KR101957299B1 - Safety inspection device for checking the crack length of structure and crack length checking device of structure using this - Google Patents

Abstract

The present invention relates to a safety diagnosis apparatus for the inspection of a crack length of a structure, capable of conveniently adjusting the position of a scale beam, facilitating the installation and removal of an inspecting device in a structure, promoting the stabilization of an inspection process and smoothly guiding repair and reinforcement work by sliding a scale beam for measuring the length of a crack of a structure in a longitudinal direction of a reference bar and in a direction going across the longitudinal direction of the reference bar when measuring the length of the crack by installing the inspecting device in the structure, and a crack length inspection device used therefor. To achieve the purpose, the safety diagnosis apparatus includes: an inspecting device including a crack length inspecting device installed in a structure with a crack occurring therein to measure the length of the crack; a crack length calculating part converting the measured length of the crack into characters; and a controller planning repair and reinforcement work for the crack based on the characters converted from the length of the crack.

Description

TECHNICAL FIELD [0001] The present invention relates to a safety diagnosis apparatus for checking a crack length of a structure, and a crack length checking apparatus for a structure used for the same. BACKGROUND ART [0002]

The present invention relates to a safety diagnosis apparatus for checking a crack length of a structure and an apparatus for checking a crack length of the structure used in the apparatus. More particularly, , The scales for measuring the length of the cracks are slid in the direction of the length of the reference frame and the direction intersecting with the longitudinal direction of the reference frame to simplify the adjustment of the scale scale and facilitate detachment and attachment of the inspection device in the structure, The present invention relates to a safety diagnosis apparatus for checking a crack length of a structure for smoothly guiding maintenance and reinforcement work, and an apparatus for checking a crack length of a structure used in the apparatus.

Generally, reinforced concrete is a durable structural material that uses reinforced concrete and concrete reasonably, and is widely used in civil engineering and important structures such as bridges and buildings. On the other hand, reinforced concrete is cracked due to many factors, and it is influenced by factors such as characteristics of materials used, construction problems, design problems, and factors caused by the use environment.

Cracks are divided into structural cracks and nonstructural cracks. Dry shrinkage cracks are unstructural cracks, but flexural cracks and shear cracks are structural cracks.

Particularly, a pier constituting the lower structure of the bridge functions to firmly support the PC-BEAM (upper structure) or the slab of the upper plate in the lower part.

In Korea, when a bridge is constructed across rivers in Korea due to its many rivers, the bridge is often located with the foundation of the pond in the water, or when the bridge is installed in the mountain area, Piers are built on top of the bucket bases.

This pier is equipped with a vibration absorbing device called the name of an elastic bearing, an abutting device, an elastic plate, etc. capable of absorbing the upper vibrations, which is supported by the upper portion of the bridge, . That is, the vibration absorber is installed at the center of the upper portion of the coping to absorb impact vibrations generated in the width direction or the longitudinal direction of the upper structure.

However, even though the bridge is regularly checked every year, there is a problem that the bridge is cracked due to deterioration over time. Therefore, there is a problem that the bridge is deteriorated from the viewpoint of safety, and the work of maintenance and reinforcement is progressed along with the inspection work.

Korean Registered Patent No. 10-0779096 (Title of Invention: Inspection Device for Safety Inspection of Bridge Pier Crack Length, Nov. 27, 2007)

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problems of the prior art, and it is an object of the present invention to provide a test apparatus for measuring the length of a crack generated in a structure by measuring a length of a crack, And it is possible to easily adjust the position of the scale bar, to facilitate detachment and attachment of the inspection device in the structure, to stabilize the inspection work, and to facilitate the repair and reinforcement work. And a crack length checking device for a structure used in the safety diagnosis device.

According to a preferred embodiment of the present invention, the apparatus for checking the crack length of a structure according to the present invention is formed in a long bar shape and supported by a structure in which cracks are generated, A reference bar including a length-adjusting groove; An adjuster slidably fitted in the length adjusting groove; A scale for measuring the length of the crack; And a guide groove which is slidably coupled to the reference bar in a partially wrapped state and in which the reference bar is fitted to be engaged with the guide bar, And an adjustment slider including a scale fitting hole formed so as to penetrate in a direction intersecting with the reference surface, wherein the adjusting slider protrudes from the reference by engaging with the other end of the reference frame so as to show a ring shape surrounding the structure A ring-shaped engaging member for interconnecting the ends; And a fixing member for fixing the wing bracket to the structure, the wing bracket protruding from the reference bar so that the reference bar is fixedly coupled to the structure in a straight line shape; And the scale bar is slid on the adjustment slider so that the scale bar is slid on the adjustment slider so that the scale bar is slid on the adjustment slider, Measure the length.

An apparatus for inspecting a crack length of a structure according to the present invention comprises an elastic supporting member which is engaged with the length adjusting groove so as to be slidably engaged with the length adjusting groove, Wherein the reference bar is provided with a sliding groove communicating with the length adjusting groove so that the elastic supporting member can be slidably moved and formed to be long along the longitudinal direction of the reference bar; And a plurality of engaging grooves spaced apart from each other and communicating with the sliding grooves, wherein the elastic supporting members are hooked and supported in correspondence with the slide movement of the regulating block.

Here, the elastic supporting member may include an adjusting guide slidably fitted in the length adjusting groove in a state spaced apart from the adjusting bar; An engagement lever rotatably coupled to the adjustment guide; And a resilient spring having elasticity for connecting the regulating guide and the regulating guide, wherein the engaging lever is slidable in the sliding groove in correspondence with the sliding movement of the regulating block, And is engaged with the latching groove.

Here, the adjusting slider further includes an interference preventing groove communicating with the fitting groove so that the locking lever is passed through the adjusting slider.

Here, the reference groove may be formed on either the upper or lower portion of the length adjusting groove, the sliding groove being in communication with the length adjusting groove so that the engaging lever can be slidably moved. And a plurality of engaging grooves spaced apart from each other and communicating with the sliding grooves so that the engaging levers are engaged with each other as the engaging lever is rotated in the adjusting guide.

Here, the reference bar is provided with a scale mounting groove in which the scale bar is fitted for storing the scale bar separated from the adjustment slider.

Here, the adjustable band includes a fixed hook that is hooked on the reference bar so that the adjustable bar is fixed to the reference bar in a state where the adjustable bar is fitted into the length adjustable groove.

Here, the graduation block is provided with an instruction block so that it can pivot 90 degrees through a pivot axis forming a rotation center.

Here, the adjustment slider is provided with a rack gear which is rotatably coupled to a pinion gear exposed in the fitting groove, and is formed at one side of the scale bar so as to be engaged with the pinion gear.

Here, the adjustment slider is rotatably engaged with a scale-adjustment lever coupled to the pinion gear for rotation of the pinion gear.

The safety diagnosis apparatus for checking the crack length of a structure according to the present invention includes a check device including a crack length checking apparatus of a structure according to the present invention to measure a length of a crack mounted on a cracked structure. A crack length calculating unit for characterizing the measured crack length; And a controller for planning a repair or reinforcement work on cracks based on the length of the characterized cracks.

The safety diagnosis apparatus for checking the crack length of the structure according to the present invention may further include a calculation length transmitter for transmitting the length of the cracks written in the crack length calculation unit by wire or wire.

The controller includes a calculation length reading unit for estimating an amount of material for a repair and reinforcement work on cracks based on the length of the characterized cracks, A calculation length receiving unit for receiving the length of the characterized character string in the calculation unit; And a read output section for outputting a read result of the calculated length reading section; As shown in FIG.

According to the safety diagnosis apparatus for checking the crack length of the structure according to the present invention and the apparatus for checking the crack length of the structure used in the apparatus, the length of the crack generated in the structure is measured by installing the inspection apparatus on the structure. The scale bar for measurement is slid in the longitudinal direction of the reference bar and in the direction intersecting with the longitudinal direction of the reference bar to simplify the adjustment of the position of the scale bar and facilitate detachment and attachment of the inspection device in the structure, Maintenance and reinforcement work can be smoothly induced. Particularly, the present invention can realize position adjustment of the scale bar through the configuration of the adjustment slider.

Further, according to the present invention, when the inspection device encloses the structure in the form of a ring through the additional structure of the elastic supporting member, the inspection device tightens the structure by the elastic force, and the flow of the inspection device in the structure can be suppressed.

In addition, according to the present invention, the resilient force is stably applied between the adjusting base and the adjusting guide through the detailed structure of the elastic supporting member, and the adjusting base can be prevented from rotating in response to the rotation of the locking lever.

Further, according to the present invention, it is possible to prevent the engagement lever from interfering with the adjustment slider in accordance with the sliding movement of the adjustment slider through the additional structure of the interference prevention groove.

Further, according to the present invention, it is possible to freely slide the adjusting rod, the elastic supporting member, and the adjusting slider in the reference rod through the detailed structure of the reference rod.

Particularly, through the structure of the sliding groove, sliding of the adjusting slider on the reference piece can be facilitated, and the adjusting slider can smoothly slide on the sliding groove. Particularly, the engagement lever can be stably held in the reference piece in correspondence with the rotation of the engagement lever through the configuration of the engagement groove. In addition, it is possible to store the graduation scale separated from the adjustment slider through the configuration of the graduation-loading groove, and prevent accidental loss of the graduation scale during transportation.

In addition, according to the present invention, it is possible to prevent the adjustable band from protruding due to the elastic force in the reference band through the additional structure of the fixed hook, and to prevent the accident of loss of the adjustable band during the conveying process.

Further, the present invention can easily indicate the position of the crack for measuring the length of the crack through the instruction block, and can improve the precision for measuring the length of the crack.

Further, according to the present invention, it is possible to smoothly move the slide of the scale on the adjustment slider through the pinion gear and the rack gear, to give a haptic effect on the slide movement, and to fine-adjust the slide position of the slide on the slide .

In addition, the present invention can estimate the amount of material due to the repair and reinforcement work on the crack by measuring the length of the crack generated in the structure.

1 is a block diagram illustrating a safety diagnostic apparatus for checking a crack length of a structure according to an embodiment of the present invention.
2 is a perspective view illustrating an apparatus for checking a crack length of a structure according to an embodiment of the present invention.
3 is an exploded view illustrating an apparatus for checking the crack length of a structure according to an embodiment of the present invention.
4 is a cross-sectional view showing a reference line in an apparatus for checking a crack length of a structure according to an embodiment of the present invention.
FIG. 5 is a cross-sectional view illustrating an instruction block operation state of scale bar in an apparatus for checking a crack length of a structure according to an embodiment of the present invention.
6 is a cross-sectional view illustrating an adjustment slider in an apparatus for checking a crack length of a structure according to an embodiment of the present invention.
FIG. 7 is a cross-sectional view illustrating a coupling state of the adjusting slider and the scale bar in the apparatus for checking the crack length of a structure according to an embodiment of the present invention.
FIG. 8 is a cross-sectional view showing a state where a control rod and an elastic supporting member are engaged with each other in a crack length checking apparatus of a structure according to an embodiment of the present invention, wherein FIG. 8A shows the maximum contraction state of the elastic spring, It shows the maximum tensile state of the elastic spring.
9 is a view showing a modified example of the ring-shaped coupling member in the apparatus for checking the crack length of a structure according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a safety diagnosis apparatus for checking a crack length of a structure according to the present invention and an apparatus for checking a crack length of a structure used therein will be described with reference to the accompanying drawings. Here, the present invention is not limited or limited by the examples. Further, in describing the present invention, a detailed description of well-known functions or constructions may be omitted for clarity of the present invention.

1 to 9, a safety apparatus for crack length inspection of a structure according to an embodiment of the present invention includes a check apparatus 100, a crack length calculating unit 200, and a controller 400 .

The inspection apparatus 100 is mounted on a structure in which cracks have occurred. The inspection apparatus 100 measures the length of the crack. The inspection apparatus 100 includes an apparatus 100 for checking a crack length of a structure according to an embodiment of the present invention.

An apparatus 100 for checking a crack length of a structure according to an embodiment of the present invention includes a reference table 10, an adjustment table 20, a scale table 30, and an adjustment slider 40, And may further include at least one of the member 50 and the linear engagement member 60, and may further include an elastic supporting member 70.

The reference bar 10 is elongated in a bar shape. The reference table 10 is supported on the structure in which the crack is generated. The reference platform 10 is made of an elastic material such as rubber or soft plastic, and can be bent and returned to its original state.

The reference bar 10 includes a length adjusting groove 11 penetrating the inside of the reference bar 10 so that at least one side thereof is open. Although the length adjusting groove 11 is shown as showing a circular cross section, it is not limited thereto, but may be an oval cross section or a polygonal cross section.

The reference platform 10 may further include a sliding groove 12 for forming a sliding movement path of the guide brackets 411 and 412 of the adjustment slider 40 for engagement with the adjustment slider 40. [ The sliding groove 12 is elongated along the longitudinal direction of the reference table 10. Both ends of the sliding groove 12 are closed so that the sliding limits of the guide brackets 411 and 412 of the adjusting slider 40 can be determined. One end of the sliding groove 12 is opened to facilitate detachment of the guide brackets 411 and 412 of the adjusting slider 40 from the reference table 10. Particularly, the sliding groove 12 can be in communication with the length adjusting groove 11 so that the engaging lever 73 can be slidably moved corresponding to the engaging lever 73 of the elastic supporting member 70. The sliding groove 12 includes a first groove 121 formed in one of the upper and lower portions of the reference table 10 with reference to the length adjusting groove 11, And a second groove 122 formed in the other of the upper and lower portions of the first and second grooves. In this case, the first groove 121 must be slidable in a state in which the latch lever 73 of the elastic support member 70 is fitted to the first groove 121, so that the latching lever 73 can be slidably moved It is advantageous to communicate with the length-adjusting groove 11.

The first groove 121 of the sliding groove 12 is engaged with the first groove 121 so that the locking lever 73 is latched as the locking lever 73 is rotated in the adjusting guide 71 of the elastic supporting member 70. [ And an engagement groove (13) communicating therewith can be further included. The locking grooves 13 are communicated with the first grooves 121 of the sliding grooves 12 in a state where a plurality of the locking grooves 13 are spaced apart from each other. The latching groove 13 may include a crossing guide 131 which is recessed in a direction intersecting the longitudinal direction of the first groove 121 of the sliding groove 12. [ The crossover guide 131 forms the rotation path of the engagement lever 73 of the elastic support member 70 as the engagement lever 73 of the elastic support member 70 is rotated by the adjustment guide 71, 70 can be smoothly rotated. The latching groove 13 may further include a latching guide 132 formed to be recessed in a direction intersecting the longitudinal direction of the crossing guide 131. The elastic support member 70 is inserted into the engagement guide 132 when the adjustment lever 20 is slid or the elastic force of the elastic support member 70 is applied in a state in which the engagement lever 73 of the elastic support member 70 is rotated, The engaging lever 73 is engaged.

The reference bar 10 may further include a scale mounting groove 14 to which the scale bar 30 is detachably fitted. When the scale bar 30 is coupled to the scale mounting hole 14, when the scale bar 30 is made of a material that does not bend, the reference platform 10 can be maintained in a straight line shape. The scale mounting groove 14 may be defined as a space between the first angle bracket 141 and the second angle bracket 142. [ The first angle bracket 141 is protruded in the shape of an angle at the rear surface (the surface facing the structure) of the reference table 10, and the second angle bracket 142 is separated from the first angle bracket 141 And is protruded in the form of an angle at the back surface of the reference table 10 so as to face the one angle bracket 141. [ In other words, the first angle bracket 141 and the second angle bracket 142, which are opposed to each other in a mutually facing angle, are spaced apart from each other on the back surface of the reference table 10, 14 can be formed.

The adjuster 20 is formed in a long bar shape. The adjuster 20 is slidably engaged with the length-adjusting groove 11. The adjusting rod 20 is shown to have a circular outer cross section corresponding to the cross sectional shape of the length adjusting groove 11, but the present invention is not limited thereto, and may be an elliptical cross section corresponding to the cross sectional shape of the length adjusting groove 11 A polygonal cross-section can be shown.

The adjuster 20 is made of an elastic material such as rubber or soft plastic, and can be bent and returned to its original state.

The control rod 20 is inserted into the sliding groove 12 of the reference rod 10 so that the control rod 20 is fixed to the reference rod 10 in a state where the adjustment rod 20 is fitted to the length adjustment groove 11 And a fixing hook 21 to be hooked and supported can be included. The fixing hook 21 is engaged with at least one of the first groove 121 and the second groove 122 in a state in which the adjusting bar 20 is inserted into the length adjusting groove 11 of the reference table 10 At least one protruding portion is formed in the adjuster 20.

The elastic support groove 22 in which the elastic support bar 72 of the elastic support member 70 is slidably engaged can be recessed.

The scale bar 30 is for measuring the length of the crack.

For example, the scale bar 30 is made of a rigid material in a straight line shape and can be slidably moved in the adjustment slider 40 in a stable manner.

As another example, the graduation bar 30 is made of a material having elasticity and can be bent in correspondence with the shape of the crack.

A scale 301 is shown on the scales 30 to visually confirm information on the length of the cracks. The scale 301 may be composed of magnetic lines so that dimension display means described later can recognize the scale.

A rack gear 31, which is elongated in the longitudinal direction so as to engage with the pinion gear 46, may be included at one side of the scale bar 30. The rack gear 31 may refer to a portion where gear teeth are formed along the length direction at one side of the graduating table 30. The rack gear 31 can realize a haptic effect by allowing the user to recognize the sliding movement of the scale bar 30 through engagement with the pinion gear 46. [

The graduation block 30 may further include an instruction block 32 so as to be able to pivot 90 degrees through a pivot axis 33 forming a rotation center. In addition, the scale block 30 may further include a block seating portion 34 in which the instruction block 32 is inserted and seated in an initial state. The supporting slider 302 may be slidably coupled to the graduation bar 30 such that the instruction block 32 inserted into the block seating part 34 is hooked. At this time, at least one of the scale bar 30 and the indicator block 32 may be formed with a slider seating groove 321 into which the supporting slider 302 is inserted. Then, when the supporting slider 302 is inserted into the slider receiving groove 321 of the instruction block 32, the instruction block 32 is fixed to the scale bar 30, and the supporting slider 302 is moved to the instruction block 32 The pivotal movement of the indicating block 32 is made free on the scale bar 30 when the slider is detached from the slider receiving groove 321 of the slider receiving groove 321. [

The slider seating groove 321 indicates the slide movement path and the movement limit of the supporting slider 302 and minimizes the amount by which the supporting slider 302 protrudes from the scale bar 30 and the indicating block 32, 302).

The graduation block 30 may include a block support jaw 35 for supporting the instruction block 32 protruded by pivoting 90 degrees from the scale bar 30 in accordance with the pivot movement of the instruction block 32. [ The position of the crack can be clearly indicated through the instruction block 32 supported on the block support jaw 35. [

The adjustment slider 40 is slidably coupled to the reference table 10 with the reference table 10 partially wrapped around. The adjustment slider 40 may be made of elastic material or of a rigid material so that the coupling structure with the reference table 10 is stabilized.

The adjusting slider 40 may be formed with a fitting groove 41 into which the reference piece 10 is fitted. The cross-sectional shape of the fitting groove 41 may be substantially the same as the contour of the outer diameter of the reference piece 10. [ The fitting groove 41 may be defined as a space between the first guide bracket 411 and the second guide bracket 412. Here, the first guide bracket 411 protrudes in the shape of an angle at the rear surface (the surface facing the reference table 10) of the adjustment slider 40, and the second guide bracket 412 protrudes from the first guide bracket 411, And is protruded in the shape of an angle at the back surface of the adjusting slider 40 so as to face the first guide bracket 411. [ The first guide bracket 411 and the second guide bracket 412 which are opposed to each other are spaced apart from each other on the back surface of the adjustment slider 40 so that the fitting slider 40 is fitted with the fitting groove 41, Can be formed. Further, the back surface of the adjusting slider 40 is protruded or depressed corresponding to the shape of the reference table 10 facing the adjusting slider, thereby improving the adhesion between the reference table 10 and the adjusting slider 40, The flow of the adjustment slider 40 can be suppressed or prevented at the base 10.

The first and second guide brackets 411 and 412 are slidably engaged with the first and second grooves 121 and 122 so that the engagement of the reference slide 10 and the adjustment slider 40 .

The adjusting slider 40 may be formed with a graduation fitting hole 44 passing through the fitting groove 41 in a direction intersecting the longitudinal direction of the reference platform 10. The scale holder 30 is slidably engaged with the scale holder fitting hole 44. The cross-sectional shape of the graduation-piece fitting hole 44 may be substantially the same as the outer cross-sectional shape of the graduation scale 30.

An interference preventing groove 42 communicating with the fitting groove 41 is formed in the adjusting slider 40 at the bottom of the fitting groove 41. The interference preventing grooves 42 are formed at both ends of the interference preventing groove 42 in correspondence with the longitudinal direction of the reference piece 10 so that the engaging lever 73 of the elastic supporting member 70 hooked on the engaging groove 13 of the reference piece 10 ).

The pinion gear 46 exposed in the fitting groove 41 may be rotatably coupled to the adjusting slider 40. [ The pinion gear 46 meshes with the rack gear 31 of the graduation bar 30 fitted into the graduation fitting hole 44. The pinion gear 46 can realize the haptic effect by allowing the user to recognize the sliding movement of the scale bar 30 through engagement with the rack gear 31. [

The adjustment slider 40 may be rotatably coupled with a scale adjustment lever 45 which is coupled to the pinion gear 46 for rotation of the pinion gear 46. Then, the pinion gear 46 is rotated in accordance with the rotation of the graduation-level adjusting lever 45, so that the graduation scale 30 can be finely adjusted by the adjustment slider 40. [

The ring-shaped coupling member 50 connects the reference piece 10 and the adjustment piece 20 so as to show a ring shape surrounding the structure.

For example, the ring type engaging member 50 includes a reference base bracket 51 provided at the other end of the reference frame 10 as shown in FIG. 2, and a control bracket 51 projecting from the reference frame 10 And a bracket connecting member for interconnecting the reference table bracket 51 and the adjuster table bracket 52. [ In this case, a reference table fastening hole 511 is formed in the reference table bracket 51, and an adjustment table fastening hole 521 is formed in the adjustment table bracket 52 in correspondence with the reference table fastening hole 511 have. The bracket connecting member is supported by either one of the reference bracket 51 and the adjuster bracket 52 so that the bolt 53 and the connecting bolt 53 passing through the reference bracket hole 511 and the adjustment bracket hole 521 And a coupling nut 54 screwed to the coupling bolt 53 so as to be supported by the other of the reference bracket 51 and the adjuster bracket 52. [

9, the ring-like engaging member 50 is fixed to the other end of the reference piece 10 and the end of the adjustment piece 20 protruding from the reference piece 10, The protrusion 55 is engaged with the other end of the reference piece 10 and the other end of the adjustment piece 20 protruding from the reference piece 10 so as to be engaged with the fitting piece 55, (56). Here, the fitting protrusions 55 protrude from the fitting protrusions 55, and the fitting grooves 56 may be formed with an extended groove into which the extending protrusions are inserted. In other words, the first and second fitting brackets of mutually opposed angles are spaced apart from each other at the other end of the reference piece 10 and the other end of the adjustment piece 20 protruding from the reference piece 10 The fitting fixing grooves 56 and the extending grooves can be formed.

The linear joining member 60 fixes the reference frame 10 to the structure in a linear form.

The linear joining member 60 may include two or more wing brackets 61 protruding from the reference frame 10 to face the structure and a fixing piece 62 for fixing the wing bracket 61 to the structure. Here, the wing bracket 61 may be formed with a wing fastening hole 611 through which the fastening piece 62 passes. Then, the fixing piece 62 can be screwed to the structure through the blade fixing hole 611 while being supported by the blade bracket 61.

The elastic supporting member 70 is resiliently and elastically coupled to the adjustment member 20. The elastic support member 70 is engaged with the reference piece 10 in response to sliding movement of the adjustment piece 20. The elastic support member 70 is slidably engaged with the length-adjusting groove 11 in a state of being coupled to the adjuster 20.

The elastic supporting member 70 includes an adjusting guide 71 which is slidably engaged with the length adjusting groove 11 in a state of being separated from the adjusting bar 20, A lever 73 and an elastic spring 74 for connecting the adjustment lever 20 and the adjustment guide 71 so as to be able to expand and contract with elasticity. At this time, the adjustment guide 71 may be formed with an elastic support bar 72 which is slidably engaged with the elastic support groove 22 of the adjuster 20 in response to the expansion and contraction of the elastic spring 74 . In addition, the adjusting guide 71 may be formed with a pivotal groove 711 so that the latching lever 73 is rotatably engaged.

The engagement lever 73 includes a rotation bracket 731 rotatably coupled to the adjustment guide 71 via a rotation shaft 732 rotatably coupled to the rotation groove 711, And a latching protrusion 733 protruding from the pivot bracket 731 so as to be slidably engaged. The stopper 733 is rotated in such a manner that the stopper 733 is disposed in the stopper guide 132 of the reference table 10 so that the adjustment slider 40 It is possible to prevent the latching protrusion 733 from being interfered with.

Hereinafter, a method of measuring the crack length through the crack length checking apparatus of a structure according to an embodiment of the present invention will be described.

The guide block 43 of the adjustment slider 40 is used to fix the reference platform 10 in a structure in which cracks have been generated. Then, the ring-shaped coupling member 50 or the linear coupling member 60 is used to fix the reference rod 10 to the structure in correspondence with the structure.

The scale bar 30 can be fitted into the scale fitting hole 44 and then the zero point can be adjusted in the scale bar 30 by matching the instruction block 32 with the guide block 43. [

Finally, it is possible to measure the length of cracks in the structure by slidably moving the adjusting slider 40 in the reference table 10 and sliding the scale bar 30 in the adjusting slider 40.

The crack length calculating unit 200 characterizes the length of the crack measured through the inspection apparatus 100. [

For example, the crack length calculating unit 200 may be provided in the adjusting slider 40. [ The crack length calculating unit 200 can characterize the moving length of the scale bar 30 as the length of the crack. The crack length calculating unit 200 may calculate the crack length of the scale bar 30 in accordance with the matching between the instruction block 32 and the guide block 43 have. The crack length calculating unit 200 can be implemented as a dimension display unit applied to a known digital vernier caliper.

As another example, the crack length calculating unit 200 may be provided in the controller 400 or may be separately provided in the inspection apparatus 100 and the controller 400. At this time, the crack length calculating unit 200 may be provided with a length input unit (not shown) for inputting the length of the crack identified by the user. Then, the number inputted through the length input unit (not shown) can be converted into the length of the crack.

The controller 400 plans the repair and reinforcement work on the crack based on the length of the characterized crack. The controller 400 may include a calculated length reading unit 420 for estimating the amount of the material necessary for the maintenance work for cracks based on the length of the characterized cracks. In addition, the controller 400 may further include a readout output section 430 for outputting the readout result of the calculated length readout section 420. The readout output unit 430 may be provided with a character conversion unit (not shown) for converting the information input to the calculated length reading unit 420 and the readout result of the calculated length reading unit 420 into characters. Then, the readout output section 430 can output the character information converted by the character conversion section (not shown).

The safety device for checking the crack length of the structure according to an embodiment of the present invention may further include an output length transmitter 300. The calculation length transmission unit 300 transmits the length of the characterized character string in the crack length calculation unit 200 to the controller 400 or the calculated length reading unit 420 in a wired or wireless manner. The calculation length transmission unit 300 may be provided with a signal conversion unit (not shown) for converting the length of the characterized crack into a communication signal. Then, the calculation length transmission unit 300 can transmit the communication signal converted by the signal conversion unit (not shown) to the controller 400 or the calculation length reading unit 420.

In addition, the controller 400 may include a calculation length receiving unit 410 connected to the calculation length transmission unit 300 in a wired or wireless manner to receive the length of the characterization crack transmitted from the calculation length transmission unit 300. The calculation length receiving unit 410 may be provided with an information converting unit (not shown) for converting the received communication signal into crack information for estimating the amount of material required for the maintenance work for cracking. Then, the calculation length receiving unit 410 can transmit the crack information converted by the information converting unit (not shown) to the calculation length reading unit 420.

According to the safety diagnosis apparatus for checking the crack length of the structure and the apparatus for checking the crack length of the structure used in the apparatus, the length of the crack generated in the structure is measured by installing the inspection apparatus 100 on the structure. The scale base 30 for measuring the length is slid in the longitudinal direction of the reference platform 10 and in the direction intersecting the longitudinal direction of the reference platform 10 to simplify the adjustment of the position of the scale base 30, It is possible to easily attach and detach the apparatus 100, to stabilize the inspection work, and to smoothly perform the maintenance and reinforcement work. Particularly, it is possible to easily adjust the position of the scale bar 30 through the configuration of the adjustment slider 40. [

Further, when the inspection apparatus 100 is wrapped around the structure in the form of a ring through the additional structure of the elastic supporting member 70, the checking device can tighten the structure by the elastic force, and the flow of the inspection device in the structure can be suppressed .

The resilient supporting member 70 can be configured to have an elastic force between the adjusting member 20 and the adjusting guide 71 in a stable manner and the adjusting member 20 It is possible to prevent rotation.

It is also possible to prevent the engagement lever 73 from interfering with the adjustment slider 40 in response to the sliding movement of the adjustment slider 40 through the additional structure of the interference prevention groove 42. [

In addition, the adjustable member 20, the elastic supporting member 70, and the adjusting slider 40 can be slidably moved on the reference table 10 through the detailed configuration of the reference table 10.

Particularly, it is possible to facilitate the sliding engagement of the adjusting slider 40 on the reference table 10 through the configuration of the sliding groove 12, and smoothly slide the adjusting slider 40 in the sliding groove 12. Particularly, the engagement lever 73 can be stably held on the reference platform 10 in correspondence with the rotation of the engagement lever 73 through the structure of the engagement groove 13. In addition, the scale bar 30 separated from the adjustment slider 40 can be stored through the configuration of the scale bar mounting groove 14, and it is possible to prevent the accidental loss of the scale bar 30 during the transportation process.

In addition, the adjustment hook 20 can be prevented from being protruded by the elastic force of the reference frame 10 through the additional structure of the fixing hook 21, and the accidental loss of the adjustment bolster 20 during transportation can be prevented.

In addition, the position of the crack for measuring the length of the crack can be easily indicated through the instruction block 32, and the precision for measuring the length of the crack can be improved.

It is also possible to smoothly slide the scale bar 30 on the adjustment slider 40 through the pinion gear 46 and the rack gear 31 and to impart a haptic effect to the slide movement, The slide movement position of the scale bar 30 can be finely adjusted through the opening 45.

Also, by measuring the length of the cracks generated in the structure, it is possible to deduce the amount of the material due to the repair and reinforcement work for the cracks.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Modify or modify the Software.

10: base 11: length adjusting groove 12: sliding groove
121: first groove 122: second groove 13:
131: crossing guide 132: engaging guide 14:
141: first angle bracket 142: second angle bracket 20:
21: Fixing hook 22: Elastic support groove 30: Scale stand
301: scale 302: support slider 31: rack gear
32: instruction block 321: slider seating groove 33: pivot axis
34: block seat part 35: block support jaw 40: adjusting slider
41: fitting groove 411: first guide bracket 412: second guide bracket
42: interference prevention groove 43: guide block 44: scale fitting hole
45: scale base adjustment lever 46: pinion gear 50: ring type engagement member
51: reference base bracket 511: reference base fastening hole 52: adjusting base bracket
521: adjusting rod fastening hole 53: fastening bolt 54: fastening nut
55: fitting fixing projection 56: fitting fixing groove 60: linear fitting member
61: wing bracket 611: wing fastening hole 62: fastening piece
70: Elastic support member 71: Adjusting guide 711:
72: elastic support bar 73: engagement lever 731: rotation bracket
732: Pivot shaft 733: Locking protrusion 74: Elastic spring
100: check apparatus 200: crack length calculating unit 300: calculation length transmitter
400: controller 410: calculation length receiving unit 420: calculation length reading unit
430:

Claims (10)

(10) including a length adjusting groove (11) which is formed in a bar shape so as to be supported by a structure in which cracks have been generated, at least one side of which is opened so as to penetrate through the inside thereof;
An adjuster 20 slidably fitted in the length adjusting groove 11;
A scale table (30) for measuring the length of the crack; And
A fitting groove 41 which is slidably movably connected to the reference table 10 while partially covering the reference table 10 and in which the reference table 10 is fitted, And an adjusting slider (40) spaced apart from the fitting groove (41) so as to be movably engaged and including a scale fitting hole (44) formed to penetrate in a direction intersecting the longitudinal direction of the reference frame (10) ,
A ring type engaging member 50 for interconnecting ends of the adjustable band 20 protruding from the reference band 10 by fitting the other end of the reference band 10 so as to show a ring shape surrounding the structure, ; And
A wing bracket 61 protruding from the reference frame 10 so that the reference frame 10 is fixedly coupled to the structure in a linear form and a fixing piece 62 for fixing the wing bracket 61 to the structure, (60);
Wherein the at least one < RTI ID = 0.0 >
The scale bar 30 is inserted into the scale fitting hole 44 and then the scale bar 30 is adjusted to a zero point so that the scale bar 30 is slid on the adjustment slider 40 To measure the length of the crack in the structure.
The method according to claim 1,
The elastic member 20 is slidably inserted into the length adjusting groove 11 in a state of being coupled to the adjusting member 20 and is elastically deformed by elasticity Further comprising a support member,
In the reference table 10,
A sliding groove 12 communicating with the length adjusting groove 11 so as to allow the elastic supporting member 70 to slide and being elongated along the longitudinal direction of the reference bar 10; And
And a plurality of engagement grooves 13 spaced apart from each other and communicating with the sliding groove 12 and adapted to engage and retain the elastic supporting member 70 corresponding to the sliding movement of the control rod 20 Characterized in that the crack length of the structure is checked.
3. The method of claim 2,
The elastic support member (70)
An adjusting guide 71 slidably fitted in the length adjusting groove 11 while being spaced apart from the adjusting rod 20;
A locking lever 73 rotatably coupled to the adjustment guide 71; And
And an elastic spring (74) having elasticity and connecting the adjustment member (20) and the adjustment guide (71)
The latching lever (73)
Is slidable in the sliding groove (12) in response to sliding movement of the adjustable band (20), and is engaged with the latching groove (13) as it is rotated by the adjustment guide (71) Crack length checking device.
The method of claim 3,
In the adjustment slider 40,
And an interference preventing groove (42) communicating with the fitting groove (41) to allow the latching lever (73) to pass therethrough.
delete 5. The method according to any one of claims 1 to 4,
The reference bar 10 is provided with a scale mounting groove 14 into which the scale bar 30 is fitted so as to store the scale bar 30 separated from the adjustment slider 40 Crack length inspection system.
5. The method according to any one of claims 1 to 4,
In the adjustment table 20,
A fixing hook 21 which is hooked on the reference table 10 so that the adjusting table 20 is fixed to the reference table 10 in a state where the adjusting table 20 is fitted to the length adjusting groove 11, And a crack length detector for detecting a crack length of the structure.
5. The method according to any one of claims 1 to 4,
Wherein the scale block (30) is provided with an indicator block (32) so that it can pivot 90 degrees through a pivot axis forming a rotation center.
5. The method according to any one of claims 1 to 4,
A pinion gear (46), which is exposed in the fitting groove (41), is rotatably coupled to the adjusting slider (40)
Wherein a rack gear (31) is formed at one side of the scale bar (30) so as to be engaged with the pinion gear (46) in the longitudinal direction.
A check device (100) comprising a crack length checking device according to any one of claims 1 to 4 for measuring the length of a crack mounted on a cracked structure.
A crack length calculating unit (200) for characterizing the measured crack length; And
And a controller (400) for planning a repair and reinforcement work on the crack based on the length of the cracked character.

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