RESCUE DRONE

Abstract

A remote control drone assembly to assist in the rescue of distressed swimmers. The drone assembly includes a flotation device that can be released over a distressed swimmer. A retractable spool assembly attached to the drone assembly includes a line having a proximate end tethered to the spool assembly. The drone assembly is constructed and arranged to be flown by an operator over a distressed swimmer. The floatation device is released for use by the distressed swimmer and the drone assembly is returned to the operator. The retractable spool is detached from the drone assembly and attached to a spool retractor. The spool retractor retrieving the floatation device together with the distressed swimmer.

Claims

1. A rescue drone system comprising: a drone assembly formed from a frame member having a plurality of rotor assemblies and a power source secured thereto and controlled by a wireless controller; a spool assembly releasably attached to said frame member, said spool assembly including a line having a proximate end and a distal end, said proximate end tethered to said spool assembly; a release bracket secured to said frame assembly and controlled from a storage position to a deployed position by operation of said wireless controller; a floatation device releaseably secured to said release bracket and said distal end of said line; and a retractor constructed and arranged to receive said spool assembly, said retractor having a rechargeable battery coupled to a motor driver; wherein said drone assembly is operated by said wireless controller to a position over a distressed swimmer and activated to release said floatation device from said release bracket whereby said drone assembly is returned to said wireless controller while deploying line from said spool to accommodate the distance between the retractable spool and the floatation device, wherein said spool assembly is detached from said frame member and attached to said retractor, said retractor retrieving said floatation device.

2. The rescue drone according to claim 1 wherein said line is about one mile in length and constructed of a material that floats.

3. The rescue drone according to claim 2 wherein said line is at least 300 lb test.

4. The rescue drone according to claim 2 wherein said line is brightly colored.

5. The rescue drone according to claim 1 wherein said spool includes a level wind wherein line retracted is evenly wound around the spool.

6. The rescue drone according to claim 1 wherein said floatation device is substantially U-shaped.

7. The rescue drone according to claim 1 wherein said floatation device is sized to provide floatation to said drone assembly on water.

8. The rescue drone according to claim 1 wherein said camera includes a transceiver for audio.

9. The rescue drone according to claim 1 wherein said spool assembly includes at least one receptacle that is releasably attached to a protrusion extending from said frame member.

10. The rescue drone according to claim 9 wherein said spool assembly includes at least one receptacle that is releasably attached to a protrusion extending from said retractor.

11. The rescue drone according to claim 1 including a camera with modem attached to said frame member for transferring images to a screen coupled to said wireless controller.

12. A rescue drone system comprising: a drone assembly formed from a frame member having a plurality of rotor assemblies and a power source secured thereto and controlled by a wireless controller; a camera with modem attached to said frame member for transferring images to a screen coupled to said wireless controller; a spool assembly having a level wind wherein line retracted is evenly wound around a spool, said spool assembly releasably attached to said frame member, said spool assembly including a floating line having a length of about one mile and at least a 300 lb test rating, said line having a proximate end and a distal end, said proximate end tethered to said spool assembly; a release bracket secured to said frame assembly and controlled from a storage position to a deployed position by operation of said wireless controller; a floatation device releaseably secured to said release bracket and said distal end of said line; and a retractor constructed and arranged to receive said spool assembly, said retractor having a rechargeable battery coupled to a motor driver; wherein said drone assembly is operated by said wireless controller to a position over a distressed swimmer and activated to release said floatation device from said release bracket whereby said drone assembly is returned to said wireless controller while deploying line from said spool to accommodate the distance between the retractable spool and the floatation device, wherein said spool assembly is detached from said frame member and attached to said retractor, said retractor retrieving said floatation device.

13. The rescue drone according to claim 12 wherein said floatation device is substantially U-shaped.

14. The rescue drone according to claim 12 wherein said camera includes a transceiver for audio.

15. The rescue drone according to claim 12 wherein said spool assembly includes at least one receptacle that is releasably attached to a protrusion extending from said frame member.

16. The rescue drone according to claim 15 wherein said spool assembly includes at least one receptacle that is releasably attached to a protrusion extending from said retractor.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0023] FIG. 1 is a pictorial view of the device with a distressed swimmer;

[0024] FIG. 2 is a lower perspective view of the rescue drone system;

[0025] FIG. 3 is a lower perspective view without a floatation element;

[0026] FIG. 4 is a left front perspective view of the spool;

[0027] FIG. 5 is a right front perspective of the spool;

[0028] FIG. 6 is a right rear perspective view of the spool;

[0029] FIG. 7 is a top right perspective view of the hand held retriever;

[0030] FIG. 8 is a right plane view of the hand held retriever;

[0031] FIG. 9 is a top plane view of the hand held retriever;

[0032] FIG. 10 is an upper perspective view of the rescue drone system;

[0033] FIG. 11 is an upper left perspective view of the rescue drone system without the floatation element;

[0034] FIG. 12 is an upper right perspective view of the rescue drone system without the floatation element;

[0035] FIG. 13 is an bottom plane view of the rescue drone system without the floatation element;

[0036] FIG. 14 is a plane view of the floatation element support arm.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0037] Detailed embodiments of the instant invention are disclosed herein, however, it is to be understood that the disclosed embodiments are merely exemplary of the invention, which may be embodied in various forms. Therefore, specific functional and structural details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representation basis for teaching one skilled in the art to variously employ the present invention in virtually any appropriately detailed structure.

[0038] Referring now to the Figures, discloses is a remote control drone assembly for assisting distressed swimmers and the like water rescues. The drone assembly 10 includes a flotation device 12 that can be released over a distressed swimmer tethered by a line 14 to a releasably attached spool 16. The drone assembly 10 is operated by a wireless controller 18 for deploying and retrieving the drone assembly 10. A handheld retriever 20 accepts the spool 16 and allows the operator to retrieve the tethered flotation device 12.

[0039] The drone assembly 10 consists of a frame member 30 having a plurality of rotor assemblies 32 and a power source 34 secured thereto. A camera 36 is attached to the frame member 30 with a modem 38 for transferring images for viewing on a screen 40 coupled to a wireless controller 18. The wireless controller 18 operating in a conventional format for controlling the elevation, direction and forward speed of the drone assembly 10. The camera 36 provides remote viewing to assist in locating the distressed swimmer. The camera 36 may be conventional using lights s for night time illumination and/or forward looking infrared (FLIR). In one embodiment the FLIR provides thermal infrared imaging sensors to detect swimmers regardless of the light. Remotely activated lights 37, 39 can be used to illuminate the rescue/landing zone wherein the swimmer can locate the floatation device in the darkness.

[0040] The drone assembly 10 includes a retractable spool 16 releasably attached to the frame 30 member by use of a release bracket 40. The release bracket 40 having a solenoid operated latch 42 which maintains the floatation device 12 in a position secured to the frame 30 while in a storage position, and upon activation of the solenoid 42 the floatation device 12 is deployed. When the floatation device 12 is in a storage position, the drone assembly 10 can land on the water. If the floatation device 12 is deployed first pontoons 41 are supported by a first stand 45, and second pontoons 43 are support by a second stand 47. The pontoons operate as landing gear on water wherein the pontoons are constructed and arranged to provide sufficient floatation for the drone 10, alternatively the pontoons operate as a base for landing on solid surfaces.

[0041] The spool assembly 16 includes a line 50 having a proximate end 52 and a distal end 54, the proximate end 52 is tethered to a line spool 50 attached to a spool frame housing 56. The line spool 50 includes a gear assembly 56 engaging a level winder 60 having a helix gear 62 for transverse movement of a line pawl 64. The line pawl 64 moveable along the width of the line spool 50 to allow an organized collection of the line 14 during retrieval. The spool frame housing 56 having a first side wall 66 separated by a second side wall 68 by use of a plurality of frame support rods 70. Along the bottom of the first 66 and second side wall 68 is an inner track mounting guide 72 and an outer track mounting guide 74. In one embodiment the mounting guides 72, 74 form a receptacle with each having an opening 76 leading to an expanded sidewall 78. The opening 76 and expanded sidewall 78 of each said mounting guide 72, 74 are slidably attached to reciprocal protrusions 80, 82 extending from the bottom of the frame 30. The protrusion having a head portion 84 that fits within the expanded sidewall 78 and a neck portion 86 that fits within the opening 76. The side walls 66, 68 having integrated lifting handles 90, 92 for ease of attachment and removal from either the frame 30.

[0042] The spool retractor 20 has a frame 100 with a variable speed drive motor 102 electrically coupled to a rechargeable battery 104. The speed of the motor 102 can be varied by depressing of a control switch 106. The greater the depression of the switch 106, the greater the rotational speed of the drive motor 102. The frame 100 includes a bracket 110 for receipt of the retractable spool assembly 16 namely an upper protrusion 112 and a lower protrusion 114. Each protrusion is similar to the drone assembly protrusions having a neck portion 116 and a head portion 118. The protrusions 112, 114 are constructed and arranged to engage the retractable spool assembly 16 mounting guides 72, 74. It should be noted that the engagement mechanism can be reversed, namely the receptacles can be formed on the retractor 20 and drone assembly 10 with the protrusions on the spool assembly 16.

[0043] A first end 120 of the spool 16 has a drive socket 122 coupled to a driver 124 rotated by the drive motor 102. The line 14 can be withdrawn by wrapping around the spool 50 when the drive motor 102 is operated. The line spool 50 engages the level winder 60 having a helix gear 62 for transverse movement of the line pawl 64. The line pawl 64 moveable along the width of the line spool 50 to allow an organized collection of the line 14 during retrieval. Spool frame housing 56 having a first side wall 66 separated by a second side wall 68 by use of a plurality of frame support rods 70. Tension on the spool 50 is used to prevent free wheeling which can cause line entanglement or lead to a birds nest. The frame includes a forward hand grip 130 and an aft hand grip 132.

[0044] FIGS. 10-12 depict the rescue drone assembly 10 with the floatation device 12 tethered by a line 14 to the releasably attached spool 16. An end of the line 14 is attached to a coupling point 17 of the floatation device 12. The floatation device 12 including bars 19, 21 to provide a gripping surface for the individual in need of recovery. The floatation device 12 may be constructed of foam, hollow plastic, or be formed of an inflatable bladder with the intent of providing a lightweight floatation device. It is note that the floatation device requires sufficient weight and shape so as limit the effect of wind on the device when released from the assembly. The drone assembly 10 is based upon a frame member 30 supported by a plurality of rotor assemblies 32. In a preferred embodiment, eight rotor assemblies 32 are equally spaced apart, the rotor assemblies are constructed and arranged to support the weight of the assembly including flotation device 12 and releasable spool 16 via an electric motor 15. The camera 36 is positioned on the front of the frame 30 to provide remote viewing of the floatation device 12 to allow remote deployment.

[0045] The retractable spool 16 is releasably attached to the frame 30 member by use of a release bracket 40. The release bracket 40 having a solenoid operated latch 42 which maintains the floatation device 12 in a position secured to the frame 30 while in a storage position, and upon activation of the solenoid 42, the floatation device 12 is deployed by opening of a claw 51 by pulling a wire 53 to lift a pin 55 allowing rotation on a hinge 57. When the arms 43 are opened the floatation device 12 is released from the assembly and the line 14 will begin to spool out as the drone assembly 10 is returned to the drone operator.

[0046] In operation, the drone assembly can be flown by operating the wireless controller to a position over a distressed swimmer. The wireless controller can then be used to activate the solenoid used to deploy the floatation device from the release bracket. The drone assembly is then returned to the wireless controller operator wherein line is deployed from the spool to accommodate the distance between the retractable spool and the floatation device. Once the drone assembly is returned to the operator, the retractable spool assembly is detached from the frame member and attached to the spool retractor. The spool retractor is then used in retrieving the floatation device together with the distressed swimmer.

[0047] The line length deployed is dependent on the use. For lifeguard use, a length of about ? mile is suitable. For cruise ship applications, a line length of about 1 mile is preferred. The longer length of line necessary to accommodate the distance traveled by the cruise ship once the crew is notified of the man overboard. In the preferred embodiment, the line has about a 300 lb test strength and floats. A brightly colored or fluorescent floating line is easier to detect in daylight. For instance, if the floatation device was deployed but the spool ran out of line before the vessel was turned around, a smaller rescue boat can perform a zig-zag pattern to locate the line and, once found, and follow the line to the floatation device. In the preferred embodiment the floatation device is substantially U-shaped, however, traditional round or oblong shape is equally suitable.

[0048] A communication device can also be used to provide 2-way audio communication between the swimmer in distress and the operator of the drone. When time is of the essence, the drone assembly will dramatically reduce the amount of time necessary in rescue missions. In many situations a distressed swimmer is at risk and a first responder would further be placed in position of risk during a rescue attempt.

[0049] All patents and publications mentioned in this specification are indicative of the levels of those skilled in the art to which the invention pertains. It is to be understood that while a certain form of the invention is illustrated, it is not to be limited to the specific form or arrangement herein described and shown. It will be apparent to those skilled in the art that various changes may be made without departing from the scope of the invention and the invention is not to be considered limited to what is shown and described in the specification and any drawings/figures included herein.

[0050] One skilled in the art will readily appreciate that the present invention is well adapted to carry out the objectives and obtain the ends and advantages mentioned, as well as those inherent therein. The embodiments, methods, procedures and techniques described herein are presently representative of the preferred embodiments, are intended to be exemplary and are not intended as limitations on the scope. Changes therein and other uses will occur to those skilled in the art which are encompassed within the spirit of the invention and are defined by the scope of the appended claims. Although the invention has been described in connection with specific preferred embodiments, it should be understood that the invention as claimed should not be unduly limited to such specific embodiments. Indeed, various modifications of the described modes for carrying out the invention which are obvious to those skilled in the art are intended to be within the scope of the following claims.