KR20060033231A - Optical insulating material for an interior building - Google Patents

Abstract

The present invention relates to an optical insulation material for building interior, and a condenser lens group (11) for condensing sunlight is provided on one surface to radiate hot heat to the other surface of the heat insulating member (10) for absorbing and purifying the condensed sunlight. The thermal radiation pad 12 is provided, and the thermal radiation pad 12 is provided with a reflection lens group 13 for reflecting the hot heat emitted in the room.

Therefore, instead of using chemical materials that are harmful to the human body and pollute the environment, the use of nature-friendly materials not only sterilizes the building but also keeps it warm, and heat loss occurs when the residents living in the building perform heating. It does not have energy saving effect, and is prevented from being contaminated by bacteria such as various molds, thus creating a comfortable living environment.

In addition, it is not only effective for sound insulation and insulation of buildings, but also effectively blocks ultraviolet rays causing various diseases, and is suitable for nuclear power plants, nuclear waste storage, cold and cold storage, military facilities, nuclear hospitals, schools, underground facilities, etc. And it is a very useful invention such as to be able to contribute to the profit creation of the producer according to the supply.

Description

Optical Insulating Material for an Interior Building}             

1 is a partial enlarged cross-sectional view of the configuration of the present invention.

2 is a schematic view showing a use state of the present invention.

3 is a cross-sectional view showing an embodiment of the present invention.

4 is a perspective view showing another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10-insulation member 11-condensing lens group

12-Thermal radiation pad 13-Reflective lens group

The present invention relates to an optical insulation material for building interior, and more specifically, to enjoy energy saving effect through the use of environmentally friendly materials, and invented to prevent the occurrence of various diseases through effective blocking of ultraviolet rays. will be.

In general, a multi-family house such as an apartment that forms an exterior wall made of bricks and cement may emit heat and air generated inside the building to the outside when a resident living in the room performs air conditioning using an air conditioning system. The heat insulating material is installed and used so that the thing can be suppressed.

There are many such thermal insulation materials, but various synthetic materials such as styrofoam and urethane are the most widely used.

That is, the heat insulating material is installed in close contact with the inner side of the outer wall side of the apartment is composed of cement, etc., the heat and cold air generated in the room is not discharged to the outside by the heat insulating material.

Therefore, the temperature of the interior of the building through the insulation as described above was able to maintain a constant temperature desired by the occupants.

The conventional building interior insulation material configured as described above is installed in close contact with the inside of the outer wall of a multi-family house such as an apartment to prevent heat and cold generated in the room from being discharged to the outside, but it is harmful to the human body and pollutes the environment. There are a number of problems with this.

In other words, styrofoam and urethane widely used as a heat insulating material is a flammable substance that is harmful to the human body, causing rapid ignition in the event of a fire, as well as generating a large amount of toxic gas, which is a direct cause of a large accident.

In addition, when moisture or the like is generated due to a temperature difference generated between the outer wall of the building and the heat insulator, there may be problems such as bacteria such as various molds and various insects such as cockroaches and ticks.

To solve this problem, air purifier or charcoal is used to remove harmful substances from indoor air. However, when the filter or activated carbon is filled with harmful substance molecules, it is inconvenient to continuously remove the harmful gases and to replace them. There were also closures that could be costly.

Therefore, the present invention is to solve the above problems, not only harmful to the human body, but also to create an environmentally friendly living environment through the use of nature-friendly materials instead of the use of chemical insulation that pollutes the environment and destroys the natural ecosystem. The purpose is.

An object of the present invention is to provide an optical insulation material for building interior that can be used to create an environment-friendly residential environment as well as energy saving effect through the use of a natural material.

Another object of the present invention is to provide an optical insulation material for building interiors that is effective in insulation, sound insulation, and heat insulation, and also effectively blocks ultraviolet rays causing various diseases.

The present invention for achieving the above object is provided with a heat collecting pad for condensing hot heat to the other side of the heat insulating member for collecting and condensing the collected solar light on one side of the condenser lens group for condensing sunlight, The thermal radiation pad is provided with a group of reflective lenses for reflecting the hot heat emitted inside the room.

Therefore, when the present invention having the above-described configuration is installed inside the outer wall of the building, the condenser lens group condenses and rapidly transmits the sunlight, and radiates together with the far infrared rays through the thermal radiation pad after the heat insulating member effectively absorbs and purifies it. In addition, the radiated hot heat is reflected through the reflective lens group to maintain room temperature, control and adiabatic action.

In addition, after the present invention is installed on the upper surface of the concrete slab layer constituting each floor of the building, when the foundation concrete layer is laid on the upper part of the optical insulation material, noises such as vibration and shock transmitted from the concrete slab layer are transmitted. Sound insulation and sound insulation effectively.

Therefore, the sterilization of the building, as well as the role of heat retention, and the residents living in the building does not cause heat loss when heating, and is prevented from being contaminated by bacteria such as various molds to create a comfortable living environment You can do it.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an enlarged cross-sectional view of a part of the configuration of the present invention, provided with a condenser lens group for condensing sunlight to a heat insulating member having a predetermined thickness, and receiving light from the condenser lens group to the other surface of the heat insulating member to emit A thermal radiation pad is provided, and the thermal radiation pad is provided with a group of reflective lenses for reflecting hot heat.

Figure 2 is a schematic view showing a state of use of the present invention, a schematic view showing a state in which the present invention is installed and used inside the outer wall of the building where the light collecting means for condensing sunlight is installed.

3 is a cross-sectional view showing an embodiment of the present invention, and shows that the wall surface of a building is constructed through the present invention manufactured in a predetermined size.

4 is a perspective view showing another embodiment of the present invention, showing a state in which the present invention is installed between the concrete slab layer constituting each floor of the building and the foundation concrete layer in which the heating pipe is embedded.

That is, as shown in Figure 1, the present invention is configured to create a comfortable, environmentally friendly living environment by suppressing the use of chemical insulating materials harmful to the human body, the condensing lens group 11 for absorbing solar heat is provided on one surface And heat radiation pads 12 radiating hot heat to the other surface of the heat insulating member 10 for absorbing and purifying the concentrated solar heat, and one surface of the heat radiation pads 12 reflects the hot heat radiated. It is a basic feature of the technical configuration that the reflective lens group 13 is provided.

In this case, the condensing lens group 11 and the reflecting lens group 13 may use a bead lens made of optical glass so as to receive solar heat from any direction and rapidly transmit or reflect light.

In addition, the heat insulating member 10 is adsorbed and purified through the condensing lens group 11 to effectively absorb and purify, and at the same time to have a sterilizing effect ocher, palm tree salt, jade, zeolite, white ash is mixed to use It is produced by adjusting the shape, thickness and width accordingly.

The ocher, palm salt, jade, zeolite, and white ash are materials that emit far infrared rays, and the effects of far infrared rays emitted from these substances on the human body will be described as follows.

Far infrared rays are a kind of electromagnetic waves that actively perform the physiological function of cells, generate heat energy, and have a photoelectric effect of releasing harmful substances.

In addition, far-infrared rays are less reflected or scattered in the air than ultraviolet rays or visible rays, and are less likely to cause scattering. Therefore, far-infrared rays penetrate the air well. It also has the effect of activating the energy generating molecules due to the resonance absorption phenomenon caused by the vibration of the radiation penetration force molecules.

After all, when the far infrared rays are absorbed by the human body, the physiological action of the cells is activated, and the photoelectric effect of releasing harmful substances by generating thermal energy is excellent, and the purification and degrading power have an effect of neutralizing toxicity.

That is, at the same time to purify the hot heat supplied to the room through the hole of the fine particles formed while forming the heat insulating member 10 with the above-mentioned ocher to emit far-infrared rays and the sterilization effect to eradicate bacteria in the air at the same time It will be done.

In addition, the thermal radiation pad 12 is provided on the other side of the heat insulating member 10 to store the purified sunlight and radiate it with hot heat so that the heat-absorbing mica and palm bark char and carbon can effectively radiate hot heat. Activated carbon consisting of a mixture is prepared.

Therefore, the optical insulating material (1) of the present invention is a bead lens 30%, activated carbon 20%, biotite 10%, white ash 5%, jade 5%, ocher 20%, zeolite 5%, palm salt 5%, mixing mortar 5% By compression molding in turn, it is possible to maintain and control the room temperature through the use of nature-friendly materials, as well as thermal insulation and sound insulation by the effect of heat insulation.

As shown in FIG. 2, an optical insulator 1 is formed inside the outer wall w of a nuclear power plant, a nuclear waste storage, a cold and cold storage, a military facility, a nuclear hospital, a school, an underground facility, etc. Is installed to form the space portion 2 is to keep warm and insulated so that the temperature of the room is not drastically lowered, and also to neutralize the radiation and pollutants.

In this case, a separate light collecting means 20 is installed on the outer wall of the building so as to more effectively supply solar heat to the light collecting lens group 11 that collects solar heat.

The light concentrator 21 and the light collecting lens 22 for condensing sunlight with the light collecting means 20 are installed on the outer wall w of the building, connected to the space 2 from the outside of the building, and amplified light at the tip. It is preferable that the optical fiber group 23 to which the amplifying lens 24 is coupled is provided in the condenser lens 22 to effectively supply solar heat to the condenser lens group 11 installed inside the outer wall w of the building. .

It is more preferable to install a prism 25 between the light collector 21 and the light collecting lens 22 to send solar heat to a desired position. The light is decomposed by the prism 25 to be sent out according to an appropriate purpose. You will be able to.

That is, sunlight, which is natural light, is collected through the condenser 21 and then transmitted through the prism 25 for proper use, and the condenser lens 22 amplifies it, and the amplified sunlight is spaced from the outside of the building (2). The light is transmitted to the amplification lens 24 provided at the tip through the optical fiber group 23 connected to the light emitting device.

Here, the condensing means 20 is not necessarily limited thereto as an example of condensing sunlight, and the solar light is injected into the space 2 so that the heat insulation and sterilization of the building is performed according to the present invention. It will be noted in advance that the light collecting means 20 are all included in the scope of the present invention.

On the other hand, when the present invention is installed and used as a wall of the building, as shown in Figure 3, the through hole 14 in the optical insulation (1) is good to pass through the various reinforcing bars required for the construction of the building, the guide groove ( 15) It is desirable to prevent interference with the brackets used to secure the rebars.

In addition, the coupling protrusion 16 is protruded at one end so that the stacking state can be more firmly fixed when the laminate is installed after forming and manufacturing to a predetermined size, and the mating member accommodates the coupling protrusion 16. The groove 17 is excavated.

Therefore, when the optical insulating material 1 of the present invention is installed in the outer wall (w) of the building through the above configuration, the condenser lens group 11 composed of the bead lens of the optical glass collects sunlight collected from the condensing means 20. It is supplied in the direction and is rapidly transmitted, and the heat insulating member 10 effectively absorbs and purifies, and radiates hot heat together with far infrared rays through the thermal radiation pad 12, and the radiated hot heat is reflected lens group 13 It is reflected through) to maintain room temperature, control and insulation.

That is, solar heat, which is natural light generated from the sun, is supplied to the space part 2 through the light collecting means 20, and is transmitted to the present invention, thereby performing sterilization and thermal insulation of the building, and also living in the building. When heating is performed, no heat loss is generated, and contamination by various fungi and other bacteria is prevented, thereby creating a comfortable living environment.

In addition to another embodiment of the optical insulation material 1 of the present invention, as shown in Figure 4, it is also used as a housing floor by installing on top of the concrete slab layer (3) constituting each floor of the building.

That is, after installing the optical insulating material (1) of the present invention on the upper surface of the concrete slab layer (3) constituting each floor of the building, the foundation concrete layer (4) is poured on top of the heating insulation pipe (5) When the buried is effectively soundproof and sound insulation, such as vibration and shock transmitted from the concrete slab layer (3).

In addition, the heat dissipated from the heating pipe 5 is prevented from being lost to the outside or the outside of the cold air to penetrate it is not directly affected by the external temperature change so that the internal temperature of the building does not change rapidly.

This is very suitable when the room temperature must be kept constant, such as in winter or summer.

Therefore, by applying the building interior optical insulation material of the present invention configured as described above to the building to keep the temperature of the building is not drastically lowered and insulated, and also to prevent harmful ultraviolet rays to the human body by radiating beneficial far-infrared radiation It will be able to eradicate germs, etc. and provide a pleasant and eco-friendly living environment.

According to the configuration of the present invention as described above, by using a natural friendly material instead of a chemical material that is harmful to the human body and pollutes the environment, it performs sterilization and thermal insulation role of the building, and also the residents living in the building heating Since the heat loss does not occur when performing, there is an energy saving effect, and it is prevented from being contaminated by bacteria such as various molds, thereby creating a comfortable living environment.

In addition, it is not only effective for sound insulation and insulation of buildings, but also effectively blocks ultraviolet rays causing various diseases, and is suitable for nuclear power plants, nuclear waste storage, cold and cold storage, military facilities, nuclear hospitals, schools, underground facilities, etc. And it is a very useful invention such as to be able to contribute to the profit creation of the producer according to the supply.

Claims (3)

Condensing lens group 11 for condensing the sunlight is provided on one surface is provided with a thermal radiation pad 12 for radiating hot heat to the other surface of the heat insulating member 10 for absorbing and purifying the collected solar light, this Thermal radiation pad 12 is a built-in optical insulation for building interior, characterized in that the reflective lens group 13 is provided to reflect the hot heat emitted to the room. The method of claim 1, wherein the heat insulating member 10 is built-in optical insulation for building interior, characterized in that the mixture is made of ocher, palm salt, jade, zeolite, white ash. The thermal insulation pad 12 according to any one of claims 1 to 2, wherein the thermal radiation pad 12 is manufactured by mixing activated charcoal and biotite composed of charcoal and carbon with coconut shells.

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