KR102083255B1 - Gauge for measuring crack - Google Patents

Abstract

The present invention relates to a crack measurement gauge. According to the present invention, the crack measurement gauge has a separable configuration formed in a shape of a plastic ruler and comprises: a reference plate having a reference cross line marked thereon; and a numeric plate overlapped below the reference plate and having a gauge display part with numbers and gradations, thereby being attached to a surface of concrete to measure a crack. The reference plate has a metal structure formed in a cross shape embedded and disposed therein by insert injection to function as a reference cross line. The numeric plate has a metal structure having the gauge display part by the numbers and the gradations embedded and disposed therein by insert injection and faces the reference cross line of the reference plate, thereby preventing the cross line, the numbers, and the gradations from being easily erased or damaged by an external environment. Accordingly, the crack gauge of the present invention can promote easiness and convenience in use, can increase efficiency in crack measurement and use, can easily understand the degree of cracks and increase accuracy in comparison with a conventional gauge, can perform continuous maintenance, and can secure useful data while concentrating on accuracy in a structure safety diagnosis.

Description

Crack Measurement Gauge {GAUGE FOR MEASURING CRACK}

The present invention relates to a crack measurement gauge used to attach to a concrete surface, and more particularly, to improve the accuracy of crack measurement, as well as the ease, convenience and utility of the use of a separate crack gauge in the form of a plastic ruler The present invention relates to a crack measurement gauge that can be designed.

In general, a building structure or a civil structure has a life cycle, which consists of a natural collapse, an artificial dismantling, or an early decay due to unsuccessful work or breakdown of the service life from the design stage to the construction stage and the use stage. The cause of collapse of the same structure may be part of the natural causes of the service life, but most of them are closely related to the deformation of the structure by external forces acting on the structure during construction or use.

Among the deformations of the structure, the crack phenomenon occurring in the structure is difficult to be detected early due to the small width of the crack, and the progress of the crack is also very slow. Therefore, the contractor or the user does not have any influence on the safety of the structure. It is easy to overlook this by accident, but since some cracks may cause structural defects and eventually collapse of the structure, the crack phenomenon in the structure is a very important factor in diagnosing the safety of the structure. One of the most important devices for diagnosing the stability of a structure is a measuring instrument for measuring such a crack phenomenon.

As a conventional technique for measuring cracking in a building structure or a civil engineering structure as described above, a crack gauge having a detachable structure, which is provided in the form of a plastic ruler, is widely used, and is disposed overlapping with a reference part having a reference cross and the reference part. In order to determine the degree of cracking, the numerical parts installed so that the numerical and scaled parts overlap with the reference crosshairs are separated from each other, and the form of fixing them with pieces or bonding them to the concrete surface of a building structure or a civil structure Getting drunk.

However, the crack gauge provided in the form of such a plastic ruler is not easy to set the reference point by the reference crosshair and the numerical value at the time of installation, so that the error occurs from the setting of the reference point as well as to accurately determine the numerical value in the attached state itself. Is not easy, and in particular, a micro error occurs due to a change in the fixed state or a change in the fixed position due to the external force generated when the crack is formed on the concrete surface. In addition, there was a problem that occurs even if the measurement itself is impossible.

In addition, the crack gauge provided in the form of a conventional plastic ruler is exposed to the outside by a simple printing method of displaying the reference cross line and the numerical value and scale, so that the reference cross line and the numerical value and scale are easily erased or damaged by external environment such as rain or wind. There was a problem that disappeared by, there was a problem that the crack measurement is difficult or impossible.

In addition, the crack gauge provided in the form of a conventional plastic ruler is attached to the concrete surface before or after the occurrence of cracks in the building structure or civil engineering structure to be used for one year or more, or up to 30 years, or the position is changed or changed The replacement of crack gauges is caused by other factors such as damage, and reattachment occurs.Each time the crack gauges are replaced and reattached, the initial value is continuously changed.Therefore, accurate measurement was not possible. Is not easy.

That is, in the related art, there is a problem in that the structural safety diagnosis of a building structure or a civil structure has difficulty and technical limitations.

In addition, although a pair of measuring ticks are arranged on the concrete surface at regular intervals, a gap between cracks is measured using a vernier caliper. I prefer to use it.

As a result, the industry and the field want to improve the concrete side crack state more accurately, easily check, and easy to maintain, while solving the problem of the crack gauge conventionally used.

Republic of Korea Patent Publication No. 10-0430106 Republic of Korea Patent Publication No. 10-2009-0120153

The present invention has been made in view of solving the above-mentioned conventional problems, and in view of this, it is possible to facilitate the ease and convenience of using a separate gauge in the form of a plastic ruler while easily grasp the degree of cracking as well as the crack measurement Its purpose is to provide a crack measurement gauge that can increase accuracy and thereby provide more accurate structural safety diagnosis.

The present invention can prevent the gauge display part by reference crosshairs, numerical value, and scale from being easily erased or damaged by the external environment, and by extending the service life, thereby enabling continuous maintenance of the crack measurement. The aim is to provide a crack measurement gauge that allows for more accurate crack measurement data.

The crack measuring gauge according to the present invention for achieving the above object is a mutually separated configuration in the form of a plastic ruler, the reference plate on which the reference crosshairs are displayed, and the gauge by the numerical value and the scale overlapping the base plate In a crack measurement gauge which consists of a numerical plate having a display portion and is attached to a concrete surface and used to measure cracks, the reference plate is formed by insert molding a metal structure having a cross structure to function as a reference crosshair by insert injection. and; The numerical plate is embedded by placing the metal plate having the gauge display part by the numerical value and the scale by insert injection, and provided so as to face the reference crosshair of the reference plate, so that the reference crosshair and the numerical and scale can be easily erased or damaged by the external environment. Characterized in that not configured.

Herein, the reference cross protrusion is formed on the bottom surface of the reference plate and provided with a size corresponding to the reference cross line or reduced in size so that it is positioned only in the center region of the reference cross line; It is configured to set the reference point for crack measurement easily and accurately by matching the gauge display with the position and structure corresponding to the reference cross protrusion on the surface of the numerical plate facing the reference plate to form a reference cross groove. can do.

The crack measuring gauge according to the present invention for achieving the above object is a mutually separated configuration in the form of a plastic ruler, the reference plate on which the reference crosshairs are displayed, and the gauge by the numerical value and the scale overlapping the base plate A crack measurement gauge which is formed of a numerical plate having a display unit and is used to measure cracks by being attached to a concrete surface, the protrusion having a reference cross protrusion protrudingly formed on a lower surface of the reference plate and having a size corresponding to the reference cross line or the size thereof. Is reduced so that it is located only in the center area of the reference crosshair; The reference cross groove is formed on the gauge display portion of the numerical plate facing the reference plate in a position and structure corresponding to the reference cross protrusion, so that the reference point for crack measurement can be easily and accurately set. Can be.

Here, the upper surface of the reference plate may be formed to be integrally formed with a magnifying glass to enlarge the numerical value and scale of the gauge display portion on the numerical plate side so that the crack state can be easily observed and more accurately measured.

Here, the numerical plate, the white layer formed in a white series on the surface facing the reference plate; A color layer formed in a colored series on the white layer; Gauge display unit which is displayed on the color layer in numerical value and scale, and formed in a black series; includes, and occurs in the color layer as much as the position of the reference cross stone in the reference plate side when the setting position is changed between the reference plate and the numerical plate due to cracking The degree of scratches can be configured to measure and maintain cracks.

Here, the color layer may be composed of a colored oil-based ink or oil paint containing a luminous material or a fluorescent material.

Here, the reference plate, provided with a cross-shaped metal structure to perform both the function of the reference cross hairs and the reference cross projections, while having a configuration embedded on the reference plate by insert injection, the lower end of the metal structure reference plate Can be configured to protrude outward.

Here, the reference plate side crosshairs and the numerical plate side crosshairs are formed in a matching structure of the projection and groove of 0.1 ~ 1mm to smoothly change the position according to the degree of cracking in the fixed state where the initial reference point is set when the crack occurs. Can be configured to perform

According to the present invention, in using a crack measuring gauge having a separate structure in the form of a plastic ruler, it is possible to facilitate the ease and convenience of the crack measurement at the time of installation as well as to more easily grasp the degree of cracking as compared to the conventional The accuracy of the measurement can be increased, and the useful effect of obtaining more useful data can be achieved with more accuracy in structural safety diagnosis.

According to the present invention, it is possible to prevent the gauge display part by the reference cross line, the numerical value and the scale from being easily erased or damaged by the external environment, to extend the service life, and to maintain the maintenance of the crack measurement. It is possible to achieve useful effects to obtain more accurate crack measurement data.

1 to 3 is an exemplary view showing to explain the crack measurement gauge according to an embodiment of the present invention.
4 to 8 are exemplary views for explaining a crack measurement gauge according to another embodiment of the present invention.
9 is an exemplary view showing a configuration in which the magnifying glass is integrally formed on the reference plate in the crack measurement gauge according to the embodiment of the present invention.
10 is an exemplary view showing a configuration provided with a color layer for the numerical plate in the crack measurement gauge according to an embodiment of the present invention.
FIG. 11 is an exemplary view illustrating a use state including a numerical plate having a color layer of FIG. 10 in the present invention. FIG.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings, and the detailed description will provide a better understanding of the purpose, configuration, and features thereof.

Hereinafter, the crack measuring gauge according to the present invention will be described with reference to FIGS. 1 to 11.

The crack measuring gauge according to the embodiment of the present invention is attached to the concrete surface of various concrete structures such as building structures or civil structures by a fastening method or a bonding method, and is used to measure concrete cracks of structures.

As shown in Figures 1 to 3, the crack measurement gauge according to an embodiment of the present invention uses the same shape for matching the rectangular reference plate 100 and the reference plate 100 in the form of a plastic ruler. It comprises a rectangular numerical plate 200 made of a plastic ruler having.

The reference plate 100 and the numerical plate 200 is provided in a mutually separated structure, the position movement or change degree formed when the crack is generated by placing the reference plate 100 on the upper surface of the numerical plate 200 to overlap It is equipped to measure the concrete crack state by checking the numerical value or scale according to.

The reference plate 100 is provided with a reference crosshair, and the numerical plate 200 is provided with a gauge display unit 211 by a numerical value and a scale.

In this case, the reference plate 100 has a configuration in which the metal structure 110 having a cross-shaped structure to be internally disposed by insert injection so as to function as a reference crosshair.

In addition, the numerical plate 200 is disposed by embedding the metal plate 210 having the gauge display portion 211 is displayed with a numerical value and scale by insert injection, it is provided so as to face the reference cross hairs on the reference plate 100 side. .

Here, the gauge display 211 is formed with a numerical value and a scale for crack measurement while displaying a reference point all around the edge.

In this way, the reference plate 110 having the metal structure 110 of the configuration embedded in the insert injection method, and the numerical plate 200 having a metal plate 210 of the configuration embedded in the insert injection method Therefore, unlike the conventional crack gauge formed by the conventional printing method, since it is a built-in structure inside the plate side, the standard crosshairs and numerical values and scales (gauge indicators), which are very important for crack measurement, are used in external environments such as rain or wind. It can exhibit the advantage that can be processed so that it is not easily erased or damaged by.

Accordingly, it is possible to extend the service life of the crack measurement gauge according to the present invention, to perform continuous maintenance of the crack measurement, and to provide an advantage of obtaining more accurate crack measurement data than the conventional.

In addition, in the present invention, the reference cross protrusion 120 may be formed on the bottom surface of the reference plate 100 so as to be provided in a size corresponding to the reference cross line or may be provided to be located only in the central region of the reference cross line by reducing the size. .

Accordingly, the reference cross groove 220 is formed on the surface of the numerical plate 200 facing the reference plate 100 by matching the gauge display to a position and a structure corresponding to the reference cross protrusion 120. This is preferred.

As such, by matching the reference cross protrusion 120 and the reference cross groove 220 with a corresponding formation, the reference point for measuring the crack when the crack measurement gauge 1 is installed on the concrete surface is easily and accurately set by setting the state. It can provide an advantage to install.

That is, the reference cross protrusion 120 and the reference cross groove 220 through the reference plate 100 and the numerical plate 200 can be initially set to the initial position without being distorted at the reference point between each other more accurate than the conventional It enables the measurement of cracks and provides the advantage of safety diagnosis of the structure through continuous maintenance.

Here, the reference plate 100 side reference cross protrusion 120 and the numerical plate 200 side reference cross groove 220 is formed by the matching structure of the protrusion and groove of 0.1 ~ 1mm to set the initial reference point when the crack occurs. It can be configured to smoothly change the position according to the degree of cracking in the fixed state.

Here, the reference plate 100 is provided with a metal structure 210 of the cross-shaped structure to perform both the function of the reference cross hairs and the reference cross projections, so as to have a configuration embedded on the reference plate 100 by insert injection While the lower end of the metal structure 210 may have a configuration to protrude to the outside of the lower surface of the reference plate 100, through this configuration provides an advantage that does not need to separately form the reference cross projections (120) can do.

Furthermore, the upper surface of the reference plate 100, as shown in the example shown in Figure 9, by forming a magnifying glass 130 integrally provided to enlarge the numerical value and scale of the gauge display unit 211 side of the numerical plate 200 This makes it possible to easily view and more accurately measure the cracks occurring on the concrete surface.

On the other hand, the crack measurement gauge 1 according to another embodiment of the present invention, as shown in Figures 4 to 8, used to match the reference plate 100 and the reference plate 100 of the rectangular shape in the form of a plastic ruler In order to form a rectangular numerical plate 200 made of a plastic ruler having the same shape.

The reference plate 100 and the numerical plate 200 is provided in a mutually separated structure, the position movement or change degree formed when the crack is generated by placing the reference plate 100 on the upper surface of the numerical plate 200 to overlap It is equipped to measure the concrete crack state by checking the numerical value or scale according to.

The reference plate 100 is provided with a reference crosshair 111 on an upper surface or a lower surface, and the numerical plate 200 is provided with a gauge display unit 211 displaying numerical values and scales on the upper surface.

At this time, the reference cross protrusion 120 is formed on the bottom surface of the reference plate 100 to be provided in a size corresponding to the reference cross line 111 or to be reduced in size so that it is positioned only in the center region of the reference cross line 111. Can be.

Accordingly, by forming the reference cross groove 220 in a position and a structure corresponding to the reference cross protrusion 120 on the gauge display portion 111 of the numerical plate 200 facing the reference plate 100. The reference point for crack measurement can be configured to be easily and accurately set.

Here, the reference plate 100 side reference cross protrusion 120 and the numerical plate 200 side reference cross groove 220 is formed by the matching structure of the protrusion and groove of 0.1 ~ 1mm to set the initial reference point when the crack occurs. It can be configured to smoothly change the position according to the degree of cracking in the fixed state.

The reference cross protrusion 120 side end portion may be composed of a sharp tip (첨단 部).

As shown in FIG. 9, the magnifying plate 130 is integrally formed on the upper surface of the reference plate 100 to enlarge the numerical value and scale of the gauge display unit 211 on the numerical plate 200, thereby facilitating a crack state. Can be configured to observe and measure more accurately.

Here, the reference plate 100 is provided with a metal structure 210 of the cross-shaped structure to perform both the function of the reference cross hairs and the reference cross projections, so as to have a configuration embedded on the reference plate 100 by insert injection While the lower end of the metal structure 210 may have a configuration to protrude to the outside of the lower surface of the reference plate 100, through this configuration provides an advantage that does not need to separately form the reference cross projections (120) can do.

In addition, as shown in FIG. 10, the numerical plate 200 has a white layer 231 formed in a white series on a surface facing the reference plate 100, and a colored series formed on the white layer 231. It is possible to have a configuration including a color layer 232 formed in the form, and a gauge display unit 233 is displayed on the color layer 232 with a numerical value and a scale, and formed along the edge circumference and formed in a black series.

At this time, the color layer 232 is preferably formed very thin, about 0.1 ~ 0.5mm.

Through such a configuration, when the setting position is changed between the reference plate 100 and the numerical plate 200 due to cracks, the color layer 232 is generated as much as the positional movement of the reference cross protrusion 120 on the reference plate 100 side. The degree of scratching makes it easier to measure cracks and to perform ongoing maintenance.

That is, when a crack occurs on the concrete surface, as shown in FIG. 11, the reference plate 100, the numerical plate 200, or two of them move. When the position is changed by the movement, the reference plate 100 side reference is performed. As the cross protrusion 120 scratches the surface of the numerical plate 200, the scratch is formed by scratching the color layer 232.

The white layer 231 is exposed as the color layer 232 is peeled off due to such a scratch, and the numerical value of the gauge display unit 211 is determined according to the scratch degree of the color layer 232 and the exposure degree of the white layer 231 matching thereto. (B) It is easier to grasp the scale so that the degree of cracking can be measured and judged more accurately.

Here, the color layer 232 may be composed of oil-based ink or oil paint of general color series, and sometimes oil-based ink of color series including luminous material or fluorescent material to provide identification and easy crack measurement even at night. Or oil paint.

Accordingly, through the crack measuring gauge 1 according to the present invention having the above-described configuration, while improving the ease and convenience of using a separate type gauge in the form of a plastic ruler, the efficiency of crack measurement and use can be increased. In addition, it is easier to identify the degree of cracking than before, and it is possible to improve the accuracy of crack measurement, to carry out continuous maintenance, and to obtain useful data while providing more accurate information on structural safety diagnosis. It can provide you with advantages.

The embodiments described above are merely illustrative of the preferred embodiments of the present invention and are not limited to these embodiments, and various modifications and variations are made by those skilled in the art within the spirit and scope of the present invention. This may be done, which will belong to the technical scope of the present invention.

100: reference plate 110: metal structure
111: reference cross line 120: reference cross protrusion
130: magnifying glass 200: numerical plate
211: gauge display section 220: reference cross groove

Claims (8)

A mutually separated configuration in the form of a plastic ruler, comprising a reference plate on which a reference crosshair is displayed, and a numerical plate having a gauge display part arranged on a bottom of the reference plate and having a numerical value and a scale, and attached to a concrete surface to prevent cracking. In the crack measurement gauge used to measure,
The reference plate is formed by inserting a metal structure having a cross structure so as to function as a reference cross line by insert injection;
The numerical plate is embedded by placing the metal plate having the gauge display part by the numerical value and the scale by insert injection, and provided so as to face the reference crosshair of the reference plate, so that the reference crosshair and the numerical value and scale are easily erased or damaged by the external environment. Not to be configured;
Forming a reference cross protrusion on a lower surface of the reference plate and having a size corresponding to the reference cross line or reducing the size so that the reference cross line is positioned only in the center region of the reference cross line;
It is configured to set the reference point for crack measurement easily and accurately by matching the gauge display with the position and structure corresponding to the reference cross protrusion on the surface of the numerical plate facing the reference plate to form a reference cross groove. Crack measurement gauge, characterized in that. A mutually separated configuration in the form of a plastic ruler, comprising a reference plate on which a reference crosshair is displayed, and a numerical plate having a gauge display part arranged on a bottom of the reference plate and having a numerical value and a scale, and attached to a concrete surface to prevent cracking. In the crack measurement gauge used to measure,
Forming a reference cross protrusion on a lower surface of the reference plate and having a size corresponding to the reference cross line or reducing the size so that the reference cross line is positioned only in the center region of the reference cross line;
By forming a reference cross groove in the position and structure corresponding to the reference cross protrusion on the gauge display portion of the numerical plate facing the reference plate is configured to easily and accurately set the reference point for crack measurement Crack measurement gauge, characterized in that. delete The method according to claim 1 or 2,
The upper surface of the reference plate is provided with a magnifying glass integrally formed by providing a crack measurement gauge, characterized in that configured to facilitate the observation and more accurate measurement of the crack state by expanding the numerical value and scale of the numerical display side gauge display. The method of claim 2,
The numerical plate,
A white layer formed in a white series on a surface facing the reference plate;
A color layer formed in a colored series on the white layer;
A gauge display unit displayed on the color layer in numerical values and scales and formed in a black series; Including;
Crack measurement, characterized in that it is configured to measure and maintain the crack through the degree of scratches generated in the color layer as much as the position shift of the reference cross stone of the reference plate side when the setting position is changed between the reference plate and the numerical plate due to the occurrence of cracks gauge. The method of claim 5,
The color layer is a crack measurement gauge, characterized in that the oil-based ink or oil paint of the color series containing a luminous material or a fluorescent material. The method of claim 2,
The reference plate,
A cross-shaped metal structure is provided to perform both the reference cross hairs and the reference cross protrusion, and the lower end of the metal structure protrudes outward from the lower surface of the reference plate while having a structure embedded on the reference plate by insert injection. Crack measurement gauge, characterized in that. The method according to claim 1 or 2,
The reference plate side crosshairs and the numerical plate side crosshairs are formed in a matching structure of protrusions and grooves of 0.1 to 1 mm so that the position change according to the degree of cracking is smoothly performed in the fixed state where the initial reference point is set when the crack occurs. The crack measurement gauge characterized by the above-mentioned.

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