DE2535595A1 - HEATING DEVICE THAT CAN BE HEATED BY SUNLIGHT - Google Patents

Description

Munich 22 ■ Steinsdorfstraiie 21 - 22 Telephone 089/29 84 62

A 7507

Waiter PENSCHKE
7919 Unterroth, Matzenhofener Weg 11

Heating device that can be heated by sunlight

The invention relates to a heating device with a heat collection device, which can be heated by sunlight and consists of a container protected against convective heat emission to the outside, in which a body through which a heatable medium can flow is arranged.

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Such a heating device is from the German Offenlegungsschrift 24 02 999 known. In this known heating device, a circuit is provided for heating a heat exchanger, which as Heat pump can be designed. This heat pump consists of a compressor, an evaporator and a condenser, whereby the evaporator is arranged within the heat collection device, which is protected against convective heat dissipation to the outside. In this Evaporator is apparently intended to heat the surface of this evaporator by thermal convection in order to avoid the flowing through it To evaporate water. For this it is necessary that the temperature within the heat collection device rises to 100 C, which is a requires considerable solar radiation and may not be reached at any time of the year. To allow evaporation at lower temperatures To achieve, it would be necessary to produce a lower pressure than normal pressure in the evaporator, which is an additional effort means. In addition, the evaporator has the disadvantage that a salty brine remains, which is constantly drained off got to. This also increases the effort required. Further it is necessary that additional means are available in the circuit between the heat exchanger and the Wärmesammeleinriehtung to get a heat pump at all. These additional resources are the compressor and the condenser. Apart from the considerable effort, which the known system requires, the efficiency that is achieved with it is relatively low, because it requires a considerable Solar radiation, so that a temperature in the heat collecting unit that can be used to evaporate water.

It is also known (German Offenlegungsschrift 24 61 973), with hooves a reflector to heat a heatable medium that is at the focal point of the reflector within a transparent for solar radiation The vessel is arranged. The construction of the reflector also requires considerable effort in this case.

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Furthermore, from the German Offenlegungsschrift 24 03 032 is a solar energy catcher known, which is arranged within a thermally insulated room and has an absorber surface over which a liquid film flows, which takes the amount of heat stored by the absorber surface with it. It is difficult with this system to control the amount of liquid so that only the orber surface stored by the absorber Amount of heat is taken away. These difficulties arise in particular with alternating sunshine and cloud cover. Around Achieving a corresponding flow rate regulation is a must additional effort can be driven, which can make the system considerably more expensive.

In contrast, the object of the invention is to provide a heating device of the type mentioned at the beginning to show that, without great effort, a high utilization of the amount of heat imparted by the solar radiation enables any main heating system to support the heating of the heating medium at any time without additional effort can be connected to the main heating system or to temporarily replace the main heating system.

According to the invention, this object is achieved in that the heat collector in the device arranged, through which the heatable medium can flow, is designed as a hollow body, which is formed by the heatable The medium flows through it in liquid form and its wall is opposite to an outer one that absorbs the radiant heat of sunlight a flat surface enlarged by corrugations, curves or subdivisions and a surface that is exposed to the flowing liquid medium having heat-emitting inner wall, the heat transport from the surface to the inner wall through the wall material he follows.

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So that the surface of the hollow body through which the heatable medium flows is as high a percentage of the radiant heat as possible can absorb sunlight, this surface is as dark as possible, ideally black. However, it turned out that even a dark gray color enables sufficient heat absorption.

Since the hollow body through which the liquid medium flows has good heat transfer properties, in particular from its surface to its inner surface, must have, is the wall material of the hollow body made of a material that conducts heat well, in particular metal. The flow channels for the medium to be heated are relative narrow or narrow, so that a rapid heat transfer takes place from the outer surface to the inner surface. It turned out that Heating radiators are ideally suited as hollow bodies. In the context of the invention, these heating radiators are used in the opposite sense used as usual. Namely, they transfer the heat absorbed on their outer surface inwards to the heat that is to be heated and that flows through them Medium, which can be water in particular. In conventional use, the surface of the heating radiator emits heat convection Heat to the environment. Of course, you can also use hollow bodies which have the shape of a cooling coil. in the Basically, all bodies that have a larger surface than a flat surface are suitable. The heating medium can with be provided with an anti-freeze, so that operation is possible on sunny days in winter.

It is also advantageous if the heatable liquid medium Through hollow body, in particular the heating radiator body, essentially the entire interior of the heat collecting device, the can be designed as a heat-storing container, fills. This heat-storing container can be made of sheet steel or plastic,

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its inner walls lined with a heat insulating material are. This heat-insulating material can have a heat-reflecting or heat-absorbing surface layer.

The heat-storing container with the one located therein is preferred The hollow body can be inclined at a certain angle with respect to the vertical, this inclination corresponding to the mean position of the sun, so that the most perpendicular possible incidence of sunlight in the heat-storing container and the heat exchange body located therein is guaranteed. In addition, the container and the hollow body located therein can preferably be rotatably mounted and, for example, driven by a motor, the Follow the sun's movement during the day.

To prevent sunlight from falling on the heat-absorbing surface of the To ensure a hollow body, the heat-storing container is provided with a window that is transparent to solar radiation. It is suitable for this ordinary window glass. In order to achieve good thermal insulation of the heat-storing container, the window can consist of several layers of glass exist, between which there are air gaps.

The heating device described above can be used in an advantageous manner be designed as an auxiliary heater and can be connected to a main heating device be. It can interact with the main heater in such a way that it preheats the heating medium assigned to the main heater, which is usually water, carries out to a certain temperature or in such a way that it takes over the function of the main heating, whereby the main heating is switched off.

For this purpose, a can on the cavity body or in the heat-storing container temperature-sensitive switch can be provided, which controls the heater of the main heating in the desired manner before the direction.

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The interaction of the additional heating with the main heating is obtained in an advantageous manner with the help of a heat exchanger in which the heating medium heated in the hollow body heats the heating medium of the main heater. A pump can be used for this in the circuit of the additional heating be provided, which is switched on at a certain temperature, and also in the circuit between the boiler of the main heating device and the heat exchanger can be provided with a pump, which is also controlled accordingly by the temperature-sensitive switch will. The pumps are switched on when the heated liquid heating medium in the hollow body has reached a certain temperature, for example 60 or 70 ° C. For the reasons already mentioned at the beginning, one should avoid as a rule in the invention, that the liquid heating medium located in the hollow body is heated to its boiling point.

The invention has considerable advantages in that it can be used to utilize solar energy without much effort. It offers effective additional heating for existing heating systems and can guarantee effective support in the operation of these heating systems. The invention achieves considerable savings in heating costs with little effort. Due to its simple design, the invention is also suitable for being able to be connected to any existing heating system, so that heating systems that have already been installed can easily be converted.

An advantageous use of the invention is seen in the fact that it can easily take over the heating of the hot water required in a household, in a company or in any other way in buildings. The same also applies to the heating of the water in swimming pools, which are arranged, for example, in the basement of buildings and not the

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Should be exposed to sunlight. In addition, she can Of course, they can also be used to heat the heating medium required for radiators.

In the accompanying figures is a preferred embodiment of the invention shown. The invention is to be explained in greater detail on the basis of these figures. Show it:

Fig. 1 shows a box-shaped heat collection device with a

hollow body located therein, which is designed in the manner of a conventional heating radiator;

FIG. 2 shows a section along the section line Π-ΙΙ in FIGS. 1 and

Fig. 3 is a block diagram showing a connection possibility of

shows heating device shown in Fig. 1 to an existing main heating arrangement.

Fig. 1 shows a heat collection device comprising an outer container 1 represents in box shape with rectangular boundary surfaces. A hollow body designed in the manner of a heating radiator is located in the container 2 housed, through which the liquid medium to be heated flows. There is an inlet 3 and an outlet for this flowable medium 4 provided. The front side of the container 1 is covered with a pane 5, in particular made of glass, which is transparent to sunlight. The direction of incidence of sunlight is indicated by the arrows A. In addition, inside the container 1 is a temperature-dependent Switch 6 arranged.

The container 1 with the hollow body 2 located therein can be rotated open a base 7 mounted. With the help of a motor housing 8 under -

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Brought motor can the container 1 in the direction of the double arrow B rotated around a vertical axis. Of course, it is also sufficient if the motor only rotates in one direction. In addition, the container 1 can be pivoted about a horizontal axis with the aid of a pivoting device 9. A pivot pin 10 is provided for this purpose. With With the help of a locking pin 11, the locking pin through a perforated disc 12, which is attached to the underside of the container, and through its holes 11 can be pushed through, different inclined settings of the container 1 or the transparent for the sun's rays Disc to be set.

Through the rotary movement around the vertical axis and the pivoting movement around the horizontal axis it is possible to have an incidence that is as perpendicular as possible to ensure the sun's rays with respect to the surface of the disc 5 into the interior of the container.

From Fig. 2 it can be seen that the walls of the container 1 with heat insulating material 13 are lined. The heat-insulating material can also be combined with a heat-absorbing material (not shown in detail) or heat-radiating surface. The interior of the container 1 is sealed off from the outside, so that a Convection from the container is largely prevented. For this purpose, as can be seen from FIGS. 1 and 2, the disk 5 can also be multilayered, in particular in two layers, with an air gap 14 being provided between the two glass layers.

The hollow body through which the liquid medium to be heated flows is fixed in the container 1 with the aid of conventional holding devices 15 and 16. Of course, another fixation can also be provided for fixing the hollow body 2, for example the body 2 can also be on the

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Be placed on the bottom of the container and on the rear wall of the container issue. As can be seen from FIGS. 1 and 2, it fills as a heating radiator formed hollow body 2 practically the entire interior of the container 1 from. The one between the heat insulating liner 13 The spacing produced and the hollow body is dimensioned such that the heat insulating material is destroyed by the heated hollow body cannot take place. In order to have a control over the temperature inside the container, a thermometer 17 can be provided on the container be.

The surface of the hollow body 2 is designed to be as dark as possible in order to to ensure high absorption of the heat contained in sunlight.

Fig. 3 shows a heating system, with a schematic representation a boiler 18 and a burner 19 for heating the heating medium located in the boiler 18 are shown for the main heating system are. A heater 22, which is housed in a room to be heated, is connected to the boiler 18 via lines 20 and 21.

The connection of the heating device heated by solar energy to the main heating system 18, 19, 20, 21, 22 takes place via a heat exchanger 23. The heating medium of the boiler passes through lines 24 and 25 18 into the heat exchanger 23, whereby, for example, the line 24 forms the boiler return and the line 25 forms the boiler inlet. In the from the lines 24, 25, the heat exchanger 23 and the boiler 18 are formed Circuit, a circulating pump 26 is installed for the transport of the heating medium to be heated in the heat exchanger 23. The line 24 is for this purpose with a connector 27 and the line 25 with a connector 28 connected to the heat exchanger. About tees 29 and

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the lines 24 and 25 are connected to the boiler 18.

The heat exchanger 23 is attached to the hollow body via lines 31 and 32 connected in the heated by the solar radiation heating device, for example, through the line 31, the heated heating medium is brought into the heat exchanger 23 and is brought back into the hollow body 2 through the line 32 from the heat exchanger. For the Transport of the heating medium that has been heated in the hollow body 2, and for the return transport of the cooled heating medium into the hollow body Another circulating pump 33 provides for renewed heating. The lines 31 and 32 are connected to further connection pieces 34 and 35 on the heat exchanger 23 connected so that it can work, for example, according to the cross flow principle.

The mode of operation of the heating system shown in FIG. 3 is that the following:

In normal operation, the heater 22 is heated by the boiler 18 with Heating medium supplied. If, however, as a result of solar radiation, the temperature in the container 1 has increased to a certain value is, for example at 60 ° C, the temperature-dependent switch 6 set to this temperature is operated in such a way that it has the Burner 19 turns off and the two circulation pumps 26 and 33 turn on, i.e. the heating medium then flows from the boiler 18 into the Heat exchanger 23 and is heated there by the heating medium, which comes out of the hollow body 2 in a heated state, and is fed into the lines 21 or 20 brought so that it can be fed to the heater 22 in the heated state.

Of course, it would also be conceivable to connect the lines 31 and 32 directly to the Lines 21 and 20 to be connected, then depending on the

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Temperature in the container 1 correspondingly arranged valves controlled in this way that the heater 22 is supplied directly by the heating medium heated in the hollow body 2.

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Claims (18)

Claims 1. Heating device with a heat collection device, which by Sunlight can be heated and consists of a container protected against convective heat emission to the outside, in which one can be heated by a Medium through which the body can flow is arranged, characterized in that the through which the heatable medium can flow Body is designed as a hollow body (1) which is durclrüoysen by the heatable medium in the liquid state and whose wall has a Radiant heat of sunlight absorbing, opposite a flat surface by curved or arranged at an angle to each other or surface parts running essentially parallel to one another, enlarged outer surface and one facing the liquid heating medium flowing through having heat-emitting inner surface, the heat transport from the surface to the inner surface through the wall material he follows. 2. Heating device according to claim 1, characterized in that the hollow body (1) consists of a material that conducts heat well, in particular metal. 3. Heating device according to claim 1 or 2, characterized in that that the hollow body (1) is designed as a heating radiator. 4. Heating device according to claim 1 or 2, characterized in that that the hollow body (1) has the shape of a cooling coil. 5. Heating device according to one of claims 1-4, characterized in that that the container (1) is designed as a heat-storing container, the walls of which are lined with heat-insulating material are. ⁷⁵⁰⁷ 609886/0683 6. Heating device according to one of claims 1-5, characterized in that that the container (1) is provided with a wall area (5) which is permeable to sunlight in such a way that the sunlight is on the enlarged surface of the hollow body (2) impinges. 7. Heating device according to one of claims 1-6, characterized in that that the permeable to the sun's rays wall area (5) consists of two or more glass layers, between each of which an air gap (14) is provided. 8. Heating device according to one of claims 1-7, characterized in that that the inner walls of the container (1) are provided with a heat-reflecting layer. 9. Heating device according to one of claims 1-7, characterized in that that the heat-insulating material (13) is provided on the inner walls of the container (1) with a heat-absorbing layer are. 10. Heating device according to one of claims 1-9, characterized in that the interior of the container (1) is substantially is filled by the entire hollow body (2). 11. Heating device according to one of claims 1-10, characterized in that the container (1) consists of sheet steel or plastic. 12. Heating device according to one of claims 1-11, characterized in that the container (1) and the hollow body located therein (2) are pivotable about a horizontal axis. ⁷⁵⁰⁷ 609886/0683 13. Heating device according to one of claims 1-12, characterized in that the container (1) with the hollow body located therein (2) are rotatable about a vertical axis. 14. Heating device according to one of claims 1 - 13, characterized in that it is designed as an additional heater in such a way that that it cooperates with a main heater (18, 19, 20, 21, 22). 15. Heating device according to one of claims 1 - 14, characterized in that it is used as additional heating to the main heater (18, 19, 20, 21, 22) can be connected in such a way that when a preset Temperature in the container (1) or inside the hollow body (2), the main heating device can be switched off and the auxiliary heating the heating activity the main heating takes over. 16. Heating device according to claim 12 or 15, characterized in that that between the heated by the solar radiation auxiliary heater (1, 2) and the main heater (18, 19, 20, 21, 22) a heat exchanger (23) is connected, in which a heat exchange between the heating medium flowing through the hollow body (2) and the heating medium the main heating takes place. 17. Heating device according to one of claims 12-16, characterized in that a temperature-dependent switch (6) in the container (1) is arranged, the burner (19) of the main heating and a transport device (33) controls for the heating medium flowing through the hollow body (2). 18. Heating device according to one of claims 12-17, characterized in that the temperature-dependent switch (6) in the container (1) also controls a transport device (26), which controls the heating 7507 609886/0683 medium of the main heating (18, 19, 20, 21, 22) in the heat exchanger (23) and transported out of it. ₇₅₀₇ 609886/0683