DE102008023003A1 - window structure - Google Patents

Abstract

There is provided a window structure 100 comprising a frame 110, a solar energy assembly 120, a disk 130, and a heat insulating film 140. The solar energy assembly 120 is disposed in the frame 110. The disk 130 is disposed in the frame 110 corresponding to the solar power assembly 120, and an isolation chamber 170 is formed between the disk 130 and the solar power assembly 120. The heat insulating film 140 is disposed between the solar energy assembly 120 and the disk 130, and divides the insulation chamber 170.

Description

BACKGROUND OF THE INVENTION

FIELD OF THE INVENTION

The The present invention relates to a window structure, and more particularly a window structure showing the generation of electricity, heat insulation and Self-cleaning functions possible.

DESCRIPTION OF THE STATE OF THE TECHNOLOGY

conventional Window structures of multi-storey buildings simply consist of thick glass panes. Occurs during sunny days Ultraviolet radiation (UV light) and heat radiation from the sun directly into the building and leads to an increase the temperature in it. Although thermally insulating Material or a heat-insulating Film on a surface the glass pane is applied, can ultraviolet radiation (UV light) and heat radiation not enough be isolated.

BRIEF SUMMARY OF THE INVENTION

A Detailed description will be made with reference to the attached Planned drawings in the following embodiments.

The The invention provides a window structure comprising a frame, a Solar energy assembly, a disc and a heat insulating film. The solar energy assembly is located in the frame. The disc is arranged according to the solar energy assembly in the frame, an isolation chamber between the disk and the solar energy assembly is trained. The thermal insulation film is disposed between the solar energy assembly and the disc and shares the isolation chamber.

at Using the invention provides the solar energy assembly an improved Light transmission ratio to Available. Consequently, a scenery can be outside the window structure are considered by this. A larger share of sunlight is absorbed by the solar energy assembly, to generate electricity. additionally becomes a heat radiation from the sunlight through the heat insulating film, the isolation chamber and the disc sufficiently isolated. The invention allows consequently improved transparency, power generation and better Thermal insulation functions.

BRIEF DESCRIPTION OF THE DRAWINGS

The The invention may be better understood by reading the following detailed description and the examples with reference to the accompanying drawings be better understood, wherein:

1a is a front view of a window structure according to the invention;

1b a cross-sectional view of the window structure according to the invention;

1c is a rear view of the window structure according to the invention;

2 Window units consisting of the window structures according to the invention, shows;

3a is a front view of a modified embodiment according to the invention; and

3b a cross-sectional view of a modified embodiment according to the invention.

DETAILED DESCRIPTION THE INVENTION

The The following description represents the best mode of carrying out the invention. This description is for the purpose of illustration only of general principles and not intended in a limiting Meaning to be understood. The scope of the invention is determined on Best by the attached Claims.

1a is a front view of a window structure 100 according to the invention. 1b is a cross-sectional view of the window structure 100 according to the invention. With reference to the 1a and 1b assigns the window structure 100 according to the invention, a frame 110 , a solar energy module 120 , a disk 130 , a thermal insulation film 140 , firmly adhering material 150 , two isolation frames 151 and a cable box 160 on. The solar energy module 120 , the disc 130 , the thermal insulation film 140 , the isolation frame 151 and the cable box 160 are in the frame 110 arranged. The disc 130 lies the solar energy module 120 across from. The isolation frame 151 are between the solar energy module 120 and the disc 130 inserted. The solar energy module 120 , the disc 130 and the isolation frames 151 define an isolation chamber 170 , The thermal insulation film 140 is between the isolation frames 151 inserted and between the solar energy module 120 and the disc 130 localized to the isolation chamber 170 in a first sub-chamber 171 and into a second sub-chamber 172 divide. The above-mentioned elements are about the firmly adhering material 150 connected.

The solar energy module 120 has one first surface 121 , a second surface 122 and a photocatalytic layer 123 on. The first surface 121 lies the second surface 122 across from. The second surface 122 lies the disc 130 across from. The photocatalytic layer 123 is as a coating of the first surface 121 educated. The box 160 is on the second surface 122 arranged, these outside the isolation chamber 170 is localized.

In a modified embodiment, the solar energy assembly is 120 a solar energy assembly of an amorphous silicon, the light transmission ratio of which is 10%. The thermal insulation film 140 is a transparent heat mirror film. The disc 130 is a transparent pane, such as a glass pane.

1c is a rear view of the window structure 100 according to the invention. The cable box 160 has a cable 161 and a cable 162 for transmitting by the solar energy assembly 120 generated electricity. The window structure 100 also has a first page 101 on, with the cable box 160 near the first page 101 located.

2 shows window units constructed from the window structures according to the invention. The window structure 100 and a window structure 100 ' form a window unit, the first sides (first side 101 and first page 101 ' ) of the window structures (window structure 100 and window structure 100 ' ) are in a straight line and the cable boxes (cable box 160 and cable box 160 ' ) are connected in series. The window structure 100 and a window structure 100 ' form another window unit, the first page 101 from one of the window structures (window structure 100 ) of a first page 101 '' the other window structure (window structure 100 '' ) and the cable boxes (cable box 160 and cable box 160 '' ) are connected in parallel.

at Using the invention provides the solar energy assembly an improved Light transmission ratio to Available. Consequently, a scenery can be outside the window structure are considered by this. A larger share of sunlight is absorbed by the solar energy assembly, to generate electricity. additionally will heat radiation from the sunlight through the heat insulating film, the isolation chamber and the disc sufficiently isolated. The invention thus provides an improved review, a improved power generation and improved thermal insulation functions for Available.

The 3a and 3b show a wall assembly 200 a modified embodiment according to the invention, which is a substrate 210 , a frame 220 and several window structures 100 as previously mentioned. The frame 220 has a variety of subdivisions 221 on and is on the substrate 210 arranged. The window structures 100 are in a corresponding manner in the subdivisions 221 arranged. The substrate 210 is a cast concrete slab. The window structures 100 can easily attach to the outer walls of a building via the wall assembly 200 can be arranged to provide the generation of power and thermal insulation functions.

Claims (13)

Window structure comprising a frame ( 110 ), a solar energy module ( 120 ) in the framework ( 110 ), a disc ( 130 ) in the framework ( 110 ) corresponding to the solar energy component ( 120 ), wherein an isolation chamber ( 170 ) between the disc ( 130 ) and the solar energy module ( 120 ), and a heat insulating film ( 140 ) between the solar energy module ( 120 ) and the disc ( 110 ) is arranged and the isolation chamber ( 170 ). Window structure according to claim 1, in which the solar energy assembly ( 120 ) is a solar energy assembly of an amorphous silicon. Window structure according to claim 1, in which the light transmission ratio of the solar energy assembly ( 120 ) Is 10%. Window structure according to claim 1, in which the insulating film ( 140 ) is a transparent heat mirror film. Window structure according to claim 1, in which the solar energy assembly ( 120 ) a first surface ( 121 ), a second surface ( 122 ) and a photocatalytic layer ( 123 ), wherein the first surface ( 121 ) of the second surface ( 122 ) and the second surface ( 122 ) of the disc ( 130 ) and wherein the photocatalytic layer ( 123 ) on the first surface ( 121 ) is applied. Window structure according to claim 1, further comprising an insulation frame ( 151 ) in the framework ( 110 ) and between the solar energy assembly ( 120 ) and the disc ( 130 ), the isolation frame ( 151 ), the solar energy module ( 120 ) and the disc ( 130 ) an isolation chamber ( 170 ) define. Window structure according to claim 6, in which the solar energy assembly ( 120 ) a first Oberflä che ( 121 ), a second surface ( 122 ) and a cable box ( 160 ), wherein the first surface ( 121 ) of the second surface ( 122 ), the second surface ( 122 ) of the disc ( 130 ) and wherein the cable box ( 160 ) on the second surface ( 122 ) outside the isolation chamber ( 170 ) is arranged. Window structures according to claim 1, in which the pane ( 130 ) is a transparent disc. Window structures according to claim 1, in which the pane ( 130 ) is a glass sheet. Window unit comprising two window structures ( 100 . 100 ' ) according to claim 6, wherein each window structure ( 100 . 100 ' ) a first page ( 101 . 101 ' ), and a cable box ( 160 . 160 ' ) near the first page ( 101 . 101 ' ), the first page ( 101 ) of one of the window structures ( 100 ) of the first page ( 101 ' ) of the other window structure ( 100 ' ) and where the cable boxes ( 160 . 160 ' ) are connected in parallel with each other. Window unit comprising two window structures ( 100 . 100 '' ) according to claim 6, wherein each window structure ( 100 . 100 '' ) a first page ( 101 . 101 '' ) and cable boxes ( 160 . 160 '' ) near the first pages ( 101 . 101 '' ), the first pages ( 101 . 101 '' ) of the window structures ( 100 . 100 '' ) lie on a straight line and the cable boxes ( 100 . 100 '' ) are connected to each other in series. Wall assembly comprising a substrate ( 210 ), a framework ( 220 ) placed on the substrate ( 210 ) is arranged, wherein the frame ( 220 ) a plurality of subdivisions ( 221 ), a plurality of window structures ( 100 ) according to claim 1, wherein the window structures ( 100 ) in a corresponding manner in the subdivisions ( 221 ) are arranged. Wall assembly according to claim 12, wherein the substrate ( 210 ) is a cast concrete slab.