AUTONOMOUS PEOPLE RESCUE SYSTEM FOR VESSELS AND SHIPWRECKS

Abstract

This invention refers to an innovative, original and convenient Autonomous System for Rescue operations, which works on the vessel, program controlled by a software and hardware platform rescuing people overboard in an autonomous manner. The System starts operating from the moment the person falls off the deck into the water. From the moment the wrist band on the passenger makes contact with the water, it sends out a radio frequency signal with two orders: to activate an alarm and to notify a robot to start rescue operation, and it brings it to the vessel with no intervention from people, i.e., in an intelligent and autonomous manner.

Claims

1-8. (canceled)

9. An autonomous rescue system for passengers of vessels comprising: a signal transmitter wristband with water sensor; a multi-band radio transmitter with antenna and batteries; a GPS device providing geostationary position to the radio, and coordinates that is transmitted through the radio to a system processing the information from the triangulation with a first way and a second way to find a person wearing the transmitter wristband; wherein the first way is by triangulation and the second way is geostationary position with GPS.

10. The system according to claim 9, wherein the triangulation is performed by three receivers located one at a center of the vessel, at a front end of the vessel, and at the back end of the vessel.

11. The system according to claim 9, wherein the wristband sends out a signal with coordinates and the system receives one of the signals with geostationary positioning and with the other signal triangulates the position of the vessel concerning the wristband on the person.

12. The system according to claim 9, wherein there are docks containing the robots from this system.

13. The system according to claim 9, wherein the vessel includes docks at a back end and the sides ends, each dock includes a robot operated by a wireless radio system receiving the orders from the triangulation and the geostationary position of the wristband on the person.

14. The system according to claim 9, wherein the robot is propelled into the water from the dock searching for the geostationary position and the triangulation of the transmitting radio. Once the person wearing the wristband is found, the robot magnetically adheres to such wristband, wherein at that point, the lifeline is activated and the buoy, which keep the robot floating and the robot sends a radio signal to the dock, which contains a winch and, during the next five seconds, it starts pulling the power cable from the robot engine, thus bringing back the person to the vessel.

15. The system according to claim 9, wherein in case of sinking or wreck, the system features sensors at the list level with horizontal and vertical orientation, which register the variations detecting the vessel is sinking.

16. The system according to claim 9, wherein the system switches to the emergency system moving to the rescue rafts, wherein the system then operates at the rafts in the same way and following the same protocol as in the vessel, triangulating the position of the wristband as it did in the vessel, the rafts provide the coordinates, and the robots within the rafts start rescue operations following the same protocol and rescue method as in the main vessel.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0012] FIG. 1 shows a perspective front view of the smart rescue system robot according to the present invention;

[0013] FIG. 2 shows a front view of the wristband according to the present invention;

[0014] FIG. 3 shows a scheme of the radio triangulations according to the present invention;

[0015] FIG. 4 shows a scheme of the robot dock according to the present invention; and

[0016] FIG. 5 shows a scheme of a housing system at docks according to the present invention.

DETAILED DESCRIPTION OF THE INVENTION

[0017] This invention refers to an innovative, original and convenient Autonomous System for Rescue operations, which works on the vessel, controlled in an autonomous manner by a smart Rescue System through a software executing several interfaces. For that reason, it is not possible to refer to only one figure, since they all interact with each other.

[0018] The system works with the crew from the vessel who shall wear a wristband with magnetic safety closure on their arms at the wrist area FIG. 2 when the wristband is outside the deck radius FIG. 3 and when the wristband touches the water FIG. 2-4 it sends out a signal to the radio FIG. 2-1 and the GPS FIG. 2-4 connects to the radio FIG. 2-1, sends out a signal with the coordinates from the antenna FIG. 2-1.2, 2-1.3, which is received by the three receivers FIG. 3-1, 3-1.2, 3-1-3 and FIG. 3, radio triangulation 3-2-1, 3-2.2 and 3-2.3, and the microprocessor receives both orders providing the exact position from the GPS, and through radio triangulation to the robot FIG. 1-8, with those coordinates, the System sends the robot to the water FIG. 5-2; with this information, the helm FIG. 1-4.2 starts searching; once the person is detected, it adheres to the magnetic wristband FIG. 2-1.3 and FIG. 1-5-1, which is the engine moving the magnetic hook, FIG. 1-5.2 magnetic hook that adheres to the wristband, FIG. 1-6.3 compressed air cylinder, FIG. 1-6.2 restraining cord from the lifeline to the robot, FIG. 1-6.1 lifeline and, in that moment, a lifeline similar to an airbag inflates, which is within the robot and can hold the person; and, at the same time, FIG. 1-6.3 a buoy inflates, which keeps the robot floating FIG. 1-7; after 5 seconds from the moment the System registered FIG. 1-8 that the person was found and the robot holds him/her by the wristband, the rescue winch FIG. 5-4 is automatically activated, without any intervention from a person; the autonomous rescue system takes the person by the wristband and brings him/her to the vessel with the robot.

[0019] In case the vessel sinks or wrecks, the System features horizontal and vertical orientation sensors at list level FIG. 5-5 registering the variations of the vessel and, upon detection of sinking, the System switches to the emergency system moving to the rescue rafts. The System then operates at the rafts in the same way and following the same protocol as in the vessel, triangulating the position of the wristband as it did in the vessel. The rafts provide the coordinates, and the robots within the rafts start rescue operations following the same protocol and rescue method as in the main vessel.

FIG. 1Robot

[0020] 1Power cable of robot driving engine, energy 24 volts [0021] 2Driving engine, 24 volts, variable weight [0022] 3Engine controllers [0023] 4Helm engine controllers and flotation levelers [0024] 4-1 Flotation level engines [0025] 4-2 Helm engine [0026] 5Controller of wristband attachment hook [0027] 5-1 Driving engine of wristband attachment hook [0028] 5-2Magnetic hook of wristband attachment Lifeline controller [0029] 6-1 Lifeline [0030] 6-2 Lifeline attachment cord [0031] 6-3 Air compressed tube for inflating lifelines [0032] 7Flotation balancing air chamber and buoy holder to be inflated to carry the weight of the robot [0033] 8Programmable microprocessor, algorithm including 3000 numbers of wristband and detecting the ones containing the system

FIG. 2 Wristbands

[0034] 1Microprocessor transmitting radio UHF-BHF and FR marine of cultivated depth [0035] 1-2 Transmitting radio antenna [0036] 1-3 Rope magnetic buttonhole latex cover robot fastener [0037] 2GPS [0038] 3Power batteries [0039] 4Water sensor [0040] 4-1 Water sensor sending out radio signals to active the alarms

FIG. 3 Radio Triangulations

[0041] 1-1.2, 1.3, 1.4, and 1.5 receiving nodes for triangulation [0042] 2Transmitting wristband sends out the signal 2.1, 2.2, 2.3

FIG. 4 Robot Docks

[0043] 1Stern or back of the vessel [0044] 2Robot housing [0045] 3Robot spring catapult [0046] 4Winch for rescuing the person with the robot and the lifeline

FIG. 5 Housing System at Docks

[0047] 1Robot holder compartment [0048] 2Robot ejector piston [0049] 3Power cable and rescuing cable [0050] 4Rescue winch