DE102009025543A1 - Transparent absorber for use within intermediate spaces between outer and inner shells of e.g. multi-shelled facade, has optical waveguide systems arranged in interior, where absorber has transmission degree in specific range - Google Patents

Abstract

The absorber (1) has optical waveguide systems arranged in an interior. The absorber is placed within intermediate spaces (4, 5) between an outer shell (2) and an inner shell (3). The outer shell is made of a single glazing material or a multi glazing material. An inner shell is made of the single glazing material, the multi glazing material, an opaque material or a combination of opaque and glazing materials. The absorber has a transmission degree in a range of 0.95 to 0.01 in a spectral region of solar radiation. The absorber is deformed in a vertical direction or a horizontal direction.

Description

The Invention relates to the embodiment a multi-layered facade with a transparent absorber.

State of the art

since Centuries are multi-shell wall structures, z. B. in the form of Cladding with slate or wood, known. It was next to the function the protection against driving rain also the rear ventilation for the removal of solar heat the goal. As early as the 19th century, so-called "collector facades" were developed and partially tested.

With The emergence of the skeleton construction offered transparent all-glass curtain facades the possibility to realize the concept of "flowing space". However, air conditioning problems occurred, such. Higher heating and cooling demand through high heat transfer coefficients and high transmission coefficients, on. Since the 1970s Exhaust facades were developed, which have a flow-through air gap within two building envelopes at least created a comfortable indoor climate by tempering the glass panes. With the development of heat protection glasses are These wall tempering has become largely obsolete.

By the use of blinds also in conjunction with sun protection lenses could the cooling loads be lowered. As a further development of the blind with exclusive Shading function can Be viewed. Another direction of development represents the use of the blinds as an absorber for solar radiation.

problem

When Solar absorbers for the production of thermal energy are within multi-layered facades mainly massive wall elements and blinds used. To live up to the concept of "flowing space" to become is in this regard only the use of blinds possible.

The Use of blinds as solar absorbers in a transparent facade However, there are some disadvantages. Due to the opaque execution of the Slats create an opaque with a closed blind Wall. If the blind only partially, z. As vertical stripes, closed, caused on the one hand impairments caused by contrast and on the other hand restrictions the free view. Due to the relatively complex construction Venetian blinds, this type is costly and relatively high Operating and maintenance costs associated.

at Blinds with slats are the same drawbacks available.

The execution the inner building envelope as Sun protection glazing offers the possibility of a clear view with simultaneous generation of heat. However arise at This system in the absorbent components high temperature fluctuations and consequently also mechanical loads. In addition, there is a risk because of high glass temperatures at times the solar gains reduce and as a cooling load be effective.

Description of the invention

The invention relates to the placement of an absorber made of a transparent material within an air gap between two shells of a facade. 1 shows the basic arrangement. The outer shell [ 2 ] is made of a transparent material. The inner shell [ 3 ] can consist of both a transparent and an opaque material (eg parapet). At least one of the spaces [ 4 . 5 ] is filled with air. One of the two interspaces [ 4 . 5 ] be provided with a transparent thermal insulation. The transparent absorber 1 ] has a transmittance in the spectrum of solar radiation which is greater than 0.

Be Absorption level in the spectrum of solar radiation is greater than 0.05. The transmission, reflection and absorption levels can be change within the absorber level. An increase in the Absorptionsgrades should usefully for the time being in the areas the non-visible radiation with a correspondingly high selectivity. Further increases The degree of absorption take place at the expense of selectivity and can Darkening or even a discoloration of the transparent absorber mean.

Of the Absorber can consist of several layers or even of several segments consist of different materials.

In addition, light guide systems can be used which serve to reflect direct radiation into the adjoining room. In 4 to 15 some possible constellations are shown. The lighting control systems, each with no. 6 can be positioned separately ( 5 to 11 ) or integrated in the absorber ( 4 and 12 to 15 ) be.

A shading of the absorber in Zwi space [ 4 ] to the outer shell [ 2 ] can also be added.

Claims (17)

Transparent absorber inside of two shells of a facade or roof surface 1 , A transparent absorber according to claim 1, wherein the outer shell of the structure ( 1 , No. 2 ) may consist of a single or multiple glazing or of another transparent material. A transparent absorber according to claim 1, wherein the inner shell of the structure according to claim 1 ( 1 , No. 3 ) can consist of a single or multiple glazing, of an opaque material or of a combination of glazing and opaque material. A transparent absorber according to claim 1, wherein the inner shell of the structure according to claim 1 ( 1 , No. 3 ) may consist of a transparent thermal insulation. Transparent absorber according to claims 1 to 4 ( 1 , No. 1 ), wherein the absorber may consist of one piece or a composite of one or more materials. Transparent absorber according to claims 1 to 5 ( 1 , No. 1 ), wherein the absorber in the spectral range of the solar radiation has a transmittance in the range of 0.95 to 0.01. Transparent absorber according to claims 1 to 5 ( 1 , No. 1 ), wherein the absorber in the spectral range of the solar radiation has an absorption coefficient in the range of 0.99 to 0.1. Transparent absorber according to claims 1 to 7 ( 1 , No. 1 ), wherein the absorber overflowed on one side, can be overflowed or flowed through on both sides. Transparent absorber according to claims 1 to 8 ( 1 , No. 1 ), wherein the absorber into several members ( 2 , No. 1 and 3 , No. 1 ) can be shared. A transparent absorber according to claims 1 to 9, wherein the members of the absorber may be inclined partially or in their entirety ( 4 , No. 6 and 5 , No. 6 ). Transparent absorber according to claims 1 to 9, wherein in addition to the absorber ( 6 to 9 , each no. 1 ) further light guidance systems can be arranged ( 6 to 9 , each no. 6 ). Transparent absorber according to claims 1 to 11 ( 10 to 12 , each no. 1 ), which may be deformed in the vertical or horizontal direction. The transparent absorber according to claims 1 to 12 can in a variable direction course different transmission, Have absorption and reflectance. The transparent absorber according to claims 1 to 11 can in a variable direction course a different color exhibit. The transparent absorber according to claim 1 to 14 may be arranged in conjunction with light control systems on a transparent support (eg. 13 , No. 1 and no. 6 ). The transparent absorber according to claim 1 to 14 may be arranged in conjunction with light guide systems within a transparent support (eg. 14 , No. 1 and no. 6 ). Within the transparent absorber according to claim 1 to 14 light guide systems can be arranged (eg. 15 , No. 1 and no. 6 ).