CN211926778U - Hand-held type trees chest diameter laser measuring instrument - Google Patents

Abstract

A hand-held tree breast height diameter laser measuring instrument specifically is: the laser range finder is positioned above the front surface of the equipment and used for measuring the horizontal distance between the laser range finder and the trunk to be measured; the digital camera is positioned above the front surface of the equipment and below the laser range finder and is used for shooting pictures of the trunk; the digital camera is connected with the microprocessor and transmits the picture data to the microprocessor; the microprocessor is connected with the laser range finder, the digital camera, the liquid crystal display screen, the space positioning module and the power supply and is responsible for processing data, sending a measurement result and controlling the instrument; the liquid crystal display screen is positioned on the back surface of the equipment, is connected with the microprocessor and the power supply and is used for displaying each virtual control button, the distance measurement value and the breast diameter measurement value; the space positioning module is connected with the microprocessor and records longitude and latitude coordinates of the measuring points; the memory is connected with the microprocessor and used for storing the trunk picture shot by the digital camera, the longitude and latitude value recorded by the space positioning module and the trunk diameter measurement value in the memory.

Description

Hand-held type trees chest diameter laser measuring instrument

Technical Field

The utility model relates to a hand-held type trees chest diameter laser measuring apparatu belongs to field monitoring technology fields such as forestry or ecology, in particular to research fields such as trees growth and development, forest ecosystem monitoring and global change.

Background

The diameter at breast height is the diameter of the tree which is 1.3m higher than the ground and parallel to the ground. Based on the chest diameter value, biomass of different levels of each tree, population and community can be estimated by combining a tree biomass model, and the biomass plays a crucial role in researches such as ecological system productivity, ecological service functions and the like.

The traditional multipurpose breast diameter ruler and vernier caliper for breast diameter measurement have low measurement efficiency and errors caused by artificial reading, and are difficult to meet the requirements of service ecology and forestry research. With the help of digital imaging, deep learning and laser ranging technologies, automatic measurement of the breast height diameter of the tree becomes an important trend of current tree measurement research, and is also one of automatic new technical means for long-term monitoring and exploration of an ecosystem. The hand-held tree breast-height diameter laser measuring instrument developed by the inventor is based on the technical means of digital imaging, laser ranging, tree edge detection based on a depth learning algorithm and the like, the tree breast-height diameter is quickly and accurately measured, data is stored, the tree breast-height diameter monitoring data acquisition efficiency is improved, and the ecological system monitoring and scientific research capability is enhanced.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of current trees chest diameter measuring method, the utility model aims at providing a hand-held type trees chest diameter laser measuring apparatu realizes quick, accurate and high-efficient measurement to trees chest diameter.

The utility model provides a hand-held type trees chest footpath laser measuring instrument solves the scheme that its technical problem adopted and is: the instrument mainly comprises a laser range finder 1, a digital camera 2, a microprocessor 6, a liquid crystal display 7, a space positioning module 8, a memory 9 and a power supply 10; wherein the content of the first and second substances,

laser range finder 1 is located equipment openly top for measure and the horizontal distance between the trunk that awaits measuring, link to each other with microprocessor 6, with distance data transmission to microprocessor 6.

Digital camera 2 is located the positive top of equipment, laser range finder 1 below for shoot the picture of trunk, this picture is used for extracting the trunk profile, realizes the trunk diameter measurement. The digital camera 2 is connected with the microprocessor 6, and transmits the picture data to the microprocessor 6.

The microprocessor 6 is connected with the laser range finder 1, the digital camera 2, the liquid crystal display 7, the space positioning module 9, the power supply 10 and the like, is responsible for processing data, sending measurement results, controlling the instrument and the like, and is the core of the measuring equipment. The microprocessor 6 is embedded with a trunk edge detection algorithm based on deep learning and a trunk diameter optical geometry algorithm. The microprocessor 6 continuously reads the video content shot by the digital camera 2, and the measured tree is displayed in real time through the liquid crystal display 7. A shooting command is sent out through a shooting button on the liquid crystal display 7, and the digital camera 2 shoots the trees in the area to be detected to obtain high-resolution images of the trees. The method specifically comprises the following steps: the tree breast diameter value is calculated by processing the tree trunk image data acquired by the digital camera 2, detecting the tree trunk edges, acquiring the pixel quantity information between the tree trunk edges, simultaneously processing the horizontal distance data from the measuring position to the tree by the laser range finder 1, combining the parameters such as the focal length of the digital camera 2, the size of the tree trunk picture pixels, the pixel quantity between the tree trunk edges and the like, and the breast diameter measured value is displayed on the liquid crystal display 7 and stored in the memory 9.

And the liquid crystal display screen 7 is positioned on the back surface of the equipment, is connected with the microprocessor 6, the power supply 10 and the like, and is used for displaying each virtual control button, the distance measurement value and the breast diameter measurement value.

The space positioning module 8 is connected with the microprocessor 6 and records the longitude and latitude coordinates of the measuring points, and the longitude and latitude coordinates are processed by the microprocessor 6 and then transmitted to the memory 9 for storage.

The memory 9 is connected with the microprocessor 6, and stores the trunk picture shot by the digital camera 2, the longitude and latitude value recorded by the space positioning module 8 and the trunk diameter measurement value in the memory 9.

The power source 10 is a rechargeable lithium battery, and supplies power to the device of the present invention.

In addition to the above components, the measuring apparatus further includes:

the power switch 3 is located below the side surface of the equipment, is connected with the power supply 10 and controls the power supply state of the instrument.

The USB interface 4 is positioned above the side surface of the equipment and is used for connecting an external USB disk and exporting the measurement data from the memory 9 to the external USB disk.

The charging interface 5 is located at the bottom of the device, is connected with the power supply 10, and is used for charging the instrument.

The horizontal marking line 11 is used to mark the measurement position.

The distance display area 12 is used to display the horizontal distance to the trunk measured by the laser range finder 1.

Trunk edge revision mode button 13 is used for entering into the manual revision trunk edge mode, and when the trunk edge of equipment automatic identification appears obvious mistake, click trunk edge revision mode button 13, get into the revision mode, can touch the screen with the hand this moment, remove trunk edge revision auxiliary line 22 to trunk edge, loosen the finger, can redefine the trunk edge.

The shutdown button 14 is used to safely shut down the device.

And when the data transmission button 15 is clicked, the chest diameter measurement value, the shot trunk image and the longitude and latitude of the measurement point can be automatically transmitted to a USB flash disk connected with the equipment.

And a cancel button 16 is clicked, and the trunk chest diameter value, the longitude and latitude and the trunk picture of the measurement cannot be saved.

The shoot and save button 17 has two states, a shoot button before measurement and a save button after measurement is completed. Click and shoot and save button 17, laser range finder 1 will measure the horizontal distance to the trunk, and digital camera 2 shoots the trunk photo, after microprocessor 6 calculates, accomplishes the trunk diameter of breast height and measures. After the measurement is completed, the shoot button changes to a save button, which is clicked, and the trunk picture and the measured value will be saved.

The intersection of the central vertical marking line 18 and the horizontal marking line 11 is the laser ranging position.

Left and right vertical indicator lines 19 define an optimal viewing range for the trunk, which is preferably imaged between the left and right vertical indicator lines 19 during measurement.

And a chest diameter measurement value display area 20 for displaying the measured trunk chest diameter.

The trunk edge display points 21 indicate the trunk contour edges of the measurement locations that are automatically identified by the device.

The trunk edge correction auxiliary line 22 is used to assist in manually calibrating the trunk edge, and in the revision mode, the trunk edge correction auxiliary line 22 may be moved to redefine the trunk edge.

The beneficial effects of the utility model are that can carry out quick, accurate and contactless measurement to trees chest footpath, can also record simultaneously and save data such as longitude and latitude, trees picture of measuring point, effectively promote trees chest footpath measuring efficiency.

Drawings

Fig. 1a shows a front structural view of the present invention.

Fig. 1b shows a side view of the present invention.

Fig. 1c shows a side view of the present invention.

Fig. 1d shows the bottom structure of the present invention.

Fig. 2e is a standby interface of the user of the present invention.

Fig. 2f is a measurement interface of the user of the present invention.

Fig. 3 is the work flow of the present invention.

Fig. 4 shows a measurement embodiment of the present invention.

The reference numbers in fig. 1a, 1b, 1c, 1d, 2e, 2f and 3 are as follows:

1. laser range finder 2, digital camera 3, switch

4. USB interface 5, interface 6 that charges, microprocessor

7. Liquid crystal display screen 8, space positioning module 9 and memory

10. Power supply 11, horizontal marking line 12, distance display area

13. Trunk edge revision mode button 14, shutdown button 15, data transmission button

16. Cancel button 17, shoot and save button 18, center vertical mark line

19. Left and right vertical marking line 20, breast diameter measurement value display area 21, trunk edge display point

22. Trunk edge correction auxiliary line

Detailed Description

The technical solution of the present invention will be further explained below with reference to fig. 3 and fig. 1a, 1b, 1c, 1d, 2e and 2 f.

The utility model discloses after equipment switch 3 was opened, power 10 did the utility model discloses the equipment supplies power. After the device is successfully started, the digital camera 2 continuously reads the trunk video and displays the trunk video on the liquid crystal display 7. Will the utility model discloses equipment alignment trunk chest eminence that awaits measuring, measuring position and horizontal marking line 11 are unanimous to adjustment measuring point to trunk horizontal distance makes the trunk formation of image be located about and mark between the line 19 perpendicularly. Click and shoot and save button 17, digital camera 2 gathers the trunk picture, and laser range finder 1 measures the horizontal distance to the trunk, and trunk picture and distance data are transmitted to microprocessor 6. The space positioning module 8 records longitude and latitude information of the place where the measurement occurs. The trunk edge detection algorithm and the trunk breast diameter algorithm based on depth learning are embedded in the microprocessor 6, the trunk image acquired by the digital camera 2 is processed, the trunk edge is detected, the pixel quantity information between the trunk edges is acquired, meanwhile, the distance data measured by the laser range finder 1 is comprehensively processed, the tree breast diameter is calculated by combining the parameters such as the focal length of the digital camera 2, the size of the trunk image pixels, the pixel quantity between the trunk edges and the like, and the measured trunk breast diameter value and the horizontal distance to the trunk are displayed on the liquid crystal display 7 (figure 4). If the utility model discloses there is great error in equipment automatic identification's trunk edge display point 21 and the actual edge of trunk, clicks trunk edge revision mode button 13, the utility model discloses equipment gets into trunk edge revision mode, presses close to liquid crystal display 7 with the finger this moment, removes trunk edge revision auxiliary line 22 to trunk edge, loosens the finger, this moment the utility model discloses equipment redefines the trunk edge. After the measurement is completed, the shoot and save button 17 is changed to a save key, and by clicking this key both the trunk picture and the trunk diameter measurement will be saved in the memory 9. If the measured value has obvious error, the cancel button 16 is clicked, and the measured data is not saved. If diameter at breast height measuring data and trunk picture are to be derived, need pass through USB interface 4 with the USB flash disk with the utility model discloses equipment connection clicks data transmission button 15, and data is by automatic transmission to external USB flash disk. After all measurement tasks are completed, the shutdown button 14 is clicked, and the device is safely shut down.

Measurement example:

when field survey, open equipment switch 3, this equipment is held to both hands, keeps the level, aims at trunk chest height position with digital camera 2, and the horizontal distance to the trunk (see fig. 4) can appear in the middle part of 7 below on liquid crystal display this moment, adjusts the horizontal distance to the trunk, lets the trunk be in the image about perpendicular mark between the line 19. Clicking the shoot and save button 17 causes the chest diameter measurement to appear in the upper left corner of the liquid crystal display 7, e.g. "25.7 mm" in the upper left corner of fig. 4, and the distance value to appear in the middle of the lower part of the liquid crystal display 7, e.g. "330.3 mm" in the lower part of fig. 4. Clicking the "save" button, the data is saved to memory 9. If export data, then will use the USB flash disk pass through USB interface 4 with the utility model discloses equipment connection clicks data transmission button 15, and data is by automatic transmission to external USB flash disk. The utility model discloses two folders will be established automatically to equipment in external USB flash disk, a trunk image that is used for preserving the JPG format, and chest footpath measured value and measuring point warp latitude value are preserved with the format of text to another one. Both image and text files are named by time, such as 2019-12-01-08-17-50.jpg and 2019-12-01-08-17-50.txt, where 2019 is year, 12 is month, 01 is day, 08 is hour, 17 is minute, and 50 is second.

Claims (10)

1. A hand-held tree breast-height diameter laser measuring instrument comprises a laser range finder, a digital camera, a microprocessor, a liquid crystal display screen, a space positioning module, a memory and a power supply; the method is characterized in that:

the laser range finder is positioned above the front surface of the equipment, is used for measuring the horizontal distance between the laser range finder and the trunk to be measured, is connected with the microprocessor and transmits distance data to the microprocessor;

the digital camera is positioned above the front surface of the equipment and below the laser range finder and is used for shooting a picture of the trunk, and the picture is used for extracting the contour of the trunk and realizing the measurement of the diameter of the trunk; the digital camera is connected with the microprocessor and transmits the picture data to the microprocessor;

the microprocessor is connected with the laser range finder, the digital camera, the liquid crystal display screen, the space positioning module and the power supply and is responsible for processing data, sending a measurement result and controlling the instrument;

the liquid crystal display screen is positioned on the back surface of the equipment, is connected with the microprocessor and the power supply and is used for displaying each virtual control button, the distance measurement value and the breast diameter measurement value;

the space positioning module is connected with the microprocessor and used for recording longitude and latitude coordinates of the measuring points, and the longitude and latitude coordinates are processed by the microprocessor and then transmitted to the memory for storage;

the memory is connected with the microprocessor and stores the trunk picture shot by the digital camera, the longitude and latitude value and the trunk diameter measurement value recorded by the space positioning module in the memory;

the power supply 10 is a rechargeable lithium battery.

2. The hand-held tree breast height laser measuring instrument of claim 1, wherein: a trunk edge detection algorithm based on deep learning and a trunk diameter optical geometry algorithm are embedded in the microprocessor; the microprocessor continuously reads the video content shot by the digital camera, and the measured tree is subjected to real-time video display through the liquid crystal display screen; and sending a shooting command through a shooting button on the liquid crystal display screen, and shooting the trees in the area to be detected by the digital camera to obtain high-resolution images of the trees.

3. A hand-held tree breast-height diameter laser measuring instrument according to claim 1 or 2, wherein: the tree breast diameter value is calculated by processing the tree image data acquired by the digital camera, detecting the edges of the tree trunk, acquiring the pixel quantity information between the edges of the tree trunk, simultaneously processing the horizontal distance data from the measuring position to the tree by the laser range finder, combining the focal length of the digital camera, the size of the pixels of the tree trunk picture and the pixel quantity parameters between the edges of the tree trunk, and displaying the breast diameter value on the liquid crystal display screen and storing the breast diameter value in the storage.

4. The hand-held tree breast height laser measuring instrument of claim 1, wherein: the power switch is positioned below the side surface of the equipment, is connected with a power supply and controls the power supply state of the instrument; the USB interface is positioned above the side surface of the equipment and is used for connecting an external USB disk and leading out the measurement data from the memory to the external USB disk; the charging interface is located at the bottom of the equipment, is connected with a power supply and is used for charging the instrument.

5. The hand-held tree breast height laser measuring instrument of claim 1, wherein: the device also comprises a horizontal marking line used for marking the measuring position; the distance display area is used for displaying the horizontal distance to the trunk measured by the laser range finder.

6. The hand-held tree breast height laser measuring instrument of claim 1, wherein: the trunk edge revision mode button is used for entering a manual revision trunk edge mode; when obvious error appears at the trunk edge automatically identified by the equipment, clicking a trunk edge revision mode button to enter a revision mode, touching a screen by hand at the moment, moving the trunk edge revision auxiliary line to the trunk edge, loosening the fingers, and redefining the trunk edge.

7. The hand-held tree breast height laser measuring instrument of claim 1, wherein: the device also comprises a shutdown button for safely shutting down the device; clicking a data transmission button, and automatically transmitting the chest diameter measurement value, the shot trunk image and the longitude and latitude of the measurement point to a USB flash disk connected with equipment; and clicking a cancel button, so that the trunk chest diameter value, the longitude and latitude and the trunk picture of the measurement cannot be saved.

8. The hand-held tree breast height laser measuring instrument of claim 1, wherein: the device also comprises a shooting button and a storage button which have two states, wherein the shooting button is used before measurement, and the shooting button is changed into the storage button after the measurement is finished; clicking a shooting and storing button, measuring the horizontal distance to the trunk by using a laser range finder, shooting a picture of the trunk by using a digital camera, and completing trunk diameter measurement after calculation by using a microprocessor; after the measurement is completed, the shoot button changes to a save button, which is clicked, and the trunk picture and the measured value will be saved.

9. The hand-held tree breast height laser measuring instrument of claim 1, wherein: the intersection point of the central vertical marking line and the horizontal marking line is a distance measuring position; and the left and right vertical marking lines are used for defining an optimal tree trunk view finding range, and the tree trunk is preferably imaged between the left and right vertical marking lines during measurement.

10. The hand-held tree breast height laser measuring instrument of claim 1, wherein: the tree trunk diameter measuring device also comprises a diameter of breast height measuring value display area for displaying the measured diameter of the trunk; displaying points on the trunk edge, and marking the trunk contour edge automatically identified by the equipment; and the trunk edge correction auxiliary line is used for assisting in manually calibrating the trunk edge, and moving the trunk edge correction auxiliary line to redefine the trunk edge in the revision mode.

Images