KR102594270B1 - Schmidt hammer impact point indicator for structure safety inspection and diagnosis - Google Patents

Abstract

The present invention relates to a Schmidt hammer striking point display device for displaying a striking point for striking a Schmidt hammer during safety inspection and diagnosis. The Schmidt hammer impact point display device for structural safety inspection and diagnosis according to an embodiment of the present invention is a pair of link bars that intersect each other and rotate about the center, and the rotating center has an indicator hole installed therethrough, and the indicator hole is connected to the indicator hole. A line indicator that is inserted to indicate a basic line for indicating a hitting point, and is composed of connecting a plurality of the pair of link bars in a form of connecting both ends of the pair of link bars, and rotating the pair of link bars. A link connector that adjusts the gap between the line indicators installed on each pair of link bars as the length expands and contracts, and an indicator guide groove that guides the movement of the line indicators as the length of the link connector expands and contracts. A connector housing that is formed through and installed with one end fixed inside the link connector, and is connected to the connector housing to indicate a Schmidt hammer impact point by indicating the basic line where the line indicator intersects. Includes a linear guide that guides the linear movement of the housing. Therefore, the spacing of the Schmidt hammer striking points can be easily adjusted and displayed.

Description

Schmidt hammer impact point indicator for structure safety inspection and diagnosis {Schmidt hammer impact point indicator for structure safety inspection and diagnosis}

The present invention relates to a Schmidt hammer striking point display device for displaying a striking point for striking a Schmidt hammer during safety inspection and diagnosis.

Generally, when performing safety inspections and diagnosis, the compressive strength of concrete structures is tested non-destructively.

An example of a non-destructive investigation method is the Schmidt hammer test. The Schmidt hammer test is a method to estimate the compressive strength of concrete from the hardness of the concrete surface. By applying impact energy to the hardened concrete surface, the rebound hardness is determined according to the hardness of the concrete surface. Measure.

When performing the Schmidt hammer test, 20 points in a 5X4 array are marked at intervals of 3 cm to 4 cm, and the values measured with the Schmidt hammer at each point are averaged. It was not easy, so the test was performed by attaching a striking test paper with 20 dots to the area to be tested and measured.

However, when performing a test using a striking test paper, it is not easy to attach the striking test paper to the object to be diagnosed, and there are problems in that the striking test paper is torn when struck and easily damaged by getting wet with water.

To solve this problem, the "Schmidt hammer striking point indicator for safety inspection and diagnosis" was previously disclosed in Korean Patent Publication No. 10-2479187 (announced on December 20, 2022).

The conventional Schmidt hammer impact point indicator for safety inspection and diagnosis includes a support supported on the surface of the structure; a swing block rotatably connected to the support; It is a plate that accommodates 10 hitting point marking members, and is connected to the swing block so that it can be lifted and lowered so as to move forward and backward toward the structure, and includes a hitting point marking plate that rotates with the swing block, and the hitting point The marking plate is advanced from one side of the support to mark 10 hitting points, and then rotated to the other side through the swing block to mark the remaining 10 hitting points.

The conventional Schmidt hammer impact point indicator for safety inspection and diagnosis configured in this way displays 20 impact points on the surface of the concrete structure in order to non-destructively inspect the concrete structure with a Schmidt hammer, and divides it into 10 points to clearly mark all impact points. Could.

However, the conventional Schmidt hammer impact point indicator for safety inspection and diagnosis is installed with 10 impact point marking members, so it is inconvenient to carry due to its large volume, and the impact point marking members are installed only at preset intervals on the impact point marking plate. Therefore, there was a problem in that it was difficult to adjust the spacing of the displayed hitting points.

The present invention was devised to solve the above-mentioned problems, and the problem to be solved by the present invention is to configure the length of the link connection body to be flexible by crossing a pair of link bars and connecting a plurality of pairs of link bars. The purpose is to provide a Schmidt hammer strike point display device for structural safety inspection and diagnosis that can display the Schmidt hammer strike point at various types of intervals by adjusting the spacing of a plurality of line indicators installed on the link connector.

In addition, the purpose is to provide a Schmidt hammer strike point display device for structural safety inspection and diagnosis in which the link connector expands and contracts in length by screwing the link operation screw portion, allowing the spacing between line indicators to be easily adjusted.

In addition, a straight guide to guide the movement of the connector housing is installed in the connector housing to accurately display the basic line, thereby providing a Schmidt hammer impact point display device for structural safety inspection and diagnosis that can accurately display the Schmidt hammer impact point. The purpose.

In addition, the purpose is to provide an easily portable Schmidt hammer strike point display device for structural safety inspection and diagnosis by connecting the linear guide to the connector housing through a rotating connector and minimizing the volume by folding the linear guide in the connector housing. Do it as

The Schmidt hammer impact point display device for structural safety inspection and diagnosis according to an embodiment of the present invention to achieve the above-described task includes a pair of devices that intersect each other and rotate around the intersected centers, and an indicator hole is formed through the rotating center. A link bar, a line indicator that is inserted into the indicator installation hole to indicate a basic line for indicating a hitting point, and a plurality of line indicators in the form of connecting opposite ends of the pair of link bars and a pair of link bars located adjacent to each other. It is configured by connecting the pair of link bars, and as the pair of link bars is rotated around the indicator installation hole, the plurality of linked link bars rotate around each of the indicator installation holes and the overall length expands and contracts. A link connector that adjusts the gap between the line indicators installed on each pair of link bars, and as the length of the link connector expands and contracts, an indicator guide groove that guides the movement of the line indicators is formed through the link. A connector housing installed with one end fixed inside the connector, and a linear movement of the connector housing connected to the connector housing to indicate the Schmidt hammer impact point by indicating the basic line where the line indicator intersects. Includes a straight guide to guide the.

A link movable part installed on the link bar located at the other end of the link connection body to adjust the spacing of the line indicators installed on each pair of link bars, inserted into the interior of the link housing to control the link connection body. A link operating screw rod that is formed to be long in the direction in which the length is expanded and is screwed to the link movable part and moves the link movable part by screwing so that the length of the link connection body expands and contracts as it rotates, and The link operation may include a threaded rod knob that rotates the threaded rod.

The linear guide may include a guide groove into which a guide pin protruding from the connector housing is inserted and guides the guide pin along the longitudinal direction of the linear guide.

The connector housing may include a rotational connection portion that rotatably connects the linear guides to the connector housing so that the linear guides are unfolded orthogonal to the connector housing or positioned parallel to each other and folded.

According to the present invention, a link connection body whose length expands and contracts is formed by connecting a plurality of pairs of link bars that intersect each other, and a line indicator is installed at each rotation point of the link connection body to adjust the length of the link connection body according to the expansion and contraction. By adjusting the spacing of the line indicator, the Schmidt hammer hitting point can be displayed at various intervals.

Additionally, the distance between the line indicators can be easily adjusted by adjusting the length of the link connector by screwing the link operation screw rod.

In addition, since the connector housing on which the line indicator is installed is guided and moved linearly by the straight line guide, the position of the Schmidt hammer striking point can be accurately displayed by displaying an accurate straight basic line.

In addition, the straight guide is foldably connected to the connector housing by a rotary connector to minimize carrying volume, making it easy to carry.

Figure 1 is a perspective view showing a Schmidt hammer impact point display device for structural safety inspection and diagnosis according to an embodiment of the present invention.
Figure 2 is a cross-sectional view showing a state in which the spacing of the line indicators is adjusted by the link connector constituting the Schmidt hammer hitting point display device for structural safety inspection and diagnosis according to an embodiment of the present invention.
Figure 3 is a side cross-sectional view showing the end where the straight guide is installed of the Schmidt hammer impact point display device for structural safety inspection and diagnosis according to an embodiment of the present invention.
Figure 4 is a plan view sequentially showing the state of displaying the Schmidt hammer hitting point by the Schmidt hammer hitting point display device for structural safety inspection and diagnosis according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the attached drawings.

As shown in Figures 2 and 3, the Schmidt hammer impact point display device 100 for structural safety inspection and diagnosis according to an embodiment of the present invention may include a link bar 121.

A pair of link bars 121 may be intersected so as to be rotatable about the central portion where the link bars 121 are intersected.

An indicator installation hole 123 may be formed in the intersecting central portion of the link bars 121 through which the line indicator 110, which will be described below, is inserted. It can rotate around the installation hole (123).

At each end of the link bar 121, a link hole to which a link pin 122 is connected may be formed to connect a plurality of pair of link bars 121 in parallel.

Meanwhile, a plurality of pair of link bars 121 may be connected to each other in parallel to form a link connection body 120.

The link connector 120 is a link bar 121 facing the other end of a pair of adjacent link bars 121 located at one end of the pair of link bars 121 with the link pin (121) in a state where the link balls overlap. A plurality of pairs of link bars 121 can be connected in the form of inserting 122).

For example, a pair of link bars 121 to form the link connector 120 are arranged in an In this state, the link balls at the ends facing each other can be overlapped and combined by inserting the link pin 122.

The link connector 120 configured in this way rotates one pair of link bars 121 about the indicator installation hole 123, or pulls or pushes one end of the link connector 120, and all connected A pair of link bars 121 rotates close to the horizontal to increase the overall length of the link connector 120, or all connected pairs of link bars 121 rotate close to vertical to increase the overall length of the link connector 120. As the overall length is reduced, the spacing between the line indicator holes 110 installed in each indicator installation hole 123 can be narrowed or the spacing between the Schmidt hammer hitting points can be adjusted by widening.

Meanwhile, five or more pair of link bars 121 constituting the link connector 120 may be connected so that at least five line display holes 110 can be installed.

As shown in FIGS. 1 to 4, the Schmidt hammer impact point display device 100 for structural safety inspection and diagnosis according to an embodiment of the present invention may include a line indicator 110.

This line indicator 110 can display the basic line as the Schmidt hammer striking point to indicate the Schmidt hammer striking point.

Here, the Schmidt hammer striking point displays 20 points in a matrix form at intervals of 3 to 4 cm. In the present invention, basic lines that intersect each other vertically and horizontally are displayed, and the intersection points are used as the Schmidt hammer striking point.

The line marking tool 110 may be implemented as a writing instrument such as a pencil, chalk, pen, or marker that can mark a basic line on the subject being diagnosed.

Since the line indicator 110 coupled to the link connector 120 is installed at each indicator installation hole 123 of a pair of link bars 121, when the length of the link connector 120 is reduced, the indicator sphere 110 is connected to the link connector 120. Since the spacing of the installation holes 123 is also reduced or expanded at equal intervals, a plurality of basic lines can be displayed at adjusted equal intervals.

As shown in FIGS. 1 to 3, the Schmidt hammer impact point display device 100 for structural safety inspection and diagnosis according to an embodiment of the present invention may include a connector housing 130.

This link housing 130 may be formed in the shape of a square box with an empty interior, and a link connector 120 may be installed inside the link housing 130.

The link housing 130 may be formed in an elongated shape in the direction in which the length of the link link body 120 is expanded or shortened, and is a link housing corresponding to the indicator installation hole 123 of the link link body 120. An indicator guide groove 131 may be formed at the position of 130 to guide the movement of the line indicator 110 when the length of the link connector 120 is expanded.

The indicator guide groove 131 is formed in the form of a long hole in the longitudinal direction of the connector housing 130 to guide the plurality of line indicator spheres 110 when the length of the link connector 120 is expanded and contracted. The indicator guide groove 131 may be formed to vertically penetrate the upper and lower parts of the connector housing 130.

The link connector 120 installed in the link housing 130 has one end fixed, the other end moves, and the length can be expanded and contracted.

As shown in FIGS. 1 to 4, the Schmidt hammer impact point display device 100 for structural safety inspection and diagnosis according to an embodiment of the present invention may include a straight line guide 150.

This straight line guide 150 can guide the movement of the link connector 120 so that the basic line can be displayed in a straight line by the plurality of line display holes 110 installed on the link connector 120.

The linear guide 150 may be coupled to one end of the connector housing 130, and the linear guide 150 is connected to the connector housing 130 by a rotational connection portion 125 to form a straight line in the connector housing 130. Rotate the guide 150 to unfold the linear guide 150 in the connector housing 130 to be positioned at right angles, or rotate the linear guide 150 in the connector housing 130 to expand the linear guide 150 in the connector housing 130. The straight guide 150 can be folded to be positioned side by side.

The straight guide 150 may be located at the end of the link housing 130 where the link connector 120 is fixed, and the rotating connector 125 is in the form of a pin and connects one end of the link connector 120 to the connector. While being fixed to the housing 130, the linear guide 150 can rotate in the connector housing 130 through the rotation connector 125.

Meanwhile, a guide groove 151 may be formed in the linear guide 150 to guide movement along the linear guide 150 in a state perpendicular to the connector housing 130, and the linear guide 150 is connected to the connector housing 130. It may be formed to have a preset length so as to display a base line up to a preset length in a perpendicular state at 130.

A guide pin portion 125a moving along the guide groove 151 of the linear guide 150 may be formed in the rotation connection portion 125 to protrude from the center of the rotation connection portion 125 in a direction perpendicular to the rotation connection portion 125. As the guide pin portion 125a is inserted into the guide groove 151 of the linear guide 150, the linear guide 150 is rotated and unfolded or folded in the rotary connection portion 125 and is connected to the linear guide 150. The body housing 130 moves along the straight line guide 150 in a perpendicular state and can display a basic line by the line indicator 110.

As shown in Figure 2, the Schmidt hammer impact point display device 100 for structural safety inspection and diagnosis according to an embodiment of the present invention includes a link moving part 127, a link operation screw rod 141, and a screw rod knob 140. ) may include.

The link movable part 127 may be installed at the end of the link housing 130 in the opposite direction to the fixed end of the link linker 120, and the link movable part 127 is the last pair of links. It can be coupled to the indicator installation hole 123 of the link bar 121.

The link movable part 127 can move with the link connector 120 according to the length of the link connector 120, and the link movable part 127 is screwed to the link operation screw rod 141 to operate the link. As the threaded rod 141 rotates, it slides in the link housing 130 by screwing, and the length of the link link 120 can be expanded.

The link movable portion 127 may be formed with a threaded screw hole formed on the inner circumference of the link operation threaded rod 141.

The link operation screw rod 141 is formed in the form of a long rod in the direction in which the length of the link connector 120 expands and contracts, so that a thread may be formed on the outer surface, and the link operation screw rod 141 is a link movable part ( As the screw fastening hole formed in 127) is screwed and rotated, the end of the link movable part 127 is moved by screwing, thereby expanding and contracting the length of the link connector 120 to adjust the spacing of the line indicator 110. You can.

The end of the link operation threaded rod 141 is exposed through the connector housing 130, and a threaded rod knob 140 is installed at the end of the link operation threaded rod 141 to link the link through the threaded rod knob 140. By moving the link movable part 127 by screwing in the form of rotating the operating screw rod 141 to expand and contract the length of the link connector 120, the line indicator 110 installed on the link connector 120 The spacing between can be adjusted.

At this time, a scale for measuring the distance between the plurality of line indicators 110 is installed in the indicator guide groove 131 through which the line indicator 110 moves in the connector housing 130, and the line indicator is measured through the scale. The spacing between (110) can be adjusted.

Below, the actions and effects between each component will be explained.

The Schmidt hammer impact point display device 100 for structural safety inspection and diagnosis according to an embodiment of the present invention has a pair of link bars 121 crossed, and an indicator hole is placed in the center of the pair of link bars 121. An installation hole 123 is formed.

In addition, a pair of link bars 121 rotatably installed around the indicator installation hole 123 are connected in a manner in which a link pin 122 is inserted with a plurality of link holes facing each other overlapping. Constructs the connection body 120.

Meanwhile, the link connector 120 is inserted and positioned inside the connector housing 130, and one end of the link connector 120 installed inside the connector housing 130 is fixed and the other end is connected to the connector housing. It is installed to move slidingly at 130.

The link housing 130 is provided with a link connector 120 to adjust the gap between the line indicators 110 installed by inserting them into the indicator installation holes 123 formed in a plurality of pairs of link bars 121. One end is fixedly installed, the other end slides according to the length of the link connection body 120, and a link movable part 127 is installed at the end of the sliding link connection body 120.

A link operating screw rod 141 in the form of a long bar is installed in the link moving part 127 in the direction in which the length of the link connector 120 expands and is screwed to the link moving part 127, and the link operating screw rod ( A threaded rod knob 140 is installed at the end where 141) penetrates the connector housing 130 and is exposed to easily rotate the link operation threaded rod 141.

Meanwhile, a straight line guide 150 is installed at the end of the link housing 130 where the link link body 120 is fixed to guide the movement of the link housing 130 to indicate the basic line, and the straight line guide 150 ) is rotated by the rotary connector 125 in the connector housing 130 and folded in a form arranged parallel to the connector housing 130, or unfolded in a form perpendicular to the connector housing 130. Guides the movement of the connector housing 130.

The straight guide 150 rotates around the vertically installed rotary connector 125 that fixes the link connector 120 in the link housing 130, and the rotary connector 125 includes the length of the straight guide 150. The guide pin portion 125a, which is guided along the direction, protrudes in a direction perpendicular to the rotation connection portion 125 and is inserted into the guide groove 151 formed in the linear guide 150, so that the guide pin portion 125a is a guide of the linear guide 150. Move along the groove (151).

On the other hand, each indicator hole 123 of the link connector 120 installed inside the connector housing 130 through the indicator guide groove 131 in the link housing 130 is used to indicate the basic line. The line indicator 110 is inserted and installed.

When carrying the Schmidt hammer impact point display device 100 for structural safety inspection and diagnosis according to an embodiment of the present invention configured as described above, it is installed in the connector housing ( 130) and the straight guide 150 are carried in a folded state so that they are located side by side.

In addition, when marking the Schmidt hammer striking point, the straight guide 150 in the connector housing 130 is rotated around the rotary connection portion 125 so that the straight guide 150 is perpendicular to the connector housing 130. Insert the line indicator 110 into each indicator hole 123 of the link connector 120, which is visible through the indicator guide groove 131 of the link housing 130.

When the line indicator 110 is installed on the link connection body 120, the threaded rod knob 140 is rotated to adjust the Schmidt hammer striking point according to the hardness or size of each piston body.

When the threaded rod knob 140 is rotated, the link operation threaded rod 141 coupled to the threaded rod knob 140 rotates, and the link operation threaded rod 141 is screwed by the rotation of the link operation threaded rod 141. As the link movable part 127 moves along the link operation screw rod 141, the end of the link connector 120 in the opposite direction to the fixed direction moves with the link movable part 127, thereby connecting the link. When the length of the sieve 120 is reduced, the spacing between the line marking spheres 110 narrows, and when the length of the link connector 120 is extended, the spacing between the line marking spheres 110 widens.

At this time, the distance between the plurality of line indicator spheres 110 can be confirmed through the scale formed around the indicator guide groove 131 of the connector housing 130.

Meanwhile, when the gap between the line marking holes 110 is confirmed, the worker horizontally positions the straight guide 150 at the position where the Schmidt hammer hitting point is to be marked, and guides the connector housing 130 on the straight guide 150. By moving it along the groove 151 to the end of the guide groove 151, a horizontal basic line is displayed through the line indicator 110.

When the horizontal basic line is displayed, the worker positions the straight guide 150 so that it is perpendicular to one end of the basic line and moves the connector housing 130 again along the guide groove 151 of the straight guide 150. I order it.

At this time, the connector housing 130 can be moved along the guide groove 151 of the linear guide 150 while being positioned in the initial position in the guide groove 151 of the linear guide 150.

When the connector housing 130 moves to the end of the straight guide 150 in this way, the horizontal basic line is displayed so that the vertical basic line intersects each other, forming a plurality of Schmidt hammer impact points.

Here, when five line indicators 110 are installed on the link connector 120, a total of 25 Schmidt hammer hitting points are formed by the horizontal basic line and the vertical basic line, of which one basic line Excluding the five intersection points, a striking test can be performed using a Schmidt hammer using only the remaining 20 striking points of the Schmidt hammer.

Then, when the marking of the Schmidt hammer striking point is completed, the line indicator 110 is removed from the link connector 120, and the straight guides 150 are folded side by side in the connector housing 130 and carried. The volume can be reduced.

Therefore, the Schmidt hammer impact point display device 100 for structural safety inspection and diagnosis according to an embodiment of the present invention installs a plurality of line indicators 110 on the link connector 120 to display basic lines in the horizontal and vertical directions. The Schmidt hammer striking point can be easily displayed on the object to be diagnosed in the form of crossing, and the link connector 120 is formed by connecting a plurality of intersecting pairs of link bars 121. The spacing between the line indicators 110 installed on the connector 120 can be adjusted, allowing the sumit hammer striking point to be displayed at various intervals.

In addition, by screwing the link operation screw rod 141 to the link connector 120 to expand and contract its length, the spacing between the line display holes 110 can be easily adjusted.

In addition, since the connector housing 130 on which the line indicator 110 is installed is guided and moved by an orthogonal guide, the basic line can be accurately displayed and the Schmidt hammer impact point can be accurately displayed.

In addition, the linear guide 150 is rotatably coupled to the connector housing 130 by the rotary connector 125, so that when carried, the linear guide 150 is folded in the connector housing 130 to minimize the volume, making it easy to carry. It is portable.

Although the embodiments of the present invention have been described above, the scope of the rights of the present invention is not limited thereto, and the embodiments of the present invention can be easily modified by those skilled in the art in the technical field to which the present invention belongs and are recognized as equivalent. Includes all changes and modifications to the extent permitted.

100: Schmidt hammer hitting point display device 110: Line indicator
120: Link connector 121: Link bar
122: Link pin 123: Indicator installation hole
125: Rotating connection part 125a: Guide pin part
127: Link movable part 130: Connector housing
131: Indicator guide groove 140: Threaded rod knob
141: Link operation threaded rod 150: Straight guide
151: Guide home

Claims (4)

A pair of link bars that intersect each other and rotate around the intersecting centers, with indicator holes formed through the rotating centers,
A line indicator inserted into the indicator installation hole to indicate a basic line for indicating the hitting point,
It is composed of connecting a plurality of opposite ends of a pair of link bars located adjacent to the pair of link bars to each other, and as the pair of link bars are rotated around the indicator installation hole. A link connector that adjusts the gap between the line indicator spheres installed on each pair of link bars in such a way that the overall length of the plurality of connected link bars rotates around each of the indicator installation holes,
As the length of the link connector expands, an indicator guide groove is formed to guide the movement of the line indicator, and a connector housing in which the link connector is installed with one end fixed therein, and
Structure safety inspection, characterized in that it includes a straight guide connected to the connector housing to guide the linear movement of the connector housing so as to display the basic line where the line indicator intersects to indicate the Schmidt hammer impact point. and diagnostic Schmidt hammer impact point display device. According to paragraph 1,
A link moving part installed on the link bar located at the other end of the link connection body to adjust the spacing of the line indicators installed on each pair of link bars,
It is inserted into the interior of the link housing and is formed to be long in the direction in which the length of the link link body expands and contracts. The link movable part is screwed to the link movable part so that the length of the link link body expands and contracts as it rotates. A link operation screw rod that moves by screwing, and
A Schmidt hammer impact point display device for structural safety inspection and diagnosis, comprising a screw rod knob that rotates the link operation screw rod. According to paragraph 1,
The straight guide is
A Schmidt hammer impact point display device for structural safety inspection and diagnosis, characterized in that the guide pin protruding from the connector housing is inserted and includes a guide groove for guiding the guide pin along the longitudinal direction of the linear guide. According to paragraph 1,
A structure characterized in that it includes a rotational connection part that rotatably connects the linear guides in the connector housing so that the linear guides are unfolded orthogonally to the connector housing or folded in parallel with each other. Schmidt hammer impact point display device for safety inspection and diagnosis.

Images