CN204612702U - Crack multi-parameter observation device based on close-range photogrammetry - Google Patents

Abstract

The utility model discloses a crack multi-parameter observation device based on close-range photogrammetry, include: the image acquisition module is used for acquiring the state of the crack and generating a crack image; the orientation determining module is used for determining the orientation of the crack, marking the orientation on the crack image and generating a marked image; the image processing module is used for analyzing the crack image, generating crack parameters, marking the crack parameters on the marked image and generating a result image; and the storage module is used for storing the crack image and the result image. Therefore, the data of the observed crack is more accurate, the reliability is high, the operation is simple and convenient, and the crack monitoring efficiency is effectively improved.

Description

A kind of crack multiparameter observation device based on close-range photogrammetry

Technical field

The utility model relates to gap observation field, is specifically related to a kind of crack multiparameter observation device based on close-range photogrammetry.

Background technology

Geologic hazard professional monitoring comprises the contents such as geometric deformation monitoring, influence factor monitoring and ess-strain monitoring, wherein the growth of ground fissure can reflect deformable body macroscopic deformation situation, the key content of geologic hazard geometric deformation monitoring, for Geological Hazards Monitoring early warning provides important data supporting.

Buildings or structures deformation monitoring and quality testing comprise that in-plane displancement is monitored, perpendicular displacement is monitored, tilt that (verticality) monitors, Crack Monitoring, ess-strain are monitored and the content such as structural intergrity, the stressed detection of material.Structural cracks developmental state is reflect structure deformation not only, reflects structure stress distribution situation simultaneously, and therefore Crack Monitoring is the important content of structural deformation monitoring and quality testing, significant to the control tool of structural safety state.

At present, the equipment for Crack Monitoring mainly contains reading microscope, crack gauge and New Instrument for Crack Width etc., and wherein reading microscope observation utilizes optical microphotograph principle realize the amplification in crack and measure; Crack gauge pre-plugged, to works surface or inner, mainly utilizes type vibration wire sensing principle to realize the observation of Fracture Deformation situation; New Instrument for Crack Width mainly utilizes infrared scan and image-forming principle to realize fracture width and measures.

Above-mentioned several equipment or observation device Problems existing mainly contain following some:

1, monitoring parameter is single, and this kind equipment lays particular emphasis on the observation of fracture width parameter more at present;

2, automaticity is low, obvious in industry working time boundary line indoor and out of doors.Regularly arrive monitoring point carry out manual operation, record owing to needing technician, then carry out industry in observation data and arrange and analyze, monitoring efficiency is comparatively low;

3, to set up requirement in advance higher for equipment pre-plugged or observation monument.Strict its requirement of installation must carry out for ensureing that accuracy of observation crack gauge is buried underground, adopting when New Instrument for Crack Width or reading microscope and must set up obvious observation monument, once observation monument is impaired, Monitoring Data sequence interruptions will be caused;

4, observation data precision of inner coincidence is difficult to ensure.Because above-mentioned several scope or observed pattern are affected by human factors comparatively large, thus cause that multiple observations data are poor even exceedes true strain amount.

Therefore, proposing a kind of new gap observation device, needing the problem of consideration by becoming technician.

Utility model content

The technical problems to be solved in the utility model is, provides a kind of crack multiparameter observation device based on close-range photogrammetry, and make the data of observation more accurate, reliability is high, easy and simple to handle, thus effectively raises the efficiency of Crack Monitoring.

In order to solve the problems of the technologies described above, the utility model provides a kind of crack multiparameter observation device based on close-range photogrammetry, comprising:

Image capture module, for obtaining the situation in crack, generates crack pattern picture;

Orientation determination module, for determining the orientation in described crack, and is marked on described crack pattern picture, generates marking image;

Image processing module, for analyzing described crack pattern picture, generating fracture parameters, and being marked on described marking image by described fracture parameters, generate result map picture;

Memory module, for storing described crack pattern picture and described result map picture.

Preferably, described image capture module comprises: focus digital camera lens and demarcating module, described in focus digital camera lens, for obtaining the situation in described crack; Described demarcating module, is made up of orthogonal two groups of triangle collimation marks, for demarcating image yardstick, and to the described distortion correction focusing digital camera lens.

Preferably, described orientation determination module comprises: GPS locator and electronic compass and double-shaft tilt angle sensor, and described GPS locator, for obtaining the geographic position in described crack, and described geographic position is labeled on described crack pattern picture, described geographic position comprises longitude and latitude; Described electronic compass, for determining the horizontal direction that described crack is grown in described geographic position, generating direction angle, and described position angle is labeled on described crack pattern picture; Described double-shaft tilt angle sensor, for determining the vertical direction that described crack is grown in described geographic position, generating pitch angle, and being labeled on described crack pattern picture at described pitch angle.

Preferably, described electronic compass is provided with obliquity sensor, the horizontal direction that during for tilting to described electronic compass, measured described crack is grown in described geographic position compensates.

Preferably, described fracture parameters comprises: observation time and fracture width and observational error.

Preferably, described device is also provided with wireless communication module, for described result map picture is sent to destination address.

Preferably, described result map picture is sent to destination address and adopts GPRS or GSM communication mode to carry out communication.

Preferably, described device is also provided with display screen, for showing the situation of described crack pattern picture or result map picture or described crack.

Preferably, described display screen is provided with screen protective cover, for the protection of described display screen.

Preferably, described memory module is the internal memory or the SD card that are integrated in described device.

The beneficial effects of the utility model are, measurement parameter aspect, this device achieves multiparameter observation, compared with the observation laying particular emphasis on fracture width parameter with prior art, the parameter that this device obtains not only comprises fracture width, also comprise: pitch angle, position angle, the longitude and latitude of observation place, the correlation parameters such as observation time, make the more concrete of the data of observation, comprehensively, can realize providing when the analysis and research in crack real data comprehensively; Robotization aspect, this device achieves the automatic hourly observation place of device, time, pitch angle, the relevant informations such as position angle, have so just avoided manually manual operation, simultaneously because this device is directly stored in data in figure phase, just avoid the later stage manually to the step of data preparation, thus effectively raise the efficiency of measurement; Flexibility ratio aspect, this device does not need the foundation in advance by pre-plugged or observation monument, just can realize the observation of fracture accurately, this reduces the requirement of fracture observation, makes gap observation flexibility ratio higher; Data accuracy aspect, because the man's activity be subject to during this measurement device is less, just makes the result of measurement more objective.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is one-piece construction schematic diagram of the present utility model;

Fig. 2 is the structural representation of middle demarcating module of the present utility model;

Fig. 3 is the schematic diagram in the utility model observation process.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Main thought of the present utility model is, the real time status in crack is gathered by image capture module, thus generate crack pattern picture, afterwards, determined the orientation in actual crack by orientation determination module, be marked on crack pattern picture, meanwhile, image processing module is also analyzed at opposite joint image, generates fracture parameters, and fracture parameters is recorded on the labeled crack pattern picture of orientation determination module, generate result map picture; Finally crack pattern picture and result map picture are unifiedly stored in memory module.So just make the data of observation more accurate, reliability is high, easy and simple to handle, thus effectively raises the efficiency of Crack Monitoring.

With reference to shown in Fig. 1, the utility model comprises: image capture module 101, orientation determination module 102, image processing module 103, memory module 104, wireless communication module 105 and display screen 106.

Image capture module 101, for obtaining the situation in described crack, generates crack pattern picture;

Orientation determination module 102, for determining the orientation in described crack, and is marked on described crack pattern picture, generates marking image;

Image processing module 103, for analyzing described crack pattern picture, generating fracture parameters, and being marked on described marking image by described fracture parameters, generate result map picture;

Memory module 104, for storing described crack pattern picture and described result map picture.

Image capture module 101 comprises: focus digital camera lens 1011 and demarcating module 1012 and LED (light emitting diode) lamp 1013; Describedly focus digital camera lens 1011, for obtaining the situation in described crack; As preferably, the pixel value focusing digital camera lens 1011 is greater than 1,000,000, so just can ensure the sharpness obtaining image, and digital camera lens employing focuses digital camera lens 1011 advantage and is that he has large aperture, and the image quality of acquisition image is high.Can according to camera lens elements of interior orientation (x ₀y ₀f) design apparatus apparent size (comprising diameter and bus length), final acquisition optimal digital image.With reference to shown in Fig. 1 or Fig. 2, described demarcating module 1012, is made up of orthogonal two groups of triangle collimation marks, for demarcating image yardstick, and to the described distortion correction focusing digital camera lens.Size between any two collimation marks of this collimation mark can accurately obtain, and can resolve picture planar dimension relation and clear and definite observational error after imaging by extracting described collimation mark; LED 1013, the light for fracture plays supplementary function, thus improves the crack image effect obtained.

Orientation determination module 102 comprises: double-shaft tilt angle sensor 1021 and electronic compass 1022 and GPS (GPS) steady arm 1023, described GPS locator 1023, for obtaining the geographic position in described crack, and described geographic position is labeled on described seam image, described geographic position comprises longitude and latitude; Described double-shaft tilt angle sensor 1021, determines for the change by measuring static weight acceleration the vertical direction that described crack is grown in described geographic position, generates pitch angle, and is labeled on described crack pattern picture at described pitch angle.Double-shaft tilt angle sensor 1021 has significant load capacity and extraordinary Impacting endurance, can be realized the measurement at 360 degree of inclination angles by the cooperation of twin shaft, can use inner filter function simultaneously, to realize the target measuring inclination angle in vibration occasion.Described electronic compass 1022, for being utilized terrestrial magnetic field to specify magnetic north direction by electronic technology, determines the horizontal direction that described crack is grown in described geographic position, generating direction angle, and is labeled at described position angle on described crack pattern picture; Electronic compass 1022 is provided with obliquity sensor, so just overcome electronic compass 1022 strict restriction in use, the horizontal direction that described crack measured when electronic compass 1022 is tilted is grown in described geographic position compensates, and so just improves the reliability of fracture development azimuthal observation data greatly.

Image processing module 103, for passing through point, line feature extraction and localization process, solving target fracture width, evaluate its accuracy of observation, described crack pattern picture is analyzed through Image Fusion, generate the fracture parameters such as observation time, fracture width, observational error, and described fracture parameters is marked on described marking image, generate result map picture.Observation time be crack pattern as during imaging from the time that system obtains;

With reference to shown in Fig. 1 or Fig. 3, O is the focus focusing digital camera lens 1011; L is visual field inner left frame mark; R is visual field inner right frame mark; S is crack developed width; D is the left and right collimation mark physical size in the visual field, and s is size on crack pattern; Size on the collimation mark figure of left and right in the d visual field; Wherein, D just can accurately obtain when demarcating module 1012 sets, s and d reads acquisition all automatically; Therefore, the physical size computing formula of fracture width is: S=D*s/d;

Gap observation error is calculated by following formula:

obtain.Wherein, s represents the tested fracture scale of image space, and d represents image space collimation mark yardstick, and S represents object space fracture scale, and D represents object space collimation mark yardstick, represent crack imaging medial error, represent that collimation mark demarcates medial error, represent collimation mark imaging medial error.

Memory module 104, for pluggable SD (storage card of based semiconductor flash technology) blocks or be integrated in the storage inside of device, for storing described crack pattern picture and described result map picture.SD card is a kind of storage card of based semiconductor flash technology, has the feature of Large Copacity, high-performance, safety.

Wireless communication module 105, for described result map picture is sent to destination address, GPRS (packet switching communication technology) or GSM (global system for mobile communications) communication mode is adopted to send when result map picture sends, when can effectively ensure like this to do industry outside, observation information is sent to assigned address in time, realize in office operation, and do the object of industry integration in outdoor.

Display screen 106; for showing the situation of described crack pattern picture or result map picture or described crack; and on described display screen 106, screen protective cover 1061 is set; screen protective cover 1061 can effectively protect display screen 106, and then effectively reduces in the scuffing of outside work to display screen 106.

USB interface, for reading the crack pattern picture in memory module 104 or result map picture or other data write in memory module 104.Battery is be no less than the chargeable high-capacity lithium battery of 1 piece, effectively can meet the demand that long-term field working equipment is powered.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1., based on a crack multiparameter observation device for close-range photogrammetry, it is characterized in that, comprising:

Image capture module, for obtaining the situation in crack, generates crack pattern picture;

Orientation determination module, for determining the orientation in described crack, and is marked on described crack pattern picture, generates marking image;

Image processing module, for analyzing described crack pattern picture, generating fracture parameters, and being marked on described marking image by described fracture parameters, generate result map picture;

Memory module, for storing described crack pattern picture and described result map picture.

2. device as claimed in claim 1, it is characterized in that, described image capture module comprises: focus digital camera lens and demarcating module, described in focus digital camera lens, for obtaining the situation in described crack; Described demarcating module, is made up of orthogonal two groups of triangle collimation marks, for demarcating image yardstick, and to the described distortion correction focusing digital camera lens.

3. device as claimed in claim 1, it is characterized in that, described orientation determination module comprises: GPS locator and electronic compass and double-shaft tilt angle sensor, described GPS locator, for obtaining the geographic position in described crack, and described geographic position is labeled on described crack pattern picture, described geographic position comprises longitude and latitude;

Described electronic compass, for determining the horizontal direction that described crack is grown in described geographic position, generating direction angle, and described position angle is labeled on described crack pattern picture;

Described double-shaft tilt angle sensor, for determining the vertical direction that described crack is grown in described geographic position, generating pitch angle, and being labeled on described crack pattern picture at described pitch angle.

4. device as claimed in claim 3, is characterized in that, described electronic compass is provided with obliquity sensor, and the horizontal direction that during for tilting to described electronic compass, measured described crack is grown in described geographic position compensates.

5. device as claimed in claim 1, it is characterized in that, described fracture parameters comprises: observation time and fracture width and observational error.

6. device as claimed in claim 1, it is characterized in that, described device is also provided with wireless communication module, for described result map picture is sent to destination address.

7. device as claimed in claim 6, is characterized in that, described result map picture is sent to destination address and adopts GPRS or GSM communication mode to carry out communication.

8. device as claimed in claim 1, it is characterized in that, described device is also provided with display screen, for showing the situation of described crack pattern picture or result map picture or described crack.

9. device as claimed in claim 8, is characterized in that, described display screen is provided with screen protective cover, for the protection of described display screen.

10. device as claimed in claim 1, it is characterized in that, described memory module is the internal memory or the SD card that are integrated in described device.