JP2018188608A - Manufacturing method of adsorbent for waterproof, cutoff of building construction and shell non adhesion coating of ship's bottom, and cutoff adsorbent construction method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a manufacturing method of an adsorbent ceramic for waterproof, cutoff of a concrete building construction and shell non adhesion coating of a ship's bottom, and a specific adsorbent ceramic construction method.SOLUTION: In a construction method by an adsorbent for waterproof, cutoff of a concrete building construction and shell non adhesion coating of a ship's bottom and the specific absorbent, the waterproof and cutoff adsorbent has an effect to prevent rain leakage by a liquid adsorbent for manufacturing by mixing a liquid acrylic resin, powdery almina cement, and a specific adsorbent ceramic for waterproof, cutoff and shell non adhesion coating, which becomes a liquid adsorbent, manufactured by mixing water with a powdery grain clay mineral pulverized to a grain size of 300 mesh. Also ship's bottom shell adhesion can be prevented and can be solved by an application effect of the specific adsorbent. Further the invention provides a waterproof cutoff construction system, capable of achieving improvement of workability and thorough of waterproof and cutoff by systematizing 5 construction method step to 9 construction method step in the waterproof, cutoff construction method such as a concrete building structure by a specific adsorption ceramic.

Description

The present invention relates to a method for producing an adsorbent for water-stopping of a building structure and a ship shell shell non-coating coating, and a method for constructing the water-stopping adsorbent.

Conventionally, construction related to waterproofing is used regardless of the size of buildings such as construction, building structures, bridge piers, tunnels, roads, and material bridges. The current material is mainly made of cement, a mixture of gravel, sand and water.

In a building structure made of a mixture such as cement, there are problems such as rain leaks, sludge, and condensation.

Therefore, in the waterproofing work of the current material, the deterioration of the structure is rapidly progressing, and the useful life of the building is shortened. For this reason, the conventional waterproofing cement deteriorates due to ultraviolet rays and sludge is generated from cracks. doing.

In addition, rain leaks or condensation occurs.

Next, conventional waterproofing construction has the following methods. One example is unpainted concrete mortar. In this method, the surface deteriorates 10 to 12 years after the concrete is placed, and the head of the stone appears.

Waterproofing work 2 includes sanding roofing exposed asphalt waterproofing work. This method includes a multi-step process using an undercoat, an intermediate coat, a top coat and an anti-slip agent.

As part 3 of the waterproofing work, there is a waterproofing work for waterproofing rubber sheets. This method is available for rooftop construction with silver paint.

There is FRP waterproofing construction as the waterproof construction No.4. In this method, there is a method in which the surface is hard and reinforced with glass fiber.

As waterproofing construction 5 there is urethane waterproofing construction. This construction method includes joints and reinforcement.

As waterproofing construction 6 there is PVC sheet waterproofing construction. There is a waterproof construction that is not painted and the sheet itself is colored.

As described above, the current situation is that the development of new technologies for water-stopping and waterproofing such as rain leakage of concrete structures related to construction of the prior art is being sought today.

Next, there was a demand for a technique for eliminating the non-sealing of shells in the conventional painting, as opposed to the non-sealing of shells around the bottom of a ship-related waterproof coating.

As described above, in the prior art, the gap is caused by the occurrence of fire, condensation, cracks, poor adhesion, junkers, peeling, air-conditioner shaking, and vibrations that start from the leak of the structure due to deterioration of the concrete. Development of new technology was desired.

Therefore, the conventional waterproofing method without a new technology that can completely stop rain leakage has a drawback in the conventional technology. At present, it is ineffective as a repair material and cannot be maintained and preserved.

Therefore, it is clear that the cement used in the concrete construction structure of the conventional construction method cannot eliminate many defects as described above, mainly by the construction method of a mixture of gravel, sand and water.

The present invention is intended to solve such problems of the conventional configuration, and can effectively stop rain leakage of a concrete structure with the water-stopping adsorbent of the present invention, and also adheres to the shell on the bottom of the ship. It is effective for prevention as well as waterproof paint, and is intended to be realized as an adsorbent.

And in order to achieve the above-mentioned object, the present invention relates to a concrete building structure and a method for producing a waterproofing material for preventing shell shell non-coating on the bottom of a ship. It is the manufacturing method of the adsorbent ceramic of this invention structure which can be shut out.

The invention configuration is as follows.

“In the present invention, the main components are silicic acid, magnesium trace metal, and the same components as clay minerals are mixed and mixed to produce a special adsorbent ceramic.
(1) Use of SiO ₂ (pumice),
(2) using Al ₂ O ₃ (aluminum),
(3) using Fl ₂ O ₃ (calcium),
(4) using MgO (magnesium);
(5) Clay mineral material is pulverized to a particle size of 300 mesh to form powder, and the main component, clay mineral material, acrylic resin, alumina cement and water are mixed ”. is there.

Next, regarding the non-shell shell coating on the bottom of the ship, which is the second problem solving means, the waterproof coating of the present invention was made by the manufacturing method of the present invention, which was previously prepared by mixing alumina cement, clay mineral and acrylic resin to form a water-stopping material. Special adsorbent ceramic waterproof paint.

It is the present invention configured to construct a waterproof construction of a hull with this special adsorbent ceramic paint.

Next, the construction will be described below in connection with the construction of a waterproofing construction using the special adsorbent ceramic of the present invention which is the means for solving the third problem.
The adsorptive method of the present invention (water-proofing and water-proof coating of special ceramic materials) is a special adsorbent ceramic (hereinafter referred to as a compounded product) compounded product in five stages of the upper method (concrete structure and other structures are good in concrete) ) The coating method is shown below.

(1) Undercoating method (penetration, hole filling, adsorption)
(2) Intermediate coating method (penetration / hole filling / adsorption / solidification / consolidation) 1 method (3) Intermediate coating method (hole filling / adsorption / solidification / consolidation) 2 method (4) Intermediate coating method (adsorption / adhesion)・ Crack prevention, deterioration prevention, surface protection)
(5) Finish coating method (adhesion, crack prevention, deterioration prevention, surface protection)

Next, a middle stage (slightly deteriorated state of concrete structure or the like) of the 7 construction method with a special adsorbent ceramic compound which is the third problem of the construction method of the present invention will be described below.

(1) Undercoating method (penetration, hole filling, adsorption)
(2) Intermediate coating method (penetration, hole filling, adsorption) 1 method (3) Intermediate coating method (penetration, hole filling, adsorption, solidification, consolidation) 2 method (4) Intermediate coating method (adsorption, solidification, consolidation) -Adhesion) 3 methods (5) Intermediate coating method (solidification, consolidation, adhesion, crack prevention, deterioration prevention, surface protection) 3 Construction method (6) Intermediate coating method (adhesion, crack prevention, deterioration prevention, surface protection) 4 method (7) Finish coating method (cracking prevention, deterioration prevention, surface protection)

Next, the lower stage of the 9 construction method (the deterioration of the concrete structure etc. is very bad) with the blended product of the special adsorbent ceramic of the present invention, which is the means for solving the third problem, is shown below.

(1) Undercoating method (penetration, hole filling, adsorption)
(2) Intermediate coating method (penetration, hole filling, adsorption) 1 method (3) Intermediate coating method (penetration, hole filling, adsorption, solidification, consolidation) 2 method (4) Intermediate coating method (hole filling, adsorption, solidification)・ Consolidation / adhesion) 3 methods (5) Intermediate coating method (adsorption / solidification / consolidation / adhesion / crack prevention / deterioration prevention) 4 method (6) Intermediate coating method (adhesion / crack prevention / deterioration prevention / surface protection) 5 construction methods (7) Intermediate coating method (crack prevention / deterioration prevention / surface protection) 6 construction method (8) Intermediate coating method (crack prevention / deterioration prevention / surface protection) 7 construction method (9) Finish coating method (crack prevention / deterioration prevention)・ Surface protection)

As described above, the construction method according to the present invention is a construction method according to the present invention in which waterproofing is systematized into five construction methods, six construction methods, seven construction methods, eight construction methods, and nine construction methods using raw materials mixed with an adsorbing ceramic material.

In view of the systemized construction method and the deterioration state of the concrete building structure, the present invention is a systemized invention in which waterproof construction is performed by a compatible construction method from three stages (upper, middle, lower), five construction methods to nine construction methods.

As described above, the present invention has a special adsorbent ceramic manufactured by using a special adsorbent and a blended product (a waterstop material produced by mixing acrylic resin, alumina cement, and water). explain.

As an effect, the present invention systemizes a waterproof construction method using the blended product in the adsorbent ceramic produced by the production method of the present invention.

If waterproof construction is performed by blending with the special adsorbent ceramic produced in the present invention, all the conventional drawbacks can be solved. First of all, the rainwater stoppage of concrete structure buildings is completely shut out. Second, the work period can be shortened. The third point is a material that can be waterproofed and water-stopped as a repair material.

The fourth point is the waterproof construction method system of the present invention, which is a system for a waterproof construction method using a special adsorbent ceramic and a blended product.

Furthermore, the present invention is also effective as a ship bottom shell adhesion preventing paint. The present invention is a paint in which the clay mineral of the present invention is mixed with a modified ceramicized acrylic resin. The effect and place of use are not selected, and the effect is as follows.

Furthermore, the effect can be applied to the base of the portion where the seawater is immersed, and it is also effective as an antioxidant. It is an invention that has many effects, such as excellent waterproofing and adhesive effects, preventing rusting of the base, preventing deterioration of the base, no adhesion of shells, and harmless to living organisms.

Embodiments of the present invention will be described below. It is a method for manufacturing an adsorbent for waterproofing and water-stopping of concrete building structures, and non-shell coating on the bottom of a ship, and a construction method for water-stopping adsorbent.

The manufacturing process of the adsorbent ceramic according to the present invention will be described in detail as follows. The details of the implementation and the features of the present invention will be described in detail. As described above, the disadvantage of the concrete building structure is the deterioration of the ground caused by the rain leak. There are a variety of problems depending on the cause, and the situation is dangerous. An important issue is how to take measures against rain leakage and water leakage.

This is the development of a material and a water-stopping repair method with less pursuit of the cause of leakage and less peeling. What is important is that it can be easily manufactured and can be used safely and safely.

The material 1st invention is the special adsorbent ceramic according to claim 1 as a manufacturing method having the effect, and the special enforcement method according to claims 3, 4 and 5 of the present invention as a measure against rain leakage.

The reason for the effect of claim 2 of the present invention will be explained. As a waterproof, water-stopping material and anti-oxidation material for non-shell coating on the bottom of the ship, and an excellent adhesion effect for preventing rust on the base, the effect of preventing non-sealing of the shell. There is.

Accordingly, in the present invention, as described above, the adsorbent ceramic made into a special ceramic is prepared by mixing a mixture of water and an acrylic resin with a ceramicized product obtained by modifying a viscosity mineral obtained by modifying a natural mineral. Waterproof paint manufactured by
Claim 2 is an embodiment of the invention utilizing the invention. Waterproof construction paint for ship structures and coastal buildings.

In the manufacture of waterproofing and waterproofing materials for concrete building structures according to claim 1 of the present invention, the adsorbent ceramic of the waterproofing and waterproofing material is composed of liquid acrylic resin, powdered alumina cement, 300 mesh granular mineral, It is a manufacturing method for adsorbent ceramics manufactured by mixing water.

The said manufacturing method is demonstrated based on a specific Example.
The process outline and construction of the manufacturing method of the liquid adsorbent ceramic are as follows.
First, the admixture material of the present invention can be produced as an adsorbent ceramic by a step of mixing and mixing an acrylic resin, an alumina cement powder-like material, a viscous mineral adhesive, and water, and stirring with a stirrer.

As described above, the adsorbent ceramic water-stop construction blending ratio of the present invention is shown in a table. This table shown below is for the usage ratio in the case of 20 tsubo area.

In the present invention, the manufactured special adsorbent ceramic is modified as a water-resistant waterproof paint (hereinafter referred to as a special adsorbent ceramic) by the above-described production method, and becomes a ceramic having a high adsorbing effect dispersed in water or oil.

Furthermore, the present invention is a developed ceramic that has physical characteristics that can be used within a temperature difference range of -30 ° C to 1000 ° C.

The special adsorbent ceramic according to the present invention has a large function of adsorption, and also works on acids and alkalis, and the effect can be sufficiently applied to each application.

Next, with respect to the claims and claims 3, 4 and 5, the embodiments of the invention will be described below. The present invention is a construction method for waterproofing construction, waterproofing, and liquid special adsorbent ceramics. is there.

A preferred embodiment method for carrying out the invention of claim 3 utilizing the invention of the special adsorbent ceramic of claim 1 will be described below. The waterproof coating at the 5 method stage using the liquid adsorbent ceramic is as follows.
Therefore, the liquid adsorbent ceramic is applied by five methods.
(1) Undercoating method (penetration, hole filling, adsorption)
(2) Intermediate coating method (penetration / hole filling / adsorption / solidification / consolidation) 1 method (3) Intermediate coating method (hole filling / adsorption / solidification / consolidation) 2 method (4) Intermediate coating method (adsorption / adhesion) -Crack prevention, deterioration prevention, surface protection) 3 methods (5) Finish coating method (adhesion, crack prevention, deterioration prevention, surface protection)
It is this invention which can perform the construction method of waterproofing and a water stop adsorbent ceramic characterized by constructing using. If waterproofing work is carried out by the above-mentioned process, work efficiency is improved, and water stoppage and waterproofing are ensured. There is also an effect of improving the durability of the structure.

A preferred embodiment of claim 4 of the present invention will be described below. In the systematization of waterproofing material application for a concrete building structure, the waterproofing coating at the 7 method stage using the liquid adsorbent ceramic is as follows. Follow the process.
Accordingly, the liquid adsorbent ceramic is applied by the seven methods.
(1) Undercoating method (penetration, hole filling, adsorption)
(2) Intermediate coating method (penetration, hole filling, adsorption) 1 method (3) Intermediate coating method (penetration, hole filling, adsorption, solidification, consolidation) 2 method (4) Intermediate coating method (adsorption, solidification, consolidation) -Adhesion) 3 methods (5) Intermediate coating method (solidification, consolidation, adhesion, crack prevention, deterioration prevention, surface protection) 3 Construction method (6) Intermediate coating method (adhesion, crack prevention, deterioration prevention, surface protection) 4 method (7) Finish coating method (cracking prevention, deterioration prevention, surface protection)
This is a waterproof, water-stop, and adsorbent ceramic construction method characterized in that the waterproof construction is constructed using the adsorbent ceramic with the construction of the seven methods described above. If waterproofing work is carried out by the above-mentioned process, work efficiency is improved, and water stoppage and waterproofing are ensured.
There is also an effect that the durability of the structure is further improved.

A preferred embodiment of claim 5 of the present invention will be described below. In the systematization of waterproofing material application for concrete building structures, the waterproofing coating at the 9 construction method stage using the liquid adsorbent ceramic is as follows. The process is as follows.
Therefore, liquid adsorbent ceramic is applied by 9 methods. (1) Undercoating method (penetration, hole filling, adsorption)
(2) Intermediate coating method (penetration, hole filling, adsorption) 1 method (3) Intermediate coating method (penetration, hole filling, adsorption, solidification, consolidation) 2 method (4) Intermediate coating method (hole filling, adsorption, solidification)・ Consolidation / adhesion) 3 construction methods (5) Intermediate coating method (adsorption / solidification / consolidation / adhesion / crack prevention) 4 construction methods (6) Intermediate coating method (adhesion / crack prevention / deterioration prevention / surface protection) 5 construction methods ( 7) Intermediate coating method (crack prevention / deterioration prevention / surface protection) 6 construction method (8) Intermediate coating method (crack prevention / deterioration prevention / surface protection) 7 construction method (9) Finish coating method (crack prevention / deterioration prevention / surface protection) )
The present invention is capable of carrying out a waterproof and water-stopping adsorbent ceramic construction method according to claim 1, characterized in that the construction of waterproofing is carried out by using an adsorbent ceramic with the above-mentioned nine construction methods. If waterproofing work is carried out by the above-mentioned process, work efficiency is improved, and water stoppage and waterproofing are ensured. There is also an effect of improving the durability of the structure.

The present invention is a waterproof paint using a special adsorbent ceramic, and the waterproof construction system of coating method 5 to 9 has the effect of being used for various purposes such as rain leakage countermeasures and ship shell adhesion prevention countermeasures.

Claims (5)

In the method of manufacturing an adsorbent for waterproofing, waterstop and non-shell shell coating on a concrete building structure, and the construction method using the adsorbent, the adsorbent for the waterproof and waterstop is composed of liquid acrylic resin and powdered alumina. Water, water stoppage and non-shell coating on the bottom of a ship, characterized by mixing water with cement and powdery viscosity minerals pulverized to a particle size of 300 mesh to produce a liquid adsorbent ceramic. Production method of adsorbent. 2. The adsorbent ceramic for shell bottom non-coating coating according to claim 1, wherein the liquid adsorbent ceramic is used for non-shell base coating on the bottom of the boat. In the systematization of the waterproof material application for the concrete building structure described above, the waterproof application in the five construction methods using the liquid adsorbent ceramic is as follows.
Therefore, the liquid adsorbent ceramic is applied by five methods.
(1) Undercoating method (penetration, hole filling, adsorption)
(2) Intermediate coating method (penetration / hole filling / adsorption / solidification / consolidation) 1 method (3) Intermediate coating method (hole filling / adsorption / solidification / consolidation) 2 method (4) Intermediate coating method (adsorption / adhesion) -Crack prevention, deterioration prevention, surface protection) 3 methods (5) Finish coating method (adhesion, crack prevention, deterioration prevention, surface protection)
The construction method for waterproof and water-stopping adsorbent ceramic according to claim 1, characterized in that the construction is performed using In the systematization of the waterproof material application for the concrete building structure described above, the waterproof application in the 7 method steps using the liquid adsorbent ceramic is as follows.
Therefore, the liquid adsorbent ceramic is applied by 7 methods.
(1) Undercoating method (penetration, hole filling, adsorption)
(2) Intermediate coating method (penetration, hole filling, adsorption) 1 method (3) Intermediate coating method (penetration, hole filling, adsorption, solidification, consolidation) 2 method (4) Intermediate coating method (adsorption, solidification, consolidation) -Adhesion) 3 methods (5) Intermediate coating method (solidification, consolidation, adhesion, crack prevention, deterioration prevention, surface protection) 3 Construction method (6) Intermediate coating method (adhesion, crack prevention, deterioration prevention, surface protection) 4 method (7) Finish coating method (cracking prevention, deterioration prevention, surface protection)
The waterproof, water-stop, and adsorbent ceramic construction method according to claim 1, wherein the waterproof construction is constructed using the adsorbent ceramics with the construction of the seven construction methods described above. In the systematization of the waterproof material application for the concrete building structure described above, the waterproof application at the 9 construction method stage using the liquid adsorbent ceramic is as follows.
(1) Undercoating method (penetration, hole filling, adsorption)
(2) Intermediate coating method (penetration, hole filling, adsorption) 1 method (3) Intermediate coating method (penetration, hole filling, adsorption, solidification, consolidation) 2 method (4) Intermediate coating method (hole filling, adsorption, solidification)・ Consolidation / adhesion) 3 construction methods (5) Intermediate coating method (adsorption / solidification / consolidation / adhesion / crack prevention) 4 construction methods (6) Intermediate coating method (adhesion / crack prevention / deterioration prevention / surface protection) 5 construction methods ( 7) Intermediate coating method (crack prevention / deterioration prevention / surface protection) 6 construction method (8) Intermediate coating method (crack prevention / deterioration prevention / surface protection) 7 construction method (9) Finish coating method (crack prevention / deterioration prevention / surface protection) )
The waterproof and water-stopping adsorbent ceramic construction method according to claim 1, wherein the construction is performed using adsorbent ceramics with the construction of the nine construction methods.