KR200234517Y1 - A reinforcement structure for abutment of a bridge - Google Patents

Abstract

The present invention relates to the alternating reinforcement structure of the bridge, the reinforcement structure (2) is built to be able to stably support the shift (1), the reinforcement structure (2) has a certain distance in front of the alternator (1) The block structure 3 is fixedly installed in an upright state, and a nonwoven fabric 4 is attached to the rear surface of the block structure 3, and ground reinforcement is provided in the space between the block structure 3 and the shift 1. The fiber 5 is installed to be stacked, the lower surface of the ground reinforced fiber 5 and one side of the alternating foundation 6 is connected via a plurality of angles (7), the upper portion of the ground reinforced fiber (5) Soil cement (8) is laminated on the surface, the backfill material (9) can be filled in the space between the upper portion of the soil cement (8) and the alternating (1), it is possible to stably support the shift It can increase the durability of the whole bridge and prevent ground subsidence and fall of structures. It will cost to ensure the castle.

Description

A reinforcement structure for abutment of a bridge}

The present invention relates to a bridge reinforcement structure, and more particularly to a bridge reinforcement structure to prevent backfill soil loss or ground subsidence by supporting shifts affected by rivers or groundwater in a more solid state. will be.

In general, the bridges and bridges are structures that support the upper structure of the bridge, which is called the substructure of the bridge. The bridges are similar to the retaining wall design when they are designed at both ends of the bridge to support earth pressure and transfer vertical loads to the ground. Usually, the shift is to transmit the vertical and horizontal loads from the upper part to the ground, and to resist the earth pressure acting on the back and to withstand the hydraulic and horizontal loads.

That is, the general structure of the shift, as shown in Figure 1, is formed on the upper portion of the alternating 101 to support one end of the bridge, and is installed in the rear of the support (102) Supporting the upper part of the back festival, the chest wall 103 to prevent the soil from collapsing to the support 102, and the lower portion of the chest wall 103 to transfer the entire load from the upper structure to the foundation, It is a structure consisting of a body 104 to be resisted, and an alternating foundation 105 to enlarge the lower portion of the body 104 to distribute the load to the foundation ground to increase the safety of the alteration 101.

Here, since the vertical force and the horizontal force act on the shift 101, the shift 101 is a kind of retaining wall which receives the vertical and horizontal loads, and therefore, the earth pressure should be calculated by the earth pressure theory and examined to ensure that all stability conditions are satisfied. Stability conditions include stability against overturning, stability against sliding and stability against settlement.

However, in a bridge affected by rivers or groundwater, a block structure is constructed on one side of the shift 101 in order to satisfy the above stable conditions. Unlike the general retaining wall, the block structure is provided with a gap between the block and the block. There is a defect that the backfill soil of the back is disturbed and lost, and also the upper ground subsidence, but the block structure is inadequate to support the shift 101 more stably.

Therefore, the present invention was devised in view of the above-mentioned circumstances, and it is possible to support the shifts affected by rivers or groundwater in a more solid state, so that the bridge reinforcement structure of the bridges that can prevent the backfill soil loss or ground subsidence is prevented. The purpose is to provide.

The present invention for achieving the object of the above, the fixed structure in a state in which the block structure is upright at a predetermined distance in front of the alternating, non-woven fabric is attached to the back of the block structure, alternately with the block structure Ground reinforcing fibers are installed to be stacked in the interspace, one side of the ground and alternating foundations of the ground reinforcing fibers are connected through a plurality of angles, the soil cement is laminated on the upper surface of the ground reinforcing fibers, the soil It is the structure that the backfill material can be filled in the space between the upper part of cement and the shift.

That is, the reinforcement consisting of a block structure and ground reinforcing fibers and soil cement in front of the shift is built, the backfill is filled through the reinforcement can be more stable to support the shift affected by the river or groundwater.

Therefore, by being able to stably support the shift as described above, it is possible to enhance the durability of the entire bridge, it is possible to prevent the ground subsidence or fall of the structure to ensure its stability.

1 is a state diagram showing the rotation of a general bridge,

Figure 2 is a state diagram showing the alternating reinforcement structure of the bridge according to the present invention.

Explanation of symbols on the main parts of the drawings

1: Shift 2: Reinforcement structure

3: block structure 4: nonwoven fabric

5: ground reinforcing fiber 6: alternating foundation

7: angle 8: soil cement

9: backfill

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

Figure 2 is a state diagram showing the alternating reinforcement structure of the bridge according to the present invention, the reinforcement structure (2) is built to be able to stably support the shift (1), the reinforcement structure (2) is alternating (1) The block structure 3 is fixedly installed at a predetermined distance in front of the block structure, and a nonwoven fabric 4 is attached to the rear surface of the block structure 3, and the block structure 3 and the alternating portion 1 are installed. Ground reinforcing fiber (5) is installed to be laminated in the space between, the lower surface of the ground reinforcing fiber (5) and one surface of the alternating foundation (6) is installed via a plurality of angles (7), the ground reinforcement Soil cement (8) is laminated on the upper surface of the fiber (5), the backfill material (9) can be filled in the space between the top of the soil cement (8) and the alternating (1).

In this case, the reinforcing structure (2) is characterized in that the non-woven fabric (4) is installed on the back surface of the block structure (3), the ground reinforcing fibers (5) in the space between the block structure (3) and the alternating foundation (6) ) And the small cement (8) are laminated, the ground reinforcing fiber (5) is to be fixed by the anchor bolt is inserted into the alternating base (6) via a plurality of angles (7).

In other words, the reinforcement consisting of the block structure (3), ground reinforcing fiber (5) and the soil cement (8) is built in front of the shift (1), the backfill material (9) is filled through the reinforcement to the river or The shift (1) affected by groundwater can be more stably supported.

That is, the nonwoven fabric 4 is installed on the rear surface of the block structure 3 to prevent rivers or groundwater penetrating through the block and the block, and to prevent settlement of the backfill material 9 made of earth and sand. After stacking the ground reinforcing fibers 5 and the soil cement 8 in the rear of the block structure (3), the backfill material (9) is to be filled in the upper portion.

In addition, the reinforcing structure 2 may be integrated by stacking the mortar or the small cement 8 as described above, and may be uniform in the vertical direction with respect to one side of the ground reinforcing fiber 5 and the surface of the alternating foundation 6 contacted thereto. Each of the angles 7 is fixedly installed at intervals, and the anchor bolt is inserted into the angles 7 so that the ground reinforcing fibers 5 can be connected to the alternating foundation 6.

Therefore, the reinforcement structure 2 prevents the outflow of fine-grained sediment that occurs when water penetrates into the back of the block structure 3 when the water level rises in the stream, and water exits when the water level falls. The ground subsidence and deformation due to the weakening of 9) can be prevented in advance, and the ground reinforcing fiber 5 is integrated with the alternating base 6 through the angle 7 and the anchor bolt, thereby preventing ground disturbance and stoppage. Repeated unstable structures can be maintained in a more stable structure.

As described above, according to the alternating reinforcement structure of the bridge according to the present invention, by supporting the shift stably, the durability of the entire bridge can be improved, and the ground subsidence or fall of the structure can be prevented. The effect is to ensure stability.

Claims (1)

The block structure (3) is fixedly installed in an upright state at a predetermined distance in front of the shift (1), the nonwoven fabric (4) is attached to the back of the block structure (3), and the block structure (3) and Ground reinforcing fiber (5) is installed to be laminated in the space between the alternating (1), the lower surface of the ground reinforcing fiber (5) and one side of the alternating foundation (6) is installed through a number of angles (7) Soil cement (8) is laminated on the upper surface of the ground reinforcing fiber (5), the backfill material (9) of the bridge to be filled in the space between the upper portion and the alternating (1) of the soil cement (8) Alternate reinforcement structure.