DE102006040447B3 - Solar collector has ventilated housing with framework, having rear walled thermal insulation and radiation permeable front cover as well as absorber unit, where absorber unit is arranged between front cover and thermal insulation - Google Patents

Abstract

The solar collector has a ventilated housing with a framework (1), having a rear-walled thermal insulation (2) and a radiation-permeable front cover (3) as well as an absorber unit (4). The absorber unit is arranged between a front cover and a thermal insulation. The framework has an air inlet opening in a lower frame area in the housing and an outlet opening (7) in an upper area for the flowed-in air. The air inlet opening has a catch, designed as a flap and adjusted in one position by an opening device, depending on a temperature measurement in the housing or the absorber unit.

Description

The The invention relates to a solar panel with internal ventilation, in particular for use on facades and for the construction of solar roofs.

solar panels serve for the production of heat energy for the home heating or water heating. They usually consist of a collector frame for enclosing a glass cover and for receiving a collector tray with integrated thermal insulation, and vents for the Interior and an absorber plate with flow channels for a heat transfer medium, the connecting pipes penetrate the collector trough in at least two places.

there will be between versions distinguished with a closed or a ventilated housing.

An overheating hazard in such solar panels is especially at high ambient temperature and strong sunlight. Usually, a heat exchanger is arranged preventively in the circulation of the heat transfer medium to z. B. in the summer months with low heat energy requirements to prevent exceeding the maximum permissible media temperature. In the DE 30 15 061 A1 For example, it is proposed that outside the collector a heat removal system be arranged which is operatively connected to the collector such that the heat transfer fluid in the collector is automatically supplied to an external heat removal device when the temperature of the heat transfer fluid exceeds a predetermined temperature level the heat of the heat transfer fluid is released to the atmosphere and the heat transfer fluid is returned to the atmosphere after the heat release to the collector.

The Expenses for this However, they are significant, even in the presence of a heat exchanger for cooling local Temperature peaks in the collector or on the absorber can not be excluded.

In the DE 299 10 853 U1 a solar thermal collector is proposed, which has at least one intermediate storage device for receiving and subsequent, delayed release of heat to the absorber unit. However, a safe overheating protection is not feasible.

Furthermore, from the DE 199 54 238 A1 a solar collector known which consists of a ventilated housing with rear and / or side wall insulation and a radiation-permeable front cover and arranged between cover and insulation, by a heat transfer medium permeable plate-shaped absorber, wherein the ventilation of the housing interior through at least two opposite corners of Housing provided channels is formed. For this purpose, molded parts or insert pieces are arranged with at least one defined passage opening or a passage cross-section in the housing corners so that taking advantage of the temperature differences between the housing interior and the ambient atmosphere adjusts a flow for ventilation and overheating, in particular of the heat transfer medium is reduced.

By Plug or similar closing mechanisms for the Channel drilling is the flow rate adjustable inside depending on performance class and / or climatic zone. Insects and larger dust particles should hold back a net or grid in front of the channels. At the core is with This arrangement therefore one of the performance class or the installation site dependent mechanical ventilation realized. That is a major disadvantage.

In the DE 101 51 293 A1 a cooling device for solar collectors is proposed, each of which provides a vent hole in the upper and lower housing wall, these openings are closed by a temperature-dependent activatable lid. The lid is actuated by a bimetallic strip that exits the housing below the absorber and pivots about an axis below the vent hole, ie this pivots in the direction of the support surface of the solar collector z. B. a roof skin.

The opening is so against the weather, especially rain not protected.

Also the solar panel after DE 203 03 972 U1 has at least one closable ventilation opening. In addition to the design of the ventilation openings various temperature-dependent controllable locking mechanisms are described.

Further be noted that the ventilation holes against penetration protected from insects and rain should be z. B. by mesh and Regenableitbleche. These proposals follow the principle for each function a separate part, which ultimately makes the product more expensive.

The object of the invention is to realize a simple and inexpensive depending on the temperature of the heat transfer medium controllable ventilation of the housing interior of solar modules and thus to reliably prevent the exceeding of temperature limits, in particular for the absorber or absorbers and thus directly coupled pipelines, seals and other components, without there being any danger of rainwater entering.

Is solved This object with the features of claim 1, advantageous embodiments Subject of the dependent claims.

According to the invention is at a solar collector consisting of a ventilated housing with frame with back wall Thermal insulation as well as one radiolucent front cover and one between the front cover and arranged the insulation Absorber unit, with the frame of the housing in the lower frame area Air inlet openings in the case and in the upper and / or upper and lateral area air outlets for the incoming air has, and at least at least the Lufteinströmöffnungen with a closure for These are provided in its position by an opening mechanism dependent on from a temperature measurement on or in the housing or from the temperature the absorber unit is adjustable, provided that the closure is designed as a flap, which is arranged around a hinge, above the Air inlet openings, is pivotable.

By this temperature dependent Control of the closure or closures is ensured that is an upper temperature limit to which the ventilation is designed is not exceeded. This has the well-known far-reaching consequences, namely that the material used for adsorber, Seals, lines now only for limited temperature ranges must be designed.

simultaneously this flap is in every position, d. H. temperature dependent rain reliable from.

Further is provided that the shutter in the temperature-dependent set Position through the opening mechanism is fixed.

In a preferred embodiment is the opening mechanism temperature-dependent operable by the temperature of the absorber unit by this is attached directly to the adsorber thermally conductive and preferably as a bimetallic element or as another temperature-dependent working Memory element is formed.

In a special version is provided that the air outlet openings with a temperature-dependent controllable Closure with similar construction as with the lower air inlet openings are provided. This can be in one embodiment, the closures of Air inlet openings and the air outlet openings gear technology coupled with each other so that both closures simultaneously open or closed.

According to the present solution Can the housing flowing through Air over the lockable air inflow openings between the front cover and the absorber unit and the absorber unit and the thermal insulation are routed or between the adsorber unit and the thermal insulation.

Farther it is envisaged that the cover of the housing or parts thereof removable are arranged, preferably hinged. So can be in case of need Remove dirt easily.

The flowing through Air can not only for cooling purposes be used, but also the drying of the housing interior, in particular the thermal insulation, the usually made of glass wool. In the simplest case, the absorber unit Through openings up, over the heat insulation is ventilated or by the rising moisture in the space flowing through the air of the housing arrives.

One embodiment is shown in the drawings.

1 shows a side view of the solar collector in section and

2 a detailed view of the lower frame area.

Shown is a solar collector consisting of a ventilated housing with frame 1 with back wall insulation 2 and a radiolucent front cover 3 and one between the front cover 3 and the thermal insulation 2 arranged absorber unit 4 ,

The frame 1 of the housing has air inlet openings in the lower frame area 5 in the housing between the front cover 3 and the absorber unit 4 and in the upper area air outlets 7 for the incoming air 9 on.

The air inflow openings 5 are with a closure 6 provided in the form of a flap for this. The closure 6 is in its position through an opening mechanism 8th adjustable as a function of a temperature measurement on or in the housing.

The closure designed as a flap 6 is around a hinge 10 , arranged above the air inlet openings 5 , swiveling.

The opening mechanism 8th is temperature dependent on the temperature of the absorber unit 4 operated.

For this he has a bimetallic element or another temperature-dependent working memory element, on the one side with the absorber unit 4 thermally conductively connected and on the other side with the shutter formed as a flap 6 is coupled. The temperature-dependent deformation of the bimetallic element or the memory element thus leads directly to an opening or closing movement of the flap. At the same time the flap is fixed in every position. Of course, it is also possible to integrate in the coupling between bimetallic element and flap lever or racks, especially to achieve optimal ratios between the movement of the bimetal and the desired flap movement. Greatest value should, however, be placed on extensive freedom from maintenance.

The air inlet and outlet openings 5 . 7 may be provided with an air-permeable grid or lamellar structure to prevent the ingress of larger dust particles and / or insects into the housing. Structure here means a structuring of the opening or a grid arranged in front of or behind it or a lamella or a net, etc. These structures can also be interchangeable. Additionally or alternatively, it is advisable to use the cover 3 or to arrange parts thereof removable, preferably hinged to have access to the housing interior for cleaning purposes.

1

housing frame

2

thermal insulation

3

front cover

4

absorber unit

5

air inflow openings below

6

shutter preferably in the form of a flap

7

air outlets

8th

opening mechanism

9

airflow

10

hinge

Claims (5)

Solar collector consisting of a ventilated housing with frame ( 1 ) with back-walled thermal insulation ( 2 ) and a radiation-permeable front cover ( 3 ) and one between the front cover ( 3 ) and the thermal insulation ( 2 ) arranged absorber unit ( 4 ), the frame ( 1 ) of the housing in the lower frame area air inflow openings ( 5 ) in the housing and in the upper area air outlets ( 7 ) for the incoming air ( 9 ), and at least the air inflow openings ( 5 ) with a closure ( 6 ) are provided for this, which in its position by an opening mechanism ( 8th ) in dependence on a temperature measurement on or in the housing or on the temperature of the absorber unit ( 4 ) is adjustable, characterized in that the closure ( 6 ) is designed as a flap, which is a hinge ( 10 ), located above the air inlet openings ( 5 ), is pivotable. Solar collector according to claim 1, characterized in that the closure ( 6 ) in the temperature-dependent position by the opening mechanism ( 8th ) is fixed. Solar collector according to claim 1 or 2, characterized in that the air outlet openings ( 7 ) with a temperature-dependent controllable hinged closure with an analogous structure as in the lower air inlet openings ( 7 ) are provided. Solar collector according to one of claims 1 to 3, characterized in that the housing by flowing air through the closable air inlet openings ( 7 ) between the front cover ( 3 ) and the absorber unit ( 4 ) and the absorber unit ( 4 ) and the thermal insulation ( 2 ) or between the adsorber unit ( 4 ) and the thermal insulation ( 2 ). Solar collector according to one of claims 1 to 12, characterized in that the cover ( 3 ) or parts thereof are removably arranged, preferably hinged.