CN106741911A - Robot unmanned plane - Google Patents

Abstract

The invention discloses robot unmanned plane, it is related to aircraft field, robot unmanned plane, including robot chassis, wing elevating mechanism, wing rotating mechanism, wing shield mechanism, robot sets organism on chassis, wing shield mechanism is provided with body, it is provided with to be slided in liftway, liftway in body and is provided with wing elevating mechanism, wing rotating mechanism is provided with wing elevating mechanism.Robot unmanned plane of the present invention, occupies little space with compact conformation, the characteristics of with DCB Specimen flight stability.

Description

Robot unmanned plane

Technical field

The present invention relates to aircraft field, specifically, it is related to a kind of robot unmanned plane.

Background technology

Current civilian unmanned plane is widely used in taking photo by plane, fire-fighting, police investigation, land mapping, to ocean, high-tension line, The condition of a disaster, meteorology etc. are monitored.Traditional unmanned plane is that this unmanned plane is in use, due to four using four axle rotors mostly Scope is very big when rotor launches, and is often unfavorable for being flown in narrow scope, or easily encountering barrier occurs air crash.

The content of the invention

The technical problems to be solved by the invention are：A kind of robot unmanned plane is provided, there is the device compact conformation to account for It is small with space, the characteristics of with DCB Specimen flight stability.

In order to solve the above technical problems, the technical scheme is that：

Robot unmanned plane, including robot chassis, wing elevating mechanism, wing rotating mechanism, wing shield mechanism, institute State and organism is set on robot chassis, wing shield mechanism is provided with the body, lifting is provided with the body logical Slided in road, the liftway and be provided with the wing elevating mechanism, the wing is provided with the wing elevating mechanism Rotating mechanism.

Preferably, being provided with gathering sill on the liftway, the wing elevating mechanism is stretched including hollow wing Shaft, is provided with the guide ledges being adapted with the gathering sill on the wing projecting shaft, the guide ledges are embedded in described In gathering sill, the lower end of the wing projecting shaft is connected by feed screw nut with leading screw, the leading screw be arranged on the machine The output shaft connection of the spindle motor on people chassis, the bottom of the body is provided with some machine fans.

Preferably, the gathering sill quantity is two, and opposing parallel setting；The machine fan quantity is four, and right Title is arranged on underpart.

Preferably, the wing rotating mechanism includes being arranged on the wing steering wheel of the wing projecting shaft upper end and consolidates The gear fixed mount at the top of the wing projecting shaft is scheduled on, the top rotary setting in the gear fixed mount has upper rotor tooth Wheel, the bottom in the gear fixed mount is fixed with fixed helical gear, and the gear fixed mount middle setting has swing pinion Connecting shaft, the swing pinion connecting shaft middle part is fixedly connected sprocket drive spindle, and the two ends of the gear shaft are connected to One swing pinion, the top and bottom of the swing pinion are engaged with the upper rotor gear and fixed helical gear respectively, institute The lower end for stating swing pinion connecting shaft is connected through the bottom of the gear fixed mount with the output shaft of the wing steering wheel, described The upper end of swing pinion connecting shaft is connected through the top of the gear fixed mount with upper rotor connecting bushing, and the upper rotor connects Spindle set lower, outer perimeter is enclosed and is provided with lower rotor connecting bushing, and the lower rotor connecting bushing lower end connects with the upper rotor gear Connect, lower rotor wing disk and upper rotor wing disk be separately installed with the lower rotor connecting bushing and upper rotor connecting bushing, Wing-folding device is provided with the lower rotor wing disk and the upper rotor wing disk.

Preferably, the wing-folding device includes wing-folding motor and folds gear, the folding motor connection There is worm screw, the worm screw engages with the folding gear, and the folding gear is connected with wing.

Preferably, being provided with bearing between the lower rotor connecting bushing and the upper rotor connecting bushing.

Preferably, described wing shield mechanism includes being hinged on the wing shield above the body, the wing Shield is connected by shield connecting rod with the middle part of the wing projecting shaft.

Preferably, being additionally provided with wing hole and shield company positioned at the body top of the surrounding edge of the wing projecting shaft Bar slotted eye.

Preferably, steering engine driver is additionally provided with the robot chassis, on the output shaft of the steering engine driver Omnidirectional driving wheel is installed.

Preferably, the quantity of the steering engine driver is four.

After employing above-mentioned technical proposal, the beneficial effects of the invention are as follows：

Due to robot unmanned plane, including robot chassis, wing elevating mechanism, wing rotating mechanism, wing shield machine Structure, when robot unmanned plane is deposited, wing-folding can be stored in body by wing rotating mechanism by wing elevating mechanism again It is interior, and the closing of wing shield mechanism so that compact overall structure occupies little space, when robot unmanned plane lets startup fly away, Wing elevating mechanism will rise in wing slave body, and wing rotating mechanism launches wing, starts flight.

Because the bottom of body is provided with some machine fans, when robot unmanned plane takes off, being fanned by machine can not only control The horizontal direction of robot unmanned plane processed, can also in the horizontal direction provide power.

Due to being separately installed with lower rotor wing disk and upper gyroplane on lower rotor connecting bushing and upper rotor connecting bushing The direction of rotation of wing disk, lower rotor wing disk and upper rotor wing disk conversely, therefore robot unmanned plane has bispin wing structure, Flight stability.

Due to wing-folding device include wing-folding motor and fold gear, wing-folding motor can by rotate forward and Invert to control the expansion and folding of wing.

Due to being provided with bearing, therefore robot unmanned plane during flying between lower rotor connecting bushing and upper rotor connecting bushing When avoid wing from shaking, fly it is more stable.

Because wing shield is connected by shield connecting rod with the middle part of wing projecting shaft, therefore by the liter of wing projecting shaft Drop just can control the switch of wing shield.

In sum, robot unmanned plane of the present invention solves four axle unmanned plane in the prior art, when four rotors launch When scope it is very big, be unfavorable in narrow scope fly, or easily encounter barrier occur air crash problem.Machine of the present invention Device people's unmanned plane, occupies little space with compact conformation, the characteristics of with DCB Specimen flight stability.

Brief description of the drawings

Structural representation when Fig. 1 is the wing shield mechanism closing of robot unmanned plane of the present invention；

Structural representation when Fig. 2 is the wing shield mechanism opening of robot unmanned plane of the present invention；

Fig. 3 is the top view of robot unmanned plane of the present invention；

Fig. 4 is the left view of Fig. 3；

Fig. 5 is the sectional view on the middle B-B directions of Fig. 3；

Fig. 6 is the structural representation of wing-folding device in Fig. 5；

Fig. 7 is the structural scheme of mechanism of Fig. 5 middle gears fixed mount and internal part；

In figure：1. robot chassis, 2. wing elevating mechanism, 3. wing rotating mechanism, 4. wing shield mechanism, 5. machine Body, 6. gathering sill, 7. steering engine driver, 8. omnidirectional driving wheel, 9. wing, 10. wing projecting shaft, 11. guide ledges, 12. Thick stick nut, 13. leading screws, 14. spindle motors, 15. wing steering wheels, 16. gear fixed mounts, rotor gear on 17., 18. fix oblique Gear, 19. swing pinion connecting shafts, 20. gear shafts, rotor connecting bushing on 21., 22. times rotor connecting bushings, 23. backspins Wing wing disk, rotor wing disk on 24., 25. wing-folding devices, 26. wing-folding motors, 27. folding gears, 28. worm screws, 29. machines are fanned, 30 liftways, 31 wing shields, 32. shield connecting rods, 33. wing holes, 34. shield link slots.

Specific embodiment

The present invention is further described with reference to the accompanying drawings and examples.

As shown in Figure 1, Figure 2, Fig. 5 is jointly shown, robot unmanned plane, including robot chassis 1, wing elevating mechanism 2, wing Rotating mechanism 3, wing shield mechanism 4 sets organism 5 on robot chassis 1, wing shield mechanism 4 is provided with body 5, Liftway 30 is provided with body 5, is slided on liftway 30 and is provided with wing elevating mechanism 2, set on wing elevating mechanism 2 Wing rotating mechanism 3 is equipped with, four steering engine drivers 7 is additionally provided with body people chassis 1, on the output shaft of steering engine driver 7 Omnidirectional driving wheel 8 is installed.

When robot unmanned plane is deposited, wing 9 can be folded and pass through wing elevating mechanism 2 again by wing rotating mechanism 3 Be stored in body, while wing shield mechanism 4 is closed so that compact overall structure occupies little space, when robot nobody When machine lets startup fly away, wing elevating mechanism 2 will rise in the slave body of wing 9, and wing rotating mechanism 3 launches wing 9, starts and flies OK.

As Fig. 2, Fig. 3, Fig. 4, Fig. 5 jointly shown in, in the present invention, be provided with liftway 30 two it is opposing parallel Gathering sill 6, wing elevating mechanism 2 includes hollow wing projecting shaft 10, is provided with wing projecting shaft 10 and is mutually fitted with gathering sill 6 The guide ledges 11 matched somebody with somebody, guide ledges 11 are embedded in gathering sill 6, and the lower end of wing projecting shaft 10 passes through feed screw nut 12 and leading screw 13 connections, leading screw 13 is connected with the output shaft for being arranged on the One On The Chassis spindle motor 14 of robot, and the bottom of body 5 symmetrically sets Four machine fans 29 are equipped with, machine fan 29 can not only control the horizontal direction of robot unmanned plane, can also carry in the horizontal direction For power.

As Fig. 2, Fig. 5, Fig. 7 jointly shown in, in the present invention, wing rotating mechanism 3 include be arranged on wing projecting shaft 10 The wing steering wheel 15 of upper end and the gear fixed mount 16 being fixed at the top of wing projecting shaft 10, the top in gear fixed mount 16 Rotary setting has upper rotor gear 17, and the bottom in gear fixed mount 16 is fixed with fixed helical gear 18, gear fixed mount 16 Middle setting has swing pinion connecting shaft 19, and the middle part of swing pinion connecting shaft 19 is fixedly connected sprocket drive spindle 20, gear shaft 20 two ends are connected to a swing pinion 21, the top and bottom of swing pinion 21 respectively with upper rotor gear 17 and solid Determine helical gear 18 to engage, the lower end of swing pinion connecting shaft 19 passes through the bottom of gear fixed mount 16 and the output of wing steering wheel 15 Axle is connected, and the upper end of swing pinion connecting shaft 19 is connected through the top of gear fixed mount 16 with upper rotor connecting bushing 21, on The lower, outer perimeter of rotor connecting bushing 21 is enclosed and is arranged with lower rotor connecting bushing 22, the lower lower end of rotor connecting bushing 22 and upper rotor tooth Wheel 17 is connected, and lower rotor wing disk 23 and upper rotor are separately installed with lower rotor connecting bushing 22 and upper rotor connecting bushing 21 Wing-folding device 25 is provided with wing disk 24, lower rotor wing disk 23 and upper rotor wing disk 24.Because lower rotor connects Lower rotor wing disk 23 and upper rotor wing disk 24, lower gyroplane are separately installed with spindle set 22 and upper rotor connecting bushing 21 The direction of rotation of wing disk 23 and upper rotor wing disk 24 is conversely, therefore robot unmanned plane has bispin wing structure, flight stability.

As Fig. 5, Fig. 6 jointly shown in, in the present invention, wing-folding device 25 include wing-folding motor 26 and fold tooth Wheel 27, folds motor 26 and is connected with 28, and worm screw 28 engages with gear 27 is folded, and folds gear 27 and is connected with wing 9, wing-folding Motor 26 can control the expansion and folding of wing 9 by rotating and reverse.

In the present invention, bearing, therefore machine are provided between lower rotor connecting bushing 22 and upper rotor connecting bushing 21 Avoid wing 9 to shake during people's unmanned plane during flying, fly more stable.

As shown in figure 5, in the present invention, wing shield mechanism 4 includes the wing shield 31 being hinged on body 5, wing Shield 31 is hinged by shield connecting rod 32 with the middle part of wing projecting shaft 10.

As shown in Fig. 2 in the present invention, the top of body 5 positioned at the surrounding edge of wing projecting shaft 10 is additionally provided with wing hole 33 and shield link slot 34.

Above-described embodiment is only the citing of the specific embodiment of the invention, and protection scope of the present invention is with claim Content is defined, any equivalent transformation carried out based on technical inspiration of the invention, also within protection scope of the present invention.

Claims (10)

1. robot unmanned plane, including robot chassis, wing elevating mechanism, wing rotating mechanism, wing shield mechanism, it is special Levy and be：Organism is set on the robot chassis, is provided with the body in wing shield mechanism, the body and set Have to be slided in liftway, the liftway and be provided with the wing elevating mechanism, be provided with the wing elevating mechanism The wing rotating mechanism.

2. robot unmanned plane as claimed in claim 1, it is characterised in that：Gathering sill, institute are provided with the liftway Stating wing elevating mechanism includes hollow wing projecting shaft, is provided with what is be adapted with the gathering sill on the wing projecting shaft Guide ledges, the guide ledges are embedded in the gathering sill, and the lower end of the wing projecting shaft passes through feed screw nut and leading screw Connection, the leading screw is connected with the output shaft of the spindle motor being arranged on the robot chassis, and the bottom of the body sets It is equipped with some machine fans.

3. robot unmanned plane as claimed in claim 2, it is characterised in that：The gathering sill quantity is two, and relatively flat Row is set；The machine fan quantity is four, and is symmetricly set on underpart.

4. robot unmanned plane as claimed in claim 2, it is characterised in that：The wing rotating mechanism is described including being arranged on The wing steering wheel of wing projecting shaft upper end and the gear being fixed at the top of the wing projecting shaft fix house, and the gear is fixed Top rotary setting in frame has upper rotor gear, and the bottom in the gear fixed mount is fixed with fixed helical gear, described Gear fixed mount middle setting has swing pinion connecting shaft, and the swing pinion connecting shaft middle part is fixedly connected with gear Axle, the two ends of the gear shaft are connected to a swing pinion, the top and bottom of the swing pinion respectively with it is described Upper rotor gear and the engagement of fixed helical gear, the lower end of the swing pinion connecting shaft through the bottom of the gear fixed mount with The output shaft connection of the wing steering wheel, the top of family and upper rotor are fixed in the upper end of the swing pinion connecting shaft through gear Connecting bushing is connected, and the upper rotor connecting bushing lower, outer perimeter is enclosed and is arranged with lower rotor connecting bushing, the lower rotor connection Axle sleeve lower end is connected with the upper rotor gear, is separately installed with down on the lower rotor connecting bushing and upper rotor connecting bushing Wing-folding is provided with rotor wing disk and upper rotor wing disk, the lower rotor wing disk and the upper rotor wing disk Device.

5. robot unmanned plane as claimed in claim 4, it is characterised in that：The wing-folding device includes wing-folding electricity Machine and fold gear, the folding motor connection has a worm screw, and the worm screw engage with the folding gear, the folding gear and Wing is connected.

6. robot unmanned plane as claimed in claim 4, it is characterised in that：The lower rotor connecting bushing and the upper rotor Bearing is provided between connecting bushing.

7. robot unmanned plane as claimed in claim 2, it is characterised in that：Described wing shield mechanism includes being hinged on institute The wing shield on body is stated, the wing shield is connected by shield connecting rod with the wing projecting shaft.

8. robot unmanned plane as claimed in claim 7, it is characterised in that：Described in surrounding edge positioned at the wing projecting shaft Body top is additionally provided with wing hole and shield link slot.

9. the robot unmanned plane as described in any one of claim 1 to 8, it is characterised in that：Also set on the robot chassis Steering engine driver is equipped with, omnidirectional driving wheel is installed on the output shaft of the steering engine driver.

10. robot unmanned plane as claimed in claim 9, it is characterised in that：The quantity of the steering engine driver is four.