KR102398241B1 - Remote control crack information monitoring method and apparatus thereof - Google Patents

Abstract

Disclosed are a remote crack information monitoring method and an apparatus thereof. The remote crack information monitoring apparatus comprises: a first slide inspection unit wherein measurement gradations for checking crack progress information are displayed on one side thereof, and the other side thereof is fixed on one side of a wall with a crack; and a second slide inspection unit positioned on an end of the first slide inspection unit in an overlapped state, wherein a transparent display window is formed on one side thereof to check the measurement gradations in accordance with an overlapping degree in accordance with a crack change, and the other side thereof is fixed on the other side of the wall with a crack. According to the present invention, both ends of the first and second slide inspection units are attached to a wall with an existing crack monitor crack, and then increasing and decreasing changes of the measurement gradations are checked through the display window in accordance with crack changes to sense minute changes. Measurement gradation information and an image photographed by a mobile terminal are transmitted to a server after photographing an identification information display unit to automatically store and monitor crack change measurement and location information in the server simply by photographing an image using a dedicated application.

Description

Remote crack information monitoring method and device {REMOTE CONTROL CRACK INFORMATION MONITORING METHOD AND APPARATUS THEREOF}

The present invention relates to a remote crack information monitoring method and apparatus, and more particularly, to a remote crack information monitoring method and apparatus for safety diagnosis of an aged building.

In general, for the safety diagnosis of an aging building, it is necessary to periodically inspect the crack condition of the building.

It is difficult to get permission for new construction and reconstruction as an urban regeneration project, and eco-friendly remodeling projects that reuse buildings after repairs such as remodeling and major repairs are becoming active.

Moreover, when a certain amount of time elapses after the construction of a building, there are many cases where a certain degree of cracking occurs due to various causes. It is more efficient to repair and continue to use the structure.

In addition, in the case of new construction of large buildings, it is essential to evaluate the impact of small and medium-sized buildings in the vicinity and monitor cracks.

As such, a technique for measuring the progress of cracks in a building has been proposed in Korean Utility Model Registration No. 0489397.

Patent Document 1 is a method used in the prior art to fix a measuring slide on which a scale in the shape of a length ruler is drawn, called a slide crack monitor, using an adhesive on both sides around the cracked part of the building wall, and then the fixed wall surface is deformed by increasing or decreasing cracks. A safety diagnosis technician visually judges the change in the scale of a simple slide measurer and writes it down by hand in the report.

A technician directly measures the gap between the holes of the crack tip with a vernier caliper, a tool that can measure the dimensions of a circular hole in the middle of a crack tip by attaching a metal tip called a crack team with adhesive to both sides of the crack wall The method of re-measuring and manually inputting the amount of change is being used.

However, both the slide crack monitor and the crack tip are a method of resistance by manually inputting information measured by the operator after a professional technician visits the site and conducts practical work through visual measurement or measuring equipment, and there are the following problems.

First, the cost loss such as personnel expenses is large due to on-site visits and regular re-visits of safety diagnosis technicians. Third, since crack information measures many parts per building, there is a risk of loss of a lot of measurement data and periodic management. It is difficult for technicians to respond to emergency measurements.

Korea Registered Utility Model No. 0489397 (2019.06.05)

The present invention has been devised in view of the above points, and the problem of the present invention is to measure the progress of cracks more accurately, and to monitor the crack information by converting it into data in a remotely connected server. An object of the present invention is to provide a method and an apparatus therefor.

A remote crack information monitoring apparatus according to the present invention for achieving the above object includes: a first slide inspection unit fixed to one side of a wall on which a measurement scale for checking crack progress information is displayed on one side and cracked on the other side; and a transparent display window is formed on one side so that the measurement scale can be checked according to the degree of overlap according to the crack change while being positioned in an overlapping state on the end of the first slide inspection part, and fixed to the other side of the wall where the crack is generated on the other side The second slide inspection unit may include left and right slides.

The second slide inspection unit may include an identification information display unit on which location information such as a building address, building information, and location of cracks in the building is displayed.

The identification information display unit is a QR code (Quick Response Code), and may be provided in the form of a sticker or a print.

The location information of the identification information display unit and the number of measurement scales displayed on the display window of the second slide inspection unit may be captured as an image by the mobile terminal and then transmitted to the server.

The measurement scale includes a first scale displayed in the display window and a second scale displayed inside or outside the display window, and the second scale is marked with a number for each distance at both ends, so as to visually detect crack changes with the naked eye. may be verifiable.

The first and second scales may be displayed in different colors.

The second slide inspection unit may have a start line formed on the display window in a width direction, and a reference line formed at an end portion.

In addition, the remote crack information monitoring method of the present invention comprises: a first step of moving the first and second slide inspection parts fixed to one and the other side of the wall where cracks have occurred according to the crack change; a second step of acquiring an image by photographing the number of measurement scales displayed on the display window of the second slide inspection unit and the identification information display unit displayed on the second slide inspection unit; a third step of recognizing a crack change amount by recognizing the number of measurement scales in the image; and a fourth step of transmitting the crack change amount and location information to the server.

The third step is to count the number of measurement scales in the display window in the image reading-only app or server of the mobile terminal device to measure the actual measurement standard, and to count the amount of change in the number of measurement graduations during subsequent measurement. It can be used as actual measurement data.

The fourth step may be automatically stored in the server as a building address, building information, and location information that is the location of a crack in the building by automatically recognizing the identification information display unit in the image.

When the third step is performed, the crack change may be visually confirmed through the number of the measurement scale displayed on the outside of the display window of the second slide inspection unit.
In addition, the present invention, a first slide inspection unit that is fixed to one side of the measurement scale that can check the progress information of the crack is displayed on one side, the other side of the cracked wall surface; and a transparent display window is formed on one side so that the measurement scale can be checked according to the degree of overlap according to the crack change while being positioned in an overlapping state on the end of the first slide inspection part, and fixed to the other side of the wall where the crack is generated on the other side a second slide inspection unit; including, wherein the first and second slide inspection units allow the first division to be positioned within the display window when initially installed on a cracked wall, and the second division to be opaque at the end of the display window and the other end of the second slide inspection unit adjacent thereto, so that it is not visible, and the measurement scale is a first scale displayed in the display window and a length longer than the first scale inside or outside the display window It is composed of a displayed second scale, and the second scale is displayed on the outside of the display window as the number of the first scale displayed in the display window is decreased when the cracks are widened, and when the crack is uniformly narrowed, the displayed in the display window As the number of first scales increases, the second scale may be partially displayed in the display window.
In addition, the present invention, a first step of moving the first and second slide inspection parts fixed to one and the other side of the cracked wall surface according to the crack change; a second step of acquiring an image by photographing the number of measurement scales displayed on the display window of the second slide inspection unit and the identification information display unit displayed on the second slide inspection unit; a third step of recognizing a crack change amount by recognizing the number of measurement scales in the image; and a fourth step of transmitting the crack change amount and location information to the server; and, before performing the first step, the first and second slide inspection units are initially installed on the wall where the crack has occurred, and the first scale is displayed in the display window. position, the second scale is hidden between the end of the display window formed in opaque and the other end of the second slide inspection part adjacent thereto, and when the first step is performed, the measurement scale is within the display window It is composed of a first scale displayed in , and a second scale displayed inside or outside the display window while having a length longer than the first scale, and when the crack is opened, the number of the first scale displayed in the display window decreases The second scale may be displayed outside the display window, and when the uniformity is narrowed, the number of the first scales displayed in the display window increases and the second scale may be partially displayed in the display window.

According to the present invention, after attaching both ends of the first and second slide inspection units to the wall where cracks have been generated in the existing crack monitor, the number of measurement scales decreases and increases through the display window according to the crack change, so that minute changes can be detected. Since the measurement scale information and the identification information display unit are photographed as images by the mobile terminal device and transmitted to the server, crack change measurement and location information are automatically stored in the server only by taking an image using a dedicated app, and monitoring is possible.

1 is a plan view illustrating a state in which first and second slide inspection units are separated in the remote crack information monitoring apparatus of the present invention.
2 is a plan view and a front view showing an initial installation state of the first and second slide inspection units in the remote crack information monitoring device of the present invention.
3 is a plan view showing a state in which the first and second slide inspection units of the remote crack information monitoring device of the present invention are opened by cracks.
4 is a plan view showing a state in which the first and second slide inspection parts of the remote crack information monitoring device of the present invention are narrowed by cracks.
5 is a plan view illustrating various marking methods for preventing an image measurement error after taking an image in the remote crack information monitoring device of the present invention.
6 is a plan view showing a method for improving the intuitive visual measurement function in the remote crack information monitoring device of the present invention.
7 is a block diagram illustrating a remote crack information monitoring method of the present invention.
8 is a schematic diagram illustrating a process of photographing a remote crack information monitoring device as an image by a mobile terminal device and then transmitting the image to an automatic server in the remote crack information monitoring method of the present invention.

The above objects, features and other advantages of the present invention will become more apparent by describing preferred embodiments of the present invention in detail with reference to the accompanying drawings. Hereinafter, a remote crack information monitoring method and apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 6 , the remote crack information monitoring apparatus 100 of the present invention includes a first slide inspection unit 110 and a second slide inspection unit 120 , and opposite ends overlap each other to advance cracks Display information.

As shown in FIGS. 1 to 4, the first slide inspection unit 110 has a fixing part 112 formed to be fixed to one side of the wall where the crack has occurred on the bottom surface of the outer end, and the progress information of the crack is confirmed on the inner upper surface. A possible measurement scale 114 is displayed.

The fixing part 112 may be coupled by a screw or the like, or an adhesive or the like is applied to enable coupling by an adhesive force.

The measurement scale 114 includes a first scale 114a displayed in the display window 124 of the second slide inspection unit 120 and a second scale 114b displayed inside or outside the display window 124 . At this time, the first scale 114a is displayed in black, and the second scale 114b is displayed in a red color different from that of the first scale 114a.

And since the first scale 114a is located in the display window 124 of the second slide inspection unit 120, it is formed with a length corresponding to the width interval of the display window 124, and the second scale 114b is the second slide inspection unit ( It is formed with a length corresponding to the reference line (126b) formed on both ends of the 120).

Moreover, the first and second scales 114a can be used by adjusting the spacing according to need among 0.2 to 0.7 mm intervals, and changes can be made without being limited thereto.

The first scale 114a coincides with the start line 126a formed on both sides of the center of the display window 124 of the second slide inspection unit 120 at the time of initial installation since the reference line 115 is formed on both sides of the rear side.

In addition, the second scale 114b is hidden by the second slide inspection unit 120 when the first and second slide inspection units 110 and 120 are initially installed.

In addition, the second scale 114b is marked with a number for each distance at both ends, so that it is possible to visually check the crack change.

For example, numbers are marked in units of 5 mm at one end of the second scale 114b, and numbers are marked in units of 10 mm at the other end, so that the size of the numbers can be greatly increased.

As shown in Figs. 1 to 4, the second slide inspection unit 120 has a fixing unit 122 formed therein so as to be fixed to the other side of the wall where a crack has occurred on the bottom surface of the outer end, and the first, A transparent display window 124 is formed so that the measurement scale 114 can be checked according to the overlapping degree of the 2 slide inspection units 110 and 120, and a rectangular start line 126a is formed on both sides of the center of the display window 124, respectively. , while parallel to the start line 126a and the reference lines 126b formed on both ends of the end are respectively formed in a rectangular shape. Here, the second slide inspection unit 120 is formed to be opaque other than the display window 124 .

At this time, the start line 126a is displayed in black like the first scale 114a, and the reference line 126b is displayed in red like the second scale 114b. It is possible.

Furthermore, in the second slide inspection unit 120 , the identification information display unit 128 is displayed between the fixing unit 122 and the display window 124 .

Here, the identification information display unit 128 is a QR code (Quick Response Code) in which location information such as a building address, building information, and the location of cracks in the building is displayed is applied thereto.

The identification information display unit 128 is provided in the form of a sticker or a print on the second slide inspection unit 120 .

In this way, the position information of the identification information display unit 128 and the number of first scales 114a among the measurement scales 114 of the first slide inspection unit 110 displayed on the display window 124 of the second slide inspection unit 120 After being photographed as an image by the mobile terminal device (H), it is automatically transmitted to the server (S) (refer to FIG. 8).

And although not shown in the drawing, the mobile terminal device (H) stores an image reading-only app, and counts the number of first scales (114a) when shooting the remote crack information monitoring device 100 in the dedicated app to measure the actual measurement standard Then, the amount of change in the number of the first scales 114a is counted and used as actual measurement data when measuring later.

And the identification information display unit 128 is automatically recognized in the captured image, and the location information such as the building address, building information, and the location of cracks in the building is automatically stored and linked to the server S only by shooting.

And the server (S) through the identification information display unit 128, the automatic server (S) link information attached together with the attached building address, building information, location information such as the location of cracks in the building is stored DB.

Meanwhile, referring to FIG. 5 , various marking methods can be applied to prevent measurement errors after taking an image.

For example, the start line 126a is formed at each of the four corners other than the center of the display window 124, or the start line 126a is formed at each of the four corners other than the center of the display window 124. It is possible to show a white rectangle. In addition, the edge of the display window 124 may be displayed with one black line or with two black lines.

And it is possible to show a white rectangle on the edge of the reference matching line (115).

In addition, referring to FIG. 6 , in order to improve the intuitive visual measurement function, the first slide inspection unit 110 and the second slide inspection unit 120 are arranged in a spaced apart state rather than on the same horizontal line, so that the first scale 114a starts. It is positioned below the line 126a, and the second scale 114b is positioned below the reference line 126b. In this case, the start line 126a is formed at each of the four corners rather than the center of the display window 124 .

7 and 8, the remote crack information monitoring method of the present invention includes the steps of installing the first and second slide inspection units (S200), moving the first and second slide inspection units according to crack changes (S210), and measuring scale It includes a number and location information photographing step (S220), a crack change amount recognition step (S230) and a server transmission step (S240).

In the first and second slide inspection unit installation steps (S200), the fixing unit 112 of the first slide inspection unit 110 is fixed to one side of the wall where the crack has occurred, and the second slide inspection unit ( It is a step of fixing the fixing part 122 of the 120).

At this time, in the first and second slide inspection unit installation step ( S200 ), the first scale 114a is positioned in the display window 124 of the second slide inspection unit 120 at the time of initial installation, and the second scale 114b is the second It is hidden by the slide inspection unit 120 and is not visible.

Furthermore, the reference matching line 115 provided in the first scale 114a and the both start lines 126a are matched.

In the step of moving the first and second slide inspection units according to the crack change (S210), the first and second slide inspection units 110 and 120 move inwardly or outwardly according to the crack change. This is the stage to confirm the change in which the number of cells decreases and increases.

That is, when the first and second slide inspection units 110 and 120 are opened by cracks, the following is the case.

After the initial line installation, when the first and second slide inspection units 110 and 120 are opened by cracks, the number of first divisions 114a in the display window 124 of the second slide inspection unit 120 decreases, and the first divisions 114a ), and the degree of change in the reference line 126a (the change in the left and right lines of the reference line 115 in accordance with the reference standard in the starting line 126a).

At this time, as the red second scale 114b appears to the right of the red reference line 126b, the degree of change is intuitively sensed, and visual measurement is also possible at intervals of 5 mm.

Next, as the cracks are narrowed, when the first and second slide inspection units 110 and 120 are closed, it is as follows.

When the crack is narrowed after the initial line installation, the number of first scales 114a in the display window 124 of the second slide inspection unit 120 increases.

On the other hand, when the measurement limit is exceeded, the starting line 126a is made during image measurement, and the number of lines changed to the left based on the reference agreement line 115 is checked and measured.

Moreover, the red second scale 114b is displayed on the display window 124 of the second slide inspection unit 120, and it is also possible to intuitively check the rate of change.

The number of measurement scales and location information photographing step (S220) includes the number of first scales 114a displayed on the display window 124 of the second slide inspection unit 120, and the identification information display unit displayed on the second slide inspection unit 120 ( 128) is a step of acquiring an image by photographing it with a mobile terminal device (H) such as a smartphone.

The crack change amount recognition step S230 is a step for recognizing the crack change amount by recognizing the number of first scales 114a in the image acquired through the mobile terminal device H.

That is, the crack change amount recognition step (S230) is an image reading-only app of the mobile terminal device (H), or the number of first scales (114a) in the display window 124 of the second slide inspection unit 120 in the server (S) The actual measurement standard is measured by counting, and the amount of change in the number of first scales 114a measured during subsequent measurement is counted and used as measurement data.

Furthermore, by driving the dedicated app, the information of the remote crack information monitoring device 100 is stored together only once (building address, building information, crack location in the building, etc.), and the QR code that is the identification information display unit 128 when shooting afterwards Because the crack location information is matched to the information, crack change measurement and location information are automatically stored in the server (S) only by video shooting using a dedicated app.

Meanwhile, when the crack change amount recognition step S230 is performed, the operator can visually check the crack change through the numbers on the second scale 114b.

The server transmission step (S240) is a step of transmitting the crack change amount according to the number change amount of the first scale 114a and the location information through the identification information display unit 128 to the server (S).

Therefore, in the present invention, when a safety diagnosis expert visits and attaches the first and second slide inspection units 110 and 120 to a cracked wall, etc., and stores the location information through a dedicated app, the initial installation is completed, and then During regular inspection and emergency inspection, anyone in the public downloads and installs a dedicated app, visits a crack site, and records only the first and second slide inspection units 110 and 120 with camera images to complete the actual measurement remote inspection.

In case of an emergency inspection from a long distance (eg, Pohang earthquake-affected area, etc.), it is possible to measure through a local partner company or the general public without an expert on-site business trip. can

In such a situation, it is a service that can reduce labor costs and create jobs nationwide by distributing a dedicated app free of charge and notifying the real-time job site photo taking service (part-time job) so that the general public in nearby areas can easily participate. It is finished when you receive an order for a part-time job through the app while delivering, etc., and you only need to shoot 10 cracks in a building. It is a business that generates service types).

Although embodiments of the present invention have been described above with reference to the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can realize that the present invention may be embodied in other specific forms without changing its technical spirit or essential features. you will be able to understand Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

100: remote crack information monitoring device 110: first slide inspection unit
112, 122: fixing part 114: measuring scale
114a: first scale 114b: second scale
120: second slide inspection unit 124: display window
126a: start line 126b: reference line
128: identification information display unit H: mobile terminal device
S: Auto Server

Claims (11)

a first slide inspection unit having a measurement scale on one side to check crack progress information and fixed to one side of a wall where cracks occur on the other side; and
The first slide inspection unit is positioned in an overlapping state at the end, and a transparent display window is formed on one side so that the measurement scale can be checked according to the degree of overlap according to the crack change, and the second side is fixed to the other side of the wall where the crack has occurred on the other side. 2 slide inspection unit; includes,
The measurement scale is composed of a first scale displayed in the display window, and a second scale that is longer than the first scale and displayed inside or outside the display window, and the first scale displayed in the display window when cracks are opened As the number of scales decreases, the second scale is displayed on the outside of the display window, and when the uniform narrowing, the second scale is partially displayed in the display window as the number of the first scale displayed in the display window increases,
When the first and second slide inspection units are initially installed on a cracked wall, the first scale is positioned within the display window, and the second scale is opaque at the end of the display window and the second slide inspection unit adjacent thereto Remote crack information monitoring device, characterized in that it is hidden between the other end of the
The method of claim 1,
The second slide inspection unit remote crack information monitoring device, characterized in that it comprises a building address, building information, and an identification information display unit on which location information that is the location of a crack in the building is displayed.
3. The method of claim 2,
The identification information display unit is a QR code (Quick Response Code), a remote crack information monitoring device, characterized in that provided in the form of a sticker or a print.
3. The method of claim 2,
The remote crack information monitoring device, characterized in that the position information of the identification information display unit and the number of measurement scales displayed on the display window of the second slide inspection unit are taken as images by a mobile terminal device and then transmitted to the server.
The method of claim 1,
The second scale is a remote crack information monitoring device, characterized in that the number for each distance is marked on both ends, so that the crack change can be visually confirmed.
6. The method of claim 5,
The remote crack information monitoring device, characterized in that the first and second scales are displayed in different colors.
The method of claim 1,
The second slide inspection unit remote crack information monitoring device, characterized in that the start line is formed in the width direction on the display window, and the reference line is formed at the end.
A first step of moving the first and second slide inspection parts fixed to one and the other side of the cracked wall according to the crack change;
a second step of acquiring an image by photographing the number of measurement scales displayed on the display window of the second slide inspection unit and the identification information display unit displayed on the second slide inspection unit;
a third step of recognizing a crack change amount by recognizing the number of measurement scales in the image; and
A fourth step of transmitting the crack change amount and location information to the server; includes,
When the first step is performed, the measurement scale is composed of a first scale displayed within the display window, and a second scale that is longer than the first scale and displayed inside or outside the display window. As the number of the first scales displayed in the display window decreases, the second scales are displayed outside the display window, and when uniformly narrowing, the number of the first scales displayed in the display window increases as the number of the first scales increases, so that the second scales are displayed in the display window. some are displayed,
Before performing the first step, the first and second slide inspection units allow the first scale to be positioned within the display window when initially installed on a wall where cracks have occurred, while the second scale is opaque at the end of the display window and adjacent to it Remote crack information monitoring method, characterized in that it is hidden between the other end of the second slide inspection part and not visible.
9. The method of claim 8,
The third step is to count the number of measurement scales in the display window in the image reading-only app or server of the mobile terminal device to measure the actual measurement standard, and to count the amount of change in the number of measurement scales when measuring later and use it as actual measurement data A remote crack information monitoring method with
9. The method of claim 8,
The fourth step is a remote crack information monitoring method, characterized in that by automatically recognizing the identification information display unit in the image and automatically stored in the server as a building address, building information, and location information that is a crack location in a building.
9. The method of claim 8,
Remote crack information monitoring method, characterized in that the crack change can be visually confirmed through the number of the measurement scale displayed on the outside of the display window of the second slide inspection unit when the third step is performed.

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