DE19851504A1 - Heat reflecting layer, method for producing a heat reflecting coating and its use - Google Patents

Abstract

A heat-reflecting layer is proposed in which graphite is an essential component. Furthermore, a method for producing a heat-reflecting coating which contains graphite as an essential constituent is proposed, a coating material containing graphite or consisting of pure graphite being applied to a surface. DOLLAR A According to the invention, this layer is preferred for cavity surfaces and / or outer surfaces of heat-insulating building blocks, such as. B. perforated brick, for use. To apply the layer according to the invention on cavity surfaces and / or outer surfaces of heat-insulating building blocks, such as. B. perforated brick, in particular the method according to the invention can be used.

Description

The invention relates to a heat reflecting layer Process for producing a heat reflecting layer as well as their use.

State of the art

Heat reflective coatings are mostly made from Metals like aluminum and silver or from semiconductors like Iridium-doped tin oxide realized. These are mostly sprayed or sprayed onto the coated surface evaporated, if necessary in a vacuum. Such Coatings are therefore usually expensive. Furthermore they have poor weather resistance because oxidize these materials relatively easily. Moreover is a high, gray one for metals, especially aluminum Production energy needed. Furthermore, coated Objects, as an oxidation of the surfaces with it resulting release of potentially toxic Oxides easily takes place, often only disposed of as hazardous waste become. The coating material generally cannot be circulated.

Increased environmental awareness requires careful handling of the Raw materials and energy. You believed in the past  the reduction of energy loss through reflection of the radiation it's only worth it at high temperatures, that's how it is today well known that already with building envelopes, that is Radiation losses are considerable at room temperature.

Object and advantages of the invention

The invention has for its object heat loss through Radiation from objects, buildings, insulation materials, Building blocks and the like with a reflective, inexpensive, abundant but weatherproof and ecologically harmless coating material that can be easily applied to reduce.

This object is achieved by a Heat reflective layer according to claim 1 solved. The invention further relates to methods of manufacture a heat reflective coating as well as the use the heat reflecting layer as well as the process.

The invention starts from a heat reflective Layer for surfaces of bodies or body cavities out. The main idea now is that the layer as essential component contains graphite. Surprisingly, graphite indicates infrared radiation in the wavelength range from 1.5 to 60 µm, as in Temperature range from -20 to + 50 ° C prevails, very good Reflective properties and can therefore be used for Heat radiation reflection can be used. Is graphite inexpensive, abundant and without much Energy consumption, weatherproof and absolutely ecological harmless.

In a preferred method of making a heat reflective coating which as essential Component containing graphite is a graphite or  coating material consisting of pure graphite on a Surface applied. It is also an advantage if the coating material is in the form of powder and / or Granulate is applied.

The layer application by means of is particularly advantageous Brushes, paint brushes or rollers. Because this makes the order simple and inexpensive.

A particularly even and effective order to obtain, it is also proposed that the Coating material for application wetting agents, such as e.g. B. paraffin or similar aids, before or during the Coating is added. An improvement in the job can also be achieved in that the to be coated Surface with wetting agent before or after Coating is treated. You can also do this Tools such as B. a polyethylene film, use find that are applied before or after coating.

In a particularly advantageous embodiment of the The process is carried out during or after the coating process mechanically acted on the graphite coating. This can e.g. B. done by brushing or rubbing. With cavities can it may also be convenient to use balls that are driven through the cavities. The invention makes to use the knowledge that the Reflective properties are best when graphite is under Force is applied to an orientation with the Crystallographic c-axis of the graphite crystals perpendicular to get the coated surface.

The process according to the invention can be particularly preferred for cavity surfaces and / or outside surfaces of heat-insulating building blocks, such as. B. use perforated brick,  to contain a graphite on these surfaces Apply reflective layer. For example, the Cavities of insulating brick with graphite coated, their thermal insulation capacity increases massively. This Coating is durable, does not set ecological or biologically questionable substances and does not provide any Disposal requirements.

Description of the embodiment

An embodiment of the invention is in the drawing shown and below with the mention of others Details and advantages explained in more detail. The figure shows a perforated brick coated according to the invention in one partial spatial representation.

The perforated brick 1 shown in the figure has rectangular cavities (slotted holes) offset from one another in the heat flow direction (see double arrow). An improvement in the thermal insulation capacity in the heat flow direction is now achieved in that the cavities 2 running perpendicular to the bearing surface 3 of the brick 1 are provided on the walls 4 , 5 with a layer according to the invention which contains graphite as an essential component. In order to reduce the heat transport, the coating on the wall sections 4 running perpendicular to the heat flow direction is particularly important.

For example, the graphite coating can be applied to the surfaces 4 , 5 of the cavities 2 of a finished brick 1 by distributing graphite powder on the cavity surfaces with a brush. It could also be applied by driving graphite powder or graphite granules together with balls through the cavities.

Reference list

1

Perforated brick

2nd

Cavities

3rd

storage area

4th

Wall surface

5

Wall surface

Claims (10)

1. Heat-reflecting layer for surfaces of bodies or body cavities, characterized in that the layer contains graphite as an essential component. 2. Process for making a heat reflective Coating comprising a layer according to claim 1 characterized in that a graphite or from pure graphite coating material on a Surface is applied. 3. The method according to claim 2, characterized in that the coating material in the form of powder and / or Granulate is applied. 4. The method according to claim 3, characterized in that the layer application by means of brushes, paint brushes, rollers or the like. 5. The method according to any one of claims 2 to 4, characterized characterized in that the coating material for application Wetting agent added before or during application becomes. 6. The method according to any one of claims 2 to 5, characterized characterized in that the surface to be coated with Wetting agents treated before or after coating becomes. 7. The method according to any one of claims 2 to 6, characterized characterized in that the surface to be coated with Tools, e.g. B. polyethylene film, before or after Coating is treated.   8. The method according to any one of claims 2 to 7, characterized characterized in that on the graphite coating during or is mechanically acted after the coating process. 9. Use of the layer according to claim 1 Cavity surfaces and / or exterior surfaces with heat insulating Building blocks, such as B. perforated brick. 10. Use of the method according to one of claims 2 to 8 to produce a heat reflective layer Cavity surfaces and / or outer surfaces of thermal insulation Building blocks, such as B. perforated brick.