CN205131637U - Two gyroplane - Google Patents

Abstract

The utility model provides a two gyroplane, belongs to aircraft technical field, including fuselage, port wing, the levogyration wing, left socle, starboard wing, the dextrorotation wing, right branch frame, chest expander, fin and undercarriage. The port wing is the same with right wing structure, and their symmetries are installed in the left and right sides of fuselage. The levogyration wing and the dextrorotation wing are measure -alike, turn to on the contrary. The levogyration wing passes through the left socle to be installed in the circular port at port wing middle part, and the pivot of the levogyration wing is passed through the bearing and is linked to each other with the left socle. The dextrorotation wing through right support mounting in the circular port at starboard wing middle part, the pivot of the dextrorotation wing is passed through the bearing and is linked to each other with the right branch frame. The rotation plane and the parallel or overlapping in port wing plane of the levogyration wing. The leading edge of port wing is higher than the trailing edge of port wing. The relatively more stable and safety of aircraft flight.

Description

A kind of DCB Specimen aircraft

Technical field

A kind of DCB Specimen aircraft, belongs to vehicle technology field, particularly relates to a kind of autogiro.

Background technology

Traditional cyclogyro only has a main rotor to produce lift, and safety and stability is not high.

Summary of the invention

The object of the invention is the above-mentioned deficiency overcoming traditional cyclogyro, invent a kind of DCB Specimen aircraft growing the safety and stability that distance is glided.

A kind of DCB Specimen aircraft, comprises fuselage, port wing, the left-handed wing, left socle, starboard wing, the dextrorotation wing, right support, chest expander, empennage and alighting gear.Control system and airborne equipment is furnished with in fuselage.Chest expander comprises screw propeller and driving engine.Port wing is identical with starboard wing structure, and their symmetries are installed on the left and right sides of fuselage.The left-handed wing and the dextrorotation wing measure-alike, turn to contrary, one is levoform, and one is right-spiral.The middle part of port wing has a diameter to be a bit larger tham the circular port of the diameter of the wing tip turning circumference of the left-handed wing.The left-handed wing is arranged in the circular port in the middle part of port wing by left socle, and the rotating shaft of the left-handed wing is connected with left socle by bearing.The dextrorotation wing is arranged in the circular port in the middle part of starboard wing by right support, and the rotating shaft of the dextrorotation wing is connected with right support by bearing.Empennage is positioned at the afterbody of fuselage, and empennage comprises tailplane and vertical tail.Tailplane plays horizontal stabilizer and elevating rudder.Tail has hung down the effect of vertical stabilator and yaw rudder.Alighting gear adopts wheeled construction.The plane of rotation of the left-handed wing and the plane of rotation of the dextrorotation wing coplanar.Port wing and starboard wing coplanar.Plane of rotation and the port wing plane parallel or overlapping of the left-handed wing.The leading edge of port wing is higher than the trailing edge of port wing, and the angle of port wing and horizontal surface is between 3 ~ 10 °, and the plane of rotation of the left-handed wing and the angle of horizontal surface are also between 3 ~ 10 °.

Power mode can also be like this, chest expander is cancelled, replace as engine installation with the propelling unit being installed on fuselage postmedian, the normal work of airflow influence port wing backward, the left-handed wing, starboard wing and the dextrorotation wing that would not produce because of chest expander like this, also can not affect the visual field of chaufeur.

The principle of work of a kind of DCB Specimen aircraft of this invention is: start chest expander, described aircraft is driven to move ahead, because the angle of the left-handed wing and the dextrorotation wing and front incoming flow is 3 ~ 10 °, at effect bottom left rotor and the right rotor wing rotation generation lift of air-flow, simultaneously port wing and starboard wing also can produce some lift, then described in take off.The speed of described aircraft advance is controlled by the rotating speed controlling chest expander.Pitching and the course of described aircraft is controlled by empennage.Because the left-handed wing and the dextrorotation wing turn on the contrary, both sides can offset rotating torque, so described aircraft flight is more stable.Due to the existence of port wing and starboard wing, the lift that described aircraft produces is comparatively large, if run out of steam longer distance of also gliding, can strive for more time docking facility or find safe landing point, safer like this.

Accompanying drawing explanation

Fig. 1 is that schematic diagram is looked on a left side for a kind of DCB Specimen aircraft of the present invention; Fig. 2 is the schematic top plan view of Fig. 1.

In figure, 1-fuselage, 21-port wing, 22-starboard wing, the left-handed wing of 31-, the 32-dextrorotation wing, 41-left socle, 42-right support, 5-chest expander, 6-empennage, 7-alighting gear.

Detailed description of the invention

Now by reference to the accompanying drawings the present invention is illustrated: a kind of DCB Specimen aircraft, comprised fuselage 1, port wing 21, the left-handed wing 31, left socle 41, starboard wing 22, the dextrorotation wing 32, right support 42, chest expander 5, empennage 6 and alighting gear 7.Chest expander 5 comprises screw propeller and driving engine.Port wing 21 is identical with starboard wing 22 structure, and their symmetries are installed on the left and right sides of fuselage 1.The left-handed wing 31 and the dextrorotation wing 32 measure-alike, turn to contrary, one is levoform, and one is right-spiral.The middle part of port wing 21 has a diameter to be a bit larger tham the circular port of the diameter of the wing tip turning circumference of the left-handed wing 31.The left-handed wing 31 is arranged in the circular port in the middle part of port wing 21 by left socle 41, and the rotating shaft of the left-handed wing 31 is connected with left socle 41 by bearing.The dextrorotation wing 32 is arranged in the circular port in the middle part of starboard wing 22 by right support 42, and the rotating shaft of the dextrorotation wing 32 is connected with right support 42 by bearing.Empennage 6 is positioned at the afterbody of fuselage 1, and empennage 6 comprises tailplane and vertical tail.Tailplane plays horizontal stabilizer and elevating rudder.Tail has hung down the effect of vertical stabilator and yaw rudder.Alighting gear 7 adopts rear bikini wheeled construction.The plane of rotation of the left-handed wing 31 and the plane of rotation of the dextrorotation wing 32 coplanar.Port wing 21 and starboard wing 22 coplanar.Plane of rotation and port wing 21 plane parallel or overlapping of the left-handed wing 31.The leading edge of port wing 21 is higher than the trailing edge of port wing 21, and port wing 21 is 5 ° with the angle of horizontal surface, and the plane of rotation of the left-handed wing 31 and the angle of horizontal surface are also 5 °.

DCB Specimen aircraft of the present invention produces beneficial effect like this: start chest expander, described aircraft is driven to move ahead, because the angle of the left-handed wing 31 and the dextrorotation wing 32 and front incoming flow is 5 °, at effect bottom left rotor 31 and the dextrorotation wing 32 rotation generation lift of air-flow, simultaneously port wing 21 and starboard wing 22 also can produce some lift, then described in take off.The speed of described aircraft advance is controlled by the rotating speed controlling chest expander 5.Pitching and the course of described aircraft is controlled by empennage 6.Because the left-handed wing 31 and the dextrorotation wing 32 turn on the contrary, both sides can offset rotating torque, so described aircraft flight is more stable.Due to the existence of port wing 21 and starboard wing 22, the lift that described aircraft produces is comparatively large, if run out of steam the Distance geometry time also gliding longer, can strive for more time docking facility or find safe landing point, safer like this.

Claims (4)

1. a DCB Specimen aircraft, is characterized in that: comprise fuselage (1), port wing (21), the left-handed wing (31), left socle (41), starboard wing (22), the dextrorotation wing (32), right support (42), chest expander (5), empennage (6) and alighting gear (7); Port wing (21) is identical with starboard wing (22) structure, and their symmetries are installed on the left and right sides of fuselage (1); The left-handed wing (31) and the dextrorotation wing (32) measure-alike, turn to contrary; The left-handed wing (31) is arranged in the circular port at port wing (21) middle part by left socle (41), and the rotating shaft of the left-handed wing (31) is connected with left socle (41) by bearing; The dextrorotation wing (32) is arranged in the circular port at starboard wing (22) middle part by right support (42), and the rotating shaft of the dextrorotation wing (32) is connected with right support (42) by bearing; Empennage (6) is positioned at the afterbody of fuselage (1), and empennage (6) comprises tailplane and vertical tail; Alighting gear (7) adopts wheeled construction; The plane of rotation of the left-handed wing (31) and the plane of rotation of the dextrorotation wing (32) coplanar; Port wing (21) and starboard wing (22) coplanar; Plane of rotation and port wing (21) plane parallel or overlapping of the left-handed wing (31); The leading edge of port wing (21) is higher than the trailing edge of port wing (21).

2. a kind of DCB Specimen aircraft according to claim 1, is characterized in that: cancelled by chest expander, replaces chest expander (5) as engine installation with the propelling unit being installed on fuselage (1) postmedian.

3. a kind of DCB Specimen aircraft according to claim 1 and 2, is characterized in that: the plane of rotation of the left-handed wing (31) and the angle of horizontal surface are between 3 ~ 10 °.

4. a kind of DCB Specimen aircraft according to claim 1 and 2, is characterized in that: port wing (21) is 5 ° with the angle of horizontal surface.