DE4042208C1 - Heat insulated permanent shuttering for concrete slab - is cast along with reinforced ribbed slab to form transparent plates for resulting chambers, which house absorbing surfaces - Google Patents

Abstract

The structural element consists of a reinforced ribber concrete slab which is cast onto a heat insulating plate acting as permanent shuttering. The ribs to run in parallel along the slab, keying positively into rib shaped indentations on the back of the plate. Between its rib indentations the front side of the plate (2) should have chambers (7) which are closed off by a transparent plate (8), and house absorbing surfaces (9) to absorb radiant heat. USE/ADVANTAGE - Construction, e.g. high-rise buildings. Heat insulating plate for a front surface and can act as solar collector behind facade glazing.

Description

The invention relates to a component for buildings consisting of a reinforced concrete ribbed slab and one with this connected thermal insulation board, the reinforced concrete ribbed panel on the formwork used as lost formwork Thermal insulation board is cast and arranged in parallel, ribs extending over the length of the component has the form-fitting in the rear rib recess enclose the insulation plate. - Component be records both wall elements as part of the invention also roof elements and ceiling elements. Is it around wall elements, these are preferably with a the length corresponding to the storey height. The Thermal insulation boards consist of a suitable insulation material of building physics, preferably made of rigid polystyrene foam mineral additives. The thermal insulation boards meet in the manufacture of components the function of a ver lorenen formwork and thus allow easy Manufacturing of components. It is understood that at the manufacture of the components with the thermal insulation board Formwork side walls made of a different material, at for example wood, is combined. Finally, the Thermal insulation board in the component described above perform additional functions, namely as a multifunction insulation board embedded installations for electrical Have energy, communications, heating and water.

Components of the generic structure are from the DE-PS 36 10 030 known. As part of the known measure  the reinforced concrete ribbed slab forms the walls and ceilings or roof outside. The one formed by the thermal insulation board Inner surface is flat and can be papered or can be provided with an interior plaster.

In view of rising energy costs, the excess is going There were suns on the outside walls, roofs and ceilings to install collectors for space heating or DHW heating can be used. The solar panels are on the previously completed house wall or the erected roof retrofitted. This is also true, if the walls or roof are made of prefabricated building elements be built. The subsequent installation of Solar panels are complex and expensive. Come in addition, that arranged on the outer facade solar panels due to their partly considerable thickness from aesthetic Reasons are often perceived as disturbing.

The invention has for its object to be prefabricated Components for buildings with integrated suns to specify collectors.

The task is at the beginning of a component Written type solved according to the invention in that the thermal insulation panel on the front in the area between the Rib recesses has cavities that by a translucent plate are covered, and that in the cavities absorption surfaces to radiation heat are arranged. The he is based on the knowledge that the thermal insulation board  in the area between the rib recesses for receiving can be used by solar panels if the Components compared to the prior art pages can be mounted twisted. The steel that absorbs the forces concrete ribbed plate represents the invention the interior of the wall surface The thermal insulation board forms the roof, ceiling or Facade outer surface. Not a translucent one Panel covered areas of the thermal insulation panel can by an exterior plaster or a weatherproof lock be protected. A preferred embodiment the invention provides a on the thermal insulation panel to protect the thermal insulation material from the front glazing arrange, which at the same time cover the cavities forms.

For the further design of the construction according to the invention elementes there are different ways of doing it depend on the purposes for which the solar energy should be used. Should the solar energy for heating of indoor air, the invention teaches that one supply air and one exhaust at the chambers Connect the air duct, the ducts coming from the heat insulation board and the reinforced concrete ribbed board Push through the back wall of the chamber, and that the Aus Chamber air blowers are assigned. The indoor air is forced through the cavities and takes stored solar energy when flowing through the Excavations. The Luftge preferably work blower as a suction fan and are in the exhaust air ducts  the cavities arranged. The required supply air and exhaust ducts are inexpensive to manufacture, if are integrally formed on the thermal insulation plate, the Push through the reinforced concrete ribbed plate and the later ones Form supply and exhaust air ducts. Should the components are used for solar heating of indoor air, so it is sufficient if the cavities a the inner surface forming the absorption surface sen. The from the thermal insulation board and the reinforced concrete rib The existing rear panel works as heat Storage. Should the solar energy for domestic water heating tion are used in the cavities According to the heat exchanger arranged by a Liquid can flow through and the outside wear sorption surface. The liquid, usually Water, especially for underfloor heating be set. It is understood that other users applications for solar-heated water.

So can also be heated water in the chambers be fed into the hot water network of the building.

About the energy that occurs during solar energy generation To reduce losses, it is appropriate to choose between the absorption surfaces and the translucent plate Arrange transparent thermal insulation materials, the one high radiation transmission and low thermal conductivity to have ability. Such thermal insulation materials are known (FAZ (1990), No. 223, p. T 1). The intermediate switching of transparent thermal insulation materials, at for example in the form of a honeycomb-shaped polycarbonate plate,  is particularly useful when high temperatures should be achieved.

Most extensive standardization of the component is possible if the thermal insulation board According to the invention from modular construction Insulation board sections is built with the ribs recesses running joint. That to a warmth Insulation board of any width that can be assembled ten sections each contain a recess, and they point at least in the area of a rib recess Connection surfaces for another section of insulation board on. The outer dimensions of the insulation board sections are standardized. The excavations can be made in the previous be described differently.

This results in a wide range of possible combinations. It is within the scope of the invention, from the insulation boards cut building components that are used for heating the indoor air are suitable. But it can also be Bauele elements are manufactured that are exclusively for use water heating determined and optimized so that high temperatures can be reached. In one out of manufactured components built house can be written components used in combination the.

The component according to the invention stands out in comparison to the state of the art through considerable advantages.

In this way, the component picks up on a building occurring forces and at the same time allows use  of solar energy. The integrated in the component Solar panels have no influence on the thickness of the Component. The absorbed solar energy can be targeted can be used for room air heating or for custom water heating. Nevertheless, the components are far based on standardized basic elements. It's right results in an overall inexpensive way of Use of solar energy.

In the following the invention will be explained in more detail with reference to a drawing showing only one embodiment. In the drawings in schematic representation, Fig. 1 works of the cross section through a device for building construction, fragmentary,

Fig. 2 shows a longitudinal section AA through the article shown in FIG. 1,

Fig. 3 shows another embodiment of the device, also in longitudinal section;

Fig. 4 is a building made of the components, from sections.

The components shown in the figures can be used as exterior wall elements, roof elements and ceiling elements for houses. They consist of a reinforced concrete rib plate 1 and a heat insulation plate 2 connected to it . In particular, from FIG. 1 it can be seen that the reinforced concrete rib plate 1 is poured onto the heat insulation plate 2 inserted as lost formwork and has parallel ribs 3 , which are over the length of the component, and which have a positive fit in the rear rib recesses 4 of the heat insulation plate 2 mounting.

The reinforced concrete ribbed plate 1 is provided with a surface reinforcement 5 in the form of a reinforcing steel mat and has an additional rib reinforcement 6 in the area of the ribs 3 . The reinforced concrete ribbed plate 1 absorbs the forces occurring in building structures. The thermal insulation board 2 is a molded part, preferably made of rigid polystyrene foam with mineral additives. In the area between the rib recesses 4 , the thermal insulation plate 2 has front openings 7 , which are covered by a translucent plate 8 . Absorbent surfaces 9 for receiving radiant heat are arranged in the cavities 7 .

In the embodiment shown in FIGS. 1 and 2, a supply air duct 10 and an exhaust air duct 11 each connect to the cavities 7 . The channels 10 , 11 pass through the rear wall of the chamber 7 consisting of the thermal insulation plate 2 and the reinforced concrete rib plate 1 . The cavities 7 are air blowers 12 assigned . They are preferably arranged in the exhaust air duct 11 of the chamber 7 . to form the supply air and exhaust air ducts 10 , 11 2 pieces 13 are formed on the heat insulation plate, which penetrate the reinforced concrete ribbed plate 1 . The absorption surface 9 is formed in the illustrated embodiment by an inner coating of the cavities 7 .

In the exemplary embodiment shown in FIG. 3, heat exchangers 14 are arranged in the cavities 7 of the component, through which a liquid can flow and which carry the absorption surface 9 on the outside.

Between the absorption surface 9 and the translucent plate 8 , transparent thermal insulation materials 15 are arranged, which have a high radiation transmission and a low thermal conductivity. For example, polycarbonate sheets with a honeycomb structure are suitable.

In particular, from Fig. 1 it can be seen that the heat insulation board 2 is constructed from modular insulation board sections 2 a, 2 b, 2 c. The parting line 16 between the insulation panel sections 2 a, 2 b, 2 c runs through the rib recesses 4th Each insulation panel section 2 a, 2 b, 2 c each contains an out chambering 7 and has at least in the region of a ribs 4 recesses for an adjacent insulation board section. Finally, it is seen that the insulation sections 2 a, 2 b, 2 c spacers 17 are integrally formed to the support of rebars.

Fig. 4 shows a section of a house that contains the components described above. The components 18 , from which the house wall shown in section is built up, have the structure shown in Fig. 2.

They are used for solar heating of room air.

The room air is guided by air blowers 12 through the cavities 7 of the components 18 which are heated up as a result of solar radiation, and heats up in the process. The air flow is illustrated by flow arrows. The air blowers 12 are arranged in the exhaust air ducts 11 and work as suction blowers. The roof of the house shown in FIG. 4 consists of components 19 with a structure according to FIG. 3. The components 19 arranged in the roof are used for heating domestic water. The water is passed through the arranged in the cavities 7 of the construction elements 19 arranged solar-heated heat exchanger 14 and heated. Since between the absorption surfaces 9 of the heat exchanger 14 and the translucent plate 8 transparent thermal insulation materials 15 are arranged, high water temperatures can be achieved. In the illustrated embodiment, the heat exchanger 14 are connected to the water circuit running a floor heating. It goes without saying that connection to the hot water network of the house is also possible. - The entire house is made up of prefabricated components. The construction elements have the structure described. In areas where the use of solar energy is out of the question, however, the components are designed without combing.

Claims (9)

1.Component for high-rise buildings, consisting of a reinforced concrete ribbed plate and a thermal insulation panel connected to it, the reinforced concrete ribbed panel being cast on the thermal insulation panel used as lost formwork and having ribs arranged in parallel and extending over the length of the structural element, which form-fit in the rear rib recesses of the thermal insulation panel border, characterized in that the thermal insulation board (2) has on the front side in the region between the Rippenausnehmungen (4) chamber recesses (7) which are of a transparent plate (8) is covered, and in that the chamber recesses (7) absorption surfaces (9 ) are arranged to absorb radiant heat. 2. Component according to claim 1, characterized in that connect to the cavities ( 7 ) in each case a supply air duct ( 10 ) and an exhaust air duct ( 11 ), the ducts ( 10 , 11 ) from the thermal insulation board ( 2 ) and the reinforced concrete fin plate ( 1 ) enforce the existing rear wall of the chambering ( 7 ), and that the chambering ( 7 ) air blower ( 12 ) are assigned. 3. Component according to claim 2, characterized in that the air blowers ( 12 ) in the exhaust air channels ( 11 ) of the cavities ( 7 ) are arranged. 4. Component according to claim 2 or 3, characterized in that on the thermal insulation board ( 2 ) the reinforced concrete ribbed plate ( 1 ) penetrating nozzle ( 13 ) are formed, which form the supply air and exhaust air channels ( 10 , 11 ). 5. Component according to one of claims 1 to 4, characterized in that the cavities ( 7 ) have an absorption surface ( 9 ) forming the inner coating. 6. Component according to one of claims 1 to 5, characterized in that heat exchangers ( 14 ) are arranged in the cavities ( 7 ), through which a liquid can flow and on the outside carry the absorption surface ( 9 ). 7. Component according to one of claims 1 to 6, characterized in that between the absorption surfaces ( 9 ) and the translucent plate ( 8 ) transparent thermal insulation materials ( 15 ) are arranged, which have a high radiation transmission and a low thermal conductivity speed. 8. Component according to one of claims 1 to 7, characterized in that on the thermal insulation panel ( 2 ) is arranged a protective glazing front glazing ( 8 ), which at the same time the cover of the comb-out wrestling ( 7 ). 9. The component according to one of claims 1 to 8, characterized in that the thermal insulation board ( 2 ) is constructed from modularly assembled insulation board sections ( 2 a, 2 b, 2 c), the parting line ( 16 ) through the rib recesses ( 4 ) runs, and that the insulation board sections ( 2 a, 2 b, 2 c) each contain a chamber ( 7 ).