DE2652306A1 - ENERGY COLLECTOR - Google Patents

Description

PATENTANWÄLTE DIPL.-ING. WERNER FREISCHEM

. ILSE FRESH

5000 COLOGNE 1 HEUMARKT 14 TELEPHONE: (02 21) 23 58 68

Applicant: TEKNOTERM SYSTEMS AB

Fack
S-2O1 10 MALMÖ 1

Application title: Energy collector

Our reference: T 79 PaGm 76/1

The invention relates to an energy collector with at least one heat transport medium circuit and devices for processing and distributing the recovered thermal energy.

It is known to use a heat pump and a convector to use the heat energy of the outside air in the radiator system of the House usable. A number of convectors are used for this, which are indirect in a primary circuit or connected directly to the evaporator or the compressor of a heat pump via a heat transport medium, for example a low freezing point liquid and freon gas. The outside air flows around these convectors. To a big one Obtain heat exchange with the ambient air, however, one wants to maintain as small a surface area of the convector as possible, the air in the known device is used pushed through the convector with the help of a fan

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As a result, the convector is usually equipped with a fan. Furthermore, the heat transfer from the heat transfer medium to the convector should be the best possible, for this reason the convector is usually not painted. An unpainted surface actually transfers the heat from the heat transfer medium better to the convector than, for example, a surface painted black. The heat transport medium is cooled in the evaporator of the heat pump so that it has a lower temperature than the ambient air at the inlet of the convector. The condenser of the heat pump are the removed at the evaporator heat energy to a second heat transfer medium / at a higher temperature level, operating the secondary circuit, d ^e r due to its construction directly in the radiator system, or the like of the house can be used. The temperature difference between the evaporator and the condenser of the heat pump as well as the temperature difference between the heat transport medium at the inlet of the convector and the ambient air are coordinated in such a way that energy losses, such as those in the heat pump, are reduced to a minimum. Such a convector is installed on the roof of a house, for example, so that good contact with the ambient air is ensured.

It is also known to use solar panels for collecting solar energy to use. Such a solar collector is generally installed on the roof of a house and consists of a number of pipelines connected in parallel or in series,

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through which the heat transport medium of the primary circuit flows. The solar panels are generally painted black so that they absorb the solar energy well. In order to achieve a high heat exchange, the aim is to have as large a collector surface as possible. In addition, the solar collector is covered by at least one glass plate and the space between the solar collector and this glass plate is possibly evacuated. The solar panel is from the one below. The roof is thermally insulated using suitable insulation materials. Since the temperature of the heat transport medium at the outlet of the solar collector is relatively high, the heat transport medium can generally be used directly or indirectly in the heating system of the house.

From what has been said above it is clear that a collector for collecting the heat from the ambient air normally has one has forced airflow when its collecting surface is small. As a result, he's out with a fan armed and not painted, and through it flows a heat transfer medium at a lower temperature than the tempe temperature of the surrounding air. A solar collector, on the other hand, must be protected from air movements and one must be painted black and have the largest possible surface area, with the heat transport medium flowing through it having a higher temperature than the ambient air.

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The object of the invention is to create an energy collector that uses the existing energy sources as efficiently as possible, is easy to implement and use and can be manufactured inexpensively.

This object is achieved in that the energy collector has devices for collecting heat from the ambient air and at the same time of solar energy, which are arranged outside the house to be supplied, a plurality of side by side having running, through which the heat transport medium can flow, attached at a distance from the house roof channels, with a black paint that absorbs solar energy and are exposed to the ambient air, the means of heat transport can be brought together in the primary circuit containing the energy collectors with the evaporator of a heat pump whose Condenser is connected to the heat distributors of the house, and the heat transfer medium at the entrance of the energy collectors a lower temperature than the 'ambient temperature of the energy collectors having.

So far it has been a combination of a solar panel and one Energy collector for the thermal energy of the ambient air to a single energy collector for impracticable. With the present invention, however, both collection devices are combined in an efficient manner. The invention is based on the observation that a solar collector with a heat transfer medium of slightly lower or

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the same temperature as the temperature of the surrounding air, not from its surroundings and the house roof must be thermally insulated, as the heat losses are low or negligible. Will continue to be an energy collector Collect the convection heat of the air designed so that it is a has a large, heat-exchanging surface, so it can be painted black and also work without a fan and still have the same efficiency.

To the solar energy and the warmth of the surrounding air as well to exploit as possible, is proposed as an advantageous embodiment for the energy collector, this with a transparent Cover plate, leaving a certain space between this plate and the energy collector, so that air can pass through this gap.

In a further development of the invention, a heat exchanger is switched into the primary circuit, this heat exchanger is in one House air shaft so that it can exchange heat with the house's ventilation air.

Embodiments of the invention are shown in the drawing and are described in detail below with reference to the drawing. In the drawing show:

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Fig. 1: a schematic diagram of an energy collector according to the invention with two heat transport medium circuits,

Fig. 2: a second embodiment of the energy collector, in a schematic view, with two circuits,

3: a basic representation of an embodiment the energy collector,

FIG. 4: an illustration of an energy collector according to FIG. 3 with a U-shaped curved glass cover,

5 shows a basic illustration of a second exemplary embodiment for the energy collector in series connection

Fig. 6: a third embodiment according to Fig. 3 and 5 of the warm co ^ ector in parallel circuit, and Fig. 7: a fourth embodiment of the energy collector.

In Fig. 1, reference numeral 1 denotes a house roof on which the energy collector 2 according to the invention is mounted at a certain distance 3 from this roof. The energy collector 2 is located in the primary circuit 4, which also has an evaporator 5 and a heat pump 7. A pump 8 ensures the circulation of the heat transport medium 9 in this primary circuit 4. The condenser 6 of the heat pump 7 is connected via a heat exchanger with aen radiators 10 in. Secondary circuit 11, the additional advantageously has a heat accumulator 24.

As shown in greater detail in Figure 3, there is the energy collector 2 made of two metal plates 12 and 13 arranged parallel to one another, between which a multitude of intermediate subdivisions

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is seen so that a number of connected in parallel with each other Channels, between the ends of these metal plates 12 and 13 is trained. The energy collector 2 is also equipped with connecting pieces 14 and 15 through which the heat transport medium 9 is supplied to and removed from the energy collector 2 arranged in the primary circuit 4. As shown in Figure 5, the Enei Giekollektor 2 also constructed from two corrugated sheets 16 and 17 whose waves touch each other to form channels running parallel to each other. These channels are within of the primary circuit connected in series. In Fig. an embodiment of the energy collector 2 is shown, in which the transport lines for the heat transport means 9 in cylindrical recesses on a corrugated sheet 17 arranged

sincy

net <"" T) he energy collector 2 - according to Fig. 7 is with thermal insulation 25 equipped at its bottom.

At least the upper corrugated sheet metal plate 16 or the upper metal plate 12 is painted black so that it can absorb the radiant energy of the sun and convert it into thermal energy. This thermal energy is transferred to the heat transport means 9 located in the energy collector 2, this heat transport means 9 circulates in the primary circuit 4. Furthermore, the energy collector 2 exposed to air, both on its top and bottom. Since the energy collector 2 supplied te heat transport means 9 has a lower temperature than the ambient air, the ambient air gives heat via convection to the heat transport means 9. The energy collected in the energy collector 2

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sorbed thermal energy is through the heat transport medium 9, which circulates in the primary circuit 4 under the action of the pump 8, on the Evaporator 5 of the heat pump 7 transported where the thermal energy of the heat transport medium 9 by the heat pump 7 at a low Temperature level is summarized and raised to a higher temperature level directly in the radiator system 10 of the house can be used.

In the advantageous embodiment of the invention shown in FIG. 4, the energy collector 2 is covered by a transparent cover plate 18 having a U-shaped cross section. Due to the U-profile, this plate has a higher resistance to bending and is also easier to assemble. Between the cover plate 18 und.dem energy collector 2 is an air gap 19 in which the air can circulate freely. The cover plate 18 can be made of glass or a transparent plastic material.

In Fig. 2 a second embodiment of the invention is shown, in which a heat exchanger 20 was switched on in the primary circuit. The heat exchanger 20 is in an air shaft of the Arranged in the house, it exchanges heat with the air flowing out of the house. During the cold season there is a high temperature difference between the air inside the house and the outside air. This automatically creates a draft in the air duct, however, this * is a disadvantage during the winter. Through the heat exchanger 20, the temperature of the exiting from the house

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Reduced air, which reduces the chimney effect and the amount of heat energy given off by the home. Farther a fan 21 is arranged near the top edge of the roof / which draws the warm air from the cavities below the ridge of the roof sucks in and this air supplies the energy collector 2.

From these explanations it is clear that the energy collector 2 according to the invention collects solar energy and convection heat. Furthermore, the energy collector 2 also collects the heat energy emitted by the house through the house roof 1 and the heat energy in the air ducts of the house. Temperature sensors of a known type are advantageously used in the primary circuit and in the secondary circuit arranged, with which the temperature of the heat transfer medium can be queried, as well as the interior and the Outside temperature. These heat sensors control via a control system the work processes of the heat pump 7 and a number of valves 22, 23. The energy collector 2 according to the invention and The control systems are designed so that the available energy sources can be exploited in the best possible way. This means that the heat recovery is too high during the warm season. During this time of year, the heat pump 7 is therefore switched off and the energy collectors 2 only work as solar collectors. In such a case, the heat transport medium runs through the valves 22 and 23 (FIG. 1) past the heat pump 7 and is in direct connection with the heat accumulator 24. The heat energy obtained in this way can be used to heat water and can be used to heat the house as required

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can be used by means of the radiator 10.

As a rule, a certain amount of heat is always stored, so that the fluctuations between day and night, as well as long-term Fluctuations in temperature can be compensated for. One or more heat accumulators are advantageously provided, which are designed as large water tanks or the like. This heat storage 24 can on the one hand in the primary circuit 4 and, on the other hand, in the secondary circuit 11 are switched on. In such a case, the tax system controls the inflow and the decrease in the amount of heat from these heat accumulators 24 in a known manner.

The heat exchanger 20 is designed in such a way "that it takes from the House cools down through an air shaft during the cold season. This creates the chimney effect of these air shafts reduced, which is beneficial during the cold season. During the warm season there is a temperature difference between the indoor air and the outdoor air, of course, relatively small and consequently the chimney effect will also be small. To increase this chimney effect during the warm season, the heat transfer medium 9 runs from the energy collector 2, which in this case works solely as a solar collector, through the heat exchanger 20. This heat exchanger 20 is thus warmer than the internal temperature and is consequently the .Luft in the air shaft Warm up. This leads to an increased chimney effect, which is quite desirable during the warm season. Since the sun

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needed to ensure the effectiveness of the House roof
Energy collector
distance
Primary circuit
Evaporator the collector device according to the Condenser can deliver for the home. 2652306
* * Energy collector according to the invention is advantageous Heat pump It
collector supplies excess heat in this case, combined with a conventional heat source, such as pump 22 valve
23 valve
24 heat storage
25 thermal insulation will not add any additional energy play an electric heater, so that the necessary additional heat Means of heat transfer To increase ventilation system me c radiator - Of the can be delivered if Secondary circle with Invention not enough heat Metal plate List of reference symbols Metal plate 1
2
3
4th
5 Connector 6th Connector 7th Corrugated sheet metal 8th We 11b lechp latte 9 Cover plate 10 Air gap 11 Heat exchanger 12th fan 13th 14th 15th 16 17th 18th 19th 20th 21

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Claims (10)

P ATENT AU SP Rt) CEE ("ΜEnergy collector with at least one heat transport medium circuit and devices for processing and distributing the heat energy obtained, characterized in that, that the energy collectors C2) devices for collecting Have heat from the ambient air and at the same time from solar energy, they are located outside the house to be supplied, a plurality of side by side, through which the heat transport means (9) can flow and attached at a distance from the house roof (1) Have channels, provided with a black, solar energy absorbing paint and exposed to the ambient air are, the heat transport means (9) im. the energy collectors (2) containing primary circuit (4) can be brought together with the evaporator (5) of a heat pump (7), the condenser (6) of which with the The house is connected to heat distributors and the means of heat transfer (9) at the input of the energy collectors (2) a lower temperature than the ambient temperature of the energy collectors (2) having. 2. Device according to claim 1, characterized in that the energy collector (2) through a transparent cover plate (18) can be covered, which is arranged at a small distance above the energy collector (2) and the energy collector (2) is attached at a distance (3) above the house roof (1). 3. Device according to claim 2 with a transparent cover 709821/0736 Plate, characterized in that the cover plate (18) has a U-shaped profile, the legs of which are perpendicular to the roof ridge are arranged. 4. Device according to one of claims 1-3, characterized in that that in the primary circuit (4) a heat exchanger (20) can be switched on, which is located in a ventilation shaft of the house arranged it. 5. Device according to one of claims 1-4, characterized
by a fan (21) directed towards the energy collector (2). 6. Device according to one of claims 1-5, characterized in that that the fan (21) is arranged in the vicinity of an air shaft ending below the house roof (1). 7. Device according to one of claims 1-6, characterized in that that the energy collector (2) consists of two plates (12,13,16,17) arranged in parallel and at a distance from one another 8. Apparatus according to claim 7, characterized in that
at least one of the plates (12,13,16,17) is a corrugated iron plate (16,17). 9. Device according to one of claims 1-8, characterized in that the energy collector (2) consists of a corrugated sheet metal 709821/0736 (17) consists of tubes for the heat transfer medium in their grooves (9) are arranged, 10. Device according to one of claims 1-9, characterized through thermal insulation C25) on the underside of the energy collectors (2). 709821/0736