CN108216664A - A kind of unmanned flight's system and its flight instruments, mobile terminal - Google Patents
A kind of unmanned flight's system and its flight instruments, mobile terminal Download PDFInfo
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- CN108216664A CN108216664A CN201611159192.6A CN201611159192A CN108216664A CN 108216664 A CN108216664 A CN 108216664A CN 201611159192 A CN201611159192 A CN 201611159192A CN 108216664 A CN108216664 A CN 108216664A
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- 238000010521 absorption reaction Methods 0.000 claims description 3
- 230000007246 mechanism Effects 0.000 claims description 3
- 238000009434 installation Methods 0.000 claims description 2
- 230000006870 function Effects 0.000 description 5
- VYPSYNLAJGMNEJ-UHFFFAOYSA-N Silicium dioxide Chemical group O=[Si]=O VYPSYNLAJGMNEJ-UHFFFAOYSA-N 0.000 description 4
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- 235000013399 edible fruits Nutrition 0.000 description 2
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- 238000012986 modification Methods 0.000 description 1
- 230000008450 motivation Effects 0.000 description 1
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B64—AIRCRAFT; AVIATION; COSMONAUTICS
- B64D—EQUIPMENT FOR FITTING IN OR TO AIRCRAFT; FLIGHT SUITS; PARACHUTES; ARRANGEMENT OR MOUNTING OF POWER PLANTS OR PROPULSION TRANSMISSIONS IN AIRCRAFT
- B64D47/00—Equipment not otherwise provided for
- B64D47/08—Arrangements of cameras
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B64—AIRCRAFT; AVIATION; COSMONAUTICS
- B64D—EQUIPMENT FOR FITTING IN OR TO AIRCRAFT; FLIGHT SUITS; PARACHUTES; ARRANGEMENT OR MOUNTING OF POWER PLANTS OR PROPULSION TRANSMISSIONS IN AIRCRAFT
- B64D43/00—Arrangements or adaptations of instruments
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B64—AIRCRAFT; AVIATION; COSMONAUTICS
- B64D—EQUIPMENT FOR FITTING IN OR TO AIRCRAFT; FLIGHT SUITS; PARACHUTES; ARRANGEMENT OR MOUNTING OF POWER PLANTS OR PROPULSION TRANSMISSIONS IN AIRCRAFT
- B64D47/00—Equipment not otherwise provided for
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Abstract
The invention discloses a kind of unmanned flight's system and its flight instruments, mobile terminal, unmanned flight's system includes flight instruments and the mobile terminal being mounted on flight instruments, wherein, the flight instruments include fuselage and the Power Component controlled by the CPU being arranged on the fuselage, the fuselage further includes the mounting structure for installing the mobile terminal, the mobile terminal includes the CPU that burning has flight control program, accelerometer, gyroscope, GPS, magnetometer and the battery for mobile terminal power supply, the accelerometer, gyroscope, GPS and magnetometer are all connected on the CPU, the CPU is used to control the Power Component of flight instruments.The present invention forms unmanned plane of the prior art by mobile terminal and being used cooperatively for flight instruments, has achieved the purpose that reduce unmanned flight's system cost of the present invention by the device included by the mobile terminal popularized.
Description
【Technical field】
The present invention relates to a kind of unmanned flight's system and its flight instruments, mobile terminals.
【Background technology】
Existing unmanned plane includes fuselage and the Power Component being arranged on fuselage, flies control chip, battery, communication device, adds
The devices such as speedometer, gyroscope, GPS, filming apparatus, because including above-mentioned all devices, making its hardware cost high, i.e. cost
Height so that unmanned plane can only be the toy of booming income crowd, and can not obtain the universal of large area.
【Invention content】
The main purpose of the preferred embodiment of the present invention is to provide a kind of mobile terminal shared by flight instruments, by movement
The universal of terminal reduces the hardware cost of flight instruments.
The main purpose of another preferred embodiment of the present invention is to provide a kind of flight instruments, in the function of using mobile terminal
After reduce its hardware cost.
The main purpose of another preferred embodiment of the present invention is to provide a kind of unmanned flight's system, by by mobile terminal
For flight instruments, while realizing the function of unmanned plane, the cost of unmanned plane is reduced.
One embodiment of the invention discloses a kind of mobile terminal, is used to control the flight when being mounted on flight instruments
The Power Component of device has the flight control CPU of program, accelerometer, gyroscope, GPS, magnetometer and for institute including burning
The battery of mobile terminal power supply is stated, the accelerometer, gyroscope, GPS and magnetometer are all connected on the CPU.
Preferably, the mobile terminal is mobile phone or PAD.
Mobile terminal disclosed in the embodiment of the present invention, by the way that burning is set to have CPU, the acceleration of flight control program
Meter, gyroscope, GPS and magnetometer, can when the mobile terminal is mounted on flight instruments, by CPU acquire accelerometer,
The information of gyroscope, GPS and magnetometer, the control that the Power Component of control flight instruments is then obtained by calculation processing are ordered
It enables, realizes the purpose controlled the Power Component of flight instruments, such flight instruments just without be separately provided winged control chip, add again
Speedometer, gyroscope, GPS and magnetometer can greatly reduce the hardware of flight instruments, reach the mesh for reducing flight instruments cost
, make it possible that flight instruments obtain large area and popularize.
Another embodiment of the present invention discloses a kind of flight instruments, including fuselage and be arranged on the fuselage by institute
The Power Component of CPU controls is stated, the fuselage further includes the mounting structure for installing the mobile terminal.
Preferably, the first connectivity port is additionally provided on the fuselage with the second connection end mouth with the mobile terminal to pass through
The communication of the mobile terminal and the Power Component is realized in cable or connection-peg connection.
Preferably, power conversion device is additionally provided on the fuselage, the battery is institute by the power conversion device
State flight instruments power supply.
Preferably, the mounting structure include the fastener components of the fixed mobile terminal and absorb the fuselage with it is described
The damper shaken between mobile terminal.
Preferably, the Power Component includes motor, the rotating speed for adjusting the motor and the reconciliation of the electricity in direction mounted on institute
State the blade on the output shaft of motor, the fuselage includes ontology and foldable paddle arm on the body, the motor and
Electricity, which is adjusted, to be mounted in the paddle arm, and the shape of the ontology is formed in described to have reeded box-shaped, the mounting structure
In the groove of ontology.
Preferably, the holding tank for accommodating the Power Component and paddle arm is offered on the ontology, the paddle arm is with respect to institute
It states ontology and is in unfolded state, the Power Component and paddle arm are stretched out from the holding tank, the relatively described ontology of the paddle arm
In contraction state, the Power Component and paddle arm are retracted into the holding tank.
Preferably, the flight instruments further include setting on the body, the expansion of the driving paddle arm or the drive shunk
Motivation structure.
Preferably, the flight instruments further include the charging that can be powered to the mobile terminal and/or the flight instruments
Treasured, the charger baby setting is on the body.
Flight instruments disclosed in the embodiment of the present invention are because can coordinate the mobile terminal in any of the above-described technical solution
It uses, so it without setting the device that mobile terminal is included again, it is like flying to control chip, accelerometer, gyroscope, GPS and magnetic
Power meter etc., i.e., while cost is saved, moreover it is possible to be convenient for carrying, make it possible that flight instruments obtain large area and popularize.
Further embodiment of this invention discloses a kind of unmanned flight's system, including the shifting in above-mentioned technical proposal
The flight instruments in dynamic terminal and any of the above-described technical solution, the flight instruments are mounted on the mounting structure
On.
Unmanned flight's system disclosed in the embodiment of the present invention is because including the mobile terminal in any of the above-described technical solution
And the flight instruments in any of the above-described technical solution, i.e., mobile terminal and any of the above-described technical side in any of the above-described technical solution
Being used cooperatively for flight instruments in case forms unmanned plane of the prior art, has reached by the mobile terminal popularized
Device included by (such as mobile phone, PAD) reduces the nothing disclosed in the purpose namely the embodiment of the present invention of existing unmanned plane cost
People's flight system can be received by more consumers, can meet the needs of more crowds are to unmanned flight's system.
【Description of the drawings】
Fig. 1 is the block diagram of unmanned flight's system in first preferred embodiment of the invention;
Fig. 2 is the block diagram of flight instruments in third of the present invention and the 5th preferred embodiment;
Fig. 3 is the block diagram of unmanned flight's system in four preferred embodiment of the invention.
【Specific embodiment】
In order to make the purpose , technical scheme and advantage of the present invention be clearer, with reference to the accompanying drawings and embodiments, it is right
The present invention is further elaborated.It should be appreciated that specific embodiment described herein is only to explain the present invention, not
For limiting the present invention, as long as and not conflicting between technique described below feature can be combined with each other.
As shown in Figure 1, unmanned flight's system 100 disclosed in first embodiment of the invention includes second embodiment of the invention
Flight instruments 20 disclosed in disclosed mobile terminal 10 and third embodiment of the invention, that is, pass through second embodiment of the invention
Being used cooperatively for flight instruments 20 disclosed in disclosed mobile terminal 10 and third embodiment of the invention forms the prior art
In unmanned plane, reached reduces existing unmanned plane by the device included by the mobile terminal (such as mobile phone, PAD) popularized
Unmanned flight's system 100 disclosed in the purpose namely first embodiment of the invention of cost can be received by more consumers, can
Meets the needs of more crowds are to unmanned flight's system 100, to the flight instruments disclosed in manufacture third embodiment of the invention
For 20 manufacturer, unmanned plane compared with the prior art is more easily manufactured.
Wherein, the mobile terminal 10 disclosed in second embodiment of the invention, which includes burning, flight control program
CPU101, accelerometer 102, gyroscope 103, GPS105, magnetometer 104, communication device 106, filming apparatus 107 and be described
Mobile terminal 10 power battery (not shown), the accelerometer 102, gyroscope 103, GPS105, magnetometer 104,
Communication device 106 and filming apparatus 107 are all connected on the CPU101, and third of the present invention is mounted in the mobile terminal 10
When on the flight instruments 20 in embodiment, the Power Component of the flight instruments 20 is controlled by the CPU101 of the mobile terminal 10
201 to realize pitching movement, roll motion, yawing rotation and up and down motion.
Mobile terminal 10 disclosed in second embodiment of the invention, by the way that burning is set to have flight control program
CPU101, accelerometer 102, gyroscope 103, GPS105 and magnetometer 104 can be mounted to flight dress in the mobile terminal 10
When putting on 20, the information of accelerometer 102, gyroscope 103, GPS105 and magnetometer 104 is acquired by CPU101, is then passed through
Calculation processing obtains the control command of control 20 Power Component 201 of flight instruments, realizes the Power Component 201 to flight instruments 20
The purpose of control, such flight instruments 20 just fly control chip, accelerometer, gyroscope, GPS and magnetometer without being separately provided again
, the hardware of flight instruments 20 can be greatly reduced, achievees the purpose that reduce by 20 cost of flight instruments, flight instruments 20 is made to obtain greatly
Area, which is popularized, to be possibly realized.
Because mobile terminal 10 is installed on flight instruments 20, the pitch angle of mobile terminal 10, roll angle
And yaw angle is also pitch angle, roll angle and the yaw angle of flight instruments 20.Wherein, accelerometer 102 is used to survey
Acceleration is measured, gyroscope 103 is used to measure body around some axial turning rate valu, accelerometer 102 and gyroscope
103 one Strapdown Inertial Navigation System of composition measure pitching and the roll angle of unmanned flight's system 100, to unmanned flight's system 100
Flight attitude controlled;The directional information of unmanned flight's system 100 is passed to CPU101 by magnetometer 104;GPS105 is used
In acquisition location information (latitude and longitude information and elevation information) to provide navigation.These information are fused in mission program, count
Calculate and handle the control command to obtain control Power Component 201.
When mobile terminal 10 and flight instruments 20 are contactless connection, communication device 106 is used to implement movement end
The communication of the CPU101 at end 10 and the Power Component 201 of flight instruments 20, in a preferred embodiment, which may be used also
For being connected to network and/or other-end.When mobile terminal 10 is connect with flight instruments 20 for contact, communication dress
It puts 106 to can be used for being connected to network and/or other-end, mobile terminal 10 and the communication of flight instruments 20 pass through contact electricity
Connection communication, it is of course possible to communicate by the communication device 106.In addition, the communication device 106 can also communicate with other-end,
Other-end is received to installing the control command of the flight instruments 20 of the mobile terminal 10 and the control of mobile terminal 10 being ordered
It enables, if other-end can send the control command that flight instruments 20 is controlled to do pitching, roll, yaw or up and down motion, for another example
Other-end can send the acquisition of filming apparatus 107 image for controlling mobile terminal 10, the control command of audio or video information.
Connect in mobile terminal 10 and flight instruments 20 for contact, and mobile terminal 10 need not be connected to network or other
During terminal, the mobile terminal 10 disclosed in second embodiment of the invention can not include communication device 106, at this time flight instruments 20
It can fly according to the track planned in advance, can not subsequently change.
Filming apparatus 107 is for acquiring at least one of image, Voice and Video information, captured by filming apparatus 107
Content can according to setting directly be shared on network by the communication device 106 of mobile terminal 10 or be passed through according to setting
The communication device 106 of mobile terminal 10 is sent on the other-end specified (other ends such as communicated with the mobile terminal 10
End) or according to setting be stored in the memory of mobile terminal 10.When without shooting function, second embodiment of the invention
Disclosed mobile terminal 10 can not include filming apparatus 107.
In a particular embodiment, which can include burning to have the CPU101 of flight control program, accelerate
Degree counts any appliance of 102, gyroscope 103, GPS105 and magnetometer 104.Specifically, the mobile terminal 10 is mobile phone or PAD.
Flight instruments 20 disclosed in third embodiment of the invention include fuselage (not shown) and are arranged on the machine
The Power Component 201 controlled by the CPU101 with it, the fuselage further include to install in above-mentioned any embodiment
The mounting structure of the mobile terminal 10.The mobile terminal 10, which can include burning, to be had the CPU101 of flight control program, accelerates
Degree counts 102, gyroscope 103, GPS105, magnetometer 104, communication device 106, filming apparatus 107 and is the mobile terminal 10
The battery of power supply, the accelerometer 102, gyroscope 103, GPS105, magnetometer 104, communication device 106 and filming apparatus
107 are all connected on the CPU101.
Flight instruments 20 in the embodiment of the present invention are because can coordinate the mobile terminal 10 in any of the above-described embodiment to make
With, so it without setting the device that mobile terminal 10 is included again, it is like flying to control chip, accelerometer, gyroscope, GPS and magnetic
Power meter etc., i.e., while cost is saved, moreover it is possible to be convenient for carrying, make it possible that flight instruments 20 obtain large area and popularize.
In a preferred embodiment, the flight instruments 20 in above-described embodiment further include the loudspeaker being arranged on fuselage, use
In the voice signal amplification for receiving mobile terminal 10, make voice signal covering wider.
Wherein, mounting structure can realize any structure for being stably connected with mobile terminal 10 in the prior art,
Is not limited in the present invention.
In order to reduce the vibrations that flight instruments 20 are transmitted to mobile terminal 10, which includes fixed described mobile whole
The damper shaken between the fastener components at end 10 and the absorption fuselage and the mobile terminal 10.Wherein, the mounting structure
It is cradle head structure or the damper is the damper element (silica gel ring for such as wrapping up the periphery of mobile terminal 10 or more region
Deng absorbing the vibrations of flight instruments 20 by damper element to reduce the vibrations being transmitted on mobile terminal 10).
When damper included by the mounting structure is holder, the rotation of mobile terminal 10 can also be realized so that the movement
Terminal 10 can shoot the picture or video of different angle, which can be the axis holder with pitching movement,
For the two axis holders with pitching movement and yawing rotation or can be the two axis holders with pitching movement and roll motion,
Can also be the three axis holders with pitching movement, yawing rotation and roll motion.Certainly, in order to shoot the picture of different angle
Or video, it can also realize the figure that the mobile terminal 10 is allow to shoot different angle by adjusting the posture of flight instruments 20
The purpose of piece or video.
Power Component 201 includes mechanical, electrical tune of blade, electricity etc., identical with the Power Component of the prior art, in the present invention not
It limits.In a preferred embodiment, wherein a Power Component 201 further includes the altimeter being arranged on during electricity is adjusted, accurately to measure
The height of flight instruments 20 also has the ability for obtaining height in certain GPS105, if precision enough can not also be wherein
Altimeter is set in one Power Component 201, there is altimeter for another example, then also without a power wherein in fruit mobile terminal 10
Altimeter is set in component 201.
In a preferred embodiment, the Power Component 201 in above-described embodiment further includes instruction unmanned flight's system mode
Indicator light.
Mobile terminal 10 is installed on flight instruments 20, it should which to ensure the filming apparatus 107 of mobile terminal 10 can shoot
To picture or video, i.e., if camera pair of the mobile terminal 10 on the top of fuselage, fuselage with filming apparatus 107
The position answered will open up shooting hole 2032, and in the preferred scheme, the field angle which should comply with camera will
It asks, the aperture in the shooting hole 2032 should gradually increase from top to lower section, if the shooting hole 2032 is truncated cone-shaped hole.Preferred real
Apply in example, the mobile terminal 10 be mounted on fuselage lower section, need not thus open up shooting hole 2032, and Power Component 201 and
Fuselage does not all interfere with the shooting angle of camera.
For the ease of carrying, transporting, the fuselage of flight instruments 20 is foldable in the embodiment of the present invention, as shown in Fig. 2, tool
Body refers to that fuselage includes ontology 203 and the paddle arm that can be folded with respect to the ontology 203, and Power Component 201 is mounted in paddle arm.
When paddle arm is in folded state, the blade in paddle arm is arranged between ontology 203 and paddle arm, and Power Component 201 and paddle
Arm is without departing from the region that the area of ontology 203 is covered;When paddle arm is in unfolded state, being arranged on blade in paddle arm can be with
Above or below paddle arm.
In other embodiments, in order to protect paddle arm and Power Component 201, the ontology 203 of fuselage, which is equipped with, accommodates the paddle
The holding tank 2033 of arm and Power Component 201, paddle arm opposing body 203 are in unfolded state, and Power Component 201 and paddle arm are calm
It receives and stretches out in slot 2033, paddle arm opposing body 203 is in contraction state, and Power Component 201 and paddle arm are retracted into holding tank 2033
In.The holding tank 2033 is opened in the side of ontology 203.
In a particular embodiment, in order to which paddle arm opposing body 203 is made to be unfolded or shrink, can by manually mode,
Can be that automatic mode (i.e. when starting flight instruments 20, from holding tank 2033 stretch out automatically, in flight instruments 20 by paddle arm
In descent, paddle arm is automatically retracted in holding tank 2033).In a preferred embodiment of the invention, flight instruments 20 further include
It is arranged on the ontology 203 of fuselage, the driving mechanism for paddle arm to be driven to be unfolded or shrink.
In a particular embodiment, the present invention is not provided with undercarriage, and in order to protect entire unmanned flight's system, paddle arm is being flown
It is not retracted in holding tank 2033 in 20 descent of device, for increasing the contact area of flight instruments 20 and landing platform,
To reduce impact force when landing, the position that paddle arm is contacted with landing platform at this time sets damper element (such as silica gel strip).At this
In invention preferred embodiment, the undercarriage that can be put down automatically is set in paddle arm, in 20 descent of flight instruments, control should
Gear down to protect entire unmanned flight's system.
In a particular embodiment, the shape of the ontology 203 of the fuselage in any of the above-described embodiment is with groove 2031
Box-shaped, wherein, mounting structure is formed in the groove 2031 of flight instruments 20, and Power Component 201 and paddle arm are collapsible in this
In the holding tank 2033 of the ontology 203 of box-shaped, the holding tank 2033 is from the lateral opening of ontology 203, and the groove 2031 is from originally
The upper surface of body 203 or lower surface opening.Fuselage is arranged to square, is convenient for carrying, it is especially convenient and mobile terminal 10
Cooperation.When Power Component 201 and paddle arm are shunk in the ontology 203 in the box-shaped, which is used as mobile terminal 10
Cover.
In a preferred embodiment, which further includes the charger baby that can be stored electric energy and discharge electric energy, specifically,
The charger baby is arranged on ontology 203 and positioned at the lower section of groove 2031 and the top of holding tank 2033, such setting is conveniently
Charger baby provides electric energy to flight instruments 20 and/or mobile terminal 10.In addition, the charger baby is arranged on ontology 203 and is located at
The lower section of holding tank 2033, i.e. holding tank 2033 are located at the lower section of charger baby and groove 2031, and such setting is conducive to charger baby
And the heat dissipation of mobile terminal.The charger baby can be that Power Component 201 provides electric energy, in other variant embodiments, the charger baby
Can be not only that Power Component 201 provides electric energy, moreover it is possible to be 10 electric energy supplement of mobile terminal.In other another variant embodiments
In, which can be that mobile terminal 10 provides electric energy, then provide electricity to Power Component 201 by the battery of mobile terminal 10
Energy.Certainly in unmanned flight's system flight flight course, the battery of mobile terminal 10 may be charger baby electric energy supplement.
In a preferred embodiment, flight instruments 20 share the battery of mobile terminal 10, because of the electricity needed for flight instruments 20
Pressure is different from the voltage needed for mobile terminal 10, is additionally provided with power conversion device on fuselage at this time, the battery passes through the work(
Rate conversion equipment is powered for the flight instruments 20.Such shared design greatly reduces the cost of flight instruments 20, subtracts
The light weight of unmanned flight's system 100, improves the added value of mobile terminal 10, makes universal become of flight instruments 20 can
Energy.
In a particular embodiment, the Power Component 201 of flight instruments 20 has flight control journey with burning in mobile terminal 10
The CPU101 of sequence may be used near-field communication modes and communicate, i.e. the Power Component 201 of flight instruments 20 and mobile terminal 10
Middle burning has the non-contact connections of CPU101 of flight control program.Power Component 201 has a R-T unit at this time, mobile simultaneously
Terminal 10 also has a R-T unit (communication device).Using contactless connection mode, flight instruments 20 and movement can be made
Being completely independent physically of terminal 10 reduces the use operation of user.
In a preferred embodiment, the Power Component 201 of flight instruments 20 has flight control journey with burning in mobile terminal 10
The CPU101 of sequence is additionally provided with the first connectivity port 202 with second with the mobile terminal 10 using connecting on fuselage
The communication of the mobile terminal 10 and the Power Component 201 is realized by cable or connection-peg connection in connectivity port 108.Using
The mode of contact connection can avoid signal interference to a certain extent, prevent maloperation to a certain extent.
In a preferred embodiment, in order to accurately identifying environment to realize barrier avoiding function, the ontology 203 of flight instruments 20
On can also removably plug-in binocular camera, to acquire with the distance of the substance in environment to realize the purpose of avoidance.
In above-mentioned unmanned flight's system 100, fly control program be burning in the CPU101 of mobile terminal 10, such as Fig. 3
It is shown, fly control program in unmanned flight's system 200 in the fourth embodiment and can not be burning in mobile terminal 30
In CPU301, it can be at 40 end of flight instruments to fly control program, i.e., flight instruments 40, which include burning, the winged control core for flying control program
Piece 403, at this time mobile terminal 30 compared with the prior art in mobile terminal need not make the opposite so big change of previous embodiment,
Without changing, realization is easier even mobile terminal 30.
The concrete structure of the flight instruments 40 included by unmanned flight's system 200 in fourth embodiment of the invention such as
Five embodiments, in the 5th embodiment, which includes fuselage (not shown) and is arranged on dynamic on the fuselage
The winged control chip 403 of power component 401, the control Power Component 401, the fuselage further includes has accelerometer for installing
302nd, gyroscope 303, GPS305, magnetometer 304 and battery and the installation of mobile terminal 30 to communicate with the winged control chip 403
Structure.
In a preferred embodiment, the flight instruments 40 in above-described embodiment further include the loudspeaker being arranged on fuselage, use
In the voice signal amplification for receiving mobile terminal 30, make voice signal covering wider.
Wherein, mounting structure can realize any structure for being stably connected with mobile terminal 30 in the prior art,
Is not limited in the present invention.
In order to reduce the vibrations that flight instruments 40 are transmitted to mobile terminal 30, which includes fixed described mobile whole
The damper shaken between the fastener components at end 30 and the absorption fuselage and the mobile terminal 30.Wherein, the mounting structure
It is cradle head structure or the damper is the damper element (silica gel ring for such as wrapping up the periphery of mobile terminal 30 or more region
Deng absorbing the vibrations of flight instruments 40 by damper element to reduce the vibrations being transmitted on mobile terminal 30).
When damper included by the mounting structure is holder, the rotation of mobile terminal 30 can also be realized so that the movement
Terminal 30 can shoot the picture or video of different angle, which can be the axis holder with pitching movement,
For the two axis holders with pitching movement and yawing rotation or can be the two axis holders with pitching movement and roll motion,
Can also be the three axis holders with pitching movement, yawing rotation and roll motion.Certainly, in order to shoot the picture of different angle
Or video, it can also realize the figure that the mobile terminal 30 is allow to shoot different angle by adjusting the posture of flight instruments 40
The purpose of piece or video.
Power Component 401 includes mechanical, electrical tune of blade, electricity etc., identical with the Power Component of the prior art, in the present invention not
It limits.In a preferred embodiment, wherein a Power Component 401 further includes the altimeter being arranged on during electricity is adjusted, accurately to measure
The height of flight instruments 40 also has the ability for obtaining height in certain GPS305, if precision enough can not also be wherein
Altimeter is set in one Power Component 401, there is altimeter for another example, then also without a power wherein in fruit mobile terminal 30
Altimeter is set in component 401.Certain altimeter, which can also be integrated in, to fly on control chip 403.
In a preferred embodiment, the Power Component 401 in above-described embodiment further includes instruction unmanned flight's system mode
Indicator light.
Mobile terminal 30 is installed on flight instruments 40, it should which to ensure the filming apparatus 107 of mobile terminal 30 can shoot
To picture or video, i.e., if camera pair of the mobile terminal 30 on the top of fuselage, fuselage with filming apparatus 107
The position answered will open up shooting hole 2032, and in the preferred scheme, the field angle which should comply with camera will
It asks, the aperture in the shooting hole 2032 should gradually increase from top to lower section, if the shooting hole 2032 is truncated cone-shaped hole.Preferred real
Apply in example, the mobile terminal 30 be mounted on fuselage lower section, need not thus open up shooting hole 2032, and Power Component 401 and
Fuselage does not all interfere with the shooting angle of camera.
For the ease of carrying, transporting, the fuselage of flight instruments 40 is foldable in the embodiment of the present invention, as shown in Fig. 2, tool
Body refers to that fuselage includes ontology 203 and the paddle arm that can be folded with respect to the ontology 203, and Power Component 401 is mounted in paddle arm.
When paddle arm is in folded state, the blade in paddle arm is arranged between ontology 203 and paddle arm, and Power Component 401 and paddle
Arm is without departing from the region that the area of ontology 203 is covered;When paddle arm is in unfolded state, being arranged on blade in paddle arm can be with
Above or below paddle arm.
In other embodiments, in order to protect paddle arm and Power Component 401, the ontology 203 of fuselage, which is equipped with, accommodates the paddle
The holding tank 2033 of arm and Power Component 401, paddle arm opposing body 203 are in unfolded state, and Power Component 401 and paddle arm are calm
It receives and stretches out in slot 2033, paddle arm opposing body 203 is in contraction state, and Power Component 401 and paddle arm are retracted into holding tank 2033
In.The holding tank 2033 is opened in the side of ontology 203.
In a particular embodiment, in order to which paddle arm opposing body 203 is made to be unfolded or shrink, can by manually mode,
Can be that automatic mode (i.e. when starting flight instruments 40, from holding tank 2033 stretch out automatically, in flight instruments 40 by paddle arm
In descent, paddle arm is automatically retracted in holding tank 2033).In a preferred embodiment of the invention, flight instruments 40 further include
It is arranged on the ontology 203 of fuselage, the driving mechanism for paddle arm to be driven to be unfolded or shrink.
In a particular embodiment, the present invention is not provided with undercarriage, and in order to protect entire unmanned flight's system, paddle arm is being flown
It is not retracted in holding tank 2033 in 40 descent of device, for increasing the contact area of flight instruments 40 and landing platform,
To reduce impact force when landing, the position that paddle arm is contacted with landing platform at this time sets damper element (such as silica gel strip).At this
In invention preferred embodiment, the undercarriage that can be put down automatically is set in paddle arm, in 40 descent of flight instruments, control should
Gear down to protect entire unmanned flight's system.
In a particular embodiment, the shape of the ontology 203 of the fuselage in any of the above-described embodiment is with groove 2031
Box-shaped, wherein, mounting structure is formed in the groove 2031 of flight instruments 40, and Power Component 401 and paddle arm are collapsible in this
In the holding tank 2033 of the ontology 203 of box-shaped, the holding tank 2033 is from the lateral opening of ontology 203, and the groove 2031 is from originally
The upper surface of body 203 or lower surface opening.Fuselage is arranged to square, is convenient for carrying, it is especially convenient and mobile terminal 30
Cooperation.When Power Component 401 and paddle arm are shunk in the ontology 203 in the box-shaped, which is used as mobile terminal 30
Cover.
In a preferred embodiment, which further includes the charger baby that can be stored electric energy and discharge electric energy, specifically,
The charger baby is arranged on ontology 203 and positioned at the lower section of groove 2031 and the top of holding tank 2033, such setting is conveniently
Charger baby provides electric energy to flight instruments 20 and/or mobile terminal 10.In addition, the charger baby is arranged on ontology 203 and is located at
The lower section of holding tank 2033, i.e. holding tank 2033 are located at the lower section of charger baby and groove 2031, and such setting is conducive to charger baby
And the heat dissipation of mobile terminal.The charger baby can be that Power Component 401 provides electric energy, in other variant embodiments, the charger baby
Can be not only that Power Component 401 provides electric energy, moreover it is possible to be 30 electric energy supplement of mobile terminal.In other another variant embodiments
In, which can be that mobile terminal 30 provides electric energy, then provide electricity to Power Component 401 by the battery of mobile terminal 30
Energy.Certainly in unmanned flight's system flight flight course, the battery of mobile terminal 30 may be charger baby electric energy supplement.
In a preferred embodiment, flight instruments 40 share the battery (not shown) of mobile terminal 30, because of flight dress
The voltage put needed for 40 is different from the voltage needed for mobile terminal 30, is additionally provided with power conversion device, the electricity on fuselage at this time
Pond is powered by the power conversion device for the flight instruments 40.Such shared design greatly reduces flight dress
40 cost is put, improves the added value of mobile terminal 30, makes it possible the universal of flight instruments 40.
In a particular embodiment, the winged control chip 403 of flight instruments 40 may be used near-field communication modes and obtain movement eventually
The winged control chip of the data, i.e. flight instruments 40 of accelerometer 302, gyroscope 303, GPS305 and magnetometer 304 in end 30
403 with 30 non-contact connection of mobile terminal.Flight instruments 40 have a R-T unit at this time, while mobile terminal 30 also has one
R-T unit (such as communication device).Using contactless connection mode, flight instruments 40 can be made with mobile terminal 30 in physics
On be completely independent, reduce user use operation.
In a preferred embodiment, flight instruments 40 are connect with mobile terminal 30 by connecting mode, i.e., on fuselage also
It is connect in fact by cable or connection-peg with the second connection end mouth 308 with the mobile terminal 30 equipped with the first connectivity port 402
The communication of the existing mobile terminal 30 and the Power Component 401.It can be avoided to a certain extent by the way of contact connection
Signal interference prevents maloperation to a certain extent.
In a preferred embodiment, in order to accurately identifying environment to realize barrier avoiding function, the ontology 203 of flight instruments 40
On can also removably plug-in binocular camera, to acquire with the distance of the substance in environment to realize the purpose of avoidance.
The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention
All any modification, equivalent and improvement made within refreshing and principle etc., should all be included in the protection scope of the present invention.
Claims (10)
1. a kind of mobile terminal, which is characterized in that when being mounted on flight instruments for controlling the power of the flight instruments
Component has the flight control CPU of program, accelerometer, gyroscope, GPS, magnetometer and for the mobile terminal including burning
The battery of power supply, the accelerometer, gyroscope, GPS and magnetometer are all connected on the CPU.
2. a kind of flight instruments based on mobile terminal described in claim 1, which is characterized in that including fuselage and be arranged on institute
The Power Component controlled by the CPU on fuselage is stated, the fuselage further includes the installation knot for installing the mobile terminal
Structure.
3. flight instruments as claimed in claim 2, which is characterized in that be additionally provided on the fuselage the first connectivity port with institute
The second connection end mouth for stating mobile terminal realizes the mobile terminal and the Power Component by cable or connection-peg connection
Communication.
4. flight instruments as claimed in claim 2, which is characterized in that power conversion device is additionally provided on the fuselage, it is described
The battery of mobile terminal is powered by the power conversion device for the flight instruments.
5. flight instruments as claimed in claim 2, which is characterized in that the mounting structure includes the fixed mobile terminal
The damper shaken between fastener components and the absorption fuselage and the mobile terminal.
6. flight instruments as claimed in claim 2, which is characterized in that the Power Component includes motor, adjusts the motor
Rotating speed and direction the blade that reconciles on the output shaft of the motor of electricity, the fuselage includes ontology and may be folded on
Paddle arm on the ontology, the motor and electricity, which are adjusted, to be mounted in the paddle arm, and the shape of the ontology is has reeded side
Block shape, the mounting structure are formed in the groove of the ontology.
7. flight instruments as claimed in claim 6, which is characterized in that offered on the ontology accommodate the Power Component and
The holding tank of paddle arm, the relatively described ontology of the paddle arm are in unfolded state, the Power Component and paddle arm from the holding tank
Middle stretching, the relatively described ontology of the paddle arm are in contraction state, and the Power Component and paddle arm are retracted into the holding tank.
8. flight instruments as claimed in claim 7, which is characterized in that the flight instruments, which further include, is arranged on the ontology
Driving mechanism upper, that the paddle arm is driven to be unfolded or shrink.
9. flight instruments as claimed in claim 6, which is characterized in that the flight instruments further include can be to the mobile terminal
And/or the charger baby of the flight instruments power supply, the charger baby setting is on the body.
10. a kind of unmanned flight's system, which is characterized in that including mobile terminal described in claim 1 and claim 2 to
9 any one of them flight instruments, the mobile terminal are mounted on the mounting structure.
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CN201611159192.6A CN108216664A (en) | 2016-12-15 | 2016-12-15 | A kind of unmanned flight's system and its flight instruments, mobile terminal |
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Application publication date: 20180629 |