on its outer face opposite to the face constituting the interior volume of the sound diffuser housing, a device of preferably automatic attachment, integrated or reported, to allow the soliclarization of the sound diffuser housing on the underside and immersible of any type of aquatic sports equipment having all or part of a partially or totally immersible face, such as: surf, wakeboard board, water skis, windsurfing, kitesurf board, etc. According to a different embodiment of the invention, the support plate associated with the dome preferably hemispherical to form the sound diffuser housing, has on its outer face opposite to the face constituting the interior volume of the sound diffuser housing, a device of preferably integrated automatic attachment or reported, capable of cooperating with one or the other of the receptacles provided on the partially or totally immersible face of an aquatic sports equipment. For example, said fixing device cooperates with one or the other of the receptacles provided on the underside of a surfboard for fixing additional drifts. According to another embodiment of the invention, the outer structure of the sound diffuser housing is preferably constituted by the association of the support plate with an upper part, preferably of a shape similar to that of an additional drift of aquatic sports board. , for example a surfboard, so as to be integrated in the additional drift of said equipment. The sound diffuser housing of the invention is in this configuration provided with a fixing means compatible with the receptacle initially provided for the attachment of a traditional additional drift on said equipment. According to a different embodiment of the invention, the outer structure of the sound diffuser housing is preferably constituted by the association of the support plate with an upper part, preferably hemispherical arranged to receive in a reported manner and locked, the device of attaching an additional drift of aquatic sports equipment, for example a surfboard. Thus, the sound diffuser housing of the invention can be attached and inserted between the partially or totally immersible surface of the equipment and the additional drift of said equipment.

According to a different embodiment of the invention, the sound diffuser housing is provided with a device for fixing it to a location of the human body, for example by being associated with an elastic strap to attach it to an arm or a leg, a fastening device for attaching it to any location of a diving suit or a clip-type fastening device or belt for being able to wear it at the waist or attached to a bathing suit. According to another embodiment of the invention, the sound diffuser housing is provided with a device for attaching it to a submerged location of a marine vehicle, for example a motor boat, a water scooter, a sailboat hull, etc. Said fastening device is for example magnetic, mechanical (suction cup) or any other configuration for securing fixed and functional immersion in a marine environment.

According to another embodiment, the outer structure of the sound diffuser housing is designed in its material, its forms and its constitution to be immersed entirely in marine environment and for example trailed in immersion. The following description with reference to the accompanying drawings by way of non-limiting examples will illustrate how the invention may be practiced. FIG. 1 is a general perspective view showing the sound diffuser housing of the invention and its electric energy charging device. FIG. 2 is a view in axial section of the sound diffuser housing of the invention. Figure 3 is a side view of the sound diffuser housing arranged to be inserted into a drift receptacle of a surfboard. Figure 4 shows the installation of the sound diffuser housing in one of the drift receptacles of a surfboard. Figure 5 shows a surfboard drift including in its base the sound diffuser housing of the invention. Figure 6 shows the sound diffuser housing of the invention arranged to be placed in a drift receptacle of a surfboard and to receive a surfboard fin. Figure 7 shows the sound diffuser housing of the invention carried on the arm of a plunger. Figure 8 shows the sound diffuser housing of the invention installed on the hull of a boat below the waterline and another pulled in immersion by the same boat. The present invention consists of a sound diffuser housing (BD) supplied with electrical energy by an integrated battery (A) rechargeable to a mains socket, characterized in that it diffuses preferably intermittently the cries of alert or distress of a group of dolphins.

Sharks fearing the presence of group dolphins and hearing that allows them to intercept these cries of alert several kilometers of their emission, they stay as far as possible from the transmitter. (See FIG. 1) According to the embodiment of the invention, the sound diffuser housing (BD) is preferably made of a material compatible with immersion in a marine environment, for example a plastic material of the ABS type or in any other material, it is of dimensions and forms adapted to its function, its use and its conservation.

According to the preferred embodiment of the invention, the external structure of the sound diffuser housing (BD) is composed mainly of two parts: a first part preferably flat and intended to be plated on a support, hereinafter referred to as a support plate ( P) and a second portion opposite the first and intended to be immersed in a marine environment, of hemispherical shape, for example, hereinafter referred to as the dome (D). The two parts, support plate (P) and dome (D) are secured together in a fixed or removable manner to constitute between them an internal volume available and sufficient to receive the means of action of the sound diffuser housing of the invention. (See FIG. 2) According to the preferred embodiment of the invention, the support plate (P) and the preferably hemispherical dome (D) cooperate with one another in a demountable or definitive manner, in a manner sufficiently sealed to prevent water can penetrate inside the sound diffuser housing (BD) once it is constituted.

According to the preferred embodiment of the invention, the sound diffuser housing (BD) preferably has in its interior volume an electronic device (E) capable of reproducing the cries of one or more dolphins and in particular the cries of alert or distress thereof, at frequencies sufficient to be perceptible at predefined distances sufficient to keep the sharks away from the sound diffuser housing (BD). (See FIG. 2) According to the preferred embodiment of the invention, the sound diffuser housing (BD) preferably has in its interior volume an electric energy accumulator (A) of rechargeable battery type on the sector, capable of to supply enough electricity to the electronic device (E) emitting sounds. Thus, the sound diffuser housing (BD) of the invention can be recharged with electrical energy by means of a standard charger (C) when not in use to be ready for future use. (See FIG. 2) According to the preferred embodiment of the invention, the dome (D) of the sound diffuser housing (BD) has means (TS) for facilitating the transmission of the sound signal emitted by the transmitting electronic device (E). from the inside of the sound diffuser housing (BD) closed towards the outside thereof, for example at least one watertight orifice or loudspeaker designed specifically for this purpose. (See FIG. 1) According to the preferred embodiment of the invention, the support plate (P) associated with the dome (D) preferably hemispherical to form the sound diffuser housing (BD), has on its outer face intended to be plated. a support, a fixing device (FP) integrated or reported, to allow the connection of the sound diffuser housing (BD) with the underside and immersible of any type of vehicle or marine equipment, including water sports, having all or part of a face partially or totally immersible, such as: boat, canoe, surfboard, wakeboard board, water skis, windsurf board, kitesurf board, etc. (See FIGs 3 and 4) According to a different embodiment of the invention, the support plate (P) associated with the dome (D) preferably hemispherical to form the sound diffuser housing (BD), has on its outer face intended to be plated to a support, an attachment device (FP) integrated or reported, capable of cooperating with one or the other of the receptacles (R) initially provided on the partially or totally immersible face of a sports equipment aquatic (PS). For example, said fixing device (FP) cooperates with one or the other of the receptacles (R) provided on the underside of a surfboard (PS) for the attachment of additional drifts (DE). (See FIG. 4) According to another embodiment of the invention, the external structure of the sound diffuser housing (BD) is preferably constituted by the association of the support plate (P) with an upper part intended to be immersed, of similar to that of an additional drift (ED) aquatic sports board, for example a surfboard (PS). In this configuration, the sound diffuser housing (BD) of the invention is fully integrated in the additional drift (DE) of said equipment (PS). The sound diffuser housing (BD) of the invention is then provided with a fixing means (FP) compatible with the receptacle (R) initially provided for the attachment of an additional drift (DE) traditional. (See FIG. 5) According to a different embodiment of the invention, the external structure of the sound diffuser housing (BD) is preferably constituted by the association of the support plate (P) with an upper part (D), preferably hemispherical and arranged to receive in a reported manner and locked, the attachment device (FP) of an additional drift (DE) of aquatic sports equipment, for example a surfboard (PS). Thus, the sound diffuser housing (BD) of the invention can be attached to the sports equipment (PS) by being inserted between the partially or completely immersible surface of the equipment (PS) and secondly the additional drift (DE) of said equipment (PS). (See FIG. 6) According to a different embodiment of the invention, the sound diffuser housing (BD) is provided with a device allowing its attachment to a location of the human body, for example by being associated with an elastic strap for the attaching to an arm or leg, to a fastening device to secure it to any part of a diving suit or to a clip or belt to be able to wear it at the waist or hung on a bathing suit. (See FIG. 7) According to another embodiment of the invention, the sound diffuser housing (BD) is provided with a device for fixing it to a submerged location of a marine vehicle, for example a motorboat, a scooter. aquatic, a sailboat hull etc. Said fastening device is for example magnetic, mechanical (suction pad) or any other configuration that can be secured in a fixed and functional manner immersion in a marine environment. (See FIG 8) According to another embodiment, the outer structure of the sound diffuser housing (BD) is designed in its material, its forms and its constitution to be immersed entirely in marine environment and for example trailed in immersion. (See FIG 8) 30

Claims (9)

CLAIMS1.- Sound box (BD) autonomous and rechargeable for protection against sharks, characterized in that it is composed of: a) A part formed to be immersed in a marine environment (D) and a preferably flat part ( P) to be plated on a support, said parts (D) and (P) being associated together integrally and permanently or dismountable to each other, to constitute an internal volume available and sufficient to receive integrated or reported means of action . b) Electronic means (E) to reproduce the sounds emitted by a dolphin or dolphins, including cries of warning or distress calls, and to emit them under conditions of power and frequency sufficient to keep the sharks away from the transmitter (E), with a predefined safety distance. c) means for supplying said electronic means (E) with electrical energy, such as, for example, a rechargeable battery (A) by connection to the mains, preferably using a wired charger (C). 2.- autonomous and rechargeable sound diffuser housing (BD) for protection against sharks according to claim 1, characterized in that the upper part of its outer structure (D) intended to be immersed and the part (P) intended to be 20 plated on a support, are made of material, shape and characteristics suitable and compatible with the operation, use, operating environment and conservation of the diffuser housing (BD). 3.- autonomous and rechargeable sound diffuser housing (BD) for protection against sharks according to the preceding claims, characterized in that the portion 25 (D) of its outer structure intended to be immersed, has characteristics adapted and compatible with its function in immersion in a marine environment, for example a hemispherical shape or a form similar to that of an additional drift (DE) of a marine vehicle or sports equipment such as surfboard (PS), windsurfing etc. 30 4.-A sound box (BD) autonomous and rechargeable for protection against sharks according to any one of the preceding claims, characterized in that it has on the part to be immersed (D), means (TS) to facilitate the propagation of the inside of the sound diffuser housing (BD) towards the outside thereof, of the sound signal emitted by the integrated electronic means (E), for example at least one water-tight orifice, high protected speaker, etc. 5.-Sound box (BD) autonomous and rechargeable for protection against sharks according to any one of the preceding claims, characterized in that it has at one place its outer structure and in particular in a manner associated with the support plate (P) opposed to the submerged part (D), a development intended to cooperate with the arrangements already existing to receive accessories reported on aquatic equipment and equipment. 6.-audible and rechargeable sound diffuser unit (BD) for protection against sharks according to any one of the preceding claims, characterized in that it has on the part (P) intended to be plated on a support and opposite to the portion (D), a fastening means (FP) facing outwards and intended to cooperate with one or other of the arrangements (R) provided for the attachment of additional drifts (DE) on the gliding boards , for example surfboards (PS), windsurfers etc. 7.- autonomous and rechargeable sound diffuser housing (BD) for protection against sharks according to any one of the preceding claims, characterized in that it is designed and arranged in such a way that, on the one hand, its plate (P ) intended to be plated on a support is provided with a fixing means (FP) to be associated with the partially or totally immersible surface of an aquatic sports equipment (PS) and on the other hand, its formed part (D) intended to be immersed in a marine environment, is provided with a means of reportedly receiving an additional drift (DE). 8.-audible diffuser housing (BD) autonomous and rechargeable for protection against sharks according to any one of the preceding claims, characterized in that it is arranged to be worn on any part of the human body, the part (P ) being plated for example on an arm, a leg, the waist, etc. by means of a fastening device such as elastic strap, clip, belt etc. and the part (D) facing outwards for maximum freedom of the emitted sound signals. 9.- autonomous and rechargeable sound diffuser housing (BD) for protection against sharks according to any one of the preceding claims, characterized in that the portion (P) and the portion (D) constituting the sound diffuser housing (BD) are of particularly suitable material, shape, dimensions and characteristics and compatible with towed immersion, that is to say when the sound diffuser housing (BD) is towed by a boat, immersed at a determined distance below the level of the sea and at a pre-established speed. 15 20 25 30 35 40