KR200441783Y1 - Upholder for constructing of reinforced soil wall and slope - Google Patents

Abstract

The present invention relates to a support frame used for the construction of the reinforcement earth retaining wall and the slope is made. The present invention and the lower frame 20a for supporting the bottom surface in contact with the ground; A front frame 20b rotatably connected to a front end of the lower frame 20a and provided to have a predetermined angle with respect to the lower frame 20a; And a support frame 20c rotatably connected to the upper end of the front frame 20b and the lower frame 20a, respectively, and the support frame 20c is configured to adjust the length. According to the present invention configured as described above, since the inclination angle of the support frame can be adjusted according to the inclination angle of the fill layer, the support frame can be reused even at construction sites having different inclination of the fill layer, so that the supportability of the support frame is improved. It has the advantage of being.

Slope, greening, support frame, geotextile

Description

Reinforcement soil for retaining wall and slope construction {Upholder for constructing of reinforced soil wall and slope}

1 is a perspective view showing a support frame according to a preferred embodiment of the present invention.

Figure 2a and Figure 2b is a side view showing a state in which the support frame of the preferred embodiment of the present invention at different installation angles.

3 is a perspective view showing a support frame according to another embodiment of the present invention.

Figure 4a and Figure 4b is a side view showing a state in which the support frame of another embodiment of the present invention at different installation angles.

Figure 5 is a block diagram showing the sequence of construction using the present invention.

Figure 6 is a block diagram showing the procedure of another construction method using the present invention.

Figure 7a to 7k is a sequential diagram showing the construction step of the reinforced earth retaining wall and slope using the present invention.

* Description of the symbols for the main parts of the drawings *

10: foundation ground 20: support frame

20a: Lower frame 20b: Front frame

20c: support frame 21: front hinge

22: upper hinge 23: lower hinge

24: upper rod 25: lower rod

26: height adjustment lever 27: the upper rod

28: lower rod 29: fixed lever

30: reinforcement 40: grid

42: grid plate 44: back plate

50: support mat 60: fill layer

The present invention relates to a support frame used in the reinforcement construction method of the slope to reinforce the incision slope to the greening slope.

In order to install the structure, when the mountain is excavated, the incision surface is steep and there is a high risk of collapse. Therefore, it is common to reinforce the inclined slope using retaining wall or reinforced soil method. However, in recent years, environmentally friendly construction is highly demanded, and thus, unless the risk of collapse is very high, it is common to stabilize the slope using a reinforced soil method. In addition, in case of using reinforcement soil method, the front side of reinforced slope is recorded to emphasize eco-friendly construction and emphasizes aesthetics.

In order to meet such social demands, construction methods have recently been used to increase shear force between fill layers by using geotextiles. At this time, to support the fill layer is used to support the fill layer. The support frame is formed in the form of "L", the inclination of the vertical material is formed differently according to the inclination angle of the fill layer.

However, the prior art as described above has the following problems.

In other words, the slope of the fill layer depends on the conditions of the construction site, the angle of inclination varies according to the height even in the same construction site. Therefore, in the case of using the support frame according to the prior art, different types of support frames should be prepared according to the inclination angle of the fill layer, and thus, many types of support frames should be prepared during construction, resulting in high construction cost and complicated construction. there was.

Therefore, the present invention was devised to solve the conventional problems as described above, the object of the present invention is to adjust the inclination angle of the support frame, reinforcement earth retaining wall to be able to use the same support frame in various construction site construction site And to provide a support frame used for slope construction.

According to a feature of the present invention for achieving the object as described above, the present invention and the lower frame in contact with the ground to support the bottom surface; A front frame rotatably connected to a front end of the lower frame and provided to have a predetermined angle with respect to the lower frame; And a support frame rotatably connected to the upper and lower frames of the front frame, respectively, wherein the support frame is adjusted in length.

At this time, the support frame, the lower end of the cylindrical constituting the lower portion of the support frame; An upper rod constituting an upper portion of the support frame and inserted into the lower rod and capable of vertically moving; And provided on the lower rod is configured to include a height adjustment lever for fixing the upper rod.

Or, the support frame is a cylindrical top rod constituting the upper portion of the support frame; A lower rod constituting a lower portion of the support frame and inserted into the upper rod and movable up and down; And provided on the upper rod is configured to include a height adjustment lever for fixing the lower rod.

And, the support frame may be provided with a plurality along the top of the front frame.

In this case, the front frame may be configured to adjust the length.

On the other hand, the front frame and the cylindrical lower rod constituting the lower portion of the front frame; An upper rod constituting an upper portion of the front frame and inserted into the lower rod and movable up and down; And provided on the lower rod, it may be configured to include a fixing lever for fixing the height of the upper rod.

Alternatively, the front frame and the cylindrical upper rod constituting the upper portion of the front frame; A lower rod constituting a lower portion of the front frame and inserted into the upper rod and movable up and down; And provided on the upper rod, it may be configured to include a fixing lever for fixing the height of the lower rod.

According to the present invention having the configuration as described above, it is possible to adjust the inclination angle of the support frame according to the inclination angle of the slope to be constructed, it is possible to form a vegetation soil layer on the front while easily and stably construct the fill layer of various angles There is an advantage.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the reinforcement earth retaining wall and slope construction support frame according to the present invention as described above will be described in detail.

1 is a perspective view showing a support frame according to a preferred embodiment of the present invention, Figures 2a and 2b is a side view showing a state in which the support frame of the preferred embodiment of the present invention at different installation angles, Figure 3 4 is a perspective view showing a support frame according to another embodiment of the present invention, Figures 4a and 4b is a side view showing a state in which the support frame of another embodiment of the present invention different installation angle, Figure 5 is a construction using the present invention Figure 6 is a block diagram showing the sequence of, Figure 6 is a block diagram showing the sequence of another construction method using the present invention, Figure 7a to 7k is a sequential diagram showing the construction step of the reinforced soil retaining wall and slope using the present invention to be.

As shown in Figure 1, the reinforcement earth retaining wall and slope support frame according to the present invention is configured to include a lower frame 20a in contact with the ground. The lower frame 20a is formed in the shape of a circular rod, preferably in the shape of a "c". That is, it is preferable that the long rods on the front surface and both ends of the rods are vertically bent to extend. The lower frame 20a is a portion that prevents the fall or fall of the fill layer, such as the bottom plate of the retaining wall.

In front of the lower frame 20a, a front frame 20b rotatable with respect to the lower frame 20a is provided. The front frame 20b is a rectangular round bar, which is also formed in a "c" shape and its ends are rotatably connected to both front ends of the lower frame 20a. At this time, the lower frame (20a) and the front frame (20b) is preferably connected by the front hinge 21, as shown in an enlarged view in FIG.

A support frame 20c is hinged between both ends of the front frame 20b and the lower frame 20a. More specifically, as shown in an enlarged view in FIG. 1, an upper end of the support frame 20c is connected to the front frame 20b by an upper hinge 22, and a lower end of the support frame 20c is lower. It is connected to the lower frame 20a by a hinge 23.

The support frame 20c is a portion for supporting the front surface of the fill layer to be described later. As shown in an enlarged view of FIG. 1, the support frame 20c is provided to adjust the length thereof. To this end, the support frame 20c, it is composed of the upper rod 24 constituting the upper portion of the support frame 20c and the lower rod 25 of the cylindrical movable by inserting the upper rod 24. desirable.

On the other hand, one side of the lower rod 25 is provided with a height adjustment lever 26 for fixing the upper rod 24 is inserted into the lower rod 25 is moved.

For example, the height adjustment lever 26 formed in the form of a screw is provided on one side of the lower rod 25, the height adjustment lever 26 is rotated as the height adjustment lever 26 is the upper rod ( 24) and the lower bar (25) is fixed. Of course, the height adjustment lever 26 may be formed in various forms as long as the upper rod 24 can be fixed.

On the other hand, the support frame 20c, unlike the above, the lower rod 25 is inserted into the upper rod 24, it may be configured to be movable along the inside of the upper rod (24).

In this case, the height adjustment lever 26 is provided on the upper rod (24).

As shown in FIG. 1, the support frame 20c supports the front frame 20b, but may be provided on both sides of the support frame, but the fill layer 60 to be supported by the support frame 20 is supported. It may be provided in various numbers depending on the load of).

On the other hand, Figure 2a and Figure 2b is shown the appearance of the support frame is different each installation angle of the support frame.

2A illustrates a state in which the support frame 20c is installed at an acute angle with respect to the lower frame 20a. At this time, when the height adjusting lever 26 is released to move the upper rod 24 and the height adjusting lever 26 is tightened again, as shown in FIG. 2B, the angle of the support frame 20b is increased. Is changed.

On the other hand, according to another embodiment of the present invention, the height of the front frame 20b may be provided to be adjusted.

To this end, the side bar of the front frame 20b is preferably configured to correspond to the support frame. That is, the side of the front frame 20b, the upper rod 27 constituting the upper portion of the front frame 20b and the upper rod 27 is composed of a cylindrical lower rod 28 that is inserted and movable It is preferable.

On the other hand, one side of the lower rod 28 is provided with a fixing lever 29 for fixing the upper rod 27 is inserted into the lower rod 28 is moved.

On the other hand, the front frame 20b, unlike the above, the lower rod 28 is inserted into the upper rod 27, may be configured to be movable along the inside of the upper rod (24).

In this case, the fixing lever 29 is provided on the upper rod 27.

On the other hand, Figures 4a and 4b is shown in the form of the support frame is different each installation angle of the support frame according to another embodiment of the present invention.

2A illustrates a state in which the support frame 20c is installed at an acute angle with respect to the lower frame 20a. At this time, when the height adjusting lever 26 and the fixing lever 29 is released to move the upper rod 24 and the upper rod 27, and the height adjusting lever 26 and the fixing lever 29 are tightened again. 2b, the angle of the support frame 20b is changed.

In the present specification, the lower frame 20a, the front frame 20b and the support frame 20c have been described as an example in the form of a circular rod, but the lower frame 20a, the front frame 20b and the support frame 20c ) May be formed of various types of rods or bars.

Hereinafter, the operation of the present invention will be examined according to the method of constructing the reinforcement soil retaining wall and the slope using the support frame according to the present invention.

As shown in Fig. 5 and Fig. 7a, the present invention is first started by compacting the foundation ground 10 on which the greening slope is to be constructed (S10). At this time, the degree of compaction is preferably such that a predetermined support force can be expressed in consideration of the weight of the fill layer 60 to be deposited and the ground strength of the ground.

After the ground is chopped, the support frame 20 is installed on the compacted ground as shown in FIG. 7B (S20). The support frame 20 supports the fill layer 60 while the fill layer 60 is formed.

The support frame 20 is a support frame 20c provided to have a predetermined angle from the lower frame 20a and the lower frame 20a supported on the ground, and the lower frame 20a and the support frame 20b. It is configured to include a front frame 20b for supporting the connection.

The angle of the lower frame 20a and the support frame 20b determines the inclination angle of the completed greening slope so that the angle is 50 ° to 80 °. At this time, the contractor first, loosen the height adjustment lever 26 provided in the support frame 20c, adjust the length of the support frame 20c to an appropriate length, and then tighten the height adjustment lever 26 to the After the support frame 20c is fixed, the support frame is installed on the ground.

After the support frame 20 is installed on the foundation surface, as shown in Figure 7c, the reinforcing material 30 is installed on the lower frame 20a and the upper surface of the foundation surface (S30). The reinforcing material 30 is to increase the shear resistance between the filling layer 60 to be constructed, and to prevent the slope from collapsing by the main earth pressure. The reinforcing material 30 is a member of high friction and high tensile strength is used, preferably geo-grid (Geo Grid) woven from nonwoven fabric or polyester fiber is used.

After installation of the reinforcing material 30, as shown in Figure 7d, the vegetation soil-filled grating frame 40 is installed on the back of the support frame 20 (S40). And the front end of the grid frame 40 is preferably fixed to the upper end of the support frame 20 so that there is no movement. At this time, the fixing is preferably fixed using a wire or a ring.

Looking at the installation method of the grating frame 40 in detail, first, the back plate 44 forming the back of the grating frame 40 is coupled to the grating plate 42 to form the internal space of the grating form ( S41). And the vegetation soil containing the seed of the plant is filled in the inner space of the grid 40 (S43). After that, the vegetation soil-filled lattice frame 40 is installed on the back of the support frame 20, and the lattice frame 40 is fixed to the support frame 20 (S45).

After the grid frame 40 is installed, as shown in FIG. 7E, the support mat 50 is installed (S50). The support mat 50 is shown to prevent the outflow of the earth and sand of the fill layer 60, one side is located on the upper surface of the reinforcing material 30, the other side is passed over the support frame 20 Hanging on the front of the support frame 20. At this time, the support mat 50 is composed of geo-textile (Geo Textile) or perforated nonwoven fabric.

After installing the support mat 50, as shown in FIG. 2F, the back surface of the support frame 20 is filled and compacted to form a fill layer 60 (S60).

After the fill layer 60 is formed, as shown in FIG. 2G, the support mat 50 hung on the front of the support frame 20 is folded and fixed to the top surface of the fill layer 60 (S70). ). At this time, the fixing may be used a variety of fixing means such as anchors, pins, hook rebar, preferably bent rebar 70 is bent in the form of hooks that are easy to manufacture directly in the field.

Subsequently, as shown in FIG. 2H, the back plate 44 forming the rear surface of the lattice frame 40 is removed (S80). In this case, since the rear surface of the grid 40 is supported by the support mat 50 and the fill layer 60, there is no fear that the vegetation soil inside the grid 40 is lost.

On the other hand, after removing the back plate 44, as shown in Figure 7i, the end of the reinforcing material 30 is folded and fixed to the top surface of the fill layer 60 (S90). In this case, the fixing method is preferably used as described above.

When fixing the reinforcing material 30, as shown in Figure 7j, by pulling the support frame 20 to the front (S90).

Thereafter, as shown in FIG. 2K, the support frame 20 is reinstalled on the top surface of the fill layer 60, and the steps S20 to S100 are repeated to form the fill layer 60 to a desired height.

On the other hand, according to another embodiment of the present invention, as shown in Figure 6, without the support mat 50 is installed by the present invention.

That is, after the lattice frame 40 is installed (S40), a fill layer is formed immediately (S60). Then, the back plate 44 is removed (S80).

The rights of the present invention are not limited to the embodiments described above, but are defined by what is stated in the claims, and those skilled in the art can make various modifications and adaptations within the scope of the rights described in the claims. It is self-evident.

In other words, the construction method may vary depending on the construction conditions, such as the required degree of safety, depending on the ground to be constructed, the height of the fill layer 60, the type of the structure to be installed on the cut surface.

Greening reinforcement soil retaining wall and slope construction support frame according to the present invention as described in detail above can be expected the following effects.

That is, since the inclination angle of the support frame can be adjusted, there is an advantage that the support frame can be used for the fill layer of various inclinations.

Therefore, since it can be applied to various fill layers with one support frame, the construction is simple, the construction cost is reduced, and the supportability of the support frame is increased.

Claims (7)

A lower frame supporting the bottom surface in contact with the ground; A front frame rotatably connected to a front end of the lower frame and provided to have a predetermined angle with respect to the lower frame; A support frame rotatably connected to an upper end of the front frame and the lower frame, respectively, to support a fill layer on a rear surface of the front frame; The support frame is a support frame for the reinforced earth retaining wall and slope construction, characterized in that the length is adjusted. The method of claim 1, The support frame, A cylindrical bottom rod constituting a lower portion of the support frame; An upper rod constituting an upper portion of the support frame and inserted into the lower rod and movable up and down; And Reinforcement earth retaining wall and the support frame for the slope construction, characterized in that it comprises a height adjustment lever is provided on the lower rod to fix the upper rod. The method of claim 1, The support frame, A cylindrical upper rod constituting an upper portion of the support frame; A lower rod constituting a lower portion of the support frame and inserted into the upper rod and movable up and down; And Reinforcement earth retaining wall and the support frame for the slope construction, characterized in that it comprises a height adjustment lever is provided on the upper rod to fix the lower rod. The method of claim 3, wherein The support frame, Reinforcement earth retaining wall and the support frame for slope construction, characterized in that a plurality is provided along the top of the front frame. The method according to any one of claims 1 to 4, The front frame, Reinforcement earth retaining wall and support frame for slope construction, characterized in that the length is adjusted. The method of claim 5, wherein The front frame, A cylindrical lower rod constituting a lower portion of the front frame; An upper rod constituting an upper portion of the front frame and inserted into the lower rod and movable up and down; And Reinforced soil retaining wall and the support frame for the slope construction, characterized in that provided on the lower rod, comprising a fixing lever for fixing the height of the upper rod. The method of claim 5, wherein The front frame, A cylindrical upper rod constituting an upper portion of the front frame; A lower rod constituting a lower portion of the front frame and inserted into the upper rod and movable up and down; And The support frame for reinforcing soil retaining wall and slope construction, characterized in that provided in the upper rod, comprising a fixing lever for fixing the height of the lower rod.

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