ANTI-SINKING AND ANTI-FIRE SAFETY SYSTEM FOR BOATS

Abstract

An anti-sinking and anti-fire safety system for boats includes inflatable devices, is installed in a first deflated configuration and assumes a second irreversibly inflated configuration, with a volume considerably greater than the first deflated configuration. Each inflatable device is connected to at least one dispenser expanding a predetermined quantity of non-inflammable foam within the corresponding inflatable device to assume the desired volume in the second inflated configuration. Each dispenser is connected to an activator to activate the corresponding dispenser by remote control of the user, sent by a control system. The emergency system also includes dispensers, connected to the activator expanding non-inflammable foam between the free spaces present between the inflatable devices already inflated, and in any other fire risk space. The non-inflammable foam sublimates after a known time. The control system includes a processor and a communication interface.

Claims

1. Anti-sinking and anti-fire safety system for boats, comprising a plurality of inflatable devices (100), of substantially rectangular flattened form, when deflated, whose four perimeter edges are connected to a portion of two longitudinal members (202) and to a portion of two crosspieces (203) of any one hull (200); each inflatable device (100) being initially installed in a first deflated configuration occupying the least possible space, and said inflatable devices (100) being susceptible of assuming a second inflated configuration having a volume considerably greater than said first deflated configuration; each of said inflatable devices (100) being connected to at least one dispenser (103), adapted to fill the corresponding inflatable device (100) with a predetermined quantity of non-inflammable foam (106) adapted to be expanded within said inflatable device (100) until it is allowed to assume the maximum desired pre-established volume in said second inflated configuration; each of said dispensers (103) being connected to at least one activation means (104) adapted to activate the corresponding dispenser (103) by means of remote control of the user, sent by means of a common control system (105); said safety system comprising a plurality of dispensers (103), connected to the corresponding activation means (104), adapted to expand, by means of remote control of the user sent by means of said control system (105), a predetermined quantity of non-inflammable foam (106.a) within the lower internal technical space (201) and in any other internal space of the ship considered to be a fire risk space (204); said non-inflammable foam (106.a) being adapted to sublimate after a known time interval from its expansion; said control system (105) being constituted by a common processor (109) adapted to allow the user, by means of a communication interface (101), to actuate a part or all of said activation means (104) in case of opening of a leak on the hull (200) or in case of risk of fire on board.

2. Anti-sinking and anti-fire safety system for boats, according to claim 1, wherein each dispenser (103) is connected to only one inflatable device (100).

3. Anti-sinking and anti-fire safety system for boats, according to claim 1, wherein each activation means (104) is connected to only one dispenser (103).

4. Anti-sinking and anti-fire safety system for boats, according to claim 1, wherein the connection of each side of the perimeter of each inflatable device (100) with the relative portions of two longitudinal members (202) and of two consecutive crosspieces (203) is of perfectly airtight type.

5. Anti-sinking and anti-fire safety system for boats, according to claim 1, wherein the external surface of each inflatable device (100), on the side directed towards the hull (200), is provided with a plurality of wet sensors (110), adapted to detect the possible entrance of water inside the hull (200), said wet sensors (110) also being adapted, by means of said processor (109) of said control system (105), to automatically actuate the activation means (104) relative to the inflatable device (100) at which the leak has been detected, if the entrance of water exceeds a predetermined tolerance threshold.

6. Anti-sinking and anti-fire safety system for boats, according to claim 1, wherein said inflatable devices (100) are configured so as to cover the entire internal surface of the hull (200), both for the immersed part of the hull and for the above-water, topside part of the hull.

7. Anti-sinking and anti-fire safety system for boats, according to claim 1, wherein said non-inflammable foam (106) is constituted by any one polymer that can be found on the market, preferably expanded polyurethane, adapted to quickly increase volume once outside said dispenser (103), and adapted to maintain over time the characteristics of fire resistance and buoyancy.

8. Anti-sinking and anti-fire safety system for boats, according to claim 1, wherein said control system (105) is also provided with a plurality of operation sensors (110), connected to said processor (109), adapted to carry out, at predetermined time intervals, a verification of operation of the entire system and adapted to communicate to the user the outcome of said verification by means of said communication interface (101).

9. Anti-sinking and anti-fire safety system for boats, according to claim 1, wherein all said activation means (104) are connected to at least one inertial sensor (111) adapted to automatically actuate said activation means (104) if an impact or a heeling was detected that exceeded a predetermined tolerance threshold.

10. Anti-sinking and anti-fire safety system for boats, according to claim 1, wherein said control system (105) allows the user the possibility to select which of the activation means (104) to activate based on the placement of the leak that is displayed by means of said communication interface (101).

11. Anti-sinking and anti-fire safety system for boats, comprising a plurality of reversibly inflatable devices (100), initially installed in a first deflated configuration, occupying the least possible space, and said reversibly inflatable devices (100) being susceptible of assuming a second inflated configuration having a volume considerably greater than said first deflated configuration; each of said reversibly inflatable devices (100) being connected to at least one gas dispenser (107), adapted to fill the corresponding reversibly inflatable device (100) with a predetermined quantity of any one gas adapted to be expanded within said reversibly inflatable device (100) until it is allowed to assume the maximum desired pre-established volume in said second inflated configuration; each of said gas dispensers (107) being connected to at least one activation means (104) adapted to activate the corresponding gas dispenser (107) by means of remote control of the user, sent by means of a common control system (105); said reversibly inflatable devices (100) being installed at the upper portion of each compartment (330-300) of a common ship adapted to transport flammable substances and said reversibly inflatable devices (100) being, when in inflated configuration, adapted to occupy nearly the entire volume of each compartment (300-300) left free by the transported substance; each reversibly inflatable device (100) being provided with at least one valve (108), adapted to be reversibly opened, upon command of said control system (105), in order to allow the outflow of the gas into said reversibly inflatable device (100) and the consequent new assumption of said deflated configuration; said control system (105) being constituted by a common processor (109) adapted to allow the user, by means of a communication interface (101), to actuate a part or all of said valves (108) and/or said activation means (104), relative to said reversibly inflatable devices (100).

12. Anti-sinking and anti-fire safety system for boats, according to claim 11, further comprising at least one common pressure sensor (320), placed at the upper portionfree of transported substanceof each compartment (330-300) of said boat, adapted to reversibly open, by means of said processor (109) of said control system (105), at least one corresponding vent valve (310), when an internal pressure of said compartment (300-300) is detected that is greater than a predetermined tolerance threshold; said vent valve (310) being placed at the upper portionfree of transported substanceof each compartment (330-300) of said boat.

13. Anti-sinking and anti-fire safety system for boats, according to claim 11, wherein each gas dispenser (107) is connected to only one reversibly inflatable device (100).

14. Anti-sinking and anti-fire safety system for boats, according to claim 11, wherein each activation means (104) is connected to only one gas dispenser (107).

15. The anti-sinking and anti-fire safety system of claim 1, wherein the two longitudinal members (202) are consecutive.

16. The anti-sinking and anti-fire safety system of claim 15, wherein the two crosspieces (202) are consecutive.

17. The anti-sinking and anti-fire safety system of claim 16, wherein the predetermined quantity of non-inflammable foam (106.a) within the lower internal technical space (201) is disposed between the free spaces present between the inflatable devices (100) that are already inflated.

18. Anti-sinking and anti-fire safety system for boats, according to claim 2, wherein each activation means (104) is connected to only one dispenser (103).

19. Anti-sinking and anti-fire safety system for boats, according to claim 2, wherein the connection of each side of the perimeter of each inflatable device (100) with the relative portions of two longitudinal members (202) and of two consecutive crosspieces (203) is of perfectly airtight type.

20. Anti-sinking and anti-fire safety system for boats, according to claim 3, wherein the connection of each side of the perimeter of each inflatable device (100) with the relative portions of two longitudinal members (202) and of two consecutive crosspieces (203) is of perfectly airtight type.

Description

DESCRIPTION OF THE FIGURES

[0034] The anti-sinking and anti-fire safety system for boats object of the present invention will be described hereinafter with reference to the accompanying figures, in which:

[0035] FIG. 1 shows a cross section of any boat, in which hull 200 is shown, reinforced by longitudinal members 202 and crosspieces 203 and the lower internal technical space 201; the inflatable devices 100 are also shown, each connected to the relative dispenser 103 in turn connected to the relative activation means 104, the wet sensors 110 can be seen on the outer surface of the inflatable devices 100;

[0036] FIG. 2 shows the same boat of the previous figure on in a collision with a cliff that damages hull 200 thereof, the two inflatable devices 100 can be seen at the leak that are inflated of non-inflammable foam 106 by means of the corresponding dispensers 103 connected to the relative activation means 104;

[0037] FIG. 3 shows how, after the opening of the leak, hull 200 is still able to float to reach the nearest port, due to the inflatable devices 100, filled with non-inflammable foam 106, which approximately recreate the original profile of hull 200 and limit the entrance of water into the lower internal technical space 201;

[0038] FIG. 4 shows the case in which, even in the absence of leaks in hull 200, the lower internal technical space 201 and the risk space 204 are filled with non-inflammable foam 106.a which sublimates within a known time interval, by the relative dispensers 103 and by the associated activation means 104, for preventing the risk of fire;

[0039] FIG. 5 shows a block diagram representing the operation of the control system 105 in which a processor 109 communicates and receives information to and from the user by means of a communication interface 101, said processor 109 receives inputs from the wet sensors 110, from the inertial sensors 111 and from the operation sensors 102 and sends, if necessary, the switch on control to the activation means 104, which open dispensers 103 containing non-inflammable foam 106-106.a which expands within the inflatable devices 100 or freely in the risk areas 204 and in the lower internal technical space 201;

[0040] FIG. 6 shows an axonometric view of a hull 200 portion of an oil tanker capable of transporting two different liquids within two different compartments 300-300; the upper portion of each compartment 300-300 is shown, the volume of which free from liquid is almost completely occupied by the reversibly inflatable devices 100, each of which is provided with a relative gas dispenser 107, a valve 108 and a corresponding activation means 104; at the compartment portion 300-300 free from the liquid transported, the vent valve 310 and the pressure sensor 320 connected thereto are shown;

[0041] FIG. 7 shows a block diagram of the operation of the safety system in which a processor 109 communicates and receives information to and from the user via a communication interface 101, said processor 109 sends the switch on control to the activation means 104 which open the gas dispensers 107 relative to the reversibly inflatable devices 100 and also sends the opening control to valves 108 of each reversibly inflatable device 100 to cause the deflation thereof; said processor 109 also receives input data relating to the pressure sensors 320 and sends, in case of necessity, the opening control to the corresponding vent valves 310.

DETAILED DESCRIPTION OF THE INVENTION

[0042] With reference to FIG. 1, the section of any boat characterized by a hull 200 reinforced by a plurality of longitudinal members 202 and crosspieces 203 is shown. These reinforcing structures divide the inner surface of hull 200 in a plurality of substantially rectangular portions. As can be seen in the figure, each of these portions is covered with an inflatable device 100 that initially is installed in a first deflated configuration which occupies the least possible space.

[0043] Obviously, it is also possible to install larger inflatable devices 100, which cover multiple hull portions defined by two portions of longitudinal members 202 not consecutive and/or two portions of crosspieces 203 not consecutive.

[0044] Said inflatable devices 100 cover the entire inner surface of hull 200, both in the immersed and in the emerged part of the latter.

[0045] Each inflatable device 100 is connected to at least one dispenser 103, in turn connected to at least one activation means 104. Preferably, each activation means 104 corresponds to a single dispenser 103 and each dispenser 103 corresponds to a single inflatable device 100. For safety reasons, it is also possible to install multiple dispensers 103 connected to the same inflatable device and multiple activation means 104 connected to the same dispenser 103 so that, in case of failure of an actuation means 104 or a dispenser 103, the operation of the system is ensured by the presence of the other.

[0046] With reference to FIG. 2, the same hull 200 of the previous figure is shown crashing against a cliff, getting severely damaged. At the leak it is seen that the corresponding inflatable devices 100 have been inflated with non-inflammable foam 106 dispensed by dispensers 103 and irreversibly expanded within said inflatable devices 100 to a second inflated configuration, characterized by a significantly larger volume than said first deflated configuration.

[0047] The actuation of the activation means 104 connected, through dispensers 103, to the inflatable devices 100 relative to the damaged hull portion 200 can also be automatic by installing, in the space existing between said inflatable devices 100 and the inner surface of hull 200, a plurality of wet sensors 110. When said wet sensors 110 detect an amount of water greater than a certain preset tolerance threshold, they report the anomaly to processor 109 and, without requiring the user's manual control, the appropriate activation means 104 are automatically actuated.

[0048] The operation of processor 109 is shown in FIG. 5, where we can see that also two other types of sensors may be installed: operation sensors 102 and inertial sensors 111. The first ones are responsible for a functionality check that the system carries out automatically at predetermined time intervals. The results of this check are displayed to the user on the communication interface 101 that consists of a common electronic device. The presence of these operation sensors 102 allows the timely replacement or repair of any component of the safety system, thereby preventing unexpected malfunctions.

[0049] The inertial sensors 111 are capable of detecting collisions and are set at a certain tolerance threshold. When a collision is detected that exceeds this threshold, also in this case processor 109 automatically causes the actuation of the appropriate activation means 104.

[0050] Although foam 106 that expands within the inflatable devices 100 is non-inflammable, there is another safety feature implemented by the system of the present invention. In the lower internal technical space 201 and in all the fire risk spaces 204, a plurality of dispensers 103 are installed, connected to the respective activation means 104 which, after the switching of the inflatable devices 100 from the first deflated configuration to the second inflated configuration, expand in these compartments a particular, non-inflammable, sublimating foam 106.a which fills all the remaining volume. The characteristic of this second type of non-inflammable sublimating foam 106.a is that it is intended to sublimate within a known time interval from the moment of its expansion. Consider the case of a passenger ferry, one of the risk fire areas is definitely the deck occupied by cars. After a violent impact, the system enters into action and the whole deck is invaded by said non-inflammable sublimating foam 106.a. In this way, the propagation space of the possible fire is significantly reduced, as is the presence of oxygen in these spaces, thus reducing the risk of the occurrence and spread of fires. Moreover, due to the ability of said foam to sublimate, at the end of the emergency condition, it is sufficient to wait for the occurrence of the phenomenon to recover the cars.

[0051] One of the peculiarities of this safety system is that, through the communication interface 101, the user is able to view the exact point of the boat from which the emergency originates and he can control the actuation of the activation means relative to only the inflatable devices 100 or only the fire risk areas 204 affected by the event.

[0052] In this way, as shown in FIG. 3, even in case of serious incidents, the boat is able to find a buoyancy balance to reach the nearest port.

[0053] With reference to FIGS. 6 and 7, a possible variant of the invention is shown, in this case installed on a tanker adapted to carry highly inflammable liquids within its compartments 300-300.

[0054] What makes each compartment 300-300 at high risk of fires is the presence, in the liquid free volume, of flammable gases evaporated from the transported liquid. In order to reduce the volume available for the expansion of such gases, the safety system of the present invention in this case consists of a plurality of reversibly inflatable devices 100 installed in each compartment 300-300. Each of said reversibly inflatable devices 100 is connected to a gas dispenser 107, in turn connected to the relative activation means 104, controlled by the control system 105. Once the load of compartment 300-300 has ended, said reversibly inflatable devices 100 are brought to the inflated configuration up to occupy almost all the volume free of the transported liquid.

[0055] During the trip, a certain amount of gas evaporates inevitably from the transported liquid, thereby increasing the internal pressure of the relative compartment 300-300. To this end, at least one pressure sensor 320 is installed at each compartment 300-300 which, if an internal pressure exceeding a certain tolerance threshold is detected, is adapted, by means of said processor 109, to open the corresponding vent valve 310 to release said evaporation gases out of compartment 300-300, returning the internal pressure back to an acceptable value.

[0056] At the end of the trip, in order to allow the release of the liquid carried within each compartment 300-300, said reversibly inflatable devices 100 are returned to the deflated configuration by the control system 105 by opening valve 108 located on the surface of each reversibly inflatable device 100.

[0057] Finally, it is clear that modifications, additions or variants may be made to the invention described thus far which are obvious to a man skilled in the art, without departing from the scope of protection that is provided by the appended claims.