DE3002852A1 - Integrated heating element utilising solar energy - comprises heat-absorbing body containing heat transfer medium also acting as radiator - Google Patents

Abstract

The element allowing heat collection, storage and output has a heat insulated casing (6) enclosing a hollow body (1) through which a heat transfer medium is passed. Its walls absorb the heat provided by the solar radiation and have a ridges or curved front surface to provide an extended surface area. Pref. the hollow body (1) is in the form of a metal heating radiator. It is enclosed at the rear by the heat insulated casing (6) and at the front by one or more transparent sheets (5). A hinged heat-insulating front cover (2) has a reflective inside face for directing the max. amount of solar radiation onto the hollow body.

Description

IQezeic] nlf: Integrated collector-syleicher heating element

(integrated lleio; elenlent) for utilizing solar energy for Heating purposes The invention relates to a solar heating device and domestic water heating device in the form of an integrated collector storage heating element for heating of spaces and liquids. A light-reflecting plate is attached to the element Increasing the solar yield is appropriate. Integrated heating elements become beneficial installed in vertical building facades facing south. You can at appropriate dimensions cause a 3-4 month shortening of the heating period, as well as the majority of the domestic water heating energy. Furthermore is intended for use in greenhouses and in the leisure sector.

Solar heating systems based on the principle of using a liquid are known or gaseous medium-filled pipe systems, which are used as absorbers, e.g. B. in one Solar collector transfers the heat energy to the heat exchanger for direct heating consumption or a buffer. However, this method is disadvantageous the efficiency in relation to the cost of the effort.

Also known are the so-called Trombe walls made of concrete, which in their double function as collector and heat storage with passive use of the Using the thermosyphon principle, solar energy can bring about a reduction in this ratio. However, use for domestic water heating is excluded here.

In addition to space heating, the invention has a solar hot water supply to, with the use of a radiator that is built into a compatible component is integrated.

Never refer to the outer value of the element Flap with rear thermal insulation concentrated in the open state (with Sunshine) the radiation on the black painted heating element. The flap can be made adjustable in their inclination to the horizontal, so that Depending on the season, the most favorable concentration effect is achieved. In summer -When the sun is high, windows below the flap may be shaded. The flap is operated by hand - like roller shutters - and in the end position by a Snap lock held or driven by a motor with an automatic switch. It is closed at night and in very radiant weather and then possesses the effect of a good heat-insulating wall.

Commercially available ribbed radiators and plach radiators are advantageously used as radiators or tubular heating elements are used. The radiator has the following functions: a) it absorbs the directly irradiated through its black, possibly selective surface and solar radiation concentrated by the reflector, converts it into heat and takes heat from the interior heated by the greenhouse effect through thermal conduction of the element.

b) It serves as a short-term storage device due to its heat capacity.

The storage capacity of the usually associated with the heat transfer fluid Water-filled radiator can optionally. By filling with small, z. B. spherical Latent storage containers are increased. This measure may lead to an increase the overall efficiency of the solar system.

c) It serves as a heat exchanger to the room air. Compared to the environment it is due to the single, double or triple glazing made of normal or special solar glass, as well as a box-like construction when the reflector flap is closed Heat insulating insulation material included. The thermal insulation on the room side is adjustable or foldable and regulates the air circulation around the radiator hereabouts. If the rear thermal insulation is not adjustable, connections are for a Provide warm air heating.

The ileizkniry) cr is in the usual way with affection connected to an existing heating system. The is normally closed two additional connections on the radiator are connected with additional pipes coupled to a high-level storage tank, so that this tank can be operated with solar energy as well as with boiler operation according to the thermosyphon principle due to each other Adjusting the waterproof slender is loaded with heat. This memory can also be designed as a latent memory. The design temperature of the overall heating system should be around 50 degrees C.

Compared to known solar systems, the invention provides the following Advantages achieved: - The use of tried and tested radiators reduces the risk of corrosion to a minimum.

- Because of the multiple function of the element as a collector store and radiators are any frost problems at the risk of a usual frost Central heating reduced.

- By applying the thermosyhon principle, the charging process electrical energy saved for trm circulation pumps and for control. In addition, the Operational safety due to the omission of critical components, e.g. B.

Controllers, pumps, collectors, increased.

- The solar energy used per unit of area is increased by the concentration effect of the reflector flap and the full utilization of the Heat losses on the rear side that are used for room heating. On sunny Days, 4-5 kWh / m d can be used almost regardless of the season, because In summer, the same level of irradiation due to the concentration effect of the reflector plate as achieved in winter with almost vertical irradiation on the vertical .c rd en.

- There is the possibility of subsequently increasing the overall efficiency by filling the memory, possibly also the radiator with latent storage bodies.

The simple integration of the elements into the vertical south facade conditionally low assembly costs for new buildings. In multi-storey buildings you are the use of solar energy is no longer limited to the small roof area.

In summer there is a cooling effect by shading window areas causes. The energy gained is fed to the storage system.

- The integrated heating element provides an optimally controllable additional Heat capacity, as it is very desirable, especially in prefabricated buildings in lightweight construction is.

- Construction and dimensions of the element allow an industrial one Series production as a ready-to-assemble component.

Low acquisition and operating costs result in favorable amortization times. Compared with solar systems on the market are likely to have the same performance the additional costs compared to the costs of conventional solar heating and domestic water heating systems especially for new buildings, can be reduced by about half.

The invention is illustrated below with reference to the drawings Embodiments explained in more detail. It is shown in Fig. 1 schematic cross section of an integrated collector memory according to the invention Heating element ia absorption position.

Fig. 2 Cross section of the integrated collector storage heating element in the field.

Fig. 3 embodiment of an integrated collector storage Heating element with motorized reflector flap - side view.

Fig. 4 embodiment of an integrated collector storage Heating elements with motorized reflector flap - front view.

Fig. 5 embodiment of a heated with integrated heating elements multi-storey building.

Fig. 6 embodiment of an operated with integrated heating elements Solar shower.

In Figure 3 and 4, an integrated heating element is shown, its Reflector flap over the low-speed electric motor flanged to the wall (13) is controlled, which drives the disc (14). The one on the disc The mandrel (15) engages in the groove on one side edge of the reflector flap (16) and pulls the flap. Opening and closing of the flap happens at slower speed High torque speed. Switches mounted in the plate, the z- @ are operated via the disc, the motor will stop when the start or start point is reached. End position of the flap. The automatic flap can be operated manually from the room or via Sensors are triggered.

In addition to the integrated heating elements (17), there is also one in FIG very simple additional solar system with collector (18) and arranged above Memory (19), which is loaded in natural circulation, is shown.

The domestic water heating takes place iil) he a heat exchanger in lower memory (20), which is loaded as memory (19) for a small pump and, if necessary, through post-heating using an electric immersion heater or gas flow heater is supplemented. This requirement occurs when, on the one hand, the boiler heater (22) nuch is not in operation and, on the other hand, the radiation supply is too low to achieve the to enable the desired T3 hot water temperature. The rooms are heated initially via the data stored in the heating elements of the integrated heating elements Heat and then through a small circulation pump that draws the warm medium from the lower Brings memory (20) specifically to the respective consumption room.

Fig. 4 shows the use of a modified integrated heating element (23) in a solar shower, as can be used in the leisure sector.

The integrated element is about 60 degrees from the horizontal inclined, south-facing, rear wall of the shower cubicle attached through a curtain (26) is closed. The shower water can be fed through the inlet (24) get directly into the solar energy heated collector store (29), and presses the hot water into the shower head (25).

If the solar irradiation is too weak, the reflector flap (27) closed and serves as thermal insulation. Water pressure and temperature make sish Set via the taps (28).

The individual numbers within the figures mean: 1- hollow body, at the same time collector, heat storage and heat exchanger, preferably heating radiator 2- reflector flap mirrored inwards, heat-insulated on the back, 3-joint, 4- rain deflector, possibly provided with a lock, 5- transparent cover, preferably Double or triple glazing, at the same time the outer wall of the element, 6 containers, at the same time room-side thermal insulation of the element,. - - 7- back 1etarmeisclation, automatic or ItlainAeJl foldable, 8-wall, 9-window, 10- open rear thermal insulation, 11- reflector flap when closed Condition, 12- airways, 13- electric motor, low-speed, 14- disc, 15- mandrel, 16- Groove, 17- integrated heating element, integrated in the south facade, 18- collector, according to working on the thermosyphon principle, 19- storage tanks at 18,17, 20- domestic hot water storage tanks, 21- conventional radiator, in the north side of the building, 22- additional heating, 23- integrated heating element with non-adjustable back, 24- inlet, 25- Shower head, 26- curtain, 27- reflector flap, when closed the outer wall of the integrated heating element, 28 taps, 29 collector tanks, Blank page

Claims (14)

PATENT CLAIMS: 1. Integrated collector storage tank heating element (integrated lIeizelement), characterized in that a) that it is used as a Wärmesammeleinr1.citung, the is at the same time heat storage and heat exchanger direction to the room air, is formed, which can be heated by sunlight, and one against heat emission outwardly protected container (6), in which one of a heatable Medium flowable body is arranged. b) that the body through which the heatable medium flows as a hollow body (1) is formed through which the heatable medium flows and its Wall a wall absorbing the radiant heat of sunlight, opposite one flat surface by curved or arranged at an angle to one another or essentially surface parts running parallel to one another enlarged outer surface and a having on the flowing heating medium heat-emitting inner surface, wherein the Heat transport from the surface to the inner surface through the wall material takes place, or vice versa. c) that on the lower outer edge of the container (6) a plate (2) with a light reflective surface attached, which the sunlight reflected on the hollow body (1). 2. Integrated heating element according to claim 1, characterized in that that the hollow body (1) made of a material that conducts heat well, in particular metal consists. 3. Integrated heating element according to claim 1 or 2, characterized in that that the hollow body (1) is designed as a heating radiator. 4. Integrated I1ei ze ement, according to any one of claims 1 - 3 thereby characterized in that the container (6) is designed as a heat-storing container is, the wall of which is lined with heat-insulating and heat-reflecting material is. 5. Integrated Ileizelenent, according to any one of claims 1-4, characterized characterized in that the container (6) has a wall area which is permeable to sunlight (5) is provided in such a way that the sunlight falls on the enlarged surface of the hollow body (1) strikes. 6. Heating device according to one of claims 1-5, characterized in that that the permeable to the sun's rays wall area (5) from 1, 2 or more consists of transparent layers, between which an air gap is provided is. 7. Integrated heating element according to one of claims 1-6, characterized characterized in that the light reflecting plate (2) with a heat insulating Layer is provided and formed automatically or manually around a joint (3) so that it covers the outer wall of the container (6) in the closed state. 8. Integrated heating element according to one of claims 1-7, characterized characterized in that the rear container wall (7) can be folded down manually or automatically designed or provided with hot air connection piece, so that the room air in Natural or forced circulation around the heat transfer surfaces of the hollow body (1) circulates and draws heat away from him. 9. Integrated Heizelelnellt according to any one of claims 1-8, characterized characterized in that the llohlköq) he (1) is filled with latent storage bodies. 10. Clnteg; red Jlei zol ernent, flat one of claims 1-9, characterized in that the reflector flap (2) has an electric motor (13) is controlled, which drives a disc (14) at slow speed, via a mandrel (15) that engages in a guide attached to the flap, pulls the flap with it and brings it into a stable end position. 11. Integrated Ileizelement according to any one of claims 1-10, characterized characterized in that the hollow body (1) is connected to the heating circuit of an existing one Heating system is connected by means of pipelines. 12. Integrated heating element according to one of claims 1-11, characterized characterized in that the hollow body (1) with at least one memory (19) by means of Pipeline is connected, which is designed as a water or latent storage. 13. Integrated heating element according to one of claims 1-12, characterized characterized in that the memory (19) lies above the hollow body (1), so that the heat transport of (1) according to (19) can be done according to the thermosiphon principle. 14. Integrated heating element according to one of claims 1-7 or 9, characterized in that it is provided with a movable reflector flap (27) and with the non-adjustable rear side facing south Rear wall of a shower cubicle, which is closed by a curtain (26), attached is, the collector storage (29) directly via pipes provided with taps (28) is connected to the shower head (25).