KR20060034611A - Reinforcing strip for supporting reinforced earth wall and its placement method - Google Patents

Abstract

Disclosed are a reinforcing strip for supporting a reinforced earth wall and a method for placing the same. A front end (F) of the reinforcing strip 10 is folded into halves and inserted into a reinforcing strip insertion groove 22 formed in a block 20 forming the surface of the reinforced earth wall so that the reinforcing strip 10 is directly connected to the earth wall construction block 20 without an anchor or an anchor pin, and a plurality of the reinforcing strips 10 are continuously or installed in a reinforced earth 50 in a zigzag shape, or individually buried under the reinforced earth 50 . When a plurality of the reinforcing strips 10 are continuously installed in the reinforced earth 50 in the zigzag shape, rear ends (R) of the reinforcing strips 10 are buried under the reinforced earth 50 under the condition that the rear ends (R) are folded into halves or are erected. A folding groove 16 is formed in a central portion of the reinforcing strip in the lengthwise direction so that the central portion of the reinforcing strip 10 has a smaller thickness than other portions of the reinforcing strip 10 , thereby allowing the front end to be folded into halves and inserted into the reinforcing strip insertion groove 22 of the block 20.

Description

Reinforcing strip for supporting reinforced earth wall and its placement method}

1 is a perspective view and a partially enlarged view showing the structure of a strip-shaped fiber reinforcement according to the present invention,

Figure 2 is a perspective view showing a first embodiment of the construction method of the strip-shaped fiber reinforcement according to the present invention,

Figure 3 is a perspective view showing a second embodiment of the construction method of the strip-shaped fiber reinforcement according to the present invention,

Figure 4 is a perspective view showing a third embodiment of the construction method of the strip-shaped fiber reinforcement according to the present invention,

Figure 5 is a perspective view showing a fourth embodiment of the construction method of the strip-shaped fiber reinforcement according to the present invention,

Figure 6 is an enlarged perspective view showing the connection portion with the block in the construction method of the strip-shaped fiber reinforcement according to the present invention,

7 is a plan view showing a fifth embodiment of the construction method of the strip-shaped fiber reinforcement according to the present invention;

8 is a perspective view showing a sixth embodiment of the construction method of the strip-shaped fiber reinforcement according to the present invention;

9 is a perspective view showing a seventh embodiment of the method for constructing a strip-shaped fiber reinforcement according to the present invention;

10 is a plan view showing a conventional band-shaped fiber reinforcement construction state.

* Explanation of symbols for main parts of the drawings

10: strip type fiber reinforcing material 12: polyester fiber bundle

14 polyethylene coating layer 16 folded groove

18: Length indication protrusion F: Tip part

R: rear end 20: retaining wall construction block

22: reinforcement insert groove 30: temporary fixing nail

40: resistor 42: fixed pin

50: reinforced earth 60: protective equipment

70: up and down connecting pin

The present invention relates to a method of constructing a band-shaped fiber reinforcement for supporting prefabricated reinforcement earth retaining wall, and a band-shaped fiber reinforcement used in the method, and particularly, a reinforcement insert formed in a retaining wall block by folding the tip portion of the band-shaped fiber reinforcement without an anchor and an anchor pin in half width. Direct connection to the groove creates a firm connection, reduces the consumption of subsidiary materials such as anchors and anchor pins, simplifies the connection process, and does not cause loosening of the reinforcement tip and stress concentration. The band-shaped fiber reinforcement embedded in the reinforcement soil is installed in full-stretched state to exert friction support with the reinforcement soil, and the rear end of the fiber reinforcement material is added to the front friction force to provide passive bearing resistance. It was to be able to exercise.

FIG. 10 is a plan view showing the construction of a general prefabricated reinforcement retaining wall constructed using a retaining wall building block and a strip-shaped fiber reinforcing material, and a tip portion of the strip-shaped fiber reinforcing material 2 for supporting the block 1 forming the front surface of the retaining wall. (F) is connected to the block (1) by the anchor (3) and the anchor pin (4) and the remaining portion is made of a structure that is embedded in the expanded state in the reinforcement soil (5).

On the other hand, in the typical prefabricated earth retaining wall using the conventional band-shaped fiber reinforcement as described above, the anchor 3 and anchor pins 4 for connecting the band-shaped fiber reinforcement 2 and the block 2 are installed at every connection part. Since the quantity was at least several times as large as the number of blocks, the cost of the subsidiary materials was not only a big burden, but also in the connection work, the tip portion F of the strip-shaped fiber reinforcement 2 was connected to the anchor pin 4. As it is wrapped and connected, it is pulled tightly to have a small radius of curvature so that the folded portion does not stretch, and then the band-shaped fiber reinforcement (2) can be kept in a pulled state without being loosened until the reinforcement soil (5) is laid thereon. There was a problem that additional subsidiary materials were required because it had to be fixed to the rear end (R) of the temporary fixing bar (6) and the fixing pile (7). These subsidiary materials are buried in the reinforcement soil (5) during the construction of the retaining wall, so they cannot be reused, resulting in waste of resources as well as an increase in construction cost. Not only did people have to be mobilized at the same time, but it was very hard to grasp and pull the band-shaped fiber reinforcement by hand, and the work to temporarily fix it on the reinforcement body while pulling the reinforcement was inefficient, and it acted as a deterioration factor of the constructability of the prefabricated retaining wall.

In addition, since the conventional band-shaped fiber reinforcement has a rigid structure for the fluidity of the up and down connection with the block itself, a large displacement of the retaining wall surface of the structure, that is, the block according to the settlement of the reinforcement soil occurred after construction. There was a problem that the tip of the fiber reinforcement has a small radius of curvature and stress is concentrated after the completion of construction, and connection materials of different shapes or dimensions should be used depending on the size and shape of the connection portion between the block and the fiber reinforcement. Therefore, there was a problem that the construction efficiency as well as the burden of the construction cost due to the addition of subsidiary materials, and when using these connecting materials had to make a lot of efforts to secure the safety of the connection structure between the block and the reinforcement.

In addition, the conventional strip-shaped fiber reinforcement has a relatively wider width than the size of the block has a problem of forming an unstable structure because the laying density of the fiber reinforcement is low compared to the size and number of blocks constituting the retaining wall wall.

In order to solve the above problems, the present applicants pull various types of reinforcing material pulling mechanisms and reinforcing material pulling devices using the principle of the joist to pull the wire so that the above-mentioned fiber-shaped fiber reinforcement can be easily and efficiently pulled alone. Developed the construction method and acquired the patent No. 302139, No. 404128 and Utility Model Registration No. 216353, Registration No. 21457, Registration No. 221903, Registration No. 223133, Registration No. 314862, and actually installed them. It is applied to the field.

Nevertheless, in the structure of the installation of the band-shaped fiber reinforcement of the existing prefabricated reinforcement retaining wall as described above, pulling of the reinforcement can be performed more easily and quickly, but the band-shaped fiber reinforcement such as anchors, anchor pins and temporary fixing reinforcing bars The problem of excessive demand for subsidiary materials for connecting and maintaining the pulled state before reinforcement of reinforcement is still pointed out. However, no clear improvement has been developed yet.

The present invention has been made in order to solve the above-mentioned conventional problems, an object of the present invention is to build a prefabricated reinforced soil retaining wall using a block and a band-shaped fiber reinforcement, the belt-shaped fiber reinforcement for supporting the retaining wall construction block Directly connected to the retaining wall construction block without anchor and anchor pin, and can be firmly supported by the continuous installation or separately installed in the zigzag state in the reinforcement soil, and can meet the size and quantity of blocks constituting the retaining wall. The present invention provides a method for constructing a prefabricated reinforcement earth retaining wall supporting strip-shaped fiber reinforcement which may have a density of laying, and a strip-shaped fiber reinforcement of a type suitable for the construction method.

In order to achieve the above object, the present invention is a band-shaped fiber reinforcement to the stiffener insertion groove of the block constituting the prefabricated reinforcement retaining wall surface is continuously connected in a zigzag or individually connected, the fiber reinforcement is inserted into the reinforcement insert groove of the block It provides a construction method of the prefabricated reinforcement soil retaining wall support belt-shaped fiber reinforcement is embedded in the folded portion is connected in a half-width folded state, the remaining portion is embedded in the reinforcement soil in the expanded state.

In the stiffener installation structure of the present invention, the rear end portion of the stiffener installed in the zigzag is folded in the width direction so that the folded portion is temporarily fixed to the reinforcement soil by temporary fixing nails (or temporary fixing rebars) or fixed pins to resistors made of concrete blocks. It is embedded in reinforcement soil in the fitted state, or erected in a half-width folded state in its longitudinal direction, and is installed in various structures such as being embedded in reinforcement soil or being fitted with a fixing pin to a resistor.

The present invention also provides a strip-shaped fiber reinforcement suitable for the above-described construction method, wherein a plurality of polyester fiber bundles are arranged in parallel in the longitudinal direction and a coating layer formed of polyethylene resin on the outside thereof. It provides a prefabricated reinforcement earth retaining wall support belt-shaped fiber reinforcement formed with a folded groove so that the coating layer of the middle portion along the longitudinal direction of the thinner than the other portion.

Preferably, the folding grooves are formed on both the front and the rear surfaces of the strip-shaped fiber reinforcement to facilitate folding of the fiber reinforcement halfway upward or downward along the longitudinal direction.

More preferably, the strip-shaped fiber reinforcement is formed along the width direction of the strip-shaped fiber reinforcement along the width direction of the strip-shaped fiber reinforcement at a predetermined interval such as 50 centimeters or 1 meter to measure the length of the reinforcement without using a ruler. It is convenient for cutting the reinforcement or folding it to a certain length.

Hereinafter, with reference to the accompanying drawings, preferred embodiments that do not limit the present invention will be described in detail.

1 is a perspective view and a partially enlarged view showing the structure of the strip-shaped fiber reinforcement according to the present invention, the strip-shaped fiber reinforcement 10 of the present invention is a plurality of polyester fiber bundles 12 are arranged in parallel and the polyethylene outside the In the strip-shaped fiber reinforcement having the coating layer 14 formed thereon, a fold groove 16 is formed to have a thickness thinner than that of other portions along the longitudinal direction of the strip-shaped fiber reinforcement 10, and 50 centimeters along the length direction. Alternatively, the linear length display projections 18 are formed in the width direction of the strip-shaped fiber reinforcing material at a predetermined interval such as 1 meter.

In the present invention, the strip-shaped fiber reinforcing material 10 has a polyester fiber bundle 12 having the same quantity on both sides of the left and right sides of the folding groove 16, as shown in the drawing. ) Is to be overlapped by half width, and the reason why the belt reinforcement (10) is made to overlap by folding in half width is that the fiber reinforcement (10) is inserted into the reinforcement insertion groove (22) of the retaining wall construction block (20). In order to be able to insert directly, the overall width and thickness of the strip-shaped fiber stiffener 10 is associated with the dimensions of the stiffener insertion groove 22 of the block 20, so this should be taken into account when designing the block and stiffener.

The band-shaped fiber reinforcement 10 of the present invention is not limited to the form shown in Figure 1, that is, polyester fiber bundle 12 is disposed on each side of each of the two folded grooves 16, less or more than that Of course, it can be produced.

In the present invention, the folding groove 16 is formed on both the front and the back of the belt-shaped fiber reinforcement 10 to be folded by easy to fold in half width toward the top or bottom in the longitudinal direction of the fiber reinforcement 10 Regardless of direction, you can improve your immediate work in the field.

The length display protrusion 18 is linearly formed along the width direction of the fiber stiffener at a predetermined interval, such as 50 centimeters or 1 meter along the longitudinal direction of the fiber stiffener 10, so that it can be easily identified with the naked eye. At the site of reinforcement installation, the operator can cut the reinforcement or fold it by a certain length by quickly and accurately measuring the length of the fiber reinforcement by looking at this length indicator projection 18 without using a separate ruler to measure the length of the strip-shaped fiber reinforcement. It is to ensure that.

Various construction methods for supporting the assembled reinforcement retaining wall block using the band-shaped fiber reinforcement of the present invention configured as described above will be described.

2 to 5 show various embodiments of the reinforcement construction method of the present invention, in the embodiment shown in Figure 2 in the band-shaped fiber reinforcement in the reinforcement insert groove 22 of the block 20 forming the retaining earth retaining wall surface The tip portion (F) of (10) is fitted in a half-width folded state and is installed in a zigzag state in the reinforcement soil (50), each tip portion (F) is in the reinforcement insertion groove 22 of the adjacent block 20 It consists of a structure that is installed in succession one by one.

In addition, in the present embodiment, the rear end portion (R) of the strip-shaped fiber reinforcement 10 is folded in half width along the longitudinal direction and the temporary fixing nail (30) that is embedded in the reinforcement soil 50 so that the folded portion can maintain its shape. Reinforced soil is covered and compacted again in the fixed state.

On the other hand, Figure 6 is an enlarged view of the connection portion with the block in the band-shaped fiber reinforcement construction method of the present invention, 60 denotes the front end portion (F) of the reinforcing member 10 folded in half width along the longitudinal direction of the block 20 A c-shaped protector molded of synthetic resin for use when fitting into the reinforcing member insertion groove 22, the protective member 60 is the front end portion (F) of the fiber reinforcement (10) half-fold folded in the fitting groove 62 formed therein ) Is inserted to keep the reinforcing material 10 in a folded state and to prevent the loosening of the folded portion so as to be easily inserted into the reinforcing material insertion groove 22 of the block 20, and the front end portion of the fiber reinforcing material 10 It is to reduce the damage of fiber reinforcement by preventing F) from rubbing against concrete block made of rough surface.

The protective device 60 may be used as needed at the construction site or may be omitted.

The front end portion F of the reinforcement 10 is inserted into the reinforcement insertion groove 22 of the block 20, so that the fiber reinforcement 10 and the block 20 are directly connected without a separate anchor or anchor pin, inserting the reinforcement In addition to the state fitted in the groove 22, the upper and lower connecting pins 70 for the connection between the upper and lower blocks 10 are supported on the rear side of the reinforcing member insertion groove 22, so that the fiber reinforcement 10 is a block ( 20) can be more firmly supported.

3 shows a second embodiment of the construction method of the fiber reinforcement, in this embodiment, the front end portion (F) and the middle portion of the reinforcement 10 is the same as the installation structure of the embodiment shown in Figure 2, the reinforcement ( Unlike the front end portion (F) of 10) is laid in a folded state to be folded in the width direction unlike in the front end portion (F) consists of an installation structure that is embedded in the reinforcement soil 50 as it is fixed to the temporary fixing nail (30).

Figure 4 shows a third embodiment of the installation structure of the strip-shaped fiber reinforcement according to the present invention, the front end portion (F) and the middle portion of the reinforcing member 10 also in the present embodiment and the installation structure of the embodiment shown in FIG. The same, except that the rear end portion (F) of the reinforcing member 10 is fitted to the resistor 40 made of concrete or the like in the folded state in the width direction is made of an installation structure connected to the fixing pin 42.

Figure 5 shows a fourth embodiment of the installation structure of the strip-shaped fiber reinforcement according to the present invention, which is basically the same as the installation structure of the embodiment shown in Figure 3 above, the rear end of the reinforcing material 10 in the longitudinal direction In accordance with the half-width folded in the state to form a mounting structure connected to the resistor 40 is connected to the fixing pin (42).

In the method of constructing the reinforcement in FIG. 4 and FIG. 5, a separate resistor 40 is bonded to the rear end portion R of the fiber reinforcement 10 to add a passive resistance in addition to the frictional resistance of the reinforcement. Applicable to the field.

In the embodiment shown in Figures 2 to 5 described only when the strip-shaped fiber reinforcement 10 is installed in a zigzag continuous on the reinforcement soil 50, the present invention is not limited to this is shown in FIG. As described above, the strip-shaped fiber reinforcement 10 is cut to a predetermined length, and the front end portion F is folded halfway into the reinforcement insertion groove 22 of each block 20, and then the cut rear ends R are individually separated. It also includes installing in the reinforcement soil 50 in the expanded state.

In the construction method of Figure 7 is also preferably fixed to the rear end portion (R) of the fiber reinforcement (10) with a temporary fixing nail (30) in a pulled state using a manpower or a pulling mechanism at the same time.

8 and 9 are shown a sixth and seventh embodiment of the construction method of the strip-shaped fiber reinforcement according to the present invention.

In the method of constructing the reinforcement shown in Figures 8 and 9 the method of connecting the reinforcing member insertion groove 22 of the block 20 by folding the front end portion (F) of the fiber reinforcement (10) half-width along the longitudinal direction is described above. As in the first to fifth embodiments, the front end portion (F) of the fiber reinforcement (10) at the same time to the reinforcement insert grooves 22, 22 of the adjacent blocks (20, 20) at once (in the case of Figure 8), One block 20 is different in that it uses a method of hanging at the same time to the reinforcement insertion grooves 22 and 22 formed at the left and right sides.

8 and 9 in addition to the friction force of the middle portion of the reinforcing material 10 by embedding in the reinforcement soil 50 in a state in which the rear end portion (R) of the strip-shaped fiber reinforcement (10) is folded in half width along the longitudinal direction. It is possible to add passive bearing resistance, and if necessary, the rear end portion R of the fiber reinforcement 10 may be buried in the reinforcement soil 50 in a state in which the original width is set up vertically without folding in half width. have.

In the construction method of the strip-shaped fiber reinforcement according to the present invention is not limited to the first to seventh embodiment, the shape or size of the connecting portion of the fiber reinforcing end portion can be changed according to the various forms of the block forming the retaining wall, the fiber The connection method of the reinforcement is simply done by inserting the reinforcement insert into the reinforcement insertion groove of the block with the worker folding the front end of the fiber reinforcement half length along the longitudinal direction without using any additional materials. Fiber reinforcement of the state is in close contact with the reinforcement insertion groove, so there is no fear of detachment during the work, and stress concentration and reinforcement of the reinforcement at the connection part (folding part) generated when using a short metal anchor and anchor pin as in the prior art Looseness of fiber reinforcement after completion of construction of retaining wall is not occurred Irregular protrusion of the retaining wall due to the load does not occur, and in the present invention, the boundary between the folded portion inserted into the reinforcement insertion groove of the block and the expanded portion embedded in the reinforcement soil is unfolded when the folded portion of the reinforcement soil is unfolded. Or the unfolded portion is folded and prevents stress from being concentrated, and also serves as a buffer to prevent breakage of the block due to intensive vertical load of the block wall due to settlement of the reinforcement soil.

In addition, in the present invention, when the reinforcement is folded in half the width of the fiber reinforcement along the longitudinal direction or in the state of standing up to the original width without using a separate material in the rear end of the fiber reinforcement in addition to the friction force of the reinforcement itself Passive resistive force is generated at the rear end of the fiber reinforcement, which makes it possible to build a more stable and stable retaining soil retaining wall.

In addition, since the width of the fiber reinforcement is only about half the width of the existing strip-shaped fiber reinforcement, it is easy to transport and handle it in the field, and the width of the fiber reinforcement is appropriate to the size of the retaining wall construction block. The laying density can also be designed in an optimal state, so that it is possible to construct a block-reinforced earth retaining wall having a stable structure using a minimum of materials.

As described above, in the method of constructing the strip-shaped fiber reinforcement according to the present invention, the connection with the retaining wall block constituting the prefabricated reinforcement retaining wall does not use a separate anchor or anchor pin, so that the block and the strip-shaped fiber reinforcement are not added to the subsidiary material. It is possible to connect between them, and the band-type fiber reinforcement is formed when connecting and pulling the band-shaped fiber reinforcement by using the anchor. The loosening of the fiber reinforcement can be completely eliminated, and the rear end of the strip-shaped fiber reinforcement can be easily fixed on the reinforcement soil with temporary fixing nails, or when the area of the reinforcement soil is narrow or to show more solid support, It stands up and shows a resistance function by itself To it, or it reduces the separate resistor, etc., so the available improves the installation operability of the band-like fiber reinforcement for supporting the prefabricated reinforced earth retaining wall, as well as material costs and labor costs have a useful effect, such as a cost-effective installation possible.

Claims (8)

Reinforcement earth retaining wall support for prefabricated earth retaining wall, characterized in that the front end portion (R) of the band-shaped fiber reinforcement 10 is fitted in a folded state in a half width along the longitudinal direction in the reinforcement insert groove 22 of the block 20 forming the retaining wall surface. Construction method of strip type fiber reinforcement. The method according to claim 1, The strip-shaped fiber reinforcement 10 is installed in a zigzag state in the reinforcement soil 50 and its front end portion (F) is sequentially installed in the reinforcement insertion groove 22 of the adjacent block 20 in sequence Method of constructing a strip-shaped fiber reinforcement for supporting prefabricated reinforced retaining wall. The method according to claim 2, The rear end portion (R) of the strip-shaped fiber reinforcement (10) is folded in the width direction and the folded portion is fixed to the temporary fixing nail (30) that is lodged in the reinforcement soil 50 or the fixing pin (42) to the resistor 40 Construction method of prefabricated reinforcement earth retaining wall support band-shaped fiber reinforcement characterized in that it is fixed. The method according to claim 2, The rear end portion (R) of the strip-shaped fiber reinforcement (10) is built in the longitudinal direction is embedded in the reinforcement soil 50 as it is, or for the prefabricated reinforcement soil retaining wall support, characterized in that the fitting pin 42 is fixed to the resistor 40 Construction method of strip type fiber reinforcement. The method according to claim 1, The front end portion (F) of the strip-shaped fiber reinforcement (10) is independently connected to the reinforcement insert groove 22 of the block 20, the rear end (R) is characterized in that it is installed separately embedded in the reinforcement soil (50) Method of constructing a strip-shaped fiber reinforcement for supporting prefabricated reinforced retaining wall. In a band-like fiber reinforcement in which a plurality of polyester fiber bundles are arranged in parallel and coated with polyethylene resin on the outside thereof, The strip-shaped fiber reinforcement 10 is a strip-shaped fiber reinforcement for prefabricated soil retaining wall support, characterized in that the folding groove 16 is formed with a thickness thinner than the other portion of the middle portion along the longitudinal direction. The method according to claim 6, The folding groove 16 is a prefabricated reinforced soil retaining wall support belt-shaped fiber reinforcement, characterized in that formed on both the front, back surface of the band-shaped fiber reinforcement (10). The method according to claim 6 or 7, On the surface of the strip-shaped fiber reinforcement (10), prefabricated reinforcement earth retaining wall support band-shaped fiber reinforcement, characterized in that the length display projections 18 are formed at a predetermined interval.

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