DE19609001A1 - Device for heating a medium, especially water by solar radiation - Google Patents

Abstract

The water flows through pipelines (8) within a profile elements (1). The pipes are guided in troughs (7) in the profile coated in a covering (9,9.1). A light transparent element (10), especially glass is placed in the covering in the region of the pipes. Alternatively, the covering consists at least partly of a transparent material. The transparent element guides light rays collimated on the pipes through and appropriate finish or an appropriate structure. The profile element consists of a top profile (3) and a bottom profile (4) with insulation inbetween. The profile elements has alternating peaks (6) and troughs (7), the troughs having the pipes.

Description

The present invention relates to a device for Er warm a medium, especially water, which by at least one line flows, the lines one Profile element are assigned, as well as a method for Manufacture of a device.

Nowadays, solar energy is used to generate others Energy used. There are several options Energy generation conceivable. For example, parabolic bundle solar radiation and focus it generate a high heat, which by means of a Energy converter is transformed into electricity. However are also known devices for heating water, at which lines are laid on or under roofs to which the emitted heat, for example the roof tiles for heating To use water. This heated water can on the one hand heating a building or the domestic water heat for everyday needs.  

Nowadays, energy is generated from alternatives Energy sources of great importance since conventional ones Resources such as oil sources, natural gas or lignite are limited are.

In the conventional, previously known on the market directions is set by means of sun exposure Heat exchange of a medium carried in a line, water, in particular, is possible, but their effectiveness is degree and exploitation so far insufficient. In addition, For example, predominantly only individual roof areas of a building provided with these conventional heat exchangers, so that here too, there is only a limited gain in heat is.

Another disadvantage is that the efficiency of such before directions is very bad.

Devices are known, for example Many parabolic troughs work, however, are these are very expensive and, in contrast, cannot be used conventional roof structures or housing cladding be set or retrofitted.

The present invention has for its object a To create device which the above. Disadvantages and works with a particularly high level of efficiency, whereby manufacturing and assembly costs are significantly reduced are.

To solve this problem leads that the lines in Troughs in the profile element and this one Cover are covered.

This invention allows conventional profile elements, which is used as a roof or as building cladding  will serve as a receptacle for corresponding lines. These profile elements are preferably trapezoidal, triangular or wave-shaped and have individual alternating arranged surveys and troughs. In such hollows are between two adjacent surveys Lines inserted which are from a medium, in particular Water to be flowed through.

So that heat transfer from heat radiation to the Is optimized, the profile element with a Cover provided. Between two surveys of the Profile element is a transparent in the cover Element, especially glass, used. This glass is arranged over a large area and closes the formed between two elevations of the profile element Trough so that a space is created. This room is through Heat radiation, amplified by the glass, heated up, whereby heat transfer directly and also by convection the management takes place. The heat is then from the Transfer the line to the liquid, flowing medium and can thus in a heat exchanger or the like for energy converted or for heating a room but also for Warm water can be used.

For example, a ground or slightly arched shape is formed detes used glass, so the light or heat radiation bundled through the glass directly onto the cable be so that an immediate heating of the line is possible.

When the sun is strong, the river is warming up medium within the line so strong that the what This evaporates within the lines and the pressure increases increases. In this case, an expansion machine can connected to the system to generate electricity.  

In another embodiment of the present Er invention, the cover is formed continuously without glass and warms up the space underneath in the hollow. A Heat is then transferred to the convection Pipe and thus to the medium flowing through. In this In this case, the cover would be particularly dark and matt trained to get the highest possible level of absorption gain.

The profile element preferably has an upper and a lower one res profile, which are constructed identically, whereby an insulating layer is provided in between. In if there is no energy transport through the profile element in the interior.

However, the present inventive concept is also intended to encompass be that the profile element consists of only one layer and the one released from the inside of a room, upwards The warmth at the same time warms the troughs from below.

However, it is also essential in the present invention that that the cover the elevations of the profile element spreads. Preferably fits in the upper area of the survey the cover to the profile of the survey. Is the Coverage in the area of the survey firmly with the Profile element connected, so it increases in addition Stability.

With the present invention an apparatus is ge create what conventional, wave-like profiles from triangular, half-shell, trapezoidal, rectangular or the like Profiles used to by means of a cover and lead to form a system that is used to warm and win of energy is useful. The main advantage of everyone thing is that conventional roofs or wall cladding can be converted easily and inexpensively.

Further advantages, features and details of the invention result from the following description more preferred Exemplary embodiments and with reference to the drawing; this shows in

Fig. 1 shows a cross section through an inventive apparatus for heating a fluid, especially water by means of solar energy;

Figure 2 shows a cross section through a further embodiment example of the device of FIG. 1.

Fig. 3 shows a schematically illustrated connection possibility according to the invention of supply and discharge of the medium when flowing through the device.

Referring to FIG. 1, a device according to the invention R a profile element 1 which rests on a support 2. The profile element 1 is preferably formed as a trapezoidal sheet and is often used as a roof, cover, wall covering or the like for a building. The profile element 1 is given a particularly effective design if it consists of an upper profile 3 and a lower profile 4 which is symmetrically formed and spaced apart, an insulation 5 being provided between the upper profile 3 and the lower profile 4 . This construction gives the profile element 1 greater stability. In addition, the escape or entry of heat into or out of a room is significantly reduced.

So that rainwater that strikes the profile element 1 from the outside can run off, it can be arranged at an incline as the roof of a building.

The profile element 1 is, as shown, formed from waves. The profile element can consist of conventional trapezoidal, triangular or rounded shapes. Between individual elevations 6 of the profile element 1 , at least one line 8 is inserted into a trough 7 . This line 8 is used to carry a medium, in particular water.

According to the invention, the trough 7 and the elevations 6 are covered by a cover 9 , a glass 10 or the like being inserted in the area between the elevations 6 in the cover 9 . This glass 10 lets light, in particular solar radiation, into the trough 7 , so that the space, bounded by the cover 9 , is thereby heated. This heat is preferably transferred convectively to line 8 , which transports a fluid, in particular water, which is heated in the process.

In order to create the highest possible heat transfer, the line 8 is made of a particularly heat-conducting material such as copper. However, lines made of, for example, zinc, metal, but also plastic can also be used here.

It is also within the scope of the present invention that the lines 8 are provided with lamellae, if necessary, in order to increase a heat transfer from the outside to the inside or a heat conductivity even with convection.

So that the cover 9 can be fixed on the profile element 1 , it adjusts itself in the upper region of the elevation 6 to the outer contour of the upper profile 3 . On the one hand, a closed space is formed between the profile 3 and the cover 9 , and on the other hand, the stability of the profile element 1 in connection with the cover 9 is considerably increased.

In order to increase the efficiency of the rays entering through the glass 10 in the recess 7 on the line 8 and thus also on the water flowing therein, the present inventive concept is intended to include that the glass 10 has a certain cut. Thus, light rays that pass through the glass 10 can be focused on the line 8 in order to achieve a significantly higher heating of the line 8 by bundling the light.

Absorption of the heat radiation by the line 8 is also increased if it is colored dark. This increased degree of absorption ensures heat exchange or greater heating of the water in line 8 . It is also contemplated to provide the inner surfaces of the glass 10 with coatings which reflect heat radiation reflecting from the profile element 1 again.

This fluid heated in the lines 8 is transported by a heat pump or the like, so that the heated water can be used for heating rooms, but also as heated service water.

At very high light irradiation, however, the water in the lines 8 is heated so strongly that the boiling temperature when the lines 8 flow through it exceeds the boiling temperature and can therefore be supplied to an energy converter in order, for example, to generate electricity.

It is particularly important that a conventional profile element, which is preferably known and available on the market as a trapezoidal profile, is provided with a corresponding cover 9 according to the invention.

In a further embodiment of the invention shown in FIG. 2, a device R₁ is shown, which, as described above, has a profile element 1 , which consists of the upper profile 3 and lower profile 4 with insulation 5 arranged therebetween.

In this embodiment too, a cover 9.1 covers and overlaps the elevations 6 of the profile element 1 . The troughs 7 formed between the elevations 6 are closed by the cover 9.1 , so that a cavity is formed. Lines 8 are also inserted in each of these, as described above.

In contrast to the exemplary embodiment according to FIG. 1, the cover 9. 1 between two elevations 6 is designed to be uniform and closed throughout and is preferably made from dark materials. Here, too, the cover 9.1 overlaps the elevation 6 in order to ensure increased stability and secure, displacement-free fastening on the profile element 1 .

It is important in this embodiment, however, that the cover 9. 1 absorbs sun or light rays and emits heat downwards towards the trough 7 .

A particularly effective embodiment of the invention is also provided if, for example, the lower profile 4 and the insulation 5 are dispensed with, so that the heat emitted from a room upwards may also be used for heating the lines 8 .

In Fig. 3 it is shown how a plurality of lines 8 are fed from egg ner common feed line 11 . The medium flows from the feed line 11 into the respective lines 8 and is collected by a return line 12 after flowing through the lines 8 or after warming up and transported away for further use. It is essential here that each individual line 8 , which is in each case a trough 7, is fed separately from the feed line 11 , flows through the entire line 8 and then opens into a common return line 12 . A temperature which is homogeneous everywhere is thus achieved in the return line 12 , which is of great advantage for the further use of the liquid. A homogeneous temperature is particularly desirable for process water that is used for washing, rinsing and bathing.

However, it is also conceivable here that a line 8 is inserted into a plurality of depressions 7 before it is connected to the return line 12 .

This is the case when the length of the line 8 in the trough 7 is not sufficient to achieve a correspondingly required increase in temperature at a certain flow rate. Thus, a temperature rise can also be regulated on the one hand via the flow rate, but on the other hand also over the length of the lines 8 .

Claims (10)

1. A device for heating a medium, in particular water, which flows through at least one line ( 8 ), the lines ( 8 ) being covered by a profile element ( 1 ), characterized in that the lines ( 8 ) in troughs ( 7 ) in the profile element ( 1 ) and these are covered by a cover ( 9 , 9.1 ). 2. Device according to claim 1, characterized in that in the cover ( 9 ) in the region of the line ( 8 ) a light-permeable element ( 10 ), in particular glass, is used or the cover ( 9 , 9.1 ) at least partially from one transparent material. 3. Apparatus according to claim 2, characterized in that the translucent element ( 10 ) by appropriate grinding or a corresponding structure directs light radiation bundled onto the line ( 8 ). 4. The device according to at least one of claims 1 to 3, characterized in that the profile element ( 1 ) consists of an upper profile ( 3 ) and a lower profile ( 4 ) with intermediate insulation ( 5 ). 5. The device according to claim 4, characterized in that the profile element ( 1 ) has alternating elevations ( 6 ) and Mul ( 7 ), the troughs ( 7 ) being assigned to the lines ( 8 ). 6. The device according to claim 5, characterized in that the troughs ( 7 ) are covered by the cover ( 9 , 9.1 ), the cover ( 3 , 3.1 ) engaging over an outer contour of each elevation ( 6 ). 7. The device according to claim 5 or 6, characterized in that the cover ( 9 , 9.1 ) is fixed to the elevation ( 6 ) of the profile element ( 1 ) and forms a cavity (trough 7 ). 8. The device according to at least one of claims 1 to 7, characterized in that the profile element ( 1 ) waves like triangular, rounded, square, rectangular or trapezoidal profiles ( 3 , 4 ), the profile element ( 1 ) as a roof or wall cladding of a building can be used. 9. The device according to at least one of claims 1 to 8, characterized in that at least one line ( 8 ) is connected to a common feed line ( 11 ) and each line ( 8 ) opens into a common return line ( 12 ). 10. A method for producing a device for heating a medium, in particular water, which flows through at least one line ( 8 ), the lines ( 8 ) being associated with a profile element ( 1 ), characterized in that troughs in the profile element ( 1 ) ( 7 ) molded into the troughs, the lines ( 8 ) are inserted and the troughs are covered with at least one cover ( 9 , 9.1 ).