JPH0868016A - Sand cushioning material-holding structure for rock fall protection body - Google Patents

Abstract

PURPOSE: To provide a rock fall protection body that is excellent in shock- absorbing function with durability improved. CONSTITUTION: A plurality of divided concrete boards 9 are made of glass fiber reinforced concrete. Support plates 10, partitioning a sand cushioning material layer 8 in the vertical direction, are provided, extending as integral parts from the rear side of the divided concrete boards 9 to a protection wall surface 3. As the pressure of the sand cushioning material 7 is supported in sharing, the thickness of the divided concrete boards 9 can be made thin on the lower part. Thereby, the divided concrete boards 9 are broken on occasion of rock fall, allowing shock absorptivity of the sand cushioning material layer 8 to function effectively. Furthermore, durability can be improved as the divided concrete boards 9 are used as holding members for the samnd cushioning material 7.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sand cushion of a rock wall protector such as a protective wall, a protective fence, and a shed, a keeper, etc., which is installed to protect roads, railroad tracks, houses and building facilities from rockfall. Material holding structure

[0002]

2. Description of the Related Art Conventionally, in this type of rockfall protection body, it is known that a sand cushion material layer is provided on a protection wall surface of the rockfall protection body in order to absorb the impact of a falling rockfall. However, when sand or the like used for such a sand cushion material layer is provided on a sloped or vertical protective wall surface, there is no self-sustainability, so the sand cushion is sandwiched between the protective wall surface and the holding material to cover and hold it, and I had to prevent scattering. In the past, as a material for holding the sand cushion material, it was known that sandbags were laminated on the front surface of the sand cushion material. was there. Therefore, as shown in FIG. 5, a concrete layer B is provided at intervals on a protective wall surface which is the mountain side Y surface of the protective wall A, and sand or the like is filled between them to provide a sand cushion material layer C. It has been known.

[0003]

The conventional concrete layer B is superior in durability as compared with the one using a protective material such as sandbag. However, since this type of protective wall A is installed in a place where the loading conditions are bad, such as in a mountain area, when the concrete layer B is made of a precast plate, it is necessary to make the precast plate lightweight. It was not possible to improve the efficiency of transportation and installation work with conventional concrete.

In addition, in the precast plate of the protective wall constructed as described above, normally, it is necessary to have a strength for holding the sand cushion materials stacked vertically but against the sand pressure, but at the time of falling rocks. Since the sand cushion material absorbs the impact of rockfall, it must be damaged at the same time as the rockfall collides. That is, if the precast plate is made thick so as to withstand the sand pressure and the strength is simply increased, it will not be damaged at the time of falling rocks and the shock absorption cannot be performed by the sand cushion material. Therefore, for example, if the height H of the protective wall A is 6 meters and the thickness T of the sand cushion material layer C is 0.5 meters, 3.24 tons per square meter is provided below the concrete layer B made of a precast plate. When the thickness of the conventional concrete precast plate is set to about 5 to 10 cm so that it will be damaged when falling rocks due to excessive sand pressure, the sand pressure cannot be resisted and the concrete layer B can be applied only by the sand pressure. There was a problem that cracks and the like would occur.

Therefore, an object of the present invention is to provide a sand cushion material holding structure for a rock fall protection body which is improved in durability and is easy to carry and work, and is excellent in holding ability of the sand cushion material. An object of the present invention is to provide a sand cushion material holding structure in a rock fall protection body that can be broken when falling rocks and can effectively absorb impact by the sand cushion material layer.

[0006]

According to the invention of claim 1, there is provided a protective wall surface facing the mountain side, a sand cushion material layer is provided on the front surface of the protective wall surface, and the sand cushion material layer is provided. In a sand cushion material holding structure in a rockfall protective body having a sand cushion material holding concrete plate provided on the front surface, the concrete plate is a split precast plate made of glass fiber reinforced concrete.

According to the second aspect of the present invention, there is provided a protective wall surface facing the mountain side, a sand cushion material layer is provided on the front surface of the protective wall surface, and the sand cushion material is provided on the front surface of the sand cushion material layer. In a sand cushion material holding structure in a rockfall protective body provided with a holding concrete plate, the concrete plate is divided into a plurality of vertical parts to form divided concrete plates, and the divided concrete plates are directed from the rear surface toward the protective wall surface. A support plate portion that vertically partitions the sand cushion material layer is integrally provided.

Further, the invention of claim 3 is the holding structure of claim 2, wherein the divided concrete plate and the support plate portion are precast by glass fiber reinforced concrete.

[0009]

According to the structure of the first aspect, by using the divided precast plate made of glass fiber reinforced concrete, which is superior in strength to ordinary concrete, the divided precast plate can be made thin and lightweight.

Further, according to the second aspect of the present invention, since the sand pressure of the sand cushion material is divided and supported by the support plate portion that divides the sand cushion material layer in the vertical direction, the meat pressure of the divided concrete board is also lower. Can be formed thinly, and when the rock falls, the split concrete plate is broken and the shock absorbing function of the sand cushion material layer effectively acts.

Further, in the structure of the above-mentioned claim 3, since the divided concrete plate and the support plate portion are light in weight, the carrying-in and installation work can be facilitated, and further, the upper divided concrete plate and the support plate added to the lower divided concrete plate. The load due to the weight of the part can also be kept small.

[0012]

Embodiments of the present invention will be described below with reference to the accompanying drawings. FIG. 1 shows a first embodiment of the present invention. In FIG. 1, a concrete protection wall 2 which is a rockfall protection body serving as a basis of a protection net 1 has a protection wall surface 3 provided facing the mountain side Y. The protective wall 3 is substantially vertical and is provided with a slight inclination to the valley side. The protective net 1 is provided on the protective wall 2, and the protective net 1 has a plurality of columns 4 standing upright in the longitudinal direction of the protective wall 2 and these columns 4
A guide rope 5 is stretched between the upper and lower stages, and a net 6 is stretched between the guide rope 5 and a mounting member (not shown).

A sand cushion material layer 8 made of sand cushion material 7 such as sand is provided on the protective wall surface 3,
On the front surface facing the mountain side Y of the sand cushion material layer 8, a divided concrete plate 9 that is a plurality of vertically divided divided precast plates is provided. At the lower end of the rear surface of the divided concrete plate 9, the protective wall surface 3 is formed. 1, a supporting plate portion 10 in the horizontal direction is integrally projected, and the divided concrete plate 9 and the supporting plate portion 10 have a substantially L-shaped cross section as shown in FIG. The cushion material layer 8 is partitioned in the vertical direction. The front and bottom of the divided concrete plate 9 are joined by a joining tool 11 such as a metal fitting, and the rear end of the support plate portion 10 is fixed to the protective wall surface 3 by a fixing tool 12, which is received from the front side. It is formed to a thickness such that it will be destroyed by the prescribed impact force of rock fall. Further, the divided concrete plate 9 and the supporting plate portion 10 integrated with the divided concrete plate 9 constitute a divided holding body 13, and the divided holding body 13 is made of glass fiber reinforced concrete (GR).
C) is precast in a factory or the like, and the glass fiber reinforced concrete is molded by a premix method or the like. The premix method is a known method in which mortar and chipped strands of alkali resistant glass fiber are mixed with a mixer and then molded into a predetermined shape. In addition, the alkali resistant glass fiber is applied at a temperature of 150 to 500 ° C. after applying a solution of polyvinyl alcohol or modified polyvinyl alcohol on the surface of the glass fiber.
Manufactured by heat treatment at the temperature of, to prevent deterioration of the cement due to alkalinity, and as the cement for the mortar, "Chichibu GRC cement" (manufactured by Chichibu Cement) is used. A strength of 300 kg / cm ² , a tensile strength of 100 kg / cm ² , and an impact strength of 20 kg / cm ² (Charpy impact value) are obtained, which is 5 to 10 times stronger than ordinary concrete.
Incidentally, in the glass fiber reinforced concrete, the sand / cement ratio of the mortar is preferably in the range of 0.5 to 1, that is, when the sand / cement ratio exceeds 1, the reinforcing effect of the glass fiber is lowered, while This is because the smaller the sand / cement ratio, the greater the drying shrinkage, and the glass fiber content is preferably about 5 weight percent with respect to the mortar.

Next, the operation of the above structure will be described. First, the support plate portion 10 of the lowermost divided support 13 is fixed to the fixture.
It is fixed to the protective wall surface 3 via 12 and the fixed divided support body 13 is filled with the sand cushion material 7 without a gap. Next, the divided support 13 is fixed from above, and the upper and lower divided concrete plates 9 and 9 are fixed by the joining tool 11 and the supporting plate portion 10 of the upper divided support 13 is fixed by the fixing tool 12 for this fixing. It is fixed to the protective wall surface 3, the divided support 13 is filled with the sand cushion material 7, the divided concrete plate 9 in the upper stage is fixed and the sand cushion material 7 is filled by the same process, and the front surface of the protective wall surface 3 is fixed. A sand cushion material layer 8 is provided and held by a plurality of divided supports 13. In such a construction, the divided support 13 is molded from glass fiber reinforced concrete, and since it is superior in strength to conventional concrete, it is possible to reduce the thickness and weight, and it is possible to easily carry and install the work. Split support 13
By superposing them in a multi-tiered manner, part of the weight of the upper divided support 13 and the sand cushion material 7 is applied as a load to the lower divided concrete plate 9, but the divided support 13 itself is made lighter. Therefore, the load can be kept small. In the structure for holding the sand cushion material layer 8 by the divided supports 13 thus formed, since the sand cushion material layer 8 is vertically divided by the support plate portion 10, the sand of the sand cushion material layer 8 is separated. The pressure is divided and held by the support plate portion 10, so that a large sand pressure is not applied to the lower side of the concrete plate as in the conventional case, so that the lower divided concrete plate 9 is also formed thin and destroyed by a predetermined rockfall load. It will be possible. When the rockfall collides with the front surface of the divided concrete plate 9, the divided concrete plate 9 is destroyed, and this destruction absorbs a part of the impact of the rockfall, and at the same time, the sand cushion material layer 8 at the rear portion.
The shock absorbing effect of is effective.

As described above, in this embodiment, in accordance with the first aspect, the protective wall surface 3 is provided so as to face the mountain side Y, and the sand cushion material layer 8 is provided on the front surface of the protective wall surface 3, and In the sand cushion material holding structure in the protection wall 2 which is a rock fall protection body in which a sand cushion material holding concrete plate is provided on the front surface of the sand cushion material layer 8, the concrete plate is a divided precast plate made of glass fiber reinforced concrete. Since it is composed of the plate 9, by using the divided concrete plate 9 made of glass fiber reinforced concrete, which is superior in strength to ordinary concrete, the divided concrete plate 9 can be made thin and lightweight. The durability of the holding material can be increased.

As described above, in this embodiment, in accordance with the second aspect, the protection wall surface 3 is provided so as to face the mountain side Y, and the sand cushion material layer 8 is provided on the front surface of the protection wall surface 3. In the sand cushion material holding structure in the protective wall 2 in which the sand cushion material holding concrete plate is provided on the front surface of the sand cushion material layer 8,
The concrete board is divided into a plurality of pieces in the vertical direction to form the divided concrete board 9, and the support board portion 10 that divides the sand cushion material layer 8 in the vertical direction from the rear surface of the divided concrete board 9 toward the protective wall surface 3 is formed. Since the sand cushion material layer 8 is integrally projected, the sand pressure of the sand cushion material 7 is divided and supported by the support plate portion 10 that divides the sand cushion material layer 8 in the vertical direction. The meat pressure of can be formed thin,
At the time of rock fall, the split concrete plate 9 is broken and the shock absorbing function of the sand cushion material layer 8 effectively acts.

Further, in this embodiment, as described above, the divided concrete plate 9 and the support plate portion 10 are precast by glass fiber reinforced concrete in accordance with the third aspect. Therefore, the divided concrete plate 9 and the support plate are provided. Since the part 10 is lightweight, it is easy to carry in and install,
Further, the load due to the own weight of the upper divided support 13 applied to the lower divided concrete plate 9 can be suppressed to be small.

Further, as an effect of the embodiment, the divided support
The support plate portion 10 is integrally provided at the lower end of the lower surface of the divided concrete plate 9, so that the divided support body 13 is fixed to the protective wall surface 3 from the lower stage side, and the sand cushion material 7 is filled, and from the lower stage to the upper stage. It is possible to easily form the sand cushion material layer 9 toward. Further, since the sand cushion material 7 is held by each of the divided holding bodies 13 in each stage, when a plurality of stones continuously collide, if it is made of one conventional concrete board, for example, the concrete board If the lower part receives rockfall and is destroyed, the upper sand cushion material 7 flows down from there, and if the next upper part receives rockfall, the sand cushion material 7 does not work effectively. In the embodiment, even if the lower divided concrete plate 9 is broken, only the broken portion of the sand cushion material 7 flows down, and the upper sand cushion material 7 is retained as it is. However, the sand cushion material 7 works effectively.

FIG. 2 shows a second embodiment of the present invention, in which the same parts as those in the first embodiment are designated by the same reference numerals, and detailed description thereof will be omitted. Pre-cast molded split holder consisting of 13A
The supporting plate portion 10 is integrally projected from the rear surface of the divided concrete plate 9 in the height direction toward the protective wall surface 3, and the supporting plate portion 10 divides the sand cushion material layer 8 in the vertical direction. In this example as well, the wall pressure of the divided concrete plate 9 can be made thin in the lower stage, the divided concrete plate 9 is broken at the time of a rock fall, and the shock absorbing function of the sand cushion material layer 8 works effectively. 1
The same action and effect as those of the embodiment are obtained.

FIG. 3 shows a third embodiment of the present invention, in which the same parts as those in the first embodiment are designated by the same reference numerals, and detailed description thereof will be omitted. The height dimension of the protective wall 2A is relatively low, and the sand cushion material 7 is formed by the divided concrete plate 9 which is a divided precast plate.
The sand cushion material layer 8 is provided on the front surface of the protective wall surface 3, a plurality of divided concrete boards 9 are provided on the front surface of the sand cushion material layer 8, and the divided concrete boards 9 are connected to each other by the joining tool. While being joined by 11, the divided concrete plates 9 are fixed to the protective wall 2 via the anchor members 14.

As described above, in this embodiment, according to claim 1, the protective wall surface 3 is provided so as to face the mountain side Y, and the sand cushion material layer 8 is provided on the front surface of the protective wall surface 3, and In the sand cushion material holding structure in the rockfall protection body in which the sand cushion material holding concrete plate is provided on the front surface of the sand cushion material layer 8, the concrete plate is composed of a divided concrete plate 9 which is a divided precast plate made of glass fiber reinforced concrete. Therefore, by using the divided concrete plate 9 made of glass fiber reinforced concrete, which is superior in strength to ordinary concrete, the divided concrete plate 9 can be made thin and lightweight, and at the same time the glass fiber reinforced concrete can be achieved. Made of split concrete board 9 and sand cushion material 7
The durability can be improved by using it as a holding material.

FIG. 4 shows a fourth embodiment of the present invention, in which the same parts as those in the first embodiment are designated by the same reference numerals, and detailed description thereof will be omitted. The present invention is applied to a rock fall protection fence 21, and a plurality of pillars 23 are erected at an appropriate angle on a concrete foundation 22 provided on the slope of the mountain side Y, and a plurality of horizontal beams are provided on the mountain side Y of the pillar 23.
24 are fixed without a gap, and the mountain side Y surface of the plurality of horizontal beams 24 constitutes a protective wall surface 25, and a retaining column 23A is erected between the upper rear end of the column 23 and the foundation 22. Protective wall 25
Is provided with the sand cushion material layer 8, and the sand cushion material layer 8 is held by a divided holding body 13B. The divided holding body 13B includes a divided concrete plate 9 and a support plate portion.
The same structure as the split support 13 of the first embodiment is used, except that 10 are arranged substantially orthogonally. Also,
A precast lid plate 26 made of glass fiber reinforced concrete is fixed to the upper portion of the sand cushion material layer 8 to close the upper portion.

Also in this example, according to claim 1, the divided concrete plate 9 can be made thin to reduce the weight, and the durability of the holding material can be improved. Further, according to claim 2, Therefore, the wall pressure of the divided concrete plate 9 can be formed thin even in the lower part, and the divided concrete plate 9 can be broken at the time of falling rocks to effectively act the shock absorbing function of the sand cushion material layer 8. Corresponding to the item 3, the load due to the own weight of the upper divided support 13 applied to the lower divided concrete plate 9 can be suppressed to be small, and the same operation and effect as the first embodiment can be obtained.

The present invention is not limited to the above embodiment, but various modifications can be made within the scope of the present invention. For example, the height dimension of the divided concrete plates can be appropriately selected. In FIG. 1, although five divided concrete plates are used, the number of the divided concrete plates can be appropriately selected from 2 to 4, or 6 or more. Further, various structures can be used for fixing the divided support and the divided precast plate to the rockfall protection body. Further, also in the fourth embodiment or the like which is an example of the protective fence, the sand cushion material may be held only by the divided precast 9 as shown in the third embodiment. Furthermore, the rockfall protection body can be applied to various rockfall protection bodies as long as it has an inclined protection wall surface facing the mountain side such as a shed and a keeper. Further, a supporting plate portion may be provided on the upper end of the rear surface of the split concrete plate.

[0025]

According to the invention of claim 1, there is provided a protection wall surface facing the mountain side, a sand cushion material layer is provided on the front surface of the protection wall surface, and a sand cushion is provided on the front surface of the sand cushion material layer. In a sand cushion material holding structure in a rockfall protection body provided with a concrete plate for holding materials, the concrete plate is composed of a divided precast plate made of glass fiber reinforced concrete, which improves durability, transportability and workability It is possible to provide a sand cushion material holding structure in a rockfall protective body which is excellent in heat resistance.

According to the second aspect of the present invention, there is provided a protection wall surface facing the mountain side, a sand cushion material layer is provided on the front surface of the protection wall surface, and a sand cushion material is provided on the front surface of the sand cushion material layer. In a sand cushion material holding structure in a rockfall protective body provided with a holding concrete plate, the concrete plate is divided into a plurality of vertical parts to form divided concrete plates, and the divided concrete plates are directed from the rear surface toward the protective wall surface. The support plate portion that vertically divides the sand cushion material layer is provided so as to integrally project, and the sand cushion material is excellent in retainability and is also broken when falling rocks to improve shock absorption by the sand cushion material layer. It is possible to provide a sand cushion material holding structure in a rock fall protection body that can be performed.

Further, the invention according to claim 3 is the holding structure according to claim 2, wherein the divided concrete plate and the supporting plate part are precast by glass fiber reinforced concrete. It is possible to provide a sand cushion material holding structure in a rock fall protection body that is excellent and that can be broken at the time of rock fall to favorably absorb impact by the sand cushion material layer.

[Brief description of drawings]

FIG. 1 is a sectional view of a protective wall showing a first embodiment of the present invention.

FIG. 2 is a sectional view of a protective wall showing a second embodiment of the present invention.

FIG. 3 is a sectional view of a protective wall showing a third embodiment of the present invention.

FIG. 4 is a sectional view of a protective fence showing a fourth embodiment of the present invention.

FIG. 5 is a cross-sectional view of a protective wall showing a conventional example.

[Explanation of symbols]

 2 Protective wall 3 Protective wall surface 7 Sand cushion material 8 Sand cushion material layer 9 Divided concrete board (divided precast board) 11 Support plate part 13 13A 13B Divided holding body 21 Falling rock protection fence (falling rock protection body) 26 Protective wall surface

Claims (3)

[Claims] 1. A protective wall surface provided facing the mountain side, a sand cushion material layer is provided on the front surface of the protective wall surface, and a sand cushion material holding concrete plate is provided on the front surface of the sand cushion material layer. A sand cushion material holding structure for a rock fall protection body, wherein the concrete plate is a divided precast plate made of glass fiber reinforced concrete. 2. A protective wall surface provided facing the mountain side, a sand cushion material layer is provided on the front surface of the protective wall surface, and a sand cushion material holding concrete plate is provided on the front surface of the sand cushion material layer. In the sand cushion material holding structure in a rock fall protection body, the concrete board is divided into a plurality of pieces in the vertical direction to form a divided concrete board, and the sand cushion material layer is formed from the rear surface of the divided concrete board toward the protective wall surface. A support structure for a sand cushion material in a rock fall protection body, characterized in that a support plate section that vertically divides the rock is integrally projected. 3. The sand cushion material holding structure for a rockfall protection body according to claim 2, wherein the divided concrete plate and the support plate portion are precast by glass fiber reinforced concrete.