KR101231130B1 - Aggregate container and aggregate portion forming method using the same - Google Patents

Abstract

The present invention relates to an aggregate container and a method for forming an aggregate part using the same. In the aggregate container of the present invention, the body 10 forms a skeleton. The body 10 has an aggregate space 12 formed inside of a long hexahedral shape left and right open up and down. A guide rail 20 and a support rail 22 surrounding the lower edge of the body 10 are provided to support the bottom plate 30 that shields the lower portion of the aggregate space 12. The bottom plate 30 is provided with a hook 32. The hook 32 is used to separate the bottom plate 30 from the body 10. The reinforcing bar 34 integrated with the hook 32 is fixed to the upper surface of the bottom plate 30, and the body 10 has an interference avoiding part 18 to avoid interference with the reinforcing bar 34. Is formed. A body reinforcing bar 17 is installed across the top inlet of the body 10, and a top reinforcing bar 17 surrounding the top inlet edge of the body 10 is provided. The upper inlet of the body 10 is provided with a pair of hooks 16 on both sides in the longitudinal direction to lift the body 10. According to the present invention as described above there is an advantage that the handling of the aggregate for the formation of the aggregate portion 3 and the formation of the aggregate portion 3 is easy.

Description

Aggregate container and aggregate portion forming method using the same

The present invention relates to an aggregate container and a method for forming an aggregate part using the same, and more particularly, an aggregate container for forming an aggregate part at a position corresponding to a front end side of a vertical wall by filling an aggregate therein and moving to a desired position. It relates to a buoy formation method.

In forming a vertical wall or an inclined wall by stacking a plurality of reinforcement soil layers in a cut portion or a fill portion, when the reinforcement soil layer is formed only with soils, water drainage is not good. In particular, when the soil is lost by rainwater at the tip of the reinforced soil layer, there is a problem that the vertical wall or inclined wall is easily damaged.

And, the compaction of the front end portion of each reinforced soil layer should not be approached by the compaction equipment to the compaction section, it is necessary to use the compaction compaction equipment using the manpower is required to use the aggregate.

Accordingly, the present applicant has developed a method of forming an aggregate part, which is a water permeable layer, through which water passes well at its tip in forming a vertical wall or an inclined wall in a cut part or a fill part. In forming the aggregate part at the tip of the reinforcement soil layer by a predetermined width, it is preferable to make the sediment part with the earth and sand and the aggregate part with the aggregate more reliably distinguished.

However, in the case of aggregate, it is very difficult to form the aggregate part because it is not distinguished from the soil part because it is relatively inadequate with each other as compared with the soil sand. Therefore, the aggregate is mixed into the soil part more aggregates than the actual aggregate design quantity There is a problem.

Accordingly, an object of the present invention is to solve the above problems and to form the aggregate at the tip of the reinforcement soil layer in the cut section or fill section to be distinct from the soil section.

According to a feature of the present invention for achieving the object as described above, the present invention is the body formed with the aggregate space is opened up and down inside, and at least two pairs of hooks are provided facing each other on both sides of the upper end of the body It comprises a sphere and a bottom plate detachably installed at the lower portion of the aggregate space of the body and shielding the lower portion of the aggregate space and provided with hooks to which wires or ropes are hooked for separation from the body plate.

The body has a hexahedron shape in which the length in the left and right directions is longer than the width in the front and rear directions, and is provided with an upper reinforcing bar surrounding the top.

Guide rails are installed at both ends of the bottom in the longitudinal direction to guide and support both ends of the bottom plate, and support rails are provided to support the edges of the bottom plate along one edge of the body.

The top of the body is further provided with a body reinforcing bar across the inlet of the aggregate space.

An interference avoiding part is formed at one edge of the lower end of the body, and a reinforcing bar integrally extending from the hook is fixed to a position corresponding to the interference avoiding part on an upper surface of the bottom plate.

According to another feature of the invention, the present invention is formed in the aggregate space is formed in the interior of the body forming the skeleton to open up and down, and the bottom plate of the body is detachably installed bottom plate shielding the lower portion of the aggregate space In the method for forming the aggregate portion constituting the reinforcement soil layer using the step of installing the front molding frame at the front end with a reinforcing material on the bottom, positioning the aggregate container filled with the aggregate adjacent to the front molding frame Separating the bottom plate from the body of the aggregate container; Covering the aggregate with the reinforcement, the aggregate comprising a portion of the earth and sand, and compacting the soil and aggregate. It is configured to include a system.

After crushing the soil and aggregate is further performed to remove the front mold.

In the aggregate container according to the present invention and an aggregate part forming method using the same, the following effects can be obtained.

First, the aggregate container according to the present invention can move in the state containing the aggregate therein, it is possible to more easily transport the aggregate to the construction site, the transported aggregate is a site for direct vertical wall formation without carrying Can be supplied to, aggregate work forming can be performed more easily.

In the aggregate container of the present invention, the bottom plate is detachably configured so that when the bottom plate is removed and the container body is lifted up in a position for forming the aggregate, the aggregate is placed in the position for forming the aggregate. There is an effect that the formation can be made more easily and accurately.

1 is a perspective view showing the configuration of a preferred embodiment of the aggregate container according to the present invention.
2 is an exploded perspective view showing a configuration of an embodiment of the present invention.
3 is a cross-sectional view showing the configuration of an embodiment of the present invention.
Figure 4 is a working state showing the formation of an aggregate using the aggregate container of the embodiment of the present invention.

Hereinafter, a preferred embodiment of the aggregate container according to the present invention and an aggregate part forming method using the same will be described in detail with reference to the accompanying drawings.

As shown in the figure, in the aggregate container of the present invention, the body 10 forms a skeleton. The body 10 has a hexahedron shape long formed in the left and right directions in this embodiment. The body 10 has a length in the left and right directions based on FIG. 1 or FIG. 2, and defines a front and rear direction as a width. The length of the body 10 is formed to be much longer than the width in the front and rear directions. The width of the direction is formed to correspond to the width of the aggregate portion 3 (see FIG. 4) to be formed. The height of the body 10 is approximately equal to the height of one reinforcement soil layer 1 (see Fig. 4). An aggregate space 12 is formed inside the body 10. The aggregate space 12 is formed to open to the upper and lower portions of the body 10, respectively.

The body 10 should be able to provide a certain strength or more, it is good to make using an iron plate. However, it does not matter if the resin or any other material can provide the desired strength. The body 10 also does not have to be completely hexahedral in shape. For example, one outer surface of the body 10 may protrude convexly or concavely.

A reinforcement bar 14 is provided surrounding the top edge of the body 10. The reinforcement bar 14 may be made separately from the body 10 and fixed or may be made integrally. The reinforcement bar 14 serves to reinforce the upper inlet of the body 10. In this embodiment, the reinforcing bar 14 is provided around the entire upper edge of the body 10.

The upper end of the body 10 is provided with a plurality of hooks 16. In this embodiment, a total of four connection hooks 16 are provided. The hook 16 is used to lift the body 10 using a crane or the like. At least two connection hooks 16 are preferably provided at predetermined intervals along both ends of the body 10 in the longitudinal direction. As such, installing at least two connection hooks 16 along the lengthwise ends of the body 10 allows the body 10 to be easily grasped when moving the body 10 using a crane or heavy equipment. For sake. Although the shape of the connecting hook 16 is semi-circular, a ring-shaped one may be used.

On the other hand, the body reinforcing bar 17 is installed across the width direction of the body 10. In other words, both ends of the body reinforcing bar 17 are coupled to the body 10. The body reinforcing bar 17 has a configuration that the cross section 'L'. The body reinforcement bar 17 is not necessarily used. For example, it may not be used if the width direction strength of the body 10 is sufficient. However, the body reinforcing bar 17 is required to allow the size of the body 10 to be more than a predetermined size to form the aggregate portion 3 in a wider area.

The body reinforcing bar 17 may be installed in the upper longitudinal direction of the body (10). However, when the body reinforcing bar 17 is installed in this way it is difficult to fill the aggregate into the interior of the aggregate space (12). The body reinforcing bar 17 may be installed at the corners corresponding to each other on the top of the body 10, respectively. As such, when the body reinforcing bar 17 is installed at the edge of the body 10, it is very easy to fill the aggregate into the interior of the aggregate space 12.

In the body 10, an interference avoiding part 18 is formed at the bottom of one surface of the body 10 corresponding to the front surface with reference to the drawings. The interference avoiding portion 18 is formed by dividing one side of the body 10 in a semicircular shape, to avoid interference with the reinforcing bar 34 of the bottom plate 30 to be described below. The interference avoiding portion 18 may be made to minimize the area. This is to prevent the aggregate from flowing out through the interference avoiding portion 18. The shape and area of the interference avoiding portion 18 is equal to or slightly larger than the shape and area of the cross section of the reinforcing bar 34.

Guide rails 20 are provided at both side edges of the lower end of the body 10 corresponding to the left and right ends of the body 10. The guide rail 20 has a cross-sectional shape of the 'L' shape. The guide rail 20 serves to support both ends of the bottom plate 30 to be described below. That is, the edge of the bottom plate 30 is supported on the guide rail 20 is supported.

A support rail 22 is provided on the opposite side of the bottom edge of the body 10 in which the interference avoiding portion 18 is formed to connect the end of the guide rail 20. The support rail 22 serves to support one edge of the bottom plate 30. A gap in which the bottom plate 30 can be inserted is formed between one side of the support rail 22 and the guide rail 20 and the lower end of the body 10. The gap is about the thickness of the bottom plate (30).

The lower side of the aggregate space 12 opened to the lower end of the body 10 is shielded by the bottom plate (30). The bottom plate 30 serves to shield the aggregate space 12 at the bottom of the body 10 when the aggregate is moved to fill the interior of the body (10). The bottom plate 30 is formed in a rectangular plate shape. The bottom plate 30 is a plate of a metal plate or synthetic resin material that can secure a certain strength or more.

The bottom plate 30 is provided with a hook 32. The hook 32 is provided at a position corresponding to the interference avoiding part 18 of the body 10 on the bottom plate 30. The hook 32 is ring-shaped in this embodiment, but is not necessarily ring-shaped. The hook 32 is used to separate the bottom plate 30 from the body 10 or to keep the bottom plate 30 in close contact with the bottom surface of the body 10. That is, the bottom plate 30 is separated from the body 10 by pulling the wire or rope and the like on the hook 32 so as to be in close contact with the bottom surface of the body 10. That is, the bottom plate 30 may be firmly fixed to the body 10 by pulling wires or ropes to the hook 32 and the hook 16.

The reinforcement bar 34 is installed on the bottom plate 30. The reinforcement bar 34 is preferably made integral with the hook 32. The reinforcement bar 34 serves to reinforce the bottom plate 30. The reinforcing bar 34 is located on the top surface of the bottom plate 30, when the bottom plate 30 is installed in the body 10, it is in the interior of the aggregate space 12. The reinforcing bar 34 is installed on the top surface of the bottom plate 30 to prevent the reinforcing material (5) located between each of the reinforcing soil layer (1) in forming the aggregate portion (3) For sake. Thus, if the reinforcing material 5 is not used, the reinforcing bar 34 may be positioned on the bottom surface of the bottom plate 30.

The reinforcing bar 34 extends to the edge of the bottom plate 30 opposite to the hook 32. That is, it extends from the edge of the bottom plate 30 to the portion of the bottom that is supported on the support rail 22 so that the reinforcing bar 34 is seated on the support rail 22 to effectively support the load of the aggregate. Let's do it.

It will be described below to use the aggregate container having the configuration as described above and to form the aggregate portion using the aggregate container.

For reference, as shown in FIG. 4, a plurality of reinforcement soil layers 1 are stacked and formed in a cut portion or a fill portion, such that the front end of the reinforcement soil layer 1 forms a vertical wall or an inclined wall. The reinforcement soil layer (1) is made of soil (2) made by mining the soil and the aggregate part (3) made by compacting the aggregate. The aggregate portion 3 is formed at a position corresponding to the tip of the reinforcement soil layer (1) in the present invention. A reinforcing material 5 is used to surround the reinforcing soil layer 1, and as the reinforcing material 5, a mesh or a geogrid having a very fine mesh is used. The reinforcement 5 surrounds each reinforcement soil layer 1 so that the reinforcement soil layer 1 is made more firm.

Now, look at the formation of one reinforcement soil layer (1) with reference to FIG. First, the aggregate container is to put the aggregate in the aggregate space 12 to move and to place the aggregate in the position where the aggregate portion (3) will be formed. To this end, the bottom plate 30 is installed in the aggregate container so as to shield the lower end of the body (10).

That is, the opposite edge of the bottom plate 30 with the hook 32 is inserted into the lower portion of the body 10. At this time, both ends of the bottom plate 30 is guided while being supported along the guide rail 20 provided on both lower left and right ends of the body 10. When the bottom plate 30 is completely inserted into the body 10, one side of the bottom plate 30 is supported by the support rail 22 installed at the bottom edge of the body 10.

Then, by connecting the wire or rope to the hook 32 by pulling the side edge of the hook plate 32 of the bottom plate 30 is in close contact with the bottom of the body (10). Of course, if the strength of the bottom plate 30 is sufficient to be able to be in close contact with the lower portion of the body 10 without pulling the hook 32 with a wire or the like, it is not necessary to pull the hook 32.

 By doing so, the bottom plate 30 is filled with aggregate in the interior of the aggregate space 12 in a state of blocking the lower portion of the aggregate space 12 in the lower portion of the body (10). When the aggregate is filled in the aggregate space 12, the body 10 is moved to a desired position. In other words, the aggregate is filled in the aggregate container in the aggregate, such as a yard to move a plurality of trucks at the same time to the desired position.

After moving the aggregate container to the site for forming the reinforcement soil layer (1), the wire or rope is fixed to the connecting hook 16, and the aggregate container may be lifted and moved using a crane or heavy equipment.

Here, it will be briefly described that the reinforcement soil layer (1) is formed. The reinforcement soil layer 1 is made by forming the earth and sand portion 2 and the aggregate portion 3 thereon in a state where the reinforcement material 5 is covered in advance, and after the reinforcement soil layer 1 is formed again, the reinforcement material ( 5) and reinforcement soil layer (1) is formed on it. The reinforcing material 5 may surround the aggregate portion 3 at the tip of the reinforcing soil layer 1 to cover a portion of the upper surface of the reinforcing soil layer 1, that is, the upper surface of the aggregate portion 3 and a portion of the soil layer 2. That's enough. In this state, a new reinforcement layer 5 is laid on the reinforcement soil layer 1 made of the new reinforcement soil layer 1. At this time, the front end of the laid reinforcing material (5) is to be a length enough to surround the front mold 7, as shown in Figure 4 (a).

The front molding frame 7 helps to form the front end of the reinforcement soil layer 1, that is, the aggregate part 3, and protrudes perpendicularly to the rectangular front plate 8 and one edge of the front plate 8. It consists of a fixing leg (9). The front plate 8 serves to support the aggregate and the reinforcement 5 during the formation of the aggregate 3. The fixing leg 9 serves to fix the front mold 7 to the reinforcement soil layer (1).

The aggregate container is preferably formed at the tip of the reinforcement soil layer (1) in forming a vertical wall. In forming each reinforcement soil layer 1 in turn, the aggregate container is placed at a position to be the tip of the specific reinforcement soil layer 1. That is, as shown in Figure 4 (b), the aggregate container is located at the tip of the reinforcement soil layer (1) in which the front molding frame (7) is installed. In this state, the hook 32 is pulled in the direction of the arrow A to separate the bottom plate 30 from the body 10. In this case, the aggregate contained in the aggregate space 12 of the body 10 is placed on the reinforcing material 5 of the reinforcing soil layer (1). Since the reinforcing bar 34 is on the upper surface of the bottom plate 30, the reinforcing material 5 is not damaged.

Next, the soil is filled in the remaining area except for the portion in which the body 10 is located. The earth and sand are for forming the earth and sand portion (2). 4 (c) shows a state in which earth and sand are filled in the earth and sand portion 2.

The body 10 is removed while the earth and sand are filled in the earth and sand portion 2. That is, as shown in Figure 4 (d), by connecting a wire or a rope to the hook 16 of the body 10, the body 10 may be pulled in the direction of the arrow B. In this case, only the body 10 is released while the aggregate inside the body 10 remains intact.

In this state, the reinforcing material 5 extending up to the front of the front mold 7 is fixed by covering the top surfaces of the aggregate portions 3 and the earth and sand portions 2, and the pressure is applied to the aggregate and the soil. Do the work. When the aggregate and the soil is compacted more than a predetermined time, the front mold 7 is separated to complete one reinforcement soil layer (1).

Next, the front molding frame 7 is installed again, and the reinforcement soil layer 1 is made again by repeating the above-described process. At this time, the aggregate for forming the aggregate portion 3 may be used that was previously contained in the aggregate container and moved.

The scope of the present invention is not limited to the embodiments described above, but may be defined by the scope of the claims, and those skilled in the art may make various modifications and alterations within the scope of the claims It is self-evident.

1: reinforced soil layer 2: earth and sand
3: aggregate part 5: reinforcing material
7: Front molding frame 8: Front panel
10: body 12: aggregate space
14: upper reinforcing bar 16: hook
18: interference skin 20: guide rail
22: support rail 30: bottom plate
32: hanger 34: reinforcement bar

Claims (7)

A body formed so that the aggregate space is opened up and down inside,
At least two pairs of hooks provided on both sides of the upper body to face each other;
And a bottom plate detachably installed at a lower portion of the aggregate space of the body to shield the lower portion of the aggregate space and having a hook to which a wire or a rope is hooked for separation from the body plate.
The aggregate container according to claim 1, wherein the body has a hexahedron shape in which the length in the left and right directions is longer than the width in the front and rear directions, and the upper reinforcing bar is provided around the top.
The support rail according to claim 2, wherein guide rails are installed at both ends of the bottom of the body to guide and support both ends of the bottom plate, and support edges of the bottom plate along one edge of the body. An aggregate container characterized in that it is installed.
The aggregate container according to any one of claims 1 to 3, wherein a body reinforcing bar is further provided at an upper end of the body across the inlet of the aggregate space.
5. The aggregate container according to claim 4, wherein an interference avoiding part is formed at one edge of the lower end of the body, and a reinforcing bar integrally extending from the hook is fixed to a position corresponding to the interference avoiding part on an upper surface of the bottom plate. .
An aggregate space is formed inside the body forming the skeleton so that the aggregate space is opened up and down, and an aggregate container constituting the reinforcement soil layer is formed at the bottom of the body by using an aggregate container in which a bottom plate shielding the lower portion of the aggregate space is detachably installed. In the way,
Laying the reinforcement on the floor and installing the front molding frame at the tip,
Positioning an aggregate container filled with an aggregate therein adjacent to the front mold;
Separating the bottom plate from the body of the aggregate container;
Filling the earth and sand in a position other than the portion where the body is positioned on the reinforcement;
Separating the body between the front mold and the earth and sand;
Covering the aggregate comprising a portion of the soil with the reinforcement;
Aggregate part forming method comprising the step of compacting the soil and aggregate.
7. The method of claim 6, further comprising removing the front molding frame after the earth and aggregate are chopped.

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