KR100866853B1 - Security check system by using inkballs for prevention of damage by leak of the upper tunnel or cobblestone drop - Google Patents

Abstract

A safety test method using an ink ball is provided to easily sense the generation of water leakage and rubble falling on the upper side of a tunnel by measuring the amount of the ink which flows out from the ink ball broken. A safety test method includes a fixture(110) which is fixed to a side wall(10) by an anchor bolt(115) inserted into each anchor hole and in which one ends of screw rods(118) are coupled to a pair of coupling pipes(117) protruded on one side; a guide tube(120) which has a combining pipe(122) with a combining hole(121) in which the other end of the screw rod is inserted, a guide groove(123) on the inner side, an engaging groove(125) with a bolt hole(124) on the upper side, and a flow hole on the lower side; a guide rod(130) which has a rod(131), a slit protrusion(133) sliding along a slit groove(127), and a support plate(137); a plurality of finishing pieces(140) in which a bolt hole(141) is formed and which is fixed by a bolt(B) in order to prevent the guide rod from separating from the guide tube; a plurality of ink balls(150) in which ink(153) is filled within a glass ball(151) and which is broken by the external pressure by the down sliding of the guide rod; a measurement container(160) in which an inlet hole(161), a storage space(163), and a transparent scale window(165) are formed; a supporting plate(170) in which a receiving groove(171), a bolt hole(173) and a projection bar(175) are provided; and a plurality of anchor type cylinders(180) having a sliding groove(181) in which the projection bar is inserted.

Description

Security Check System by Using Inkballs for Prevention of Damage by Leak of the Upper Tunnel or Cobblestone Drop}

The present invention relates to a method for safe diagnosis of a tunnel, and more particularly, a support plate for collecting the by-products in case of leakage and rubble fall occurs at the upper corner of the tunnel, and the weight of the by-products collected at the bottom of the support plate. And a guide rod for sliding down and down along the guide tube, and interposed between the guide tube and the guide rod by a plurality of ink balls that are damaged by the pressure during the lowering operation of the guide rod and discharge ink contained therein. By measuring the amount of ink that is damaged and spilled when falling rubble occurs, it easily detects leakage and rubble falling at the top of the tunnel, and also uses an ink ball to prevent the collapse of the tunnel. Leak in the upper part of the tunnel using ink ball for diagnosing leaks and falling rubble in the upper part of the tunnel And a safety diagnostic method capable of diagnosing rubble falling.

In general, the tunnel is a horizontal underground passage formed artificially or naturally, and the construction site of the tunnel can be divided into four types: soft ground, hard rock layer, soft rock layer, and underwater.

In addition, the geological conditions for the site must be investigated prior to the construction of the tunnel, which includes air surveying, soil sample analysis, and test hole drilling.

The safety diagnosis of the tunnel constructed through such various processes is to install the support on the loading box of the work vehicle, and then the worker climbs on the upper part of the support to perform the safety diagnosis on the inside of the tunnel.

The safety diagnosis by these workers is mainly conducted at night under the control of lanes, and as a result, observation of the safety state by measurement based on the experience of visual observation has resulted in inaccurate observations, resulting in large-scale human accidents. There is a risk involved.

The present invention has been made in view of the above-described problems, and its object is to provide a support plate for collecting the by-products in case of leakage and falling of rubble in the upper part of the tunnel, and by the weight of the by-products collected in the lower part of the support plate. A guide rod is provided to slide down and slides along the guide tube, and is interposed between the guide tube and the guide rod by interposing a plurality of ink balls which are broken by the pressure during discharge of the guide rod and discharge the ink contained therein. By measuring the amount of ink that is damaged and spilled when falling rubble occurs, it easily detects leakage and rubble falling at the top of the tunnel, and also uses an ink ball to prevent the collapse of the tunnel. It provides a safety diagnosis method for diagnosing leakage and rubble falling from the upper part of the tunnel.

The present invention for achieving the above object

A plurality of mounting holes are formed in the inner side of the fixing plate making surface contact with the side walls so as to be fixed on the upper side walls of the tunnel, and anchor bolts are inserted into the respective mounting holes to be fixed to the side walls, and have spiral grooves on one side thereof. A pair of fasteners protruding from each other, the fasteners of which one end of the spiral bar is bolted to each of the fasteners;

A coupling tube having a coupling hole into which the other end of the spiral rod is inserted at both sides thereof is formed so as to be connected between the pair of spiral rods, and is fixed by a pair of nut fastenings. In guide groove is formed, the engaging groove is formed in the fastening hole is formed at the top, the outlet hole is formed at the bottom, the guide tube formed integrally with the slit groove on the inner surface of the guide groove;

A rod having the same shape as the inner surface of the guide groove is formed in the lower portion so as to slide along the guide tube, and a slit protrusion sliding along the slit groove is formed on the outer surface of the rod to protrude the mounting hole. A guide rod provided with a supporting plate having;

In order to prevent the guide rod from being separated from the guide tube is seated in the locking groove formed on the upper end of the guide tube to close the upper end of the slit groove, and a bolt hole is formed in the communication with the fastening hole is formed in the inner side fixed through the bolt fastening A plurality of finishing pieces;

A plurality of ink balls interposed between the guide tube and the guide rods, the ink being closed on the glass wall so that the ink filled therein may be broken when external pressure is generated due to the downward sliding movement of the guide rods;

The ink is discharged through the outflow hole to be bolted to the lower portion of the guide tube to visually check the lowering operation of the guide rod, an inflow hole formed in communication with the outflow hole is formed on the upper side, the reservoir space inside Is provided, the measuring cylinder formed with a transparent graduation window on one side wall of the reservoir space;

When leakage and rubble falls in the upper part of the tunnel, the guide rod is seated on the upper part of the support plate so as to achieve a sliding sliding movement, and a receiving groove is provided to allow water and rubble to flow therein, and the bottom of the receiving groove. A bolt hole for fastening the bolt is formed in communication with the installation hole in the support plate, and a support plate provided with a protrusion bar at the four corners;

The support plate is embedded in the upper portion of the tunnel so as to move in the vertical direction, it is configured to include a plurality of anchor cylinder having a sliding groove which is inserted in the protruding bar to be slidable in the vertical direction.

According to the present invention, a support plate for collecting the by-products is installed at the top of the corner of the tunnel and leakage and rubble falls, the guide rod for sliding sliding down the guide pipe by the weight of the by-product collected in the lower portion of the support plate It is installed, between the guide tube and the guide rod by a plurality of ink balls that are broken by the pressure during the lowering operation of the guide rod to discharge the ink contained therein, by the leakage and leakage of rubble, By measuring the volume, it is possible to easily detect leakage and rubble falling in the upper part of the tunnel, and to diagnose leakage and rubble falling in the upper part of the tunnel using ink balls, which can prevent the collapse of the tunnel. It has an effect.

Hereinafter, a safety diagnosis method for diagnosing leakage and rubble drop in the upper part of a tunnel using an ink ball according to an exemplary embodiment of the present invention will be described in detail.

1 is a perspective view showing a safety diagnosis method for diagnosing the leakage and rubble drop of the upper portion of the tunnel using the ink ball according to a preferred embodiment of the present invention, Figure 2 is a view using an ink ball according to a preferred embodiment of the present invention 3 is an exploded perspective view illustrating a safety diagnosis method capable of diagnosing leakage and rubble falling in an upper part of a tunnel, and FIG. 3 is a safety diagnosis capable of diagnosing leakage and rubble falling in an upper part of a tunnel using an ink ball according to an exemplary embodiment of the present invention. 4A and 4B are operation state diagrams showing a safety diagnosis method capable of diagnosing leakage and rubble fall on the upper part of a tunnel using an ink ball according to a preferred embodiment of the present invention.

1 to 4, the safety diagnosis method for diagnosing the leakage and rubble fall of the upper part of the tunnel using the ink ball of the present invention is a fixture 111, which is installed on each side wall of the tunnel, and the fixture 111 Guide tube 120 connected to the installation, the guide rod 130 is slidably movable along the guide tube 120, and for preventing the guide rod 130 from being separated from the guide tube 120 A plurality of finishing pieces 140, a plurality of ink balls 150 for detecting the sliding sliding movement of the guide rod 130, and the ink 153 discharged from the ink ball 150 is stored and displayed in a scale Measuring cylinder 160, and the support plate 170 for collecting the leakage and rubble falls in the upper part of the tunnel and the anchor plate 180 buried in the upper portion of the tunnel so that the support plate 170 can move in the vertical direction It is configured to include.

On the other hand, the fastener 111 is formed with a plurality of installation holes 113 in the inner side of the fixing plate 111 to make a surface contact with the side wall 10 so as to be fixed to the top of each side wall 10 of the tunnel.

In addition, the anchor bolt 115 is inserted into each of the installation hole 113 is fixed to the side wall 10, a pair of fastening tube 117 having a spiral groove 116 on one side is protruded, the One end of the spiral rod 118 is bolted to each fastening pipe 117.

On the other hand, the guide pipe 120 has a coupling pipe 122 having a coupling hole 121 is inserted into the other end of the spiral rod 118 on both sides so that the pair of spiral rods 118 can be connected between This protrudes.

Accordingly, in order to fix the position of the guide tube 120 to the spiral bar 118, first, after the nut (N) is fastened to the spiral bar 118, the nut (N) is fastened to the spiral bar 118 Insert the end of the coupling hole 121. Then, by fastening the nut (N) to the end of the spiral bar 118, the guide tube 120 is fixed to the position of the spiral bar 118.

In addition, the guide tube 120 has a guide groove 123 having a rectangular cross-sectional shape in the inner side, a locking groove 125 is provided with a fastening hole 124 is formed at the top, the outlet hole 126 at the bottom ) Is formed, and the slit groove 127 is integrally formed on the inner surface of the guide groove 123.

On the other hand, the guide rod 130 has a rod 131 having the same shape as the inner surface of the guide groove 123 is formed in the lower portion so as to slide along the guide tube 120, the outer surface of the rod 131 A slit protrusion 133 sliding along the slit groove 127 is formed to protrude, and a support plate 137 having an installation hole 135 is provided at an upper portion thereof.

On the other hand, the finishing piece 140 is seated in the engaging groove 125 formed on the upper end of the guide tube 120 to prevent the guide rod 130 from being separated from the guide tube 120 is slit groove Closing the upper end of the (127), the bolt hole 141 which is in communication with the fastening hole 124 is formed on the inside is fixed through the bolt (B) fastening.

In addition, the ink ball 150 is interposed between the guide tube 120 and the guide rod 130 may be damaged when the external pressure caused by the downward sliding movement of the guide rod 130 may leak the ink filled therein Ink 153 is finished on the glass wall 151 so that it is.

On the other hand, the measuring cylinder 160 is stored in the lower portion of the guide pipe 120 so as to visually check the lowering operation of the guide rod 130 by storing the ink 153 discharged through the outlet hole 126 It is fastened, the inlet hole 161 is formed in communication with the outlet hole 126, the reservoir space 163 is provided on the inside, the transparent grid 165 on one side wall of the reservoir space 163 ) Is formed.

In addition, the support plate 170 is collected on the leakage and rubble falling of the upper tunnel to be seated on the upper portion of the support plate 137 so that the guide rod 130 can achieve the sliding sliding down, the water and rubble inside An accommodation groove 171 is provided to be introduced, and a bolt hole 173 is formed in communication with the installation hole 135 on the bottom of the accommodation groove 171 to fasten the bolt (B), four corners Protruding bar 175 is provided.

On the other hand, the anchor cylinder 180 is buried in the upper portion of the tunnel so that the support plate 170 can move in the vertical direction, the inner side of the sliding groove is inserted into the protrusion bar 175 to be slidable in the vertical direction ( 181 is formed.

In this case, the sliding groove 181 is preferably formed to be opened downward.

Thus, the safety diagnosis method for diagnosing the leakage and rubble drop of the upper part of the tunnel using the ink ball of the present invention having the above-described combination configuration is a support plate for collecting the by-products when the leakage and rubble falls on the upper corner of the tunnel Is installed, the guide rod is installed to slide down the sliding guide along the guide tube by the weight of the by-product collected in the lower portion of the support plate, and broken down by the pressure during the lowering operation of the guide rod between the guide tube and the guide rod By interposing a plurality of ink balls to discharge the ink contained in the water, it is easy to detect the leakage and rubble falling phenomenon at the top of the tunnel by measuring the amount of ink that is broken out and leaked when leaking and falling rubble occurs. It is to prevent the collapse of the tunnel in advance. The system will be described in detail.

First, the fixing plate 111 of the fastener 111 is in surface contact with the side wall 10 of the tunnel and the anchor bolt 115 is fastened to the installation hole 113 of the fixing plate 111 to fix the fixing plate to the side wall 10 of the tunnel. Install (111) closely.

After that, the anchor cylinder 180 is buried in the upper portion of the tunnel. At this time, the sliding groove 181 of the anchor cylinder 180 is preferably installed to open downward.

Thereafter, one end of the spiral bar 118 is bolted to the spiral groove 116 of the fastening pipe 117.

Thereafter, after the nut N is fastened to the protruding spiral bar 118, the end of the spiral bar 118 to which the nut N is fastened is inserted into the coupling hole 121. Then, the nut (N) is fastened to the end of the spiral bar 118 inserted into the coupling hole 121. Accordingly, the guide tube 120 is installed closely connected to the spiral rod 118.

Thereafter, the rod 131 of the guide rod 130 is inserted into the guide groove 123 of the guide tube 120. At this time, the slit protrusion 133 of the rod 131 is inserted into the slit groove 127 of the guide tube 120 to slide along the slit groove 127.

In this case, a plurality of ink balls 150 are interposed between the guide tube 120 and the guide rod 130.

Thereafter, the finishing grooves 140 are inserted into the engaging grooves 125 of the guide tube 120 to fasten the bolts B to the fastening holes 124 and the bolt holes 141 communicating with each other.

Accordingly, the finishing piece 140 closes the slit groove 127, thereby preventing the rod 131 of the guide rod 130 from being separated from the guide groove 123 of the guide pipe 120. .

Thereafter, the measuring tube 160 is bolted to the lower portion of the guide tube 120.

At this time, the outlet hole 126 of the guide tube 120 is preferably connected in communication with the inlet hole 161 of the measuring tube 160.

Subsequently, the support plate 170 is seated on the support plate 137 formed on the guide rod 130 and bolted thereto. At this time, the protruding bar 175 of the support plate 170 is inserted into the sliding groove 181 of the anchor cylinder 180.

Thus, the operation state of the safety diagnostic method for diagnosing the leakage and rubble fall of the upper part of the tunnel using the ink ball formed as described above will be described.

First, when water leakage and rubble fall from the upper portion of the tunnel, the water and rubble is accumulated in the receiving groove 171 of the base plate 170.

As such, when water and rubble accumulate in the receiving groove 171, its weight is transmitted to the guide rod 130 to allow the guide rod 130 to slide downward along the guide tube 120.

Subsequently, when the guide rod 130 moves downward, the ink ball 150 interposed between the guide rod 130 and the guide tube 120 has broken glass walls 151 and the ink filled therein. 153 flows into the reservoir 163 through the outlet hole 126 of the guide tube 120 and the inlet hole 161 of the measuring tube 160, and the ink 153 introduced into the reservoir 163. ) Allows the naked eye to easily detect from the outside through the transparent grid 165.

Accordingly, the tunnel manager patrols the tunnel and observes the transparent graduations, thereby making it easy to diagnose leaks and rubble falling inside the tunnel.

1 is a perspective view showing a safety diagnosis method for diagnosing the leakage and rubble falling of the upper portion of the tunnel using the ink ball according to an embodiment of the present invention,

Figure 2 is an exploded perspective view showing a safety diagnostic method for diagnosing the leakage and rubble falling of the upper portion of the tunnel using the ink ball according to an embodiment of the present invention,

Figure 3 is a main cross-sectional view showing a safety diagnosis method for diagnosing the leakage and rubble falling of the upper portion of the tunnel using the ink ball according to an embodiment of the present invention and

Figures 4a and 4b is an operating state diagram showing a safety diagnostic method that can diagnose the leakage and rubble falling of the upper portion of the tunnel using the ink ball according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

10 side wall 110 fixture

120: guide tube 130: guide rod

140: finishing piece 150: ink ball

160: measuring tube 170: support plate

180: anchor cylinder B: bolt

N: Nut

Claims (1)

A plurality of installation holes 113 are formed inside the fixing plate 111 which makes surface contact with the side wall 10 so as to be installed and fixed on each side wall 10 of the tunnel, and anchors in each of the installation holes 113. A bolt 115 is inserted and fixed to the side wall 10, and a pair of fastening pipes 117 having spiral grooves 116 are formed on one side thereof, and a spiral bar 118 is formed on each of the fastening pipes 117. A fastener 111 having one end bolted thereto; The coupling pipe 122 having a coupling hole 121 into which the other end of the spiral rod 118 is inserted is protruded so as to be connected between the pair of spiral rods 118 so that the pair of nuts ( N) the position is fixed through the fastening, the guide groove 123 having a rectangular cross-sectional shape is formed on the inside, the locking groove 125 is provided with a fastening hole 124 is formed at the top, the outlet hole 126 at the bottom Is formed, the guide pipe 120 is formed integrally with the slit groove 127 on the inner surface of the guide groove 123; A rod 131 having the same shape as the inner surface of the guide groove 123 is formed in the lower portion so as to slide along the guide tube 120, and along the slit groove 127 on the outer surface of the rod 131. A guide rod 130 having a slit protrusion 133 slidingly protruded and having a support plate 137 having an installation hole 135 thereon; The guide rod 130 is seated in the engaging groove 125 formed on the upper end of the guide tube 120 so as to prevent the guide rod 120 from being separated from the end of the slit groove 127, the inner side A plurality of finishing pieces 140 formed in the bolt holes 141 communicating with the fastening holes 124 and fixed through the fastening of the bolts B; The ink 153 is interposed between the guide tube 120 and the guide rod 130 so that the ink 153 may be broken when an external pressure is generated due to the downward sliding movement of the guide rod 130 so that the ink filled therein may flow out of the glass wall ( A plurality of ink balls 150 finished at 151; The ink 153 is discharged through the outlet hole 126 to be bolted to the lower portion of the guide tube 120 to visually check the lowering operation of the guide rod 130, the outlet hole (top) A measuring tube 160 having an inflow hole 161 communicating with 126, a storage space 163 provided therein, and a transparent graduation window 165 formed on one side wall of the storage space 163; When leakage and rubble falls in the upper part of the tunnel, the guide rod 130 is seated on the upper part of the support plate 137 to achieve the sliding sliding movement, and the receiving groove 171 allows water and rubble to flow therein. And a bolt hole 173 through which the bolt B is fastened by communicating with the installation hole 135 on the bottom surface of the receiving groove 171, and protruding bars 175 are provided at four corners. Support plate 170 and The support plate 170 is embedded in the upper portion of the tunnel so as to move in the vertical direction, the plurality of anchor cylinders having a sliding groove 181 is inserted into the protrusion bar 175 to be slidable in the vertical direction ( Safety diagnosis method for diagnosing the leakage and rubble fall of the upper portion of the tunnel using the ink ball, characterized in that configured to include.

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