JP3188776U - Safety flexible lens structure with soft backpad - Google Patents

Abstract

PROBLEM TO BE SOLVED: To be superior to a conventional glass material because it can be used as glass, can be bent, has drop resistance and is hard to break, is lightweight and thin, and has excellent portability and heat resistance. It provides a safety and flexibility lens structure with a soft back pad. A safety-flexible lens structure having a soft back pad includes a light-reflecting material layer 11, a flexible transparent material layer 12, and a soft back pad layer 13. The light-reflecting material layer 11 is made of a coating material that reflects light and has two surfaces. The flexible transparent material layer 12 is bonded to one surface of the light reflecting material layer 11 and has light transmission to reflect an external image. The soft back pad layer 13 is bonded to the other surface of the light reflecting substance layer 11 to obtain heat resistance. The flexible transparent material layer 12 is a flexible transparent material. [Selection diagram] FIG. 1A

Description

  The present invention relates to a safety and flexibility lens structure having a soft back pad, and in particular, can be applied to exterior walls, wall materials, partitions, and various interior building materials in a room, as well as to buildings. Can be applied to science and technology field, electronics field, vehicle material field and solar energy field. Since it consists of a combination of small parts, it can be easily stored and stored and applied to each science and technology field. The present invention relates to a safety flexible lens structure having a soft back pad that can be used.

Due to improvements in building technology and aesthetics, the proportion of glass materials used for building walls, partitions, and various interiors in the room is becoming increasingly high. This is because a glass material can be used as a light transmission coating film. Before modern architecture was formed, glass used as a coating film was applied to many architectures.
The light-transmitting coating film can be used for the maximum amount of daylighting by the window because of the necessity of daylighting, and it is a conventional glass application to insert the glass into the window frame. The glass material re-entered the turning point by the 19th century glass house.

  By the 19th century, the status of glass as a building material has already been established, and in the 18th century, glass skylights have already been adopted in many buildings. In conventional glass houses, glass walls are used for skylights or other wall surfaces other than windows, and the glass material is formed as a full coating film. As can be seen from the above, glass materials are now essential for building materials.

Glass was harder than ordinary articles, but was easy to break. Therefore, when glass is used as a building material, it will be cracked on the surface when it hits the object, and in the worst case, the glass may break. Sometimes things hit the glass wall and break.
In addition to buildings, for example, there are situations where glass is used in the fields of science and technology, electronics, vehicle materials, and solar energy, but generally in this field, conditions higher than normal temperature are likely to occur. In general, glass is very dangerous because it may crack at high temperatures.

  Therefore, it has a function like glass, can be bent, has a drop resistance, is hard to break, is lightweight and thin, has a property such as excellent portability and heat resistance, etc. It was sought after.

  The purpose of the present invention is that it can be used as glass, is bendable, has drop resistance, is difficult to break, is lightweight and thin, has excellent portability and heat resistance, etc. It is an object of the present invention to provide a safety-flexible lens structure having a soft back pad superior to the above.

  In order to solve the above problems, according to the first aspect of the present invention, there is provided a safety flexible lens structure having a soft back pad provided with a light reflecting material layer, a flexible transparent material layer, and a soft back pad layer. The light reflecting material layer is made of a coating material that reflects light and has two surfaces, and the flexible transparent material layer is bonded to one surface of the light reflecting material layer and transmits light. A safety flexible lens structure having a soft back pad is provided, wherein the soft back pad layer has heat resistance by reflecting an external image, and the soft back pad layer is bonded to the other surface of the light reflecting material layer to obtain heat resistance. Is done.

  Preferably, the light reflecting material layer is a silver layer, and a single layer of silver mirror is formed on the flexible transparent material layer.

  Preferably, the light reflecting material layer is a copper layer, and a single layer of copper mirror is formed on the flexible transparent material layer.

  Preferably, the light reflecting material layer is an alloy layer, and a single layer of alloy mirror is formed on the flexible transparent material layer.

  Preferably, the light reflecting material layer is a chemical fusion layer, and a single layer of chemical fusion mirror is formed on the flexible transparent material layer.

  Preferably, the light reflecting material layer is a metal fusion layer, and a single layer of metal fusion mirror is formed on the flexible transparent material layer.

  The flexible transparent material layer is preferably a flexible transparent material.

  The flexible transparent material layer is preferably made of a transparent film, tear resistant paper, cloth or flexible plastic.

  The flexible plastic is preferably made of polyethylene terephthalate.

  The flexible plastic is preferably made of polyethylene naphthalate.

  The flexible plastic is preferably made of polyvinyl chloride.

  The flexible plastic is preferably made of polyimide.

  The flexible plastic is preferably made of polypropylene.

  The soft back pad layer is preferably made of polyethyleneimine.

It is a perspective view showing a safety flexible lens structure having a soft back pad according to an embodiment of the present invention. It is sectional drawing which shows the safety flexible lens structure which has a soft back pad which concerns on one Embodiment of this invention. It is a perspective view showing a safety flexible lens structure having a soft back pad according to an embodiment of the present invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited thereby.

Please refer to FIG. 1A and FIG. 1B. FIG. 1A is a perspective view illustrating a safety flexible lens structure having a soft back pad according to an embodiment of the present invention. FIG. 1B is a cross-sectional view illustrating a safety flexible lens structure having a soft back pad according to an embodiment of the present invention.
As shown in FIGS. 1A and 1B, a safety flexible lens structure 1 having a soft back pad according to an embodiment of the present invention includes a light reflecting material layer 11, a flexible transparent material layer 12, and a soft back pad layer 13. including. As shown in FIGS. 1A and 1B, the light reflecting material layer 11 has two surfaces. The flexible transparent material layer 12 is bonded to one surface of the light reflecting material layer 11. The soft back pad layer 13 is bonded to the other surface of the light reflecting material layer 11.

The light reflecting material layer 11 is made of a coating material that reflects light. The light reflecting material layer 11 includes, for example, a silver layer that forms a silver mirror, a copper layer that forms a copper mirror, an alloy layer that forms an alloy mirror, and a chemical fusion that forms a chemical fusion mirror. It is a metal fusion layer that forms an electroplating chemical fusion layer and a metal fusion layer.
The flexible transparent material layer 12 is a flexible transparent material. When light passes through the flexible transparent material layer 12, the flexible transparent material layer 12 reaches the light reflecting material layer 11, and the light reflecting material layer 11 reflects the light so that the image is flexible. Reflected to the transparent material layer 12. Thus, the flexible transparent material layer 12 can reflect an external image like a mirror.

The soft back pad layer 13 is made of polyethyleneimine (PEI). Polyethyleneimine used in the present invention is a polyetherimide resin film of thermoplastic high heat engineering plastic, a product of Mitsubishi Plastics, which includes heat resistance, chemical resistance, weather resistance, combustion resistance, thermoformability, etc. With the characteristics of
In particular, the glass transition point of polyethyleneimine is extremely high in thermoplastic resins, and has a property that the size change is small even when heated to 210 ° C. Therefore, it can be extended for a long time even in a high temperature environment. Therefore, when the soft back pad layer 13 and the light reflecting material layer 11 made of this material are combined and one surface of the soft back pad layer 13 is attached to the surface of a building such as a wall surface or an outer wall surface, the safety flexibility The lens structure 1 can obtain high heat resistance.

As can be seen from the above, the safety flexible lens structure 1 composed of the light reflecting material layer 11, the flexible transparent material layer 12, and the soft back pad layer 13 has a mirror function and can be bent. It has drop resistance, is hard to break, is lightweight and thin, has excellent portability, and has heat resistance and other characteristics.
Therefore, when the safety flexible lens structure 1 is applied to a building, it can be used as a highly safe building material. In addition, even if it is accidentally dropped on the ground, it does not break like conventional glass, so it can prevent inadvertent injuries when used by users and greatly increase the safety of use. it can.

The flexible transparent material layer 12 includes a transparent film, tear-proof paper, cloth, flexible plastic (for example, polyethylene terephthalate, polyethylene naphthalate, polyvinyl chloride, polyimide, or polypropylene), It consists of a material with transparency. Therefore, the entire safety-flexible lens structure 1 has characteristics such as being bendable, having drop resistance and being hard to break, being lightweight and thin, having excellent portability and heat resistance. Therefore, when the safety flexible lens structure 1 is cut, an expensive cutter is not required as compared with the conventional hard glass material, and various types of cutting can be easily performed.
When cutting a conventional hard glass material, it may be broken carelessly and may cause injuries and losses that are difficult to predict, but such a problem does not occur in the safety flexible lens structure 1. .

In addition, since a large light reflector is required in the exterior walls, wall materials, partitions of buildings, and many interior interiors, for example, a dance classroom as shown in FIG. When interiors are to be provided, a plurality of soft back pad layers 13 of the safety flexible lens structure 1 of the present invention need to be stuck on the indoor wall surface 2 of the butoh classroom.
Since the flexible transparent material layer 12 is formed outward, when the user stands on the front surface of the flexible transparent material layer 12 of the safety flexible lens structure 1, the flexible transparent material layer 12 is formed due to image reflection characteristics. You can see your actions in the image reflected through.

  Besides applying to general buildings, the safety flexible lens structure 1 of the present invention can be applied to hard glass materials in the fields of science and technology, electronics, vehicle materials, and solar energy. In these fields, heat-resistant glass is currently used because it is used in a high-temperature environment. However, even with heat-resistant glass, the conventional glass cannot be prevented from being heavy and easily broken. When the safety flexible lens structure 1 of the present invention is used, it is possible to obtain heat resistance characteristics and to prevent the conventional glass from being broken and becoming a dangerous situation.

The safety flexible lens structure having the soft back pad of the present invention has the following advantages (1) to (3).
(1) It can be used as glass, can be bent, has drop resistance, is difficult to break, is lightweight and thin, has excellent portability and heat resistance, etc., and replaces conventional glass materials be able to.
(2) It can be applied to building exterior walls, wall materials, partitions, and various interior interior materials, as well as to the future in science and technology, electronics, vehicle materials, solar energy, It can be used as a cellular phone component or solar energy condensing material, used in the space field, spread and stored, and used as a building material or advertising billboard.
(3) Since it is manufactured by combining small parts, it can be easily stored and stored, and can be applied to various science and technology fields by combining the convenient characteristics.

  The preferred embodiments of the present invention have been disclosed as described above so that those skilled in the art can understand them, but these do not limit the present invention in any way. Various changes and modifications can be made without departing from the spirit and scope of the present invention. Accordingly, the scope of the utility model registration claim of the present invention should be broadly interpreted including such changes and modifications.

DESCRIPTION OF SYMBOLS 1 Safety flexible lens structure 2 Indoor wall surface 11 Light reflection substance layer 12 Flexible see-through material layer 13 Soft back pad layer

Claims (14)

A safety flexible lens structure having a soft back pad comprising a light reflecting material layer, a flexible transparent material layer, and a soft back pad layer,
The light reflecting material layer is made of a coating material that reflects light and has two surfaces,
The flexible transparent material layer is bonded to one surface of the light reflecting material layer and has an optical transparency to reflect an external image,
The soft back pad layer is bonded to the other surface of the light reflecting material layer and has heat resistance.
Safety flexible lens structure with soft back pad. The light reflecting material layer is a silver layer,
The safety flexible lens structure having a soft back pad according to claim 1, wherein a silver mirror is formed on the flexible transparent material layer. The light reflecting material layer is a copper layer;
The safety flexible lens structure having a soft back pad according to claim 1, wherein a single layer of copper mirror is formed on the flexible transparent material layer. The light reflecting material layer is an alloy layer,
The safety flexible lens structure having a soft back pad according to claim 1, wherein an alloy mirror of one layer is formed on the flexible transparent material layer. The light reflecting material layer is a chemical fusion layer;
The safety flexible lens structure having a soft back pad according to claim 1, wherein a single layer of chemical fusion mirror is formed on the flexible transparent material layer. The light reflecting material layer is a metal fusion layer;
The safety flexible lens structure having a soft back pad according to claim 1, wherein a single layer of a metal fusion mirror is formed on the flexible transparent material layer.   The safety flexible lens structure having a soft back pad according to claim 1, wherein the flexible transparent material layer is a flexible transparent material.   The safety flexible lens structure having a soft back pad according to claim 1, wherein the flexible transparent material layer is made of any one of a transparent film, tear-resistant paper, cloth, and flexible plastic.   The safety flexible lens structure having a soft back pad according to claim 8, wherein the flexible plastic is made of polyethylene terephthalate.   The safety flexible lens structure having a soft back pad according to claim 8, wherein the flexible plastic is made of polyethylene naphthalate.   The safety flexible lens structure having a soft back pad according to claim 8, wherein the flexible plastic is made of polyvinyl chloride.   The safety flexible lens structure having a soft back pad according to claim 8, wherein the flexible plastic is made of polyimide.   The safety flexible lens structure having a soft back pad according to claim 8, wherein the flexible plastic is made of polypropylene.   The safety flexible lens structure having a soft back pad according to claim 1, wherein the soft back pad layer is made of polyethyleneimine.

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