KR102670978B1 - Crack width measuring device that easy to measure crack - Google Patents

Abstract

The present invention relates to a crack width measurement device that can easily measure the progress of cracks in a structure. It measures cracks of various widths using a single measuring needle inserted into the crack, and measures the crack width at two locations through a single measurement operation. The purpose is to
A crack width measuring device that facilitates measuring the progress of cracks in a structure according to the present invention includes a case (10); first and second scales 20 and 30 respectively formed on the upper and lower portions of the upper circumference of the case; first and second indicator needles (40, 50) movably mounted on the case and pointing to the first and second scales; A single crack width measurement needle (60) rotatably supported on the case and disposed at the bottom of the case and rotating within the crack of the structure; a handle 70 that is connected to the crack width measurement needle through a connecting rod and penetrates the inside of the case and then protrudes to the top of the case; It is connected to the crack width measurement needle through the connecting rod and rotates together, and includes an indicator movable rod 80 that moves the first and second indicator needles in a straight line as much as the crack width measurement needle rotates, and the crack width measurement needle is connected to the crack width measurement needle. When rotating inside, the first and second indicator needles move in a straight line through the indicator movable rod and indicate the crack width by pointing to the scale.

Description

Crack width measuring device that easy to measure crack progress in a structure {Crack width measuring device that easy to measure crack}

The present invention relates to a crack width measuring device in a structure, and more specifically, to a crack width measuring device that measures cracks of various widths formed in a structure using a single measuring needle and can easily measure the progress of cracks in a structure.

This part only provides background information related to the content of this application and does not necessarily constitute prior art.

Generally, when a crack occurs in a structure (concrete), it is caused by various causes such as drying shrinkage, excessive stress, or material problems.

Such cracks can progress continuously, and depending on the progress, there is a risk of collapse of the structure, so the cracked area must be continuously observed.

Patent documents that can confirm the background technology of the present invention include Patent Registration No. 10-2360320 and Patent No. 10-2195855.

Registered Patent No. 10-2360320 Registered Patent No. 10-2195855 Registered Patent No. 10-2033471

Registered Patent No. 10-2033471 and Registered Patent No. 10-2236378 measure the crack width using a plurality of insertion rods or measuring pins of different diameters. There is an inconvenience in handling multiple insertion rods and measuring pins, and the end When using an insertion rod whose area narrows as it goes or is formed in steps, there is a problem that it is inconvenient to check the scale. In particular, the depth of the crack is not taken into consideration, and the scale or jaw that measures the wide crack width is located far from the end, so the depth of the crack is not deep. However, if the width is wide, it is difficult to measure the crack width and the accuracy is low because the scales and jaws for measuring the wide width are far away from the crack, and since only one crack width is measured through one measurement operation, the crack width measurement work time is shortened. It takes a long time and it is difficult to compare the crack width with surrounding cracks.

In Patent Publication No. 10-2009-0120153, if the crack is not deep but wide, it is difficult to match the measuring part to the crack width, making it difficult to measure the crack width and reducing accuracy.

In addition, in the above-mentioned patent documents, accurate confirmation is difficult because the scale for measuring the crack width is located inside the crack and is obscured by the measuring device.

The present invention is intended to solve the problems described above, measuring cracks of various widths using a single measuring needle inserted into the crack, and measuring crack widths at two locations through a single measurement operation. The purpose is to provide a crack width measurement device that is easy to measure.

Another purpose of the present invention is to insert a crack into a crack to measure the width of the crack and to make it easier to check the scale by placing the scale closer to the measurer than the crack.

The crack width measuring device according to the present invention, which facilitates measuring the progress of cracks in a structure, includes a case; a scale formed on the upper circumference of the case; an indicator movably mounted on the case and pointing to the scale; a single crack width measuring needle rotatably supported on the case and disposed at the bottom of the case and rotating within the crack of the structure; a handle connected to the crack width measuring needle through a connecting rod and protruding from the top of the case after penetrating the inside of the case; It is connected to the crack width measurement needle through the connecting rod and rotates together, and includes an indicator movable rod that is connected to the indicator needle and moves the needle in a straight line by the rotation of the crack width measurement needle to indicate the crack width by indicating the scale. And, when the crack width measuring needle rotates within the crack, the indicator moves in a straight line through the indicator movable rod and indicates the crack width by pointing to the scale.

According to the crack width measurement device according to the present invention, which can easily measure the progress of cracks in a structure, cracks of various widths are measured using a single crack width measurement needle inserted into the crack, making the structure simpler than using multiple crack width measurement needles. It is simple and can measure cracks of various widths just by rotating the crack width measuring needle, making the measurement work very easy. Additionally, by using the end of the crack width measuring stick, the movable indicator bar linked to it, and the indicator needles on both sides, the measurement work is very easy. Since the crack width is measured at two locations through a single operation, the crack width measurement work can be reduced and the work time can be shortened. In addition, the crack width at two locations can be confirmed as a result of the measurement work, which has the effect of confirming changes in the crack.

In addition, the scale indicating the crack width is placed close to the eyes of the measurer on the surface of the structure, so that the measurer can quickly and accurately check the scale indicating the crack width, which has the effect of reducing errors in the measurement work.

In addition, since two indicator needles indicate the crack width at different positions through one movable indicator rod, the crack width at two locations can be measured in a single operation, which has the effect of shortening the work of measuring the crack width.

Figure 1 is a perspective view of a crack width measuring device that facilitates measuring the progress of cracks in a structure according to the present invention.
Figure 2 is a front view showing the operation of the indicator and the indicator movable rod applied to the crack width measuring device that facilitates measurement of the progress of cracks in the structure according to the present invention.
Figures 3 to 6 are diagrams showing the operating state of a crack width measuring device that facilitates measuring the progress of cracks in a structure according to the present invention;
Figures 3 and 4 are side views and top views of the initial mounted state;
Figures 5 and 6 are a side view and a top view of the crack width measurement state.
Figure 7 is an exemplary diagram showing the raising and lowering of a connecting rod included in a crack width measuring device that facilitates measuring the progress of cracks in a structure according to the present invention.
Figure 8 is an example of using the crack width measuring needle of the crack width measuring device, which facilitates measuring the progress of cracks in a structure according to the present invention, as a crack depth measurer.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. The terms described below are defined in consideration of the functions in the present invention, and may vary depending on the intention or custom of the user or operator. Therefore, the definition should be made based on the contents throughout this specification.

As shown in Figure 1, the crack width measuring device 100, which facilitates measuring the progress of cracks in a structure according to the present invention, includes a case 10, first and second scales formed on the upper outer periphery of the case 10 ( 20, 30), are movably mounted on the case 10 along the first and second scales (20, 30), and first and second indicators (40, 50) indicate the first and second scales (20, 30). ), a single crack width measuring needle 60 that is disposed to protrude from the bottom of the case 10 and is rotatably supported on the case 10 and rotates within the crack 2 of the structure 1 to measure the crack width, crack width measurement A handle (70) is connected to the needle (60) and the connecting rod (71) to rotate the crack width measuring needle (60). It is connected to the crack width measuring needle (60) through the connecting rod (71) and rotates together, and both ends are first, When the crack width measurement needle (60) is connected to the second indicator needle (40, 50) and rotates, the first and second indicator needles (40, 50) are moved in a straight line along the first and second scales (20, 30) to measure the first and second indicator needles (40, 50). ,2Includes a movable indicator rod (80) that indicates the crack width through the indicator needles (40, 50).

The case 10 is a frame structure with the upper and lower parts penetrating, and can have various structures such as square and circular. At the bottom, the crack width measurement needle 60 can be seen, and in order to stably support the structure 1, the case 10 is spaced at a certain distance from each other. A plurality of legs 11 are formed.

Additionally, the upper peripheral portion of the case 10 includes a flat outward flange 12 to form the first and second graduations 20 and 30.

The case 10 may include first and second guide rails 13 and 14 so that the first and second indicator needles 40 and 50 can move linearly along the first and second scales 20 and 30. The 1st and 2nd guide rails 13 and 14 are shaped to surround both circumferences of the 1st and 2nd indicator needles 40 and 50, and are directly inserted so that the 1st and 2nd guide rails 40 and 50 can move, or are inserted into the 1st and 2nd guide rails 40 and 50, respectively. 2The pins that secure the indicator needles 40 and 50 may be long holes into which the pins can be movably inserted.

The first and second scales 20 and 30 are formed on the flange 12 formed on the upper circumference of the case 10 to be close to the first and second guide rails 13 and 14, respectively, based on FIG. 4. At this time, the first scale (20) is positioned at the upper side, and the second scale (30) is positioned at the lower side.

The first and second scales 20 and 30 are formed on both the left and right sides based on the center of the case 10, and are formed symmetrically to the left and right, and are formed by adding the indicator scales 20L, 20R, 30L, and 30R on both left and right sides. This is indicated by the crack width. Of course, it is also possible that the first scale 20 is formed only on the left side and the second scale 30 is formed only on the right side.

The first and second scales 20 and 30 may be formed in a curved shape according to the rotation trajectory of the crack width measurement needle 60, or may be formed in a straight shape. When formed in a straight line, there may be a difference in the rotation distance of the crack width measurement needle (60) and the straight line movement distance of the first and second indicator needles (40, 50), so the first and second scales (20, 30) are the straight line of the crack width. It can be converted to give distance.

Magnifying glasses are applied to the first and second scales 20 and 30 to facilitate confirmation of the indicating scale.

The first and second indicator hands (40, 50) are movably mounted on the first and second guide rails (13, 14) of the case (10) along the first and second scales (20, 30), respectively, and have a plate shape. Various shapes such as pointed needles are possible, and the 1st and 2nd indicator hands (40L, 40R, 50L, 50R) on both the left and right sides are respectively the 1st and 2nd scales (20, 30). 30L, 30R).

To be more specific, as shown in FIG. 2, the first indicator needle 40 is divided into two and can be moved separately without being connected to the indicator movable rod 80, and the first indicator needle on the left (40L) and the first indicator (40R) on the right are each movably connected to the first guide rail (13) and are arranged on the left and right sides, respectively, based on the indicator movable rod (80). By rotating the movable rod 80, it moves to the left or right and points to the indicator scale 20L on the left and the indicator scale 20R on the right of the first scale 20.

According to this configuration, the first indicator needle (40L) on the left and the first indicator needle (40R) on the right maintain their respective moving states, so at the end, the indicator scale on the left (20L) and the indicator scale on the right (20R) are maintained. ) can be used to check the crack width.

The second indicator needle 50 is also configured in the same way as the first indicator needle 40.

The crack width measurement needle 60 is inserted into the crack 2 and measures the crack width while rotating within the crack 2. It protrudes from the bottom of the case 10 and is formed to be smaller or larger than the diameter of the case 10. Everything is possible.

The handle 70 is used to forcibly rotate the crack width measuring needle 60 to measure the crack width. As it penetrates the inside of the case 10, the bottom part is connected to the crack width measuring needle 60, while the upper part is connected to the handle 70. It includes a connecting rod 71 connected to. A support 72 is included so that the handle 70 can rotate without leaving the case 10. The support 72 may include a hub coupled to the circumference of the connecting rod 71 and spokes formed radially on the hub and fixed (or lifted) to the inner peripheral surface of the case 10.

The first and second indicator needles (40, 50) are structured so that they do not deviate from the first and second guide rails (13, 14) of the case (10), and the indicators are movable on the first and second indicator needles (40, 50). Because the rod 80 is connected, the connecting rod 71 connected to the indicator movable rod 80 does not separate from the case 10. For example, the indicator movable rod 80 may be connected to the first and second indicator needles 40 and 50 through a flexible and inelastic wire.

The indicator movable rod (80) is fixed to the connecting rod (71) so as to rotate together with the connecting rod (71), and both ends in the longitudinal direction are the first and second indicator needles ( 40L, 4R0, 50L, 50R), and rotates to measure the crack width and moves the first and second indicators (40L, 4R0, 50L, 50R) on the left and right along the first and second scales (20, 30). I order it.

The method of measuring the crack width of a structure using the crack width measuring device, which facilitates the measurement of the progress of cracks in the structure according to the present invention, is as follows.

1. Mounting the measuring device (Figure 3, Figure 4).

When the leg 11 of the case 10 is supported on the surface of the structure 1 and the indicator movable rod 80 is arranged in the center of the crack 2 along the direction of the crack 2, the connecting rod 71 The crack width measuring needle 60 connected below mounts the measuring device 100 by allowing it to be naturally inserted into the inside (entrance) of the crack 2. At this time, the first and second indicators (40 and 50) indicate the initial values (“0”) of the first and second scales (20 and 30).

2. Crack width measurement (Figure 5, Figure 6).

go. Indicator movable rod rotates to the left.

When holding the handle 70 and turning it counterclockwise based on the drawing while holding the measuring device 100 through the entire process, the crack width measuring needle 60 inside the crack 2 through the connecting rod 71 is the same. direction, and the indicator movable rod 80 at the top of the case 10 rotates in the same direction.

The rotation of the indicator movable rod (80) is converted into linear movement of the first and second indicator needles (40, 50), and the first indicator needle (40L) on the left and the second indicator needle (50R) on the right are each connected to each other. Moving in the opposite direction, the indicator scale 20L on the left side of the first scale 20 points to the indicator scale 20R on the right side of the second scale 30.

me. Indicator movable rod rotates to the right.

Next, when the crack width measuring pin 60 is rotated in the opposite clockwise direction, the indicator movable rod 80 rotates clockwise, and the first indicator 40L on the left side of the first and second indicator needles 40 and 50 is rotated clockwise. ) and the second indicator needle (50R) on the right are fixed, while the first indicator needle (40R) on the right and the second indicator needle (50L) on the left are moving along the first and second scales (20 and 30), respectively. The indication scale 20R on the right side of the first scale 20 points to the indication scale 30L on the left side of the second scale 30.

Here, the first and second scales (20L, 20R, 30L, 30R) indicated by the first and second indicator needles (40L, 40R) and 50L, 50R are added to obtain the crack width.

In this way, since the first and second scales 20 and 30 on both the left and right sides are measured respectively, the exact crack width can be measured even if the indicator movable rod 80 is not placed in the exact center of the crack.

In order to complete the measurement of the crack width and measure the crack width at the next location, move the indicator movable rod (80) to the center and then move the first and second indicator needles (40L, 40R, 50L, 50R) to the indicator movable rod (80). Move it to the side and reset it.

When measuring the crack width 2 in this way, since the first and second indicator needles 40 and 50 are located at different positions, it is possible to measure the crack width at two locations with a single measurement operation.

Meanwhile, in the present invention, the crack width measuring needle 60 is connected to the case 10 so that the change in crack width can be measured according to the depth of the crack. Graduation is included.

For example, as shown in FIG. 7, a socket 85 is formed on the indicator movable rod 80 to which the connecting rod 71 is connected to be able to move up and down, and a depth measurement scale 72 is formed on the connecting rod 71 in the vertical and vertical directions. is formed according to The socket 85 must be connected so that the connecting rod 71 can be raised and lowered while receiving the rotation of the connecting rod 71 and rotating the indicator movable rod 80. For example, there is 1 on the circumference of the connecting rod 71. One or two or more protrusions 72 are formed along the upper and lower longitudinal directions, and the inner peripheral surface of the socket 85 includes a groove 86 into which the protrusions 72 are inserted to be able to move up and down. The connection rod 71 and the socket 85 can be connected by detachably assembling the handle 70 to the connecting rod 71 (screw type, etc.).

Here, a coil spring 74 may be applied as an elastic member to return the connecting rod 71 to its initial position. The coil spring 74 is interposed between the upper part of the bearing 85 and the handle 70 and elastically supports the handle 70 upward using the bearing 85 as a support base, thereby connecting the handle 70 and the connecting rod 71 and The assembly of the crack width measuring needle 60 is supported in the initial position. At this time, the indicator movable rod 80 may be fixed to the case 10 so as to be rotatable and not be lifted up and down. For example, a supporter that covers and supports the upper part of the indicator movable rod 80 in the case 10. is included so that the indicator movable rod (80) is supported.

In addition, the present invention can be configured as follows so that the crack width measuring needle 60 inserted into the crack 2 can also be used as a crack depth measurer.

As shown in Figure 8, the crack width measurement needle 60 is rotatably connected to the connecting rod 71 (the direction of rotation is a direction arranged horizontally within the crack and a direction perpendicular to the crack) and arranged along the crack width when measuring the crack width. When measuring the crack depth, it rotates to be inserted into the crack (2), and a crack depth measurement scale (61) is displayed on the surface.

10: case, 11: leg
12: Flange, 13, 14: 1st and 2nd guide rails
20,30: 1st and 2nd scales, 20L,30R: 1st and 2nd scales on the left and right
40,50: 1st, 2nd indicator,
40L, 50R: 1st and 2nd indicators on the left and right,
60: Crack width measurement needle, 61: Crack depth measurement scale
70: handle, 71: connecting rod
72: support, 80: indicator movable rod

Claims (4)

Case (10) and;
First and second scales 20 and 30 formed on both sides of the upper circumference of the case to face each other;
first and second indicator needles (40, 50) movably mounted on the case and pointing to the first and second scales;
A single crack width measurement needle (60) rotatably supported on the case and disposed at the bottom of the case and rotating within the crack of the structure;
a handle 70 that is connected to the crack width measurement needle through a connecting rod and penetrates the inside of the case and then protrudes to the top of the case;
Including an indicator movable rod 80 that is connected to the crack width measuring needle through the connecting rod and rotates together and moves the first and second indicator needles in a straight line as much as the crack width measuring needle rotates, so that the crack width measuring needle moves within the crack. When rotating, the first and second indicator needles move in a straight line through the indicator movable rod and point to the first and second scales to indicate the crack widths at two locations,
The first and second scales are divided into left and right indicator scales (40L, 40R, 50L, 50R), while the first and second indicator needles move to both left and right based on the indicator movable rod, respectively. It is mountable and is divided into left and right first and second indicator needles (40L, 40R, 50L, 50R) that point to the left and right indicator scales, and move when the indicator movable rod rotates left and right, respectively. A crack width measuring device that can easily measure the progress of cracks in a structure, characterized by indicating indication scales on the left and right sides. delete The crack width measuring device according to claim 1, wherein the crack width measuring needle is connected to the case so as to be capable of being raised and lowered and measures the crack width according to the depth of the crack. The method according to claim 1, wherein the crack width measurement needle is rotatably connected to the connecting rod, has a crack depth measurement scale displayed on its surface, and is inserted into the crack to measure the progress of the crack in the structure. Easy crack width measurement device.

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