The present invention refers to the field of the different industrial techniques and to the transports such as vessels and, referring to this, to rescue equipment at the sea or other aquatic environments.
In particular, this invention refers to a salvage suit for shipwrecks with high functionality and insulation that allows using walls of high thermal isolation without this affecting the access of the shipwreck survivor into the suit and his mobility within it, thereby making the access and exit opening independent from the facial opening, keeping both openings within the limits of protection of an unfoldable sleeve that is unfolded through a passage of the outer cover, all this complemented by a suitable headpiece fixing and great mobility in the rest of the suit.
The problem at the basis of the present invention is to overcome the problem of the difficulty of effecting the movements of entry through the openings and quick placement of salvage suits with thick insulation walls, as well as the lack of protection around said openings of said salvage suits, of the already known salvage suits. The problem is solved with a salvage suit according claim 1.
None of the known salvage suits has an access opening that, together with the inner hood, is within the protection area in which the unfoldable sleeve acts that, upon unfolding, protects both the facial opening of the hood and the access opening.
The present suit has an access opening to the inner cavity of the suit that is arranged in the rear part of the suit, facilitating both the access and the exit of said inner cavity. It allows the shipwrecked person entering into the suit quicker, as he is dressed, and this action is not hindered by the clothes or shoes that he is wearing. The suit can be worn quicker, and so the shipwrecked ship evacuation can be made quicker.
The mentioned access opening, together with the inner hood, is within the protection area in which the unfoldable sleeve acts that, upon unfolding, protects both the facial opening of the hood and the access opening.
In an embodiment, the access opening to the inner cavity of the suit is arranged in a front protrusion that allows a great opening of said access opening.
As the receptacle is spacious, different movements can be made inside the suit. For example: take the legs out of the suit legs toward the main part of the suit, take the arms out of the sleeves, change the different floating positions in order to be more comfortable, etc.
The structure of the insulating walls, preferably based on alveolar layers, not only allows a proper thermal insulation and a greater buoyancy capacity, but also allows a sectorial differentiation of its walls. This sectorial differentiation (micro-alveolar areas, macro-alveolar areas, areas with different density alveoli, etc.) allows achieving a differential sectorial insulation and a differential sectorial functionality (for example: micro-alveolar areas where a greater mobility or flexibility is required).
The capacity of flotation given by the alveolar sheets, the hermetic chambers and the body receptacle keep the suit almost completely out of the water, and this diminishes the area of body contact with the water and prevents the body from being exposed to cold, when the water temperature is low.
This suit allows flotation with almost the whole body out of the water, and this allows swimming on one's back or on one's chest very easily (and so it is easy to face even opposite wind and/or current), being the additional advantage that, in case of a puncture, tearing or flooding, the suit inner bladder is not lost, as we also have the alveolar layers, the hermetic chambers and the body receptacle air.
The differential sectorial functionality is also increased with the presence of joint folds.
On the other hand, the incorporation of separated headpiece outer cover and body outer cover, maintains a surrounding passage free through which the unfolding of the unfoldable sleeve is produced. Furthermore, said body cover can include drainage passages to prevent the accumulation of water inside it, hindering user's movements.
At the same time, the wearer protects his face, neck, hands and arms, he has a 100% hermetic barrier against water, and he gets an adequate protection against hypothermia. Consequently, the wearer can stay longer in cold water.
In the interest of clarity and ease of understanding of the object of the invention, it is illustrated with several figures in which it has been represented in one of its preferred embodiments, all this for illustration purposes only, but not limited to it:
Furthermore,
Drawing A, a perspective view of the front protrusion;
Drawing B, a transversal cut of one alveolar wall that shows its constitution;
Drawing C, a detail of a wall with macro-alveolar structure;
Drawing D, a detail of a wall with micro-alveolar structure; and
Drawing E, a detail of the hermetic frame of the headpiece outer cover.
Drawing A, a perspective rear view of the upper part of the suit, in which the release of the fixing is shown which, in this embodiment, links the outer headpiece cover with the suit structure and
Drawing B, a side view that shows the removal of the outer headpiece cover leaving the headpiece hood exposed. In the inner part of said headpiece cover the traction arrangement can be seen.
Drawing A, a perspective view of present adjustment system, illustrating with dashed lines the hood over which inner part the system is mounted. In this case, this refers to another variation of elastic adjustment through members of elastic walls, and
Drawing B, a transversal cut of the outer hood that allows the observation of a rear view of the present system, in elevation. As can be appreciated, it is the same variation as drawing A.
Drawing A, a perspective view of present adjustment system, illustrating with dashed lines the hood over which inner part the system is mounted. In this case, it is the variation with a traction device based on rear fixed linepull connections of manual adjustment and
Drawing B, a transversal cut of the outer hood that allows the observation of the system of drawing A in a rear view, in elevation. The position of the inner hood is shown with dashed lines.
Drawing A, a perspective view of the present adjustment system, illustrating with dashed lines the hood over which inner part the system is mounted. In this case, it is a traction device based on rear fixed linepull connections with elastic adjustment through elastic strips and
Drawing B, a transversal cut of the outer hood that allows the observation of the present system in a front view, in elevation. It can be appreciated how the side adjustment strips have the corresponding front fixed links, in the front part underneath the facial opening of the outer hood.
Drawing A, a perspective view of present adjustment system, illustrating with dashed lines the hood over which inner part the system is mounted. In this case it is a manual adjustment variation and
Drawing B, a transversal cut of the outer hood that allows the observation of the present system in a front view, in elevation. The position of the inner hood is shown with dashed lines.
Drawing A, a perspective view of present adjustment system, illustrating with dashed lines the hoods over which inner part the system is mounted. In this case, it is one of the variations of elastic adjustment through elastic strips and
Drawing B, a transversal cut of the outer hood that allows the observation of the present system in a front view, in elevation. It can be appreciated how the side adjustment strips have the corresponding front fixed links, in the front part underneath the facial opening of the outer hood.
Drawing A, a longitudinal cut of the upper part of the suit in which the different walls that form the structure can be seen. In this embodiment, the facial hermetic frame structure includes a filling wall and
Drawing B, a longitudinal cut of the upper part of the suit in another embodiment in which the facial hermetic frame structure lacks of filling wall.
Drawing A, a front view, in elevation of the suit with the outer cover and
Drawing B, a detail in which the surrounding passage existing between the headpiece outer cover and the body outer cover, through which the unfolding of the unfoldable sleeve is produced.
Drawing A, a side view, in elevation, of an embodiment in which the front part is not protruding and in which the unfoldable sleeve can be seen around said front part and the hood, and
Drawing B, a side view, in elevation, of another embodiment that includes a front protrusion and an adjacent hood, around which the unfoldable sleeve is arranged.
Drawing A, a side view, in elevation, of the upper part of the suit in which the front protrusion can be appreciated and, around said protrusion and the hood, the unfoldable sleeve, and
Drawing A, a front view, in elevation, of the suit in which the front protrusion and the hood can be seen, around which the unfoldable sleeve works, and
Drawing B, a front view, in elevation, of the suit in which the transversal opening can be seen completely opened and, within it, the headpiece opening.
Drawing A, another side view, in elevation, of the upper part of the suit in which the front protrusion can be seen, and
Drawing B, another side view, in elevation, of the upper part of the suit in which the transversal opening can be seen completely opened;
Drawing C, a lower view of the suit of drawing A, and
Drawing D, a lower view of the suit of drawing B, in which headpiece adjacent part a headpiece opening can be seen.
Drawing A, a transversal cut of a single macro-alveolar wall,
Drawing B, a transversal cut of the single micro-alveolar wall;
Drawing C, a transversal cut of a double macro-alveolar wall; and
Drawing D, a transversal cut of a double micro-alveolar wall.
Drawing A, a front view, in elevation, of the suit in which the different types of reinforces are shown, with micro and macro-alveolar walls; and
Drawing B, a rear view, in elevation, of the suit in which the different types of reinforces are shown, with micro and macro-alveolar walls.
Drawing A, a front view, in elevation, of a suit with a different type of alveolar walls.
Drawing B, a detail of a transversal cut of the body wall in which the single macro-alveolar wall can be seen and
Drawing C, a detail of a transversal cut of the wall of the hood in which the double micro-alveolar wall can be seen.
Drawing A, a rear view, in elevation, of the suit in which the different types of reinforces with micro and macro-alveolar walls are shown;
Drawing B, a detail of a transversal wall of two sectors of the body wall in which the double macro-alveolar wall can be seen and
Drawing C, a detail of a transversal cut of the wall added outside the trouser leg which, in this case, includes a double micro-alveolar wall.
Drawing A, a side view, in elevation, of the upper part of the suit where the partial unfolding of the unfoldable sleeve is shown;
Drawing B, a side view, in elevation, of the upper part of the suit where the unfolding of the unfoldable sleeve and partial unfolding of the unfolding support are shown;
Drawing C, a side view, in elevation, of the upper part of the suit, where the complete unfolding of the unfoldable sleeve and the unfolding support are shown; and
Drawing D, a side view, in elevation, of the upper part of the suit where the complementary presence of a cervical float is shown.
Drawing A, a side view, in elevation, of the upper part of the suit where the partial unfolding of the unfoldable sleeve is shown;
Drawing B, a side view, in elevation, of the upper part of the suit where the unfolding of the unfoldable sleeve and partial unfolding of the unfolding support are shown;
Drawing C, a side view, in elevation, of the upper part of the suit, where the complete unfolding of the unfoldable sleeve and the unfolding support are shown; and
Drawing D, a side view, in elevation, of the upper part of the suit where the complementary presence of a cervical float is shown.
Drawing A, a front view, in elevation, of a variation of the suit in which the joint folds of the trouser legs are shown, at knees high; and
Drawing B, a detail in side view, in elevation, of a joint fold.
Drawing A, a rear view, in elevation, of a variation in the suit in which the joint folds are shown in the junction between the back and the sleeves and the rear part where the trousers legs are born; and
Drawing B, a detail in the side view, in elevation, in one of the joints folds.
Drawing A, an upper view, in plain, of two faced juncture edges, prior to producing the joining;
Drawing B, a side view, in elevation, that shows the partial joining of the two juncture edges;
Drawing C, a side view, in elevation, that shows the complete joining between the two juncture edges; and
Drawing D, a side view, in elevation that shows the complete joining between the two juncture edges with an intermediate interchangeable insert.
In the different figures, the same reference numbers and/or letters indicate equal or corresponding parts.
List of the main references:
In general terms, the present invention refers to a salvage suit for shipwrecks with high functionality and insulation that includes the access opening (30) to the inner receptacle and a facial opening (50) that are independent; around the facial opening (50), the structure of insulating walls (2) includes a hood (5) and both openings, access (30) and facial (50), are surrounded by an unfoldable sleeve (4) that is projected from the structure of insulating walls (2); the outer cover of protection includes an outer headpiece cover (7) that covers the hood (5) and an outer body cover (6) that are separated by a frame passage (9) through which said unfoldable sleeve (4) is capable of unfolding, until forming an environmental protection over said headpiece hood (5) and over said access opening (30).
In general, the present salvage suit (1) has the capacity of containing the body of a person in its inner cavity (10), giving thermal and hydrological protection and forming a flotation unit. This suit (1) defines a receptacle according to the anatomic form of a person, but with the sufficient width to allow, such as a floating mini-cabin, that the person moves within said receptacle. It includes the structure of insulating walls (2) and an outer cover, both in the body and headpiece part, as well as in the trouser legs (15) and arms (13).
In particular, this suit (1) includes an access opening (30) to the inner receptacle and a facial opening (50) that are independent, one with regards to the other.
Around the facial opening (50), the structure of insulating walls (2) forms a hood (5), while around the access opening (30), said structure (2) can be plain or form a front protrusion (3).
Both openings, access (30) and facial (50), are surrounded by an unfoldable sleeve (4) that is projected from the structure of insulating walls (2).
The protection outer cover includes, at least, an outer headpiece cover (7) that covers the inner hood (5) and an outer body cover (6) which outer cavity (61) hosts the structure of insulating walls (2). Therefore, the outer cover covers the body [front part (11) and dorsal part (12)] and the limbs [upper limbs (13), mittens (14), trouser legs (15) and feet (16)]. In different areas, the covers (6, 7) are related to the structure of insulating walls (2) by means of elements suitable for that purpose such as, for example, detachable closings (23).
The headpiece cover (7) and body cover (6) are separated by a frame passage (9) through which the mentioned unfoldable sleeve (4) is capable of unfolding, until forming an environmental protection or protected environment over the headpiece hood (5) and over the access opening (30). More specifically, the frame passage (9) is found between the body edge (62) of the body cover (6) and the headpiece edge (72) of the outer headpiece cover (7).
In an adjacent manner to the mentioned frame passage (9), in the upper part of the body cover (6), the possibility of applying one or more cervical floats (63) was foreseen. For example, in the area adjacent to the body edge (62) of the upper opening (60) of the outer body cover (6), in a way that they are placed behind the hood (5) and help maintaining the head of the shipwreck survivor held high when he is laid down, floating in the water.
This outer unfoldable sleeve has a base union (40) that links its unfoldable walls (41) with the structure of insulation walls (2). The possibility that an elastically unfoldable member can be available—equipped with an elastic body (45) finished in unfoldable limbs (46)—that acts as unfolding support (44) of said unfoldable sleeve (4) has been foreseen. It has also been foreseen that this unfoldable sleeve (4), in its end edges (42), has end closing (43) means of it outer opening, which improves the environmental protection it provides.
The headpiece cover (7) has, at least, a retention or holding means that relates the skirt (71) to the structure of insulating walls (2). This retention or rear fixing means (78) can be of quickly opening and closing as, for example, a union of “Velcro” or thistles type.
On the other hand, the inner hood (5) is related to the outer headpiece cover (7) around the inner facial opening (50) from which the face of the user appears.
Furthermore, the headpiece cover (7) and the hood (5) are under the influence of a traction arrangement (74) that, from linepull connections adjacent to an outer surrounding area (70a) to the outer facial opening (70), is capable of exerting pressure of facial integration over the inner surrounding area (51).
The traction arrangement (74) acts as from the influence exerted by a rear convergent arrangement (75), to which some linepull branches converge that connect the linepull connections with the rear convergent disposition (75).
The convergent arrangement (75) and the traction arrangement (74) are mounted in the inner part of the outer headpiece cover (7) of the suit (1), acting over the hood (5) through the connection between the hood (5) and the headpiece cover (7). This connection is done through the hermetic structure (53), that links the inner union (52) of the hood (5) with the outer surrounding area (70a) of the outer headpiece cover (7).
In one embodiment, the traction arrangement (74) includes fixed linepull connections (745) placed beyond the middle area—for example at the rear area—of the outer headpiece cover (7), from which they are capable of exercise stretching over the outer surrounding area (70a) of the outer facial opening (70).
The traction arrangement (74) acts as from the influence exercised by the stretching strips (752) that, from the rear convergent arrangement (75), connect, at least, part of said fixed linepulls (745), as can be seen in the corresponding figures.
In another embodiment, the stretching strips are elastic means that maintain the traction arrangement (74) usually tightened and exercising constant stretching.
In another embodiment, the traction arrangement (74) includes traction strips (741) related to the surrounding linepulls connections (740) fixed to the outer surrounding area (71) of the outer facial opening (70). Instead, the convergent arrangement (75) includes free rear connections (750) through which both said traction strips (741) and stretching strips (752) pass. On the other hand, the convergent arrangement (75) includes, at least, a fixed rear connection (751) [through fixing of the linepulls (77)] through which stretching strips pass (752)).
More particularly, in an embodiment, the traction arrangement (74) includes some anterior-posterior traction strips (741) that, as of the links or linepull connections (740) of the outer surrounding area (70a) to the outer facial opening (70), exercise their action towards the converging arrangement (75).
The linepull connections include the corresponding linepull connections (740) fixed to said outer surrounding area (70a) of the outer facial opening (70), while the convergent disposition (75) includes rear connections (750, 751) through which said traction strips (741) remain under the influence of some stretching strips (752).
Each stretching strip (752) has a link or front stretching connection (742) and a front or anterior passage (744) through which the pulling end emerges (753) from said stretching strip (752).
To maintain the adjustment (73) of the system, after producing the stretching, the use of means of positional lock (756) [for example, the ones named TANCA type] has been foreseen, that, applied to the pulling ends (753) of the stretching strips (752), produce a lock against the front part (11) of the hood (5) or against the eyelets of the front passages (744), preventing the loosening of the system.
In another embodiment, the traction disposition (74) includes some elastic anterior-posterior traction strips (741) that, as of the links or linepull connections (740) of the outer surrounding area (70a) to the outer facial opening (70), exercise their action towards the convergent arrangement (75).
The convergent arrangement (75) includes rear connections (750, 751) through which said traction strips (741) remain under the influence of some stretching strips (754, 755).
At least, the stretching strips (754, 755) are elastic and are usually stretched in a way that they exert constant stretching force over said traction strips (741).
In both embodiments described, the links can include different elements that are suitable for the desired effect, such as free or rail passage openings (76), buckles with or without locks, Tancas (holdings for cords or tapes also known by the English expression “cord lock”), flexible members with a fixation end and provided with eyelets, etc.
In another embodiment, the traction arrangement (74) and the convergent arrangement (75) are formed by elastic wall members that, as of links or linepull connections (740) in the outer surrounding area (70a) to the facial opening (50), define some branches of linepull or elastic traction limbs (743) that converge in a rear convergent arrangement (75). There is also a possibility that the different elements form part of a same piece that forms them.
On the other hand, in the inner hood (5), it has been foreseen that the inner facial opening (50) has a hermetic structure (53) that gives it a proper tightness.
The hermetic structure (53)—which peripheral union edge (53c) is linked to the inner union (52) of the hood (5)—includes a frame (53) of a deformable and non-slip plastic material that, under pressure, is capable of immovably fix to the user face. In an embodiment, said hermetic structure (53) includes a neoprene frame.
In other embodiments, the hermetic structure (53) can include a frame comprising, for example, an inner frame or facial juxtaposition part (53a), a frame or outer part (53d) and an intermediate filling (53b).
The inner frame or face juxtaposition part (53a) includes a deformable and non-slip plastic material that, under pressure, is capable of immovably fix to the user face. It has been foreseen that this inner frame be structured in suitable materials for its function, such as the polyether. Outside this inner frame or juxtaposition part (53a) the intermediate elastic deformable filling (53b) and the outer frame or part (53d) that covers the front part (11) are arranged. The mentioned elastic filling (53b) has the capacity of maintaining the hermetic structure (53) usually expanded.
This suit (1) has a structure of insulating walls (2) that forms both the body and the headpiece part, as well as the trouser legs (15) and the arms. These insulating walls (2) include aluminized (20c) alveolar walls (20) with thermal insulation and buoyancy capacity. For the purpose of present description, micro-alveolar walls (20b) shall mean those walls which alveoli are smaller than 20 mm. With the same purpose, macro-alveolar walls (20a) shall be those walls which alveoli are equal or bigger than 20 mm. It is clear that this is a matter of reference definition with the purpose of differentiating the alveolar walls (20) according to the smaller or bigger size of their alveoli.
This is important, among other things, due to the fact that it allows that the structure insulating walls (2) defines a sectorial differential insulation. This can be determined both by the size of the alveolar cells, as well as by the amount of walls and/or composition of these walls (2).
The possibility of a sectional differential insulation including, for example, micro-alveolar walls (20b) with alveoli smaller than 20 mm, in the limb areas, of the front protrusion (3) and the headpiece part, have been foreseen. Instead, the presence of macro-alveolar walls (20a), with alveoli equal or bigger than 20 mm, can be used in the rest of the suit (1).
Furthermore, it has been foreseen that the structure of insulating walls (2) includes, at least, en outer wall (21) that can be of materials such as a polyether and that, mainly, acts as a barrier against water.
On the other hand, the optional presence of an inner wall (22) in contact with the user body has been foreseen.
Also, it has been foreseen that the structure of insulating walls (2) defines a sectorial differential functionality, including micro-alveolar walls (20b) in areas that require more mobility that others, where macro-alveolar walls (20a) can be placed.
In an embodiment, in the front part (11) of the body, the unfoldable sleeve (4) surrounds the not protruding front area (3a) in which the transversal access opening (30) is placed. This last one defines two adjacent parts (33, 34), that are functionally movable until reaching the expansion of said transversal access opening (30). This access opening (30) has hermetic closing means (32).
In another embodiment, said front part (11) of the body presents a front protrusion (3) that ends in a transversal access opening (30) of curved edges (31) that constitute de access to the inner receptacle.
This transversal access opening (30) has hermetic closure means applied to its curved edges (31), which separate two adjacent parts (33, 34), that are functionally movable until reaching the expansion of said transversal access opening (30).
More particularly, the front protrusion (3) forms a tapered initial part, as a frame, from which the walls that form the adjacent parts (33, 34) are extended to the transversal opening (30) of curved edges (31a, 31b). These parts (33, 34) adjacent to the transversal opening (30), include a thoracic adjacent part (34)—ending in thoracic curved edges (31b)—and a headpiece adjacent part (33)—ending in headpiece curved edge (31a)—in which there is a headpiece opening (35) that communicates with the hood (5).
The possibility that the headpiece adjacent part (33) be less protruded than the thoracic adjacent part (34) has been foreseen. In this way, the mirror protrusion of the headpiece adjacent part (33) facilitates the insertion of the user's head through the headpiece opening (35) that communicates with the hood (5).
From the wall structure viewpoint, the front protrusion (3) can be formed of a structure of isolating walls (2) that includes one or more alveolar walls (20).
Apart from the thermal insulation, the adjacent parts (33, 34) have an structure of insulating walls (2) which flexibility allows the divergent dumping of said adjacent parts (33, 34), which is facilitated due to the presence of some corners (31c) in the curved edges (31). In this way the expansion of the transversal access opening (30) can be easily produced, which may then be closed with a hermetic closing means (32) arranged in the mentioned curved edges (31).
In an embodiment, the front protrusion (3) is formed by a structured piece in insulating walls (2) which union edges (36) are joined to the rest of the front part (11). This front protrusion (3) is arranged so that, with the union of its ends (37), a frame which curved edges (31) define the access opening (30) is formed.
The mentioned union ends (37) are preferably oblique so that they converge towards the access opening (30). In this way, the frame edges behave as fitting invitation edges that facilitate the introduction of the user within the suit receptacle (1).
In this case, furthermore, the headpiece opening (35) is joined to the headpiece base (54) of the inner hood (5).
On the other hand, the structure of insulating walls (2) allows the incorporation of joint folds (8) such as leg folds (80), sleeve folds (81) and lower trunk folds (82). In an embodiment, these joint folds (8) are formed through a juncture (8b) between the juncture edges (8a). In another embodiment, a juncture interchangeable insert (8c) is incorporated which is placed between the juncture edges (8a).
Finally, it has been foreseen that, at least, the outer body cover (6) is provided with drainage passages (100) that prevent the accumulation of water in its outer cavity (61).
Undoubtedly, upon putting the present invention into practice, modifications may be introduced regarding certain construction details and form, without leaving the essential principles that are clearly explained in the claims below.
Number | Date | Country | Kind |
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20160102088 | Jul 2016 | AR | national |
20160102089 | Jul 2016 | AR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IB2017/052299 | 4/21/2017 | WO | 00 |