KR20190015654A - Insulation wall panel with solar panel - Google Patents

Abstract

The present invention relates to an insulation exterior material integrated with a solar panel. The insulation exterior material integrated with the solar panel of the present invention includes: an exterior material main body in which a plurality of pressing protrusion parts protrude forward by a pressing process; a solar panel provided in at least one pressing protrusion part chosen among the pressing protrusion parts; and an insulator provided on the rear of the exterior material main body.

Description

{Insulation wall panel with solar panel}

The present invention relates to a solar panel-integrated heat-insulating exterior material, and more particularly, because it is a building material integrally provided with a solar panel, it can be applied to various facilities such as an outer wall of a building instead of a wall, And more particularly to a solar panel integrated thermal insulation material which can supply and activate environmentally friendly solar power generation more efficiently by increasing various added value.

Solar power generation is an environmentally friendly power generation method that uses solar panels with several solar cells attached.

In recent years, the demand for renewable energy has increased, and the production and application of solar panels are increasing. Such a solar panel is frequently used in connection with an electronic product in a place where electricity supply is not smooth, such as a street lamp on a road.

On the other hand, when the building is constructed, the outer wall can be used for the insulation of the outer wall. If the solar panel can be applied to the outer wall, the insulation wall material provides the environmentally friendly solar power through the outer wall It is necessary to develop the technology.

Korea Patent Office Application No. 10-2016-0177792

It is an object of the present invention to provide a solar cell module which can be applied instead of a wall to various facilities including the outer wall of a building because the solar panel is integrally provided, And to provide solar panel integrated thermal insulation materials which can be supplied or activated.

In order to achieve the above-mentioned object, the present invention provides a solar panel integrated thermal insulation material having the following constitution.

A plurality of pressing protrusions protruding forward by pressing;

A solar panel provided in at least one of the pressing protrusions selected from the pressing protrusions; And

And an insulator provided on a rear surface of the exterior material main body.

At this time, the plurality of pressing protrusions,

A plurality of first pressing protrusions into which the solar panel is inserted; And

And a plurality of second pressing protrusions having a smaller size than the first pressing protrusions and disposed around the first pressing protrusions to form a decorative panel.

The solar panel inserted into the first pressing projection is preferably a flexible solar panel.

And a glass plate disposed on a front surface of the solar panel to protect the solar panel.

At this time, the thickness of the glass plate may be made thicker than the thickness of the solar panel.

And a connecting plate disposed on a rear surface of the solar panel to electrically connect the solar panels.

And an energy-standing wireless communication power control unit, which is disposed between the connecting plate and the insulator and is operated by the solar panel, for inserting the building wall before the insulator is closed.

And the energy-standing type wireless communication power control unit for building wall built-in can be exposed to the outside.

According to the present invention, since the solar panel is a building material integrally provided, there is an effect that it can be applied to various facilities including an outer wall of a building instead of a wall. In addition, it has the effect of promoting more environmentally friendly photovoltaic power generation by promoting not only economical efficiency but also various added value. In addition to the function of providing solar power generation, it is used as an exterior material, thereby reducing the construction cost and improving the beauty of the building. In addition, it can contribute to the zero energy building business with the new paradigm of future architecture as the built-in concept from the concept that solar power generation and building wall are separated from existing ones.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a solar panel integrated thermal insulation material according to an embodiment of the present invention; FIG.
2 is a plan view of Fig.
3 is a front view of Fig.
Fig. 4 is a rear view of Fig. 1; Fig.
FIG. 5 is a side view of FIG. 1 and is a partial enlarged view of the structure.
6 is a control block diagram of an energy-standing type wireless communication power control unit for building wall built-in.

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

1 is a front view of Fig. 1, Fig. 4 is a rear view of Fig. 1, Fig. 5 is a plan view of the solar- Fig. 6 is a control block diagram of an energy-standing wireless communication power control unit for building wall built-in. Fig.

Referring to these drawings, since the solar panel integrated thermal insulation material 100 according to the present embodiment is a building material integrally provided with the solar panel 120, it can be applied to various facilities such as an outer wall of a building instead of a wall, As a result, it is possible to promote or enhance the environmentally friendly photovoltaic power generation more efficiently by raising the economic value as well as various added value.

Such a solar panel integrated thermal insulation material 100 can be manufactured as a block structure product as shown in FIG. Therefore, it can be applied instead of wall to various facilities including outer wall of building. For reference, the solar panel integrated thermal insulation material 100 may be a product having a size of 380 mm to 600 mm, but the scope of the present invention is not limited to the numerical values.

The solar-panel-integrated heat-insulating facer 100 according to the present embodiment includes a facer main body 110. At this time, the casing main body 110 is provided with a plurality of pressing protrusions 111 and 112 so as to protrude forward by pressing.

The plurality of pressing protrusions 111 and 112 includes a plurality of first pressing protrusions 111 and a plurality of second pressing protrusions 111 having a smaller size than the first pressing protrusions 111 and disposed in the periphery of the first pressing protrusions 111 112).

In this embodiment, the solar panel 120 is inserted into the first pressing protrusions 111 having a relatively large size. And the second pressing protrusions 112 may be an exterior material pattern for shaping.

The solar panel 120 may be provided on the first pressing protrusion 111. Since the solar panel 120 is provided on the exterior material main body 110, It is possible to provide various advantageous benefits through the above.

Since the solar panel 120 is inserted into the first pressing protrusion 111, the solar panel 120 is preferably applied to the flexible solar panel 120 in this embodiment . The thickness of the solar panel 120 may be about 2.2 t.

On the other hand, since the flexible solar panel 120 is weak in strength, a glass plate 130 protecting the solar panel 120 may be provided on the entire surface of the solar panel 120. [ Since the glass plate 130 is provided for reinforcing the strength, it may be preferable that the thickness of the glass panel 130 is thicker than the thickness of the solar panel 120, that is, about 3t.

Since the solar panel 120 can be used by connecting 6V in series, a connection plate 140 is provided for this purpose. That is, the connection plate 140 is disposed on the rear surface of the solar panel 120 to electrically connect the plurality of solar panels 120. At this time, the connection plate 140 can be manufactured to a thickness of about 0.8t.

An insulator 150 is provided at the rear of the connecting plate 140 to catch the contour of the solar panel-integrated thermal insulation material 100 according to the present embodiment and to provide a thermal insulation function as a wall.

Meanwhile, the solar panel integrated thermal insulation material 100 according to the present embodiment may further include an energy-standing wireless communication power control unit 160 for building-wall built-in. This power control unit 160 may be disposed between the connecting plate 140 and the insulator 150 before the insulator 150 is finished.

The power control unit 160 can be operated with the power provided by the solar panel 120 and can provide various functions as shown in FIG.

6, an energy-standing wireless communication power control unit 160 for building wall built-in type will be briefly described. Of course, in the case of Fig. 6, this is only an example, and the scope of the present invention is not limited to these matters.

The building wall built-in energy-standing wireless communication power control unit 160 may include a microcomputer 180, a plurality of sensors 191 to 194, and a wireless communication module 195.

The microcomputer 180 is a practical control module. The microcomputer 180 can be driven by using the electric power generated from the solar panel 120. Therefore, a separate electric wire is not required.

At this time, since the solar panel 120 is driven in the day when the sun exists, and is not driven at night, the battery 185 is provided so that the power generated from the solar panel 120 is stored.

The battery 185 is a place where electric power generated from the solar panel 120 is stored, and also supplies low power to the microcomputer 180. Of course, a converter for converting power may be provided between the battery 185 and the microcomputer 180. [

The microcomputer 180 is connected to the plurality of sensors 191 to 194 and the wireless communication module 195.

The plurality of sensors 191 to 194 are controlled by the microcomputer 180 so that the ventilation system 173 or the building energy management system 174 applied to the building is controlled by the microcomputer 180, Lt; / RTI >

The information at this time may vary. In this embodiment, information on the amount of fine dust and carbon dioxide remaining in the building, and information on the temperature and humidity in the building are transmitted to the microcomputer 180. However, additional information may be added.

A plurality of sensors 191 to 194 for sensing such information and transmitting the information to the microcomputer 180 include a fine dust detecting sensor 191 for detecting the amount of fine dust in the building, a carbon dioxide detecting sensor for detecting the amount of carbon dioxide in the building, A temperature sensing sensor 193 for sensing the temperature inside the building, and a humidity sensing sensor 194 for sensing the humidity in the building.

The wireless communication module 195 is connected to the microcomputer 180 and enables wireless communication. That is, the predetermined information is communicated to the monitoring application 171 or the smart home service 172 through the wireless communication module 195.

Meanwhile, in this embodiment, the microcomputer 180 receives information on the amount of fine dust and the amount of carbon dioxide remaining in the building from the sensors 191 to 194, and information on the temperature and humidity in the building, And controls the ventilation system 173 or the building energy management system 174 to be operated.

In this embodiment, the microcomputer 180 transmits predetermined information through the wireless communication module 195, that is, information from a plurality of sensors 191 to 194 or the degree of the managed state to the monitoring application 171 or To be communicated to the smart home service 172.

The microcomputer 180 performing such a role may include a central processing unit 181, a memory 182, a memory 182, and a support circuit 183 (SUPPORT CIRCUIT).

According to the present embodiment having the structure and function as described above, since the solar panel is a building material integrally provided, it can be applied to various facilities including the outer wall of a building instead of a wall, thereby increasing economic value as well as various added value It is possible to disseminate or activate more environmentally friendly solar power generation more efficiently.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. It is therefore intended that such modifications or alterations be within the scope of the claims appended hereto.

100: heat-insulating outer material 110: exterior material main body
111: first pressing projection 112: second pressing projection
120: solar panel 130: glass plate
140: connecting plate 150: insulator
160: Energy-independent wireless communication power control unit for building wall interior

Claims (8)

A plurality of pressing protrusions protruding forward by pressing;
A solar panel provided in at least one of the pressing protrusions selected from the pressing protrusions; And
And an insulator provided on a rear surface of the exterior material main body.
The method according to claim 1,
Wherein the plurality of pressing protrusions comprise:
A plurality of first pressing protrusions into which the solar panel is inserted; And
And a plurality of second pressing protrusions having a size smaller than the first pressing protrusions and disposed around the first pressing protrusions to form a decorative panel.
3. The method of claim 2,
Wherein the solar panel inserted into the first pressing protrusion is a flexible solar panel.
The method according to claim 1,
Further comprising a glass plate disposed on a front surface of the solar panel to protect the solar panel.
5. The method of claim 4,
Wherein the glass plate is made thicker than the thickness of the solar panel.
The method according to claim 1,
And a connection plate disposed on a rear surface of the solar panel and electrically connecting the solar panels.
The method according to claim 6,
Further comprising an energy-independent wireless communication power control unit for building-wall built-in, which is disposed between the connecting plate and the insulator before the insulator is closed, the solar panel being operated by the solar panel, .
8. The method of claim 7,
Wherein the energy-standing wireless communication power control unit for building-wall built-in type is exposed to the outside.

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