KR102189615B1 - Crack depth measuring device for structure safety diagnosis - Google Patents

Abstract

The present invention relates to a crack depth measuring device for a structure safety diagnosis, which is able to measure the depth of a crack while moving along a shape of the crack generated in the structure. More specifically, the crack depth measuring device for a structure safety diagnosis comprises: a base plate in a square plate shape, whose center has a long open hole formed in a longitudinal direction and which has a first rail groove formed on an inner side surface of the open hole to guide a straight movement of a moving frame; the moving frame mounted on an inner side of the open hole formed on the base plate, which is in a square frame shape with an opening unit in the center, and includes a first rail protruding unit formed on an outer side surface to be inserted into a first rail groove, and a second rail groove formed to guide the straight movement of a measuring means in both directions of the base plate to allow the measuring means to be moved along the shape of the crack generated in the structure by being formed on an inner side surface on a front side and a rear side of the opening unit; and the measuring means mounted on an inner side of the opening unit formed on the moving frame, which includes a second rail protruding unit formed on an outer side surface on a front side and a rear side to be inserted into an inner side of the second rail groove, and which measures the depth of the crack while being elevated/lowered in a state that a measuring needle is inserted into the crack generated on the structure by protruding toward the structure. According to the present invention, the crack depth measuring device is able to move straight in a longitudinal direction of a long crack generated on the structure with uneven surfaces, to move in both directions of the crack along the shape of the crack at the same time, to measure the overall depth of the crack continuously, and to easily measure the overall width and depth of the crack generated on the structure.

Description

Crack depth measuring device for structure safety diagnosis

The present invention relates to a crack depth measuring device, and more particularly to a crack depth measuring device for structural safety diagnosis capable of measuring the depth of the crack while moving along the shape of the crack generated in the structure.

In general, when a crack occurs in a structure, it is necessary to continuously observe the cracked part because there is a risk that the structure may collapse due to the growth of the crack.

Here, the causes of cracks in the structure are caused by various causes such as drying shrinkage of the structure, generation of excessive stress, or material problems.

Some of these cracks do not affect the structural safety of the structure, but some cracks cause structural defects in the structure and eventually cause the structure to collapse.

Therefore, for the safety of the structure, the occurrence of cracks must be continuously investigated, and in particular, ongoing cracks must be closely and carefully observed.

On the other hand, in order to easily measure the cracks generated on the surface of the structure, Korean Patent Laid-Open Publication No. 10-2019-0119798 "multi-contact type crack measuring apparatus with magnetic material" has been disclosed.

The conventional crack measuring device detects a current in a state in which the magnetic material and the pizzeria are adhered by magnetic force or electricity, and when a crack progresses, it detects a short circuit of the current while being separated from each other and generates a warning signal to determine the degree of the crack. Therefore, it has the advantage of inducing evacuation if necessary.

However, the conventional crack measuring device can measure the crack state at a specific point in the crack area generated in the structure, but the depth of the crack while moving along the shape of the crack in the long crack area where the length of the crack is spicy There is a problem that cannot be measured continuously.

Korean Patent Application Publication No. 10-2019-0119798 (published on October 23, 2019)

In order to solve the above-described problem, the object of the present invention is to move linearly in the longitudinal direction of a long crack generated in a structure with an uneven surface, and at the same time move in both directions of the crack along the shape of the crack, The objective is to provide a crack depth gauge for structural safety diagnosis that can easily measure the overall width and depth of cracks generated in the structure by continuously measuring the depth.

In addition, an object of the present invention is to provide a crack depth measuring device for structural safety diagnosis that can stably support the base plate even in an inclined structure with an uneven surface because the suction plate supporting the base plate moves freely in multiple directions in a joint shape. Have.

The present invention conceived to achieve the above object is a structure safety diagnosis crack depth measuring device that measures the depth of the crack while moving along the shape of the crack generated in the structure, it has a rectangular plate shape, and a long hole in the center A base plate formed in the longitudinal direction and having a first rail groove for guiding the linear movement of the following moving frame is formed on the inner side of the open hole, and is mounted on the inside of the open hole formed in the bait plate, and has a rectangular opening in the center. A base plate having a frame shape and protruding from the outer surface of the first rail protrusion inserted into the inner side of the first rail groove, and the following measuring means moving along the shape of the crack generated in the structure on the inner surface of the front and rear of the opening A moving frame having a second rail groove for guiding the linear movement of the measuring means in both directions of and mounted on the inside of the opening formed in the moving frame, and a second inserted into the inside of the second rail groove on the front and rear outer surfaces. The rail protrusion is formed to protrude, and the measuring needle protrudes toward the structure, and includes a measuring means for measuring the depth of the crack while ascending and descending with the measuring needle inserted inside the crack generated in the structure.

The measuring means includes a second rail protrusion protruding from the front and rear outer surfaces so as to be mounted on the inside of the opening formed in the moving frame and linearly moving in both directions of the base plate, A housing with an open bottom opening facing the structure, a receiving groove for accommodating a measuring needle, and a tapered shape that is accommodated in the receiving groove of the housing, and the diameter of the outer peripheral surface increases from the bottom to the top A measuring member consisting of a measuring needle formed with a scale line in the longitudinal direction on the outer circumferential surface, and a body integrally formed at the upper end of the measuring needle, and a measuring member provided on the upper side of the measuring member in a state accommodated in the receiving groove of the housing. And a first spring for pressing the measuring member downward so that the measuring needle of is protruded to the outside through the bottom opening of the housing, and at the edge of the bottom opening of the housing, the main body of the measuring member is not separated to the outside through the opening of the housing. It is characterized in that the locking jaw to which the lower end of the main body of the measuring member is in contact is protruded toward the inside of the receiving groove.

A pair of second springs provided inside the opening of the movable frame, each mounted between the housing and the inner surface of the opening around the housing to press the housing in one direction or the other direction of the base plate, and And a measuring rod extending vertically from the upper surface of the main body of the measuring member, penetrating the upper surface of the housing and protruding upward to the outside of the housing, and having a scale line formed on the outer peripheral surface thereof in the longitudinal direction.

A leveling hole in which the following leveling bolts are helically coupled is formed at the edge of the base plate so that the base plate is disposed to be spaced apart from the cracked portion of the structure in a non-contact state, so that it is helically coupled to the inside of the leveling hole formed in the base plate A leveling bolt having a body having a screw thread along an outer diameter, a head having a driver groove engaged with a rotating tool on an upper surface thereof, and an adsorption plate coupled to an end of the leveling bolt body, and a rotating tool is installed on the upper side of the base plate. The leveling bolt is engaged with the driver groove formed in the head of the leveling bolt, and the height of the edge of the base plate is adjusted while rotating the leveling bolt forward and backward, so that the distance between the surface of the structure and the base plate is adjusted.

The present invention moves straight in the longitudinal direction of a long crack generated in a structure with an uneven surface and at the same time moves in both directions of the crack along the shape of the crack, and continuously measures the depth of the entire crack. There is an effect of being able to easily measure the overall width and depth.

In addition, the present invention has the effect of stably supporting the base plate even in an inclined structure having an uneven surface because the suction plate supporting the base plate moves freely in multiple directions in a joint shape.

1 to 3 are an overall perspective view and a partial exploded perspective view showing a crack depth measuring device for structural safety diagnosis according to an embodiment of the present invention,
4 is a partial cross-sectional view showing a crack depth measuring device for structural safety diagnosis according to an embodiment of the present invention;
5 is a plan view and an operating state diagram showing a crack depth measuring device for structural safety diagnosis according to an embodiment of the present invention,
6 is a partial cross-sectional view and an operating state diagram showing a crack depth measuring device for structural safety diagnosis according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the crack depth measuring device for structural safety diagnosis according to the present invention.

1 to 3 are an overall perspective view and a partial exploded perspective view showing a structure safety diagnosis crack depth meter according to an embodiment of the present invention, Figure 4 is a partial cross-sectional view showing a structure safety diagnosis crack depth measurement device according to an embodiment of the present invention 5 is a plan view and an operating state diagram showing a structure safety diagnosis crack depth measuring device according to an embodiment of the present invention, Figure 6 is a partial cross-sectional view and an operating state diagram showing a structure safety diagnosis crack depth measuring device according to an embodiment of the present invention.

Referring to Figures 1 to 6, the structure safety diagnosis crack depth meter according to a preferred embodiment of the present invention is made of a component including a base plate 100, a moving frame 200 and a measuring means 300 , This will be described in detail as follows.

First, the structure safety diagnosis crack depth meter of the present invention is in contact with the surface of the structure (S) or spaced apart from the structure (S) in order to measure the depth of the crack (C) generated in the structure (S) with an uneven surface. It is a crack depth measuring device that measures the depth of the crack (C) while moving along the shape of the crack (C) generated in the structure (S) in one state.

The base plate 100 has a rectangular plate shape. Here, the bottom surface of the base plate 100 may be horizontally seated on the slab floor surface such as the reinforced concrete structure (S), and the base plate 100 is in a vertical state so that the bottom surface contacts the wall of the structure (S). The structure S may be brought into contact with the bottom surface of the base plate 100.

In addition, in the center of the base plate 100, a long-hole open hole 110 is formed in the longitudinal direction of the base plate 100. That is, the open hole 110 is positioned above the region of the long crack (C) generated in the structure (S).

And, on the inner side of both sides of the open hole 110, the moving frame 200, which will be described later, is mounted inside the open hole 110 formed in the center of the base plate 100 to move in the longitudinal direction of the base plate 100 A first rail groove 120 guiding the linear movement of the frame 200 is formed.

The moving frame 200 is mounted inside the open hole 110 formed in the bait plate 100. In addition, it has a rectangular frame shape in which an opening 210 is formed in the center of the moving frame 200. And, on the outer surfaces of both sides of the moving frame 200, the first rail protrusions 220 are formed to protrude to the inner side of the first rail groove 120 formed on the inner surface of the open hole 110 of the base plate 100. Is inserted.

And, on the front and rear inner surfaces of the opening 210 formed in the moving frame 200, the measuring means 300 to be described later move along the shape of the crack C generated in the structure S. Both sides of the base plate 100 A second rail groove 230 that guides the linear movement of the measuring means 300 in the direction is formed.

The measuring means 300 measures the depth and width of the crack C generated in the structure S, and is mounted inside the opening 210 formed in the moving frame 200.

Further, on the front and rear outer surfaces of the measuring means 300, a second rail protrusion 311 is protruded and inserted into the second rail groove 230 formed on the inner surface of the opening 210 of the moving frame 200. .

At this time, the measuring needle 321 protrudes toward the structure (S), and the depth and width of the crack (C) are elevated while the measuring needle 321 is inserted inside the crack (C) generated in the structure (S). Is to measure.

On the other hand, when the measuring means 300 will be described in detail, the measuring means 300 includes a housing 310, a measuring member 320, and a first spring 330.

The housing 310 has a second rail protrusion 311 inserted into the inside of the second rail groove 230 so as to be mounted on the inside of the opening 210 formed in the moving frame 200 to protrude from the front and rear outer surfaces of the base. It moves linearly in both directions of the plate 100.

In addition, the housing 310 has a bottom opening 312 having an open bottom facing the structure S, and a receiving groove 313 in which the measuring needle 321 is accommodated is formed therein.

The measuring member 320 is accommodated in the receiving groove 313 of the housing 310 and is composed of a measuring needle 321 and a main body 322.

The measuring needle 321 has a tapered shape in which the diameter of the outer circumferential surface increases from the bottom to the top so as to be easily inserted into the crack (C). Further, on the outer circumferential surface of the measuring needle 321, a grid line is formed in the longitudinal direction of the measuring needle 321 so that the user can measure the depth and width of the crack. Then, the main body 322 is integrally formed on the upper end of the measuring needle 321.

Further, the measuring needle 321 of the measuring member 320 is provided on the upper side of the main body 322 of the measuring member 320 in a state accommodated in the inner side of the receiving groove 313 formed in the housing 310 A first spring 330 for pressing the body 322 of the measuring member 320 downward so as to protrude to the outside through the bottom opening 312 of the is provided.

On the other hand, on the edge of the opening of the receiving groove 313 formed in the housing 310, the main body 322 of the measuring member 320 so that the main body 322 of the measuring member 320 is not separated from the receiving groove 313 to the outside. It is preferable that the locking projection 312a to which the lower end of the contact is in contact is formed protruding toward the inside of the receiving groove 313.

That is, the base of the moving frame 200 in a state in which the measuring needle 321 exposed to the outside by the pressure of the first spring 330 in the receiving groove 313 of the housing 310 is inserted into the crack C. The measuring needle 321 according to the depth of the crack C while moving along the shape of the crack C by the longitudinal linear movement of the plate 100 and the lateral linear movement of the base plate 100 of the housing 310 This is going up and down.

At this time, it may be configured to further include a measuring rod 500 extending vertically from the upper surface of the main body 322 of the measuring member 320, penetrating the upper surface of the housing 310 and protruding upward to the outside of the housing 310. have.

Here, a grid line is formed on the outer circumferential surface of the measuring rod 500 in the longitudinal direction. This is when the measuring needle 321 is raised and lowered, and at the same time, the measuring rod 500 is also raised and lowered. The user can use the measuring needle 321 from the upper side of the base plate 100 through the scale line of the measuring rod 500. It becomes possible to observe the depth of the crack (C) to be measured.

Meanwhile, it may be configured to further include a pair of second springs 400 provided inside the opening 210 of the moving frame 200.

Here, the second spring 400 is mounted between the housing 310 and the inner surface of the opening 210 formed in the movable frame 200 with the housing 310 as the center, so that the housing 310 is attached to the base plate 100. ) Is pressed in one direction or the other direction.

In addition, when the moving frame 200 is moved along the longitudinal direction of the crack (C), the measuring needle 321 inserted inside the crack (C) follows the shape of the crack (C) of the base frame (100). It is moved in both directions, and when the measuring needle 321 is moved in both directions of the base frame 100 along the shape of the crack C, the housing 310 in which the measuring needle 321 is accommodated also the base frame 100 ) Is moved in both directions.

Here, when the housing 310 is moved in one direction of the base plate 100, the second spring 400 mounted between one side of the housing 310 and the inner surface of the opening 210 of the moving frame 200 is contracted. Conversely, the other second spring 400 mounted between the other side of the housing 310 and the inner side of the opening 210 of the moving frame 200 is elastically restored.

Conversely, when the housing 310 is moved in the direction of the other side of the base plate 100, the second spring 400 mounted between the other side of the housing 310 and the inner surface of the opening 210 of the moving frame 200 is contracted. Conversely, the second spring 400 mounted between one side of the housing 310 and the inner side of the opening 210 of the moving frame 200 is elastically restored.

At this time, in order to prevent separation of the second spring 400 mounted between the housing 310 and the inner surface of the opening 210 of the moving frame 200, the second springs 400 are provided on both outer surfaces of the housing 310. A mounting groove 314 into which one end of) is inserted to a predetermined depth may be further formed, and both inner sides of the opening 210 of the moving frame 200 corresponding to the mounting groove 314 formed in the housing 310 Also, a mounting groove 240 into which the other end of the second spring 400 is inserted to a predetermined depth may be further formed.

Meanwhile, a leveling hole 130 is provided at each corner of the base plate 100 so that the base plate 100 is disposed apart from the crack (C) portion of the structure (S) without contacting the surface of the structure (S). Can be further formed.

Here, while the leveling bolt 600 is received inside the leveling hole 130, a spiral is formed along the inner diameter of the leveling hole 130 so that the leveling bolt 600 is helically coupled to the leveling hole 130.

The leveling bolt 600 supports the base plate 100 from the surface of the structure S so that the base plate 100 is spaced apart from the surface of the structure S, and the structure S and the base plate It plays a role of adjusting the interval between 100).

The leveling bolt 600 is composed of a body 610 and a head 620. In addition, the body 610 is formed with a thread along the outer diameter so as to be helically coupled to the inside of the leveling hole 130 formed in the base plate 100.

In addition, the head 620 is a driver that is integrally formed on the upper side of the body 610 so that the body 610 is helically coupled to the leveling hole 130 and a rotating tool (not shown) such as a driver that rotates forward and backward is engaged A groove is formed on the upper surface.

The adsorption plate 700 serves to adsorb the leveling bolt 600 helically coupled to the base plate 100 to the surface of the structure S, and is coupled to the end of the body 610 of the leveling bolt 600. At this time, the adsorption plate 700 is preferably made of a silicone rubber material having excellent adsorption power.

On the other hand, in a state in which the leveling bolt 600 is helically coupled to the inside of the leveling hole 130 formed in the base plate 100, a rotating tool such as a screwdriver from the upper side of the base plate 100 is installed at the head of the leveling bolt 600 ( The height of each corner of the base plate 100, that is, the overall horizontal level of the base plate 100, is adjusted while being engaged with the driver groove formed in the 620 and rotating the leveling bolt 600 forward and backward.

In addition, when the leveling bolt 600 is rotated forward in the leveling hole 130 by the rotation tool, the body 610 of the leveling bolt 600 is lower side of the base plate 100 along the inner spiral of the leveling hole 130 As it protrudes gradually in the direction, the gap between the structure (S) and the base plate 100 becomes distant, and on the contrary, when the leveling bolt 600 is rotated in reverse, the leveling bolt 600 is moved along the inner spiral of the leveling hole 130. As it rises, the gap between the structure S and the base plate 100 becomes close.

Meanwhile, a ball stud 610a may be further integrally formed at the end of the body 610 of the leveling bolt 600. Further, a socket groove 710 is formed on the upper side of the suction plate 700 to which the ball stud 610a is fitted inward.

Incidentally, the suction plate 700 has a socket groove 710 concave inwardly, and a ball stud 610a formed at the end of the body 610 of the leveling bolt 600 through the upper opening of the socket groove 710 is inserted. It is fitted into the socket groove 710 of the suction plate 700.

The suction plate 700 may be rotated 360 degrees forward and backward with the leveling bolt 600 as a vertical axis in a state in which the ball stud 610a is coupled to the leveling bolt 600 formed at the end thereof.

Conversely, when the leveling bolt 600 is rotated forward and backward through the rotation tool, the suction plate 700 does not rotate in the same direction as the rotational direction of the leveling bolt 600, but is leveled while being adsorbed on the surface of the structure (S). Since only the bolt 600 is rotated, it is possible to easily rotate the leveling bolt 600 with a small force.

In addition, the suction plate 700 may have an inclination angle adjusted according to the curvature of the ball stud 610a.

That is, since the socket groove 710 of the suction plate 700 surrounds the ball stud 610a, the suction plate 700 can freely move in multiple directions in the form of a joint.

This is because even in the inclined structure S with an uneven surface, the bottom surface of the adsorption plate 700 is adsorbed to the structure S at the same angle as the inclination angle of the structure S with the adsorption plate 700 in an inclined state. (100) can be supported stably.

In the above, the present invention has been described based on a preferred embodiment, but the technical idea of the present invention is not limited thereto, and modifications or changes can be implemented within the scope described in the claims. It is obvious to the user, and such modifications or changes will fall within the scope of the appended claims.

100: base plate 110: open hole
120: first rail groove 130: leveling hole
200: moving frame 210: opening
220: first rail protrusion 230: second rail groove
300: measuring means 310: housing
311: second rail protrusion 312: bottom opening
312a: locking jaw 313: receiving groove
320: measuring member 321: measuring needle
322: main body 330: first spring
400: second spring 500: measuring rod
600: leveling bolt 610: body
620: head 700: suction plate
C: crack S: structure

Claims (4)

It is to measure the depth of the crack while moving along the shape of the crack generated in the structure.
A base plate having a rectangular plate shape and having an open hole of a long hole formed in the longitudinal direction in the center, and a first rail groove formed on an inner surface of the open hole to guide the linear movement of the following moving frame;
It is mounted on the inside of the opening hole formed in the base plate, has a rectangular frame shape with an opening in the center, and a first rail protrusion inserted into the inside of the first rail groove protrudes on the outer surface, and front and rear of the opening On the inner side, a moving frame having a second rail groove for guiding the linear movement of the measuring means in both directions of the base plate so that the following measuring means move along the shape of the crack generated in the structure; And
It is mounted on the inside of the opening formed in the moving frame, and a second rail protrusion inserted into the second rail groove protrudes on the front and rear outer surfaces, and the measuring needle protrudes toward the structure to prevent cracks generated in the structure. Measuring means for measuring the depth of the crack while ascending and descending with the measuring needle inserted therein; Including,
The measuring means,
The second rail protrusions inserted into the inside of the second rail groove so as to be mounted inside the opening formed in the moving frame are protruding from the front and rear outer surfaces to move linearly in both directions of the base plate, and the bottom surface facing the structure A housing in which the open bottom opening is formed and a receiving groove for accommodating the measuring needle is formed therein;
It is accommodated in the receiving groove of the housing, the diameter of the outer circumferential surface is made in a tapered shape increasing from the bottom to the top, and the outer circumferential surface has a measuring needle formed with a scale line in the longitudinal direction, and a body integrally formed on the upper end of the measuring needle A measuring member made; And
A first spring provided on the upper side of the measuring member while being accommodated in the receiving groove of the housing to press the measuring member downward so that the measuring needle of the measuring member protrudes to the outside through the bottom opening of the housing; Including,
Structure safety, characterized in that a locking jaw to which the lower end of the main body of the measuring member is in contact is formed protruding toward the inside of the receiving groove so that the main body of the measuring member does not deviate to the outside through the opening of the housing, Diagnosis crack depth gauge. delete The method of claim 1,
A pair of second springs provided inside the opening of the movable frame, each mounted between the housing and the inner surface of the opening around the housing to press the housing in one direction or the other direction of the base plate; Including,
A measuring rod extending vertically from the upper surface of the main body of the measuring member, penetrating the upper surface of the housing and protruding upward to the outside of the housing, and having a scale line formed on the outer circumferential surface thereof in the longitudinal direction; Crack depth measuring device for structural safety diagnosis comprising a. The method of claim 1,
A leveling hole in which the following leveling bolts are helically coupled is formed at the edge of the base plate so that the base plate is disposed to be spaced apart from the cracked portion of the structure in a non-contact state,
A leveling bolt having a body having a screw thread formed along an outer diameter so as to be helically coupled to an inner side of the leveling hole formed in the base plate, and a head having a driver groove on which the rotating tool is engaged; And
An adsorption plate coupled to an end of the leveling bolt body; Including,
The rotation tool is engaged with the driver groove formed in the head of the leveling bolt on the upper side of the base plate, and the height of the edge of the base plate is adjusted while rotating the leveling bolt forward and backward, so that the distance between the surface of the structure and the base plate is adjusted. Crack depth measuring device for safety diagnosis of the structure

Images