JPS6016608A - Slope construction for river revetment - Google Patents

Abstract

PURPOSE:To form an uneven surface on a sloped ground by strongly laying a columnar block having a crosswise groove extending in the longitudinal direction on its left and right-handed both sides and a plate block having connected recessions on its four side faces. CONSTITUTION:An angular columnar block 1 has a crosswise groove 4 continuously extending in the longitudinal direction of its left and right both sides and a vertical groove 8 connecting to its both ends. Also, a plate block 10 has a tiered portion 15 connecting to its four side faces and recessions 16 connecting to each other with a depth deeper than the tiered portion 15. The plural blocks 1 are set by positioning vertically its crosswise groove 4 to the slope, the plate block is set between the blocks 1 by facing the recessions 16 to the crosswise groove 4. A solidifying agent 23 is packed into the spaces 22 between the recessions 16 and the crosswise groove 4 to form a revetment for river.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a slope construction method suitable for protecting the slope of a river bank.

(Prior Art) It is a common practice to cover the entire slope of a river bank with blocks, thereby protecting the slope. In this case, the blocks are required to be firmly laid, as they are subject to uplift pressure due to the ground and the flow of water when the water rises.

In addition, in order to carry out protection work on the slope of the river bank,
It is necessary to temporarily change the flow of water to prevent water from entering the construction site, but spring water is unavoidable on riverbeds, and the reality is that water is constantly pumped up using pumps, etc. be. This drainage work is expensive and requires constant monitoring, so it is desirable to carry out slope protection work within as short a time as possible.

In this regard, for example, on slopes such as river channels,
Conventionally, those related to Publication of Utility Model Publication No. 46-3080 have been provided. In this type, notches are partially provided at the ends and even corners of the L-shaped block, lower plate block, side plate, etc., and connecting iron wires are made to protrude outward from the notches. and,
With each block and side plate laid on the slope, the iron wires of adjacent blocks and side plates are twisted together, and then the notches are filled with mortar for solidification.

In this case, the notch to be filled with mortar is
They were only partially installed at the ends and even corners of blocks, and were not yet sufficiently strong. In addition, twisting the steel wires one by one is a labor-intensive task, and there are still some shortcomings in making it possible to use this type of block to protect the slope of a river bank in a short period of time. Ta.

(Problems to be solved by the invention) The present invention has been made to deal with the above-mentioned actual situation,
The technical issue is the ground pressure applied to the block.
This is a slope construction method for river revetments that allows the construction to be firmly established to withstand uplift pressure, etc., and also allows the installation work to be completed within a short period of time.

(Structure of the Invention) The structure of the present invention for solving the above-mentioned problems is formed into a rectangular prism shape, has horizontal grooves extending continuously in the length direction on both left and right sides, and has horizontal grooves continuous in the vertical direction on both end faces. A column block with vertical grooves, and a board formed in the shape of a fixed plate and having continuous steps on the four sides of the periphery, and a recess deeper than the step and continuous with each other between the steps. Use blocks.

A plurality of pillar blocks and their vertical grooves are placed vertically on the slope surface of the river revetment so that the vertical grooves are aligned with each other and are laid vertically on the slope surface to form a vertical frame. The vertical frames are further laid on the slope surface with a predetermined distance between them, and a plurality of board blocks are laid on the slope surface located between the vertical frames. After forming a solidification agent filling space in a continuous state by the recess of the plate block and the horizontal groove of the pillar block, the solidification agent is filled into the space formed by the solidification agent filling space and the vertical groove of the pillar block. This is a slope construction method for a river bank, which is characterized by filling the slope.

The present invention will now be described in more detail with reference to the drawings.

First, the column blocks shown in Figures 1 to 6 (
1) will be explained. The pillar block (1) has a prismatic shape. (2) (3) are both left and right sides extending in the length direction of this pillar block (1), (0 is both left and right sides (2) (3)
), and the lateral grooves (4) are continuous in the length direction. In this example, the horizontal groove (4) is the second
As shown in the figure, it has tapers (5) on both sides. (8)
(7) is both end faces of column block (1), (8) is both end faces (
8) A vertical groove formed in (7), this vertical groove (8) is vertically continuous and orthogonal to the horizontal groove (4). In this embodiment, this vertical groove (8) also has a taper (8) as shown in FIG.

Next, the plate block (10
) will be explained. The plate block (10) has a square plate shape. The four sides (11), (12), and (13014) around this plate block (lO) are shown in Figures 9 and 1.
Figures 11 and 12 are enlarged views of parts B and C of Figure O.
As shown in the figure, a stepped portion (15) is formed continuously along the periphery by adding a step having a size A. (
16) is a recessed part (16) that is deeper than this stepped part (15).
), and is continuously formed along the stepped portion (15).

In this example, the plate block (10) has a taper (17) in the recess (16) as shown in FIGS. 11 and 12.
and as shown in FIGS. 7 and 8,
It has two horizontally elongated recesses (18) on the surface (10a) side. The lower sides (18) of these four parts (18) are gradually sloped downward toward the center (20).

Next, a method of covering a slope using the above-mentioned pillar blocks (1) and plate blocks (10) will be explained, taking as an example a slope (21) that is a slope of a river embankment. On this slope (21) is a column block (1
) and plate blocks (10) are laid in a lying state as shown in FIG. Therefore, when laying the pillar block in this way, as shown in Fig. 17 when Fig. 18 is viewed from the arrow x-x direction, both end faces (6) and (7) of the column block (1) are By connecting the pillar blocks (1) so that they are in contact with both end faces so that the vertical grooves (8) meet, a vertical frame is formed, and the pillar blocks (1) are connected to other pillar blocks (1). A predetermined interval (dimension L) is left between the left and right sides.

In addition, in this example, the structure for connecting both end faces (8) (7) of the pillar block (1) and both end faces (8) (?) of the other pillar block (1) is as shown in Fig. 13 and As shown in Fig. 15, a connecting plate (25) fixed by a bolt (24)
is used. In this case, the bolt (24) may be provided and buried within the column block (1), or may be inserted into the through hole.

On the other hand, the plate blocks (10) are laid so as to cover the slope surfaces (21) within the interval between the pillar blocks (1), that is, within the dimensions. By this installation, the plate block (lO
) of another board block (IB) adjacent to it (
(18) of the column block (1) and the horizontal groove (4) of the column block (1).
) to form a continuous solidifying agent filling space (22). That is, FIGS. 16 and 17 show the space (
22) and the part where the vertical grooves (8) of the column block (1) meet are filled with a solidifying agent (23) such as mortar or concrete from the surface (10a) side,
As is clear from the solidifying agent (23) portion shown in FIGS. 16 and 17, the solidifying agent filling space (22) is continuous in the shape of an amida lattice (a lattice used when drawing an amida lottery). It is something that exists.

(Example) In addition, the above-mentioned pillar block (1) and plate block (l.

) is made of concrete or the like to a predetermined size, and the dimensional relationship in this example is that the column block (1) has a length of 2000 mm or 101004 mm).
- It is a prism with a side of 300 layers, and a plate block (i
o) cy) Dimension shown is 1880+*m, E dimension is 1
There is a 000i+m version, which is quite large.

(Action of the invention) Since the solidifying agent filling space (22) filled with the solidifying agent (23) is continuous as described above, each block (1) (10) can be laid more firmly. I can do it.

Solidifying agent filling space (22) filled with solidifying agent (23)
) are consecutive, which means that
This is a point that is significantly different from those related to . In the present invention, since it can be laid firmly in this way, there is no need for reinforcing iron wires or twisting of iron wires, unlike in the past.

By the way, unlike the present invention in which the solidifying agent (23) such as mortar or concrete is poured into the solidifying agent filling space (22) etc., the solidifying agent (23) such as concrete is poured over the entire surface of the slope (21). The entire surface is coated with a solidifying agent (i.e., the column block (1) of the present invention or the plate block (
A method in which the portion corresponding to 1o) is coated with a solidifying agent such as concrete has also been provided in the past, but in this case, the amount of solidifying agent is extremely large, so the time required for solidifying is quite long. Therefore, the construction period will be that much longer.

Furthermore, there were other inconveniences such as the need to change the flow of the river so that the river water and the solidifying agent did not come into contact with each other. In this regard, in the present invention, as described above, the solidifying agent filling space (22
), etc., the solidifying agent is simply filled into a small volume area, which shortens the construction period and makes the work simple and easy.

In addition, in the present invention, the horizontal groove (
4) and the solidifying agent filling space (22) formed by combining the recess (16) of the plate block (10) has a lattice shape, that is, a zigzag shape. Even if a crack appears in a part of the solidifying agent filled in the solidifying agent filling space (22), this crack will not extend linearly for a long time. This is also because each pillar block (1) and plate block (10) are formed in a predetermined shape in advance, so that they can have sufficient strength.

Furthermore, since the "column" and "plate" are combined, such as the pillar block (1) and the plate block (10), appropriate unevenness can be formed just by laying the blocks (1) and (10). Therefore, when the present invention is applied to the river bank,
This unevenness allows it to remain close to a pristine riverbank.

In addition, the lower side (19) of the recess (18) of the plate block (lO)
In this example, the water on the lower side (18) is gradually tilted downward toward the center (20).
Since the water flows along the slope, there is an advantage that rainwater does not accumulate on this lower side (19). Therefore, it is effective in preventing the occurrence of insects such as moths. These four parts (1
Instead of 8), the recess (26) may be provided over almost the entire surface (2?a) of the plate block (27) as in another embodiment shown in FIG. In this case as well, accumulation of rainwater can be prevented by the inclined lower side (28) and the like.

(Effects of the Invention) Therefore, as explained above, if the method according to the present invention is implemented, it is possible to strengthen the laying of blocks without requiring connecting wires, and furthermore, the construction period can be shortened. It is easy to work with, and has many effects such as being able to form appropriate irregularities on the slope surface.

[Brief explanation of the drawing]

Figure 1 is a perspective view of the column block, Figures 2 and 3 are enlarged views of horizontal and vertical grooves, Figures 4 to 6 are three-sided views of the column block, and Figure 7 is a perspective view of the plate block. Figures 8 to 10 are three-sided views of the plate block, Figure ti, and Figure 1.
Figure 2 is an enlarged view of parts B and C in Figures 9 and 10, Figures 13 to 15 are views of the connecting parts of the pillar blocks, and Figures 16 to 18 are the pillar blocks and plate blocks. (Figure 17 is shown in Figure 18 when viewed from the arrow x-
(a view seen from the x direction). FIG. 19 is a diagram corresponding to FIG. 8 showing another embodiment. Explanation of symbols 1...Column block, 2, 3...Both left and right sides extending in the length direction of the column prong, 4...Horizontal groove, 6, 7...Both end faces of the column block, 8 ... Vertical groove, 10 ... Plate block, 15 ... Step part, 16 ... Hollow part, 21 ... Slope surface, 22 ... Space for solidifying agent filling, 23 ... Solidification agent, 26... recess. 4. Revised applicant Construction Engineering Co., Ltd.

Claims (1)

[Scope of Claims] (a) A column block formed into a rectangular column shape and having horizontal grooves extending continuously in the length direction on both left and right sides, and vertical grooves continuing vertically on both end faces. (b) A plate block formed in the shape of a slanted plate and having n continuous step portions on four sides of the periphery, and a recessed portion deeper and continuous with each other between the step portions; use. (c) A plurality of said pillar blocks are laid vertically on the slope surface of the river revetment so that their longitudinal grooves are located perpendicularly to the slope surface of the river revetment and the vertical grooves are aligned with each other. By forming a frame, (d) laying these vertical frames on the slope surface with a predetermined distance between them, and (e) laying a plurality of board blocks on the slope surface located between the vertical frames. , after forming a solidifying agent filling space in a continuous state by the recess of the plate block, the recess of the other plate block, and the horizontal groove of the pillar block. (f) A method for constructing a slope surface of a river bank, characterized in that a solidifying agent is filled in a space formed by the solidifying agent filling space and the vertical groove of the pillar block.