CN109625279A - A kind of combination aircraft and its landing mode - Google Patents

Abstract

A kind of combination aircraft and its landing mode, belong to technical field of aerospace.Combining aircraft includes fixed wing aircraft, multi-rotor aerocraft, connected unit, electromagnetism snap studs, communication system and radar school device for mark.Radar school device for mark includes monitoring radar and transmitting radar.Electromagnetism snap studs include that electromagnetism is engaged sub- column and the female column of electromagnetism occlusion.Electromagnetism is engaged female column, monitoring radar is placed in connected unit, and connected unit is placed on multi-rotor aerocraft with certain tilt angle, and electromagnetism is engaged sub- column, transmitting radar is placed in fixed wing aircraft.When taking off, multi-rotor aerocraft band fixed wing aircraft takes off, and has reached fixed wing aircraft takeoff speed, after multi-rotor aerocraft is separated with fixed wing aircraft；When fixed wing aircraft lands, multi-rotor aerocraft lift-off handover is accurately docked, the landing of multi-rotor aerocraft camel fixed wing aircraft using Radar Calibration Unit.Combination aircraft of the invention, landing mode do not rely on place limitation, the VTOL of fixed wing aircraft may be implemented.

Description

A kind of combination aircraft and its landing mode

The application is application number 2017101393463, on 03 10th, 2017 applying date, " a kind of combination is winged for denomination of invention The divisional application of row device and its landing mode ".

Technical field

A kind of combination aircraft and its landing mode, belong to technical field of aerospace more particularly to a kind of combination aircraft and Its landing mode.

Background technique

Traditional aviation aircraft can be divided into fixed wing aircraft, helicopter and multi-rotor aerocraft.Wherein, fixed wing aircraft Flying speed is fast, and mobility is high, and flying radius is big, and security performance coefficient is high, but due to the limitation of itself, to landing of taking off Condition require harsh, the landing of taking off of fixed wing aircraft must have sufficiently long runway.Helicopter can with VTOL, but It is construction complexity, and larger for the culture of helicopter pilot consuming, the driving technology of driver is required high.More rotors fly Row device can also accomplish VTOL, and easy to operate, strong operability, can enter some narrow region operations, still, flight Radius is small, and cruising ability is low, is chiefly used in taking photo by plane, monitoring field, and the scope of application is small, more seriously, security and stability It is low, since multi-rotor aerocraft is that the more motors of multiaxis cooperate, as long as one of motor breaks down, certainly will make in the sky At the accident that can not be saved.And fixed wing aircraft is directly combined with multi-rotor aerocraft, more rotor structures when flight in the sky It is had an impact as the burden of fixed-wing, or even to the performance of fixed wing aircraft.

Summary of the invention

The present invention program is the deficiency in order to be directed to above-mentioned aircraft, and inventing one kind can be with the combination aircraft of VTOL And its landing mode, establish aerial runway.

A kind of combination aircraft, including fixed wing aircraft, connected unit, multi-rotor aerocraft, electromagnetism snap studs, communication system With radar school device for mark.Communication system includes multi-rotor aerocraft communication system and fixed wing aircraft communication system.Connected unit packet Include the first battery, the first controller, control switch and sensor；Connected unit is fixed with four rigid supports with certain tilt angle On multi-rotor aerocraft, connected unit is higher than rotor, and the first battery, sensor, the first controller and control switch are placed in company In consecutive；The sensor connects electromagnetism snap studs, and detection electromagnetism is engaged sub- column and is engaged whether mother's column is engaged with electromagnetism, and by its Status information is output to the first controller；First controller is connected with control switch；Control switch controls electromagnetism and is engaged female column Power on/off；First battery is the first controller, control switch and the power supply of electromagnetism snap studs.Electromagnetism is engaged sub- column and is mounted on fixed-wing It is connect on aircraft and with second controller, the second battery is that electromagnetism is engaged sub- column power supply.Electromagnetism is engaged sub- column and electromagnetism occlusion is female Column is electromagnetic coil structure, and electromagnetism is engaged female column and is connected with control switch, sensor and the first battery, when coil energization, Electromagnetic field is generated, electromagnetism is engaged sub- column and electromagnetism is engaged female column occlusion, and fixed wing aircraft is linked together with multi-rotor aerocraft；When Coil blackout, electromagnetism is engaged sub- column and electromagnetism is engaged female column occlusion separation, and fixed wing aircraft and multi-rotor aerocraft are detached from.It is described Multi-rotor aerocraft includes multi-rotor aerocraft communication system, monitor radar, make a return voyage device and skidding type undercarriage；Skidding type rises Falling frame includes wheel and damping device, and four skidding type undercarriages are fixed under four axis of multi-rotor aerocraft fuselage, is reduced Descent works as a buffer.Radar school device for mark includes monitoring radar and transmitting radar, and transmitting radar is installed on fixation Four electromagnetism occlusion sub- column diagonal line midpoints of wing aircraft are simultaneously connect with second controller, and monitoring radar is placed in four electromagnetism of connected unit It is engaged female column diagonal line midpoint and is connect with the first controller；Monitoring radar is used to monitor the signal of transmitting radar, according to signal Strong and weak judgement transmitting radar position, multi-rotor aerocraft controlled by the first controller make to monitor radar and forced to transmitting radar Closely, until two radar sites are vertical, into electromagnetism occlusion range.

The electromagnetism, which is engaged sub- column, to be stretched, and when use can stretch out, after fixed wing aircraft is disconnected platform, electricity Magnetic is engaged sub- column and can withdraw.

The electromagnetism is engaged female column and is placed in connected unit, and upper end and connected unit maintain an equal level, and lower end protrudes under connected unit； It is groove structure that electromagnetism, which is engaged female column, and convenient electromagnetic is engaged the connection that sub- column is engaged between female column with electromagnetism.

The landing mode of the combination aircraft is: take-off process, fixed when multi-rotor aerocraft stops falling on the ground Wing aircraft is placed in the connected unit of multi-rotor aerocraft by crane or other lifting equipments, the power-off of electromagnetism snap studs；It takes off When, electromagnetism snap studs are powered, and electromagnetism snap studs occlusion, multi-rotor aerocraft is connected and fixed with fixed wing aircraft；Start more rotors Aircraft vertically goes up to the air multi-rotor aerocraft to after certain altitude, starts fixed wing aircraft engine, the control of the first controller Multi-rotor aerocraft keeps present level to be accelerated forwardly flight, and during this, electromagnetism snap studs are powered always；Work as fixed wing aircraft After speed reaches takeoff speed, second controller automatically controls electromagnetism and is engaged sub- column power-off, meanwhile, the first controller controls electromagnetism It is engaged female column power-off；Meanwhile first controller control multi-rotor aerocraft reduction of speed, at this time since fixed wing aircraft has reached at full speed Degree, and electromagnetism snap studs power off, fixed wing aircraft and multi-rotor aerocraft are detached from, and realize taking off for fixed wing aircraft；More rotors After aircraft and fixed wing aircraft are detached from, by the automatic device that makes a return voyage of controller starting, multi-rotor aerocraft auto-returned goes out ground.

When fixed wing aircraft needs to land, second controller controls fixed wing aircraft communication system and sends landing request letter Number, the multi-rotor aerocraft communication system on ground receives landing request signal, and the first controller is according in landing request signal Hold control multi-rotor aerocraft starting, multi-rotor aerocraft lift-off is simultaneously close to fixed wing aircraft, into docking range, more rotors Aircraft is consistent with fixed wing aircraft speed and flies in the same direction, the transmitting that multi-rotor aerocraft is arrived according to monitoring radar contact The location information of radar adjusts self-position, fixed wing aircraft is moved closer to from below, into the occlusion in electromagnetism snap studs magnetic field Range, the first controller and second controller control the energization of electromagnetism snap studs, the occlusion of electromagnetism snap studs, second controller control simultaneously Fixed Wing AirVehicle processed is flame-out, and the first controller controls multi-rotor aerocraft by device work of making a return voyage, and controls more rotor flyings Device returns to ground.

Combination aircraft of the invention, landing mode do not rely on place limitation, and hanging down for fixed wing aircraft may be implemented Straight landing, performance safety is reliable, while intelligence degree is high, of less demanding to the operation of driver.

Detailed description of the invention

Fig. 1 is connected unit left view schematic diagram；Fig. 2 is combination aircraft entirety schematic top plan view；Fig. 3 is that combination aircraft is whole Body left view schematic diagram；Fig. 4 is connected unit schematic top plan view；Fig. 5 is skidding type undercarriage schematic diagram；Fig. 6 is that combination aircraft is whole Body schematic elevation view；Fig. 7 is that electromagnetism is engaged female rod structure schematic diagram.

In figure, 11- control switch, the first battery of 12-, 13- monitoring radar, the first controller of 14-, 15- electromagnetism snap studs, 16- electromagnetism is engaged female column, 17- connected unit, 18- rigid connection body, 19- sensor, the sub- column of 21- electromagnetism occlusion, the control of 31- second Device, the second battery of 34-, 35- multi-rotor aerocraft, 37- make a return voyage device, 38- fixed wing aircraft communication system, and the more rotors of 39- fly Row device communication system, 36- fixed wing aircraft, 33- emit radar, 5- skidding type undercarriage, 51- wheel, 52- spring, 53- protection Body.

Specific embodiment

The present invention is illustrated now in conjunction with attached drawing, a kind of combination aircraft, including fixed wing aircraft 36, controller 31, connected unit 17, electromagnetism snap studs 15 and multi-rotor aerocraft 35.

Connected unit 17 include the first battery 12, the first controller 14, control switch 11, electromagnetism mother column 16, monitoring radar 13, Sensor 19 and rigid support 18；Connected unit 17 is fixed on multi-rotor aerocraft 35 at a certain angle with four rigid supports 18 Face makes connected unit 17 be higher than rotor；First battery 12, sensor 19, the first controller 14, control switch 11 and monitoring radar 13 It is placed in connected unit 17, sensor 19 is placed in electromagnetism and is engaged 16 bottom portion of groove of female column, and detection electromagnetism is engaged sub- column 21 and stings with electromagnetism It closes and whether is engaged between female column 16, and occlusive state is output to the first controller 14, the first controller 14 connects control switch 11, control switch 11 controls the power on/off that electromagnetism is engaged female column 16；First battery 12 is the first controller 14, the prison of control switch 11 It surveys radar 13 and electromagnetism is engaged female column 16 and powers.

Electromagnetism snap studs 15 are engaged sub- column 21 by electromagnetism and electromagnetism is engaged female column 16 and forms；Electromagnetism is engaged sub- column 21 and is placed at On fixed wing aircraft 36, second controller 31 is connected；Electromagnetism, which is engaged sub- column 15, to be stretched, and one end is fixed in fuselage, use When the other end is stretched out, after fixed wing aircraft 36 is disconnected platform 17, electromagnetism is engaged sub- column 21 and can withdraw；Electromagnetism is engaged female column 16 are placed in connected unit 17, and upper end and connected unit 17 maintain an equal level, and lower end protrudes from 17 lower section of connected unit, and it is groove that electromagnetism, which is engaged female column 16, Structure, convenient electromagnetic are engaged the connection that sub- column 21 is engaged between female column 16 with electromagnetism；Electromagnetism is engaged sub- column 21 and electromagnetism occlusion is female Column 16 is electromagnetic coil structure, and electromagnetism is engaged female column 16 and connects control switch 11, sensor 19 and the first battery 12；When first Controller 14 controls electromagnetism and is engaged female 16 coil of column energization, and the control electromagnetism of second controller 31 is engaged sub- column coil and is powered, the two Coil generating electromagnetic field, electromagnetism is engaged sub- column 21 and electromagnetism mother column 16 is engaged, and fixed wing aircraft 36 and multi-rotor aerocraft 35 connect It is integrated；Work as coil blackout, electromagnetism is engaged sub- column 21 and separates with the female column 16 of electromagnetism occlusion, fixed wing aircraft 36 and more rotor flyings Device 35 is detached from.

Multi-rotor aerocraft 35 is by the device 37 that makes a return voyage, monitoring radar 13, multi-rotor aerocraft communication system 39 and skidding type Undercarriage 5 forms；Skidding type 5 framves that rise and fall include wheel 51 and damping spring 52, and four skidding type undercarriages 5 are fixed on more rotors Under four axis of 35 fuselage of aircraft, reduces descent and work as a buffer；The device 37 that makes a return voyage is placed in multi-rotor aerocraft 35 Portion.

Radar school device for mark includes monitoring radar 13 and transmitting radar 33, and transmitting radar 33 is installed on fixed wing aircraft 36 4 electromagnetism are engaged sub- 21 diagonal line midpoint of column and connect with second controller 31, and monitoring radar 13 is placed in four electricity of connected unit Magnetic is engaged female 16 diagonal line midpoint of column and connect with the first controller 14；Monitoring radar 13 is used to monitor the letter of transmitting radar 33 Number, position is judged according to the power of signal, controlling multi-rotor aerocraft 35 by the first controller 14 makes to monitor radar 13 to hair It penetrates radar 33 to approach, until two radar sites are vertical, into electromagnetism occlusion range.

Multi-rotor aerocraft communication system 39 and fixed wing aircraft communication system 38 for multi-rotor aerocraft 35 and are fixed Communication bridge between wing aircraft 36.

Second battery 34 is that transmitting radar 33, second controller 31 and fixed-wing fixed wing aircraft communication system 38 are powered.

The combination aircraft takes off in this way: when multi-rotor aerocraft 35 stops falling on level land, fixed wing aircraft 36 It is placed in the connected unit 17 of multi-rotor aerocraft 35 by crane or lifting equipment, electromagnetism snap studs 15 are in power-off shape State；When taking off, electromagnetism snap studs 15 are powered, and electromagnetism snap studs 15 are engaged under the action of electromagnetic field, the control of the first controller 14 Start multi-rotor aerocraft 35, after multi-rotor aerocraft 35 vertically lift-off to certain altitude, starting fixed wing aircraft 36 starts Machine, 14 autonomous control multi-rotor aerocraft of the first controller, 35 support carry fixed wing aircraft 36 keep present level be accelerated forwardly it is winged Row, during this, electromagnetism snap studs 15 are powered always is in occlusive state；When 36 flying speed of fixed wing aircraft has reached at full speed After degree, the first controller 14 automatically controls electromagnetism and is engaged female power-off of column 16, and it is disconnected that the control electromagnetism of second controller 31 is engaged sub- column 21 Electricity, meanwhile, the first controller 14 control 35 reduction of speed of multi-rotor aerocraft simultaneously declines certain altitude, at this time due to fixed wing aircraft 36 Reach takeoff speed, and electromagnetism snap studs 15 power off, fixed wing aircraft 36 and multi-rotor aerocraft 35 are detached from, and realize that fixed-wing flies Machine 36 takes off；After multi-rotor aerocraft 35 and fixed wing aircraft 36 are detached from, the device that makes a return voyage automatically is started by the first controller 14 37, multi-rotor aerocraft auto-returned departure place.

When fixed wing aircraft 36 needs to land, second controller 31 controls fixed wing aircraft communication system 38 and sends landing Request signal, the multi-rotor aerocraft communication system 39 on ground receive landing request signal and feed back to the first controller 14, the One controller 14 is according to landing request signal content start multi-rotor aerocraft 35, the lift-off of multi-rotor aerocraft 35 and to fixed-wing Aircraft 36 is close；The location information that the monitoring scanning of radar 13 captures transmitting radar 33 feeds back to the first controller 14, the first control Device 14 adjusts the position of multi-rotor aerocraft 35 according to feedback information by feedback system, from the bottom up close to fixed wing aircraft 36；During this adjustment, multi-rotor aerocraft 35 is consistent with 36 speed of fixed wing aircraft always and flies in the same direction；Until prison After survey radar 13 and transmitting radar 33 are in same vertical line, the first controller 14 controls multi-rotor aerocraft 35 gradually from below Fixed wing aircraft 36 is approached, the safety electromagnetic into electromagnetism snap studs magnetic field 15 is engaged range, transmitting radar 33 and monitoring radar 13 while close, and the first controller 14 and second controller 33 control electromagnetism simultaneously and sting that female column 16, that electromagnetism is engaged sub- column 21 is logical Electricity, electromagnetism snap studs 15 are engaged, and second controller 33 controls fixed wing aircraft 36 and stops working, and the first controller 14 is according to the device that makes a return voyage 37 work, control multi-rotor aerocraft 35 return to ground.

Combination aircraft of the invention, landing mode do not rely on place limitation, fixed wing aircraft 36 may be implemented VTOL.

Claims (6)

1. a kind of combination aircraft, it is characterised in that: including fixed wing aircraft (36), connected unit (17), multi-rotor aerocraft (35), electromagnetism snap studs (15), communication system and radar school device for mark；Radar school device for mark further includes monitoring radar (13) and sends out Penetrate radar (33)；Electromagnetism snap studs further include that electromagnetism is engaged sub- column (21) and the female column (16) of electromagnetism occlusion；Communication system further includes Fixed wing aircraft communication system (38) and multi-rotor aerocraft communication system (39)；Connected unit (17) include the first battery (12), First controller (14), control switch (11) and sensor (19)；Connected unit (17) is solid with certain angle of attack with rigid support (18) It is scheduled on multi-rotor aerocraft (35) above；First battery (12), sensor (19), the first controller (14) and control switch (11) It is placed in connected unit (17), sensor (19) connects electromagnetism snap studs (15)；First controller (14) and control switch (11) phase Even, control switch (11) controls the power on/off of electromagnetism snap studs (15)；Electromagnetism snap studs (15) have electromagnetism be engaged sub- column (21) and Electromagnetism is engaged female column (16) and forms；Electromagnetism is engaged sub- column (21) structure on fixed wing aircraft (36), connects second controller (31)；Electromagnetism is engaged female column (16) in connected unit (17)；Radar school device for mark includes monitoring radar (13) and transmitting radar (33), transmitting radar (33) is connected with second controller (31)；Monitoring radar (13) is connected with the first controller (14)；

Monitoring radar (13) is placed in four electromagnetism of connected unit and is engaged female column (16) diagonal line midpoint；Transmitting radar (33) is installed on solid Determine (36) four electromagnetism of wing aircraft and is engaged sub- column (21) diagonal line midpoint；Electromagnetism is engaged female column (16) upper end and connected unit (17) water Flat, lower end protrudes from connected unit (17) lower surface.

2. a kind of combination aircraft according to claim 1, it is characterised in that: multi-rotor aerocraft (36) undercarriage is wheel Gliding style undercarriage (5), using spring shock absorption structure.

3. a kind of combination aircraft according to claim 1, it is characterised in that: fixed wing aircraft (36) be it is manned or It is unmanned.

4. a kind of combination aircraft according to claim 1, it is characterised in that: electromagnetism is engaged sub- column (21) and electromagnetism occlusion Female column (16) is electromagnetic coil structure, and electromagnetism is engaged female column (16) and connects control switch (11), sensor (19) and the first electricity Pond (12).

5. according to claim 1 to the mode of taking off of any combination aircraft described in 4, it is characterised in that: will first fix Wing aircraft (36) is placed in the connected unit (17) of multi-rotor aerocraft (35), and electromagnetism snap studs (15) are powered, electromagnetism snap studs (15) it is engaged under the action of electromagnetic field, the first controller (14) control starting multi-rotor aerocraft (35), by more rotor flyings Device (35) vertically after lift-off to certain altitude, starts fixed wing aircraft (36) engine, and the first controller (14) autonomous control is more Rotor craft (35) support carries fixed wing aircraft (36) and present level is kept to be accelerated forwardly flight；When fixed wing aircraft (36) fly After scanning frequency degree reaches takeoff speed, the first controller (14) automatically controls electromagnetism and is engaged female column (16) power-off, second controller (31) control electromagnetism is engaged the power-off of sub- column (21), meanwhile, the first controller (14) control multi-rotor aerocraft (35) reduction of speed and under Certain altitude drops, and at this time since fixed wing aircraft (36) reaches takeoff speed, and electromagnetism snap studs (15) power off, fixed wing aircraft (36) it is detached from multi-rotor aerocraft (35), realizes taking off for fixed wing aircraft (36)；Multi-rotor aerocraft (35) and fixed-wing After aircraft (36) is detached from, device (37) are maked a return voyage automatically by the first controller (14) starting, multi-rotor aerocraft (35) auto-returned Departure place.

6. according to claim 1 to the landing modes of any combination aircraft described in 4, it is characterised in that: the second control Device (31) controls fixed wing aircraft communication system (38) and sends landing request signal, the multi-rotor aerocraft communication system on ground (39) it receives landing request signal to feed back to the first controller (14), the first controller (14) is according to landing request signal content Start multi-rotor aerocraft (35), multi-rotor aerocraft (35) lift-off is simultaneously close to fixed wing aircraft (36)；It monitors radar (13) The location information that scanning captures transmitting radar (33) is fed back to the first controller (14), and the first controller (14) is according to feedback information By the position of feedback system adjustment multi-rotor aerocraft (35), from the bottom up close to fixed wing aircraft (36)；More rotor flyings Device (35) is consistent with fixed wing aircraft (36) speed and flies in the same direction；Until at monitoring radar (13) and transmitting radar (33) After same vertical line, the first controller (14) control multi-rotor aerocraft (35) gradually approaches fixed wing aircraft from below (36), the safety electromagnetic into electromagnetism snap studs magnetic field (15) is engaged range, and transmitting radar (33) and monitoring radar (13) are closed While, the first controller (14) and second controller (33) control electromagnetism simultaneously and sting female column (16), the sub- column (21) of electromagnetism occlusion It is powered, electromagnetism snap studs (15) occlusion, second controller (33) controls fixed wing aircraft (36) and stops working, the first controller (14) root It works according to the device that makes a return voyage (37), control multi-rotor aerocraft (35) returns to ground.