JP2005021881A - Deterioration prevention of transferred matter and object and improvement effect on durability performance, and manufacturing method used therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem that a generally and mainly used method for coating with a transparent material for topcoating as thinly as possible is unable to provide degradation prevention and durability performance semipermanently in order to preserve the object because the surfaces of all the objects are directly exposed to air. <P>SOLUTION: The subject method is characterized in that a transferred matter and an object are thickly coated with the transparent material under vacuum, that the transferred matter and the object are sandwiched and fixed under vacuum with transparent material plates, or that the object is fixed in between the melted transparent material under vacuum in order to make a plate therefrom. Thereby, the deterioration prevention and durability performance are semipermanently given to the object so as to enable the preservation. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

The present invention relates to an effect of preventing deterioration of a transfer body and an object, improving durability, and a manufacturing method thereof.

Conventionally, many objects, such as automobiles, are commonly used to apply overcoats and coating while spraying the transparent material for top coating as thin as possible on the surface of the object as a finishing material to prevent deterioration and enhance durability. The method is mainstream, or coating compositions for overcoating and cured bodies have been proposed, while fine meshes and lined sheet glass have also been proposed.

In other words, the surface of all objects is directly exposed to the outside air, and the general mainstream usage method that coats the transparent material for overcoating as thinly as possible keeps it permanently protected from deterioration and durability. It was impossible.
Therefore, as a result of intensive studies, the inventor coats the transfer body and the object thickly with a transparent material in a vacuum, and sands and fixes the transfer body and the object with a transparent material plate in a vacuum. Alternatively, it is possible to maintain the object semi-permanently by providing a manufacturing method characterized by fixing the object in a vacuum in the center of the melted transparent material and making it into a plate. The invention relating to the manufacturing method is completed.
JP 2003-26997 A Public use Showa 60-82437

The problem to be solved is that all objects are directly exposed to the outside air, and the general mainstream usage of coating the transparent material for overcoating as thinly as possible gives semi-permanent deterioration prevention and durability performance. It was impossible to keep them safe.

In the present invention, the transfer body and the object are thickly coated with a transparent material in a vacuum, and the transfer body and the object are sanded and fixed with a transparent material plate in a vacuum. Alternatively, it is possible to maintain the object semi-permanently by providing a manufacturing method characterized by fixing the object in a vacuum in the center of the melted transparent material and making it into a plate. The invention relating to the manufacturing method is completed.

The transfer body and the object of the present invention are thickly coated with a transparent material in a vacuum, and fixed by sanding in a vacuum with a transparent material plate. Alternatively, it is possible to maintain the object semi-permanently by providing a manufacturing method characterized by fixing the object in a vacuum in the center of the melted transparent material and making it into a plate. Generated the effect of By using a transparent material as a liquid, there is an advantage that it can be used for all objects. In addition, the effect of changing all objects to super-strength is also generated.

In the manufacturing method characterized by coating the transfer body and the object with a transparent material thickly in a vacuum, it can be used for all objects by using a liquid as the transparent material. It is common sense to use the same transparent material as the surface of the object. And the result is that all the objects are prevented from deterioration and durability performance is greatly changed, the strength is changed semipermanently, and the effect of powerful force that can be maintained occurs, so the best usage is for buildings etc. More preferably, thicker coatings are used for objects where other objects produce higher added value.

This is a kind of flameproof mesh sheet made by weaving synthetic polyester with a flame-retardant coating layer made of vinyl chloride resin, and weaving synthetic fibers in a net shape, and painting on the surface. This structure is the only suitable manufacturing method for producing products that do not raise the temperature of experience by 8 degrees or more, and is transparent in the mesh sheet holes. Cover the material with a spatula, let the air go out, vacuum the inside of the hole, coat both sides thinly while spraying transparent material, and coat to a suitable thickness

Cover the transparent material with a spatula, let the air go out, evacuate the inside of the hole, let the transparent material averagely flow slightly on both sides, sand both sides with a thin transparent material plate, and the suitable thickness With the roller set to, the remaining amount of the liquid transparent material is taken out, and all of them are fixed in close contact with vacuum, and are fixed and completed with the necessary transparent material plate with a picture. Of course, if it is made of transparent glass, it is a plate glass, and if it is made of transparent acrylic, it is a transparent acrylic plate. Therefore, the transparent material is not limited to a material to be made. This completes the invention of the manufacturing method characterized in that the transfer body and the object are sanded and fixed in a vacuum with a transparent material plate.

Definition of a new product manufacturing method that does not raise the sensory temperature by more than 8 degrees. First of all, the material that has a strong blocking power and shading power that can greatly prevent direct sunlight is metal, and as much sunlight as possible. The material with high reflectivity uses a stainless steel plate on the surface, and the back surface is pasted with black carbon fiber, and it is possible to freely create that the perceived temperature will not be raised significantly by more than 8 degrees with large and small holes on the surface, and At the same time, we invented that the brightness of the room can be freely created. And if you don't complete the back with a black structure, you won't be able to achieve a great effect that doesn't raise the sensation temperature significantly. And because it does not occur. The point is not the surface. One important point is how much light can pass through the surface and then create a shadow. The method is to make the back side black,

It occurs only when sunlight passes through. In addition, when commercializing using this material, it is fixed to the center of the melted transparent glass in a vacuum for manufacturing, and is made into a plate glass. Although the entire surface of the glass is a single color, the interior maintains a suitable brightness, the interior is fully visible from the outside, the eyes and sunlight are cut from the outside, privacy is protected, etc. It is a product that emphasizes the function of not being raised, and in production, it is fixed in a vacuum in the center of the melted transparent material and made into a plate, so suitable materials to manufacture are acrylic and plastic, etc. It is not limited as long as it is a transparent material, and is determined by the intended use of the product. Thus, the present invention has been completed by finding the best mode of the manufacturing method characterized in that the object is fixed in a vacuum in the center of the melted transparent material to form a plate.

First, in order to put it on a passenger car, the product that was the experiment made the actual house the size of a kennel. A professional carpenter and a person with a gait more than a joinery craftsman made this product. Building a small house was very difficult and time consuming. First, in order to process the thinned wood into a plate that is not too thick and make it into a square square state with 4 pieces, the width of the 2 pieces is overlapped to make the width smaller, and the square of the partition plate that fits neatly inside The shape plate is processed with the same plate, and a partition plate is inserted at an average interval from the top of the pillar, and it is fixed by adhesive using an equipment, creating a stronger column than the real one, When it is used vertically as a pillar and the whole is in close contact with an adhesive to form a thick plate, it has both a pillar and a wallboard. An integrated super-strength building material was created.

Then, the upper and lower plates were stacked and processed into a round shape with steam at a time to form a round pillar. I made a sample of a round and spherical house using a round pillar in the same way as a paper balloon. I confirmed that anything could be made even in wooden construction. Using a real imitation, as a foundation, it was made to adhere to both sides of an ultra-strength new building material with an adhesive at the same time to create a finished member, realizing a free prefabricated house shape and color.

Furthermore, when all of the finished parts are brought into close contact with the adhesive again, they are fixed together with one-touch fittings, which is a double safe method. After completion of all construction, in order to give the effect of preventing deterioration and durability again, the entire outer surface that directly touches the outside air down to the floor is thickly coated with urethane transparent resin in a vacuum, and the strength is strongly changed, We built a house that can be permanently and permanently maintained.

As a result, the phenomenon that the experimental object deteriorated even now after seven years does not appear to be fine dust, and maintains the same quality as at the time of manufacture. We recognize this as a permanent change in durability. At the same time, the imitation product was affixed to a concrete board and the transparent resin was coated in the same thickness as in the vacuum. It was the same result, and it was confirmed that many parts could be used for the base.

In addition, the thickness of the board that is not too thick to be used and the length of the board that is used as the column are also compatible with all usage aspects of the members of the super-strength new building material, and the board has a suitable thickness that can maintain the value calculated by weight calculation It is only necessary to make a pillar, and a plate that is not as thick as possible can be used. This is because it has become possible to create an ultra-low-priced wooden structure with a good economic effect rate that eliminates waste as much as possible.

This is a kind of disaster-proof mesh sheet made by weaving synthetic polyester fiber with a flame resistant coating layer made of vinyl chloride resin, and weaving synthetic fibers in a net shape, and painting on the surface. This structure is painted with a machine and the back side is black. This structure is the only suitable manufacturing method for producing a product that does not raise the perceived temperature by more than 8 degrees. With a spatula, let the air go out, vacuum the inside of the hole, apply both layers thinly while spraying transparent material, and coat to a suitable thickness

Cover the transparent material with a spatula, let the air go out, vacuum the inside of the hole, flow the transparent material slightly thick on both sides, sand both sides with a thin transparent material plate, and set it to a suitable thickness The remaining amount of the transparent liquid material is taken out by the roller, and the inside of the liquid transparent material is fixed in close contact with a vacuum to fix and complete the necessary transparent material plate with a picture. Of course, if it is made of transparent glass, it is a plate glass, and if it is made of transparent acrylic, it is a transparent acrylic plate. Therefore, the transparent material is not limited to a material to be made. This completes the invention of the manufacturing method characterized in that the transfer body and the object are sanded and fixed in a vacuum with a transparent material plate.

As a result, the phenomenon that the experimental object deteriorated even now after seven years does not appear to be fine dust, and maintains the same quality as at the time of manufacture. We recognize this as a permanent change in durability.

When using a foam material for the groundwork, we will produce an imitation that reproduces an ultra-light real thing with imitation and can maintain strength and semi-permanent deterioration and durability.

In a manufacturing method characterized by fixing the object in a vacuum in the center of the melted transparent material to form a plate, the transparent material is made of glass and the glass is made of acrylic, and the acrylic plate is made of acrylic. If the object metal is made thinner and the carbon fiber is made thinner, it is possible to make it with thin flat glass, and in order to create a product that does not significantly increase the temperature of experience, make the object a little thicker, and make the transparent material If it is thicker, it is possible to easily create thick glass sheets. Any other transparent material that can be used for other purposes is possible. An energy-saving house that helps prevent global warming and does not require a cooler can be realized simply by replacing the window glass.

Claims (3)

A manufacturing method characterized by coating a transfer body and an object with a transparent material thickly in a vacuum. A manufacturing method characterized by sanding and fixing a transfer body and an object to a vacuum with a transparent material plate. A manufacturing method characterized in that the object is fixed in a vacuum in the center of a melted transparent material to form a plate.