KR20130076988A - System for portable video inspection - Google Patents

Abstract

PURPOSE: A portable image inspection system is provided to extract a position, a direction, a width, and a length in respect to cracks and damages of a bridge and a structure and to create data, thereby efficiently inspecting the bridge. CONSTITUTION: A portable image inspection system includes an inspection support unit (100), an image photographing unit (200), a cable adjusting unit (300), an inspection control unit (400), and a display unit (500). The inspection support unit makes a camera approach an inspection spot of a bridge and a structure hard to access by adjusting the length. The image photographing unit photographs images of cracks and damages of the bridge and the structure and inspect the exterior surfaces thereof. The cable adjusting unit supplies power to the image photographing unit and winds a power and driving cable for adjusting a position of the camera with a spring mode and generates an elastic force of a spring, thereby extending the cable as much as the inspection support unit extended when the inspection support unit adjusts the length regardless of the length of the cable. The inspection control unit supplies power for operating the camera at a position desired to photograph and transmits the photographed images to a remote location.

Description

Portable video inspection system {System for portable video inspection}

The present invention relates to a portable image inspection system that mounts a camera to take images of inspection locations that are difficult to access bridges and structures, and to measure the appearance and cracks and damages of bridges and structures. A camera and ultrasonic distance sensor are mounted on a check bar that can adjust the length of the inspection location that is difficult to access the structure, and the exterior image of the bridge and the structure, and cracks and damages are photographed. Measures the distance between the measured cracks and damaged parts and the camera and calculates and analyzes the length, width, direction, etc. of the cracks and damaged parts through the measurement scale bar, and analyzes the cracks and damaged parts of bridges and structures. The history can be created and saved, and the analyzed data can be directly displayed on site A portable video inspection system that can be played and transmitted remotely.

In general, when performing the inspection for the diagnosis of the aging of large structures such as bridges, there is a need for a method that can be economically and efficiently perform the external inspection of the lower elevation of the bridge, which is difficult to perform periodic visual inspection.

Industrial infrastructures, such as bridges, are regularly inspected and diagnosed to ensure safety, and primarily rely on external inspection to inspect the structure for cracks and corrosion.

The existing test method is to install a work platform like scaffold at the lower part of the bridge, a moving passage and bar plate, and to inspect the corrosion and crack condition of the bridge on the bottom of the bridge. If the cost is high and windy, there is a disadvantage that the work platform of the bridge under the bridge is not secured to ensure safety.

In addition, the recently introduced inspection method using the bridge inspection vehicle is equipped with a basket that the inspector rides on the tip of the multi-stage boom of the bridge inspection vehicle, so that the risk of a safety accident is high and to support the load and the basket of the inspector. Due to the large boom and the larger body, and the larger size of the vehicle, there was a problem that the road occupied area was wide when the bridge was inspected.

In addition, if the inspection work is performed by the inspector's eyes only, the inspector only knows the inspection data, so there is no trust in the inspection and the inspection data cannot be stored, which makes it difficult to review or analyze the inspection data later. There was a problem that could not be systematically managed. In particular, the cracks and cracks generated in the concrete of the concrete structure has to be classified into a database for various factors such as the location, direction, width, length of the cracks and cracks, there was a problem that can not be systematically managed.

The present invention has been made to solve the above problems by installing a camera on the top of the inspection bar that can adjust the length of the inspection location difficult accessibility of bridges and structures to check the appearance and cracks and damage of the bridges and structures Shooting and analyzing the photographed image to calculate the occurrence position, direction, width, length, etc. for the cracks and damaged parts of the bridge and structure and to make a database to efficiently check the bridge, the image taken directly in the field Its purpose is to provide a portable video inspection system that can manage systematic inspection history by displaying data and inputting a description of cracks and damages.

The present invention provides a portable image inspection system that is equipped with a camera to take an image of the inspection location difficult accessibility of bridges and structures, and to measure the appearance and damage and cracks of the bridges and structures through this,

An inspection support unit configured to approach the camera by adjusting a length to an inspection location having difficulty in accessing the bridge and the structure;

An image capturing unit positioned at an upper end of the inspection support part to approach an inspection location having difficulty in accessing the bridge and the structure through the inspection support part to photograph an image such as exterior inspection and crack and damage to the bridge and the structure through a camera;

It is formed at the lower end of the inspection support part to supply power to the image photographing part and wind the power and drive cable for driving the position of the camera in a winding manner to generate elasticity by a spring to influence the cable when adjusting the length in the inspection support part. Cable adjustment unit that can extend the cable as much as the inspection support is extended without receiving;

It is formed at the bottom of the inspection support portion to supply power to drive the camera to the location to be photographed and to control to drive up, down, left and right, and check to control the transmission of the photographed image to the remote site Control unit;

A display unit configured to display an image photographed by a control of the inspection controller so that a user may check the field; .

In addition, the inspection support unit is installed on the upper end of the inspection control unit and a first check bar that contains a cable for transmitting a signal to adjust the power and the camera up, down, left, right of the camera and the lower end of the image capture unit A second check bar having a built-in cable for transmitting a signal to control the power and the camera's top, bottom, left and right, and formed between the first check bar and the second check bar to form a bridge and structure; It is characterized in that the access bar is made of a check bar length adjuster to access the camera by adjusting the length of the check support to the check position difficult to access.

The check bar length adjusting part is formed to be embedded between the first check bar and the second check bar of the check support, the length adjusting bar to adjust the length between the first check bar and the second check bar, and the first check bar and The length adjustment holder consists of a length adjustment holder for connecting the length adjustment bar and rotating left and right to adjust the length by fixing the position of the length adjustment bar by loosening and tightening the screw, and a fixed holder fixedly connecting the second check bar. Rotate left or right to adjust the length by fixing or releasing the length adjustment bar according to the screw line.

In addition, the image capturing unit is formed on the top of the camera and the camera to detect the inspection and cracks and damage to the exterior inspection of the bridge and the structure by photographing the inspection position difficult to access the bridge and the structure formed on the top of the second inspection bar When the camera photographs the cracks and damaged parts of bridges and structures, an ultrasonic distance sensor that measures the distance between the cameras and the cracks and the damaged locations is formed on the top and bottom of the cameras, and when the cracks and damaged locations of the bridges and structures are photographed. In case it is dark, the image sensing unit comprises an LED unit which generates light and photographs an accurate crack and damage, and is formed between the lower end of the image sensing unit and the second check bar to drive the vertical movement of the image sensing unit through a servo motor. Connected to the camera up and down control unit and the second inspection unit; And it characterized in that the mobile part comprises image position adjusting comprising adjusting the camera right and left parts for driving through a servomotor.

The cable control unit is a cable for transmitting a signal for adjusting the power and the position of the camera to the image pickup unit, a cable case for winding the cable in a winding manner, and the cable is connected to the end wound in the winding manner It is characterized by consisting of a spring giving elasticity to the cable through a certain elasticity.

In addition, the cable control unit is to prevent the cable from twisting in the middle by adjusting the length of the length adjusting bar in the inspection support unit, the cable having tension through the elasticity of the spring to loosen or wound in accordance with the length adjustment of the length adjusting bar. It features.

The inspection control unit may include an image collecting unit which collects images captured by a camera of the image detecting unit, an image storing unit storing the image collected by the image collecting unit as a still cut or a video, and an image stored in the image storing unit. The width and length of cracks and damages of bridges and structures photographed by the camera using the distance measured by the ultrasonic distance sensor of the image sensing unit, are calculated by using a scale bar, and the cracks and damages calculated on the captured images. An image analyzer for inputting the history and description of the part, a camera driver for transmitting a command to move the position of the camera up, down, left, and right through the image position adjusting unit, the image capturing unit and the display unit A power supply unit for supplying a power supply to the remote site via wired and wireless communication And a data transmitting unit for transmitting, characterized by comprising a control unit for controlling the image taking portion and the display portion.

The present invention by installing a camera on the top of the inspection bar that can adjust the length of the inspection location difficult to access the bridge and structure, the exterior inspection of the bridge and the structure and the cracks and damaged parts taken by analyzing the photographed image of the bridge And calculating the location, direction, width, and length of the cracks and the damaged parts of the structure and making them into a database so that efficient bridge inspection can be made.

In addition, by displaying the image taken through the camera in the field and inputting a description of the crack and damage occurred, it is possible to transmit data to the remote site, wired or wireless, so that it is possible to manage the systematic inspection history.

1 is a perspective view of a portable image inspection system according to the present invention.
2 is a detailed view of the inspection support unit of the portable image inspection system according to the present invention.
3 is a detailed view of an image photographing unit of a portable image checking system according to the present invention.
Figure 4 is a detailed view of the cable control unit of the portable inspection system according to the present invention.
5 is a block diagram of the inspection control unit of the portable video inspection system according to the present invention.
6 is a detailed view of the display unit of the portable inspection system according to the present invention.

The present invention is equipped with a camera 211, the ultrasonic distance sensor 212 to the inspection bar (110, 120) adjustable length of the inspection location difficult accessibility of bridges and structures, the inspection and crack and damage of the bridge and structure Taking the part and the photographed image is measured the distance between the crack and damage portion and the camera measured by the ultrasonic distance sensor 212 through the check control unit 400, the length, width of the crack and damage portion in the photographed image By using the scale bar for measuring the direction, etc., it is possible to analyze the history of cracks and damaged parts of bridges and structures, and to display the analyzed data on the spot and transmit it to a remote site. With reference to the accompanying drawings, a portable image inspection system according to a preferred embodiment will be described in detail.

1 is a perspective view of a portable image inspection system according to the present invention, Figure 2 is a detailed view of the inspection support of the portable image inspection system according to the present invention, Figure 3 is a detailed image photographing unit of the portable image inspection system according to the present invention Figure 4 is a detailed view of the cable control unit of the portable inspection system according to the present invention, Figure 5 is a block diagram of the inspection control of the portable image inspection system according to the present invention, Figure 6 is a portable inspection system of the present invention Detailed view of the display unit.

The present invention is to mount the camera 211 as shown in Figure 1 to take an image of the inspection location difficult accessibility of bridges and structures, and through this to measure the appearance inspection and cracks and damage of bridges and structures through the bridges and Inspection support unit 100 configured to approach the camera 211 by adjusting the length to the inspection location difficult accessibility of the structure, and inspection is difficult to access the bridge and the structure is located on the top of the inspection support unit 100 Approaching the position through the inspection support unit 100 to check the appearance of the bridge and structure and images such as cracks and damage through the camera 211, the image taking unit 200, and the inspection support unit 100 of It is formed on the lower end to supply power to the image capturing unit 200 and to wind the power and drive cable 310 for driving the position of the camera 211 in a self-winding manner to elasticity by the spring 330 Cable adjustment unit 300 and the inspection support unit that can adjust the length of the cable as long as the portion of the inspection support unit 100 is increased without being affected by the cable 310 when the length is adjusted in the inspection support unit 100, It is formed at the bottom of the 100 to supply power to drive the camera 211 to the location you want to shoot and control to adjust the position of the camera up, down, left, right, and transmit the captured image to the remote site The control unit 400 to control so that the control unit 400, and the display unit 500 to display the image to be confirmed by the user in the field under the control of the control unit 400.

The inspection support unit 100 is to adjust the length to position the camera 211 in the inspection location difficult accessibility of bridges and structures as shown in FIG. 2 installed on the top of the inspection control unit 400 camera A first check bar 110 having a power supply and a cable 310 for transmitting a signal to adjust power, and a signal 310 to adjust the top, bottom, left and right of the camera 211, and the image capturing unit 200. The second check bar 120 is formed at the bottom of the camera 211, the power supply and a cable 310 for transmitting a signal to adjust the up, down, left, right of the camera 211 and the built-in, and It is formed between the first check bar 110 and the second check bar 120 to adjust the length of the check support portion 100 to the access position difficult to access the bridge and structure to allow the camera 211 to approach It consists of a check bar length adjusting unit 130. In addition, the check bar length adjusting unit 130 is formed to be embedded between the first check bar 110 and the second check bar 120 of the check support unit 100 is the first check bar 110 and the first Length adjusting bar 131 to adjust the length between the two check bar 120, the first check bar 110 and the length control bar 131 is connected and loosened and tightened by rotating left and right It consists of a length adjustment holder 132 that can adjust the length by fixing the position of the length adjustment bar 131 with a screw line, and a fixed holder 133 fixedly connected to the second check bar 120, the length adjustment Holder 132 is turned left and right along the thread line, the length adjustment bar 131 is repeatedly loosened and tightened by the screw thread, and after adjusting the length, the length adjustment bar 131 is fixed or released to fix the camera 211 to the inspection position. You can adjust the length to access it.

The image capturing unit 200 is formed on the upper end of the second inspection bar 120, as shown in Figure 3 to photograph the inspection location difficult accessibility of bridges and structures to check the appearance of the bridges and structures and cracks and Formed on top of the camera 211 and the camera 211 for detecting a damaged portion when the camera 211 is photographed cracks and damaged parts of bridges and structures to measure the distance between the camera 211 and the crack and damage location The LED unit is formed on the top and bottom of the ultrasonic distance sensor 212 and the camera 211 to generate light when it is dark when shooting cracks and damaged locations of bridges and structures so as to capture accurate cracks and damaged parts ( 213 formed between the image sensing unit 210 and the lower end of the image sensing unit 210 and the second check bar 120 to drive the vertical movement of the image sensing unit 210 through a servo motor. Kame to say An image position adjusting unit which is connected to an upper and lower adjusting unit 221 and the second checking unit 120 and comprises a camera left and right adjusting unit 222 which drives the left and right movement of the image sensing unit 210 through a servo motor. 220, the ultrasonic distance sensor 212 is a distance between the camera 211 and the place where the actual crack and damage is found when the crack and damage is taken in the image taken by the camera 211 By measuring the width and the length of the cracks and damage parts can be calculated through the distance.

The cable adjusting unit 300 checks the length of the cable 310 for transmitting a command for adjusting the power and the position of the top, bottom, left, right of the camera 211 to the image capturing unit 200. As shown in FIG. 4, the cable 310 which transmits a command signal for adjusting the power and the position of the camera 211 to the image capturing unit 200 as shown in FIG. Cable case 320 for winding the winding 310 in the winding manner, and the cable 310 is connected to the end wound in the winding manner in the spring 330 to give elasticity to the cable 310 through a certain elasticity When the cable adjustment unit 300 adjusts the length to the length adjustment bar 131 in the check support unit 100, the cable 310 having tension through the elasticity of the spring 330 is a length adjustment bar ( Unwind or roll according to length adjustment of 131) It is configured such that the cable group (310) may adjust the length of the length adjustable by cable 310 without twisting the middle of the adjustable bar (131).

The inspection control unit 400 supplies power to and controls the image capturing unit 200 and the display unit 500, as shown in FIG. 5, taken by the camera 211 of the image sensing unit 210. An image collector 410 for collecting images, an image storage unit 420 for storing still images or a video collected by the image collector 410, and an image stored in the image storage unit 420. Using the distance measured by the ultrasonic distance sensor 212 of the image sensing unit 210 to calculate the width and length of the cracks and damage parts of the bridge and the structure photographed by the camera 211 using a scale bar for measurement The image analyzer 430 inputs a history and a description of cracks and damage to the captured image, and the image position adjuster 220 may move the position of the camera 211 up, down, left, or right. Camera driver 440 to send a command so that ), And the power supply unit 450 for supplying power to the image capturing unit 200 and the display unit 500 and the image data photographed by the image detecting unit 210 to a remote site via wired or wireless communication. The controller 470 includes a data transmitter 460, a controller 470 that controls the image capturing unit 200 and the display unit 500. The measurement scale bar measures the distance between the camera 211 and the actual crack and damage portion by the ultrasonic distance sensor 212 to measure the crack and damage portion width and length of the image taken by the camera 211 It is a check standard that converts the length of the photographed image according to the actual length and distance of the SI unit of crack and damage part, and calculates the width and length of the actual crack and damage part of the captured image, The damage can be analyzed.

The present invention having the configuration as described above is to take an image of the inspection location difficult access to the bridge and the structure on top of the camera 211 and through this to check the appearance of the bridge and structure and to measure cracks and damage of the bridge and structure The camera 211 and the ultrasonic distance sensor 212 are mounted on the check bars 110 and 120 whose lengths are difficult to access, and the exterior inspection and cracks and damages of the bridges and structures are photographed. The image measures the distance between the crack and the damaged part measured by the ultrasonic distance sensor 212 and the camera 211 through the inspection control unit 400 to measure the length, width, direction, etc. of the crack and the damaged part. The scale bar can be used to analyze the history of cracks and damages in bridges and structures, and display the analyzed data directly on site. Is configured to transmit to a remote location can be easily measured and checked the exterior cracks and damaged parts of the bridge structure and portable.

As described above, the preferred embodiment according to the present invention has been described, but the present invention is not limited to the above-described embodiment, and the present invention is not limited to the scope of the present invention as claimed in the following claims. Anyone with knowledge of the present invention will have the technical spirit of the present invention to the extent that various modifications can be made.

100: inspection support unit 110: first inspection bar
120: second check bar 130: check bar length adjustment unit
131: length adjustment bar 132: length adjustment holder
133: fixed holder 200: video recording unit
210: image detection unit 211: camera
212: ultrasonic distance sensor 213: LED unit
220: image position control unit 221: camera up and down control unit
222: left and right camera control unit 300: cable control unit
310: cable 320: cable case
330: spring 400: check control
410: image collecting unit 420: image storing unit
430: Image analyzer 440: Camera driver
450: power supply unit 460: data transmission unit
470: control unit 500: display unit

Claims (7)

In the portable image inspection system that is equipped with a camera to take images of the inspection location difficult to access the bridge and structure, through which the inspection of the appearance and damage and cracks of the bridge and structure,
An inspection support unit configured to approach the camera by adjusting a length to an inspection location having difficulty in accessing the bridge and the structure;
An image capturing unit positioned at an upper end of the inspection support part to approach an inspection location having difficulty in accessing the bridge and the structure through the inspection support part to photograph an image such as exterior inspection and crack and damage to the bridge and the structure through a camera;
It is formed at the lower end of the inspection support part to supply power to the image photographing part and wind the power and drive cable for driving the position of the camera in a winding manner to generate elasticity by a spring to influence the cable when adjusting the length in the inspection support part. Cable adjustment unit that can extend the cable as much as the inspection support is extended without receiving;
It is formed at the bottom of the inspection support portion to supply power to drive the camera to the location to be photographed and to control to drive up, down, left and right, and check to control the transmission of the photographed image to the remote site Control unit;
A display unit configured to display an image photographed by a control of the inspection controller so that a user may check the field; Portable video inspection system, characterized in that consisting of.
The method of claim 1,
The inspection support portion
A first check bar installed at an upper end of the check control unit and having a cable configured to transmit a signal to the camera so as to adjust power and up, down, left and right of the camera;
A second inspection bar formed at a lower end of the image capturing unit and having a cable configured to transmit a signal to the camera so as to adjust power, and up, down, left and right of the camera;
A check bar length adjusting unit formed between the first check bar and the second check bar to adjust the length of the check support unit to a check position where accessibility of bridges and structures is difficult to approach the camera; Portable video inspection system, characterized in that consisting of.
The method according to claim 2, wherein
The check bar length adjusting part is formed to be embedded between the first check bar and the second check bar of the check support, the length adjusting bar to adjust the length between the first check bar and the second check bar, and the first check bar and The length adjustment holder consists of a length adjustment holder for connecting the length adjustment bar and rotating left and right to adjust the length by fixing the position of the length adjustment bar by loosening and tightening the screw, and a fixed holder fixedly connecting the second check bar. The portable image inspection system of claim 1, wherein the length is adjusted by fixing or releasing the length adjusting bar according to the screw thread.
The method of claim 1,
The image capturing unit
A camera formed on top of the second inspection bar and photographing a check position where accessibility of bridges and structures is difficult to detect appearance inspection and cracks and damages on the bridges and structures; Ultrasonic distance sensor that measures the distance between the camera and the crack and damage location when the camera is photographing cracks and damaged parts, and formed at the top and bottom of the camera to light when it is dark when shooting cracks and damage locations of bridges and structures An image sensing unit comprising an LED unit to generate and photograph accurate cracks and damages;
It is formed between the lower end of the image detection unit and the second check bar and connected to the camera up and down control unit for driving the vertical movement of the image detection unit through the servo motor and the second check unit to move the left and right movements of the image detection unit to the servo motor. Image position adjusting unit consisting of a camera left and right adjusting unit to drive through; Portable video inspection system, characterized in that consisting of.
The method of claim 1,
The cable control unit is a cable for transmitting a signal for adjusting the power and the position of the camera to the image pickup unit, a cable case for winding the cable in a winding manner, and the cable is connected to the end wound in the winding manner Portable image inspection system, characterized in that consisting of a spring to give elasticity to the cable through a certain elasticity.
The method of claim 5,
The cable adjusting unit is characterized in that when the length of the length adjusting bar in the check support portion, the cable having tension through the elasticity of the spring is released or wound according to the length adjustment of the length adjusting bar to prevent the cable from being twisted in the middle. Portable video inspection system.
The method of claim 1,
The inspection control unit
An image collecting unit collecting the image photographed by the camera of the image detecting unit;
An image storage unit storing the image collected by the image collection unit as a still cut or a video;
Analyze the images stored in the image storage unit and calculate the width and length of cracks and damages of bridges and structures taken by the camera using the distance measured by the ultrasonic distance sensor of the image sensing unit by using a scale bar for measurement. An image analyzer for inputting a history and description of cracks and damage parts calculated on the image;
A camera driver for transmitting a command to move the camera position up, down, left, and right through the image position adjusting unit;
A power supply unit supplying power to the image capturing unit and the display unit;
A data transmitter for transmitting the image data photographed by the image sensor to a remote place through wired or wireless communication;
A controller for controlling the image capturing unit and the display unit; Portable video inspection system, characterized in that consisting of.

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