KR102227861B1 - Structure diagnosis part marking device for safety diagnosis - Google Patents

Abstract

The present invention relates to a display device of a structure diagnosis unit for safety diagnosis. More particularly, the present invention relates to a display device of a structure diagnosis unit for safety diagnosis, which comprises: a vertical bar formed with a spiral and equipped with a switch; a holder member having a coupling groove that is helically coupled to the vertical bar; a housing having an internal accommodating space in which the holder member is accommodated; an upper cap equipped with a lighting lamp that is turned on and off by the control of the switch; a first spring for elastically supporting the holder member inside the housing; a length adjusting member having a second through hole through which chalk is inserted; a measuring wheel for measuring the length of a crack; a measuring wheel having a counter; a connecting rod which rotatably connects the measuring wheel to the housing; and a torsion spring elastically supporting the connecting rod to measure the length of the crack. According to the present invention, it is possible to eliminate the hassle of raising and lowering the chalk in order to project the chalk as the abrasion of the chalk occurs.

Description

Structure diagnosis part marking device for safety diagnosis

The present invention relates to a display device for a structure diagnosis unit, and more particularly, to a display device for a structure diagnosis unit for safety diagnosis capable of displaying a portion where a problem such as a crack has occurred for safety diagnosis of a structure.

In general, a structure such as a building cracks over time, and accordingly, a safety diagnosis is performed to determine the state of the building.

When performing the safety diagnosis of such a structure, a non-destructive test or visual inspection using radiation can be performed.When performing a visual inspection, the crack is measured in the cracked area, and the crack growth is monitored in the cracked area. Mark the cracked area for repair.

When marking cracks in this way, they are usually marked with chalk that can be easily marked on buildings. If the cracked part is located at a high place where the worker does not reach, the worker had to climb a ladder and mark it.

However, since there is a risk of a fall accident that the worker climbs on the groin and works directly, as a prior art for solving this, Patent Publication No. 10-1774361 "Indication rod for inspecting structures" has been disclosed.

Conventional display rods for structural inspection were able to easily display a portion located at a height by connecting a plurality of pipe bodies.

However, there is a problem in that the display sticks for structure inspection according to the wear of the chalk are inconsistent in the display due to the wear of the chalk, since the display bar for structure inspection is lowered to expose the chalk and then displayed again.

In addition, the conventional display rod for inspection of a structure can only display only a specific part of the structure where a crack has occurred, and there is a problem in that it cannot display the location of the crack or measure the length of the crack while driving along the crack of the structure.

Korean Patent Publication No. 10-2074434 (announced on February 06, 2020)

The object of the present invention conceived to solve the above-described problem is that the holder member is installed to be slidably elevated in the housing and supported by a spring so that the chalk protrudes to the outside only when it is pressed against the surface of the structure to perform marking, It is to provide a display device for a structure diagnosis unit for safety diagnosis that can eliminate the hassle of raising and lowering the chalk to protrude as the wear of the material occurs.

In addition, the subject of the present invention is to control the protruding length of the length control pin to adjust the protruding length of the chalk, so that not only can the structure easily be displayed, but also the structure diagnosis unit for safety diagnosis that can prevent the chalk from being damaged. It is to provide a display device.

In addition, an object of the present invention is to provide a display device for a safety diagnosis structure diagnosis unit capable of measuring the length of a crack by installing a wheel ruler and displaying the crack by chalk.

The present invention conceived to achieve the above object is a structure diagnosis unit display device for safety diagnosis for indicating the location of the crack and measuring the length of the crack while driving along the crack generated in the building structure out of reach of the operator, A spiral is formed along the outer diameter of the upper part, and a vertical stand equipped with a switch is mounted on the outer surface of the lower part, and a chalk is attached to the vertical stand to indicate the location of the crack in the structure. A furnace space is divided, and a receiving groove is formed in the upper side of the partition wall through an upper surface opening to insert the lower part of the chalk to a certain depth, and the upper end of the vertical bar is formed at a certain depth through the bottom surface opening at the lower side based on the partition wall. The holder member is inserted and formed with a coupling groove that is helically coupled to the vertical stand, and the holder member on which the chalk is mounted is in the form of a hollow upper and lower open in which an internal accommodation space is provided, and the holder member is in the internal accommodation space. It slides up and down, and a housing with a locking portion formed at the lower end to prevent the holder member from being separated through the open lower end, is coupled to the upper end of the housing, and a first through hole in which the chalk protrudes upward toward the structure is in the center. It is formed, a plurality of pinholes are formed along the circumference of the first through hole, and an upper cap equipped with a lighting lamp that is electrically connected to the switch and turned on and off by the control of the switch is mounted on the outer surface, and a first formed on the upper cap 1 When the holder member is pressed to slide upward in the direction in which the first through hole is formed in the housing so that the chalk protrudes upwardly toward the structure through the through hole, it is compressed, and when the pressing force is released, the holder member is lowered. A first spring that elastically supports the holder member from the inside, the upper cap protrudes upward through the pinhole so that the protruding length of the chalk protruding upward through the first through hole of the upper cap is adjusted and in contact with the structure. Is supported by spaced apart, but a plurality of length adjustment pins with a spherical end are formed so that the friction between structures is reduced, and A length adjusting member having a second through-hole formed therein, a measuring wheel disposed on the upper side of the upper cap to measure the length of the crack while running along the crack generated in the structure, and the length of the crack according to the number of revolutions of the measuring wheel A wheel chair having a displayed counter, a connecting rod that pivotably couples the wheel wheel to the housing so that the wheel is rotated on the upper side of the chalk in order to use the chalk, and the wheel is rotated on the upper side of the upper cap. A torsion spring that elastically supports the connecting rod so as to measure the length of the crack by positioning the wheeler on the upper side of the upper cap in the state of being turned on, and the pinhole by adjusting the position at which the upper cap is coupled to the upper end of the housing by spiral coupling. A first spiral portion is formed along the inner diameter of the upper cap so as to adjust the protruding length of the length adjustment pin protruding through, and a second spiral portion is formed on the outer diameter of the upper end of the housing to be spirally coupled with the first spiral portion, and the length adjustment A second spring that elastically supports the length adjustment member in the upper cap so that the member is in close contact with the upper end of the housing, and a connecting rod provided on the outer surface of the housing so that the connecting rod rotates only rearward around the upper cap so that the chalk is exposed. And a rotation limiting protrusion for limiting the rotation direction of, and the lighting lamp is mounted on the front side of the upper cap to irradiate light toward the structure, and the driving direction of the measuring wheel running along the cracks generated in the structure And a first lighting lamp inclined toward the front at a certain angle with respect to the upper cap so that light is irradiated toward and a second lighting lamp mounted on the rear side of the upper cap to irradiate light toward the structure, and the switch Includes a first switch for on-off control of the first lighting lamp and a second switch for on-off control of the second lighting lamp, wherein a central axis of the first lighting lamp and a central axis of the first switch are And the central axis of the second lighting lamp and the central axis of the second switch coincide with each other.

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In the present invention, the holder member is installed to be slidably elevated in the housing and supported by a spring so that the chalk protrudes to the outside only when it is pressed against the surface of the structure to perform marking, so that the chalk is raised to protrude as the chalk wears out. There is an effect that can relieve the hassle of having to get down.

In addition, according to the present invention, by adjusting the protruding length of the length control pin to adjust the protruding length of the chalk, it is possible to easily display the structure and prevent the chalk from being damaged.

In addition, in the present invention, a wheel ruler is installed to measure the length of the crack, and there is an effect that the crack can be marked with chalk.

1 and 2 are perspective views showing a display device of a structure diagnosis unit for safety diagnosis according to an embodiment of the present invention;
3 is an exploded perspective view showing a display device of a structure diagnosis unit for safety diagnosis according to an embodiment of the present invention;
4 to 6 are a cross-sectional view and an operating state diagram showing a display device for a structure diagnosis unit for safety diagnosis according to an embodiment of the present invention;
7 is a side view showing a display device for a structure diagnosis unit for safety diagnosis according to an embodiment of the present invention;
8 is an exemplary view showing a display device for a structure diagnosis unit for safety diagnosis according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of the display device for a safety diagnosis structure diagnosis unit according to the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are perspective views showing a display device for a safety diagnosis structure diagnostic unit according to an embodiment of the present invention, and FIG. 3 is an exploded perspective view showing a display device for a structure diagnosis unit for safety diagnosis according to an embodiment of the present invention, and FIG. 6 are a cross-sectional view and an operation state diagram showing a display device for a safety diagnosis structure diagnosis unit according to an embodiment of the present invention, and FIG. 7 is a side view showing a display device for a structure diagnosis unit for safety diagnosis according to an embodiment of the present invention, and FIG. Is an exemplary view showing a display device for a structure diagnosis unit for safety diagnosis according to an embodiment of the present invention.

1 to 8, a display device for a structure diagnosis unit for safety diagnosis according to a preferred embodiment of the present invention includes a vertical base 100, a holder member 200, a housing 300, an upper cap 400, and 1 consists of a component including a spring 500, a length adjustment member 600, a wheel chair 700, a connecting rod 800, and a torsion spring 900, which will be described in detail as follows.
The present invention is a display device for a safety diagnosis structure diagnosis unit for displaying the location of the crack and measuring the length of the crack while driving along the crack generated in a building structure out of reach of a worker.

The vertical stand 100 is a member gripped by the user, and has a spiral formed along the outer diameter of the upper end to be helically coupled with the lower end of the holder member 200 to be described later. In addition, a switch 110 for on-off control of the lighting lamp 440 to be described later is provided on the outer surface of the lower portion that is a part gripped by the user.

The holder member 200 is a member that is coupled to the vertical stand 100 and is mounted with chalk (C) for indicating the location of the crack in the structure, and the space is divided up and down by the partition wall 210 formed therein. It consists of a structure. Here, the upper and lower spaces are the receiving groove 220 and the coupling groove 230, respectively.

In addition, the holder member 200 has a receiving groove 220 in which the lower portion of the chalk C is inserted to a predetermined depth through the upper surface opening on the upper side based on the partition wall 210 formed therein.

Further, a coupling groove 230 into which the upper end of the vertical stand 100 is inserted to a predetermined depth through the bottom opening is formed on the lower side based on the partition wall 210 formed inside the holder member 200, the coupling groove 230 A spiral is formed along the inner diameter of ), and as a result, the vertical base 100 and the holder member 200 are spirally coupled to each other.

That is, the vertical stand 100 is coupled to the holder member 200 accommodated in the housing 300 through the open lower end of the housing 300 to be described later.

The housing 300 has a hollow shape with open top and bottom, and an internal accommodation space is provided.

In other words, the holder member 200 on which the chalk C is mounted is accommodated in the interior accommodation space of the housing 300. Since the chalk (C) is accommodated inside the housing (300), that is, it is provided in a form surrounding the chalk (C), the chalk (C) is protected so that the chalk (C) is not easily damaged by an external force.

At this time, the housing 300 may be formed to have a length longer than the length of the chalk (C), and the holder member 200 is inserted through the open lower end of the housing 300 to The holder member 200 slides up and down.

Here, a locking part may be formed at the lower end of the housing 300 to prevent the holder member 200 that slides up and down inside the housing 300 from being separated through the open lower end of the housing 300.

The upper cap 400 is coupled to the upper end of the housing 300 to seal the open upper part of the housing 300.

Here, in the center of the upper cap 400, a first through hole 410 through which the chalk C protrudes upwardly toward the structure is formed. In addition, a plurality of pinholes 420 are formed through the circumference of the first through hole 410.

In addition, a lighting lamp 440 that is electrically connected to the switch 110 provided at the lower end of the vertical base 100 and turned on and off by the control of the switch 100 is mounted on the outer surface of the upper cap 400.

The first spring 500 includes a first through hole 410 in the housing 300 so that the chalk C protrudes upwardly toward the structure through the first through hole 410 formed in the upper cap 400. The holder member 200 is elastically supported inside the housing 300 so that when the holder member 200 is pressed to slide and rise in the formed direction, the holder member 200 is compressed, and when the pressing force is released, the holder member 200 is lowered.

In other words, the first spring 500 is pressed when the holder member 200 in the housing 300 rises toward the first through hole 410 of the upper cap 400 by a pressing force, and when the pressing force is released, the elastic force Accordingly, the holder member 200 may elastically support the housing 300 so that the holder member 200 is pushed from the housing 300 and returns to the initial position.

For example, in the first spring 500, the chalk (C) inserted in the holder member 200 is positioned inside the housing 300, and the housing 300 or the holder member 200 has a first through hole ( When pressed in the direction in which the 410 is positioned and slides, the chalk (C) protrudes through the first through hole 410 while being compressed, and when the pressing force is released, the holder member 200 is removed from the housing 300 by the elastic force. Since it is returned to the initial position, the chalk C protruding through the first through hole 410 may be located inside the housing 300 again.

Here, the first spring 500 may be implemented as a compression coil spring that generates an elastic force when pressed.

The length adjustment member 600 protrudes upward through the pinhole 420 and contacts the structure so that the protruding length of the chalk (C) protruding upward through the first through hole 410 of the upper cap 400 is adjusted. As a result, a plurality of length adjustment pins 610 spaced apart from and supported by the upper cap 400 are formed in the structure, and a second through hole 620 into which the chalk C penetrates and is inserted is formed.

In other words, the length adjusting member 600 may adjust the length of the chalk C protruding through the first through hole 410 of the upper cap 400. That is, the length adjustment member 600 may adjust the length of the chalk (C) protruding through the first through hole 410 by adjusting the distance between the upper cap 400 and the structure for indicating whether the safety diagnosis is abnormal. I can.

Here, the length adjusting member 600 is installed between the upper cap 400 and the housing 300, and the length adjusting member 600 is composed of a length adjusting pin 610 and a second through hole 620. .

In addition, the length adjustment pin 610 is formed to protrude through the pinhole 420 at a portion corresponding to the pinhole 420 of the upper cap 400, and the housing 300 is structured by the length adjustment pin 610. The chalk (C) protrudes as far as it is spaced apart from and spaced apart, so that it is possible to indicate whether there is an abnormality in safety diagnosis on the structure.

Here, the length adjustment pin 610 is formed in plural so as to correspond to the pinhole 420, and the length adjustment pin 610 protrudes from the circumference of the chalk (C) and when displayed on the structure by the chalk (C), the chalk ( It is possible to prevent the chalk (C) from being broken by applying the pressing force only to C).

In addition, the end of the length control pin 610 is formed in a sphere shape, and when the chalk (C) is displayed on the structure, it may be configured to reduce the frictional force between the length control pin 610 and the structure so that it can be easily displayed. .

In addition, the second through-hole 620 is formed through the center of the length adjustment member 600, and the chalk (C) is inserted into the second through-hole 620 through the second through-hole 620 The chalk (C) can be slid up and down, and the chalk (C) is inserted into the second through hole 620 of the length adjusting member 600 so that the length adjusting member 600 supports the chalk (C), thereby supporting the chalk (C). ) Can be prevented from breaking.

Meanwhile, the length adjustment member 600 may be supported by the upper cap 400 by the elastic force of the second spring 1000 so that the length adjustment member 600 is in close contact with the upper end of the housing 300. .

In other words, the second spring 1000 may be installed between the length adjusting member 600 and the upper cap 400 to support the length adjusting member 600 in close contact with the upper end of the housing 300.

In this case, the second spring 1000 may be implemented as a compression coil spring that generates an elastic force when compressed.

On the other hand, the upper cap 400 to adjust the protruding length of the length adjustment pin 610 protruding through the pinhole 420 by adjusting the position at which the upper cap 400 is coupled to the upper end of the housing 300 by spiral coupling. A first spiral portion 430 is formed along the inner diameter of the housing 300, and a second spiral portion 310 is formed on the outer diameter of the upper end of the housing 300 to be helically coupled with the first spiral portion 430.

In other words, the height of the upper cap 400 in the housing 300 may be adjusted according to the spiral coupling between the upper caps 400.

That is, since the length adjustment member 600 is installed so as to be in close contact with the upper end of the housing 300 by the elastic force of the second spring 1000 in the upper cap 400, the first spiral portion 430 of the upper cap 400 ) To the second spiral portion 310 of the housing 300 by spiral coupling, the length adjustment pin 610 in the pinhole 420 according to the height of the upper cap 400 in the housing 300 You can adjust the protruding length.

When the distance between the structure and the upper cap 400 is adjusted in such a manner that the length of the length adjustment pin 610 is adjusted, the length of the chalk C protruding through the first through hole 410 can be adjusted. .

Here, the longer the protruding length of the chalk (C), the easier it can be displayed on the structure, but the chalk (C) can be easily broken, and the shorter the protruding of the chalk (C), the more effort it takes to mark the structure. Since (C) is not easily broken, it can be easily displayed by adjusting the protruding length of the chalk (C) according to the condition of the structure or the force of the worker.

At this time, when the upper cap 400 is rotated to adjust the protruding length of the chalk (C) by spiral coupling, the length adjustment pin 610 is inserted into the pinhole 420, so that the upper cap 400 and the The length adjustment member 600 may be rotated together.

The wheel chair 700 is disposed on the upper side of the upper cap 400 to measure the length of the crack while running along the crack generated in the structure, and the crack according to the number of revolutions of the measuring wheel 710 And a counter 720 that displays the length of.

In other words, the wheel chair 700 can measure the size of the crack while traveling along the structure according to the movement of the vertical base 100.

That is, the measuring wheel 710 is connected to the counter 720 that displays the measured length, and the counter 720 operates according to the number of revolutions of the measuring wheel 710 to display the size of the crack.

Here, the counter 720 may be implemented as a known rotary meter that is connected to the measurement wheel 710 and measures the measurement distance by rotating a number by a gear ratio according to the rotation of the measurement wheel 710.

The connecting rod 800 is rotatably coupled to the wheel chair 700 in the housing 300 so that the wheel chair 700 is rotated from the upper side of the chalk C so as to be separated in order to use the chalk C.

In other words, the connecting rod 800 is rotatably coupled to the housing 300 to position the wheel chair 700 on the upper side of the chalk (C) or remove the wheel chair 700 from the upper side of the chalk (C). It can be connected to the housing 300.

That is, one end of the connecting rod 800 is coupled to the housing 300 by a hinge pin and coupled in the housing 300, and the wheel wheel 700 is coupled to the other end of the connecting rod 800 to prevent the rotation of the connecting rod 800. Accordingly, the wheel chair 700 may be positioned above the chalk (C), or the wheel chair 700 may be separated from the upper side of the chalk (C) so that the chalk (C) can reach the structure.

Torsion spring 900, in a state in which the wheel wheel 700 is rotated from the upper side of the upper cap 400 and separated, and the wheel wheel 700 is again located above the upper cap 400 to measure the length of the crack. The connecting rod 800 is elastically supported.

In addition, the torsion spring 900 is to support the connecting rod 800 in the housing 300 by an elastic force so that the connecting rod 800 is located above the chalk (C) in a state separated from the upper side of the chalk (C). I can.

For example, after measuring the size of the crack by the wheel wheel 700, the wheel wheel 700 located on the upper side of the chalk (C) to mark the part where the crack occurred was used with the vertical base 100. When the display is completed and the pressing force is released while the display is completed and the pressing force is released in a state that is rotated by pressing so as to separate from the upper side of the chalk (C), the connecting rod 100 will be located above the initial position of the chalk (C) by the elastic force of the torsion spring (900). I can.

Meanwhile, the rotation direction of the connecting rod 800 is provided on the outer surface of the housing 300 so that the connecting rod 800 rotates only to the rear of the upper cap 400 around the upper cap 400 to expose the chalk (C). It may be configured to include a rotation limiting protrusion 320 to limit.

In addition, the rotation limiting protrusion 320 restricts rotation so that the rotation of the connecting rod 800 is rotated only to the rear of the upper cap 400 around the upper cap 400, When measuring the length, when moving the vertical bar 100 in the front direction of the upper cap 400 so as to prevent the connecting bar 800 from rotating and interfering with the measurement of the crack, the connecting bar 800 moves the rotation limiting protrusion 320 ), it cannot rotate, and if the vertical bar 100 is moved in the rearward direction of the upper cap 400, which is the opposite direction, the rotation of the connecting bar 800 is restricted so that the connecting bar 800 rotates to protrude chalk. I can.

Meanwhile, the lighting lamp 440 is mounted on the front side of the upper cap 400 to irradiate light toward the structure, and the first lighting lamp 441 is mounted on the rear side of the upper cap 400 to face the structure. It may be configured to include a second illumination lamp 442 to irradiate light.

That is, the lighting lamp 440 serves to irradiate light toward the structure in a dark environment such as the basement of the structure or at night. Here, the front with respect to the upper cap 400 means that the measurement wheel 710 moves along the longitudinal direction of the crack generated in the structure while the user grips the vertical bar 100, that is, the measurement wheel 710 running along the crack. Means the direction of travel.

At this time, the first lighting lamp 441 is inclined at a certain angle toward the front around the upper cap 400 so that light is irradiated toward the driving direction of the measuring wheel 710 running along the crack generated in the structure. It is desirable.

In addition, since the first lighting lamp 441 mounted in front of the upper cap 400 irradiates light toward the structure in a state inclined at a certain angle toward the front with the upper cap 400 as the center, the user It is possible to more easily move the measuring wheel 710 along the cracks generated in the structure.

In addition, the switch 110 includes a first switch 111 for on-off control of the first lighting lamp 441 and a second switch 112 for on-off control of the second lighting lamp 442 Can be.

At this time, the central axis A of the first lighting lamp 441 and the central axis A′ of the first switch 111 coincide with each other, and the central axis B of the second lighting lamp 442 and the second It is preferable that the central axis (B') of the switch 112 coincide with each other.

This means that the central axis (A) of the first lighting lamp 441 and the central axis (A') of the first switch 111 coincide with each other, and the central axis (B) of the second lighting lamp 442 and the second switch Since the central axes B'of 112 coincide with each other, it is possible for the user to easily check the switch 110 for which a specific lighting lamp 440 is to be turned on or off.

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: vertical bar 110: switch
111: first switch 112: second switch
200: holder member 210: partition wall
220: receiving groove 230: coupling groove
300: housing 310: second spiral portion
320: rotation limiting protrusion 400: upper cap
410: first through hole 420: pinhole
430: first spiral portion 440: lighting lamp
441: first lighting lamp 442: second lighting lamp
500: first spring 600: length adjustment member
610: length adjustment pin 620: second through hole
700: wheel chair 710: measuring wheel
720: counter 800: connecting rod
900: torsion spring 1000: second spring

Claims (4)

As a display device for the safety diagnosis structure diagnosis part to mark the location of the crack and measure the length of the crack while driving along the crack generated in the building structure out of reach of the operator,
A vertical stand 100 having a spiral formed along the outer diameter of the upper end and having a switch 110 on the outer surface of the lower end;
Chalk (C) is mounted on the vertical stand 100 to indicate the location of the crack in the structure, and the space is divided up and down by the partition wall 210 formed therein, and the partition wall 210 A receiving groove 220 into which the lower part of the chalk (C) is inserted to a predetermined depth is formed on the upper side based on the upper surface, and the vertical base 100 is formed on the lower side based on the partition wall 210 through the bottom opening. A holder member 200 having an upper end portion inserted to a predetermined depth and having a coupling groove 230 helically coupled to the vertical base 100;
The holder member 200 on which the chalk (C) is mounted is in the form of a hollow open up and down in which an internal accommodation space is provided, and the holder member 200 slides up and down in the internal accommodation space, and at the lower end A housing 300 formed with a locking portion preventing the holder member 200 from being separated through the open lower end;
A first through hole 410, which is coupled to the upper end of the housing 300 and protrudes upwardly toward the structure, is formed in the center, along the circumference of the first through hole 410 A plurality of pinholes 420 is formed, the upper cap 400 is mounted on the outer surface of the lighting lamp 440 that is electrically connected to the switch 110 to be turned on and off by the control of the switch 110;
The holder in the direction in which the first through hole 410 is formed in the housing 300 so that the chalk C protrudes upwardly toward the structure through the first through hole 410 formed in the upper cap 400 A first spring 500 elastically supporting the holder member 200 in the housing 300 so that the member 200 is compressed when the member 200 is pressed in order to slide upward and the holder member 200 is lowered when the pressing force is released;
The upper cap protrudes upward through the pinhole 420 and contacts the structure so that the protruding length of the chalk (C) protruding upward through the first through hole 410 of the upper cap 400 is adjusted. A plurality of length adjustment pins 610 formed in the shape of a sphere are formed at the ends to be supported by being spaced apart from each other to reduce friction between the structures, and a second through hole 620 through which the chalk (C) is inserted is formed. Formed length adjustment member 600;
A measuring wheel 710 disposed above the upper cap 400 to measure the length of the crack while driving along the crack generated in the structure, and the crack length is displayed according to the number of revolutions of the measuring wheel 710 Wheel chair 700 with a counter 720;
In order to use the chalk (C), the wheel wheel 700 is rotated from the upper side of the chalk (C) so that the wheel wheel 700 is rotatably coupled to the housing 300 so as to be separated;
When the wheel wheel 700 is rotated from the upper side of the upper cap 400 and separated, the wheel wheel 700 is again positioned above the upper cap 400 to measure the length of the crack. A torsion spring 900 for elastically supporting it;
The upper cap 400 to adjust the protruding length of the length adjustment pin 610 protruding through the pinhole 420 by adjusting the position at which the upper cap 400 is coupled to the upper end of the housing 300 by spiral coupling ( A first spiral portion 430 is formed along the inner diameter of 400, and a second spiral portion 310 is formed to have an outer diameter of the upper end of the housing 300 and is spirally coupled with the first spiral portion 430, and the length A second spring 1000 elastically supporting the length adjustment member 600 in the upper cap 400 so that the adjustment member 600 is in close contact with the upper end of the housing 300; And
Rotation provided on the outer surface of the housing 300 to limit the rotation direction of the connecting rod 800 so that the connecting rod 800 rotates only rearward around the upper cap 400 to expose the chalk (C) Limiting protrusion 320; Including,
The lighting lamp 440,
The upper cap 400 is mounted on the front side of the upper cap 400 to irradiate light toward the structure, but the upper cap 400 is irradiated toward the driving direction of the measuring wheel 710 traveling along the cracks generated in the structure. A first illumination lamp 441 inclined toward the front at a predetermined angle from the center; And
A second lighting lamp 442 mounted on the rear side of the upper cap 400 to irradiate light toward the structure; Including,
The switch 110,
A first switch 111 for on-off control of the first lighting lamp 441; And
A second switch 112 for on-off control of the second lighting lamp 442; Including,
The central axis A of the first lighting lamp 441 and the central axis A′ of the first switch 111 coincide with each other,
The display device of the structure diagnosis unit for safety diagnosis, characterized in that the central axis (B) of the second lighting lamp (442) and the central axis (B') of the second switch (112) coincide with each other. delete delete delete

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