A novel crash-resistant aircraft and crash-resistant control method

Abstract

A novel crash-resistant aircraft includes a fuselage and an aircraft base connected together via a movable fastener, and said fuselage comprises a cockpit, a cabin and an empennage. The aircraft base comprises a belly hold cargo bay, a fuel tank, an undercarriage, a power unit and wings. The empennage is also connected to the tail end of said fuselage via a movable fastener. A crash-resistant propeller system capable of bringing said fuselage upward is set up at the top of said cabin, a crash-resistant recoil devices set up beneath said cabin. The crash-resistant aircraft also comprises a control system disposed in said cockpit, and when said aircraft is in an accident in midair, said control system releases said movable fastener to abandon said aircraft base and said empennage. Also disclosed is a crash-resistant operation method of the crash-resistant aircraft.

Claims

1. A crash-resistant aircraft comprising a fuselage and an aircraft base connected together via a movable fastener, wherein said fuselage comprises a cockpit, a cabin and an empennage, said aircraft base comprises a belly hold cargo bay, a fuel tank, an undercarriage, a power unit and wings, said empennage is also connected to a tail end of said fuselage via said movable fastener, a crash-resistant propeller system capable of bringing, said fuselage upward is set up at a top of said cabin, a crash-resistant recoil device is set up beneath said cabin, said crash-resistant aircraft also comprises a control system disposed in said cockpit, and when said aircraft is in an accident in midair, said control system releases said movable fastener to abandon said aircraft base and said empennage and controls said crash-resistant propeller system and said crash-resistant recoil device to operate, such that said fuselage can land safely.

2. The crash-resistant aircraft of claim 1, wherein said top of said cabin is provided with a top cover covering said crash-resistant propeller system and capable of popping open automatically.

3. The crash-resistant aircraft of claim 2, wherein said crash-resistant propeller system comprises a rectangle base whose two ends are provided with a first propeller and a second propeller, respectively, and said first propeller and said second propeller are respectively located on two sides of a median of said rectangle base, then a center of said rectangle base is provided with a rotating shaft driven by hydraumatic, and said rotating shaft is provided with a Z-shaped supporting rod whose two ends are telescopic rods and are provided with a third propeller and a forth propeller, respectively, and before said Z-shaped supporting rod is actuated, said Z-shaped supporting rod is parallel to the median of said rectangle base to make said first propeller and said third propeller arranged side by side and make said second propeller and said forth propeller arranged side by side; each of the first second, third and fourth propellers comprise a lifting hydraulic cylinder, a coaxial motor above said cylinder and a transmission shaft actuated by motor, and an upper part of a side wall of said transmission shaft is provided with a fixed propeller blade and hinged with at least one movable propeller blade, and before said transmission shaft is actuated, the fixed propeller blades of said transmission shaft of each of the first, second, third and fourth propellers is arranged parallelly to each other and toward the center of said rectangle base, and said fixed propeller blade and said movable propeller blade overlap on one transmission shaft, said side wall of said transmission shaft is provided with slots whose number is equal to the number of said movable propeller blade, then an end of said slot is provided with a spring cotter and said movable propeller blade is provided with a fixing hole into which said spring cotter is plugged to fix said movable propeller blade when said movable propeller blade driven by said transmission shaft rotates along said slot to said end of said slot.

4. The crash-resistant aircraft of claim 3, wherein said crash resistant recoil device comprises a plurality of thrust-reversal rockets or a plurality of air cushions.

5. The crash-resistant aircraft of claim 3, wherein said crash-resistant aircraft comprises a hydraulic system and an independent battery in said fuselage and said tail end of said fuselage is provided with a water propeller.

6. The crash-resistant aircraft of claim 5, wherein said movable fastener comprises a pull rod connected to said hydraulic system, a plurality of hooks hinged on an inner side wall of the bottom of said fuselage and a plurality of hanging, rods, on an inside of the top of said aircraft base, the number of said plurality of hooks' is equal to the number of said plurality of hanging rods, and said plurality of hanging rods hang on said hooks, each hook is provided with a push rod, and said pull rod is provided with a plurality of shrink-rings at a certain interval whose number is equal to the number of said plurality of hooks, and one end of said push rod passes through a corresponding shrink-ring furthermore, each hanging rod comprises a convex shaft fastened on said aircraft base and a rotating drum sheathed on said convex shaft, therefore, when said hydraulic system drives said pull rod to move laterally, said pull rod drives each hook to rotate around an axis of an articulated shaft so that said plurality of hanging rods are disengaged from said plurality of hooks.

7. The crash resistant aircraft of claim 5, wherein said movable fastener comprises a strap, an explosive bolt and a pollution-free detonating cord.

8. The crash-resistant aircraft of claim 5, wherein said rectangle base is also fixed on a top of said fuselage via said movable fastener.

9. A crash resistant method for controlling a crash-resistant aircraft, wherein the crash-resistant aircraft comprises a fuselage and an aircraft base connected together via a movable fastener, wherein said fuselage comprises a cockpit, a cabin and an empennage, said aircraft base comprises a belly hold cargo bay, a fuel tank, a undercarriage, a power unit and wings, said empennage is also connected to a tail end of said fuselage via said movable fastener, a crash-resistant propeller system capable of bringing said fuselage upward is set up at a top of said cabin, a crash-resistant recoil device is set up beneath said cabin, said crash-resistant aircraft also comprises a control system disposed in said cockpit, and when said aircraft is in an accident in midair, said control system releases said movable fastener to abandon said aircraft base and said empennage, and controls said crash-resistant propeller system and said crash-resistant recoil device to operate, such that said fuselage can land safely, wherein said top of said cabin is provided with a top cover covering said crash-resistant propeller system and capable of popping open automatically, wherein said crash-resistant propeller system comprises a rectangle base whose two ends are provided with a first propeller and a second propeller, respectively and said first propeller and said second propeller are respectively located on two sides of a median of said rectangle base, then a center of said rectangle base is provided with a rotating shaft driven by hydraumatic, and said rotating shaft is provided with a Z-shaped supporting rod whose two ends are telescopic rods and are provided with a third propeller and a forth propeller, respectively, and before said Z-shaped supporting rod is actuated said Z-shaped supporting rod is parallel to the median of said rectangle base to make said first propeller and said third propeller arranged side by side and make said second propeller and said forth propeller arranged side by side; each of the first, second, third and fourth propellers comprise a lifting hydrau cylinder, a coaxial motor above said cylinder and a transmission shaft actuated by motor, and an upper part of a side wall of said transmission shaft is provided with a fixed propeller blade and hinged with at least one movable propeller blade, and before said transmission shaft is actuated, the fixed propeller blade of said transmission shaft of each of the first, second, third and fourth propellers is arranged parallel to each other and toward the center of said rectangle base, and said fixed propeller blade and said movable propeller blade overlap on one transmission shaft, said side wall of said transmission shaft is provided with slots whose number is equal to the number of said movable propeller blade, then an end of said slot is provided with a spring cotter and said movable propeller blade is provided with a fixing hole into which said spring cotter is plugged to fix said movable propeller blade when said movable propeller blade driven by said transmission shaft rotates along said slot to said end of said slot, wherein said novel crash-resistant aircraft comprises a hydraulic system and an independent battery in said fuselage and said tail end of said fuselage is provided with a water propeller, wherein the crash-resistant method comprises following steps: actuating said control system to release said movable fastener by a pilot when said crash-resistant aircraft is in trouble; popping open said top cover and meanwhile abandoning said aircraft base and said empennage; rising up said first propeller and said second propeller and rotating their propeller blades quickly: rotating said supporting rod 90° so that said supporting rod is perpendicular to said rectangle base and stretching said two ends of said supporting rod respectively outward to a preset length, then rising up said third propeller and said forth propeller and rotating their propeller blades quickly; descending the fuselage slowly and steadily by a lift force produced with four propellers' rotation simultaneously; when said fuselage is about to land, further decreasing a descent speed of said fuselage to make said fuselage land safely when said crash-resistant recoil device beneath said fuselage start to work.

10. The crash-resistant method of claim 9 wherein the balance of said fuselage during descent is ensured by controlling a rotational speed of said four propellers.

11. The crash-resistant aircraft of claim 4, wherein said crash-resistant aircraft comprises a hydraulic system and an independent battery in said fuselage and said tail end of said fuselage is provided with a water propeller.

12. The crash-resistant aircraft of claim 11, wherein said movable fastener comprises a pull rod connected to said hydraulic system, a plurality of books hinged on an inner side wall of the bottom of said fuselage and a plurality of hanging rods on an inside of the top of said aircraft base, the number of said plurality of hooks is equal to the number of said plurality of hanging rods, and said plurality of hanging rods hang on said hooks, each hook is provided with a push rod, and said pull rod is provided with a plurality of shrink-rings at a certain interval whose number is equal to the number of said plurality of hooks, and one end of said push rod passes through a corresponding shrink-ring, furthermore, each hanging, rod comprises a convex shaft fastened on said aircraft base and a rotating drum sheathed on said convex shaft, therefore, when said hydraulic system chives said pull rod to move laterally, said pull rod drives each hook to rotate around an axis of an articulated shaft so that said plurality of hanging rods are disengaged from said plurality of hooks.

13. The crash-resistant aircraft of claim 11, wherein said movable fastener comprises a strap, an explosive bolt and a pollution-free detonating cord.

14. The crash-resistant aircraft of claim 11, wherein said rectangle base is also fixed on a top of said fuselage via said movable fastener.

15. A crash-resistant method for controlling a crash-resistant aircraft, wherein the crash-resistant aircraft comprising a fuselage and an aircraft base connected together via a movable fastener, wherein said fuselage comprises a cockpit, a cabin and an empennage, said aircraft base comprises a belly hold cargo bay a fuel tank, a undercarriage, a power unit and wings, said empennage is also connected to a tail end of said fuselage via said movable fastener, a crash-resistant propeller system capable of bringing said fuselage upward is set up at a top of said cabin, a crash-resistant recoil device is set up beneath said cabin said crash-resistant aircraft also comprises a control system disposed in said cockpit, and when said aircraft is in an accident in midair said control system releases said movable fastener to abandon said aircraft base and said empennage, and controls said crash-resistant propeller system and said crash-resistant recoil device to operate, such that said fuselage can land safely, wherein said top of said cabin is provided with a top cover covering said crash-resistant propeller system and capable of popping open automatically, wherein said crash-resistant propeller system comprises a rectangle base whose two ends are provided with a first propeller and a second propeller, respectively, and said first propeller and said second propeller are respectively located on two sides of a median of said rectangle base, then a center of said rectangle base is provided with a rotating shaft driven by hydraumatic, and said rotating shaft is provided with a Z-shaped supporting rod whose two ends are telescopic rods and are provided with a third propeller and a forth propeller, respectively, and before said Z-shaped supporting rod is actuated, said Z-shaped supporting rod is parallel to the median of said rectangle base to make said first propeller and said third propeller arranged side by side and make said second propeller and said forth propeller arranged side by side; each of the first, second, third and fourth propellers comprise a lifting hydraulic cylinder, a coaxial motor above said cylinder and a transmission shaft actuated by motor, and an upper part of a side wall of said transmission shaft is provided with a fixed propeller blade and hinged with at least one movable propeller blade, and before said transmission shaft is actuated, the fixed propeller blade of said transmission shaft of each of the first, second, third and fourth propellers is arranged parallel to each other and toward the center of said rectangle base, and said fixed propeller blade and said movable propeller blade overlap on one transmission shaft, said side wall of said transmission shaft is provided with slots whose number is equal to the number of said movable propeller blade, then an end of said slot is provided with a spring cotter and said movable propeller blade is provided with a fixing hole into which said spring cotter is plugged to fix said movable propeller blade when said movable propeller blade driven by said transmission shaft rotates along said slot to said end of said slot, wherein said crash-resistant recoil device comprises a plurality of thrust-reversal rockets or a plurality of air cushions, wherein said novel crash-resistant aircraft comprises a hydraulic system and an independent battery in said fuselage and said tail end of said fuselage is provided with a water propeller, wherein the crash-resistant method comprises following steps: actuating said control system to release said movable fastener by a pilot when said crash-resistant aircraft is in trouble; popping open said top cover and meanwhile abandoning said aircraft base and said empennage; rising up said first propeller and said second propeller and rotating their propeller blades quickly; rotating said supporting rod 90° so that said supporting rod is perpendicular to said rectangle base and stretching said two ends of said supporting rod respectively outward to a preset length, then rising up said third propeller and said forth propeller and rotating their propeller blades quickly; descending the fuselage slowly and steadily by a lift force produced with four propellers' rotation simultaneously; when said fuselage is about to land, further decreasing a descent speed of said fuselage to make said fuselage land safely when said crash-resistant recoil device beneath said fuselage start to work.

16. The crash-resistant method of claim 15, wherein the balance of said fuselage during descent is ensured by controlling a rotational speed of said four propellers.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0027] FIG. 1 is an elevation of a novel crash-resistant aircrash in a normal condition in the preferred embodiment of the present invention;

[0028] FIG. 2 is a side view of a novel crash-resistant aircraft in a normal condition in the preferred embodiment of the present invention;

[0029] FIG. 3 is a top view of a novel crash-resistant aircraft abandoning the aircraft base and the empennage in the preferred embodiment of the present invention;

[0030] FIG. 4 is a side view of a novel crash-resistant aircraft with the stretched propeller in the preferred embodiment of the present invention;

[0031] FIG. 5 is a top view of a novel crash-resistant aircraft with the stretched propeller in the preferred embodiment of the present invention;

[0032] FIG. 6 is a structural view of a propeller in the preferred embodiment of the present invention;

[0033] FIG. 7 is a exploded stereo gram of a propeller in the preferred embodiment of the present invention;

[0034] FIG. 8 is a structural view of one movable fastener in the preferred embodiment of the present invention.

[0035] Signs herein: 1—fuselage, 11—empennage, 12—rectangle base, 13—pull rod, 14—hook, 15—convex shaft, 16—rotating drum, 17—push rod, 18—shrink-ring, 19—axis of articulated shaft, 2—aircraft base, 3—first propeller, 31—transmission, 32—fixed propeller blade, 33—movable propeller blade, 34—slot, 35—fixing hole, 4—second propeller, 5—third propeller, 6—forth propeller, 7—rotating shaft, 8—supporting rod, 81—telescopic rod, 9—crash-resistant recoil device.

DETAILED DESCRIPTION OF THE INVENTION

[0036] As shown in. FIG. 1-8, a novel crash-resistant aircraft comprises a fuselage 1 and a aircraft base 2 connected together via a movable fastener, wherein said fuselage 1 comprises a cockpit, a cabin and an empennage 11, said aircraft base 2 comprises a belly hold cargo bay, a fuel tank, a undercarriage, a power unit and wings, said empennage 11 is also connected to the tail end of said fuselage via a movable fastener, a crash-resistant propeller system capable of bringing said fuselage upward is set up at the top of said cabin, a crash-resistant recoil device 9 is set up beneath said cabin, said crash-resistant aircraft, also comprises a control system disposed in said cockpit, and when said aircraft is in an accident in midair, said control system releases said movable fastener to abandon said aircraft base 2 and said empennage 11 and controls said crash-resistant propeller system and said crash-resistant recoil device 9 to operate, such that said fuselage 1 can land safely

[0037] In the preferred embodiment, said top of the cabin is provided with a top cover capable of springing open automatically and covering said crash-resistant propeller system.

[0038] In the preferred embodiment, said crash-resistant propeller system comprises rectangle base 12 whose two ends are provided with a first propeller 3 and a second propeller 4 respectively, and said first propeller 3 and said second propeller 4 are respectively located on two sides of the median of said rectangle base 12, then the center of said rectangle base 12 is provided with a rotating shaft 7 driven by hydraumatic, and said rotating shaft 7 is provided with a Z-shaped supporting rod 8 whose two ends are telescopic rods 81 and are provided with a third propeller 5 and a forth propeller 6 respectively, and before said supporting rod 8 is actuated, said supporting rod is parallel to the median of said rectangle base 12 to make said first propeller and said third propeller arranged side by side and make said second propeller and said forth propeller arranged side by side; said four propellers all comprise a lifting hydraulic cylinder, a coaxial motor above said cylinder and a transmission shaft 31 actuated by motor, and the upper part of the side wall of said transmission shaft 31 is provided with a fixed propeller blade 32 and hinged with at least one movable propeller blade 33, and before said transmission shafts are actuated, four fixed propeller blades 32 are arranged parallel to each other and toward the center of said rectangle base and said fixed propeller blade 32 and said movable propeller blade 33 on one transmission shaft overlap, said side wall of said transmission shaft 31 is provided with slots 34 whose number is equal to the number of said movable propeller blades, then the terminus of said slot is provided with a spring cotter and said movable;propeller blade is, provided with a fixing hose 35 into which said spring cotter is plugged to fix said movable propeller blade when said movable propeller blade 33 driven by said transmission shaft 31 rotates along said slot to said terminus of said slot 34,

[0039] In the preferred embodiment, said recoil device comprises several thrust-reversal rockets.

[0040] In the preferred embodiment, the aircraft comprises a hydraulic system and an independent battery in the fuselage; the hydraulic system provides power for the rotation, rise and fall of the propellers, and controls the release of the movable fastener; the independent battery independently provides power for the rotation of the propellers and the running of the hydraulic system, moreover, the tail end of the fuselage is provided with a water propeller. When the aircraft descend on the water and the crash-resistant system of the propellers is bounced automatically, the water propeller pushes the fuselage to move forward automatically to avoid crushing the fuselage because of the drop of the crash-resistant system again, and make the fuselage move forward on the water. Definitely, said fuselage has a waterproof function.

[0041] In the preferred embodiment, said movable fastener comprises a pull rod 13 connected to the hydraulic system, several hooks 14 hinged on the inner side wall of the bottom of the fuselage and several hanging rods on the inside of the top of the aircraft base, wherein said the number of hooks 14 is equal to the number of the hanging rods and the hanging rod hangs on the hook 14 provided with a push rod, the hook 14 is provided with push rod 17, then the pull rod is provided with shrink-rings 18 at a certain interval whose number is equal to the number of the hooks, and one end of the push rod passes through the corresponding shrink-ring, furthermore, said hanging rod comprises a convex shaft 15 fastened on the aircraft base and a rotating drum 16 sheathed on the convex shaft, therefore, when the hydraulic system drives the pull rod to move laterally, the pull rod drives the hook to rotate around the axis of the articulated shaft 19 so that the hanging rod is disengaged from the hook.

[0042] In the preferred embodiment, said rectangle base 12 is also fixed on the top of the fuselage via a movable fastener.

[0043] The abreast arrangement of the propellers and the overlapped design of the propeller blades both can save space greatly, the hydraulic system, and the independent battery in the fuselage make sure that the actuator and the energy aren't affected by the damaged parts of the aircraft and the fuselage can run independently.

[0044] The crash-resistant control method of the novel crash-resistant aircraft adopting the above-mentioned crash-resistant aircraft follows the below steps: when said aircraft is in serious trouble, a pilot actuates said control system to release said movable fastener, spring open said top cover and meanwhile abandon said aircraft base and said empennage: said first propeller and said second propeller are risen up and their propeller blades rotate quickly; said supporting rod rotates 90°, then it is perpendicular to said rectangle base and said two ends of said supporting rod respectively stretch outward to a preset length, then said third propeller and said forth propeller are risen up and their propeller blades rotate quickly; the lift force produced with four propellers' rotation simultaneously make said fuselage descend slowly and steadily: when said fuselage is about to land, said crash-resistant recoil device beneath said fuselage start to work to further decrease the descent speed of said fuselage to make said fuselage land safely

[0045] In the preferred embodiment, the balance of the fuselage during descent is ensured by controlling the rotational speed of four propellers.

[0046] It should be noted that the foregoing are preferred embodiments of the present invention. To those of ordinary skill, a number of changes and modifications according to the present invention shall also be considered as within the scope of the invention.