JP7222156B2 - Storage space for building storage tanks for rainwater runoff control facilities - Google Patents

Description

The present invention belongs to a technique for covering the ceiling of a storage space for constructing a storage tank of a rainwater outflow control facility.

A method of constructing a rainwater outflow control facility that temporarily stores rainwater and gradually drains it by arranging resin blocks underground is widely used. There is also a need to save resources. Therefore, we proposed a method of arranging columns with blocks arranged vertically. JP 2008-280775
If the space between the pillars is increased in this way, the necessary top plate becomes larger. A means of supporting a large tabletop is required.

JP 2008-280775

In the method of providing gaps between the blocks to be arranged from the viewpoint of resource saving, the necessary top plate becomes large. It lies in the proposal of a means for supporting a large top plate.

In the present invention, the rainwater is buried in the ground by erecting pillars obtained by arranging blocks vertically at intervals, surrounding them with wall materials, and covering the upper part of the pillars with a ceiling material. In the storage space for constructing the storage tank of the outflow control facility, a ceiling block having a guide part 1 parallel to the side toward the center and a guide part 2 along the diagonal line is placed on the upper part of the column body. Then, a top plate support 6 is arranged on the top block of the columnar body facing each other so as to connect the two top blocks via the guide part 1, and a top plate support 7 is placed on the top block of the columnar shape facing each other. Construction of a storage tank for a rainwater outflow control facility in which two top blocks are arranged to be connected via a guide part 2, and top plates are disposed so as to cover a plurality of top blocks via top plate supports 6 and 7. storage space for

In the present invention, the rainwater is buried in the ground by erecting pillars obtained by arranging blocks vertically at intervals, surrounding them with wall materials, and covering the upper part of the pillars with a ceiling material. In the storage space for constructing the storage tank of the outflow control facility, a ceiling block having a guide part 1 parallel to the side toward the center and a guide part 2 along the diagonal line is placed on the upper part of the column body. Then, a top plate support 6 is arranged on the top blocks of the pillars that face each other so as to connect the two top blocks via the guide part 1, and a top plate support 7 is placed on the top blocks of the pillars that face each other. is arranged so as to connect two top blocks via a guide part 2, and a top plate is disposed so as to cover a plurality of top blocks via top plate supports 6 and 7. Since it is a storage space for construction, it has the following effects.
1. The load of the top plate can be supported because the top plate is placed through the supports that connect the pillars.

1] is a conceptual diagram of a top block. [FIG. 1 is an example 1 of a conceptual diagram showing mutual arrangement of a top block and top plate supports 6 and 7. FIG . 2 is an example 2 of a conceptual diagram showing the mutual arrangement of the top block and top plate supports 6 and 7. FIG . 3 is an example 3 of a conceptual diagram showing the mutual arrangement of the top blocks and the top plate supports 6 and 7. FIG . 1] is an example 1 of a conceptual diagram showing arrangement of a top plate. [FIG. 2] is an example 2 of a conceptual diagram showing arrangement of a top plate. [FIG. 1] is a conceptual diagram showing a storage space. [FIG. 1] is a conceptual diagram showing an example of a rainwater outflow storage tank using the storage space of the present invention. [FIG. shows an example block.

The present invention will now be described in detail with reference to the drawings.
FIG. 1 is a conceptual diagram showing a top block.
A groove is provided as a guide on the surface of the top block. Since the guides are used to hold the top plate support in place, they may be projections provided on both sides.
A guide portion 1 parallel to the side of the top block is provided at the center of the surface of the top block, and a guide portion 2 is provided on the diagonal line. The guide portion 2 has a guide groove 21 divided at the center of the top block and a guide groove 22 passing diagonally, and there may be a plurality of guide grooves as shown separately.

FIG. 2 is an example 1 showing the arrangement of the top block placed on the pillar and the top plate support stretched thereon.
The top board supports are plate-shaped or angular, and the top board support 6 is disposed so as to connect two top blocks via the guide portions 1 of the top blocks facing each other.
The top plate support 7 is arranged so as to connect two top blocks via the guide portions 2 of the top blocks having a relative angle.

FIG. 3 is an example 2 showing the arrangement of the top block placed on the pillar and the top plate support stretched thereon.
The difference from Example 1 is that two guide portions 1 parallel to the sides of the top block are provided on the surface of the top block. A guide portion 2 is provided on the diagonal line. The guide groove 21 is divided at the center of the top block, and the guide groove 22 runs diagonally.
Two top supports 6 are arranged to connect the two top blocks via two guides 1 of the top blocks facing each other.
The same is true in that the top plate support 7 is arranged so as to connect two top blocks via the guide portion 2 of the top block having a relative angle.

FIG. 4 is Example 3 showing the arrangement of the top block placed on the pillar and the top plate support stretched thereon.
The difference from FIGS. 2 and 3 is that the top plate support is arranged only on both diagonal lines of one top block, and extends to the vicinity of the top plate support arranged on the other diagonal line . at the point. It reinforces the support of the top plate arranged on the top plate support.

FIG. 5 and FIG. 6 show the state of being arranged on the top board support arranged on the top block. In either case, it is arranged so as to cover a plurality of top blocks.

FIG. 7 shows a structure obtained by arranging a top block on a pillar body obtained by arranging blocks in the vertical direction, and laying a top plate via a top plate supporter. It shows a storage space surrounded by timber. Although the figure does not show a means for connecting the pillars, the prior art proposed by the present applicant can be used to connect them using a joint or the like.

Fig. 8 shows a storage tank for suppressing the outflow of rainwater, etc., by wrapping this storage space with sheets and combining necessary ancillary facilities such as a mud pool, inflow/outflow pipes, and an orifice. It is conventional to use a water-permeable sheet for the permeation tank, and a water-impervious sheet for the storage tank.

The blocks used in the present invention have legs that open to the board, or are composed of a frame and legs. The shape of the leg may be circular in cross section, polygonal such as square, shape protruding like a plum bowl, or a combination of a plurality of the above shapes. The blocks can be made of resin, metal, or other materials that are resistant to water and that satisfy the required strength. FIG. 9 shows an example in which the leg section is square.
The top block is flat and has a thickness that forms a guide part for arranging the top plate support on the upper part. can be used.
As with the above, the top plate support and the top plate are buried in the ground, so any material can be used as long as it can withstand the pressure of the upper earth cover.

It is used as a temporary storage tank for rainwater runoff control facilities and as a temporary storage tank for contaminated water.

1 block 2 top block 3 guide part 1
4 Guide part 2
6 top support 6
7 top support 7
8 top plate 9 pillar
10 walls

Claims (1)

Columns obtained by arranging blocks vertically are erected at intervals, surrounded by wall materials, and the upper part of the columns is covered with ceiling material for suppressing the outflow of rainwater buried underground. In a storage space for constructing a storage tank of a facility, a ceiling block having a guide portion 1 parallel to the side toward the center and a guide portion 2 along the diagonal line is placed on the upper surface of the column body, A top plate support 6 is arranged on the top block of the columnar body so as to connect the two top blocks via the guide part 1, and a top plate support 7 is placed on the top block of the columnar shape opposite to each other with the guide part 2. A storage space for constructing a storage tank of a rainwater outflow control facility, in which two top blocks are arranged to be connected via top plate supports 1 and 2, and a top plate is disposed so as to cover a plurality of top block blocks via top plate supports 1 and 2. .

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