KR100341856B1 - Method of embanking in shore - Google Patents

Abstract

The present invention relates to a revetment construction method of river banks, the present invention arranges the reinforcing structure 24 horizontally at the lower end of the bank inclined surface, the reinforcing bar 22 is vertically spaced at a suitable equal intervals After fixing to extend in the direction, the process of forming the foundation concrete 20 by pouring concrete first so that the lower end portions of the reinforcing structure 24 and the reinforcing bar 22 are buried, and after the sloping surface is evenly chopped, the foundation concrete ( A process of combining the rake block 10 from the bottom to the design height with one side of 20) as a reference point, and the rake combined at the bottom of the inclined surface by bending the top of each of the reinforcing bars 22 protruding from the foundation concrete 20. Penetrating the ground through the block 10, the second layer of concrete so that the reinforcing reinforcing bar 22 is buried in a range including a lower portion of the lower surface of the raft block 10 and the upper surface of the foundation concrete 20 Lower Reinforcement structure 44 provided horizontally by penetrating the reinforcing bar 42 bent in the raft block 10 corresponding to the upper floor after the process of supporting the raft block 10, and digging evenly to place the top concrete And a step of arranging and fixing the same at regular intervals, and placing the concrete in a range including both the upper surface portion of the upper surface of the raft block 10 and the reinforcing structure 44 to support the raft block 10 of the upper layer. As a result, since the foundation concrete 20 and the upper concrete 40 is connected as a result, the foundation concrete 20 is not settled even during construction on the soft ground, and thus the raft block 10 ) To prevent the separation and loss of the dike has the effect of preventing the collapse of the dike.

Description

River bank embankment construction method {Method of embanking in shore}

The present invention relates to a revetment block constructed on the inclined surface of the river bank, and more particularly, to improve the construction method of the revetment block compared to the existing construction easier and to improve the bearing capacity between blocks to prevent the loss of the stream It is about the bank draft construction method of embankment.

Generally, riverbanks, rafters, drainage ditches, etc., have various shapes of revetment blocks and gabions.

Gabion is a construction method that wraps a pile of stones with wires and secures it to the ground.The air and water drainage of the soil flows smoothly between the gaps, but the appearance is not beautiful and the budget is high, and many problems such as natural destruction due to stone production There is this. In particular, in the state of being installed on the weak ground, the case of the dike is frequently avoided due to the severe flooding, avoiding the construction.

In view of such a point, in most places, a revetment block having a predetermined thickness and size is built in a uniform plane shape on the ground of an inclined bank so as to withstand external pressure. 1 shows a state in which a conventional raft block is constructed, and a conventional raft block construction method will be described with reference to this.

The revetment block 1 is an I-shaped square 400 mm long and 400 mm long and has a thickness of 100 mm or 120 mm, and a smaller rectangular protrusion 1a is formed at the center of the upper surface, and the protrusion 1a is a worker in embankment work. To play a role of scaffolding, the side is inclined at a predetermined height. In addition, grooves 1b having a predetermined depth are formed on both side surfaces of the block 1, and thus, the block 1 may be combined in a zigzag form.

If the block 1 having such a shape is described as a method of constructing a planar surface on the inclined surface of the embankment, the foundation concrete (2) is first constructed at the lower end of the inclined surface of the embankment to be constructed, and then the inclined surface is firmly and evenly ground. . Then, by pouring a plurality of blocks (1) on the inclined surface of the embankment using a transport vehicle, such as a forklift truck, the worker zigzag combination of the blocks (1) sequentially staggered with each other with reference to one side of the foundation concrete (2) Do it. At this time, the nonwoven fabric is laid while selecting the ground again, and the block 1 is seated and combined thereon.

After combining the respective blocks 1 in the same way as the design height in this way, the upper part of the combined block 1 is poured with concrete (3) to finish, and the lower part of the base concrete (2) by external pressure The pile of stones (4) is stacked and supported so as not to be pushed out.

However, if the construction of the raft block in this way, since the raft block (1) has a structure that is placed on the jaw of the foundation concrete (2), the foundation concrete (2) is pushed during the soft ground construction, the raft block (1) ) And the base concrete (2) were frequently separated. When the foundation concrete (2) is pushed out as described above, the combined raft block (1) is pushed down as a whole, the gap between the upper raft block (1) and the concrete of the upper (3) is created, the gap (t) is created. As rainwater flows into the gap (t) to soften the ground, all the bank blocks (1) are rapidly pushed out and lost, resulting in the collapse of the dike, which causes significant financial loss and causes of large accidents. There was.

In addition, the slope is damaged in the process of applying the revetment block (1) to the inclined surface, the worker is moving directly by one to combine the revetment block (1), so the labor costs are increased, the construction cost is high, the construction period is long there was.

The present invention has been made to solve the various problems as described above, the object is to connect the basic concrete and the upper concrete part to improve the bearing capacity of the raft block is the raft block is separated and lost by sedimentation or external pressure of the ground It is to provide a river bank revetment construction method that can prevent and prevent the protection of the banks, simply and quickly.

In order to achieve the above object, the present invention arranges the reinforcing structure horizontally at the lower end of the embankment inclined surface, and secures the reinforcing bars extending in the vertical direction with appropriate equal intervals on the reinforcing structures, and then the lower parts of the reinforcing structures and the reinforcing bars are The process of forming the foundation concrete by pouring concrete first to be buried, the process of combining the relief block from the bottom to the design height by using one side of the foundation concrete as a reference point after evenly sloping the inclined surface, and each reinforcing bar protruding from the foundation concrete Bending the top of the penetrating into the ground by penetrating the raft block combined at the bottom of the inclined surface, and secondly placing the concrete so that the reinforcing bar is buried in the range including the lower part of the raft block forming the lower layer and the upper surface of the foundation concrete The process of supporting the lower banks and the place to pour the upper concrete After evenly chopped, the process of fixing the array at equal intervals to the rebar structure provided horizontally by penetrating the reinforcing bars in the upper bank block corresponding to the upper layer, and the concrete in the range including both the upper surface portion of the upper bank block and the reinforcement structure Provides a revetment construction method of the river bank, characterized in that made of a process of supporting the upper banks of the raft block by pouring.

In addition, the present invention is to arrange the reinforcement structure horizontally at the bottom of the slope of the embankment, and fixed the reinforcement to extend in the vertical direction with a suitable equal interval to the reinforcement structure, the concrete so that the reinforcement structure and the lower end of the reinforcement is buried 1 The process of forming the foundation concrete by sequencing and evenly sloping the inclined surface, and combines the raft block from the bottom to the design height with one side of the foundation concrete as a reference point, but the half-length raft combined at equal intervals in the upper raft block Omitting blocks to form a space, and bending the upper end of each of the reinforcing bars protruding from the foundation concrete, penetrating the raft block combined at the bottom of the inclined surface to be embedded in the ground, part of the lower surface of the raft block forming the lower layer Concrete so that the protruding reinforcing bar is buried in the range including the upper surface of the concrete Provides a bank embankment construction method of the river bank, characterized in that consisting of the second step of the process of supporting the lower banks of the raft block, and the third process of concrete to include the respective space portion at the top of the bank of the banks corresponding to the upper floor. do.

1 is a side view showing a state in which a conventional revetment block is constructed,

Figure 2 is a side view showing a state in which a large revetment block according to the invention construction,

3 is a perspective view showing a state in which a large revetment block according to the present invention is constructed,

4 is a perspective view showing another embodiment of the present invention.

◎ Explanation of symbols for main part of drawing

10: raft block 11: protrusion

12: depression 13: drain hole

14: groove 15: locking groove

20: foundation concrete 22: rebar

24: Reinforced structure 30: Concrete for protection of foundation shore block

40: upper concrete 42, 43: rebar

44: reinforced structure 50: space part

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

2 and 3 are a side view and a perspective view showing a state in which a large revetment block according to the present invention is constructed.

When described with reference to this, the raft block 10 used in the present invention is a large raft block 10 is used to have a sufficient weight compared with the prior art, the raft block 10 is a type I of 1000mm horizontal, 1000mm vertical. It is rectangular with a thickness of 120mm. In addition, a smaller rectangular protrusion 11 is formed at the center of the upper surface to serve as a foothold for the worker in the embankment operation, and a rectangular footrest is formed at a portion that is combined when the revetment blocks 10 are combined with each other at the upper edge. Protruding portions 11 are formed to form a part of a quadrangle, the protrusions 11 have a predetermined height and the side is inclined. In addition, four depressions 12 are formed between the protrusions 11 so that the operator can use them as scaffolding, and the drainage holes 13 penetrate the lower portions of the two depressions 12 located below. This drain hole 13 not only facilitates the drainage of the fish water in the soil, but also helps the air flow into the soil, and provides a space for the plant to take root, thereby allowing the plant to grow, thereby further enhancing the natural beauty of the dike. And improves soil cohesion. In addition, as described below, before pouring the upper and the foundation concrete, it is possible to penetrate the reinforcing bar to perform a solid construction. In addition, grooves 14 having a predetermined depth are formed on both sides of the revetment block 10, and thus the revetment block 10 may be combined in a zigzag form. In addition, the locking groove 15 is formed in the middle portion of the recess 14 to lift the revetment block 10 using a forceps.

When the construction method to plan the construction on the inclined surface of the river bank with a rake block 10 having such a shape, first, the reinforcing structure 24 in the formwork for installing the foundation concrete 20 on the bottom of the bank inclined horizontal After the arrangement, the plurality of rebars 22 are fixed to extend in the vertical direction at appropriate equal intervals in the reinforcing bar structure 24.

Next, the concrete is first poured so that the lower ends of the reinforcing structures 24 and the reinforcing bars 22 are formed to form the foundation concrete 20. At this time, the reinforcing bar 22 is preferably placed so as to rise up to about 400mm ~ 600mm above the base concrete 20.

After installing the foundation concrete 20 as described above, the slope of the embankment is firmly and evenly chopped, and a plurality of raft blocks 10 are unloaded at one side of the embankment using a transport vehicle such as a forklift. And, as a reference point to one side of the base concrete 20, the rake block 10 is combined from the lower layer to the design height staggered from each other sequentially. Of course, the upper layer and the lower layer will be parallel to the end line by using a half-length revetment block (10). Here, the drain hole 13 formed in the revetment block 10 is combined to face downward, and the retreat block 10 located at the top is reversely combined so that the drain hole 13 is directed upward. In addition, the worker works while holding the locking groove (10) of the raft block 10 with the tong equipment to move to the desired position, and the ground is good before laying the combination of the raft block (10) After confirming, lay the nonwoven fabric and combine the rest block 10.

When the construction is completed up to the upper banks (10), the upper end of each of the reinforcing bar 22 protruding to the foundation concrete 20 through the drain hole (13) formed in the banks of the banks (10) to form a lower layer to drive the ground Fix it. And, by installing the formwork on the outside and the bottom of the raft block 10 constituting the lower layer and the concrete reinforcement so that the reinforcing bar 22 protruding in the range including a portion of the upper surface of the foundation concrete 20 to be buried the foundation bank block The protective concrete 30 is to be formed. Here, it is preferable that the basic protection block protection concrete 30 covers about one third of the protection block 10 formed in the lower layer.

After the completion of the secondary concrete for forming the basic protection block protection concrete 30 is completed, the upper concrete 40, such as digging a portion of the bottom surface of the protection block 10 to form the upper layer by using a fork crane, etc. To make room for them.

Then, after passing through the reinforcing bar 42 bent in the drain hole 13 provided in the upper banks (10) to be fixed at equal intervals in the horizontally provided rebar structure 44, the upper banks (10) Part 3 and reinforcement of the concrete so that the reinforcing 42 is buried to form the upper concrete 40 so that the revetment block 10 is more firmly supported from each other. Here, the upper concrete 40 is also preferably to surround the upper surface 1/3 of the upper revetment block (10).

On the other hand, occasional gaps in the seam may be filled with concrete.

On the other hand, when constructing a soft ground, as shown in the figure may be piled up an appropriate amount of rubble 4 on one side of the foundation concrete 20 in order to more firmly support the foundation concrete 20.

If the construction of the raft block by this method, because the concrete wraps about 1/3 of the top and bottom of the combined raft block 10 can be obtained by pressing the raft block 10 from both sides, so the raft block (10) are firmly connected and combined with each other. In addition, since the base concrete 20 and the concrete 40 and the raft block 10 of the top can be connected to each other to obtain an integral effect, as long as there is no settlement and loss of the top concrete 40, the base concrete 20 The sinking and pushing out of the phenomenon does not occur, and thus the raft block 10 is separated and prevented from being lost.

In addition, since the foundation concrete 20 and the upper and lower concrete (30, 40) and the revetment block 10 is connected by a plurality of rebars (22, 42), a more robust construction is made, the middle revetment block (10) Since it is also in the state of pulling from the bottom and pulling from the bottom, once constructed it can be used semi-permanently without loss of the raft block (10).

Meanwhile, referring to FIG. 4, another embodiment of the present invention is illustrated. Referring to this, only the point of not planting the reinforcing bar 42 when the upper layer of the combined revetment block 10 is poured into concrete is different. Since the construction method is the same as in the above embodiment, only different points will be described below.

When combining the lower banks 10 from the lower layer sequentially to the design height, the combination of the half-length banks 10 to the upper banks of the banks (10) forming the upper layer, the half-bills of the banks 10 (10) As much space 50 is formed at equal intervals. Next, after arranging the reinforcing structure 44 horizontally, a plurality of reinforcing bars 43 are fixed to the reinforcing structure 44 at appropriate equal intervals along the longitudinal direction, and the other side is extended to the space 50. To place. And, by pouring the concrete three times to include the space portion 50 at the upper end of the combined upper layer banks 10, to form the upper concrete 40 so that the bearing capacity between the banks 10 (10).

In such work, the installation of the reinforcing structure 44 and the reinforcing bar 43 may be omitted where the ground is hard and good.

Since the upper concrete 40 can obtain the effect of pressing the upper layer bank block 10 from both sides, the bank of the bank block 10 is coupled to each other firmly connected to each other is separated and lost by the external pressure block 10 block The case does not occur.

As described above, in the present invention, since the concrete is placed on the upper and lower portions of the combined revetment block between the foundation concrete and the lower revetment block and between the upper concrete and the revetment block of the upper layer, no gap is generated. It is firmly connected and supported to prevent the loss of the guard block due to water pressure or external pressure during ground subsidence or flooding. Also, since the guard block is about 7 times the size and weight of the existing block, the stable block seated on the ground Silver is not easily pushed by the external pressure in proportion to the weight, and the drain hole formed in the product smoothly drains the water formed on the bank side, thereby improving the bearing capacity of the revetment block. Because of this, the combined raft block can be used semi-permanently, and has the effect of preventing disaster by preventing the collapse of the embankment due to the loss of the raft block.

In addition, since each piece of rake block is picked up and installed using a fork crane or a crane, there is no damage of the slope when constructing the rake block, so there is no waste of time due to the work of selecting the slope again, and the worker is not tired even after working for a long time. Work is streamlined. In addition, since the construction area is about 7 times at a time compared to the prior art, the working time is shortened, and the construction period can be shortened.Because the budget saving and the basic protection stone can be unnecessary or drastically reduced due to the easy work process, much budget is saved. Get the effect.

Claims (4)

The rebar structure 24 is arranged horizontally at the lower end of the embankment slope, and the reinforcing bar 22 is fixed to extend in the vertical direction at appropriate equal intervals on the reinforcing bar 24, and then the reinforcing bar 24 and the reinforcing bar are fixed. Forming the base concrete 20 by first pouring concrete so that the lower end portion of the 22 is buried; After evenly sloping the inclined surface, the step of combining the rake block 10 from the bottom to the design height with one side of the base concrete 20 as a reference point; The upper end of each of the reinforcing bars 22 protruding from the base concrete 20 is penetrated into the ground by penetrating the raft block 10 combined at the bottom of the inclined surface, and the lower portion of the raft block 10 to form a lower layer and Secondary casting of concrete to bury the protruding reinforcing bars 22 in a range including an upper surface of the foundation concrete 20 to support the lower banks of the rake block 10; Digging the place where the upper concrete is to be poured and chopped evenly, penetrating the reinforcing bar 42 bent in the revetment block 10 corresponding to the upper layer, and fixing the arrays at equal intervals to the rebar structure 44 provided horizontally; Restoration construction method of the river bank, characterized by consisting of the process of pouring the concrete in the range including both the upper portion of the raft block 10 and the reinforcement structure 44 of the upper layer to support the raft block 10 of the upper layer. According to claim 1, wherein each of the revetment block 10 to form a plurality of drain holes 13 on one side so that the reinforcing bars (22, 42) penetrates the revetment block (10) so that the drain hole 13 is located at the bottom Combined, but the revetment construction method of the river bank, characterized in that the reverse bank is assembled so that the drain hole 13 is located at the top in the raft block 10 forming the upper layer The rebar structure 24 is arranged horizontally at the lower end of the embankment slope, and the reinforcing bar 22 is fixed to extend in the vertical direction at appropriate equal intervals on the reinforcing bar 24, and then the reinforcing bar 24 and the reinforcing bar are fixed. Forming the base concrete 20 by first pouring concrete so that the lower end portion of the 22 is buried; After evenly sloping the inclined surface, combines the raft block 10 from the bottom to the design height with one side of the base concrete 20 as a reference point, the half-length raft combined at equal intervals on the raft block 10 constituting the upper layer Omitting the block 10 so that the space 50 is formed; The upper end of each of the reinforcing bars 22 protruding from the base concrete 20 is penetrated into the ground by penetrating the raft block 10 combined at the bottom of the inclined surface, and the lower portion of the raft block 10 to form a lower layer and Secondary casting of concrete to bury the protruding reinforcing bars 22 in a range including an upper surface of the foundation concrete 20 to support the lower banks of the rake block 10; Revetment construction method of the river bank, characterized in that consisting of the third step of pouring concrete to include the respective space portion 50 at the upper end of the raft block 10 corresponding to the upper floor. 4. The reinforcing structure 44 is arranged horizontally in the rake block 10 corresponding to the upper layer, and the reinforcing structure 44 is provided at equal intervals. The revetment construction method of the river bank, characterized in that the reinforcing bar 43 is extended to the space portion 50 to be disposed.