KR101671913B1 - Structure for pier dismembering and method using the same - Google Patents

Abstract

The present invention is a pier breaker structure for removing a pier 30 of a bridge that includes an upper structure 10 mounted on top of an alternating 20, pier 30 and alternate 20 and pier 30, The pier 30 is composed of a lower pier 31 immersed in the water on the water surface and an upper pier 32 exposed to the upper part of the water surface and is installed to surround the lower pier 31, A lower casing 110 installed to be exposed; An upper shroud 120 coupled to an upper portion of the lower casing 110 and surrounding the upper piercing hole 32; And an intermediate shielding film 130 installed to surround the upper bridge bridge 32 and provided so as to close the gap between the lower casing 110 and the upper bridge bridge 120 and the upper bridge bridge 32. [ This paper proposes a bridge demolition structure of bridges and bridge bridges using the bridges to prevent the leakage of fugitive dust and wastes to the surrounding rivers or the sea and to improve the efficiency and economical efficiency by collecting and recycling cutting water , And ensure the stability of the construction so that the quality can be ensured even after demolition.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bridge structure for a bridge,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of civil engineering, and more particularly, to a bridge pier structure for a bridge and a bridge pier bridge method using the same.

In general, bridges are composed of alternating, piercing and alternating and superstructures mounted on top of the bridge.

Conventionally, the construction for demolishing a bridge pier is carried out by repeating an operation of lifting a bridge pier using a lifting device such as a crane and unloading the bridge under the bridge, and finally removing the bridge pier.

However, the conventional demolition construction method has the following problems.

First, when the bridges are demolished, there is a problem of contamination of surrounding rivers or oceans due to scattered dust and waste.

Second, when the bridges are removed from the bridges, the cutting water flows out to the rivers or the sea as they are, so that there is a risk of polluting the underwater environment and the disconnection is disadvantageous economically because it is used for disposable use.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to prevent fugitive dust, wastes and the like from being leaked to surrounding rivers or the sea, to improve efficiency and economical efficiency by collecting and recycling cutting water, The present invention provides a bridge demolition structure of a bridge that secures the stability of construction so as to secure quality, and a method of demolishing a bridge using the bridge.

In order to solve the above problem, the bridge 20 of the bridge including the bridge 20, the bridge 30 and the upper structure 10 mounted on the bridge 20 and the upper part of the bridge 30, The bridge pier 30 includes a lower bridge pier 31 immersed in the water on the water surface and an upper bridge pier 32 exposed to the upper part of the water surface, A lower casing 110 installed to expose the upper part of the water surface; An upper shroud 120 coupled to an upper portion of the lower casing 110 and surrounding the upper piercing hole 32; And an intermediate thinning film 130 installed to surround the upper piercing hole 32 and provided so as to close the interval between the lower casing 110 and the upper pierce angle 120 and the upper pierce angle 32, This paper presents a bridge demolition structure of a bridge.

The weight of the lower casing 110 may be greater than the weight of the upper shroud 120.

And a lower shielding membrane 140 installed at a lower portion of the lower casing 110 and fixed to the bottom of the lower casing.

And an upper scattering prevention work part 150 formed on the upper brick layer 120 and the upper bridge bridge 32 to have a work space therein and to prevent scattering of scattered light.

And a plurality of lateral supports 160 coupled to outer sides of the lower bridge piers 31 or upper bridge piers 32 and configured to support the intermediate skin 130 from below, It is preferable that the bracket 162 is coupled to the outside of the lower bridge pier 31 or the upper bridge pier 32 by an anchor 161.

The present invention relates to a bridge pier removing method using a bridge pier structure of a bridge, the method comprising: installing a lower casing (110) to surround the lower bridge pier (31) and installing the lower casing (110) step; An upper shielding film attaching step of attaching the upper shielding film 120 to the upper part of the lower casing 110 and surrounding the upper piercing hole 32; An intermediate screening step of installing the intermediate screening membrane 130 so as to surround the periphery of the upper bridge pillar 32 and closing the periphery of the lower casing 110 or the upper screening membrane 120; A drilling step of drilling a lift hole in the pier 30 in the lower casing 110 or the upper slit 120; A cutting step of cutting the pier 30 within the lower casing 110 or the upper shroud 120; A lifting step of lifting the bridge pier 30 by a lifting member 5; And a conveying and unloading step of conveying and unloading the pier 30 which has been recovered.

Further comprising an upper scattering prevention work part (150) formed on the upper brick layer (120) and the upper bridge bridge (32) and having a work space therein for preventing scattering of scattering, It is preferable that oil pressure is applied by a compressor provided in the upper shatterproof work unit 150 to puncture the hydraulic core lifting hole in the bridge pier 30.

Preferably, the cutting step is a DWS (Diamond Wire Saw) cutting operation to the pier 30 using the DWS cutter 2.

And a cutting water treatment step of treating the cut water after the cutting step, wherein the cutting water treatment step is a step of cutting the cut water collected in the lower casing (110) or the upper skin layer (120) Into a settling tank (6) disposed outside the pier (30); Separating the sludge by injecting the number of cuts injected into the settling tank 6 into the filter press 7; And recycling or wastewater treating the separated water separated from the sludge.

The lifting member 5 includes a plurality of wires 3 fastened to the lifting holes formed in the bridge 30. And a hook (4) to which the plurality of wires (3) are fixed.

The present invention is to prevent the danger of fugitive dust and wastes leaking to the surrounding rivers or the sea, to improve the efficiency and economical efficiency by collecting and recycling the cutting water, and to secure the stability of the construction so as to ensure quality even after demolition This paper presents a bridge demolition structure and a bridge demolition method using the bridge.

FIGS. 1 to 6 illustrate an embodiment of a bridge piercing structure of a bridge according to the present invention,
1 is a schematic view of a pier.
2 is a perspective view of one embodiment;
3 is a plan view of a lower screen.
Fig. 4 is a front cross-sectional view and side cross-sectional view of Fig. 2;
5 is a cross-sectional view of a side support.
6 is a plan sectional view of Fig.
FIGS. 7 to 12 illustrate process steps of a bridge pier removal method according to the present invention,
7 is a process chart of the lifting step.
8 is a process chart of the drilling step.
9 is a process chart of a cutting step;
10 is a process enlargement view of the core drilling step.
11 is a process enlargement view of the DWS cutting step.
12 is a process chart of the cutting water treatment step.
14 is a frontal comparison view of the exterior and interior of an embodiment.
15 is a side-by-side comparison view of the exterior and interior of an embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1, the present invention comprises a bridge 30 of a bridge comprising an alternating 20, bridge 30 and alternating 20 and an upper structure 10 mounted on top of the bridge 30, This paper presents a bridge demolition structure for demolishing the bridge.

Here, the bridge pier 30 is composed of a lower bridge pier 31 immersed in water on the water surface and an upper bridge pier 32 exposed to the upper part of the water surface. A lower casing 110 installed so as to surround the upper surface thereof and exposed above the water surface; An upper shroud 120 coupled to an upper portion of the lower casing 110 and surrounding the upper piercing hole 32; And an intermediate clearance 130 installed to surround the upper bridge pierce 32 and to close the gap between the lower casing 110 and the upper pierce 120 and the upper bridge pierce 32 2).

In the present invention, the following advantages can be obtained by providing the upper casing 110, the upper casing 120, and the middle casing 130 on the outer side of the bridges when the piers 30 of the bridges are demolished.

First, the lower casing 110, the upper shroud 120, and the middle shroud 130 function to prevent fugitive dust, runoff, waste, and falling objects generated during the removal of the bridge 30 from entering the water. Therefore, it is possible to prevent the occurrence of environmental pollution, to improve the working environment, and to improve the workability.

Second, the lower part of the lower casing 110 is fixed to the lower part by a structure to be described later, and the cutting water generated when the upper pier 33 is demolished by the intermediate thinning film 130 can be collected without flowing into the water Structure.

As a result, it is possible to improve the economical efficiency by recycling the cutting water, and to prevent the inflow of the cutting water into the water, and to obtain preferable advantages in terms of protection of the underwater environment.

Third, when the bridge pier 30 is demolished, it is possible to obtain the effect of preventing the falling of the falling object, thereby improving the stability of the construction and shortening the construction period.

In addition, since the demolition work of the pier 30 is performed stably, there is an advantage that the quality of the pier 30 after demolition can be secured.

The intermediate thin film 130 of the present invention has a structure in which the gap between the upper bridge pillar 32 and the lower casing 110 or the upper thin film 120 is completely closed by the intermediate thin film 130, The upper portion and the lower portion of the body 130 may be cut off (FIGS.

Accordingly, it is possible to prevent scattered dust and foreign matter generated during demolition of the pier 30 from being dropped by the intermediate thinning film 130, and to prevent leakage of the dust to the outside of the lower casing 110 and the upper thinning film 120 .

As described above, cutting water, scattered dust, foreign matter, and the like collected in the intermediate thinning film 130 can be easily removed by lifting the intermediate thinning film 130 upward after the cutting operation of the pierced hole 30.

For this, the intermediate thin film 130 of the present invention is embodied as a structure in which it is stuck in a downward direction between the upper pierce 32 and the lower casing 110, or between the upper pierce 32 and the upper thin film 120 It is possible to effectively exhibit the function of

In other words, as compared with the interval between the upper bridge pillar 32 and the lower casing 110 or the interval between the upper bridge pillar 32 and the upper shielding film 120, So that the above structure can be realized.

On the other hand, the weight of the lower casing 110 is preferably larger than the weight of the upper thinning film 120 in terms of structural safety.

The upper part of the lower casing 110 is exposed to the upper part of the water surface to facilitate the connection operation with the upper skin 120 and to prevent the lower casing 110 from being turned according to the flow of the river And the like.

Further, the present invention further includes a lower screening membrane 140 installed at a lower portion of the lower casing 110 and fixed to the bottom of the lower casing.

The lower shielding film 140 is formed of a waterproof member, and a structure in which a plurality of seats are installed inside the waterproof member is effective.

At this time, protrusions are welded to the lower part of the lower casing 110 or the lower screen 140 to be fixed to the floor (FIGS. 2 and 3).

The inner space and the outer space of the lower casing 110 can be shielded by the installation of the lower shielding film 140. Accordingly, the sludge generated at the time of demolition of the lower bridge pier may be settled in the inner space of the lower casing 110, so that the pollution of the river due to the discharge of the sludge can be prevented.

The sludge settled in the inner space of the lower casing 110 can be recovered to a considerable extent merely by carrying out the lifting operation of the lower screening membrane 140.

The bridge piercing structure of the present invention further includes an upper shatter preventing work portion 150 formed on the upper shingling film 120 and the upper piercing hole 32 so as to have the function of the work space in addition to the scattering prevention function .

In the present invention, by providing a plurality of side support portions 160, the intermediate thin film 130 is bonded to the outer side of the lower bridge pier 31 or the upper pierce 32 to support the intermediate thin film 130 from the lower side (Figs.

It is preferable that the bracket 162 is used as the side support portion 160 and is fixed to the outside of the lower bridge pier 31 or the upper bridge pier 32 by the anchor 161.

A method of removing a bridge pier using a bridge pier structure of a bridge of the present invention comprises the following steps.

A lower casing installation step for installing the lower casing 110 so as to surround the lower bridge pier 31 and expose the upper part to the water surface is performed.

An upper shroud film mounting step is performed in which the upper shroud 120 is installed to be coupled to the upper part of the lower casing 110 and to surround the upper piercing hole 32. [

An intermediate screening step of installing the intermediate screening film 130 so as to surround the periphery of the upper bridge pillar 32 and closing the periphery of the lower casing 110 or the upper screening film 120 is performed.

A piercing step is performed to perforate the lifting hole in the pier 30 within the lower casing 110 or the upper shroud 120 (Figs. 8 and 10).

In this piercing step, oil pressure is applied by a compressor provided in the upper shatter preventing work unit 150 to pierce the hydraulic core lifting hole in the pier 30.

A cutting step of cutting the pier 30 is performed inside the lower casing 110 or the upper shading film 120 (Figs. 9 and 11).

In the cutting step, it is preferable to perform DWS (Diamond Wire Saw) cutting operation on the pier 30 by using the DWS cutter 2.

Further, after the cutting step, it is preferable that a cutting water treatment step for treating the cutting water is performed (FIG. 12).

In the cutting water treatment step, the cutting water collected in the lower casing 110 or the upper shroud 120 is pumped to the settling tank 6 disposed outside the pier 30 by a pump.

A step of injecting the number of cuts injected into the settling tank 6 into the filter press 7 to separate the sludge is performed.

A step of recycling or wastewater treatment is performed for the separated water separated from the sludge.

After the cutting step is performed in the above-described process, a lifting step is performed in which the pier 30 is lifted by the lifting member 5 (Fig. 7).

Here, it is preferable that the lifting member 5 fastens the upper part of the bridge 30 by a plurality of wires 3 in a basket structure, and the plurality of wires 3 are fixed to the hooks 4.

Finally, a carrying and unloading step of carrying and unloading the pier 30 is carried out.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

1: core boring machine 2: DWS cutter
3: Wire 4: Hook
5: salvage member 6: settling tank
7: Filter Press 10: Superstructure
20: Alternation 30: Pier
31: lower pier 32: upper pier
110: lower casing 120: upper shielding film
130: Middle screening film 140: Lower screening film
150: upper scattering prevention work portion 160: side support portion
161: anchor 162: bracket

Claims (10)

A pier breaker structure for removing the bridgehead (30) of a bridge comprising an alternation (20), a bridge bridge (30) and an upper structure (10) mounted on the bridge (20)
The bridge pier 30 is composed of a lower bridge bridge 31 immersed in water on the basis of the water surface and an upper bridge bridge 32 exposed to the upper part of the water surface,
A lower casing 110 installed to surround the lower pier 31 and exposed above the water surface;
An upper shroud 120 coupled to an upper portion of the lower casing 110 and surrounding the upper piercing hole 32;
An intermediate thinning film 130 installed to surround the upper piercing hole 32 and closing the gap between the upper thinning film 120 and the upper piercing hole 32;
A lower shroud 140 installed at a lower portion of the lower casing 110 and fixed to the bottom of the lower shroud 110; And
And an upper shatter preventing work part 150 provided on the upper shroud 120 and the upper pier 32 to prevent scattering dispersion,
Wherein the weight of the lower casing (110) is greater than the weight of the upper shroud (120).
The method according to claim 1,
And a plurality of side support portions 160 coupled to the outside of the lower bridge pier 31 or the upper bridge pierces 32 and supporting the intermediate screen 130 from below,
The lateral supports 160
Wherein a bracket (162) is coupled to the outside of the lower bridge pier (31) or the upper bridge pier (32) by an anchor (161).
delete delete delete A method of removing a bridge pier using the bridge pier structure of the bridge of claim 2,
Installing a lower casing (110) so as to surround the lower bridge pier (31) and to expose an upper part of the lower pier (31);
An upper shielding film attaching step of attaching the upper shielding film 120 to the upper part of the lower casing 110 and surrounding the upper piercing hole 32;
An intermediate screening step of installing the intermediate screening membrane 130 so as to surround the periphery of the upper bridge pillar 32 and closing the periphery of the lower casing 110 or the upper screening membrane 120;
A drilling step of drilling a lift hole in the pier 30 using the core drill 1 in the lower casing 110 or the upper slit 120;
A cutting step of cutting the pier 30 within the lower casing 110 or the upper shroud 120;
A lifting step of lifting the bridge pier 30 by a lifting member 5;
A carrying and unloading step of carrying and unloading the salvage bridge 30;
Characterized in that it comprises:
The method according to claim 6,
And an upper shatter preventing work portion 150 formed on the upper shingling film 120 and the upper piercing hole 32 to have a working space therein and to prevent scattering dispersion,
The perforating step
Wherein hydraulic pressure is applied by a compressor provided in the upper anti-scattering operation unit (150) to bore a hydraulic core lifting hole in the bridge pier (30).
The method according to claim 6,
The cutting step
Wherein a DWS (Diamond Wire Saw) cutting operation is performed on the bridge pier (30) by using the DWS cutter (2).
The method according to claim 6,
A cutting water processing step of processing the cutting water after the cutting step
Further,
The cutting water processing step
Injecting cutwater collected inside the lower casing 110 or the upper screen 120 by a pump into a settling tank 6 disposed outside the pier 30;
Separating the sludge by injecting the number of cuts injected into the settling tank 6 into the filter press 7;
Recycling or wastewater treatment of the separated water separated from the sludge
Characterized in that it comprises:
The method according to claim 6,
The lifting member (5)
A plurality of wires (3) fastened to the lifting holes formed in the bridge piers (30);
A hook 4 to which the plurality of wires 3 are fixed;
Characterized in that it comprises:

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