KR100714654B1 - Verticality measurement system for breast wall of road - Google Patents

Abstract

When the concrete retaining wall installed on one side or both sides of the general road is in contact with the slope surface, the present invention provides a concrete retaining wall verticality diagnosis structure of the road for diagnosing the problem that the verticality of the state where the concrete retaining wall is initially installed is changed. It is about.

That is, the Dichsan plate is installed by laying cement mortar in a plurality of square grooves formed on top of the concrete retaining wall and having the same length as the thickness (L) of the concrete retaining wall;

Each sidewalk boundary stone installed on the side where the concrete retaining wall is installed is formed with semicircular grooves on both sides in the longitudinal direction, and a circular groove is formed in the center of the height direction in which the semicircular grooves are formed. A cylindrical base formed by inserting the cylindrical pipe tightly and protruding at an angle of 180 ° to the outer circumferential surface of the cylindrical pipe and integrally formed with a coupling pin inserted into the circular groove of the sidewalk boundary stone;

Through the cylindrical pipe of the cylindrical foundation, the lower part is buried in the ground, a square hole penetrates into the upper side, and a slit hole penetrates between the square hole penetrating, and a plurality of pin holes penetrate in the longitudinal direction, A threaded vertical stand;

Inserted into the pinhole of the vertical stand, the reference scale is matched to the outer diameter of the vertical stand, and the circular plate closely contacted to the side of the concrete retaining wall and the circular pin protruding horizontally in the center of the circular plate are integrally formed, and the concrete retaining wall flows to the sidewalk side. A flow measuring pin installed to measure the length;

It penetrates the square hole at the top of the vertical stand and is installed close to the inner surface of the dish plate.

A square hole penetrates horizontally in the longitudinal center and a scale is shown on the side of the square hole, and a scale is formed on the upper surface adjacent to the square hole, and a circular hole is formed on one side of the longitudinal hole;

A closing cap installed so that the circular protrusion screwed into the upper inner circumferential surface of the vertical stand and the indicator pin protruding from the lower surface of the vertical protrusion indicate the reference scale 0 of the scale;

The upper part is bent at an angle of 90 ° and screwed into the circular hole, and close to the side of the concrete retaining wall, the measurement bar that slides with the scale when the concrete retaining wall is moved to the slope side is presented.

Road, Concrete Retaining Wall, Vertical, Diagnosis

Description

VERTICALITY MEASUREMENT SYSTEM FOR BREAST WALL OF ROAD}

1 is a view schematically showing a state in which a conventional conventional concrete retaining wall is installed.

2 is an exploded perspective view of the concrete retaining wall vertical diagnosis system according to the present invention.

3 is a combined perspective view of the concrete retaining wall vertical diagnosis system according to the present invention.

4 is a cross-sectional view of the concrete retaining wall verticality diagnosis system constructed in the road according to the present invention.

5 is an enlarged cross-sectional view of a concrete retaining wall verticality diagnosis system according to the present invention.

※ Explanation of symbols about main part of drawing ※

100: slope slope 110: concrete retaining wall

150: driveway 160: concrete side

170: catchment port 180: driveway boundary stone

200: sidewalk 210: sidewalk block

220: walkway boundary stone 300: cylindrical foundation

350: vertical stand 400: finishing cap

500: scale 550: measuring bar

When the concrete retaining wall installed on one side or both sides of the general road is in contact with the slope surface, the present invention provides a concrete retaining wall verticality diagnosis structure of the road for diagnosing the problem that the verticality of the state where the concrete retaining wall is initially installed is changed. It is about.

In Korea, the mountain occupies about 70% of the country's soil, and when constructing roads, most of them are cut by mountains, and concrete retaining walls are installed on one or both sides of the road.

Concrete retaining wall installs internal and external formwork at the site, reinforcing steel bars between internal and external formwork, and installs concrete on site.

1 is a view schematically showing a state in which a conventional conventional concrete retaining wall is installed.

When the road is constructed in contact with the slope 10, the slope 10 and the concrete retaining wall 11 is constructed to be in close contact with the driveway 15 and the sidewalk 20 is constructed on the side of the concrete retaining wall (11).

The concrete retaining wall 11 is constructed in contact with the slope 10 to prevent the soil surface of the slope from sliding over to the driveway 15.

However, the above-described concrete retaining wall is not provided with a facility for measuring a vertical perpendicularity, so it is not known whether the concrete retaining wall is vertically placed or sloped.

The present invention has been made to solve the above problems, an object of the present invention, the sliding or slope of the soil layer generated on the slope surface of the road that is constructed by cutting the mountain slope surface in accordance with the regional characteristics of Korea many mountainous areas. It is to provide a concrete retaining wall vertical degree diagnosis structure of a road where a vertical degree diagnosis system is installed to check whether the concrete retaining wall can function in accordance with the earth pressure.

In order to achieve the above object, the present invention is a ditch plate seated by laying cement mortar in a plurality of square grooves formed on the top of the concrete retaining wall and having the same length as the thickness (L) of the concrete retaining wall;

Each sidewalk boundary stone installed on the side where the concrete retaining wall is installed is formed with semicircular grooves on both sides in the longitudinal direction, and a circular groove is formed in the center of the height direction in which the semicircular grooves are formed. A cylindrical base formed by inserting the cylindrical pipe tightly and protruding at an angle of 180 ° to the outer circumferential surface of the cylindrical pipe and integrally formed with a coupling pin inserted into the circular groove of the sidewalk boundary stone;

Through the cylindrical pipe of the cylindrical foundation, the lower part is buried in the ground, a square hole penetrates into the upper side, and a slit hole penetrates between the square hole penetrating, and a plurality of pin holes penetrate in the longitudinal direction, A threaded vertical stand;

Inserted into the pinhole of the vertical stand, the reference scale is matched to the outer diameter of the vertical stand, and the circular plate closely contacted to the side of the concrete retaining wall and the circular pin protruding horizontally in the center of the circular plate are integrally formed, and the concrete retaining wall flows to the sidewalk side. A flow measuring pin installed to measure the length;

It penetrates the square hole at the top of the vertical stand and is installed close to the inner surface of the dish plate.

A square hole penetrates horizontally in the longitudinal center and a scale is shown on the side of the square hole, and a scale is formed on the upper surface adjacent to the square hole, and a circular hole is formed on one side of the longitudinal hole;

A closing cap installed so that the circular protrusion screwed into the upper inner circumferential surface of the vertical stand and the indicator pin protruding from the lower surface of the circular protrusion indicate the reference scale 0 of the scale;

The upper part is bent at an angle of 90 ° and screwed into the circular hole, and close to the side of the concrete retaining wall, the measurement bar that slides with the scale when the concrete retaining wall is moved to the slope side is presented.

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

Figure 2 is an exploded perspective view of the concrete retaining wall verticality diagnosis system according to the present invention, Figure 3 is a combined perspective view of the concrete retaining wall verticality diagnosis system according to the present invention, Figure 4 is a concrete retaining wall verticality diagnosis system according to the present invention 5 is an enlarged cross-sectional view of the concrete retaining wall verticality diagnosis system according to the present invention.

When the road is constructed in contact with the slope 100, the slope 100 and the concrete retaining wall 110 is constructed to be in close contact with the sidewalk 200 and the driveway 150 is constructed on the side of the concrete retaining wall 110.

Concrete retaining wall 110 is installed vertically by installing the formwork at the site during construction and reinforcing the reinforcing bar inside the formwork, while most of the site construction, the concrete retaining wall 110 can be measured in the verticality as an accessory facility The system is installed.

The concrete retaining wall 110 is formed with a plurality of grooves having an upper portion opened in the form of a recess at the top thereof in the longitudinal direction, that is, the concrete retaining wall 110 has a cement mortar (M) placed on the recessed groove 112 at the uppermost groove. It will be seated in a horizontal state.

In the sidewalk 200, the sidewalk boundary stone 220 is positioned at a position adjacent to the concrete retaining wall 110, and the sidewalk boundary stone 220 has a cylindrical base 300 installed at a joint portion where two sidewalls are in close contact with each other. ).

That is, the sidewalk 220 has semicircular grooves 221 formed at both sides in the longitudinal direction, and circular grooves 222 are formed at the center in the height direction in which the semicircular grooves 221 are formed.

Therefore, the cylindrical pipe 310 of the cylindrical base 300 is in close contact with the joint semicircular groove 221 in which the two sidewalk boundary stones 220 are in close contact, and the cylindrical pipe 222 is formed in the circular groove 222 of the semicircular groove 221. The coupling pins 320 protruding from both sides of the 310 are inserted into and in close contact with each other.

That is, the cylindrical base 300 is formed by integrally forming a cylindrical pipe 310 through which the center penetrates and a coupling pin 320 protruding at 180 ° angle on both sides of the outer circumferential surface of the cylindrical pipe 310. 300, the cylindrical pipe 310 is formed longer than the height of the sidewalk boundary stone 220 so that the cylindrical pipe 310 is buried underground.

In addition, the vertical base 350 penetrates into the cylindrical base 310 to the inside of the cylindrical pipe 310 so that the lower end is buried and fixed in the ground, while the vertical base 350 has a rectangular hole at the upper end side in the longitudinal direction. A slit hole 353 is formed between the horizontally 352 and the rectangular hole 352, and a thread 354 is formed on the inner circumferential surface of the upper surface, and the plurality of pinholes 356 horizontally penetrate in the longitudinal direction. It is formed.

That is, the vertical stand 350 is installed by penetrating the scale 500 in the square hole 352 and the closing cap 400 is fixed to the screw thread 354 by bolting, and thus, the bolt is coupled to the vertical stand 350. The indicator pin 420 of the finished cap 400 indicates the reference point 0 of the scale 500.

In addition, the flow measuring pin 370 penetrates the pinhole 356 through the vertical stand 350, and the flow measuring pin 370 is a member in which a circular pin protruding horizontally in the center of one circular plate is integrally formed. The circular plate 370 is in close contact with the concrete retaining wall 110 and the circular pin is penetrated through the pinhole 356 so that the reference scale 0 is installed to match the outer diameter of the outer circumferential surface of the vertical stand 350.

In other words, the flow measuring pin 370 is installed on the circular pin so that the scale is shown in MM units and the reference scale 0 is set to match the outer diameter of the vertical stand 350 so that the flow of the concrete retaining wall 110 is pushed to the left in the drawing. Will be measured.

Closing cap 400 is a member that is screwed to the screw thread 354 formed on the inner surface of the upper surface of the vertical stand 350, the closing cap 400 is a circular protrusion 410 and the circular protrusion 410 is a thread formed on the outer peripheral surface ) Is formed integrally with the indicator pin 420 protruding in the center.

That is, the closing cap 400 is screwed to the upper surface of the vertical stand 350 so that the indicator pin 420 is matched to the reference scale 0 to the reference point of the scale 500.

In addition, the scale 500 is inserted into the square hole 352 of the vertical stand 350 is in close contact with the rectangular stand, while the scale 500 is perpendicular to the longitudinal center in the longitudinal direction in the longitudinal direction ( The scale 512 is shown on the upper surface of the side on which the 510 penetrates and the square hole 510 is formed, and the horizontal system 516 is formed adjacent to the square hole 510 and the circular hole 520 on one side in the longitudinal direction. Is formed.

That is, the scale 500 is a member that is exposed to the outside and is made of stainless steel without the risk of corrosion, the length L 'formed with the square hole 510 and the circular hole 520 is the thickness L of the concrete retaining wall 110 It is formed less, so that the reference pin 420 of the finishing cap 400 can be indicated by the reference scale 0 of the scale 500 is seated through the vertical stand 350 on the upper surface of the concrete retaining wall 110 To this end, the measurement bar 550 screwed to the circular hole 520 of the scale 500 is installed to be in close contact with the side of the concrete retaining wall (110).

The measuring bar 550 is a rod member that is bent at an angle of 90 °, and a bolt part having a thread formed on the bent upper circumferential surface is fastened and fixed to the circular hole 520 of the scale 500.

Therefore, when the concrete retaining wall 110 flows to the left side, that is, the inclined surface 100, and is inclined, the scale 500 is flowed to the slope 100 by the measuring bar 550, thereby causing the scale 500 Through the square hole 510, the indicator pin 420 of the closing cap 400 indicating the reference scale 0 indicates another scale, so that the length of the indicator pin 420 can be known.

On the other hand, the concrete retaining wall 110, when installing a dip plate 112 having the same length as the width in the width of the top groove portion in the cement mortar (M) to fix the dip plate 112, and at this time The mortar (M) may be adjusted so that the dichroic plate 112 may be horizontally mounted through the horizontal system 516 of the scale 500 that is seated on the inner side of the 112.

The construction sequence in which the safety diagnosis system for measuring the verticality of the concrete retaining wall 110 according to the above-described configuration will be described below with reference to the concrete retaining wall 110 of the conventional road.

First, the concrete retaining wall 110 is provided with a dipping plate 112 and a cylindrical base 300 and a vertical stand 350 on the sidewalk 200 side.

That is, the dipping plate 112 is installed to maintain horizontality using cement mortar (M), and is inserted into the cylindrical base table 300 in the sidewalk boundary stone 220 in which the concrete retaining wall 110 is constructed. Will be installed.

In addition, the cylindrical base 300 is in close contact with the vertical stand 350 to the inner peripheral surface of the cylindrical pipe 310 to fix the cylindrical base 300 and the vertical stand 350 perpendicular to the ground.

Next, in the vertical stand 350, a flow measuring pin 370, a scale table 500, and a measuring bar 550 used as a safety diagnosis system are installed, and a closing cap 400 is disposed on an upper surface of the vertical stand 350. Step) to match the reference scale.

That is, the flow measuring pin 370 is inserted into the pinhole 356 in the vertical stand 350 so that the reference scale 0 matches the outer diameter of the vertical stand, and the measuring bar 550 is screwed to the scale 500. In close contact with one side of the concrete retaining wall 110, the scale 500 is matched with the indicator pin 420 of the finishing cap 400 to the reference scale 0.

In addition to the above description, the cylindrical base 300 inserted into and tightly inserted into the groove 222 of the sidewalk boundary stone 220 corresponds to the sidewalk boundary stone 220 and has a cylindrical pipe 310 of the cylindrical base base 300. The vertical stand 350 penetrated through the penetrating penetrates the lower portion of the cylindrical pipe 310 and is fixed at a deep position.

In addition, the vertical stand 350 has a circular protrusion 410 and the indicating pin to form a closing cap 400 on the top so that the closing cap 400 is screwed and the instruction pin 420 is not interfered when screwed 420 is formed longer than the integrally formed length.

On the other hand, the measurement bar 550 is screwed to the longitudinal side surface of the scale 500, the threaded bolt portion is formed on the bent upper portion is screwed to the circular hole 520 of the scale 500, At this time, when the measuring bar 550 is in close contact with one side of the concrete retaining wall 110, the measuring bar 550 so that the indicator pin 420 of the finishing cap 400 can be accurately instructed on the reference scale 0 of the scale 500. The length of can be adjusted.

In detail, the thickness L of the concrete retaining wall 110 is calculated in advance, and the distance between the concrete retaining wall 110 and the vertical stand 350 is calculated in advance, and then the reference scale 0 of the flow measuring pin 370 and the scale 500 is calculated. If it is inconvenient to match, the attachment tape showing the scale in MM units may be attached to the flow measuring pin 370 and the scale 500 to match the reference scale 0 according to the situation.

However, when a road is opened in a mountainous area, only the roadway 150 may be constructed on the side in which the concrete retaining wall 110 is constructed.

160 is a concrete sidewall, 170 is a water collecting port constructed in a concrete sidewall, 180 is a driveway boundary stone, and 210 is a sidewalk block.

Direcron plate 112, cylindrical base 300, vertical stage 350, flow measuring pin 370, the closing cap 400, graduation bar 500, measuring bar 550 are all outside the mountain ( As it is exposed to external conditions, it is manufactured by using a rust-prevented member so as to prevent corrosion, for example, it can be made of stainless steel.

As can be seen from the above description, the present invention provides a vertical diagnosis system adjacent to the concrete retaining wall so that the installed position of the retaining wall extending on the side of the slope of the road is changed according to the sliding of the soil layer or the earth pressure of the slope. Since it is installed by the installation, it is possible to obtain an effect of improving the maintenance function of road facilities.

In other words, the problem that the slope of the concrete retaining wall is inclined toward one side can be easily grasped by the department that manages the road facilities, so that the verticality can be measured to prevent accidents that may occur. It has the effect of reducing the cost of maintenance.

Claims (2)

In the concrete retaining wall installed on one side or both sides of the road that is constructed on the site adjacent to the slope of the mountain area, the sidewalk and the driveway on the side where the concrete retaining wall is constructed, Dict plate 112 is installed by laying a cement mortar (M) in a plurality of rectangular grooves formed on the top of the concrete retaining wall 110 and the same length as the thickness (L) of the concrete retaining wall; The semicircular grooves 221 are formed at each side of the sidewalk boundary stone 220 installed on the side in which the concrete retaining wall 110 is installed, and the circular grooves 222 are formed at the center in the height direction in which the semicircular grooves 221 are formed. Is formed, the cylindrical pipe 310 penetrates the center at the joint portion where each sidewalk boundary stone 220 is in close contact and protrudes at an angle of 180 ° to the outer peripheral surface of the cylindrical pipe 310 and the sidewalk boundary stone 220 Cylindrical base 300 is formed integrally with the coupling pin 320 is inserted into the circular groove 222 of the; Through the cylindrical pipe 310 of the cylindrical base 300, the lower end is buried in the ground, the slit hole 353 between the square hole 352 is passed through the upper side and the square hole 352 is passed through A vertical stand 350 through which a plurality of pin holes 356 penetrate in a longitudinal direction and a thread 354 is formed in an upper inner peripheral surface groove; Inserted into the pinhole 356 of the vertical stand 350, respectively, the reference scale coincides with the outer diameter of the vertical stand 350, the circular plate in close contact with the side of the concrete retaining wall 110 and the circular protruding horizontally in the center of the circular plate A pin is formed integrally with the flow measuring pin 370 installed to measure the length of the concrete retaining wall flows to the sidewalk; It penetrates through the upper square hole 352 of the vertical stand 350 and is in close contact with the inner surface of the dish plate 112. Square hole 510 penetrates vertically in the center of the longitudinal direction, and a scale 512 is shown on the side of the square hole 510, and a horizontal system 516 is formed on the upper surface adjacent to the square hole 510 and has a length. Graduation unit 500 is formed with a circular hole 520 on one side in the direction; Circular cap 410 is screwed to the upper inner peripheral surface groove of the vertical stand 350 and the finishing cap protruding from the lower surface of the circular protrusion 410 is installed to indicate the reference scale 0 of the scale 500 ( 400); The upper part is bent at an angle of 90 ° and screwed into the circular hole 520 of the scale 500, and closely adhered to the side surface of the concrete retaining wall 110 so that the concrete retaining wall moves with the slope 100 when sliding along with the scale 500. Measurement retaining bar 550; concrete retaining wall vertical road diagnostic structure consisting of. The method of claim 1, Concrete retaining wall verticality diagnosis of the road, characterized in that by attaching a tape attached to the flow measuring pin 370 and the scale 500 in accordance with the scale MM unit appropriately according to the site conditions rescue.

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