DE102008050469B3 - Solar active-passive energy gain-facade system, has glass case comprising transparent solar cell integrated in lower horizontal glass pane, and sun protection device movable with sensors for solar altitude - Google Patents

Abstract

The system has a glass case (9) arranged before a wall opening and is formed as a facade in a storey. The glass case comprises a sliding window (7), and lamella shaped air openings and evacuation openings are arranged in lower horizontal plane (10b) and upper horizontal plane (15) of the glass case. The glass case has a transparent solar cell integrated in a lower horizontal glass pane. A sun protection device is movable with sensors for a solar altitude. The glass case extends over an entire length or entire height of a window opening.

Description

The The invention relates to a solar active passive energy gain facade system.

State of the art

The patent no. 10 2004 001 162 German Patent and Trademark Office describes a façade system with which only passive solar energy is obtained 1 , In addition, the system has an external sunscreen ( 6 ) with rigid opaque slats. The system is characterized by energetic, climatic and economic advantages over comparable façade systems. The goal was only passively to gain solar energy, since this type requires a minimum effort for material and no additional resources and thus sustainable and also economically interesting. These advantages are not given in active solar energy generation in facade systems. It also requires suitable surfaces on the facade and often it is difficult or only partially integrated in façade systems of the prior art. In addition, it often causes limitations in the design of the façade as well as the absence of the use of numerous façade systems that have been tried and tested in practice. The application of active solar energy generation intervenes in façade systems and requires their modification or adaptation, which often leads to compromise closures. Moreover, in systems for passive solar energy use, it usually leads to conflicting goals. There is no simple system comparable to the patented system mentioned above, with which both passive and active solar energy can be obtained, so that the two techniques are part of the same system. The environmental benefits of the patented façade system described above are quite extensive and include those for indoor climate, daylighting, sound insulation, thermal insulation, external reference, well-being and health of users. However, this relatively simple system in terms of construction and construction is extremely complex in interrelationships between said areas and therefore highly sensitive to system interference or alterations.

Considered pamphlets

• DE 10 2004 001 162 B4 (Especially)
• DE 44 31 928 A1
• DE 296 07 191 U1
• DE 201 11 413 U1

task

aim is now an invention, bringing all the environmental benefits of o. G. patented system and passive solar Extending energy production with active solar energy generation to use solar energy more efficiently and more comprehensively. Thereby A new dual passive-active façade system is presented.

These Task is solved through the solar active-passive facade system according to claim 1.

Dual active passive facade system

The energetic and climatic characteristics of the patented system mentioned above are sometimes even intensified. The solar energy gains in the new system will be supplemented by photovoltaic technology. You will be increased by several times. This is done by changing two components of the patented system mentioned above and by using the sensor technology. The PV systems are usually exposed to polluted outdoor air and dust. This leads to the reduction of sunlight on the solar cells and consequently to the reduction of energy production. It requires regular cleaning of the surfaces or use of self-cleaning glasses depending on UV rays with rain and / or water. This is costly and often impractical. This problem is in the new passive-active system z. T. solved by the fact that the solar modules are in a protected from weather and dirt room, in a glass box ( 9 ). Furthermore, the rigid and opaque louvers of the external sunshade are replaced in the above patented system by a glass pane with integrated and translucent solar cells. This is tracked with the help of sensors to the position of the sun. This makes effective sun protection, higher power generation and higher daylight utilization possible in the rooms behind the facade.

Changed components and additional equipment

• 1. The "glass box" existing in the above-mentioned patented system consists, among other things, of horizontal glasses, vertical front glass, laterally vertical separating glasses and the vertical sliding window towards the interior. The lower horizontal glass is made of single or double glasses, the purpose of converting short-wave solar rays must be treated in heat rays z. By staining, foils and so on. This is provided in the box of the active-passive system with photovoltaic modules 2 , The glass pane becomes opaque and fulfills a double function. On the one hand, it ensures a higher intensity of the passive solar energy production, if in this way the incident, short-wave solar radiation increases in long-wave and heat ing rays are converted as z. B. by colored glasses. On the other hand, it provides a sunscreen for the glass wall ( 1 ) under the box ( 9 The incoming sunlight will generate electricity through the integrated solar module in the box.
• 2. The in o. G. patented system existing sunscreen exists u. a. from opaque slats, which are rigidly attached. Of the Sun protection in the active-passive system, however, consists of a single one Slat or glass pane with transparent integrated solar cells. The resulting glassy Disc in the new system is portable and is powered by sensors technology tracking the position of the sun. In addition to the active solar energy generation for power generation allows the transparent solar panel more transparency and more transparency outside and also a higher one Daylighting. Even with directly incident sun rays acts It also serves as an effective glare shield for working on the screen u. a. is required.
• 3. The necessary cables for electrical conduction of the PV modules in the glass box will be in the window frame and thus housed invisibly.
• 4. The necessary cables for electrical conduction for the PV modules and sensors in the sunshade become invisible in the supporting frame ( 5 ) or housed in the connector as a hollow profile, which is inserted for attaching the sunshade construction between the angle profiles and secured there.

representations

1 Presentation of the patented glass façade system DE 10 2004 001 162 B4

2 Glass pane with PV module

3 Box room, horizontal section

4 sun protection

5 of facade

6 Box room, Schematically

1

glass wall

2

angle section

3

low profile

4

screw

5

frame profile

6

sun protection

7

sliding window

8th

silicone adhesive

9

Of the box

10a

pane with integrated solar cells in the sunscreen

10b

pane with integrated solar cells in the glass box

11

partition glass

12

exhaust

13

supply air

14

lever

15

Horizontal glass

16

Front glass

Claims (6)

Solar active-passive energy-gain facade system, comprising: - a single-shell glass façade ( 1 ) or a single-shell façade of a different kind, - a glass case (at least in front of a window opening) ( 9 ), which is at least a part of the facade prefabricated to replace the windows on each floor to the outside, which is a room-side sliding window ( 7 ) and wherein lamellar inlet and outlet openings ( 12 . 13 ) in lower and upper horizontal planes ( 10b . 15 ) of the glass box ( 9 ) are arranged offset in each section and - at least one external sun protection device ( 6 ), characterized in that the glass case ( 9 ) has integrated transparent solar cells in the lower horizontal pane of glass and that the sun protection device ( 6 ) as a glass pane with integrated and transparent solar cells ( 10a ) is movably formed with sensors for the position of the sun. Solar active passive energy-gain facade system according to claim 1, characterized in that the glass box ( 9 ) over the entire length and / or over the entire height of the window opening. Solar active-passive energy-gain facade system according to claim 1, characterized in that the glass box ( 9 ) occupies the entire horizontal length and / or the total vertical height on each floor of the façade, whereby, when used horizontally in the area of the partition walls, vertical separating glasses ( 11 ) are provided as a subdivision of the glass box. Solar active passive energy gain facade system according to at least one of claims 1 to 3, characterized in that the lamellar inlet and outlet openings ( 12 . 13 ) with an actuating lever ( 14 ) are provided for opening and closing the same and for regulating the air exchange rates. Solar active passive energy gain Fassa densystem according to at least one of claims 1 to 4, characterized in that the horizontally extending glass sheets ( 15 . 10b ) on the facade by angle profiles ( 2 ) are held. Solar active-passive energy-gain facade system according to at least one of claims 1 to 5, characterized in that the front glass pane ( 16 ) of the glass box ( 9 ) with horizontal glass panes ( 15 . 10b ) is glued.