RU2568234C2 - Hybrid airborne vehicle - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: invention relates to aircraft engineering, particularly, to hybrid aircraft designs. Claimed aircraft comprises long fuselage, rotor with lift-development blades and wing section from every fuselage side. Every wing section is arranged at fuselage to turn about its lengthwise axis. Aircraft comprises braces arranged above and/or below sweptback wing section. Every brace is connected by one end with fuselage and, by opposite end, with the axle arranged on pivot wing lengthwise axis and spaced from fuselage to turn said axle in the joint conditionally dividing pivot wing into inner and outer parts. Said outer part is provided with flaps, spoilers and ailerons. Additionally, wing section includes L-like cantilevers extending symmetrically from fuselage sides and located ahead and/or behind the pivot wing inner section. Every L-like cantilever is connected by its end with the brace and/or axle fitted on pivot wing lengthwise axis to turn in said joint.

EFFECT: higher stiffness of pivot wing joint.

5 cl, 2 dwg

Description

State of the art

Known bearing surface of the aircraft, which consists of the main and rotary wings, equipped with slotted flaps. The rotary wing is located behind the main and below it and is connected with it by two vertical walls mounted on opposite sides of the fuselage. The axis of rotation of the rotary wing is fixed in the walls. This design forms a closed loop of the bearing surface. The trailing edges of the extended flaps of the main wing are located behind the leading edge of the rotary wing. Due to the creation of a single multi-slit bearing surface, an increase in lifting force is achieved [patent RU No. 2121940, “C2”, cl. B64C 3/38, publication date 11/20/1998]. The disadvantages of this device include the low spatial rigidity of the mounting of the rotary wing.

Known closest to the invention, an analogue (prototype) is a combined aircraft, which contains an elongated fuselage, a rotor with blades to create lift and a wing portion protruding from each side of the fuselage. Each wing part is mounted on the fuselage with the possibility of rotation around its longitudinal axis. The main rotor has a casing for accommodating the sliding and extendable rotor blades. There is an increase in the smoothness of control of the aircraft during the transition from the driving mode using the rotor to the driving mode using the fixed wing [patent RU No. 2380276, “C2”, cl. B64C 27/22, publication date 1/27/2010]. The disadvantages of this device include the difficulty of performing horizontal take-off and landing due to the small bearing surface of the wing part, as well as the low spatial rigidity of the fastening of the rotary wing.

SUMMARY OF THE INVENTION

The objective of the invention is to increase the spatial rigidity of the rotation of the rotary wing and simplify the ability to perform horizontal take-off and landing.

The technical result that can be obtained from the implementation of the present invention is to create a structure that increases the spatial rigidity of the fastening of the rotary wing, with an increase in the bearing surface of the wing part to simplify horizontal take-off and landing.

The problem is solved using the proposed according to the invention combined aircraft with the characteristics of paragraph 1 of the claims.

Using the features set forth in the dependent clauses, improved variants of the combined flying vehicle described in paragraph 1 of the claims are possible.

The technical result is achieved in that the combined aircraft, which contains an elongated fuselage, a rotor with blades to create lift and a wing part protruding from each side of the fuselage, each wing part is mounted on the fuselage with the possibility of rotation around its longitudinal axis.

New is that the combined aircraft additionally contains braces located above and / or below the wing part, made arrow-shaped, each brace connected at one end to the fuselage, and the other end to a shaft located on the longitudinal axis of the rotary wing at a distance from the fuselage, with the possibility of rotation of the shaft in this connection, conditionally dividing the rotary wing into the inner and outer parts of the rotary wing, the outer part of the rotary wing is equipped with flaps, spoilers and ailerons, wing this additionally contains L-shaped consoles, symmetrically protruding from each side of the fuselage and located in front and / or behind the inner part of the rotary wing, each L-shaped console is connected by an end part to a brace and / or to a shaft located on the longitudinal axis of the rotary wing, with the possibility of rotation of the shaft in this connection, in the embodiment of the L-shaped console in front of the rotary wing, the L-shaped console is equipped on its front with a slat, and the inside of the rotary wing is equipped with flaps and yilers, in the embodiment of the location of the L-shaped console behind the inner part of the rotary wing, the L-shaped console is equipped with flaps and spoilers, and the inside of the rotary wing is equipped with a slat, in both options for the location of the L-shaped console, with the inside of the rotary wing approximately horizontal , the design of the wing part forms a single multi-slit bearing surface that increases the lifting force for horizontal take-off and landing, when the inside of the rotary Wing approximately vertically, for example, the front edge upward, the wing portion forms a permeable vertical air flow from the rotor design and facilitates the ability to perform vertical takeoff and landing and hovering.

It is possible to additionally equip each brace and / or each L-shaped console in their end part with a propeller-driven gondola with a propeller used on airplanes with the usual take-off and landing pattern, while the braces located above the wing part are made hollow to accommodate elements rotational transmissions from rotor engines to propellers.

A variant of additional equipment of each brace and / or each L-shaped console in their end part with a pylon suspension with a turbojet engine is possible.

A variant is possible in which the L-shaped console consists of two parts, end and rectilinear, the end part contains the axis of rotation of the rectilinear part having a flat cross section and made to rotate around the specified axis of rotation.

An embodiment of the outer part of the rotary wing folding, consisting of two parts, the root and end, pivotally connected to each other, is possible to additionally equip the root part of the outer part of the rotary wing with the folding mechanism of the rotary wing when it is placed vertically, for example, with the front edge up, by turning the end part rotary wing around the hinge axis.

The invention improves the spatial rigidity of the fastening of the rotary wing by reinforcing it with a slant, and also allows to increase the bearing surface of the wing part and its lifting force to simplify the horizontal take-off and landing.

List of drawings

Figure 1 schematically shows a fragment of a combined aircraft with a pylon suspension, front view, the vertical position of the rotary wing is shown by a dotted line.

Figure 2 schematically shows a fragment of a combined aircraft with a vertical arrangement of the rotary wing and the rectilinear part of the L-shaped console, with the folded end part of the rotary wing, a top view, the horizontal position of the wing and the rectilinear part of the L-shaped console is shown by a dotted line.

Information confirming the possibility of carrying out the invention.

The combined aircraft contains an elongated fuselage 1, a rotor with blades for generating lifting force and a wing part 2 protruding from each side of the fuselage 1, each wing part 2 is mounted on the fuselage 1 with the possibility of rotation around its longitudinal axis 3, additionally contains braces 4 located above and / or below the wing part 2, made arrow-shaped, each brace 4 is connected at one end with the fuselage 1, and the other end with a shaft 5 located on the longitudinal axis 3 of the rotary wing 6 away from the fu 1, with the possibility of rotation of the shaft 5 in this connection, conditionally dividing the rotary wing 6 into the inner 7 and outer 8 parts of the rotary wing 6, the outer 8 part of the rotary wing 6 is equipped with flaps, spoilers and ailerons, wing part 2 additionally contains L-shaped consoles 9, symmetrically protruding from each side of the fuselage 1 and located in front and / or behind the inner 7 of the part of the rotary wing 6, each L-shaped console 9 is connected by the end part to the brace 4 and / or to the shaft 5 located on the longitudinal axis 3 of the rotary wing 6, with the possibility of rotation of the shaft 5 in this connection, in the arrangement of the L-shaped console 9 in front of the rotary wing 6, the L-shaped console 9 is equipped on its front with a slat, and the inner 7 part of the rotary wing 6 is equipped with flaps and spoilers, in the embodiment the location of the L-shaped console 9 behind the inner 7 part of the rotary wing 6 The L-shaped console 9 is equipped with flaps and spoilers, and the inner 7 part of the rotary wing 6 is equipped with a slat, in both options for the location of the L-shaped console 9, when located inside the flight path 7 of the part of the rotary wing 6 approximately horizontally, the design of the wing part 2 forms a single multi-slit bearing surface that increases the lifting force for horizontal take-off and landing, when the inner part 7 of the rotary wing 6 is approximately vertical, for example, with the front edge up, the wing part 2 forms permeable to the vertical flow of air from the rotor design and facilitates the ability to perform vertical take-off, landing and hovering.

An option is possible to additionally equip each brace 4 and / or each L-shaped console 9 in their end part with a helical nacelle 10 with a propeller 11 used on airplanes with the usual take-off and landing pattern, while the braces 4 located above the wing part 2 are made hollow to accommodate the elements of transmission of rotation from the main rotor engines to the propellers 11.

A possible option is additional equipment for each brace 4 and / or each L-shaped console 9 in their end part with a pylon suspension 12 with a turbojet engine 13.

An embodiment of the outer part of the rotary wing folding, consisting of two parts, the root 14 and the end 15, pivotally connected to each other, is possible to additionally equip the root 14 part of the outer 8 part of the rotary wing 6 with the folding mechanism 16 of the rotary wing 6 when it is located vertically, for example, the front edge up by turning the end 15 of the rotary wing 6 about the axis of the hinge 17.

A variant is possible in which the L-shaped console 9 consists of two parts, end 18 and rectilinear 19, end part 18 contains the axis of rotation of the rectilinear part 19 having a flat cross section and made to rotate around the specified axis of rotation.

The combined aircraft operates as follows, when the inner part 7 of the rotary wing 6 is located approximately horizontally, the design of the wing part 2 forms a single multi-slit bearing surface that increases the lifting force for horizontal take-off and landing, when the inner part 7 of the rotary wing 6 is approximately vertical, for example , with the leading edge upwards, the wing part 2 forms a structure permeable by a vertical air flow from the rotor and facilitates the possibility of complete vertical take-off, landing and hovering of the combined aircraft.

The invention described in this way meets the set goals and objectives, in particular, the present invention provides a combined aircraft, which allows to increase the spatial rigidity of the rotation of the rotary wing by reinforcing it with a slant, and also allows to increase the bearing surface of the wing part and its lifting force to simplify horizontal takeoff and landing.

Claims (5)

1. A combined aircraft, which contains an elongated fuselage, a rotor with blades to create lift and a wing part protruding from each side of the fuselage, each wing part is mounted on the fuselage with the possibility of rotation around its longitudinal axis, characterized in that it further comprises braces located above and / or below the wing part, made arrow-shaped, each brace is connected at one end to the fuselage, and the other end to a shaft located on the longitudinal axis of the rotary wing away from the fuselage, with the possibility of rotating the shaft in this connection, conditionally dividing the rotary wing into the inner and outer parts of the rotary wing, the outer part of the rotary wing is equipped with flaps, spoilers and ailerons, the wing part additionally contains L-shaped consoles, symmetrically protruding from each side the fuselage and located in front and / or behind the inner part of the rotary wing, each L-shaped console is connected by the end part to the brace and / or to the shaft located on the longitudinal axis of the rotary wing, with the possibility of rotation of the shaft in this connection, in the arrangement of the L-shaped console in front of the rotary wing, the L-shaped console is equipped with a slat on its front part, and the inside of the rotary wing is equipped with flaps and spoilers, in the layout of the L-shaped console behind the inner parts of the rotary wing The L-shaped console is equipped with flaps and spoilers, and the inside of the rotary wing is equipped with a slat, in both variants of the location of the L-shaped console, when the inner part of the the wing is approximately horizontal, the wing structure forms a single multi-slit bearing surface that increases the lifting force for horizontal take-off and landing, when the inside of the wing is approximately vertical, for example, with the front edge up, the wing forms a structure that is permeable by a vertical stream of air from the carrier propeller, and facilitates the ability to perform vertical take-off, landing and hovering. 2. The combined aircraft according to claim 1, characterized in that each brace and / or each L-shaped console in their end part is additionally equipped with a propeller-driven gondola with a propeller used on airplanes with the usual take-off and landing pattern, while the braces, located above the wing part, made hollow to accommodate rotation transmission elements from rotor engines to propellers. 3. The combined aircraft according to claim 1, characterized in that each brace and / or each L-shaped console in their end part is additionally equipped with a pylon suspension with a turbojet engine. 4. The combined aircraft according to claim 1, characterized in that the L-shaped console consists of two parts, end and rectilinear, the end part contains the axis of rotation of the rectilinear part having a flat cross section and made to rotate around the specified axis of rotation. 5. The combined aircraft according to claim 1, characterized in that the outer part of the rotary wing is made folding, consisting of two parts, the root and end, pivotally connected to each other, the root part of the outer part of the rotary wing is additionally equipped with a folding mechanism of the rotary wing at its location vertically, for example, with the leading edge up, by turning the end part of the rotary wing about the axis of the hinge.

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