CN204536910U - Aircraft - Google Patents

Abstract

The utility model discloses a kind of aircraft, comprising: the first wireless communication module, elevation carrection module and control module, described first wireless communication module, elevation carrection module are all electrically connected with described control module; Second wireless communication module wireless connections of the first wireless communication module and mobile terminal, for receiving the telecommand that described mobile terminal is sent by the second wireless communication module, and are sent to control module by telecommand; Elevation carrection module, obtains described aircraft current flight height parameter for measuring; Control module measures according to telecommand and elevation carrection module the duty that the current flight height parameter obtained controls aircraft.The utility model, owing to being provided with elevation carrection module in aircraft, can obtain aircraft current flight height parameter at any time, and it is more accurate to make the working state control of aircraft, greatly improves the remote control degree of accuracy of aircraft.

Description

Aircraft

Technical field

The utility model relates to wireless remote control technology field, particularly relates to a kind of aircraft.

Background technology

Existing standard aircraft does not generally all have rational height measurement mechanism, therefore, when utilizing rocking bar to carry out remotely-piloted vehicle, manually can only be adjusted the state of flight of aircraft with sensation by user, flying height etc. is adjusted as controlled aircraft underriding by rocking bar, not only complicated operation, and be difficult to the remote control precision reaching user accurately, the difficulty of remote control is higher.

Utility model content

Fundamental purpose of the present utility model is to provide a kind of aircraft, is intended to simply, accurately carries out remote control to aircraft.

For achieving the above object, a kind of aircraft that the utility model provides, described aircraft comprises: the first wireless communication module, elevation carrection module and control module, and described first wireless communication module, elevation carrection module are all electrically connected with described control module;

Second wireless communication module wireless connections of described first wireless communication module and mobile terminal, for receiving the telecommand that described mobile terminal is sent by described second wireless communication module, and are sent to described control module by described telecommand;

Described elevation carrection module, obtains described aircraft current flight height parameter for measuring;

Described control module measures according to described telecommand and described elevation carrection module the duty that the described aircraft current flight height parameter obtained controls described aircraft.

Preferably, described elevation carrection module is ultrasonic height measurement mechanism or barometric leveling device.

Preferably, described first wireless communication module, the second wireless communication module are WiFi module, bluetooth module or GPRS module.

Preferably, described aircraft also comprises: be connected with described control module, for detecting the gyroscope of the rotational angular velocity of described aircraft.

Preferably, described aircraft also comprises: be connected with described control module, for controlling the motor module of the flying speed of described aircraft.

Preferably, described aircraft also comprises: the photographing module be connected with described control module, infrared module, locating module.

A kind of aircraft that the utility model proposes, the first wireless communication module of aircraft and mobile terminal is utilized to connect, to receive the telecommand that user inputs at mobile terminal, and by the control module of aircraft, telecommand is resolved, and control according to the duty of current flight height parameter to described aircraft that the elevation carrection module of aircraft obtains, thus realize the remote control to described aircraft.Because user only need input telecommand at mobile terminal, operate very simple, and owing to being provided with elevation carrection module in aircraft, aircraft current flight height parameter can be obtained at any time, make control module more accurate to the control of the duty of described aircraft, greatly improve the remote control degree of accuracy of aircraft.

Accompanying drawing explanation

Fig. 1 is the structured flowchart of the utility model aircraft one embodiment;

Fig. 2 is the structured flowchart of another embodiment of the utility model aircraft.

The realization of the utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Embodiment

Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The utility model provides a kind of aircraft.

With reference to the high-level schematic functional block diagram that Fig. 1, Fig. 1 are the utility model aircraft one embodiment.

In one embodiment, this aircraft comprises: the first wireless communication module 1, elevation carrection module 2 and control module 3, first wireless communication module 1, elevation carrection module 2 are all electrically connected with control module 3;

First wireless communication module 1 and the second wireless communication module 4 wireless connections of mobile terminal, for receiving the telecommand that described mobile terminal is sent by the second wireless communication module 4, and be sent to control module 3 by described telecommand;

Elevation carrection module 2, obtains described aircraft current flight height parameter for measuring;

Control module 3 measures according to described telecommand and elevation carrection module 2 duty that the described aircraft current flight height parameter obtained controls described aircraft.

The first wireless communication module 1 of aircraft is utilized to connect with mobile terminal in the present embodiment, to receive the telecommand that user inputs at mobile terminal, and resolved by control module 3 pairs of telecommands of aircraft, and control according to the duty of current flight height parameter to described aircraft that the elevation carrection module 2 of aircraft obtains, thus realize the remote control to described aircraft.Because user only need input telecommand at mobile terminal, operate very simple, and owing to being provided with elevation carrection module 2 in aircraft, aircraft current flight height parameter can be obtained at any time, make control module 3 more accurate to the control of the duty of described aircraft, greatly improve the remote control degree of accuracy of aircraft.

Further, elevation carrection module 2 is ultrasonic height measurement mechanism or barometric leveling device, certainly, also can be that other can measure the height measuring device of flying height.

Further, the first wireless communication module 1, second wireless communication module 4 can be WiFi module, bluetooth module or GPRS module.In the present embodiment, information interaction is carried out by the first wireless communication module 1 of wireless connections and the second wireless communication module 4 between aircraft and mobile terminal, set up wireless connections by WiFi, bluetooth, GPRS or other wireless connect technologies between first wireless communication module 1, second wireless communication module 4, carry out information interaction based on the wireless connections of setting up.

With reference to the high-level schematic functional block diagram that Fig. 2, Fig. 2 are another embodiment of the utility model aircraft.

In another embodiment, this aircraft also comprises: be connected with control module 3, for detecting the gyroscope 5 of the rotational angular velocity of described aircraft.The rotational angular velocity of gyroscope 5 Real-time Collection aircraft in aircraft flight process, and report to control module 3, control according to the duty of rotational angular velocity to aircraft gathered for control module 3.

Further, described aircraft also comprises: be connected with control module 3, for controlling the motor module 6 of the flying speed of described aircraft.When control module 3 needs to control the acceleration of described aircraft, send assisted instruction to motor module 6, motor module 6 can strengthen horsepower, to promote the speed of described aircraft according to this assisted instruction.

Further, described aircraft also comprises: the photographing module 7 be connected with control module 3, infrared module 8, locating module 9.Photographing module 7 is taken for the shooting instruction sent according to control module 3 in described aircraft flight process; Infrared module 8 launches infrared ray for the infrared emission instruction sent according to control module 3 in described aircraft flight process to direction initialization; Locating module 9 for locating in real time the position of aircraft in described aircraft flight process.

Particularly, the remote control principles of the utility model aircraft is as follows:

First, described aircraft is connected with the second wireless communication module 4 of mobile terminal by the first wireless communication module 1, particularly, wireless connections are set up by WiFi, bluetooth, GPRS or other wireless connect technologies, information interaction can be carried out based on the wireless connections of setting up between described aircraft and mobile terminal, comprise the mutual of instruction, data, aerocraft flying parameter etc.

User can input corresponding telecommand on the mobile terminal, as arranged flying height, take off, land or the telecommand such as acceleration, the telecommand that user inputs is sent to the first wireless communication module 1 of described aircraft by described mobile terminal by described second wireless communication module 4, described telecommand is sent to control module 3 by the first wireless communication module 1 of described aircraft again.

After control module 3 receives the telecommand of user, measured by the elevation carrection module 2 of described aircraft and obtain described aircraft current flight height parameter, and obtain flying height set by user according to the described telecommand of parsing, control described aircraft based on the difference between flying height set by current flight height and user and reach flying height set by user, to realize user by the remote control of mobile terminal to described aircraft.

Further, the described aircraft current flight height parameter that the rotational angular velocity of the described aircraft that described gyroscope 5 is detected by the first wireless communication module 1 by described aircraft and the elevation carrection module 2 of described aircraft measure acquisition is sent to the second wireless communication module 4 of described mobile terminal, inputs corresponding telecommand for user according to the rotational angular velocity of the described aircraft of described acquisition for mobile terminal and current flight height parameter.

In the present embodiment, described aircraft detects its rotational angular velocity by built-in gyroscope 5, the rotational angular velocity of the described aircraft detected and current flight height parameter are fed back to described mobile terminal, user can know the flight condition that described aircraft is current on the interface of described mobile terminal, and the flight condition current according to described aircraft sends corresponding telecommand to described aircraft, to control its duty.

In addition, described aircraft also can comprise the motor module 6 be connected with control module 3; After target flight height, speed or rotational angular velocity that control module 3 is resolved set by described telecommand acquisition user, control module 3 controls the horsepower that motor module 6 regulates described aircraft, and with reference to current flight rotational angular velocity, the flying height of gyroscope 5, elevation carrection module 2 Real-time Collection in adjustment process, until the current flight rotational angular velocity of described aircraft, flying height reach the target flight height in described telecommand set by user, to realize user accurately by the remote control of mobile terminal to described aircraft.

Further, when described aircraft and other battle aircraft carry out battle shooting game, first the first wireless communication module 1 of described aircraft receives the battle instruction that described mobile terminal is sent by the second wireless communication module 4; The control module 3 of described aircraft obtains the described aircraft current location information of locating module 9 collection according to described battle instruction, and current location information is fed back to described mobile terminal; First wireless communication module 1 of described aircraft receives the flight path for searching battle aircraft that described mobile terminal obtains according to described current location information; Described control module 3 controls described aircraft flight to described battle aircraft according to described flight path, and controls taking module 7 and take described battle aircraft, and photographing information is sent to described mobile terminal in real time by the first wireless communication module 1; First wireless communication module 1 of described aircraft receives the firing order that described mobile terminal feeds back according to described photographing information; Described control module 3 controls infrared module 8 to described battle vehicle launch infrared ray or the infrared ray generation infrared information detecting described battle vehicle launch according to described firing order, and described infrared information is sent to mobile terminal, for described mobile terminal, described infrared information is uploaded onto the server, and to be added up according to described infrared information by server and obtain battle result, thus realize user and carry out battle shooting game by the multiple aircraft of mobile terminal remote control.

These are only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model instructions and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (6)

1. an aircraft, is characterized in that, described aircraft comprises: the first wireless communication module, elevation carrection module and control module, and described first wireless communication module, elevation carrection module are all electrically connected with described control module;

Second wireless communication module wireless connections of described first wireless communication module and mobile terminal, for receiving the telecommand that described mobile terminal is sent by described second wireless communication module, and are sent to described control module by described telecommand;

Described elevation carrection module, obtains described aircraft current flight height parameter for measuring;

Described control module measures according to described telecommand and described elevation carrection module the duty that the described aircraft current flight height parameter obtained controls described aircraft.

2. aircraft as claimed in claim 1, it is characterized in that, described elevation carrection module is ultrasonic height measurement mechanism or barometric leveling device.

3. aircraft as claimed in claim 1 or 2, it is characterized in that, described first wireless communication module, the second wireless communication module are WiFi module, bluetooth module or GPRS module.

4. aircraft as claimed in claim 3, is characterized in that, also comprise: be connected with described control module, for detecting the gyroscope of the rotational angular velocity of described aircraft.

5. aircraft as claimed in claim 3, is characterized in that, also comprise: be connected with described control module, for controlling the motor module of the flying speed of described aircraft.

6. aircraft as claimed in claim 3, is characterized in that, also comprise: the photographing module be connected with described control module, infrared module, locating module.