CN105912027A - Obstacle avoiding device and obstacle avoiding method of unmanned aerial vehicle - Google Patents

Abstract

The invention discloses an obstacle avoiding device and an obstacle avoiding method of an unmanned aerial vehicle. The device comprises a laser drive circuit, a laser unit connected with the laser drive circuit, a first reflecting device fixedly arranged at the emitting end of the laser unit, and further comprises a second reflecting device which is fixedly arranged on a direct light path of the through hole and is fixedly connected with the bottom end of a rotary shaft of a motor of the unmanned aerial vehicle, a converge lens fixedly arranged on a reflecting light path of the first reflecting device, a laser detector fixed to a light converging path of the converge lens, a laser distance-measuring device connected with the laser detector, a hall sensor in the motor of the unmanned aerial vehicle, a laser drive circuit and a system processer unit connected with the laser distance-measuring device, wherein a laser beam emitted by the laser unit just passes through a through hole on the center of the first reflecting device; the first reflecting device is used for simultaneously reflecting laser reflected back by the second reflecting device. The invention further discloses an obstacle avoiding method of the device. According to the obstacle avoiding device and the obstacle avoiding method, 360-degree detection is realized, and high-precision independent obstacle avoiding of the unmanned aerial vehicle can be met.

Description

A kind of unmanned plane fault avoidnig device and barrier-avoiding method

Technical field

The present invention relates to unmanned plane avoidance field, be specifically related to a kind of unmanned plane fault avoidnig device and keep away Barrier method, this apparatus structure is reasonable, it is achieved 360 ° of detections.

Background technology

Unmanned plane avoidance ability is to determine that can unmanned plane share spatial domain with other aircraft, simultaneously The key factor of unmanned plane successful execution task under strange and uncertain environment.Existing nothing Man-machine avoidance many employings ultrasound wave and TOF (flying time technology) technology, avoiding obstacles by supersonic wave depends on Rely the emissivities in body surface, when meeting with the object of reflectance deficiency, obstacle avoidance system Safety will greatly reduce；Sound wave is vulnerable to impact simultaneously.TOF (flying time technology) The glass light EVAC being vulnerable between high building, it is simply that meet with the main energetic ripple of sunlight Section, makes TOF cruelly leak deficiency, hence it is evident that shortcoming is measured distance exactly and shortened.

It is to increase complexity on unmanned plane that existing unmanned plane realizes the traditional scheme of 360 ° of detections Motor device, although so achieving 360 ° of detections but owing to load becomes big thus serious Affect the abilities such as unmanned plane combination property and continuation of the journey, and obstacle avoidance system cannot realize high-precision from Main avoidance.

Summary of the invention

In order to solve the problems referred to above, it is an object of the invention to provide a kind of rational in infrastructure, application In unmanned plane fault avoidnig device and the barrier-avoiding method of unmanned plane, present invention achieves 360 ° of detections, Disclosure satisfy that the high-precision automatic obstacle avoiding of unmanned plane.

In order to reach object above, the present invention adopts the following technical scheme that

A kind of unmanned plane fault avoidnig device based on laser radar, including laser drive circuit 7, with The laser instrument 8 that laser drive circuit 7 connects, is fixed on the first reflection of laser instrument 8 transmitting terminal Device 12, the laser beam that laser instrument 8 sends is just passed through the first reflection unit 12 central spot Through hole 9；Also include being fixed in through hole 9 direct projection light path and with the turning of unmanned plane motor 1 The second reflection unit 10 that axle 5 bottom is connected, it is anti-that the first reflection unit 12 reflects second simultaneously The laser that injection device 10 reflects；Also include being fixed on the first reflection unit 12 reflected light path On convergence camera lens 13, be fixed on and converge camera lens 13 laser detector 14 that converges in light path, The laser ranging system 15 being connected with laser detector 14；Also include and described unmanned plane motor The system that Hall element, laser drive circuit 7 and laser ranging system 15 in 1 connects Processor unit 16.

Described second reflection unit 10, is fixed on rotating shaft 5 bottom and the nothing of unmanned plane motor 1 Man-machine motor rotates simultaneously, and the second described reflection unit 10 is from the horizontal by 45 degree of angles.

Described first reflection unit 12 is from the horizontal by 45 degree of angles.

Described laser detector 14 receives and converges the laser that camera lens 13 converges, in order to laser ranging Device 15 subsequent treatment.

Described laser drive circuit 7, laser instrument the 8, second reflection unit 10, first reflect dress Put 12, convergence camera lens 13, laser detector 14 and laser ranging system 15 etc. and be packaged in sharp Optical radar shell 17 is internal.

The barrier-avoiding method of unmanned plane obstacle avoidance system based on laser radar described above includes as follows Step:

Step one, drives the second reflection dress being fixed on its rotating shaft 5 bottom when motor 1 rotates Put 10 not stop to rotate；

Step 2, it is anti-through first that laser drive circuit 7 drives laser instrument 8 to launch laser vertical The through hole 9 of injection device 12 central spot is mapped to the second reflection unit 10, at the second reflection unit The laser of horizontal direction it is reflected at 10；When motor 1 rotates, the second reflection unit 10 also rotates, Produce the laser beam of 360 °, this horizontal plane is carried out detection scanning；

Step 3, when barrier 11 is positioned at the reflected light path of the second reflection unit 10, can reflect Laser, laser-bounce is returned through the second reflection unit 10 and reflection of the first reflection unit 12, After converging camera lens 13 convergence effect, laser detector 14 receives the laser after converging, in order to Laser ranging system 15 carries out subsequent treatment；

Step 4, after laser detector 14 receives and returns the laser come, laser ranging fills Put 15 by measuring transmitting Laser pulse time t₁With reception Laser pulse time t₂Between time Difference (or the time difference between Laser Measurement device driving pulse and reception laser pulse) calculates obstacle Thing distance unmanned plane distance s；System processor unit 16 passes through unmanned plane motor 1 with suddenly Clock pulses f of the pulse m coupled system processor unit 16 of your sensor output calculates The rotational angle theta of unmanned plane motor 1 any time, reads laser ranging system 15 more simultaneously and calculates Barrier and unmanned plane between distance s, it is achieved to around unmanned plane 360 ° of barriers Scanning probe, carries out avoidance process.

Compared with prior art, present invention have the advantage that

First, this invention simplifies obstacle avoidance system structure, the reflection unit in obstacle avoidance system is solid It is connected on machine shaft, drives reflection unit to rotate during electric machine rotation, be increased without unnecessary electricity Machine equipment can realize 360 ° of scanning probes.

Second, the present invention utilizes the feature that laser resolution is high, capacity of resisting disturbance is strong, and motor revolves Drive the reflection unit not stall in obstacle avoidance system dynamic when turning rather than radar self 360 ° spy Survey scanning；Measure motor corner method on the present invention utilize motor with Hall element The pulse coupled system clock pulses of output calculates motor corner.

3rd, simplify obstacle avoidance system structure, the installation site of this device is according to the position of propeller Put and can select different mounting means, meet the demand of different types of unmanned plane；At multiaxis Apparatus of the present invention all can be installed, it is possible to take the circumstances into consideration to consider according to practical situation on each axle of unmanned plane Number is installed, and the setting height(from bottom) of each reflection unit being connected from machine shaft is different, then The detection to multiple planes can be realized, it is thus achieved that stereo scene information.

Accompanying drawing explanation

Fig. 1 is present invention unmanned plane based on laser radar fault avoidnig device structure chart.

Fig. 2 is the schematic diagram that apparatus of the present invention are arranged on unmanned plane.

Fig. 3 is pulse and the clock pulses cooperation survey of Hall element output in apparatus of the present invention Amount motor corner schematic diagram.

Detailed description of the invention

Below in conjunction with drawings and the specific embodiments, the present invention is described in further detail.Ying Li Solve these embodiments be merely to illustrate the present invention rather than limit the scope of the present invention, reading After the present invention, the amendment of the various equivalent form of values of the present invention all falls by those skilled in the art In the application claims limited range.

As it is shown in figure 1, a kind of unmanned plane obstacle avoidance system based on laser radar, drive including laser Galvanic electricity road 7, the laser instrument 8 being connected with laser drive circuit 7, is fixed on laser instrument 8 and launches First reflection unit 12 of end, the laser beam that laser instrument 8 sends is just passed through the first reflection dress Put the through hole 9 of 12 central spot, be fixed in through hole 9 direct projection light path and dynamo-electric with unmanned The second reflection unit 10 that rotating shaft 5 bottom of machine 1 is connected, is positioned at the second reflection unit 10 anti- Penetrating the barrier 11 in light path, the first reflection unit 12 reflects the second reflection unit 10 simultaneously The laser reflected, is fixed on the convergence camera lens 13 on the first reflection unit 12 reflected light path, It is fixed on and converges the laser detector 14 that camera lens 13 converges in light path；With laser detector 14 The laser ranging system 15 being connected；Also include with the Hall element in described device motor 1, The system processor unit 16 that laser drive circuit 7 and laser ranging system 15 connect.

Described second reflection unit 10, is fixed on unmanned plane machine shaft bottom dynamo-electric with unmanned Machine rotates simultaneously, preferably, the second described reflection unit 10 from the horizontal by Optimal reflecting effect can be reached during 45 degree of angles.

Described first reflection unit 12, its central spot is through hole 9, makes laser instrument 8 launch Laser can pass the first reflection unit 12；Reflect the second reflection unit 10 to reflect simultaneously Laser.Preferably, the first described reflection unit 12 is from the horizontal by 45 degree Optimal reflecting effect can be reached during angle.

Preferably, 17 laser drive circuits 7 of lidar housings, laser instrument 8, Second reflection unit 10, the first reflection unit 12, convergence camera lens 13, laser detector 14, Laser ranging system 15 etc. wires up the laser radar apparatus 2 formed as shown in Figure 1, makes This device can be not limited mounting and adjusting position.

As in figure 2 it is shown, apply and the schematic diagram on unmanned plane for apparatus of the present invention, unmanned dynamo-electric Machine 1 drives propeller 4 to rotate and provides flying power, wherein unmanned plane motor 1 into unmanned plane The upper end of rotating shaft 5 is fixedly connected with propeller 4, and its lower end is fixedly connected with the second reflection unit 10, The central spot of the second reflection unit 10 is that a is (as preferably with the angle of rotating shaft 5 centrage Scheme, reaches optimum efficiency when a=45 °), the position of unmanned plane motor 1 and propeller 4 can Can also be arranged on below frame 3 on frame 3, the installation of laser radar apparatus 2 Depending on number also can be by practical situation, utilize multiple laser radar apparatus 2 can realize difference and put down The detection of 360 ° of face.

As it is shown on figure 3, be pulse and the clock pulses cooperation of Hall element output in the present invention Measuring motor corner schematic diagram, unmanned plane motor 1 is internal with y Hall components and parts, unmanned During dynamo-electric machine 1 uniform rotation, every rotational angle β °, Hall element one pulse m of output, I.e. unmanned plane motor 1 rotates one week Hall element y pulse m of output.Assuming that clock frequency For f, when system processor unit 16 detects Hall element output pulse m, start meter Number devices begin counting up Hall element and export till next pulse m (between two pulses Motor 1 rotates β °), read rolling counters forward N in system processor unit 16, calculate The unmanned plane motor 1 rotational angle theta=x* (β °/N) within the x time period.Then counter O reset weight Newly start counting up.

Laser drive circuit 7 of the present invention drives laser instrument 8 to produce a laser pulse.Unmanned plane The second reflection unit 10 being fixed on its rotating shaft 5 bottom is driven to rotate when motor 1 rotates. Laser vertical is through to be vertically mapped to second anti-after the through hole 9 of the first reflection unit 12 central spot Injection device 10, is reflected into horizontal direction laser through the second reflection unit 10.Unmanned plane motor 1 Drive the second reflection unit 10 to rotate during rotation, then can realize around unmanned plane 360 ° Scanning probe.When barrier 11 is positioned at the reflected light path of the second reflection unit 10, laser is reflected Go back, after the reflection of the second reflection unit 10 and the first reflection unit 12, in the first reflection On the reflected light path of device 12, laser is through converging camera lens 13, reaches to converge the effect of laser. Laser detector 14 receives the laser converged, in order to laser ranging system 15 processes.Work as laser Detector 14 receives after returning the laser come, and laser ranging system 15 swashs by measuring to launch Optical pulse time t₁With reception Laser pulse time t₂Between time difference (or Laser Measurement device drives Moving pulse and the time difference received between laser pulse) calculate obstacle distance unmanned plane distance s, Computing formula is as follows: s=(t₂-t₁) * v (v is the speed of laser)；System processor unit 16 By motor 1 with Hall element coordinate clock calculation unmanned plane motor 1 rotational angle theta, obtain Obtain this angle position, read the barrier of laser ranging system 15 calculating again at a distance of unmanned simultaneously Machine distance s, then achieve the scanning probe to around unmanned plane 360 ° of barriers.

Claims (6)

1. a unmanned plane fault avoidnig device, it is characterised in that: include laser drive circuit (7), with laser The laser instrument (8) that drive circuit (7) connects, is fixed on the first reflection unit of laser instrument (8) transmitting terminal (12) laser beam that, laser instrument (8) sends is just passed through the logical of the first reflection unit (12) central spot Hole (9)；Also include being fixed in through hole (9) direct projection light path and with unmanned plane motor (1) rotating shaft (5) The second reflection unit (10) that bottom is connected, the first reflection unit (12) reflects the second reflection unit simultaneously (10) laser reflected；Also include the convergence being fixed on the first reflection unit (12) reflected light path Camera lens (13), is fixed on the laser detector (14) converged in camera lens (13) convergence light path, with laser The laser ranging system (15) that detector (14) is connected；Also include with in described unmanned plane motor (1) The system processor unit that Hall element, laser drive circuit (7) and laser ranging system (15) connect (16)。

A kind of unmanned plane fault avoidnig device the most according to claim 1, it is characterised in that: described second anti- Injection device (10) is fixed on rotating shaft (5) bottom of unmanned plane motor (1) and rotates with motor simultaneously, described The second reflection unit (10) from the horizontal by 45 degree of angles.

A kind of unmanned plane fault avoidnig device based on laser radar the most according to claim 1, its feature exists In: described first reflection unit (12) is from the horizontal by 45 degree of angles.

A kind of unmanned plane fault avoidnig device based on laser radar the most according to claim 1, its feature exists In: described laser detector (14) receives and converges the laser that camera lens (13) converges, in order to laser ranging fills Put (15) subsequent treatment.

A kind of unmanned plane fault avoidnig device based on laser radar the most according to claim 1, its feature exists In: described laser drive circuit (7), laser instrument (8), the second reflection unit (10), the first reflection Device (12), convergence camera lens (13), laser detector (14) and laser ranging system (15) packaging Internal in lidar housings (17).

6. the barrier-avoiding method of unmanned plane fault avoidnig device based on laser radar described in claim 1, its feature exists In: comprise the steps:

Step one, drives the second reflection dress being fixed in its rotating shaft (5) when unmanned plane motor (1) rotates Put (10) to rotate simultaneously；

Step 2, laser drive circuit (7) drives laser instrument (8) to launch laser vertical through the first reflection The through hole (9) of device (12) central spot is mapped to the second reflection unit (10), in the second reflection unit (10) Place is reflected into the laser of horizontal direction；When unmanned plane motor (1) rotates, the second reflection unit (10) also rotates, Produce the laser beam of 360 °, this horizontal plane is carried out detection scanning；

Step 3, when barrier (11) is positioned at the reflected light path of the second reflection unit (10), can reflect sharp Light, laser-bounce is returned through the second reflection unit (10) and the reflection of the first reflection unit (12), warp After converging camera lens (13) convergence effect, laser detector (14) receives the laser after converging, in order to laser Range unit (15) carries out subsequent treatment；

Step 4, after laser detector (14) receives and returns the laser come, laser ranging system (15) Laser pulse time t is launched by measuring₁With reception Laser pulse time t₂Between time difference or Laser Measurement Device driving pulse and the time difference received between laser pulse calculate distance s of obstacle distance unmanned plane；System Processor unit (16) by unmanned plane motor (1) with Hall element output pulse m coordinate system Clock pulses f of system processor unit (16) calculates the rotational angle theta of unmanned plane motor (1) any time, Read distance s between barrier and the unmanned plane that laser ranging system (15) calculates again, it is achieved to nothing simultaneously The scanning probe of man-machine 360 ° of barriers (11) around, carries out avoidance process.