KR102453839B1 - Bridge barrier structure using precast concrete barrier - Google Patents

Abstract

The present invention relates to a bridge protection wall structure using a precast protection wall member. The present invention has a lower end part of a protection wall member of a bridge deck with a structure of inducing and downward discharging penetrating water in a joining area, thereby preventing the penetrating water penetrating a construction joining part for the bridge deck and the lower end part of the protection wall from flowing outside of the protection wall and downward inducing and discharging the same inside. Accordingly, damage to the beautiful appearance of a bridge can be prevented and, at the same time, deterioration of the overall structural performance of the bridge can be prevented. A connection groove is formed over a certain length in the upper regions of both sides of the protection wall member, a connection iron reinforcing rod is connected to penetrate a communication hole of a connection steel plate with the connection steel plate between protection wall members, which have the protection wall members protruding to be in contact with each other, overlapping over a certain vertical length on the connection groove, and non-shrinkable mortar is poured to apply the connection steel plate and the connection iron reinforcing rod to a butting joint part of the protection wall member, thereby remarkably reinforcing structural rigidity.

Description

Bridge barrier structure using precast concrete barrier

The present invention relates to a bridge protection wall structure using a precast protection wall member, and more particularly, by applying a structure for inducing infiltration water to an area where the lower end of the protection wall member of the bridge deck is jointed and discharging it downward. The permeation water that penetrates into the construction joint for the lower part can be discharged from the inner part by inducing it downward while preventing it from flowing to the outer part of the protective wall. On the other hand, by forming connection grooves over a certain length in the upper regions of both sides of the protection wall member, the connection steel plate is formed to protrude on the connection groove, and the connection steel plates between the facing protection wall members are overlapped by a predetermined length on the top and bottom of the connection steel plate. A bridge protection wall structure using a precast protection wall member that can remarkably strengthen structural rigidity while connecting steel plates and connecting reinforcing bars are applied to the butt joint of the protection wall member by passing the connecting reinforcing bar through the communication hole and then pouring the non-shrinkable mortar will be.

In general, protective walls are installed on both sides of the bridge deck (slab) to prevent the vehicle from leaving due to a collision.

In the prior art, when the bridge deck is placed on the abutment, the pier or the girder, and the bridge is almost completed, reinforcing bars are placed and assembled on the edge of the bridge deck, and after the formwork is installed, concrete is poured and cured to construct the protective wall.

However, when the barrier is constructed on site as in the prior art, the time until the bridge is completed is long, workability is poor, and the number of manpower required increases the construction cost.

In other words, the conventional technology for the barrier structure of a bridge is to place reinforcing bars in the barrier wall installation part in advance while constructing the bridge deck (slab), install steel and plywood formwork according to the form of the barrier wall, pour concrete, or It is being constructed by machine casting using a machine equipped with a mold.

At this time, in both construction methods as described above, since the protection wall is constructed after the bridge deck is completed, a construction joint is formed at the lower end of the bridge deck and the protection wall.

Due to the nature of the bridge, the construction joint of the lower part of the protection wall as described above is the starting point and the end point of the cross slope, and pooling occurs. resulting in a leak.

In addition, the infiltration water contaminated with time corrodes the reinforcing bars in the protection wall and deteriorates the structural performance of the protection wall due to the expansion of reinforcement and deterioration of concrete. There were problems such as penetrating into the steel bridge structure at the top of the slab and lowering the overall structural performance of the bridge.

Moreover, the conventional technology for the barrier structure of the bridge is being applied to a structure in which a precast reinforced concrete block type barrier member is butt-joined to both ends in the longitudinal direction.

At this time, the method of connecting the butt joint of the barrier member and the barrier member was mainly used for joint connection by interlocking in the form of embossing and engraving. There are disadvantages.

In other words, there has been a problem in that rigidity decreases with respect to the butt joint between the barrier member and the barrier member.

Therefore, it is possible to guide and discharge the seepage water that penetrates into the construction joint of the bridge deck and the lower part of the protection wall while not flowing to the outer side of the protection wall. Research and development are required for a bridge barrier structure using a precast barrier member that can prevent performance degradation and significantly strengthen the structural rigidity of the butt joint of the barrier member.

Republic of Korea Patent Registration No. 10-0760681 2007.09.14. registration. Republic of Korea Patent Publication No. 2014-0098420 2014.08.08. open. Republic of Korea Patent Publication No. 2015-0107028 2015.09.23. open.

In order to solve the above problems, the present invention applies a structure in which the lower end of the protection wall member of the bridge deck is inducing and discharging downwardly to the area where the joint is constructed. An object of the present invention is to provide a bridge protection wall structure using a precast protection wall member that allows penetrating water to be discharged by inducing it downward from the inside while preventing it from flowing to the outer side of the protection wall.

Another object of the technology according to the present invention is the phenomenon of impairing the aesthetics of the bridge due to infiltration water by inducing and discharging the infiltrated water from the inner part while preventing it from flowing to the outer part of the protective wall for the construction joint of the bridge deck and the lower part of the protective wall. It is intended to prevent deterioration of the overall structural performance of the bridge due to infiltration and at the same time.

Another object of the technology according to the present invention is to form a connection groove over a predetermined length in both upper regions of the protection wall member, so that the connection steel plate is formed protruding on the connection groove, and the connection steel plate between the facing protection wall members is overlapped by a predetermined length up and down The purpose of this is to remarkably strengthen the structural rigidity while the connecting steel plate and the connecting reinforcing bar are applied to the butt joint of the protection wall member by passing the connecting reinforcing bar through the communication hole of the connecting steel plate and then pouring the non-shrinkable mortar.

The present invention for achieving the above object is as follows. That is, the bridge protection wall structure using the precast protection wall member according to the present invention is pre-fabricated as a precast reinforced concrete structure, and as it sinks to a certain depth upward from the floor surface, both ends in the longitudinal direction are opened to form a filling groove, and a filling groove is formed. An injection hole is formed on the side to communicate with the outside, and a connection groove is formed by sinking a predetermined length from the upper end of both sides in the longitudinal direction of the reinforced concrete structure toward the filling groove, and the non-shrinkable mortar is filled in the connection grooves of both ends of the neighboring protection wall members. a barrier member having a structure that is butt-joined with respect to adjacent longitudinal ends; A part of the reinforcing bar located inside along the upper surface of the one end where the protection wall is to be constructed protrudes upward in a closed form, and a water guide groove for guiding infiltration water is formed in the upper surface where the lower end of one side of the filling groove of the protection wall member is seated. a bridge deck in which a drain pipe is buried in communication with the outside downward from the bottom surface of the guide groove; a rubber pad attached to the bottom surface formed at the lower end of one side of the charging groove of the protection wall member; and a filler filled through an injection hole in the filling groove of the protection wall member, wherein a plurality of the protection wall members are sequentially butt-joined along the upper surface of one end of the bridge deck to form the protection wall.

At this time, the structure in which the non-shrinkage mortar is filled in the connection grooves of both ends in the longitudinal direction of the protection wall member and the butt joint is joined is formed in an arc shape with an open top over a certain length in the upper regions on both sides of the protection wall member. A connecting steel plate is formed to protrude at a predetermined interval in the longitudinal direction of It is preferable to be applied in a structure in which butt joints are placed by pouring non-shrinkable mortar inside.

In addition, it is preferable that the bridge deck is further installed with paper for induced drainage in the water guide groove.

Moreover, it is preferable that the drainage pipes of the bridge deck be installed in multiple pieces so as to be drawn out from the lower surface of the bridge deck at regular intervals in the longitudinal direction of the water guide groove.

On the other hand, the bridge protection wall structure using the precast protection wall member according to the present invention is pre-fabricated as a precast reinforced concrete structure. An injection hole is formed on the side to communicate with the outside, and a connection groove is formed by sinking a predetermined length from the upper end of both sides in the longitudinal direction of the reinforced concrete structure toward the filling groove, and the non-shrinkable mortar is filled in the connection grooves of both ends of the neighboring protection wall members. On the other hand, it has a structure in which butt joints are connected with respect to both ends in the longitudinal direction of the filling groove, and while a locking step is formed so that the outward end is taken from the lower end of the other side of the filling groove, the extension protrusion is formed to protrude downward from the lower surface of the bridge deck. a protection wall member having a predetermined height from the upper end of the engaging step of the protrusion and extending long in the longitudinal direction to have a water guide groove recessed therein, and is penetrated outwardly from the recessed end of the water guide groove to form a drain hole; A part of the reinforcing bar located inside along the upper surface of one end to be constructed of the protection wall protrudes upward in a closed form, and the blocking step of the other side of the filling groove of the protection wall member is caught and seated at the upper edge of the one end where the protection wall is to be constructed. bridge decks to be constructed; a rubber pad attached to the engaging step of the other side of the charging groove of the protective wall member; and a filler filled through an injection hole in the filling groove of the protection wall member, wherein a plurality of the protection wall members are sequentially butt-joined along the upper surface of one end of the bridge deck to form the protection wall.

At this time, the structure in which the non-shrinkage mortar is filled in the connection grooves of both ends in the longitudinal direction of the protection wall member and the butt joint is joined is formed in an arc shape with an open top over a certain length in the upper regions on both sides of the protection wall member. A connecting steel plate is formed to protrude at a predetermined interval in the longitudinal direction of It is preferable to be applied in a structure in which butt joints are placed by pouring non-shrinkable mortar inside.

In addition, it is preferable that the protection wall member is further provided with an absorbent cloth in the water guide groove.

In addition, it is preferable that the drainage holes of the protection wall member are installed through a plurality of holes at regular intervals in the longitudinal direction of the water guide groove.

The effect of the bridge protection wall structure using the precast protection wall member according to the present invention will be described as follows.

First, by applying a structure that induces and discharges the seepage water downward to the area where the lower end of the protection wall member of the bridge deck is jointed, the seepage water that penetrates the construction joint for the lower part of the bridge deck and the protection wall does not flow to the outside of the protection wall. It can be discharged by inducing downward from the inner side while preventing it.

Second, by guiding the infiltration water from the inner part downward while preventing it from flowing to the outer part of the protective wall, it prevents the damage to the bridge's aesthetics due to the infiltration water and at the same time prevents the infiltration It is possible to prevent deterioration of the overall structural performance of the bridge due to this.

Third, connecting grooves are formed in the upper regions of both sides of the protection wall member over a certain length, and the connecting steel plates are formed to protrude on the connecting grooves, and the connecting steel plates between the facing protection wall members are overlapped by a predetermined length up and down, and are connected to the communication holes of the connecting steel plates. Structural rigidity can be remarkably strengthened as the connecting steel plate and connecting reinforcing bar are applied to the butt joint of the protection wall member by passing through the reinforcing bar and then pouring the non-shrinkable mortar.

1A and 1B are perspective views showing the construction state of a bridge protection wall structure using a precast protection wall member according to the present invention.
Figure 2 is a side cross-sectional view showing the bridge barrier structure using a precast barrier member according to the present invention.
3 is a side cross-sectional view showing the butt joint of the firewall member in the bridge protection wall structure using the precast protection wall member according to the present invention.
Figure 4 is a front cross-sectional view showing the butt joint of the firewall member in the bridge protection wall structure using the precast protection wall member according to the present invention.
5 is a plan view illustrating a butt joint portion of a firewall member in a bridge protection wall structure using a precast protection wall member according to the present invention.
6A and 6B are perspective views showing the construction state of a bridge protection wall structure using a precast protection wall member according to another embodiment of the present invention.
Figure 7 is a side cross-sectional view showing a bridge firewall structure using a precast firewall member according to another embodiment of the present invention.
8 is a side cross-sectional view showing a butt joint of a firewall member in a bridge protection wall structure using a precast protection wall member according to another embodiment of the present invention.
9 is a front cross-sectional view showing a butt joint of a firewall member in a bridge protection wall structure using a precast protection wall member according to another embodiment of the present invention.
10 is a plan view illustrating a butt joint portion of a firewall member in a bridge protection wall structure using a precast protection wall member according to another embodiment of the present invention.

Hereinafter, a preferred embodiment of a bridge barrier structure using a precast barrier member according to the present invention will be described in detail with reference to the accompanying drawings.

1A and 1B are perspective views showing the construction state of a bridge protection wall structure using a precast protection wall member according to the present invention.

Figure 2 is a side cross-sectional view showing the bridge barrier structure using the precast barrier member according to the present invention.

3 is a side cross-sectional view illustrating a butt joint portion of a firewall member in a bridge protection wall structure using a precast protection wall member according to the present invention, and FIG. 4 is a bridge protection wall structure using a precast protection wall member according to the present invention. It is an exemplary front cross-sectional view showing the butt joint of the barrier member, and FIG. 5 is a plan view showing the butt joint of the barrier member in the bridge barrier structure using the precast barrier member according to the present invention.

1A to 5, the bridge protection wall structure using the precast protection wall member according to the preferred embodiment of the present invention is a protection wall member 100, a bridge deck 200, a rubber pad 300, and a filler (F). Including, a plurality of the protection wall members 100 is to form a protection wall (unsigned) by abutting in succession along the upper surface of one end of the bridge deck 200.

Specifically, the protection wall member 100 is pre-fabricated as a precast reinforced concrete structure, and is recessed to a certain depth upward from the bottom surface, and both ends in the longitudinal direction are opened to form a filling groove 110 , and a filling groove 110 . The injection port 111 is formed in communication with the outside on the side.

In particular, the protection wall member 100 is recessed for a certain length from the upper end of both sides in the longitudinal direction of the reinforced concrete structure toward the filling groove 110 to form the connection groove 120, and the connection groove of both ends of the neighboring protection wall member 100 is formed. It is preferable to have a structure in which the non-shrinkable mortar is filled in (120) while being buttted to both ends in the adjacent longitudinal direction.

Furthermore, the barrier member 100 is pre-fabricated as a precast reinforced concrete structure, and it is preferable that a plurality of reinforcement bars (unsigned) in the longitudinal and transverse directions are embedded therein.

On the other hand, in the bridge deck 200, a portion of the reinforcing bar 210 located inside along the upper surface of one end to which the protection wall is to be constructed protrudes upward in a closed form.

In particular, in the bridge deck 200, a water guide groove 230 for inducing permeation water is recessed in the upper surface on which the lower end of one side of the filling groove 110 of the protection wall member 100 is seated, and the water guide groove 230 is formed. ) It is preferable that the drain pipe 240 is buried in communication with the outside downward from the bottom surface.

In this case, the drain pipe 240 is preferably provided with a pipe such as synthetic resin, and of course, the drain pipe 240 may be applied as a drain hole structure instead of a pipe body.

In addition, it is more preferable that the drainage pipes 240 of the bridge deck 200 are embedded in a plurality of pieces so as to protrude from the lower surface of the bridge deck at regular intervals in the longitudinal direction of the water guide groove 230 .

In addition, it is preferable that the bridge deck 200 is further provided with a paper (230a) for induced drainage in the water guide groove (230).

At this time, the paper for induction drainage (230a) is to be discharged to the outside by absorbing a certain amount of permeated water and then falling down through the drain pipe 240 with respect to the permeated water when the absorption limit is exceeded. will be.

In addition, the rubber pad 300 is attached to the bottom surface formed at the lower end of one side of the charging groove 110 of the protective wall member 100 .

It is preferable that the rubber pad 300 is also attached to the bottom surface formed at the lower end of the charging groove 110 of the protective wall member 100 .

And the filler (F) is to be filled through the injection hole 111 in the filling groove 110 of the barrier member 100, this filler (F) is preferably applied as a non-shrinkage mortar.

In the bridge protection wall structure using the precast protection wall member according to the present invention having the configuration as described above, in particular, the non-shrinkage mortar is filled in the connection grooves 120 of both ends in the longitudinal direction adjacent to the protection wall member 100 while the butt joint is formed. The structure has a connection steel plate 130 at regular intervals in the longitudinal direction of the connection groove 120 in the connection groove 120 formed in an arc shape with the top open over a certain length in the upper regions on both sides of the barrier member 100. The connecting steel plates 130 are connected to the connecting reinforcing bars 140 through the communication holes 131 formed in the connecting steel plates 130 in a state in which the connecting steel plates 130 of the neighboring protection wall members 100 overlap each other by a predetermined length. ), it is preferable to pour non-shrinkable mortar into the connection groove 120 to apply a butt joint structure.

That is, in the structure in which the non-shrink mortar is filled in the connection grooves 120 at both ends in the longitudinal direction of the protection wall member 100 and the butt joint is connected, a plurality of connection steel plates 130 are formed to protrude in the connection groove 120 and are connected. It is preferable that the butt joint construction is completed through the pouring and curing of the non-shrinkable mortar while the connecting reinforcing bars 140 are connected and fixed through the communication hole 131 in a state in which the steel plates 130 face each other and overlap.

In other words, as the plurality of connecting steel plates 130, connecting reinforcing bars 140, etc. as described above are applied, the rigidity of the adjacent butt jointed portions of the protection wall member 100 can be significantly increased compared to the prior art. .

According to the bridge protection wall structure using the precast protection wall member according to the present invention having the configuration as described above, the bridge floor by applying a structure for inducing infiltration water to the area where the lower end of the protection wall member of the bridge deck is jointed and discharging it downward. It can be discharged by guiding downward from the inner part while preventing the permeating water from flowing into the outer part of the protective wall to the construction joint between the plate and the lower part of the protective wall.

At this time, the outer part of the barrier wall means the side that is erected at the end of the bridge deck 200 and exposed to the outside of the bridge in a state where the protection wall member 100 is seated on the bridge deck 200 and constructed.

In addition, according to the bridge protection wall structure using the precast protection wall member according to the present invention having the configuration as described above, the penetration water that penetrates into the construction joint for the lower end of the protection wall and the bridge deck is prevented from flowing to the outside of the protection wall. By guiding the discharge downward from the inner part, it is possible to prevent the deterioration of the bridge's aesthetics due to infiltration water and to prevent deterioration of the overall structural performance of the bridge due to infiltration water.

Furthermore, according to the bridge protection wall structure using the precast protection wall member according to the present invention having the configuration as described above, connection grooves are formed in upper regions on both sides of the protection wall member over a certain length to form a connecting steel plate protruding from the connection groove The connecting steel plate and the connecting reinforcing bar are applied to the butt joint of the protective wall member by passing the connecting reinforcing bar through the communication hole of the connecting steel plate and then pouring non-shrinkage mortar while the connecting steel plates between the butt-butted protection wall members are overlapped for a certain length. Structural rigidity can be remarkably strengthened.

6A and 6B are perspective views showing the construction state of a bridge protection wall structure using a precast protection wall member according to another embodiment of the present invention.

7 is a side cross-sectional view showing a bridge firewall structure using a precast protection wall member according to another embodiment of the present invention.

8 is a side cross-sectional view illustrating a butt joint of a firewall member in a bridge protection wall structure using a precast protection wall member according to another embodiment of the present invention, and FIG. 9 is a precast protection wall according to another embodiment of the present invention. In a bridge protection wall structure using a member, it is a front sectional view showing a butt joint portion of a protection wall member, and FIG. 10 is a butt joint portion of a protection wall member in a bridge protection wall structure using a precast protection wall member according to another embodiment of the present invention. It is a plan view showing the.

6A to 10 , the bridge protection wall structure using a precast protection wall member according to another embodiment of the present invention includes a protection wall member 100, a bridge bottom plate 200, a rubber pad 300, and a filler (F). Including, a plurality of the protection wall members 100 are sequentially butt-joined along the upper surface of one end of the bridge deck 200 to form a protection wall (unsigned).

At this time, the protection wall member 100 is pre-fabricated as a precast reinforced concrete structure, and as it is depressed to a certain depth upward from the floor surface, both ends in the longitudinal direction are opened to form a filling groove 110 . The injection port 111 is formed in communication with the outside on the side.

The injection hole 111 is for filling the filling material provided as non-shrinkable mortar in the filling groove 110, and is preferably applied as a cylindrical hole as shown, and of course, various hole types such as a rectangle may be applied.

The protection wall member 100 as described above is recessed for a certain length from the upper end of both sides in the longitudinal direction of the reinforced concrete structure toward the filling groove 110 to form the connection groove 120, and the connection grooves at both ends of the neighboring protection wall member 100 are recessed. While the non-shrinkage mortar is filled in (120), it has a structure in which butt joints are connected to both ends in the adjacent longitudinal direction.

Furthermore, the protection wall member 100 extends downward a predetermined length while the engaging step 150 is formed so as to have an outward end from the lower end of the other side of the charging groove 120 , so that the extension protrusion 160 is formed to protrude, the extension protrusion 160 ) has a predetermined height from the upper end of the engaging step 150, and extends long in the longitudinal direction, so that the water guide groove 170 is recessed.

At this time, it is preferable that the drain hole 180 is formed by penetrating outward from the recessed end of the water guide groove 170 .

In addition, it is preferable that the extension protrusion 160 is formed to protrude downward by a predetermined length from the lower surface of the bridge deck.

On the other hand, in the bridge deck 200, a part of the reinforcing bar 210 located inside along the upper surface of one end to which the protection wall is to be constructed protrudes upward in a closed form, and the protection wall member 100 at the upper edge portion of the one end where the protection wall is to be constructed. As the charging groove 110 of the other side of the engaging step 150 is jammed and seated, the protective wall member 100 is seated and constructed.

And the rubber pad 300 is to be attached to the charging groove 110 of the protective wall member 100, the other side engaging step 150.

In addition, the filler (F) is to be filled through the injection hole 111 in the filling groove 110 of the barrier member 100, it is preferably applied as a non-shrinkage mortar.

In the bridge protection wall structure using the precast protection wall member according to the present invention having the configuration as described above, in particular, the non-shrinkage mortar is filled in the connection grooves 120 of both ends in the longitudinal direction adjacent to the protection wall member 100 while the butt joint is formed. The structure has a connection steel plate 130 at regular intervals in the longitudinal direction of the connection groove 120 in the connection groove 120 formed in an arc shape with the top open over a certain length in the upper regions on both sides of the barrier member 100. The connecting steel plates 130 are connected to the connecting reinforcing bars 140 through the communication holes 131 formed in the connecting steel plates 130 in a state in which the connecting steel plates 130 of the neighboring protection wall members 100 overlap each other by a predetermined length. ), it is preferable to pour non-shrinkable mortar into the connection groove 120 to apply a butt joint structure.

That is, in the structure in which the non-shrink mortar is filled in the connection grooves 120 at both ends in the longitudinal direction of the protection wall member 100 and the butt joint is connected, a plurality of connection steel plates 130 are formed to protrude in the connection groove 120 and are connected. It is preferable that the butt joint construction is completed through the pouring and curing of the non-shrinkable mortar while the connecting reinforcing bars 140 are connected and fixed through the communication hole 131 in a state in which the steel plates 130 face each other and overlap.

In other words, as the plurality of connecting steel plates 130, connecting reinforcing bars 140, etc. as described above are applied, the rigidity of the adjacent butt jointed portions of the protection wall member 100 can be significantly increased compared to the prior art. .

In addition, in the bridge protection wall structure using the precast protection wall member according to the present invention having the configuration as described above, the protection wall member 100 is preferably further provided with an absorbent cloth 170a in the water guide groove 170 . do.

At this time, the absorbent fabric 170a absorbs a predetermined amount of the permeated water penetrating into the water guide groove 170a and then, when the absorption limit value is exceeded, the permeated water is discharged to the outside through the drain hole 180 .

In addition, the drain hole 180 is formed through the outwardly from the recessed end of the water guide groove 170, it is preferable to be formed through the outwardly inclined at a certain angle downward.

According to the bridge protection wall structure using the precast protection wall member according to another embodiment of the present invention having the configuration as described above, the structure for inducing infiltration water to the lower area of the protection wall member and discharging it downward through the end of a small number of discharge holes. By applying the application, it is possible to induce and discharge the permeated water that penetrates into the construction joint for the lower part of the barrier plate and the lower part of the barrier wall while guiding it downward from the local area of the outer part while preventing it from flowing to the outer part of the barrier wall.

In addition, it minimizes the phenomenon of damaging the aesthetics of the bridge due to infiltration water by guiding it downward from the local area of the outer part while preventing the infiltration water from flowing to the outer part of the protective wall at the construction joint of the bridge deck and the lower part of the protective wall. At the same time, it is possible to minimize the deterioration of the overall structural performance of the bridge due to infiltration water.

Furthermore, by forming connection grooves over a certain length in both upper regions of the protection wall member, a connection steel plate is formed protruding on the connection groove, and the connection steel plates between the facing protection wall members are overlapped by a predetermined length up and down, and connected to the communication hole of the connection steel plate Structural rigidity can be remarkably strengthened as the connecting steel plate and connecting reinforcing bar are applied to the butt joint of the protection wall member by passing through the reinforcing bar and then pouring the non-shrinkable mortar.

Although specific embodiments of the present invention have been described in detail above, the present invention is not limited thereto, and various modifications can be made by those skilled in the art to which the present invention pertains. are included within the scope of the present invention.

100: no firewall
110: charging home
111: inlet
120: connection groove
130: connection steel plate
131: communication hole
140: connecting reinforcing bar
150: jamming step
160: extension protrusion
170: water guide home
170a: absorbent cloth
180: drain hole
200: bridge deck
210: rebar
230: water guide home
230a: paper for induction drainage
240: drain pipe
300: rubber pad
F: filling material

Claims (8)

As a precast reinforced concrete structure, both ends in the longitudinal direction are opened while being depressed to a certain depth upward from the bottom surface to form a filling groove 110, and an injection hole 111 in communication with the outside at one side of the filling groove 110 is formed, and a predetermined length is recessed from the upper end of both sides in the longitudinal direction of the reinforced concrete structure toward the filling groove 110 to form a connection groove 120, and there is no A protection wall member 100 having a structure in which the shrinkage mortar is filled while butt-joining with respect to both ends in the adjacent longitudinal direction; A part of the reinforcing bar 210 located inside along the upper surface of one end to be constructed of the protection wall protrudes upward in a closed form, and the penetration water is induced on the upper surface where the lower end of one side of the charging groove 110 of the protection wall member 100 is seated. a bridge deck 200 in which the water guide groove 230 is recessed, the water guide groove 230 communicates with the outside downward from the bottom surface and the drain pipe 240 is buried; a rubber pad 300 attached to the bottom surface formed on one side of the lower end of the charging groove 110 of the protective wall member 100; and a filler (F) filled through an injection hole 111 in the filling groove 110 of the barrier member 100, and a plurality of the barrier members 100 are formed at one end of the bridge deck 200. Butt joints are connected one after another along the upper surface to form a protective wall,
The bridge deck 200 is further installed with a paper (230a) for induction drainage in the water guide groove (230),
The induced drainage paper (230a) absorbs a certain amount of infiltrated water and then falls downward through the drain pipe 240 for the infiltrated water when the absorption limit is exceeded so that it is discharged to the outside. firewall structure.
According to claim 1,
The structure in which the non-shrinkage mortar is filled in the connection grooves 120 at both ends in the longitudinal direction of the firewall member 100 and the butt joints are joined is in an arc shape with the top open over a certain length in both upper regions of the protection wall member 100 . In the formed connection groove 120, the connection steel plate 130 is formed to protrude at a predetermined interval in the longitudinal direction of the connection groove 120, so that the connection steel plate 130 of the neighboring protection wall member 100 is overlapped by a predetermined length up and down. After connecting the connecting steel plates 130 with the connecting reinforcing bar 140 through the communication hole 131 formed in the connecting steel plate 130 in the state of A bridge barrier structure using a precast barrier member, characterized in that it is applied.
delete According to claim 1,
A bridge using a precast protection wall member, characterized in that the drainage pipes 240 of the bridge deck 200 are embedded in a plurality so as to protrude from the lower surface of the bridge deck at regular intervals in the longitudinal direction of the water guide groove 230. firewall structure.
As a precast reinforced concrete structure, both ends in the longitudinal direction are opened while being depressed to a certain depth upward from the bottom surface to form a filling groove 110, and an injection hole 111 in communication with the outside at one side of the filling groove 110 is formed, and a predetermined length is recessed from the upper end of both sides in the longitudinal direction of the reinforced concrete structure toward the filling groove 110 to form a connection groove 120, and there is no While the shrinkage mortar is filled, it has a structure in which the adjacent longitudinal ends are buttted, while the outward end from the other lower end of the filling groove 120 is extended downward by a certain length while the engaging step 150 is formed. 160) is formed to protrude, and has a predetermined height from the upper end of the locking step 150 side of the extension protrusion 160 and is elongated in the longitudinal direction to form a water guide groove 170 recessed, and the water guide groove 170 is recessed. a protection wall member 100 penetrating outwardly from the end of the wall to form a drain hole 180; A part of the reinforcing bar 210 located inside along the upper surface of one end to which the protection wall is to be constructed protrudes upward in a closed form, and the charging groove 110 of the protection wall member 100 is caught on the other side of the upper edge portion of the one end where the protection wall is to be constructed. a bridge deck 200 on which the barrier member 100 is seated and constructed while the step 150 is jammed and seated; a rubber pad 300 attached to the charging groove 110 of the protective wall member 100 and the engaging step 150 on the other side; and a filler (F) filled through an injection hole 111 in the filling groove 110 of the barrier member 100, and a plurality of the barrier members 100 are formed at one end of the bridge deck 200. Butt joints are connected one after another along the upper surface to form a protective wall,
The protection wall member 100 is further installed with an absorbent cloth 170a in the water guide groove 170,
The absorbent fabric 170a absorbs a certain amount of the permeated water penetrating into the water guide groove 170 and then, when the absorption limit value is exceeded, allows the permeated water to be discharged to the outside through the drain hole 180. Bridge barrier structure using cast barrier members.
6. The method of claim 5,
The structure in which the non-shrinkage mortar is filled in the connection grooves 120 at both ends in the longitudinal direction of the firewall member 100 and the butt joints are joined is in an arc shape with the top open over a certain length in both upper regions of the protection wall member 100 . In the formed connection groove 120, the connection steel plate 130 is formed to protrude at a predetermined interval in the longitudinal direction of the connection groove 120, so that the connection steel plate 130 of the neighboring protection wall member 100 is overlapped by a predetermined length up and down. After connecting the connecting steel plates 130 with the connecting reinforcing bar 140 through the communication hole 131 formed in the connecting steel plate 130 in the state of A bridge barrier structure using a precast barrier member, characterized in that it is applied.
delete 6. The method of claim 5,
A bridge protection wall structure using a precast protection wall member, characterized in that the drainage holes (180) of the protection wall member (100) are installed through a plurality of holes (180) at regular intervals in the longitudinal direction of the water guide groove (170).

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