KR102408018B1 - Rapid measurement type crack scale for structure inspection - Google Patents

Abstract

The present invention relates to a crack scale used to measure the crack width of a concrete structure during safety diagnosis and inspection of buildings, bridges, tunnels or ports, etc., and a plurality of Symmetrical scales 35 are displayed at equal intervals, and the distance between the symmetrical scales 35 and the central axis of the transparent plate 20 is displayed numerically. The crack width can be measured by summing the values of both sides of the symmetrical scale (35).
Through the present invention, without the action of repeatedly moving the cracker to search for the control scale 13 coincident with the crack formed in the subject, the cracker is brought into close contact with the subject in one shot and then the matching symmetrical scale 35 is obtained. It can be selected and measured easily, which can dramatically improve the speed and convenience of crack detection work.

Description

RAPID MEASUREMENT TYPE CRACK SCALE FOR STRUCTURE INSPECTION

The present invention relates to a crack scale used to measure the crack width of a concrete structure during safety diagnosis and inspection of buildings, bridges, tunnels or ports, etc., and a plurality of Symmetrical scales 35 are displayed at equal intervals, and the distance between the symmetrical scales 35 and the central axis of the transparent plate 20 is displayed numerically. The crack width can be measured by summing the values of both sides of the symmetrical scale (35).

Cracks are a key indicator in judging the integrity of a concrete structure, and by detecting the size, location, and progression of cracks, the stability and performance of the concrete structure can be grasped.

In particular, the temporal change of crack conditions is essential information in diagnosing the long-term safety of a structure, and in most concrete structures, periodic inspection of cracks is performed.

Periodic detection of cracks in concrete structures is mainly performed by on-site inspection by inspectors. As shown in Figure 2, it is carried out in a manner to search the contrast scale 13 coincident with the crack width while moving the thin plate body 11, as a related prior art, Patent Publication No. 2001-2060 can be mentioned.

Conventional crackers, including Patent Publication No. 2001-2060, have a simple structure in which a number of contrasting scales 13 are displayed on the outer part of the thin plate body 11, and numerical values indicating the width of each contrasting scale 13 are displayed. , as shown in FIG. 2, is used in a way to search the control scale 13 of the width coincident with the crack width by repeatedly moving the thin plate body 11 in close contact with the crack site of the subject.

Therefore, it is necessary for the inspector to continuously move the thin plate body 11 during the measurement, and the process of moving the thin plate body 11 made of a material such as synthetic resin or metal on the surface of the concrete subject having a relatively flat state There was a problem that not only caused considerable inconvenience, but also required considerable work time.

In particular, such repetitive movement work inevitably caused considerable inconvenience and risk when diagnosing or inspecting a high-altitude structure or a narrow structure accompanied by restrictions on the inspector's activities.

In addition, although the crack width of a subject such as a concrete structure is a relatively simple operation of reading the numerical value using a measuring means, considerable skill is required for the movement of the cracker and the rapid search of the control scale (13) described above. However, it had to act as a factor in extending the period of the overall diagnostic work and increasing the required cost.

The present invention was devised in view of the above problems, and in the cracker used for measuring the crack width of a concrete structure by displaying a number of scales on the plate, one end of the transparent plate 20, which is a rectangular transparent plate, is V-shaped. The incision is made so that the inclined portions 30 are formed on both sides of the V-shaped cutout, the inclined portions 30 are symmetrical about the central axis of the transparent plate 20, and the transparent plates 20 around the inclined portions 30 on both sides. ) On the surface, each of a plurality of symmetrical scales 35 are displayed at equal intervals, and the symmetrical scales 35 are parallel to the central axis of the transparent plate 20, and the inclined portion 30 of the symmetrical scale 35 is the other side. It is a rapid measurement type cracker for structure diagnosis, characterized in that the distance between the outer periphery and the central axis of the transparent plate 20 is displayed as a numerical value around the symmetrical scale 35 .

In addition, the present invention provides an adhesive portion 43 formed on the rear surface of the other end of the inclined portion 30 of the transparent plate 20, so that the rear surface of the transparent plate 20 is attached to the surface of the subject. It is a measurable cracker.

Through the present invention, without the action of repeatedly moving the cracker to search for the control scale 13 coincident with the crack formed in the subject, the cracker is brought into close contact with the subject in one shot and then the matching symmetrical scale 35 is It can be selected and measured easily, which can dramatically improve the speed and convenience of crack detection work.

In particular, in environments where the activities of inspectors such as tall structures or narrow structures are not easy, when using the conventional cracker, which involves repeated movement of the cracker, the difficulty and risk of work still exist. Through the present invention, it is possible to improve work safety and reduce the risk of accidents.

1 is an explanatory view of the state of use of a conventional cracker;
2 is an explanatory view of the method of use of a conventional cracker
3 is an explanatory view of the use state of the present invention;
4 is an explanatory diagram of the method of use of the present invention;
5 is an explanatory diagram of a numerical reading method of the present invention
6 is a rear perspective view of an embodiment of the present invention in which an adhesive part is formed;
Fig. 7 is an explanatory diagram of the method of use of the embodiment of Fig. 6;

A detailed configuration of the present invention will be described with reference to the accompanying drawings.

First, Figure 3 is a view showing the use state and appearance of the present invention, as shown, the present invention is a rectangular transparent plate, the center of one end of the transparent plate 20 is cut in a V-shape that is an inverted triangle in the drawing As a whole, the outside of the transparent plate 20 forms an M-shape, and a plurality of symmetrical scales 35 and numerical values are displayed on both sides of the V-shaped cutout, respectively.

That is, the present invention is a cracker used for measuring the crack width of a concrete structure by displaying a number of scales on the plate body, as in FIGS. 3 and 4, and is used in a state of close contact with the crack formation site of the subject, the same figure As in the excerpt and enlarged part of , one end of the transparent plate 20, which is a rectangular transparent plate, is cut in a V-shape, so that inclined parts 30 are formed on both sides of the V-shaped cutout, respectively, the inclined part 30 is a transparent plate (20) is symmetrical about the central axis.

As in the enlarged excerpt of FIG. 3 and FIG. 4, a plurality of symmetrical scales 35 are displayed at equal intervals on the surface of the transparent plate 20 around the both sides of the inclined part 30, respectively, symmetrical scales ( 35) is parallel to the central axis of the transparent plate 20 .

The central axis of the transparent plate 20 is an axis that passes through the center of gravity of the transparent plate 20, which is a rectangular plate, and is parallel to the sides of the transparent plate 20 located on both sides of the inclined portion 30. The inclined portions 30 formed on both sides are also symmetrical with respect to the central axis of the transparent plate 20 .

The symmetrical scale 35 is, as in its dictionary meaning, the scales formed on both sides of the inclined part 30 are symmetrical to each other, and the symmetrical scale 35 displayed on the both inclined parts 30 in the drawing is the inclined part ( 30), the symmetrical scales 35 on both sides are symmetrical with respect to the center line of the isosceles inverted triangle formed by the inclined portions on both sides.

In addition, the numerical value given to the symmetrical scale 35 is the distance between the center line of the isosceles inverted triangle formed by the other outer side of the inclined portion 30 of the symmetrical scale 35 and the above-described both sides of the inclined portion, which is the symmetrical scale 35 . It is displayed in numbers so that users can check it immediately.

Therefore, as shown in FIG. 5, if the transparent plate 20 of the cracker of the present invention is in close contact with the crack formation site of the subject, only the transparent plate 20 is in close contact so that the crack is located between the inclined portions 30 on both sides. , without any movement with respect to the transparent plate 20, it is possible to easily measure by searching for both sides of the symmetrical scales 35 that coincide with the outer edges of both sides of the crack width, It is possible to measure quickly by reading each of the values and then summing the readings.

That is, the cracker of the present invention not only does not need any movement with respect to the transparent plate 20 when the transparent plate 20 is in close contact with the subject in the crack width measurement process, but also attaches the transparent plate 20 to the center line of the crack. Measures to precisely set in a specific position such as, etc., are not necessary, and only if cracks are located between the inclined portions 30 on both sides formed in a V-shape on the transparent plate 20, It is possible to measure quickly and accurately with a very simple measure of summing the figures.

In particular, by displaying symmetrical scales 35 and numerical values on both sides of the V-shaped inclination portion 30, respectively, it is possible to prevent interference between adjacent scales and ensure readability despite dense scales and numbers arranged in a narrow space. .

The situation shown on the left and right side of FIG. 5 exemplifies various methods of measuring the same crack through the present invention. First, the situation on the left side of the figure is transparent so that the central axis of the V-shaped incision coincides with the central axis of the crack. In the state in which the plate 20 is positioned, the numerical value of the crack width outer coincidence symmetrical scale 35 at this time is 1.0 for both the left and right sides of the drawing, and the sum of these values is 2.0.

In addition, the situation on the right side of FIG. 5 is a state in which the central axis of the V-shaped incision is spaced apart from the center axis of the crack to the right in the drawing. , the sum of these 2.0 is the measurement result, and it can be confirmed that the same measurement result is derived even if the position of the transparent plate 20 is changed when measuring the same crack.

Therefore, there is no need for the on-site inspector to individually find the control scale 13 that matches the crack width while moving the cracker as in the prior art, or to accurately position the cracker at the measurement position such as the crack center. As long as the transparent plate 20 is closely attached so that the crack is located between the V-shaped incisions, it is possible to quickly, simply, and accurately measure the crack width with only a very simple measure of summing the values of the symmetrical scales 35 on both sides.

On the other hand, FIGS. 6 and 7 are embodiments in which a cracker of the present invention can be attached to the surface of a subject, and as shown in FIG. 6 , an adhesive part 43 is provided on the rear surface of the inclined part 30 of the transparent plate 20 and the other end thereof. is formed so that the rear surface of the transparent plate 20 can be attached to the surface of the subject as shown in FIG. 7 .

The attachment of the cracker is applicable based on the method of measuring the static state unique to the present invention, and in particular, as shown in FIG. 7 , by arranging a plurality of transparent plates 20 along the crack formation site of the subject, cracks in a wide area The shape can be checked at a glance, and in particular, in the attachment of the cracker transparent plate 20, the present invention does not require precise positioning of the cracker as described above, and can be measured only by simply arranging the cracker at an approximate location. It is advantageous not only in efficiency and accuracy, but also in securing work safety at heights or in confined environments.

11: thin plate body
13: contrast scale
20: transparent plate
30: inclined part
35: symmetrical scale
43: adhesive part

Claims (2)

In the cracker used to measure the crack width of a concrete structure by displaying a number of scales on the plate,
One end of the transparent plate 20, which is a rectangular transparent plate, is cut in a V-shape, so that inclined portions 30 are formed on both sides of the V-shaped cutout, respectively, and the inclined portions 30 have the central axis of the transparent plate 20 as an axis. symmetrical;
On the surface of the transparent plate 20 around the both sides of the inclined portion 30, a plurality of symmetrical scales 35 are displayed at equal intervals, respectively, and the symmetrical scales 35 are parallel to the central axis of the transparent plate 20;
A rapid measurement type cracker for structure diagnosis, characterized in that the distance between the outer edge of the other side of the inclined portion 30 of the symmetrical scale 35 and the central axis of the transparent plate 20 is displayed as a numerical value around the symmetrical scale 35 .
The method according to claim 1,
An adhesive portion 43 is formed on the rear surface of the other end of the inclined portion 30 of the transparent plate 20,
Rapid measurement type cracker for structure diagnosis, characterized in that the back of the transparent plate 20 is attached to the surface of the subject.

Images