KR20120006561U - Measurement apparatus of crack monitor - Google Patents

Abstract

The present invention relates to a crack measuring device, and more specifically, to measure not only the distance in the vertical and horizontal direction of the crack, but also the actual distance of the two sides of the crack in the diagonal direction. The present invention relates to a crack propagation measurement device that enables measurement, thereby enabling a more accurate measurement of crack progression.
The features of the present invention as described above is provided with a main skeleton portion 20 is fixed to one side where the crack is generated, and the auxiliary skeleton portion 30 is coupled to the main skeleton portion 20 to slide and fixed to the other side. While the crack is opened or narrowed, it is possible to measure the degree of cracking or narrowing by the main scale 21 of the main skeleton portion 20 and the auxiliary scale 31 of the auxiliary skeleton portion 30 that are slidingly coupled. Characterized in that it is provided.

Description

Crack Progression Measuring Device {MEASUREMENT APPARATUS OF CRACK MONITOR}

The present invention relates to a crack measuring device, and more specifically, to measure not only the distance in the vertical and horizontal direction of the crack, but also the actual distance of the two sides of the crack in the diagonal direction. The present invention relates to a crack propagation measurement device that enables measurement, thereby enabling a more accurate measurement of crack progression.

In general, a crack is a crack in the wall of a building. If the wall of the building is cracked, there is a risk of collapse of the building.

However, most buildings can be cracked to some extent due to various causes after a certain period of time. Of course, if you want to build a crack-free building, but you cannot help it, it is more efficient to repair the cracks to a lesser degree than to destroy the already built facility.

Therefore, in the case of a building where a crack has occurred, if there is a serious concern about the collapse or the user injury due to the crack, the building must be dismantled. It is better to use it for a long time. In addition, in the case of repair, it is possible to accurately determine the degree of cracking, and in particular, it is necessary to accurately determine the progress of cracking to determine the appropriate repair degree.

In other words, it is not easy to determine the degree because cracks are not made at once, but most of them progress slowly. In particular, since most of the precision crack measurement equipment is expensive and precision equipment, there is a problem that it is difficult to use because it is also complicated to use easily.

In particular, most crack measurements merely measure what is happening only in the transverse direction of the crack, and when it occurs in the diagonal direction, it is often difficult to measure the actual open distance in the diagonal direction. That is, it is impossible to establish a reference point for which part and which part are diagonally inclined to each other, and thus, it is impossible to accurately diagnose the diagonal direction.

In addition, in the case of most cracks in the diagonal direction, only the gaps of the cracks are measured or measured. Only the distance between the cracks is measured or measured. There may be a problem.

In addition, as a device for measuring some cracks, the grid and crosshairs are prepared, and the grid and crosshairs may be marked, but the scale may be erased by sunlight, etc., and the vertical movement angle may be measured due to distortion. It is impossible.

The present invention for overcoming the above problems is to measure not only the distance in the vertical and horizontal direction of the crack, but also to measure the actual distance of the two sides of the crack in the diagonal direction, so as to measure the opening or narrowing distance of the correct crack. The purpose is to help.

In addition, the present invention aims to measure not only the distance change due to the cracking or narrowing of the crack, but also the angle change of the twisting by the crack, so that the accuracy of crack progression can be measured.

In addition, when the crack is opened or narrowed, the measurement unit can measure up to a small unit of 0.05 (for example, when using a 0.05mm unit), so it is compact and easy to use, but precise measurement is possible compared to the size.

In addition, the part to be fixed to both sides of the crack, and the part to be measured to rotate freely, so that even in the situation of various cracks, the measurement part of the crack is not deformed by free rotation, it is possible to measure the measurement uniformly and stably.

The present invention for achieving the above object, the main skeleton portion 20 is fixed to one side where the crack is generated, and the auxiliary skeleton portion is coupled to the main skeleton portion 20 and sliding so as to slide on the other side ( 30) is provided, the crack is widened or narrowed by the main scale 21 and the auxiliary scale 31 of the auxiliary skeleton portion 30 of the main skeleton portion 20 is slidingly coupled while the crack is opened or narrowed It is provided with a crack progress measurement apparatus characterized in that it is provided to measure.

The main angle indicator portion 22 is rotatably coupled to one side of the main skeleton portion 20 and fixed to one side where the crack is generated, and the crack is rotatably coupled to one side of the auxiliary skeleton portion 30. The auxiliary angle indicator 32 is fixed to the other side surface, and the main skeleton portion 20 or the auxiliary angle indicator portion 32 surrounding the main angle indicator portion 22 or the auxiliary angle indicator portion 32 is provided with a main. The angle scales 23 and 33 corresponding to the display scales of the angle indicator 22 or the auxiliary angle indicator 32 may be displayed.

In addition, the main skeleton portion 20, the sliding protrusion 25 protruding in the transverse direction on the front surface, and the sliding grooves 26, 27 forming a row groove in the transverse direction above and below the sliding protrusion 25 is formed In the auxiliary skeleton portion 30, the auxiliary coupling groove (35) forming a horizontal row groove so as to be slidingly coupled with the sliding protrusion (25) on the rear side, and is positioned up and down of the auxiliary coupling groove (35) the sliding groove Auxiliary coupling protrusions 36 and 37 slidingly coupled to the 26 and 27 may be formed.

Further, the vertical protrusion wall surface 28 of the sliding protrusion 25 of the main skeleton portion 20 is provided to form an inclined surface of the all-light rear narrowing to the rear, the auxiliary coupling groove 35 of the auxiliary skeleton portion 30 Auxiliary wall surface of the 38 is provided with an inclined surface to correspond to the sliding protrusion 25 forming the inclined surface of the all-optical narrow, the main skeleton portion 20 and the auxiliary skeleton portion 30 in the state coupled to each other swing in the front and rear direction It may be provided so that the measurement can be performed by moving in the lateral direction.

The present invention constituted as described above can measure not only the distance in the vertical and lateral directions of the cracks, but also the actual distance of the two sides of the cracks in the diagonal direction, so as to measure the gap between the precise cracks and the narrowing distances. There is.

In particular, in the present invention, as well as measuring the change in distance caused by the cracking or narrowing of the crack, it is possible to measure the change in the angle of the twist by the crack, thereby having an excellent effect of measuring the progress of the crack more accurately.

In addition, when the crack is opened or narrowed, the measurement unit can measure up to a small unit of 0.05 (for example, when using a 0.05mm unit), so it is compact and easy to use, but precise measurement is possible compared to the size.

In addition, the part to be fixed to both sides of the crack, and the part to be measured to rotate freely, so that even in the situation of various cracks, the measurement part of the crack is not deformed by free rotation, it is possible to measure the measurement uniformly and stably.

1 is a perspective view of a crack progress measurement apparatus according to the present invention.
2 is a front view of a crack progress measurement apparatus according to the present invention.
3 is a rear view of the crack progress measurement apparatus according to the present invention.
Figure 4 is an exploded perspective view of the separated state for the crack progress measurement apparatus according to the present invention.
5 is a plan view of a crack progress measurement apparatus according to the present invention.
6 is a cross-sectional view taken along the line AA of Figure 5, a side cross-sectional view of a crack progress measurement apparatus according to the present invention.
7 is an exemplary view showing an initial state of the crack progress measurement apparatus according to the present invention is installed on the wall surface to be measured the crack degree.
8 is an exemplary view showing a state where the crack progress measurement apparatus according to the present invention is installed on the wall is cracked.
FIG. 9 is an enlarged exemplary view of part B of FIG. 8, and is an enlarged exemplary view of a display state of each scale for measuring cracking degree, in which a crack progress measurement apparatus according to the present invention is installed on a wall where cracks are advanced.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

That is, the crack progress measurement apparatus 10 according to the present invention is the main skeleton portion 20 and the main skeleton portion 20 is fixed to one side where the crack is generated, as in the accompanying examples of Figures 1 to 9, etc. Auxiliary skeleton portion 30, which is coupled to the sliding and fixed to the other side is provided.

Thus, while the crack 11 is opened or narrowed, the degree of cracking or narrowing of the crack is measured by the main scale 21 of the main skeleton portion 20 and the auxiliary scale 31 of the auxiliary skeleton portion 30 that are slidingly coupled. It is to be provided.

That is, the main skeleton portion 20, which is one side of the crack progress measurement apparatus 10 according to the present invention, is fixed to one side where the crack 11 is generated, and the auxiliary skeleton portion 30, which is the other equipment, has a crack ( 11, the main skeleton portion 20 and the auxiliary skeleton portion 30 are separated from each other as the crack 11 opens.

Of course, the crack may be rather narrowed, as in the example of Figure 7, the main skeleton portion 20 and the auxiliary skeleton portion 30 of the crack progress measurement apparatus 10 according to the present invention By slightly opening each one, the reference point (fitting the scale of each "0") by the main scale 21 and the auxiliary scale 31 which is each scale is made to be aligned in the state which spread slightly.

Therefore, when the crack is opened, the '0' points of the main scale 21 and the auxiliary scale 31 will be read as the measured value from the reference point at which the '0' point is set. On the contrary, if the crack is narrowed, the main scale 21 and the auxiliary scale will be read. The zero points of the scale 31 will be read as a narrowing measurement.

That is, in the case of cracking, the '0' point of the auxiliary scale 31 will be located to the right (indicated '+' area) on the basis of the '0' point of the main scale 21, and on the contrary, the crack In the case of narrowing, the '0' point of the auxiliary scale 31 will be located to the left side (indicated area of '-') based on the '0' point of the main scale 21.

Therefore, even if only one crack progress measurement device 10 according to the present invention is to be used when the crack is narrowed, or when the crack.

In addition, the main skeleton portion 20 and the auxiliary skeleton portion 30 is provided to be slidingly coupled to each other in the direction in which the crack proceeds.

Looking at the configuration for this, the main skeleton portion 20, the sliding protrusion 25 protruding in the transverse direction on the front surface, and the sliding groove 26 forming a row groove in the transverse direction above and below the sliding protrusion 25 ( 27) is formed.

In addition, corresponding to the auxiliary skeleton portion 30, the auxiliary coupling groove 35 forming a transverse row groove so as to be slidingly coupled with the sliding protrusion 25 on the rear side, and positioned up and down of the auxiliary coupling groove 35 The auxiliary coupling protrusions 36 and 37 which are slid to the sliding grooves 26 and 27 are formed.

Thus, the sliding protrusion 25 of the main skeleton portion 20 is slidingly coupled along the auxiliary coupling groove 35 of the auxiliary skeleton portion 30, while the sliding grooves 26 and 27 which are vertically up and down thereof are respectively. Auxiliary coupling protrusions 36 and 37 of the auxiliary skeleton portion 30 is to be slided.

Thus, as the cracks 11 are opened or narrowed, sliding protrusions 25 such as the main skeleton portion 20 and the auxiliary skeleton portion 30-auxiliary coupling groove 35, sliding grooves 26, 27-auxiliary coupling By the sliding engagement by the engaging portion such as the projections 36 and 37, the crack 11 is stably moved in the direction of opening or narrowing.

In particular, the vertical projection wall surface 28 of the sliding protrusion 25 of the main skeleton portion 20 is provided so as to form an inclined surface of the all-optical narrowing narrow (front, narrow rear) narrowing to the rear, Auxiliary wall surface 38 of the auxiliary coupling groove 35 of the skel part 30 is provided with an inclined surface to correspond to the sliding protrusion 25 that forms the inclined surface of the front light narrow (front, wide and narrow rear) will be.

Therefore, the main skeleton portion 20 and the auxiliary skeleton portion 30 is provided to be able to move in the transverse direction without being moved in the front-rear direction in a state coupled with each other. In other words, it is possible to obtain a stable measurement with each of the main scale 21 and the sub-scale 31 so as to move stably without shaking in the forward or rear direction of each crack progress direction.

In addition, the crack progress measurement apparatus 10 according to the present invention is not only able to measure the distance that the crack 11 is opened or narrowed, but also measures the angle of the direction in which the crack 11 is opened or narrowed together. Could be.

Looking at the configuration for measuring the crack progress angle, the main angle indicator portion 22 is rotatably coupled to one side of the main skeleton portion 20 and fixed to one side where the crack is generated.

In addition, the auxiliary angle indicator portion 32 is rotatably coupled to one side of the auxiliary skeleton portion 30 and fixed to the other side where the crack is generated.

A display scale of the main angle indicator portion 22 or the auxiliary angle indicator portion 32 is provided on the main skeleton portion 20 or the auxiliary skeleton portion 30 surrounding the main angle indication portion 22 or the auxiliary angle indication portion 32, respectively. Each of the angular scales 23 and 33 corresponding to is displayed.

In particular, the main angle indicator 22 or the auxiliary angle indicator 32 is rotatably coupled to the main skeleton portion 20 or the auxiliary skeleton portion 30 corresponding to each installation main body.

Therefore, the angle of crack 11 may be examined by the main angle indicator 22 of the main skeleton portion 20 or the auxiliary angle indicator 32 of the auxiliary skeleton portion 30.

That is, as in the example of Figure 8, the crack 11 is also important in the size of the gap is widened or narrowed, the twist angle is also very important. Therefore, the main scale 21 of the main skeleton portion 20 and the auxiliary scale 31 of the auxiliary skeleton portion 30, etc., it is possible to know the extent to which the sides of the cracks 11 open or narrow each other, and also the main angle indicating portion (22) or the degree of twist by the auxiliary angle indicating section 32, etc. can be easily seen.

To this end, the main skeleton portion 20 and the auxiliary skeleton portion 30 and the like should be free to each other with respect to the traveling distance that the cracks 11 are opened or narrowed and the angle at which the cracks 11 are twisted. That is, the main skeleton portion 20 and the auxiliary skeleton portion 30 should not be directly fixed to the surface of the crack 11 portion.

On the other hand, in order to measure the skewed angle, in order to know the angle before the twisted and the skewed angle, the fixed part and the part which can be known to be skewed should be easily contrasted.

To this end, the rear portions of the main angle indicator portion 22 coupled to the main skeleton portion 20 or the auxiliary angle indicator portion 32 coupled to the auxiliary skeleton portion 30 are fixed to both side walls of which cracks 11 are formed. , The main skeleton portion 20 and the auxiliary skeleton portion 30, which are freely rotatably coupled with the main angle indicating portion 22 or the auxiliary angle indicating portion 32, should be freely rotatable with the fixing portion of the crack 11. will be.

As a result, when viewed from the main skeleton portion 20, the indication portion (indicated by a triangle pointing outward to the left portion of the circle) displayed on the main angle indicating portion 22 and the main angle indicating portion 22 can be rotated. It will be possible to measure the angle twisted by the crack while looking at the angle rotated between the angular scale 23 indicated in the attention of the main skeleton portion 20 to be coupled.

Similarly, when viewed from the auxiliary skeleton portion 30, the indication portion (indicated by the triangle pointing outward to the right portion of the circle) displayed on the auxiliary angle indicating portion 32 and can be rotated with such an auxiliary angle indicating portion 32 It will be possible to measure the angle twisted by the crack while watching the angle rotated between the angle scale 33 marked around the auxiliary skeleton portion 30 to be coupled.

That is, the angle of the crack of the crack may be measured by an indication scale that is rotated between the angle division 23 of the main skeleton portion 20 and the indication portion of the main angle indication portion 22, and the angle division of the auxiliary skeleton portion 30 is also measured. It is also possible to measure the distorted angle of the crack with the indication scale rotated between 33 and the indication portion of the auxiliary angle indicator (32).

Of course, the degree of change of the scale by the main angle indicating unit 22 and the degree of change of the scale by the auxiliary angle indicating unit 32 may be the same, but external requirements such as the vibration of the crack back and forth or the main skeleton portion 20 Depending on the degree of rotation and friction of the rotating portion of the auxiliary skeleton portion 30, the angles indicated by each of the main angle indicator 22 and the auxiliary angle indicator 32 may be different. Accordingly, the angle of crack distortion may be measured as an average value of the rotation angle by the main angle indicator 22 and the rotation angle by the auxiliary angle indicator 32.

Looking at the installation and use of the crack progress measurement apparatus 10 according to the present invention is provided as follows.

First, the main angle indicator portion 22 of the main skeleton portion 20 or the auxiliary angle indicator portion 32 of the auxiliary skeleton portion 30 is turned, and the respective angle scales 23, 33 and '0' points of the front are turned. Will be corrected. At this time, the main angle indicator 22 or the secondary angle indicator 32 may be provided so as not to rotate well, and put coins or the like in the charging grooves 221 and 321 so as to match the respective '0' points. do.

Next, an adhesive solvent is applied to the back surface of each of the main angle indicator portion 22 of the main skeleton portion 20 and the auxiliary angle indicator portion 32 of the auxiliary skeleton portion 30.

Looking at the kind of adhesive solvents, the object that is installed and examines the degree of cracking may be a building wall, a rock wall, a large structure such as the ground, an exhibition or an assembly structure, and the material is a stone, cement, soil, etc. It may be made of a material, as well as a device of various materials such as metal fixtures, wooden fixtures can be measured to open or narrow the device.

In the case of a metal or wood, as well as devices or apparatuses of various materials can be easily bonded because most of the surface is smooth, general adhesive, instant adhesive, etc. may be used as an adhesive. On the other hand, in the case of buildings, rock walls, and other structures such as stone, stone, cement may not be easily adhered, it will need to be installed in such a way that the adhesion state is good in a manner that together with epoxy or silicone filler. Therefore, in the embodiment of the present invention can be determined in various ways depending on the target of the crack measurement, it will not be limited to any particular adhesive solvent.

The adhesive solvent is applied to the back surface of the main angle indicating portion 22 and the auxiliary angle indicating portion 32, respectively, and the applied adhesive solvent should be careful not to get on the main skeleton portion 20 and the auxiliary skeleton portion 30, respectively. something to do.

Of course, if the main angle indicator 22 or the secondary angle indicator 32 and the like is well rotated, first apply an adhesive solvent to each of the back, and then may be ordered to match each '0' point.

Subsequently, the main skeleton portion 20 and the '0' point of the auxiliary scale portion 31 of the auxiliary skeleton portion 30 and the '0' point of the auxiliary scale portion 31 are matched with the main skeleton portion 20. The process of adjusting the '0' point for measuring the distance according to the opening or narrowing of the crack between the skel part 30, and adjusting the '0' point for measuring the rotational angle for the crack of the crack is completed.

And the adhesive solvent applied to the rear of each of the main angle indicator portion 22 of the main skeleton portion 20 and the auxiliary angle indicator portion 32 of the auxiliary skeleton portion 30 to be firmly fixed to the wall surface for crack 11 measurement. Will be attached.

In this state, the indication scale state of the main scale 21, the auxiliary scale 31, the angular scale 23, and the like, is recorded.

After the crack 11 is opened or narrowed in progress, the cracked or narrowed state of the crack 11 is to measure and record the angle of the twist.

The angle measurement for the distortion is recorded by looking at the angle scales 23 and 33 of the two main angle indicators 22 and the auxiliary angle indicators 32 and the like, and calculating the angle of the cracks as the average value thereof. will be. 8 and 9 illustrate the same angle change, which illustrates an angle change of approximately 10 °.

8 and 9, the measurement of the distance that is opened or narrowed, with respect to the main scale 21 of the main skeleton portion 20, '0 of the auxiliary scale 31 of the auxiliary skeleton portion 30. It can be seen that the scale display portion is located between '2' and '3' of the main scale 21.

In addition, it can be seen that the portion where the main scale 21 and the sub-scale 31 coincide with each other is located at the '75' portion of the sub-scale 31.

Therefore, the distance that has been opened is set to '2' by the main division and '0.75' by the matching subdivision of the main division and the subdivision, and the gap formed by the crack opening is a total of '2.75'. It can be seen that it is measured. Each measurement is recorded for this crack in progress. In other words, according to the present invention, '0.05' precision unit (in the case where the implementation of the present invention is taken as an example, in this case '0.05mm precision unit) may also be measured.

As for cracks or narrowing parts, the angle of twisting together with the degree of easy opening or narrowing distance can be easily measured with the naked eye.

As such, the crack 11 may be easily discerned as the progress of the crack is recorded by looking at the distance that is opened or narrowed at regular intervals and the distorted angle with respect to the part in which the crack 11 is in progress.

The embodiments of the present invention have been described in detail above, but since the embodiments are described to easily carry out the present invention by those skilled in the art to which the present invention belongs, the description of the embodiment The technical spirit of the present invention should not be interpreted limitedly.

10 crack crack measurement device 11 crack
20: main skeleton portion 21: main scale
22: main angle indicator 23: angle scale
25: sliding protrusion 26, 27: sliding groove
28: up and down protrusion wall 30: auxiliary skeleton portion
31: auxiliary scale 32: auxiliary angle indicator
33: angle scale 35: auxiliary coupling groove
36, 37: auxiliary coupling protrusion 38: auxiliary wall surface

Claims (3)

The main skeleton portion 20 is fixed to rotate on one side where the crack is generated,
The auxiliary skeleton portion 30 is coupled to the main skeleton portion 20 so as to slide and fixed to rotate on the other side where the crack is generated.
While the crack is opened or narrowed, it is provided to measure the distance that the crack is opened or narrowed by the main scale 21 of the main skeleton portion 20 and the auxiliary scale 31 of the auxiliary skeleton portion 30 that are slidingly coupled. Become,
The main angle indicator portion 22 is rotatably coupled to one side of the main skeleton portion 20 and fixed to one side surface where cracks are generated.
An auxiliary angle indicator 32 is rotatably coupled to one side of the auxiliary skeleton portion 30 and fixed to the other side where cracks are generated.
The main skeleton portion 20 or the auxiliary skeleton portion 30 surrounding the main angle indicator portion 22 or the auxiliary angle indicator portion 32 respectively corresponds to the display scale of the main angle indicator portion 22 or the auxiliary angle indicator portion 32. Crack progress measurement device, characterized in that the angle scales (23) and (33) are provided.
The method of claim 1,
In the main skeleton portion 20, sliding protrusions 25 protruding in the transverse direction on the front surface, and sliding grooves 26, 27 forming row grooves in the transverse direction above and below the sliding protrusions 25 are formed,
The auxiliary skeleton portion 30, the auxiliary coupling groove 35 to form a horizontal row groove so as to be slidingly coupled with the sliding protrusion 25 on the rear side, and is positioned up and down of the auxiliary coupling groove 35 and the sliding groove ( 26) (27) crack progress measurement device, characterized in that the auxiliary coupling protrusions (36) (37) are formed to be provided.
The method of claim 2,
The vertical projection wall surface 28 of the sliding protrusion 25 of the main skeleton portion 20 is provided to form an inclined surface of the all-light rear narrowing to the rear,
Auxiliary wall surface 38 of the auxiliary coupling groove 35 of the auxiliary skeleton portion 30 is provided with an inclined surface to correspond to the sliding protrusion 25 forming an inclined surface of the all-optical rear view,
Crack progress measurement device, characterized in that the main skeleton portion 20 and the auxiliary skeleton portion 30 is coupled to each other in a state capable of measuring the movement in the transverse direction without swinging in the front and rear directions.

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