KR102213894B1 - Method for Automatically Generating Drawings of Cracks in Buildings, and User's Terminal Installed with Program Executing the Method - Google Patents

Abstract

Disclosed are an automatic building crack state drawing generating method and a worker terminal on which a program for an automatic building crack state drawing generating method is installed. The present invention is implemented by the worker terminal through the steps of: outputting a drawing image of a photographing space, which is a space in which a worker performs photographing, on the screen of the worker terminal; receiving selection information of the worker on the drawing image of the photographing space with respect to an inspection target portion in the photographing space; generating a development figure for the inspection target portion based on the photographed image of the inspection target portion; and generating a crack state drawing showing the cracks occurring in the inspection target portion based on the photographed image of the inspection target portion. The present invention automatically generates the crack state development figure with respect to the inspection target portion such as a wall, a column, a slab, a beam, etc. by enabling the worker to photograph the inspection target portion of the building, where the cracks occur, with the worker terminal.

Description

A worker terminal installed with a program that executes the method for automatically generating the crack condition drawing of the building and the method for automatically generating the crack condition drawing of the building {Method for Automatically Generating Drawings of Cracks in Buildings, and User's Terminal Installed with Program Executing the Method}

The present invention relates to a worker terminal installed with a program that executes a method for automatically generating a crack state drawing of a building and a method for automatically generating a crack state drawing of a building. As a result of the photographing, not only the crack state development map is automatically generated for the part to be inspected such as walls, columns, slabs, beams, etc., but also the crack state development map automatically generated for the photographed inspection target area is stored in the operator's terminal. A method of automatically generating a building's crack status drawing and building's crack status so that it can more efficiently support the worker's diagnostic report creation task as it is stored in association with the operator's selection information before shooting for the inspection target area included in the plan of It relates to a worker terminal installed with a program that executes the automatic drawing generation method.

Typically, a worker who visits a building subject to safety diagnosis for safety diagnosis and inspection due to the aging of a building such as crack occurrence moves inside the building and takes pictures of cracked areas such as walls, columns, slabs, and beams.

In this way, the operator takes a picture of the site for each inspection target area of the building and then creates a building diagnosis report.In this process, the operator creates a separate drawing of the crack condition by referring to the photographed picture of the cracked area of the building. .

In this way, it takes extra time and effort for the operator to create a crack condition drawing, and when the operator creates a crack condition drawing by referring to photographs taken of the cracked areas such as walls, columns, slabs, and beams, There is a problem in that the shape and size of can be expressed incorrectly unlike the actual one.

Accordingly, an object of the present invention is, as the operator photographs the inspection target area of the building where the crack has occurred with the operator terminal, not only the crack state development diagram for the inspection target area such as walls, columns, slabs, and beams is automatically generated, but also , Prepare a diagnosis report for the operator as the automatically generated crack state development map for the photographed inspection target area is stored in association with the operator's pre-photographed selection information for the corresponding inspection target area included in the floor plan of the building stored in the operator's terminal. It is to provide a worker terminal installed with a program that executes a method for automatically generating a crack state drawing of a building and a method for automatically generating a crack state drawing of a building to support work more efficiently.

The method for automatically generating a drawing of a crack state of a building according to the present invention for achieving the above object comprises the steps of: (a) outputting, by the operator terminal, a drawing image of a photographing space, which is a space where the operator proceeds to photograph, on the screen of the operator terminal ; (b) receiving, by the operator terminal, input information on the operator's selection on a drawing image of the photographing space for a portion to be inspected in the photographing space; (c) generating, by the operator terminal, a developed view of the inspection target area based on the photographed image of the inspection target area; And (d) generating, by the operator terminal, a crack state diagram indicating a crack generated in the inspection subject area based on the photographed image of the inspection subject area.

Preferably, (e) the operator terminal further comprises the step of generating a crack state development view of the inspection target region by overlapping the crack state diagram with the developed view of the inspection target region.

In addition, (f) the operator terminal further comprises the step of associating and storing the operator's selection information and the crack state development view.

In addition, the drawing image of the photographing space may be a plan image of the photographing space.

In addition, the inspection target site is characterized in that any one of a wall, a column, a slab, and a beam.

In addition, after the step (b) and before the step (c), the operator terminal further comprises a step of receiving, by the operator, the inspection direction selection information for the inspection target area.

In addition, the operator terminal according to the present invention is characterized in that a program for executing the method is installed.

According to the present invention, as an operator photographs an inspection target portion of a building where a crack has occurred with an operator's terminal, a crack state development diagram for an inspection object portion such as a wall, column, slab, or beam is automatically generated.

In addition, according to the present invention, the automatically generated crack state development diagram for the photographed inspection target area is stored in association with the operator's selection information before photographing for the corresponding inspection target area included in the plan view of the building stored in the operator terminal. As a result, it is possible to more efficiently support the work of preparing a diagnosis report for workers.

1 is a flowchart illustrating an execution process of a method for automatically generating a crack state diagram of a building according to an embodiment of the present invention, and
2 to 5 are views showing a screen state of an operator terminal according to execution of a method for automatically generating a crack state diagram of a building according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings. It should be noted that the same elements in the drawings are indicated by the same reference numerals wherever possible. In addition, detailed descriptions of known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

1 is a flowchart illustrating an execution process of a method for automatically generating a crack state diagram of a building according to an embodiment of the present invention, and FIGS. 2 to 5 are automatic generation of a crack state diagram of a building according to an embodiment of the present invention. It is a view showing the screen state of the operator terminal according to the execution of the method.

On the other hand, the operator terminal 200 in the present invention may be a wireless communication terminal such as a smart phone possessed by the operator performing the building safety diagnosis, the operator terminal 200 is a diagram of the crack state of the building according to the present invention An application program that executes the automatic generation method may be installed.

Hereinafter, an execution process of a method for automatically generating a crack state diagram of a building according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5.

First, the worker who visits the building subject to safety diagnosis for inspection according to the aging of the building, such as occurrence of cracks, selects the floor plan image file of the floor being diagnosed from among the floor plan image files for each floor of the corresponding building stored in the worker terminal 200. Do (S110).

Specifically, when a worker is conducting a safety diagnosis on the first floor of the corresponding building, the worker selects a floor plan image file of the first floor among the floor plan image files stored in the worker terminal 200, and thus the worker terminal 200 ), a plan image of the corresponding floor is output as shown in FIG. 2 (S120).

After that, the operator who moves the interior of the floor and performs safety diagnosis checks the occurrence of cracks in the inspection target areas such as walls, columns, slabs, and beams, and decides to photograph the inspection target area.

In the case of determining the photographing of the inspection target portion as described above, the operator selects the inspection target portion determined to be photographed on the plan image of the corresponding floor output on the screen of the operator terminal 200 by a method such as a screen touch as shown in FIG. 2. (S130).

On the other hand, in implementing the present invention, the operator may additionally input selection information of the specific inspection target surface at the inspection target area on the plan image output on the screen of the operator terminal 200 by a screen touch or the like. Will (S140).

Specifically, when the part to be inspected is a wall, the operator selects the wall from the plan image output on the screen of the operator terminal 200 by a screen touch, etc., but selects the specific surface to be inspected on the wall. Selecting the front and rear surfaces separately, or by executing a swipe operation (①) that moves a finger in the direction of the inspection target surface of the wall as shown in FIG. You could do it.

In addition, when the area to be inspected is a pillar, the operator selects the corresponding pillar on the plan image output on the screen of the operator terminal 200 by a screen touch, etc., but if the pillar is a square pillar, the operator Select the surface to be inspected by separating and selecting the surface to be inspected from the sides, or by executing a swipe operation (②), which is an operation of moving a finger in the direction of the surface to be inspected on the column as shown in FIG. 2 You can also enter information.

In addition, when the part to be inspected is a slab, the operator presses the slab with a finger for a predetermined reference time (for example, 1 second) on the plan image output on the screen of the operator terminal 200 (③) Select the area to be inspected by executing, but in the case of pressing with one finger, the upper surface (i.e., the bottom surface) of the slab is selected as the inspection target surface in the slab, and when two or more fingers are pressed simultaneously ( In multi-touch), the lower surface of the slab (that is, the ceiling surface of the lower floor) may be selected as the inspection target surface of the slab.

In addition, when the part to be inspected is visible, the operator simultaneously presses a pair of pillars each connected to the left and right ends of the beam on the plan image of the floor displayed on the screen of the operator terminal 200 with their fingers ( ④) to select the area to be inspected, but when pressing with one finger, the lower surface of the beam is selected as the inspection target surface in the beam, and when multi-touching with two fingers, the left side of the beam The surface is selected as the surface to be inspected, and in the case of multi-touching with three fingers, the right side of the beam may be selected as the surface to be inspected.

In this way, after selecting the inspection target area and the specific inspection target surface at the inspection target area, the operator photographs the inspection target surface using the camera module 250 provided in the operator terminal 200, as shown in FIG. The photographed image of the surface is stored in an internal memory provided in the operator terminal 200 (S150).

On the other hand, in implementing the present invention, the operator terminal 200 associates and stores selection information on the inspection target part and the inspection target surface selected by the operator in steps S130 and S140 above to the photographed image stored in step S150. It would be desirable.

Accordingly, when the operator reselects the inspection target surface selected by the touch screen method in steps S130 and S140 above on the image of the corresponding plan output to the operator terminal 200, in step S150 described above for the corresponding inspection target surface. As the associated stored photographed image is output through the screen of the operator terminal 200, it will be possible to support the operator's task of creating a diagnosis report more efficiently.

In addition, in implementing the present invention, the operator terminal 200 may additionally associate and store the photographing sequence information at the diagnosis site of the corresponding photographed image with the photographed image stored in step S150 described above.

Meanwhile, the operator terminal 200 may generate a developed view (eg, an elevation view of a wall, etc.) of the inspection target surface of the inspection target area as shown in FIG. 4 based on the photographed image stored in step S150 described above. (S160).

In carrying out the present invention, in the case where the part to be inspected is a wall, the operator terminal 200 is based on numerical information such as the width and length of the wall stored together with the floor plan selected by the operator in step S110 described above. By creating the developed view of the wall in the step, it will be possible to increase the accuracy of the work of creating the developed view.

In addition, in the implementation of the present invention, in the case where the part to be inspected is a pillar, the operator terminal 200 stores numerical information such as the width and length of each side of the pillar stored together with the floor plan selected by the operator in step S110 described above. By generating the expanded view of the column in step S160 on the basis of the above, it will be possible to increase the accuracy of the work of generating the expanded view.

In addition, in the implementation of the present invention, when the part to be inspected is a slab, the operator terminal 200 includes values such as the horizontal width and the vertical width and length of the slab stored together with the plan view selected by the operator in step S110 described above. By generating the developed view of the slab in step S160 based on the information, it is possible to increase the accuracy of the operation of generating the developed view.

In addition, in the implementation of the present invention, when the part to be inspected is visible, the operator terminal 200 is stored together with the plan view selected by the operator in step S110 described above, and a pair of each connected to the left and right ends of the beam. By generating the expanded view for the beam in step S160 described above based on numerical information such as the distance between the columns, it is possible to increase the accuracy of the work of generating the expanded view.

Then, the operator terminal 200 generates a crack state diagram image representing a crack generated on the surface to be inspected at the point to be inspected, as shown in FIG. 5, based on the photographed image stored in step S150 (S170).

The operator terminal 200 overlaps the crack state drawing image generated in the above-described step S170 with the development view of the inspection target surface in the above-described step S160 to the inspection target surface at the inspection target area. A developed view of the crack state is generated (S180).

On the other hand, in implementing the present invention, the operator corrects the shape and size of the crack area in the crack state development view output on the screen of the operator terminal 200 based on the shape and size of the crack area measured by the operator at the site. Accordingly, the operator terminal 200 may generate the crack state development view more precisely by editing the crack state development view generated in step S180 described above according to the operator's correction input information.

In addition, in implementing the present invention, the operator terminal 200 correlates the crack state development map generated in the above-described step S180 and the selection information on the inspection target area and the inspection target surface selected by the operator in the above-described steps S130 and S140. You will be able to save it.

Accordingly, when the operator reselects the inspection target surface selected by the touch screen method in steps S130 and S140 above on the image of the corresponding plan output to the operator terminal 200, in step S180 described above for the corresponding inspection target surface. The generated crack state development diagram is output through the screen of the operator terminal 200, so that it is possible to support the operator's task of creating a diagnosis report more efficiently.

The terms used in the present invention are only used to describe specific embodiments and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance.

In the above, preferred embodiments and applications of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments and application examples described above, and the present invention is not departing from the gist of the present invention claimed in the claims. Various modifications may be possible by those of ordinary skill in the art to which they belong, and these modifications should not be individually understood from the technical spirit or prospect of the present invention.

200: operator terminal, 250: camera module.

Claims (4)

(a) outputting, by the operator terminal, a drawing image of a photographing space, which is a space where the operator proceeds to photograph, on a screen of the operator terminal;
(b) receiving, by the operator terminal, input information on the operator's selection on a drawing image of the photographing space with respect to a portion to be inspected in the photographing space;
(c) generating, by the operator terminal, a developed view of the inspection target area based on the photographed image of the inspection target area;
(d) generating, by the operator terminal, a crack state diagram indicating a crack generated in the inspection target area based on the photographed image of the inspection target area; And
(e) generating, by the operator terminal, a crack state development view of the inspection target region by overlapping the crack state diagram with the developed view of the inspection target region
A method for automatically generating a crack state drawing of a building comprising a
delete The method of claim 1,
(f) The method of automatically generating a crack state drawing of a building further comprising the step of storing, by the operator terminal, the operator's selection information and the crack state development view.
An operator terminal installed with a program for executing the method according to claim 1 or 3.

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