CN205158453U - Structure outward appearance detection device stands tall and erects - Google Patents

Abstract

The utility model discloses a structure outward appearance detection device stands tall and erects, including tripod and acquisition platform, acquisition platform includes first frame and second frame, first frame through vertical setting the pivot and the tripod top is connected, and first frame can around the institute pivot axial rotatory, second frame both sides respectively are connected with first frame both sides through an axis of rotation, and the second frame line that can use two axis of rotation is as the center pin rotation, the 2nd mounts has camera and camera lens, and in the camera edema with the heart involved flat line with two axis of rotation are in the coplanar. The utility model discloses simple structure need not to use mechanical equipment such as scaffold, lift truck and hoist cable, uses the utility model discloses a potential safety hazard that high altitude construction exists can be avoided to the device.

Description

A kind of tall and slender structure appearance delection device

Technical field

The utility model relates to a kind of tall and slender structure appearance delection device.

Background technology

High-rise structure is as bridge tower, Cooling Tower of Power Station, chimney, high building, memorial tower etc., be subject to the multiple impacts such as external cause (load, climatic environment, hydrogeology), internal cause (design, build and the defect of material) and daily management carelessness, the various disease of inevitable appearance and defect.And the form of body structure surface can react its health status usually intuitively, therefore to the follow-up investigations of the pathological characters such as works cracking, corrosion and breakage, be study and judge the health status of works and the important method of Evolution.

The defects detection of current towering structure works needs artificial work high above the ground usually, needs to use framing scaffold, the plant equipment such as lift truck and hoist cable.By adopting width gage device or reading microscope to find defect, it is measured and hand-kept.This classic method not only wastes time and energy, and causes a lot of defects detection to omit, and more cannot carry out Measurement accuracy and location to defect, and work high above the ground exists potential safety hazard.

Utility model content

Technical problem to be solved in the utility model is, not enough for prior art, provides a kind of tall and slender structure appearance delection device.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: a kind of tall and slender structure appearance delection device, comprise tripod and acquisition platform, described acquisition platform comprises the first framework and the second framework, described first framework is connected with described tripod top by the rotating shaft vertically arranged, and described first framework can around institute's rotating shaft axial-rotation, described second framework both sides are respectively connected with described first framework both sides by a rotation axis, and described second framework can rotate by axle centered by the line of two rotation axiss; Described second framework is provided with camera and camera lens, and described image center horizontal line and described two rotation axiss are in same plane.

Described lens focus is more than 100mm.

Compared with prior art, the beneficial effect that the utility model has is: the utility model structure is simple, and without the need to using framing scaffold, the plant equipment such as lift truck and hoist cable, uses device of the present utility model, can avoid the potential safety hazard that work high above the ground exists.

Accompanying drawing explanation

Fig. 1 is the process flow diagram of the high-rise structure outward appearance detection system based on high definition panorama image that the utility model provides;

Fig. 2 is the equipment and instrument figure of the acquisition platform that the utility model provides;

Fig. 3 is the utility model shooting area matrix pattern block plan;

Wherein, A: shooting area subregion; B: territory, adjacent image horizontal overlapping region; C: the vertical overlapping region of adjacent image;

Fig. 4 (1) is CAD figure; Fig. 4 (2) is the image before registration.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in detail.

(1) high-definition image acquisition platform

Image-capturing platform comprises tripod 4 and acquisition platform, described acquisition platform comprises the first framework 6 and the second framework 1, described first framework 6 is connected with described tripod 4 top by the rotating shaft 8 vertically arranged, and described first framework 6 can around institute's rotating shaft 8 axial-rotation, described second framework 1 both sides are respectively connected with described first framework 6 both sides by a rotation axis 7, and described second framework 1 can rotate by axle centered by the line of two rotation axiss 7; Described second framework 1 is provided with camera 2 and camera lens 3, and described camera 2 central horizontal line and described two rotation axiss 7 are in same plane.

High-definition image acquisition platform Main Function is: first according to camera sensor size, lens focus parameter, image Duplication, calculate single image coverage; Then automatic object construction thing is carried out matrix pattern subregion (as shown in Figure 3), and calculate two rotational angles (vertical and level to) of each subregion; Realize vertical and horizontal axis finally by spatial rotation frame system, to reach the object of subregion shooting, and two rotational angles of image often opened in record, and the image mosaic for a rear step provides the position data of matrix form.

Software control system controls spatial rotation frame system and camera camera system simultaneously; The major parameter that spatial rotation frame system controls is as follows:

Take the angle that initial/final position AS (x, y)/AE (x, y), x is horizontal axis of rotation, y is the angle of vertical axis of rotation; Image Duplication ol (>=25%); Lens focus f, camera zoom coefficient coef, focal length multiplier mx and camera single image shooting area scope fov.

Concrete calculation procedure is as follows:

A) determine camera single image shooting area scope fov, fov is tried to achieve by formula (1).

fov＝360÷PI×arctan(36÷cf÷(2×f×m))(1)

B), after determining fov, determine that row (row) row (col) value of shooting area is to shooting area subregion according to formula (2), (3);

row＝((AE_y-AS_y+fov)-ol×fov)/(fov×(1-ol)+1；(2)

col＝((AE_x-AS_x+fov)-ol×fov)/(fov×(1-ol)+1；(3)

C) horizontal, vertical rotating shaft unit turn angle x_angle, y_angle is calculated according to formula (4), (5).

x_angle＝(AE_x-AS_x)/(col-1)(4)

y_angle＝(AE_y-AS_y)/(row-1)(5)

D) shift position of every piece image can be taken according to above step in the hope of rotating shaft, according to row-column arrangement, a location matrix M can be obtained.In M, the axis of rotation position at optional position (i, j) place can be tried to achieve by formula (6).

M[i,j]＝{AS_y+i×y_angle,AS_x+j×x_angle}(6)

Software control system, by the positional information of specifying in load position matrix M line by line, controls two axis of rotation and arrives the position of specifying, and then startup photographing program carries out image acquisition, completes the shooting of all positions in location matrix one by one.

Software control system can preset the shutter of camera, aperture and sensitivity value, also focusing position can be controlled, realize rotating frame system and camera system interlock, reach and automatically control object, namely after frame system rotate in place, automatically snap according to predefined camera parameter immediately, image automatic storage, storage completes afterframe system and automatically turns to next district location and take, until complete the image acquisition of whole high-rise structure.

(2) image mosaic process

High-definition image acquisition platform subregion takes multiple image files, these images are a series of images photographed with different angles by the camera on a fixed position, these images only have slight motion parallax, according to shooting angle and overlapping region threshold value, the arrangement of these image files is become matrix form image sequence, as shown in Figure 3.Concrete splicing is as follows:

A) the location matrix M collected by above-mentioned platform determines adjacent two image file P to be spliced to colleague's element M [i-1, j] and M [i, j] or same column element M [i, j-1] and M [i, j] ₁and P ₂; Wherein, i, j>=2;

B) according to Duplication ol, if P ₁and P ₂colleague, then respectively at P ₁to choose long be P in left side ₁length, wide be w ₁overlapping region I ₁, at P ₂to choose long be P on right side ₂length, wide be w ₂overlapping region I ₂; If P ₁and P ₂same column, then respectively at P ₁to choose long be w in downside ₁, wide be P ₁the overlapping region I of width ₁, at P ₂to choose long be w in upside ₂, wide be P ₂the overlapping region I of width ₂; Determine to splice object, w ₁, w ₂all be greater than ol;

C) to I ₁and I ₂after carrying out Gaussian smoothing, Surf operator is adopted to carry out feature point extraction, I ₁and I ₂characteristic of correspondence point set is f ₁and f ₂.

D) to feature point set f ₁and f ₂adopt RANSAC algorithm to purify, reject invalid unique point, utilize k-dtree and BBF algorithm to the f after purification ₁and f ₂carry out Feature Points Matching, by I ₁and I ₂in unique point carry out one_to_one corresponding.

E) angle due to camera lens shooting is different, makes the scenery in the adjacent two width images photographed there will be geometric deformation, therefore needs I ₁and I ₂align.The geometric transformation Homography matrix that unique point calculates correspondence is tried to achieve in c).Employing formula (7) completes image alignment.

$\left(\begin{array}{c}{x}^{\′}\\ y^{\′}\end{array}\right)=\left(\begin{array}{cc}{a}_{11}& a_{12}\\ a_{21}& a_{22}\end{array}\right)\left(\begin{array}{c}x\\ y\end{array}\right)+\left(\begin{array}{c}{t}_x\\ t_y\end{array}\right)---\left(7\right)$

F) I ₁and I ₂after alignment, adopt average weighted method to I ₁and I ₂merge, weighted average formula is such as formula shown in (8), and I (x, y) is the pixel value at (x, y) place, and w is the width of overlapping region.I ₁and I ₂width identical, therefore directly adopt pixel average to merge, then histogram equalization process carried out to the region after merging, eliminate splicing seams.

$I^{\′}(x,y)=\frac{w_1}{w_1+w_2}*I_1(x,y)+\frac{w_2}{w_1+w_2}{I}_2(x,y)---\left(8\right)$

(3) figure registration process

Previous step completes the splicing work of high definition picture, and the works panoramic picture of high definition is set up.Next be exactly the registration work of high-definition image, its objective is: cutting and calibration are carried out to high definition panorama image, make works and corresponding CAD polar plot coordinate in image, size consistent, among works image registration to CAD figure.

The method of registration is by the coordinate position of changes in coordinates by correspondence in each pixel transform in image to CAD coordinate system, makes image become the image file seemingly possessing geometric coordinate and dimension information with map class.Its concrete steps are as follows:

A) above-mentioned high definition figure figure is carried out gray processing, equalization and binary conversion treatment, obtain the boundary position information of works in image.

B) shape and size actual with it of the works in panoramic picture have deviation, and as shown in Fig. 4 (1) and Fig. 4 (2), view data is carried out geometric transformation by the object of figure registration exactly, realize and CAD figure one_to_one corresponding.By works boundary coordinate one_to_one corresponding in works boundary coordinate in image and CAD figure, changed by bilinearity, for pixel each in image determines correct coordinate position (x, y), the two-wire mapping relations of Fig. 4 (1) and Fig. 4 (2) are as follows:

$\{\begin{array}{c}{x}^{\′}=ax+by+cxy+d\\ y^{\′}=ex+fy+gxy+h\end{array}---\left(9\right)$

C) bring corresponding to A and A ', B and B ' etc. 4 points into formula (9) respectively, 8 coefficients of above-mentioned a-h can be obtained.

E) by after above-mentioned conversion, realize the coordinate of each pixel and actual CAD drawing coordinate one_to_one corresponding, complete image and CAD drawing registration.

(4) Database Systems

After figure carries out registration, determine graphic file pixel size by vector cad file.And according to the length of Pixel Dimensions and number of pixels determination defect, width and area.Completing the image after registration can adopt the defect of the mode of atlas to works outward appearance to mark and measure.And by these defective datas as: position, length, width and area are recorded among database, form defect information database.

Among graphic file after registration, to classification of defects mark and numbering, measure its position and size.By to data analysis and statistics, obtain the defect information database of energy reflect structure thing health status.

For the Evolution of reaction structure health status, different time testing result can be analyzed in defect database, study and judge works health status.Pipe for high-rise structure is supported and maintenance provides science, comprehensively data.

Claims (2)

1. a tall and slender structure appearance delection device, it is characterized in that, comprise tripod (4) and acquisition platform, described acquisition platform comprises the first framework (6) and the second framework (1), described first framework (6) is connected with described tripod (4) top by the rotating shaft (8) vertically arranged, and described first framework (6) can around institute's rotating shaft (8) axial-rotation, described second framework (1) both sides are respectively connected with described first framework (6) both sides by a rotation axis (7), and described second framework (1) can rotate by axle centered by the line of two rotation axiss (7), described second framework (1) is provided with camera (2) and camera lens (3), and described camera (2) central horizontal line and described two rotation axiss (7) are in same plane.

2. tall and slender structure appearance delection device according to claim 1, is characterized in that, described camera lens (3) focal length is more than 100mm.