DE202004021414U1 - Surface plaster for a heat storable wall - Google Patents

Abstract

Monomass for the Completion of an external or inner base layer, in particular a ground plaster, the on a heat storing Wall as a mineral wall can be applied, characterized that the top coat micro hollow glass balls in a volume amount of 5 to 70 percent, in particular from 10 to 30 percent.

Description

The The invention relates to a finishing coat for the completion of an exterior or Interior basecoat, in particular of a primer plastering on a heat-storing wall like one mineral wall can be applied.

It is known the outer surface of a Wall with a basic plaster of about 2 cm thickness and over the Basic plaster still a surface plaster of about 1 to 6 mm to install, the the protection of the basic plaster and the improvement of the optics. This known wall construction is not suitable for solar radiation in one significant measure too absorb and store sustainably.

task The invention is an external plaster and in particular a wall plaster construction to create environmental heat and solar radiation in one high dimensions to absorb the heat forward to the wall and save.

These Task is inventively characterized solved, that the top coat micro hollow glass balls (Wärmubbles) in a volume amount from 5 to 70 percent, in particular from 10 to 30 percent.

hereby is the entry of environmental radiant heat in the heat storable wall construction improved and stored in the outer component Energy increased. The temperature at the outside plaster surface and Heat loss currents at the surface are due to the decreased temperature difference to the environment reduced (heat loss reduction by evaporation, convection and radiation).

Of the with heat bubbles Doped finishing plaster is lighter in its specific gravity and through the hollow glass spheroids of low mass, the plaster surfaces are thermally nimble. temperatures are derived from the sides well into the ground and the temperature distribution on the plaster surface becomes more even.

Because of The large number of diffusion-tight glass bubbles will diffuse in and out braked by moisture or reduced the evaporation heat dissipation. The plaster layer remains permeable.

As a result the big Number of diffusion-tight micro-glass bubbles become microcracks reduced in the plaster matrix. The color stability, the chemical resistance against air pollution, dirt and water repellency and the Elasticity improved.

By the internal big one glass surface the heat bubble in the plaster layer is the growth of microorganisms, for example of mosses, algae, etc. removed from the nutrient medium and the surface of the plaster ages less fast.

Of the with heat bubbles doped topcoat leaves through his hollow glass spheroids Environmental heat radiation act more deeply (light passes through glass almost unhindered), accelerates the transfer of absorption heat into deeper wall layers and the total stored heat energy in the external component becomes larger.

Of the Surface plaster according to the invention conducts absorbed heat primarily faster in wall constructions when the usual primer layer (for Example lime cement plasters about 1.5 to 3 cm thick) primarily by admixed pore formers (for example foam glass) and special Sieblinienklasse (Einkornzusammensetzung) thermally low conductive and good air permeability is done.

Old to renovate facade plaster layers can waive the optimally high environmental heat input only plastered with the topcoat according to the invention and thus also thermally to be rehabilitated.

contaminated or altogether aged finishing surfaces can be matched with matching colors Color paints are also mixed in the heat bubbles, repaired, colored and thermally be rehabilitated or repaired.

With heat Bubbles doped topcoats reduce the specific gravity so that the Cleaning system becomes easier. Also, the elasticity of the plaster system improved.

Of the Surface plaster according to the invention prevents the internal construction of high air and vapor pressures or thermal stresses. The air-permeable porous base layer conducts pressures and Tensions off the side well. Neither bubbles, cracks or flaking can arise.

With heat Bubbles Doped upper plasters cover as a plaster system (topcoat and ground plaster layer in combination) usual Cleaning functions are good, in some cases considerably improving them and additionally providing heat protection effects, which is essentially not due to a reduced thermal conductivity of the Cleaning system based, but despite large densities the temperature, Moisture and radiation exchange between the external components and the external environment thermally Cheap influenced and heat losses reduced.

Such a cleaning system (finishing and Base coat in combination) uses the building material damp for rapid environmental heat removal into deeper wall layers. Solar radiation absorbed by the finishing plaster heats the pore air of the base layer and this transfers the heat energy, preferably moisture-coupled, into deeper storage layers of the wall construction. The air-permeable conditioned base layer matrix contributes to the rapid loss-free heat dissipation from the "warmer" finishing plaster in the generally "colder" wall storage by utilizing building physics laws.

The Cleaning system (top and base coat) reduces the drainage from heat energy the wall construction to the colder External environment. As a rule, the storage heat preferably only over again drain the less conductive building material webs of the porous plaster system to the outside.

advantageous Embodiments of the invention are listed in the subclaims.

embodiments The invention will be described in more detail below.

On the outside a mineral house wall, for example, from bricks or Concrete, is a preferably based on lime cement mortar plaster at least 1.5 cm thick, which is highly permeable to air and porous. The Pores are formed, for example, by the addition of pore formers such as Foam glass and by using a special grading class (Grain composition).

Above on the outside of the basic plaster (heat-transmission plaster) is a top coat (radiation conversion plaster) in a thickness of 1 to 8 mm, in particular from 1 to 6 mm applied. The finishing coat is, for example, a synthetic resin plaster, a silicone resin plaster, a dispersion silicate plaster or a mineral plaster. In the finishing coat are as additional aggregate Hollow glass microspheres in a volume amount of 5 to 70 percent preferably from 10 to 30 percent. The hollow glass microspheres have one outer diameter between 2 to 100 microns and a wall thickness from about 0.5 to 3 microns.

The Micro hollow glass spheres have the effect of absorbing increased environmental heat, they have low losses and fast in storable external components to distribute and increase the stored heat energy so that outside the surface of the surface is the surface temperature reduces and thus the heat loss low on the environment.

The Water vapor migration (vapor diffusion) in porous building materials takes place under the influence of a temperature gradient from "warm" to "cold" or under the influence a vapor pressure gradient from "damp" to "dry". Moisture can do more Store heat as usual Building materials. The water vapor absorption capacity of the pore air in the air-permeable ground plaster increases with increasing warming.

from Surface plaster absorbed environmental radiation (sunshine and diffuse light radiation) warm the Pore air of the bottom adjacent air-permeable ground coat. The Radiation energy absorbed above migrates under the ground plaster Influence of the temperature and / or vapor pressure gradient preferably with the heated pore air from the "warmer" top side in the "colder" wall construction. At night with reverse temperature gradient, wall heat can only braked, preferably only over the less conductive building material webs flow back in the plaster system.

Consequently is due to the inventive solution highly efficient solar energy collector created.

alternative can on the outside of the top coat of paint (for example, beautification or Sanieranstrich), mixed in the same type of hollow glass microspheres are. This is the absorption of the (solar) radiant energy even further increased.

In an alternative may be provided with micro hollow glass beads top coat also be an interior plaster. With heat bubbles Doped interior plasters create a space-sided wall and ceiling surfaces Kind of heat and indoor climate protection. The indoor air quality, the indoor climate and the thermal Comfort is better, the mold and mildew is inhibited. Allergy or asthma sufferers breathe easier and rheumatics experience an improved well-being.

In other alternatives, the base layer can be made variable, for example, by mineral, highly porous, air-permeable plates (For example, 1.5 to 3 cm thick), with a suitable well-conductive bonding (for example, good heat-conducting [Tile] glue etc.) are attached to the facades and the Plaster applied in combination of a reinforcing fabric becomes. Also, the base layer can be made variable, for example by high porous, good air-permeable insulation boards (for example, 1, 5 to 3 cm thick), with a suitable well thermally conductive bonding (for example, good heat-conducting [Insulation] Glue) are applied to the facades and the topcoat is applied in combination with a reinforcing fabric (slender ETIC system [S-ETVS].

Claims (10)

Top coat for the completion of an outer or inner base layer, in particular a base coat, which can be applied to a heat-storing wall such as a mineral wall, characterized in that the top coat micro hollow glass spheres in a volume of 5 to 70 percent, in particular from 10 to 30 percent , Surface plaster according to claim 1, characterized that he a synthetic resin plaster, a silicone resin plaster, a dispersion silicate plaster or a mineral plaster is. Surface plaster according to claim 1 or 2, characterized that he has a layer thickness from 1 to 8 mm. Surface plaster according to one of the preceding claims, characterized characterized in that the hollow glass microspheres have an outer diameter from 2 to 100 μm and a wall thickness from 0.5 to 3 μm exhibit. Surface plaster according to one of the preceding claims, characterized characterized in that a paint is applied to it, in the micro hollow glass balls are mixed. Basic plaster as a carrier of a topcoat according to one of the preceding claims, characterized that pore-forming agents are added to it. Base plaster according to claim 6, characterized that the pores are due to foam glass aggregate and / or grains are formed (a Sieblinienklasse). Top coat according to one of the preceding claims that the base layer mineral, highly porous, air-permeable plates that with a good thermal conductivity bonding how good thermally conductive glue are mounted on the facades. Surface plaster according to one of the preceding claims, characterized characterized in that the base layer has highly porous, good air-permeable insulating panels, those with a good thermal conductivity bonding like a thermally conductive one Glues are applied to the facades. Surface plaster according to claim 8 or 9, characterized that applied the topcoat with a reinforcing fabric is.