JP3126293U - Concrete floor slab and concrete wall slab - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent a titanium oxide from peeling off, to prevent stains and deterioration, to maintain a permanent beauty and high strength, and to consider a clinker ash recyclability and Provide a concrete wall slab.
A concrete floor slab laid on a road or a passage formed by kneading at least cement, aggregate, water, titanium oxide, a water reducing agent, and an additive for bonding. Only clinker ash is used as a material. A concrete wall slab standing on a road, which is formed by kneading at least cement, aggregate, water, titanium oxide, a water reducing agent, and an additive for bonding. Use only ash.
[Selection] Figure 1

Description

  The present invention relates to a concrete floor slab laid on a road or a passage and a concrete wall slab erected on a road.

In recent years, there is a panel material used as an outer wall or an inner wall of a building using titanium oxide as one of molding materials.
JP-A-11-349327 JP 2000-38706 A

  Titanium oxide undergoes a so-called photocatalytic action that decomposes microorganisms and organic substances by receiving light (particularly ultraviolet rays), and acts to decompose microorganisms and organic substances adhering to the panel material. Therefore, as long as titanium oxide is effectively present, there is a great advantage in that the panel material is permanently prevented from being stained and deteriorated, the panel material is kept beautiful, and its strength is kept high as it is.

  However, since the panel material described in Patent Document 1 is provided with a titanium oxide layer containing a large amount of titanium oxide on the surface of the base material, the titanium oxide layer is easily peeled off, and the photocatalytic action is short (6 There is a problem that it ends in about a month).

  Moreover, since the product disclosed in Patent Document 2 is provided with a film by spraying titanium oxide powder on the surface of the concrete base, it is also easily peeled off, and the photocatalytic action cannot be caused permanently.

  Accordingly, both the panel materials described in both publications have the problem that dirt adheres within a relatively short period of time, and the deterioration progresses and the strength decreases.

On the other hand, a large amount of coal is burned every day in a thermal power plant, and as a result, a large amount of coal ash such as clinker ash, which is a combustion residue, is generated. Until now, since there is no effective use of coal ash such as clinker ash, most of it has been treated as waste.
Therefore, effective utilization of coal ash such as clinker ash to be treated as waste is desired.

  Therefore, the purpose of the present invention is to prevent titanium oxide from peeling off, to prevent dirt and deterioration, to keep it permanently beautiful and high in strength, and to recycle clinker ash. It is to provide concrete floor slabs and concrete wall slabs with consideration for the properties.

In order to achieve the above object, the concrete slab of the present invention is a concrete slab laid on a road or a passage,
It is formed by kneading at least cement, aggregate, water, titanium oxide, a water reducing agent and an adhesive additive, and is characterized by using only clinker ash as the aggregate.

Moreover, the concrete wall slab of the present invention is a concrete wall slab installed on the road,
It is formed by kneading at least cement, aggregate, water, titanium oxide, a water reducing agent and an adhesive additive, and is characterized by using only clinker ash as the aggregate.

Furthermore, the present invention is characterized in that it is attached to a handrail provided on the road.
Further, the present invention is characterized in that the weight of the clinker ash is equal to or more than the weight of cement.
The present invention is characterized in that it is formed by kneading alkali-resistant glass fibers.
Further, the present invention is characterized in that SBR (styrene butadiene rubber) is used as the additive.
Further, the present invention is characterized in that the clinker ash is made into particles of 2.5 mm or less.
Further, the present invention is characterized in that the clinker ash is made into particles of 2.5 mm to 8 mm.

In addition, the concrete floor slab of the present invention is a concrete floor slab laid on a road, a passage,
It is formed by kneading at least cement, aggregate, water, titanium oxide, a water reducing agent and SBR (styrene butadiene rubber), and uses only clinker ash as the aggregate, and the weight of the clinker ash Is set to be equal to or greater than the weight of the cement.

Moreover, the concrete wall slab of the present invention is a concrete wall slab installed on the road,
It is formed by kneading at least cement, aggregate, water, titanium oxide, a water reducing agent and SBR (styrene butadiene rubber), and uses only clinker ash as the aggregate, and the weight of the clinker ash Is set to be equal to or greater than the weight of the cement.

  The concrete floor slab and concrete wall slab of the present invention are formed by kneading titanium oxide in addition to cement, aggregate, water, water reducing agent, and additive for bonding. In addition, it is possible to prevent the concrete floor slab and the concrete wall slab from being stained and deteriorated. Here, since titanium oxide is kneaded into cement or the like, it does not peel off from its surface, so that photocatalytic action is permanently maintained, and the concrete floor slab and concrete wall slab are white and beautiful and have high strength. Can be maintained.

In addition, the titanium oxide photocatalyst purifies the atmosphere and water quality, and also exhibits sterilization and deodorizing effects. Therefore, the use of this concrete floor slab and concrete wall slab can contribute to the improvement of the natural environment. is there.
In particular, when mixed with alkali-resistant glass fibers, it is possible to obtain higher strength than ordinary concrete products without being affected by the alkali components contained in the cement, and the strength state is maintained by the titanium oxide photocatalyst. .

Also, only clinker ash is used as an aggregate to be kneaded with cement. Preferably, the weight of the clinker ash is more than the weight of cement, so that the clinker ash discarded from the thermal power plant is effectively used. Can do.
Clinker ash is strong against water, strong against solar heat, and has excellent weather resistance and durability, so it can be fully used when used in excess of the weight of cement. it can. Also, the clinker ash component is approximately 90% the same as the mountain soil component (silica 60%, alumina 30%), and when the concrete made by sufficiently mixing the clinker ash is decomposed, it returns to "soil" and returns. Soil is excellent in recyclability as a resource because it is rich in ventilation, water flow, water retention and does not become hard, and it becomes a soil that works well for fertilizer.

  Further, since SBR (styrene butadiene rubber) is used as an additive, the molded concrete floor slab and concrete wall slab can be made sticky and strong.

  Moreover, by using a clinker ash having a particle size of 2.5 mm or less, a concrete floor slab and a concrete wall slab excellent in water retention can be obtained. Suppress the rise. This has the effect of relieving the heat island.

Furthermore, a concrete floor slab and a concrete wall slab excellent in water permeability can be obtained by molding using clinker ash having particles of 2.5 mm to 8 mm. The particles at this time are porous and have a specific surface area of 4 to 5 mm ² / g, which is about twice as large as that of sand, and have an effect of particularly excellent sound absorption. The sound absorption coefficient of a normal concrete wall not using clinker ash is about 2%, whereas the sound absorption coefficient of a concrete wall slab formed using clinker ash made of particles of 2.5 mm to 8 mm is about 20%. It is. Therefore, noise can be prevented by standing a concrete wall slab directly on a road such as an expressway or sticking it on a railing.

With reference to FIG. 1, the concrete floor slab 10 which concerns on embodiment of this invention is demonstrated.
FIG. 1 shows a state in which a concrete floor slab 10 according to an embodiment of the present invention is laid on a road (including a sidewalk or a promenade) and a sand 12 on a roadbed / base layer 11 constituting a passage. It is shown.

A concrete floor slab 10 according to an embodiment of the present invention is formed by kneading cement, aggregate, water, titanium oxide, a water reducing agent (admixture), and an additive for adhesion. In addition, it can shape | mold by knead | mixing an alkali-resistant glass fiber further, and can make it increase a intensity | strength. By mixing the alkali-resistant glass fiber, the strength is higher than that of a normal concrete product without being affected by the alkali component contained in the cement.
This molding is performed by pouring the kneaded material into a mold, curing it for a certain time, and then removing it from the mold.

Here, as the aggregate, only clinker ash is used, and the weight of the clinker ash is set to be more than the weight of cement.
And the particle | grains of 2.5 mm or less were used as a clinker ash particle | grain, and the concrete floor slab 10 excellent in water retention was shape | molded by this. That is, an increase in road surface temperature is suppressed by removing heat of vaporization during evaporation due to water retention. Therefore, the road surface temperature can be suppressed in summer, and the road surface temperature can be warmed in winter.
When the change in the air gap was measured by solar heat, the concrete floor slab 10 according to the embodiment of the present invention has a life span of 2 to 3 years if it is a commonly used asphalt-based one even though there is no change. The result that becomes.
Moreover, SBR (styrene butadiene rubber) is used as an additive to improve stickiness and strength.

  Further, in this concrete floor slab 10, titanium oxide is kneaded into cement or the like, so that titanium oxide is not peeled off from the surface of the concrete floor slab 10 as in the prior art, and thus the photocatalytic action is permanent. In this way, microorganisms, organic substances and the like adhering to the concrete floor slab 10 are decomposed to prevent contamination and deterioration. Therefore, the concrete floor slab 10 is permanently maintained in whiteness, and the high strength of the concrete is maintained as it is.

  In addition, the concrete floor slab 10 excellent in water permeability can be shape | molded by using clinker ash as a particle | grain of 2.5 mm-8 mm.

  In the case of the concrete floor slab 10 according to the embodiment of the present invention, specifically, 300 kg of cement and 1,200 kg of aggregate 100% of clinker ash (here, assumed to be four times the weight of cement) It was molded by kneading 250 kg of water, 5 kg of titanium oxide, 20 cc of a water reducing agent (admixture), and 20 cc of SBR (styrene butadiene rubber).

  Next, a concrete wall slab 20 according to an embodiment of the present invention will be described with reference to FIG. FIG. 2 shows a state in which a concrete wall slab 20 according to an embodiment of the present invention is attached to a height (1500 mm (1.5 m)) of a rail (concrete L-shaped slab) 21 provided on an expressway. It is.

The concrete wall slab 20 according to the embodiment of the present invention is formed by kneading cement, aggregate, water, titanium oxide, a water reducing agent (admixture), and an adhesive additive, like the concrete floor slab 10. Is. In addition, it can shape | mold by knead | mixing an alkali-resistant glass fiber further, and can make it increase a intensity | strength. By mixing the alkali-resistant glass fiber, the strength is higher than that of a normal concrete product without being affected by the alkali component contained in the cement.
This molding is performed by pouring the kneaded material into a mold, curing it for a certain time, and then removing it from the mold.

Here, as the aggregate, only clinker ash is used, and the weight of the clinker ash is set to be more than the weight of cement.
And as a particle | grains of clinker ash, the particle | grains of 2.5 mm-8 mm were used, and the concrete wall slab 20 which is excellent in sound absorption property by this was shape | molded.
As shown in FIG. 2, a noise receiver 23 emits a 90.9 db sound from the noise transmitter 22 and is 10000 mm (10 m) away from the handrail (concrete L-shaped plate) to which the concrete wall plate 20 is attached. When the received sound was measured through the cable, it was 54.7 db. However, as shown in FIG. 3, when the concrete wall slab 20 was not attached, the received sound was 62.3 db, and the concrete wall It was found that the noise of 7.6 db was reduced by providing the plate 20.

  Moreover, SBR (styrene butadiene rubber) is used as an additive to improve stickiness and strength.

  Further, in this concrete wall slab 20, since titanium oxide is kneaded with cement or the like, the titanium oxide is not peeled off from the surface of the concrete wall slab 20 as in the prior art, so that the photocatalytic action is permanent. In this way, microorganisms, organic substances, etc. adhering to the concrete wall slab 20 are decomposed and contamination and deterioration are prevented. Therefore, the whiteness of the concrete wall slab 20 is permanently maintained, and the high strength of the concrete is also maintained as it is.

  In addition, the concrete wall plate 20 excellent in water retention can also be shape | molded by using a particle | grain of 2.5 mm or less as clinker ash. That is, an increase in the temperature of the wall surface is suppressed by removing heat of vaporization during evaporation by water retention.

  In the case of the concrete wall slab 20 according to the embodiment of the present invention, like the concrete floor slab 10, specifically, 300 kg of cement and 1,200 kg of aggregate clinker ash 100% (here, the weight of cement) 4 times the same), water 250 kg, titanium oxide 5 kg, water reducing agent (admixture) 20 cc, SBR (styrene butadiene rubber) 20 cc.

It is a partial section perspective view showing the state where the concrete floor slab concerning the embodiment of the present invention was laid. It is a fragmentary sectional side view which shows the state which provided the concrete wall slab which concerns on embodiment of this invention. It is a fragmentary sectional side view which shows the state which does not provide the concrete wall slab which concerns on embodiment of this invention.

Explanation of symbols

10 Concrete floor slab 11 Roadbed / base layer 12 Laying sand 20 Concrete wall slab 21 Handrail (concrete L-shaped slab)
22 Noise transmitter 23 Noise receiver

Claims (10)

Concrete floor slabs laid on roads and passages,
A concrete floor slab formed by kneading at least cement, aggregate, water, titanium oxide, a water reducing agent and an adhesive additive, and using only clinker ash as the aggregate . A concrete wall slab standing on the road,
A concrete wall slab formed by kneading at least cement, aggregate, water, titanium oxide, a water reducing agent and an adhesive additive, and using only clinker ash as the aggregate .   The concrete wall slab according to claim 2, wherein the concrete wall slab is attached to a handrail provided on the road.   The concrete floor slab and concrete wall slab according to any one of claims 1 to 3, wherein the weight of the clinker ash is equal to or greater than the weight of cement.   The concrete floor slab and concrete wall slab according to any one of claims 1 to 4, wherein the concrete floor slab is formed by kneading alkali-resistant glass fibers.   The concrete floor slab and concrete wall slab according to any one of claims 1 to 5, wherein SBR (styrene butadiene rubber) is used as the additive.   The concrete floor slab and concrete wall slab according to any one of claims 1 to 6, wherein the clinker ash is made into particles of 2.5 mm or less.   The concrete floor slab and concrete wall slab according to any one of claims 1 to 6, wherein the clinker ash is made into particles of 2.5 mm to 8 mm. Concrete floor slabs laid on roads and passages,
It is formed by kneading at least cement, aggregate, water, titanium oxide, a water reducing agent and SBR (styrene butadiene rubber), and uses only clinker ash as the aggregate, and the weight of the clinker ash Is a concrete floor slab characterized by having a weight equal to or greater than the weight of the cement. A concrete wall slab standing on the road,
It is formed by kneading at least cement, aggregate, water, titanium oxide, a water reducing agent and SBR (styrene butadiene rubber), and uses only clinker ash as the aggregate, and the weight of the clinker ash Is a concrete wall slab characterized by having a weight equal to or greater than the weight of the cement.

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