CN201748918U - Electronic device with ranging function and ranging system - Google Patents

Abstract

The utility model provides an electronic device with a ranging function, which comprises at least one laser emitting tube, wherein a laser beam emitted from the laser emitting tube forms a light spot on a barrier, two shooting units, each for a picture respectively, wherein a light spot image of the light spot is formed in the picture, and a control unit for controlling ON of the laser emitting tube and the shooting units, analyzing pictures acquired by each of the shooting units, identifying the light spot image in each picture, determining the position of the light spot image in respective picture, determining a vertical distance from the light spot image to a lens axis of each of the shooting units according to the position of the light spot image, calculating a distance of the barrier, and performing corresponding operations according to the distance of the barrier. The utility model further provides a corresponding ranging system and ranging method.

Description

Electronic installation and range measurement system with distance measurement function

Technical field

The utility model relates to electronic installation and the range measurement system with distance measurement function, particularly a kind of electronic installation with distance measurement function and range measurement system in conjunction with laser and image capture.

Background technology

Range finding not only is applied in the engineering survey widely, also is applied on the vehicle of some toys with artificial intelligence and tool oneself control (following these are had the toy of artificial intelligence and vehicles of oneself's control are referred to as electronic installation).These electronic installations are found range and are mainly used in the distance of surveying the place ahead barrier, and the process control corresponding is so that electronic installation slows down, turns to, so that avoid collision or get around these barriers then.

Existing distance measuring method is except utilizing the direct measurement of chi tool, utilize mark post to cooperate instrument to measure in addition, but the chi tool needs manpower to go to measure, and mark post is when cooperating apparatus measures, then need a people to plug mark post, and another person removes to control instrument, operates all very inconveniently, and these two kinds of methods are can not utilize on the vehicle of described in front toy with artificial intelligence and tool oneself control.

Also having a kind of distance-finding method now is laser ranging method, this laser ranging ratio juris is launched laser for utilizing a generating laser to the target detection thing, receive laser post by a low noise, high sensitive laser pickoff again, utilize the mistiming computed range between emission and the reception then by target detection thing reflected back.Yet, because the light velocity is 3 * 10 8 power metre per second (m/s)s, when distance difference is very little, the so resulting mistiming also seldom, this needs equipment can detect the error that the mistiming just can reduce range finding very accurately, therefore laser ranging method generally comparatively is usually used in the range finding of the very long target detection thing of distance, for example utilizes in the space range finding.And on general electronic installation,, just determine according to whether receiving reflected light whether the laser post is determined by obstruction whether the place ahead has barrier though also utilize laser, and can not survey the distance of the place ahead barrier accurately.

Also having a kind of distance-finding method is the image telemetry, promptly utilizes picture pick-up device repeatedly to make a video recording and obtains a plurality of images, then the distance of measuring barrier is discerned and analyzed to these images.Yet this image telemetry is complexity very and is difficult to realize for example how identifying barrier is exactly a difficult problem.

The utility model content

In view of this, be necessary to provide a kind of electronic installation and range measurement system,, measure the distance of barrier easily and fast, accurately to solve the existing existing technical matters of distance-finding method with distance measurement function.

This electronic installation with distance measurement function comprises: the laser post that at least one LASER Discharge Tube, this LASER Discharge Tube are launched forms hot spot at barrier; Two image units, each image unit is used to absorb an image, is formed with the hot spot image of this hot spot in the described image; One control module is used to control the unlatching of this LASER Discharge Tube and image unit, and the image that each image unit obtained analyzed, identify hot spot image in each image, determine the position of hot spot image in each image, determine the vertical range of hot spot image according to the position of hot spot image to the lens axis of each image unit, calculate the distance of barrier then, carry out corresponding operation according to the distance of this barrier.

Further, the quantity of this LASER Discharge Tube is a plurality of, the laser post of each LASER Discharge Tube emission different colours and wavelength.

Further, also include a photoinduction unit, this photoinduction unit is used to survey extraneous light environment, and this control module is the extraneous light environment that detects for according to this photoinduction unit, opens corresponding LASER Discharge Tube.

Further, the quantity of this LASER Discharge Tube is a plurality of, and it is arranged by definite shape, and the hot spot that this control module also forms according to each LASER Discharge Tube calculates the distance of the barrier that each hot spot represents.

Further, the lens axis of these two image units is not parallel.

This has range measurement system and comprises: the laser post that at least one LASER Discharge Tube, this LASER Discharge Tube are launched forms hot spot at barrier; Two image units, each image unit is used to absorb an image, is formed with the hot spot image of this hot spot in the described image; One control module is used to control the unlatching of this LASER Discharge Tube and image unit, and the image that each image unit obtained analyzed, identify hot spot image in each image, determine the position of hot spot image in each image, determine the vertical range of hot spot image according to the position of hot spot image to the lens axis of each image unit, calculate the distance of barrier then, carry out corresponding operation according to the distance of this barrier.

Further, the quantity of this LASER Discharge Tube is a plurality of, the laser post of each LASER Discharge Tube emission different colours and wavelength; Also include a photoinduction unit, this photoinduction unit is used to survey extraneous light environment, and this control module is the extraneous light environment that detects for according to this photoinduction unit, opens corresponding LASER Discharge Tube; The quantity of this LASER Discharge Tube is a plurality of, and it is arranged by definite shape, and the hot spot that this control module also forms according to each LASER Discharge Tube calculates the distance of the barrier that each hot spot represents; The lens axis of these two image units is not parallel.

Description of drawings

Fig. 1 is the structural representation that the utlity model has the electronic installation of distance measurement function.

Fig. 2 is the modular structure figure of control module.

Fig. 3 is the lens axis of two image units 20 when parallel, the geometrical calculation principle schematic of the distance of barrier.

Fig. 4 is the lens axis of two image units 20 when not parallel, the geometrical calculation principle schematic of the distance of barrier.

Fig. 5 is the range finding operation process chart that the utlity model has the electronic installation of distance measurement function.

Embodiment

The applicant at first need to prove and only illustrates in the drawings and the specific embodiments of the present utility model and structure that detailed description is associated with the utility model innovation point, module, function and work flow, and in order to constitute a complete electronic installation, the conventional construction that distance-finding method and range measurement system are required, module, function and work flow do not illustrate or describe, yet must need to prove shown in the drawings and the specific embodiments of the present utility model or the structure of describing in detail yet, module, function and work flow are not all to be essential features of the present utility model.

See also the structural representation that figure is depicted as the electronic installation that the utlity model has distance measurement function.This electronic installation 1 is provided with at least one LASER Discharge Tube 10, this LASER Discharge Tube 10 can this electronic installation 1 need judge whether the place ahead exists barrier and when barrier found range unlatching to launch the laser post, when the place ahead of electronic installation 1 had barrier, each laser post can be formed with a hot spot at barrier.

Also be provided with two image units 20 (the first image unit 20A and the second image unit 20B) on this electronic installation 1, this image unit 20 is the optics pick-up lens, when being used for this electronic installation 1 and finding range and generally open the back in described LASER Discharge Tube 10 and open to obtain image.When the place ahead of electronic installation 1 has barrier, the laser post that LASER Discharge Tube 10 is launched is formed with hot spot at this barrier, the angle of described LASER Discharge Tube 10 and each image unit 20 is provided with suitably, and the image that described each image unit 20 is obtained can comprise the hot spot image of described hot spot.In the present embodiment, described image unit 20 is positioned at the both sides of described LASER Discharge Tube 10, and for fear of being formed with the shooting dead angle between two image units 20, the lens axis of these two image units 20 is not parallel.

This electronic installation 1 also includes a control module 30 (seeing also the explanation of Fig. 2 in detail), this control module 30 is used to control the unlatching of this LASER Discharge Tube 10 and image unit 20, and the image that each image unit 20 is obtained analyzed, identify hot spot image in each image, determine the position of hot spot image in image, determine the vertical range of the image of hot spot according to the position of hot spot, utilize geometric formula (being in particular leg-of-mutton various computing formula) to calculate the distance of barrier to the lens axis of image unit 20.

In the utility model, each LASER Discharge Tube 10 can be launched the laser post of different colours and wavelength, image unit 20 all can obtain discernible hot spot image under the different extraneous light environments to adapt to, to reduce the interference that bright spot that extraneous light (for example high light) forms at barrier causes.In addition, the quantity of LASER Discharge Tube 10 is preferably a plurality of, and it can be arranged by definite shape.

For example the quantity of LASER Discharge Tube 10 is 4 in the present embodiment, two LASER Discharge Tube 10 (LASER Discharge Tube 10A and LASER Discharge Tube 10B) are wherein arranged on the vertical direction, and be positioned on the both sides horizontal direction of LASER Discharge Tube 10 of vertical direction 1 LASER Discharge Tube 10 (LASER Discharge Tube 10C and LASER Discharge Tube 10C) is arranged respectively, it act as: 1) 10 emitted laser posts of a plurality of LASER Discharge Tube are effigurate at the formed hot spot of barrier, this hot spot forms the figure of more or less freely identification in the image that image unit 20 is obtained, LASER Discharge Tube 10A for example, B, the formed hot spot of C has constituted an isosceles triangle, and LASER Discharge Tube 10A, B, the formed hot spot of D also can constitute an isosceles triangle, and LASER Discharge Tube 10A, B, C, the formed hot spot of D also can constitute a rhombus, can be more convenient for the identification of hot spot in this way; 2) a plurality of LASER Discharge Tube 10 form a plurality of hot spots on barrier, and these hot spots are especially for forming the figure that can conveniently discern, can reduce the interference that bright spot that extraneous light (for example high light) forms at barrier causes; 3) can judge the distance of the barrier on a plurality of points, for example the hot spot that forms of LASER Discharge Tube 10A, the B by the centre is measured the make progress distance of barrier of third side, detect the take back distance of barrier on the direction of the place ahead and form hot spot, detect the take over distance of barrier on the direction of the place ahead and form hot spot by LASER Discharge Tube 10D by LASER Discharge Tube 10C.

In the utility model, the preferable photoinduction unit 40 that also includes, this photoinduction unit 40 is used to survey extraneous light environment, and the extraneous light environment that this control module 30 detects according to this photoinduction unit 40 is opened corresponding LASER Discharge Tube 10.

Seeing also shown in Figure 2ly, is the modular structure figure for control module 30.Need to prove that this control module 30 can be a single control chip, can also be made up of a plurality of control chips.This control module 30 comprises a LASER Discharge Tube control module 310, and this LASER Discharge Tube control module 310 is used to control the unlatching of described LASER Discharge Tube 10 and close.Preferable, LASER Discharge Tube 10 can be launched for a plurality of and each LASER Discharge Tube 10 in the embodiment of laser post of different colours and wavelength, this control module 30 also includes an extraneous light detecting module 320, be used to control this photoinduction unit 40 and survey extraneous light environment, and determine extraneous light environment.This LASER Discharge Tube control module 310 is for selecting to open corresponding LASER Discharge Tube 10 according to this external world's light environment.

This control module 30 also includes a shooting control module 330, is used for control and opens described image unit 20, obtains the image that described image unit 20 is absorbed.Preferable, shooting control module 330 is opened LASER Discharge Tube in LASER Discharge Tube control module 310 and is opened image unit 20 after 10 1 schedule times

This control module 30 also includes an identification module 340, and be used for identifying each image and whether have the hot spot image, and the position of definite hot spot image.When in an image, including a plurality of hot spot image, determine the position of each hot spot image one by one.

This control module 30 also includes a computing module 350, be used for determining the vertical range (be designated hereinafter simply as image distance) of hot spot image to the lens axis of image unit 20 according to the position of hot spot, calculate the distance of barrier then according to specific geometric formula, and writing down the distance of this barrier, described detailed calculating principle please refer to Fig. 3 and shown in Figure 4.If when including a plurality of hot spot image in the image, control module 30 determines that one by one the position of each hot spot image determines the image distance of each hot spot image, calculate each barrier distance of (each hot spot is represented a barrier) then, and write down the distance of each barrier.

This control module 30 also includes an operation control module 360, is used for carrying out corresponding operation according to this electronic installation 1 of distance control of this barrier or each barrier.In different electronic installation 1, can write the steering order of different operating as required, for example slow down, turn to, stop less than predetermined value control etc. when distance.This operates in the different electronic installation 1 (for example survey instrument) can be the distance of reporting or demonstrate this barrier.At the embodiment of using a plurality of LASER Discharge Tube 10, also can for example keep straight on, turn left, turn right, slow down, stop or turning to etc. according to the directions apart from different control telemechanicals of measured left, center, right, the place ahead barrier.

Consulting shown in Figure 3ly, is the lens axis of two image units 20 when parallel, the geometrical calculation principle schematic of the distance of barrier.Only show the situation that is formed with a hot spot on the barrier in the figure, if a plurality of hot spots are arranged, the calculating principle of the distance of the barrier that each hot spot is represented is identical.

In the figure, A point expression 10 emitted laser posts of LASER Discharge Tube formed hot spot on barrier, point O1 represents the optical center of lens of the first image unit 20A, A ' expression hot spot A formed hot spot image on the image sensing sheet of the first image unit 20A, photocentre O1 is O1B to the vertical join line of image sensing sheet, and A ' B is the image distance of image A '.

Point O2 represents the optical center of lens of the second image unit 20B, A " expression hot spot A formed hot spot image on the image sensing sheet of the second image unit 20B, photocentre O2 is O2C to the vertical join line of image sensing sheet, A " C is image A " image distance.The length of BC is the distance of shaft centers of the first image unit 20A and the second image unit 20B.

When the first image unit 20A after setting completed, the length of O1B is fixed, and image distance A ' B is easy to obtain.Can calculate angle of departure O1A ' B according to O1B and A ' B.In like manner can calculate angle of departure O1A " C.And distance of shaft centers BC is a fixed value, so A ' A " distance be distance of shaft centers BC and image distance A ' B, image distance A " C's and.Under the situation on two angles and a limit of in a triangle, seeking knowledge, obtain the height on other limits and the limit easily.And some A is to image A ' and image A " line A ' A " the perpendicular line AM distance that is barrier can obtain.Certainly, also can be with an A to the perpendicular line AP of the line O1O2 of photocentre O1 and photocentre O2 distance as barrier.

Consulting shown in Figure 4ly, is the lens axis of two image units 20 when not parallel, the geometrical calculation principle schematic of the distance of barrier.Only show the situation that is formed with a hot spot on the barrier in the figure, if a plurality of hot spots are arranged, the calculating principle of the distance of the barrier that each hot spot is represented is identical.

A point expression 10 emitted laser posts of LASER Discharge Tube formed hot spot on barrier, point O1 and some O2 are respectively the optical center of lens of the first image unit 20A and the second image unit 20B, and through photocentre O1 and the straight line Z1 of photocentre O2 and the lens axis that Z2 is respectively the first image unit 20A and the second image unit 20B.This optical axis Z1 and Z2 are in one plane.

A ' expression hot spot A formed hot spot image on the image sensing sheet of the first image unit 20A, photocentre O1 is O1B to the vertical join line of image sensing sheet, and O1B is positioned on the optical axis Z1, and A ' B is the image distance of image A '.The B point is the image sensing sheet and the vertical intersection point of optical axis Z1.

A " expression hot spot A formed hot spot image on the image sensing sheet of the second image unit 20B, photocentre O2 is O2C to the vertical join line of image sensing sheet, O2C is positioned on the optical axis Z2, A " C is image A " image distance.The C point is the image sensing sheet and the vertical intersection point of optical axis Z2.Optical axis Z1 and optical axis Z2 and line BC acutangulate in the present embodiment.Line BC is parallel with the line O1O2 of photocentre O2 with photocentre O1.

When the first image unit 20A after setting completed, the length of O1B is fixed, and image distance A ' B is easy to obtain.Can calculate angle of departure O1A ' B according to O1B and A ' B.In like manner can calculate angle of departure O1A " C.

Because angle AO1O2 equates angle AO2O1 and angle O2A with angle O1A ' B " C equates, can be regarded as angle of departure AO1O2 and angle AO2O1.O1 and photocentre O2's is fixed value apart from O1O2.Under the situation on two angles and a limit of in a triangle, seeking knowledge, obtain the height on other limits and the limit easily.And some A can obtain as the distance of barrier to the perpendicular line AP of the line O1O2 of photocentre O1 and photocentre O2.Certainly, also can be with the distance P M sum AM of AP and line O1O2 and line BC distance as barrier, the distance P M of O1O2 and line BC fixes in the electronic installation 1 that has modulated, and AM also can obtain.

Consult shown in Figure 5ly, the utlity model has the range finding operation process chart of the electronic installation of distance measurement function, open LASER Discharge Tube 10 and launch the laser post, this laser post forms hot spot (step S410) on barrier.Open described image unit 20, by these image unit 20 pickup images.Preferable, opening image unit 20 is to open LASER Discharge Tube after 10 1 schedule times (step S420).Identify the hot spot image that whether has hot spot in each image, and the position of when having the hot spot image, determining the hot spot image.If when including a plurality of hot spot image in the image, determine the position (step S430) of each hot spot image one by one.Determine the vertical range of hot spot image to the lens axis of image unit 20 according to the position of hot spot image, calculate the distance of barrier then, and write down the distance of this barrier, described detailed calculating principle please refer to Fig. 3 and shown in Figure 4.When including a plurality of hot spot image in the image, the image distance of each hot spot image is determined in the position of definite each hot spot image one by one, calculate each barrier distance of (each hot spot image is represented a barrier) then, and write down the distance (step S440) of each barrier.This electronic installation 1 of distance control according to this barrier or each barrier is carried out corresponding operation (step S450).

Can launch for a plurality of and each LASER Discharge Tube 10 in the embodiment of laser post of different colours and wavelength in LASER Discharge Tube 10, before step S410, also can comprise step: survey extraneous light environment by photoinduction unit 40, and determine extraneous light environment.10 unlatchings of control LASER Discharge Tube are for selecting to open corresponding LASER Discharge Tube 10 according to this external world's light environment among the step S410.

In the utility model, LASER Discharge Tube 10, image unit 20, control module 30 and photoinduction unit 40 can be arranged in different devices but not one be positioned a single device, and these devices have constituted range measurement system.

Claims (10)

1. electronic installation with distance measurement function, it includes a control module, it is characterized in that, and this electronic installation also includes:

The laser post that at least one LASER Discharge Tube, this LASER Discharge Tube are launched forms hot spot at barrier;

Two image units, each image unit is used to absorb an image, is formed with the hot spot image of this hot spot in described each image;

This control module is used to control the unlatching of this LASER Discharge Tube and image unit, and the image that each image unit obtained analyzed, identify hot spot image in each image, determine the position of hot spot image in each image, determine the vertical range of hot spot image according to the position of hot spot image to the lens axis of each image unit, calculate the distance of barrier, carry out corresponding operation according to the distance of this barrier.

2. the electronic installation with distance measurement function as claimed in claim 1 is characterized in that, the quantity of this LASER Discharge Tube is a plurality of, the laser post of each LASER Discharge Tube emission different colours and wavelength.

3. the electronic installation with distance measurement function as claimed in claim 2, it is characterized in that, also include a photoinduction unit, this photoinduction unit is used to survey extraneous light environment, this control module is the extraneous light environment that detects for according to this photoinduction unit, opens corresponding LASER Discharge Tube.

4. the electronic installation with distance measurement function as claimed in claim 1, it is characterized in that the quantity of this LASER Discharge Tube is a plurality of, it is arranged by definite shape, this control module is to be the hot spot that forms according to each LASER Discharge Tube, calculates the distance of the barrier that each hot spot represents.

5. the electronic installation with distance measurement function as claimed in claim 1 is characterized in that the lens axis of these two image units is not parallel.

6. range measurement system, it includes a control module, it is characterized in that, and this range measurement system also includes:

The laser post that at least one LASER Discharge Tube, this LASER Discharge Tube are launched forms hot spot at barrier;

Two image units, each image unit is used to absorb an image, is formed with the hot spot image of this hot spot in described each image;

This control module is used to control the unlatching of this LASER Discharge Tube and image unit, and the image that each image unit obtained analyzed, identify hot spot image in each image, determine the position of hot spot image in each image, determine the vertical range of hot spot image according to the position of hot spot image, calculate the distance of barrier then to the lens axis of each image unit.

7. range measurement system as claimed in claim 6 is characterized in that, the quantity of this LASER Discharge Tube is a plurality of, the laser post of each LASER Discharge Tube emission different colours and wavelength.

8. range measurement system as claimed in claim 7, it is characterized in that also include a photoinduction unit, this photoinduction unit is used to survey extraneous light environment, this control module is the extraneous light environment that detects for according to this photoinduction unit, opens corresponding LASER Discharge Tube.

9. range measurement system as claimed in claim 6, it is characterized in that the quantity of this LASER Discharge Tube is a plurality of, it is arranged by definite shape, this control module is to be the hot spot that forms according to each LASER Discharge Tube, calculates the distance of the barrier that each hot spot represents.

10. range measurement system as claimed in claim 6 is characterized in that the lens axis of these two image units is not parallel.

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