DE102008028489A1 - Hybrid collector for production of electrical and thermal energy, has covering, outer and intermediate frames including bar assembly that is inserted into circulating slot guidance of collector frame in accurately-fitting manner - Google Patents

Abstract

The collector has a photovoltaic laminate (1), and a transparent insulation body that is arranged on the laminate. A heat exchanger panel is arranged below the laminate provided with a plastic encapsulation, and an insulation layer is arranged below the panel. A roof fastening structure includes a covering frame (7), an outer frame (7.1), an intermediate frame (7.2) and a collector frame (8) fastened to a roof batten. The frames (7, 7.1, 7.2) have a bar assembly that is inserted into a circulating slot guidance of the collector frame in an accurately-fitting manner. An independent claim is also included for a method for operating a hybrid collector.

Description

The The invention relates to a hybrid collector with roof fastening for a coupled extraction of electrical and thermal Energy.

Hybrid collectors for generating electrical and thermal energy are known. So will in the DE 42 22 806 describes a solar collector assembly with solar cells, in which a plate heat exchanger is arranged below the solar cells and in support connection with these. Between the solar cells and the plate heat exchanger, a shrink film is provided for connecting these two parts. A plate heat exchanger below the solar cell is designed to dissipate the heat generated in the solar cell. A disadvantage of this construction is that no additional additional measures are provided for targeted removal of the resulting heat, so that a portion of the resulting solar radiation on the solar cells heat can not be supplied to a targeted use. Another disadvantage is that the described solar collector arrangement is not suitable to be mounted on roofs in a simple manner.

Of the Invention has for its object to provide a hybrid collector, with which it is possible to operate a photovoltaic system accumulating heat by means of a heat exchanger as completely as possible to use and at the same time offering a construction with which this hybrid collector on a roof is safe and easy to attach.

The Solution of the problem is inventively with a hybrid collector with roof attachment for a coupled Recovery of electrical and thermal energy, comprising Photovoltaic laminate and a heat exchanger panel, characterized by a transparent one arranged on the photovoltaic laminate Insulating body, with a plastic encapsulation provided below the photovoltaic laminate arranged heat exchanger panel, an insulating layer arranged underneath and a roof fastening construction, one attachable to the roof battens Eindeckrahmen and collector frame comprises, wherein the Eindeckrahmen has a circumferential ridge, the exact fit in a circumferential slot guide of the collector frame is pluggable.

About that In addition, the object is achieved by means of a method for operating a Solved hybrid collector, which is characterized that the circuit of the heat exchanger panel with a heat pump is operated in the cycle of a geothermal energy plant is involved to excess heat to divert into the ground.

advantageous Further developments are specified in the subclaims.

So is the hybrid collector in an advantageous embodiment thereof characterized in that the flashing frame on the roofing side an outer frame with a circumferential further connecting web has and between two arranged hybrid collectors one Intermediate frame has.

In In another embodiment, the hybrid collector is characterized the heat panel is an in-plane capillary tube system which is connected to headers, via the by means of flowable heat carrier the heat transport takes place.

In In a further development, the hybrid collector is characterized that between plastic encapsulation of the heat panel and the photovoltaic laminate arranged a layer of thermal latex is.

In an advantageous embodiment contains the plastic encapsulation thermally conductive fillers.

A Further development is characterized in that the plastic encapsulation a material consisting of rigid polyurethane foam and graphite.

A Embodiment provides that the insulating body of the Hybrid collector has a cavity containing a vacuum or gases In particular, noble gases, preferably xenon, contains the thickness of the gas filled cavity is less than 40 mm is.

Of the Hybrid collector according to the invention is sandwiched constructed and consists of a photovoltaic module, the thermal by means of a thermal paste with the thermal collector part connected is. On the roof-facing side has this construction an insulating layer on. The thermal collector is made For example, from a thermally conductive polyurethane foam, the Capillary tubes enveloped by a heat-carrying To be flowed through medium. Heat losses are prevented by the underlying insulating layer. This inventive sandwiched collector Hybrid collector is made by metal or plastic angle profiles framed, the constructive structure of an easy installation a frame construction allows. The frame construction ensures a tight roof seal and allows that Any number of hybrid collectors in series or one above the other can be mounted on a roof.

The Frame construction takes the connecting hoses of the thermal Collector and the cables of the photovoltaic module. The frame construction advantageously allows adaptation to any commercial Roofing or brick shape.

Of the The hybrid collector according to the invention is not only used the generation of solar heat, but he increases at the same time the efficiency of thermally connected with him Photovoltaic laminates. The cooling of these solar cells by Dissipation of heat through the heat exchanger panel increases the yield of electrical energy during at the same time the heat can be usefully utilized. One big advantage is that the heat exchanger panel involved in the cycle of a geothermal energy plant Can be used to remove excess heat to derive the soil.

Of the inventive hybrid collector advantageously has a roof fastening construction. Here is the collector mounted on a roofing frame, with one attached to the collector Collector frame forms a tight connection. The roofing frame forms a roof connection protected against water and wind and take the flexible connection hoses for the flow and the return of both the heat exchanger panel as well as the cable connection of the photovoltaic laminate. The collector frame Has circumferentially a slot guide, which is a bridge of Eindeckrahmens receives. By means of two locking screws is the hybrid collector on the roofing frame against lifting in consequence of wind load in addition secured. The roofing frame is attached to the roof battens and ensures the connection through its constructive design All commercial roofing and safe drainage accumulating rainwater.

The Invention is based on an embodiment and a Drawing explained in more detail.

It demonstrate

1 a hybrid collector in a roof covering in plan view,

2 a sectional view of the hybrid collector according to the invention with roof fastening,

2 .1 in sectional view a section of an intermediate frame and

3 an arrangement of a hybrid collector on a sloping roof surface in section.

In 1 a hybrid collector is shown in plan view, in a roof covering 10.1 is arranged. Within a collector frame 8th is a photovoltaic laminate 1 supported. An outer frame 7.1 in conjunction with a roofing frame 7 with plug connection is fixed with a roof construction 10 connected. An intermediate frame 7.2 also with the roof construction 10 is connected, makes the connection of another hybrid collector not shown here possible.

A sectional view of the hybrid collector according to the invention with a roof attachment 3 is in 2 shown. In a collector frame 8th the individual parts of the hybrid collector are arranged and fixed. A transparent insulating body 4 forms the upper end of the hybrid collector.

Below is a photovoltaic laminate 1 arranged for power generation, by means of a thermal paste 1.1 ( 2.1 ) with a heat exchanger panel 2 connected is. The heat exchanger panel 2 contains a capillary tube system 2.1 and headers 2.2 for the movement of a fluid heat carrier. Below the heat exchanger panel 2 is an insulating layer 6 arranged. spigot 9 below the insulation layer 6 arranged with the headers 2.2 are in connection, are provided for the connection of hoses or pipes for the transport of the heat carrier. The intermediate frame 7.2 which is arranged between two hybrid collectors and the outer frame 7.1 are on a rafter 10.2 attached. A bridge connection 7.3 and a roof connection bridge 7.4 allow the mounting and fixing of the collector frame 8th within the slot guide 8.1 ,

In 2 is in a detailed representation of the intermediate frame 7.2 with the in the slot guide 8.1 shown mounted collector frame. The connection to a roofing 10.1 is about the special design of the outer frame 7.1 reached. A roof connection bridge 7.4 of the outer frame 7.1 mediates the connection to the roofing 10.1 , The roofing frame 7 with the bridge connection 7.3 has roof side (outer frame 7.1 ) Consequently, another training as hybrid collector side (intermediate frame 7.2 ).

3 shows an arrangement of the hybrid collector according to the invention on a sloping roof surface. Here it can be seen that advantageously the hybrid collector is not on the roofing 10.1 is applied, but in the roofing 10.1 as part of the roof construction 10 is arranged.

1

photovoltaic laminate

1.1

Thermal Compounds

2

Wärmetauscherpaneel

2.1

capillary tube

2.2

manifold

3

roof mounting

4

insulating body

4.1

cavity

5

plastic encapsulation

6

damp course

7

flashings with plug connection

7.1

outer frame

7.2

intermediate frame

7.3

web connection

7.4

Roof connecting web

8th

collector frame

8.1

slot guide

9

spigot for connecting means

10

roof construction

10.1

roofing

10.2

rafter

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 4222806 [0002]

Claims (8)

Roof mounted hybrid collector for coupled generation of electrical and thermal energy, comprising a photovoltaic laminate ( 1 ) and a heat exchanger panel ( 2 ), characterized by one on the photovoltaic laminate ( 1 ) arranged transparent insulating body ( 4 ) with a plastic encapsulation ( 5 ) provided below the photovoltaic laminate ( 1 ) arranged heat exchanger panel ( 2 ), an insulating layer ( 6 ) and a roof attachment construction ( 3 ), which can be attached to the roof battens Eindeckrahmen ( 7 . 7.1 . 7.2 ) and collector frame ( 8th ), the roofing frame ( 7 . 7.1 . 7.2 ) a circumferential bridge ( 7.3 ), which fits precisely into a circumferential slot guide ( 8.1 ) of the collector frame ( 8th ) can be inserted. Hybrid collector according to claim 1, characterized in that the roofing frame ( 7 ) on the roofing side an outer frame ( 7.1 ) with a circumferential further roof connection web ( 7.4 ) and between two arranged hybrid collectors an intermediate frame ( 7.2 ) having. Hybrid collector according to claim 1 or 2, characterized in that the heat exchanger panel ( 2 ) an in-plane capillary tube system ( 2.1 ) fitted with headers ( 2.2 ) is connected, takes place via the means of flowable heat transfer of heat transport. Hybrid collector according to one of claims 1 to 3, characterized in that between plastic encapsulation ( 5 ) of the heat panel ( 2 ) and the photovoltaic laminate ( 1 ) a layer of thermal paste is arranged. Hybrid collector according to one of claims 1 to 4, characterized in that the plastic encapsulation ( 5 ) contains heat conductive fillers. Hybrid collector according to one of claims 1 to 5, characterized in that the plastic encapsulation ( 5 ) is a material consisting of rigid polyurethane foam and graphite. Hybrid collector according to one of claims 1 to 6, characterized in that the insulating body ( 4 ) a cavity ( 4.1 ), which contains a vacuum or gases, in particular noble gases, preferably xenon, wherein the thickness of the gas-filled cavity is less than 40 mm. Method for operating a hybrid collector according to claim 1, characterized in that the circuit of the heat exchanger panel ( 2 ) is operated with a heat pump, which is integrated into the circuit of a geothermal heat plant, in order to be able to dissipate excess heat into the ground.