JP3337674B2 - Concrete composition and heating equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a concrete composition containing a ceramic material and a carbon material and a heating device using the same.

[0002]

2. Description of the Related Art In recent years, buildings and houses often use concrete. A building using such concrete has many advantages such as excellent soundproofing and fireproofing.

[0003]

However, in a building made of concrete, since the sealing property is high, it is difficult for moisture and chemical substances contained in an adhesive used during construction to come out, and this is important for human health. Could have an adverse effect. In addition, even when heating in winter, concrete has low heat conductivity, the time for retaining heat is short, and the heating efficiency is low in spite of the high hermeticity.

[0004] It is an object of the present invention to provide a concrete composition capable of minimizing the influence of moisture and chemical substances on the human body and realizing a building having high heating efficiency, and a heating device using the same. .

[0005]

Means for Solving the Problems In order to solve the above-mentioned problems, the invention according to claim 1 provides a concrete and a ceramic which contains silicon, magnesium and aluminum at least and is obtained through a sintering step. A concrete composition comprising a ceramic material and a carbon material.

According to the first aspect of the present invention, the ceramics and the carbon material contained in the concrete composition easily absorb moisture and chemical substances, exhibit far infrared rays and have a high heat storage effect. When the concrete composition is used for a building including a house, the influence on the human body by moisture and chemical substances is smaller than that of the conventional concrete, and the concrete composition has high heating efficiency. in addition,
The salt contained in the concrete is absorbed by the ceramics and the carbon material, and the deterioration of the concrete can be prevented.
Here, the weight ratio of the ceramic material to the carbon material in the concrete composition may be 0.1% to 5% based on the balance between the desired effect and the cost described above.
%, And the carbon material is preferably 0.5 to 25%. The ceramics may contain components other than silicon, magnesium, and aluminum.

In the concrete composition according to the first aspect, as in the second aspect, the ceramic contained in the ceramic material is obtained by sintering a powdery inorganic substance containing silica, magnesium oxide, and alumina. Dissolved in an acidic aqueous solution, neutralized this solution, and dried the powder obtained.Water was added, and the mud was turned into a mud. It is preferably obtained by the above method. Here, the circulation process refers to, for example, a process of circulating mud in a circulation path including a plurality of pipes.

[0008] Ceramics obtained by such a manufacturing method are excellent in heat storage effect because they emit far more infrared rays. In addition, it absorbs moisture and chemical substances well and exerts negative ions to exert a favorable effect on the human body. In addition, it has excellent antibacterial properties. Therefore, the effect of the concrete composition of the present invention is further enhanced by including the ceramic.

In the first or second aspect, since the ceramic material is a material containing ceramics, it may be composed of only ceramics. Alternatively, the ceramics may be mixed with a resin and formed into a granular form. May be done. By mixing with a resin as in claim 3, it is possible to process into a desired shape, to suppress the amount of ceramics used, and to reduce the cost.

[0010] In the concrete composition according to any one of claims 1 to 3, as the carbon material, for example, various types of charcoal, carbon fiber, activated carbon and the like can be used.
In particular, it is preferable that at least bamboo charcoal is included as in the invention described in claim 4. It may also contain charcoal such as Bincho charcoal. Bamboo charcoal is known to have excellent various effects such as a deodorizing and dehumidifying effect, a far-infrared ray effect, an effect of exerting negative ions, and an effect of blocking electromagnetic waves. Therefore, the effect of the concrete composition of the present invention is further enhanced by including bamboo charcoal.

According to a fifth aspect of the present invention, there is provided a heating apparatus comprising the concrete composition according to any one of the first to fourth aspects and a heater provided in close proximity to the concrete composition. . According to the invention as set forth in claim 5, the concrete composition according to claims 1 to 4 and a heater provided in close proximity to the concrete composition, and the concrete composition has a high far-infrared effect. Once heated, the concrete composition emits far-infrared rays for a long time, resulting in a heating device with high heating efficiency. In claim 5, the heater and the concrete composition may be provided so as to be in direct contact with each other, or another member having high thermal conductivity may be interposed between the heater and the concrete composition.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the concrete composition according to the present invention will be described in detail. Concrete composition of the present invention, concrete, at least silicon, magnesium, and aluminum as a component, and a ceramic material containing a ceramic obtained through a sintering step,
It is characterized by containing a carbon material. The concrete used here is mainly composed of cement, water and aggregate, and may be of a kind generally used as a building material.

The ceramic according to the present embodiment is manufactured as follows. First, a raw material inorganic material such as silica, magnesium oxide, alumina, zirconia, or the like is pulverized into a powder having a diameter of 10 microns or less. As a raw material inorganic substance, for example, silica 50
%, 20% of magnesium oxide, 20% of alumina, and 10% of zirconia in which the respective oxides are mixed. Next, the powdered inorganic substance thus obtained is sintered at 400 to 800 ° C. for 4 to 8 hours.

To the inorganic powder after sintering, an aqueous sulfuric acid solution (30% concentration) having a weight three times that of the powder is added and stirred. Thereafter, the liquid portion is taken out, and the liquid is neutralized by adding caustic soda (aqueous sodium hydroxide solution, concentration: 30%) having the same weight as the aqueous sulfuric acid solution. Remove the water of the obtained neutralized solution, dried by spray drying method,
An intermediate powder is obtained. Next, water is added to the intermediate powder to obtain a slurry. The mud is circulated for several hours to several tens of hours while applying a pressure within a certain range, for example, a pressure of 100 to 500 Pascal. After the circulation treatment, when dried, the ceramic used in the present invention is obtained.

[0015] The ceramics thus obtained are:
It emits a lot of far-infrared rays and has an excellent heat storage effect. In addition, it adsorbs a large amount of water and chemical substances and exerts negative ions, thereby exerting a favorable effect on the human body. In addition, it has excellent antibacterial properties, and has performance far exceeding that of conventional ceramics.

The ceramics produced as described above are kneaded with a heated synthetic resin and then molded into granules to obtain a ceramic material. As the synthetic resin used here, many general-purpose synthetic resins can be used, and for example, polyethylene or polypropylene can be used. Here, the particles of the ceramic material are formed into an elongated shape having a diameter of, for example, 1.3 mm and a height of about 2 mm. The weight ratio between the resin and the ceramic is 70: 3.
It is preferably about 0 to 95: 5, particularly preferably 90: 1.
It is about 0. When the ratio of the resin is less than 70%, the ratio of the ceramics increases, and the cost increases.
On the other hand, if it is higher than 95%, the above-mentioned effect of the ceramics is undesirably reduced.

The carbon material in the present embodiment is made of charcoal and bamboo charcoal. Bincho charcoal is preferred as charcoal. Bamboo charcoal has more pores and more minerals than charcoal, and it has deodorant and dehumidifying effects, far-infrared radiation effect, negative ion effect, and electromagnetic wave shielding effect.
It is known to have excellent various effects. Bincho charcoal also has a small hole among the charcoals, and is excellent in deodorizing and dehumidifying effects and far-infrared rays effect. The ratio of bamboo charcoal to Bincho charcoal is not particularly limited, but may be about 40:60 to 60:40.

The concrete composition of the present invention is obtained by mixing the above-mentioned ceramic material and carbon material with fresh concrete made of cement, water, aggregate and the like. The weight ratio of the ceramic material in the concrete composition is 0.1.
1% to 5% is preferable, and the weight ratio of the carbon material is also 0.1%.
5-25% is preferred. If the ceramic material content is less than 0.1% or the carbon material content is less than 0.5%, the desired effect cannot be obtained. Further, when the ceramic material content exceeds 5% or when the carbon material content exceeds 25%, the cost increases, which is not preferable.

As a concrete example of the concrete composition of the present invention, a mixture obtained by mixing 10 polymer parts of a ceramic material and 100 polymer parts of the same weight mixture of a carbon material and water is mixed with fresh concrete. Added to the above. In this case, as the carbon material, a mixture of bamboo charcoal and bincho charcoal in the same weight is used, and the ratio of the mixture of the ceramic material, the carbon material, and water is 3 to 10% by weight based on the entire concrete composition. Is preferred.

The heating device of the present invention is a combination of the concrete composition and a heater provided in close proximity to the concrete composition.
A heater using a liquid material such as water or oil as a heat medium is provided.

The concrete composition and the heating device of the present invention can be used under floors of buildings including general houses. FIG. 1 specifically shows the concrete composition and the heating device. First, a ready-mixed concrete mixture 1 obtained by mixing a carbon material obtained by mixing bamboo charcoal and Bincho charcoal in the same weight with ready-mixed concrete consisting of cement, water and aggregate, is shown in FIG.
As shown in (a), under the floor of the building, a thickness of about 2
Flow into a predetermined frame so as to be 0 cm. Fresh concrete mixture 1
Are dried evenly on the surface of the ready-mixed concrete mixture 1 and the surface is flattened with a trowel or the like, and then dried to obtain the concrete composition of the present invention.

Next, as shown in FIG. 1 (b), a heater 3 is placed on the concrete composition 5, a mortar 4 is flowed thereon to a thickness of 2 to 3 cm, and dried. Thus, the heating device 6 of the present invention is obtained. A board floor can be provided on the mortar 4.

As described above, the concrete composition according to the present embodiment contains ceramics obtained by a specific production method and a carbon material comprising bamboo charcoal and Bincho charcoal. This ceramic emits a large amount of far-infrared rays and thus has an excellent heat storage effect. It also adsorbs a lot of water and chemicals. Bamboo charcoal and Bincho charcoal are excellent in deodorization and dehumidification, and far infrared rays effect. Therefore, when this concrete composition is used for a building including a house, the influence on the human body by moisture and chemical substances is smaller than that of the conventional concrete, and a high heating efficiency is obtained. In addition, salt contained in concrete is absorbed by ceramics and carbon,
It can also prevent concrete deterioration.

The heating device 6 comprising the concrete composition 5 of the present invention and the heater 3 as shown in FIG. 1 emits far infrared rays from the concrete composition 5 once heated by the heater 3 for a long time. The heat storage effect is high and the heating efficiency is high. Further, since the ceramic material is not a ceramic alone but a mixture of a ceramic and a resin, the ceramic material can be processed into a desired shape, the amount of the ceramic used can be suppressed, and the cost can be reduced. Furthermore, when the concrete composition of the present invention is used for a wooden house, the generation of termites can be suppressed by a high dehumidifying effect.

In the heating apparatus of the present invention, as shown in FIG. 1B, the mortar 4 may not be provided on the heater 3 or the heater 3 may be provided between the concrete composition of the present invention. You may do so. In short, it is only necessary that the concrete composition and the heater are in close proximity and the heat from the heater is transmitted to the concrete composition. Further, the concrete composition and the heating device of the present invention are not only under the floor,
It may be provided in a wall or the like.

[0026]

According to the first aspect of the present invention, when a concrete composition is used for a building including a house, the effect of moisture and chemical substances on the human body is smaller than that of conventional concrete. In addition, it has a high heating efficiency. Further, by using a ceramic obtained by a specific manufacturing method as described in claim 2 as the ceramic contained in the ceramic material or by using a material containing bamboo charcoal as described in claim 4 as the carbon material, higher effects can be obtained. Can be obtained. When the ceramic is mixed with the resin as in the third aspect, the resin can be processed into a desired shape, the amount of the ceramic used can be suppressed, and the cost can be reduced.

According to the invention described in claim 5, according to claim 1 of the present invention,
4 and a heater provided in the vicinity of the concrete composition. Since the concrete composition has a high far-infrared effect, the concrete composition once warmed by the heater has a long time. In this way, far-infrared rays are exhibited, resulting in a heating device with high heating efficiency.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view schematically showing a heating device using a concrete composition of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Ready-mixed concrete 2 Ceramic material 3 Heater 4 Mortar 5 Concrete composition 6 Heating device

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int. Cl. ⁷ , DB name) C04B 28/02-28/10 C04B 14/00-14/36 C04B 20/02

Claims (5)

(57) [Claims] 1. A concrete composition comprising concrete, a ceramic material containing at least silicon, magnesium and aluminum as components and containing a ceramic obtained through a sintering step, and a carbon material. 2. Ceramics are obtained by sintering a powdered inorganic substance containing silica, magnesium oxide and alumina, dissolving the same in an acidic aqueous solution, neutralizing the solution, and drying the powder. The concrete composition according to claim 1, which is obtained by circulating a mud-like substance at a predetermined pressure for a predetermined time and then drying it. 3. The concrete composition according to claim 1, wherein the ceramic material is a mixture of a resin and ceramics and molded into granules. 4. The concrete composition according to claim 1, wherein the carbon material contains at least bamboo charcoal. 5. A heating apparatus comprising the concrete composition according to claim 1 and a heater provided in proximity to the concrete composition.