DE3212489A1 - Facade facing - Google Patents

Abstract

A facade facing comprises light-admitting elements which are fitted at a distance from the wall of the building, so that ventilation is possible. The elements may preferably be constructed from impact-resistant plastic, such as for example acrylic glass, polycarbonate or polyester, as are commercially available for other purposes. The fitting of such a ventilated facade has the advantage that on the one hand the heat transition resistance of the entire wall is reduced, but on the other hand ambient heat, whether due to the ambient air or due to solar irradiation, contributes to heating up the wall of the building and consequently improves the energy balance. The facade facing according to the invention consequently combines the advantages of an unfaced solid wall (absorption of ambient energies) with those of a solid wall having an outer facing of highly absorbing materials (high heat transmission resistance).

Description

Dipl.- Ing.Reinhard Reich, Baumgartenste. 10, 7523 Niefern-Öschelbronn

Freelance architect Dipl.-Ing. Horst Erdmann, Ringstrasse 33, 7530 Pforzheim Facade cladding The invention relates to a facade cladding for massive Building walls.

The object of the invention is to provide such a facade cladding train that a significant saving in heating energy is achieved.

The dissipation of heat through the outside walls of a building makes one account for a significant proportion of the total heat losses. To reduce this, be in buildings with solid outer walls z. At the moment essentially two paths have been taken: a) The outer walls are made of specifically light, porous building materials, such as. B. Lightweight concrete or porous brick.

Compared to the specifically heavier ones, these building materials have a higher thermal resistance.

b Relatively thin layers are applied to the outside of massive external walls made of highly insulating materials, e.g. B. hard foam, fiberboard or the like applied.

Because of the load-bearing function of the outer walls, there is the possibility of Reduction of the volume weight in order to increase the thermal resistance limited. With method b) the heat transfer through the outer wall can be increased Reduce measure, A saving of heating energy with a wall structure according to b) is always given when the outside temperature has been lower over a longer period of time is than the temperature inside the building and if at the same time the solar radiation is largely prevented.

During the heating season, however, other weather conditions also occur on: 1. In the so-called transition period, the daily values of the outside temperature increase often above room temperature, combined with considerable sunlight, 2. On clear winter days you can feel the sunshine despite the low temperatures available.

In both weather conditions, a wall structure according to b) has the disadvantage that the masonry due to the external thermal insulation layer does not have any heat from outside, be it from the air, be it all that can absorb solar radiation.

A homogeneous wall according to a) would be in terms of heat absorption from the outside to judge cheaper. However, it has the disadvantage of higher heat transfer outward.

The special object of the invention is therefore to be seen in a To improve wall construction in such a way that both the property is low Heat transfer from the inside to the outside is achieved, as well as the possibility of Heat gain from radiation from outside can be used.

According to the invention, this object is achieved in that the facade cladding consists of plate-shaped elements made of translucent plastic, which over vertical strips attached to the building wall, forming an air gap are.

This achieves the following: 1. Through the practically stationary layer of air between the wall and the facade cladding is the thermal resistance of the whole Wall construction much higher than that of an uncovered solid wall. By using multi-walled, heat-insulating panels, e.g. double-walled panels Acrylic glass or polycarbonate, this effect is even more effective.

2. As a result of the light transmission of the cladding, solar radiation penetrates on the solid wall and is absorbed and stored by what is in a Increase in wall temperature noticeable. The panel prevents the delivery the radiated heat to the passing outside air.

3. In the transition period, the temperature according to the invention clad solid wall in direct sunlight significantly above the usual Rise room temperature, so that a heat transfer from the outside to the inside begins. The time shifting of heat absorption and output is an advantage the interior space as a result of the storage effect of the solid wall.

4. In the summer months, unwanted heating of the outside wall can occur can be prevented by the radiated heat through a strong rear ventilation the cladding is removed.

The design of the inventive concept can be found in the subclaims.

An embodiment of the facade cladding according to the invention will now be explained in more detail with reference to figures. They show: FIG. 1 a view of FIG lower part of the facade cladding, Fig. 2 is a horizontal section through the entire wall along the line II-II in Fig. 1, Fig. 3 shows a vertical section through the entire wall in level III-III of FIGS. 1 and 2.

The solid wall 1 is attached vertically on its outside Support rails 2 provided. The plate-shaped elements 3 materials aiff the support strips 2 together and are connected to these by means of terminal strips 4 and Screws attached.

In the exemplary embodiment shown, the facade panels exist 3 from a two-walled element made of translucent plastic, such as. B. Acrylic glass, Polycarbonate or polyester.

These plates are closed at the front, so that between there is an air cushion on the walls.

A first profile rail forms the upper end of the facade cladding 9, which extends so over the upper front edge of the upper element 3 that driving rain or other moisture cannot penetrate, the air flowing in from below but can escape unhindered.

The lower end of the facade cladding is covered by a second Profile rail 5 formed with devices 7 for controlling the inlet cross-section the inflowing air is provided. In the exemplary embodiment, there is a flap for this purpose intended.

In addition, the lower profile rail has a filter insert 6 for the incoming air.

superimposed elements 3 are through a connecting profile 8 ski arY rainproof connected to each other.

Claims (10)

Claims: 1. Facade cladding for massive building walls, characterized in that it consists of plate-shaped elements (3; 3) from 1 opaque ;. ' igem plastic that is attached to the building wall (1) via vertical strips (2) are attached to form an air gap. 2. Facade cladding according to claim 1, characterized in that the upper end edges of the elements (3) covered by a first profile rail (9) that prevents the ingress of precipitation into the air space that Rear ventilation but not obstructed. 3. Facade cladding according to claim 1, characterized in that connect the lower end edges of the elements (3) to a second profile rail (5), which have a device (7) for changing the inflow cross-section of the air. 4. Facade cladding according to claim 1, characterized in that the elements (3) are multi-walled plates, the end faces of which are closed. 5. Facade cladding according to claim 4, characterized in that the wall of the panels facing the building wall (1) is formed from a film. 6. Facade cladding according to claim 3, characterized in that the second profile rail (5) has means (6) for air filtering. 7. Facade cladding according to claim 1, characterized in that the elements (3) are provided on their outside with a coating which is largely opaque to ultra-violet radiation. 8. Facade cladding according to claim 4, characterized in that a desiccant is introduced into the cavities between the walls. 9. Facade cladding according to claim 4, characterized in that a liquid is introduced into the cavities between the walls, which over Pipelines can circulate between the plates and a reservoir. 10. Facade cladding according to claim 9, characterized in that A heat pump is connected in the circuit between the plates and the storage tank.