DE29515953U1 - Gypsum foam housing for solar collectors - Google Patents

Description

Description

Housing for solar collectors made of gypsum foam.

Solar collectors are used to use solar energy to heat buildings, to heat water and to generate electricity. Today's collectors essentially consist of an absorber for absorbing and converting solar energy, a glass pane on the front, insulation on the back and a housing. The housing has the task of ensuring that the components are held together, in conjunction with

L. Voit, F. Warmuth: Solar collector housings - 2 -

connection with the insulation to prevent the radiation of the absorbed energy and to protect the components from harmful external influences.

The following designs are known for solar collector housings:

• Deep-drawn metal housings made of aluminum or stainless steel. Aluminum should no longer be used in construction for ecological reasons. Stainless steel leads to a high collector weight.

• Assembled housings made of aluminum or steel profiles with flat fillers such as aluminum sheet or plastic panels. The assembly of individual parts can be complex. A construction made up of many individual parts can be unstable. Aluminum and various types of plastic should no longer be used in construction for ecological reasons.

• Housing made of fiber-reinforced plastics. Fiber-reinforced plastics cannot be recycled and should therefore be avoided for ecological applications.

• Various special solutions, which usually originate from the time of technology introduction and prototype phase (wooden frames, steel constructions, etc.).

For the rear insulation, insulating materials from the construction industry are usually used, such as mineral fiber mats, foam plastics, cellulose and wool insulation. Mineral fiber mats are classified as carcinogenic. Wool insulation can be destroyed by moisture and animal or plant pests.

A housing design that integrates the function of rear insulation is currently unknown. The front glass panel is connected to the housing body with metal, plastic or rubber profiles.

The invention specified in claim 1 is based on the problem of creating a solar collector housing that consists of a material that is thermally well-insulated, the materials of which can be easily recycled and which has integrated functional elements. In addition, the aim is to reduce the number of components required for solar collectors.

These problems are solved with the features listed in claim 1.

The invention ensures that the components of the solar collector are connected to one another and that the absorber is protected from external influences. The pores of the gypsum foam

L. Voit, F. Warmuth: Solar collector housing - 3 -

provide thermal insulation and prevent energy radiation. The integration of functional, connecting and handling elements reduces the number of required components. The low specific weight of the gypsum foam enables easy construction. The high rigidity of the gypsum foam reduces the risk of deformation and the resulting risk of glass breakage.

An advantageous embodiment of the invention is specified in claim 2.

The further development according to claim 2 enables the front glass pane to be attached easily, quickly, tightly and aesthetically. The elasticity of the bond prevents the components from becoming distorted and thus causing possible damage.

A further advantageous embodiment of the invention is specified in claim 3.

The further development according to claim 3 enables the front glass pane to be attached easily, quickly, tightly and aesthetically. The elasticity of the rubber or plastic profile prevents the components from becoming distorted and thus causing possible damage.

An embodiment of the invention is explained with reference to Figures 1 to 3. They show:

Fig. 1 the solar collector housing including the exemplary components absorber (2) and front panel (1),

Fig. 2 a section through the housing body (3) with the fastening of the front glass pane (1) carried out as an adhesive (7),

Fig. 3 a section through the housing body (3) with the fastening of the front glass pane (1) designed as a rubber or plastic profile (8).

The figures show the solar collector housing with housing body (3), front glass pane (1), and integrated exemplary connecting elements (4). The connection bushings (6) enable the connections (5) of the absorber (2) to be passed through. The glass pane (1) is connected to the housing body (3) using the adhesive (7) or alternatively using the plastic/rubber profile (8). The design of the profile (8) is chosen here so that a uniform introduction of force into the housing body is achieved. The sections through the housing body shown in Fig. 2 and Fig. 3 show an exemplary, centrally mounted stiffening rib.

Claims (4)

Protection claims 1. Housings for solar collectors made of gypsum foam to accommodate energy absorbers, in particular for hot water preparation and for generating electricity, characterized, • that the housing body (3) consists of a gypsum foam block foamed in a mold or a machined gypsum foam block, • that the housing body (3) contains an integrated reinforcement if necessary to increase strength, • that the housing body (3) integrates functional, connecting and handling elements (insulating effect, connection bushing (6), fastening connections (4), recessed grips, crane hook eyes, etc.). 2. Housing for solar collectors according to protection claim 1
characterized, • that the front glass panel (1) is attached to the housing body (3) with an adhesive (7). 3. Housing for solar collectors according to protection claim 1
characterized, • that the front glass panel (1) is attached to the housing body with a rubber or plastic profile (8). 4. Housing for solar collectors according to protection claim 1
characterized, • that instead of gypsum another foamed material such as aerated concrete, polymer foam or aluminium foam is used.