NON-LEGGED REUSABLE AIR-LAUNCHED CARRIER ROCKET

Abstract

Disclosed is a non-legged reusable air-launched carrier rocket mounted on a mid-line pylon of a supersonic fighter or a bomber fuselage and its length is not limited by the front undercarriage of the carrier aircraft. The rocket body has opposite upper and lower elongated openings at the position of the front undercarriage of the carrier aircraft. When running, the upper cover and lower cover of the openings open to the rocket body to form a vertical passage, so that the front undercarriage can be normally placed down. After taking off, the upper cover and lower cover close to form a cavity in the rocket body, and the cavity is then filled with liquid from the liquid tank in the carrier aircraft. The configuration is similar to the Roton carrier rocket.

Claims

1. A non-legged reusable air-launched carrier rocket, having the same reusable configuration as the Roton carrier rocket, and having an expandable rotor on a rocket head, wherein two elongated openings opposite to each other in the vertical direction are arranged on a rocket body and are positioned just below a front undercarriage of the carrier aircraft; a cover (3) of the upper opening is opened downwards to the rocket body; a cover (2) of the lower opening is opened upwards to the rocket body; when the carrier aircraft with the rocket body is parking on the ground and is in normal take-off run, the upper cover and the lower cover are opened, so that the front undercarriage can be normally lowered; a vertical passage formed by the upper opening and the lower opening is supported on the ground; after the take-off run of the carrier aircraft, subsequent to retracting of the front undercarriage of the carrier aircraft, the upper cover is closed upwards and the lower cover is closed downwards, so that an outer surface of the rocket is streamliner and forms a cavity in the rocket body with rear walls (1, 5) of a storage tank of the rocket body; and then a liquid tank (8) in the carrier body supplements fuel or oxidant or elemental propellant into the cavity formed in the rocket body by a pipe (6) on a hanger (7) through an exit (11) on a rear wall of the storage tank of the rocket body, and then the full rocket body is placed to perform a carrying task; the reusable rocket body has no legs, and the tail of the reusable rocket body adopts a plug nozzle (17); a Stewart platform is placed at a dropping point; a bottom surface of the plug nozzle is matched with the Stewart platform; the bottom surface of the plug nozzle has a convex spherical surface and the Stewart platform has a concave spherical surface, or the bottom surface of the plug nozzle and the Stewart platform both have planar surfaces; stack-shaped concave notches (16) are arranged at a tail of a load adapter (15); the number of the notches is equal to the number of rotor blades (20); radially extending short branch arms (18) connecting a paddle and a flapping hinge (19) are able to pass each of the notches; the load adapter and the rocket body are then separated after a load is separated from the load adapter; a cylindrical liner soft oil tank is arranged to realize a sealing of the storage tank after the upper cover and lower cover are closed; the liner soft oil tank can be unfolded in either of the following two ways: a. a side wall soft diaphragm (9) of the soft oil tank is glued to edges of the upper cover and lower cover remote from a rotating shaft, and a side wall soft diaphragm (10) on the other side of the soft oil tank is glued to edges of the upper cover and lower cover close to the rotating shaft, and when the upper cover and lower cover are closed, the soft oil tank of the liner is unfolded; b. the liner soft oil tank is a separate axially telescopic cylindrical soft oil tank, an annular edge at the bottom is glued to the rear wall of the storage tank of the rocket body, a side wall (13) thereof is in a wrinkled state when there is no internal pressure, when the upper cover and lower cover are closed, the liner soft oil tank is opened by infused liquid, so that a top surface (14) of the cylindrical soft oil tank in the axially extended state is brought into contact with a front wall (1) of the storage tank of the rocket body.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0007] The present invention will be further described in detail below in conjunction with the drawings and specific embodiments. Since the rotor of the rocket head is not what is claimed in the present invention and in order to avoid unnecessary obscuration and to keep it simple, the rotors are not shown in FIGS. 1-5.

[0008] FIGS. 1-5 are a set of schematic views of one embodiment of an air-launched carrier rocket of the present invention of which the length is not limited by the front undercarriage of the carrier aircraft.

[0009] FIG. 6 is a schematic illustration of another embodiment of another air-launched carrier rocket of the present invention of which the length is not limited by the front undercarriage of the carrier aircraft.

[0010] FIG. 7 is a schematic view of a rocket with two rotors when the fairing and load have been disengaged and the load adapter has not been disengaged.

DETAILED DESCRIPTION OF ILLUSTRATED EMBODIMENTS

[0011] FIGS. 1, 2 and 5 show the carrier aircraft and the rocket body when they are stationary on the ground or in take-off run. FIG. 2 is a side view of the carrier aircraft and the rocket body when the ground is stationary or slid, and FIG. 1 is a cross-sectional view taken along line A-A of FIG. 2. In FIGS. 1 and 2, reference numerals 3 and 2 are upper cover and lower cover which are opened to the inside of the rocket body, respectively, reference numeral 4 is the front undercarriage of the carrier aircraft (since this component is not essential in the present invention, it is only schematically shown), reference numerals 1 and 5 are the front and rear panels of the storage tank of the rocket body, reference numeral 6 is the infusion pipeline, reference numeral 7 is the center pylon of the carrier aircraft, reference numeral 8 is the liquid-filled internal storage tank within the carrier aircraft, and reference numeral 11 is the outlet of the infusion pipeline on the rear wall of the storage tank of the rocket body. Reference numeral 9 is a soft tank diaphragm glued to the upper cover and lower cover, and reference numeral 10 is another diaphragm of the soft oil tank. This design makes the soft oil tank automatically unfold when the upper cover and lower cover are closed. FIG. 5 is a schematic diagram showing the movement of the configuration, where reference numerals 3 and 2 are the upper cover and lower cover respectively opened to the inside of the rocket body. FIGS. 3 and 4 show the carrier aircraft and the rocket body during flying. FIG. 4 is a side view of the carrier aircraft and the rocket body during flying, and FIG. 3 is a cross-sectional view taken along line A-A of FIG. 4. In FIGS. 3 and 4, reference numerals 3 and 2 are closed upper and lower covers, reference numerals 11 is the outlet of the infusion pipe on the rear wall of the storage tank of the rocket body, reference numerals 8 is the empty internal storage tank of the carrier body, and reference numerals 12 is the full internal storage tank of the carrier body.

[0012] The air-launched carrier rocket shown in FIG. 6 of which the length is not limited by the front undercarriage of the carrier aircraft is another embodiment of the present invention. FIG. 6 depicts, in a top-to-bottom contrast, a part of rocket body and the storage tank of the rocket body that are in two states of stationary or running and flying. The only difference from the previous embodiment is that the soft oil tank is not glued to the upper cover and lower cover, and the soft oil tank is a separate axially telescopic cylindrical soft oil tank. The upper half of FIG. 6 corresponds to the state in which the carrier aircraft and the rocket body are stationary or running on the ground, where reference numeral 3 is the upper cover that opens inward, and reference numeral 13 is a cylindrical soft oil tank that is in an axially contracted state. The annular edge of the bottom of the cylindrical soft oil tank is glued to the rear wall of the storage tank of the rocket body, and the side wall of the cylindrical soft tank is in a wrinkle-contracted state without internal pressure. The lower half of FIG. 6 corresponds to the state in which the carrier aircraft and the rocket body are flying, where reference numeral 2 is the lower cover that is closed downwardly, and reference numeral 14 is a cylindrical soft oil tank that is in an axially extended state. The compressed soft oil tank can be opened by the liquid poured in.

[0013] Of course, the air-launched carrier rocket of which the length is not limited by the front undercarriage of the carrier body can also adopt other structures, such as a soft oil tank, in which the lining is removed, and which completely depends on the sealing strip at the edges of the upper cover and lower cover to achieve the sealing of the storage tank. Such variations also fall within the protection scope of the present invention.