KR20180015985A - Device for switching flight control for fall protection for drone - Google Patents

Abstract

The present invention relates to a device for switching a flight control for protecting fall of a drone. More specifically, the present invention relates to a device for switching a flight control for protecting fall of a drone which detects fall of a drone and recovers a normal flight posture before the drone falls, so that the drone can safely return. The device for switching a flight control for protecting fall of a drone comprises: a main receiving device module; a main flight control device module; a drone flight power device module; a wireless communication module; an auxiliary receiving device module; an auxiliary flight control device module; a fall detecting sensor and determining module; and an electronic switch device module.

Description

TECHNICAL FIELD [0001] The present invention relates to a flight control switching device for preventing fall of a drone,

[0001] The present invention relates to a flight control switching apparatus for preventing falling of a dron, and more particularly, to a flying control switching apparatus for preventing a dron from crashing by restoring a normal flying posture before a drop of a dron is detected, Control switching device.

Generally, a drones is a radio-controlled flight device, which is also called a multi-copter. Since the drones were developed for military use in the early 20th century, powerful nations such as the United States have been developing it competitively and have been used in actual combat so far.

Recently, the popularity of drones has been rapidly increasing with the increasing interest in drones, and the use of public drones such as toy drones, racing drones, shooting drones as well as commercial drones and police drones including agricultural drones has increased rapidly, It is expected to increase further in the future. However, there is a growing concern about safety due to the fall of the drones due to erroneous operation and failure in proportion to the spread of these drones. Drones weighing hundreds of grams to several kilograms are flying around people's lives, and drones, which are used for public purposes in the future, will also be used in people's lives. If such a dron crashes among people, it can lead to a serious injury and also when the expensive public dron falls, the economic loss also becomes large.

A variety of techniques to prepare for the fall of the drone have been applied to the drone. For example, there are techniques to reduce the fall speed and damage by using a parachute when the drone is crashed, The technology to reduce the damage of the drone, the technology to make a sound warning when the dron crashes, and the technology to survive by switching to quad-copter when the motor breaks down in case of a hexacopter, And a technique of gradually falling down while rotating is applied. However, most of the techniques applied to the drones are limited to the methods of preventing the drones from crashing and reducing the damage of the drones during the fall, and the damages caused by the drones can not be prevented. In addition, there is a problem in that the method of maintaining the flight attitude by switching the hexacopter to the quad-copter can not prevent the fall if the flight control device controlling the flight attitude fails. Korean Patent Registration No. 10-1609103 and Registration No. 10-1496892 disclose drones to which a parachute technique is applied in the prior art.

The present invention has been proposed in order to solve the above-mentioned problems of the previously proposed methods. The present invention implements a flight controller for flight control of a drone in a redundant manner, and a fall detection sensor And the decision module to control the dragon flight power unit module with the auxiliary flight controller through electronic switching of the electronic switch device module in the event of the falling flight state of the drone, And to provide a flight control switching device for preventing fall of drones which can reduce human and material damage through the prevention of fall of the drones.

In addition, the present invention can improve the dron operating environment, which is expected to increase in the future, by reducing the number of the drones falling due to the switching of the duplicated flight controller, and the versatility is increased through the general application to the existing dron, It is another object of the present invention to provide a flight control switching device for preventing drones from crashing so that the safety of the drones can be further improved by the convergence of functions against the existing drones.

According to an aspect of the present invention, there is provided a flight control switching apparatus for preventing falling of drones,

As a flight control switching device for preventing drone fall,

A main receiving device module for receiving a control signal for a drone flight operated by a ground user through a drone control terminal;

A main flight control module for receiving a steering signal outputted from the main receiving device module, calculating a target position and a bearing of the drones corresponding to the steering signal, and generating and outputting a control command corresponding thereto;

A plurality of motors and propellers, a drones flywheel module for receiving a control command from the main flight control module to allow the drone to fly, and driving the motor to rotate the propeller;

A wireless communication module having a camera and photographing the front of the drones and wirelessly transmitting the photographed images to the user's drones control terminal;

A sub-receiver module for receiving a control signal for a drone flight operated by a user on the ground via a drone pilot terminal;

An auxiliary flight control device module for receiving a steering signal outputted from the auxiliary receiving device module, calculating a target position and a direction of a dron corresponding to the steering signal, and generating and outputting a corresponding control command;

A fall detection sensor and a judgment module for detecting an abnormal flight of the drones and determining the fall of the drones; And

Wherein the control unit controls the drones so that one of the main flight control device module or the auxiliary flight control device module controls the drona flight power unit module based on the droning fall determination information output from the fall detection sensor and the determination module. And an electronic switch module for switching the electronic switch module.

Preferably, the fall detection sensor and the determination module include:

A gyro sensor for detecting the horizontal inclination of the dron according to the flight of the dron, and an acceleration sensor for detecting the vertical descent speed of the dron.

More preferably, the fall detection sensor and the determination module include:

If the horizontal slope of the dron detected by the gyro sensor is 45 degrees or more, or if the vertical drop rate of the dron detected by the acceleration sensor is higher than 9.8 m per second, the flying dron is judged as falling, A fall detection signal may be transmitted to the electronic switch device module.

Preferably, the electronic switch device module includes:

And a multi-channel control signal switching electronic switch electrically connected to the main flight control device module, the drone flight power device module, the wireless communication module, the auxiliary flight control device module, and the fall detection sensor and the determination module. have.

More preferably, the electronic switch device module includes:

When a drones fall detection signal is input from the fall detection sensor and the determination module in a state where the main flight control device module and the drones fly power device module are connected and the normal flight of the drones is controlled, The dragon flight power module can be switched and connected and controlled for flight through electronic switching.

Still more preferably, the flight control switching device comprises:

After the drones are switched to the auxiliary flight control device module, the drones can be returned to the main flight control device module only through the manual reset, without switching to the main flight control module even if the dron is in the normal flight posture .

According to the flight control switching apparatus for preventing falling of the drones proposed in the present invention, a flight controller for flight control of a dron is implemented in a redundant manner, and a fall detection sensor and a judgment module The drones can be controlled to be controlled by the auxiliary flight controller through electronic switching of the electronic switch device module when the drones are in a falling flight state, The damage caused by the drones can be reduced.

In addition, according to the present invention, it is possible to minimize the drop accident of the dron by the switching of the dual flight controller, thereby improving the dron operation environment expected to increase in the future and increasing the versatility through application of general drones , It is possible to improve the safety of the drone by fusion of the functions against the existing drone crash.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a dron system to which a flight control switching device for preventing fall of drones according to an embodiment of the present invention is applied; FIG.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a flight control switching device for preventing falling of a drones according to an embodiment of the present invention.
BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a flight control switching device for preventing a fall of a drones,
4 is a view illustrating a configuration of a fall detection sensor and a determination module applied to a flight control switching device for preventing fall of drones according to an embodiment of the present invention.
5 is a view illustrating a condition for determining a dron crash using a gyro sensor and an acceleration sensor in a flight control switching device for preventing falling of a drones according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In the drawings, like reference numerals are used throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to "include" an element means that it may include other elements, rather than excluding other elements, unless specifically stated otherwise.

FIG. 1 is a view showing a schematic configuration of a dron system to which a flight control switching device for preventing falling of a drones according to an embodiment of the present invention is applied. FIG. 3 is a diagram illustrating a configuration of a drones flight power unit applied to a flight control switching device for preventing falling of drones according to an embodiment of the present invention, and FIG. FIG. 4 is a diagram illustrating a configuration of a fall detection sensor and a determination module applied to a flight control switching device for preventing a fall of a drones according to an embodiment of the present invention. FIG. FIG. 2 is a view showing a condition for determining a drones fall using a gyro sensor and an acceleration sensor in a flight control switching device for preventing a drones. 1 to 5, a flight control switching device 100 for preventing falling of drones according to an embodiment of the present invention includes a main receiving device module 110, a main flight control device module 120, A drones flight power unit module 130, a wireless communication module 140, a secondary receiving device module 150, an auxiliary flight control device module 160, a fall detection sensor and a determination module 170, 180).

The main receiving device module 110 receives a control signal for a drone flight operated by a user on the ground through the drones control terminal 20. [ The main receiving device module 110 is used as a receiver in the normal flying state of the drone 10 together with the main flight control device module 120 to be described later. Here, the main receiving device module 110 may be connected to the drones control terminal 20 operated by a user on the ground with wireless such as Wi-Fi, Bluetooth, and WiBro.

The main flight control device module 120 receives the steering signal output from the main receiving device module 110 and calculates the target position and orientation of the drones 10 corresponding to the steering signal and generates a corresponding control command And outputting the resultant signal. The main flight control device module 120 may be used as a flight controller in a normal flying state of the drones 10 in conjunction with the main receiving device module 110. In addition, the main flight control device module 120 calculates the target position and orientation of the dron according to an external control signal or according to an internal predetermined operation, generates a control command, and controls the drone flight power device module 130, Lt; / RTI >

The drone flight power unit module 130 includes a plurality of motors 131 and a propeller 132 and receives control commands from the main flight control module 120 so that the drone 10 can fly, ) To rotate the propeller 132. [0064] As shown in Fig. The drone flight powering device module 130 corresponds to a conventional structure of the drone 10 having a plurality of motors 131 and a propeller 132, and thus description of unnecessary components will be omitted.

The wireless communication module 140 has a camera 141 and is a configuration of a communication module that photographs the front of the drones 10 and radiates them to the drones pilot terminal 20 of the user. The wireless communication module 140 may be configured as a telemetry module for notifying a ground user of a failure of the drones 10.

The auxiliary receiving device module 150 receives the control signal for the drone flight operated by the user on the ground through the drones control terminal 20. [ The auxiliary receiving device module 150 is used as a receiver in the abnormal flying state of the drones 10, that is, the falling flight state of the drones 10 together with the auxiliary flight control device module 160 to be described later. Here, the auxiliary receiving device module 150 wirelessly communicates with the drones control terminal 20 operated by the ground user, operates in the same manner as the main receiving device module 110 even in the normal flying state of the drones 10, Is normally received. The auxiliary receiving device module 150 may be connected to the drones control terminal 20 wirelessly such as Wi-Fi, Bluetooth, WiBro or the like as the main receiving device module 110.

The auxiliary flight control device module 160 receives the steering signal output from the auxiliary receiving device module 150 and calculates the target position and orientation of the drones 10 corresponding to the steering signal and generates a corresponding control command And outputs the resultant signal. The auxiliary flight control device module 160 is configured to be duplexed with the main flight control device module 120. The auxiliary flight control device module 160 is interlocked with the auxiliary receiving device module 150 in a falling flight state of the drones 10, And can be used as an auxiliary flight controller to make the attitude. In addition, the auxiliary flight control device module 160 can control the drones 10 in a falling state to be in a normal flying state according to a steering signal from a drones pilot terminal 20 by a ground user.

The fall detection sensor and determination module 170 are configured to detect an abnormal flight of the drones 10 and determine the fall of the drones 10 accordingly. 4, the fall detection sensor and determination module 170 includes a gyro sensor 171 for detecting the horizontal inclination of the dron 10 according to the flight of the dron 10, And an acceleration sensor 172 for detecting the descent speed. Here, the fall detection sensor and determination module 170 determine whether the horizontal slope of the dron 10 detected by the gyro sensor 171 is 45 degrees or more, or the vertical drop rate of the dron 10 detected by the acceleration sensor 172 It is determined that the drones 10 in flight are falling, and the corresponding dron fall detection signals may be transmitted to the electronic switch device module 180 to be described later. 5 shows the condition of the fall or normal flight of the drones 10 according to the horizontal inclination angles and vertical descent velocities of the gyro sensor 171 and the acceleration sensor 172 provided in the fall detection sensor and the determination module 170, Respectively.

In the present invention, most of the drones are inclined toward the traveling direction of the dron during flight, and the angle of inclination at this time is 30 degrees or less, and the descent of the dron The vertical drop rate at landing also indicates the condition considering the flight characteristics of the dron with a speed much lower than the free fall rate. That is, the fall detection sensor and the determination module 170 are independent sensors. The horizontal posture of the dragon 10 is detected by the gyro sensor 171, the vertical drop speed is detected by the acceleration sensor 172, It is possible to determine the fall of the drones 10 through the pre-programmed logic circuit.

The electronic switch device module 180 determines whether one of the main flight control device module 120 or the auxiliary flight control device module 160 is on the basis of the droning fall determination information output from the fall detection sensor and the determination module 170 And to switch the flight control through electronic switching to control the drone flight power unit module 130. [ The electronic switch device module 180 includes a main flight control device module 120, a drone flight power device module 130, a wireless communication module 140, an auxiliary flight control device module 160, And a multi-channel control signal switching electronic switch electrically connected to the determination module 170. [ The electronic switch module 180 is connected to the main flight control module 120 and the drone flight power module 130 so that the normal flight of the drone 10 is controlled, 170, the auxiliary flight control device module 160 and the drones flight power module 130 are switched to be connected to each other and to be controlled to fly by electronic switching.

After the flight control of the dron 10 is switched to the auxiliary flight control device module 160, the flight control switching device 100 according to the present invention can be switched to the main flight control device module 120, and can be returned to the main flight control device module 120 only through manual reset. That is, the flight control switching device 100 is provided with a duplicated flight controller. In the normal flying state of the drones, the main receiving device module 110 and the main flight control device module 120 are connected to the drones The auxiliary receiving device module 150 and the auxiliary flight control device module 160, which are switched through the channel switching of the electronic switch device module 180 in the abnormal flying state of the drone 10, Thereby controlling the drone flight power unit module 130.

As described above, according to an embodiment of the present invention, the flight control switching device for preventing the fall of the drones can be realized by redundantly implementing a flight controller for flight control of the drones, The fall detection sensor and the decision module can control the dragon flight power unit module with the auxiliary flight controller through electronic switching of the electronic switch device module when the dron is in fall flight state, In addition, it is possible to minimize the damage caused by the fall of the dron due to the switching of the dual flight controller. In addition, Improving the environment, increasing the versatility through universal application to existing drones, Fusion of ruthless function it is possible to ensure the safety of the drones can be further enhanced.

The present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics and scope of the invention.

10: Drone 20: Drone pilot terminal
100: A flight control switching device according to an embodiment of the present invention
110: main receiving device module 120: main flight control device module
130: Drone flight power unit module 131: Motor
132: Propeller 140: Wireless communication module
141: camera 150: auxiliary receiver module
160: auxiliary flight control device module 170: fall detection sensor and judgment module
171: Gyro sensor 172: Acceleration sensor
180: Electronic switch device module

Claims (6)

A flight control switching device (100) for preventing drones from falling, comprising:
A main receiving device module 110 receiving a control signal for a drone flight operated by a user on the ground via the drones pilot terminal 20;
A main flight control device module 110 for receiving a steering signal outputted from the main receiving device module 110, calculating a target position and a bearing of the drones 10 corresponding to the steering signal, generating a control command corresponding thereto, (120);
A plurality of motors 131 and a propeller 132 and receives a control command from the main flight control device module 120 so that the drone 10 can fly and drives the motor 131 to rotate the propeller 132 A rotating drone flight power unit module 130;
A wireless communication module 140 having a camera 141 and photographing the front of the dron 10 and transmitting it to the user's drones control terminal 20 by radio;
A sub-receiver module 150 for receiving a control signal for a drone flight operated by a user on the ground via the drones pilot terminal 20;
An auxiliary flight control device module 150 for receiving the control signal outputted from the auxiliary receiving device module 150, calculating a target position and direction of the drones 10 corresponding to the control signal, and generating and outputting a control command corresponding thereto, (160);
A fall detection sensor and a determination module 170 for detecting an abnormal flight of the drones 10 and determining a fall of the drone 10; And
One of the main flight control device module 120 or the auxiliary flight control device module 160 is connected to the drona flight power unit module 160 based on the droning fall determination information output from the fall detection sensor and the determination module 170. [ 130) for switching the flight control through electronic switching so as to control the flying control unit (180).
The apparatus of claim 1, wherein the fall detection sensor and determination module (170)
A gyro sensor 171 for detecting the horizontal inclination of the drone 10 according to the flight of the drone 10 and an acceleration sensor 172 for detecting the vertical descending speed of the drone 10 A flight control switching device to prevent drones from crashing.
The apparatus of claim 2, wherein the fall detection sensor and determination module (170)
If the horizontal inclination of the drones 10 detected by the gyro sensor 171 is 45 degrees or more and the vertical drop rate of the drones 10 detected by the acceleration sensor 172 is 9.8 m or more per second, Wherein the control unit determines that the flying dragon is falling and transmits a dragon fall detection signal corresponding to the dragon fall detection signal to the electronic switch device module.
4. The electronic device according to any one of claims 1 to 3, wherein the electronic switch device module (180)
The main flight control device module 120, the drone flight power device module 130, the wireless communication module 140, the auxiliary flight control device module 160, and the fall detection sensor and determination module 170 are electrically And a multichannel control signal switching electronic switch connected and connected to the drones.
5. The electronic device according to claim 4, wherein the electronic switch device module (180)
The main flight control device module 120 and the drona flight power module 130 are connected to control the normal flight of the drones 10, The auxiliary flight control device module 160 and the drone flight power device module 130 are switched and connected to each other through electronic switching so that the flight control is performed. Device.
6. The system according to claim 5, wherein the flight control switching device (100)
After the flight control of the drones 10 is switched to the auxiliary flight control device module 160, the drones 10 are not switched to the main flight control device module 120 even if the drones 10 become normal flying postures, To return to the main flight control device module (120).

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