DE2645072A1 - Solar energy heat exchanger - made of light absorbing plastics straps in which channels are formed - Google Patents

Abstract

The flat double strip for heating exchanger is made of plastics and has water channels. The heat exchanger has large surface area and is used in heat pumps and solar energy collectors. The double strip has two strips connected by transverse webs for forming channels through which the water can flow readily. The water channels (3) can have different forms and round channels are used when high pressures are used. The air and water heat exchanger can be formed by winding these double strips into spiral pattern. The plastics channel system can be used for underfloor or ceiling heating. The plastics elements can have light absorbing walls covered with black paint or with embedded carbon particles. Such light absorbing walls can be used for swimming pool heating, or for supplying heat to a heat pump.

Description

Dr. Karlheinz Raetz
Gassnerstrasse 12

33 Braunschweig

Description of the patent application with the designation:

Heat exchangers made from double webbing for heating systems with a low flow temperature

Double straps extruded from plastic are suitable for the manufacture of large-area heat exchangers, as shown in the modern heating technology with heat pumps and solar energy required are"

l shows two types of double bridge tapes. Fig.2 shows an air-water heat exchanger. Fig. 3 shows a ceiling or wall radiation heater. Fig.4- shows "a collector base made of double webbing. FIG. 5 shows a collector base made of double webbing with a foil grid glued on.

Fig.6 shows an application example of a collector with Double strap bottom.

Description of the heat exchangers

The double web strip extruded from plastic according to Fig.1 consists of two strips 1, which are connected by webs 2. The water-carrying channels 3 can have different shapes. Round ducts according to Fig.1a are used where high pressures occur, e.g. hydrostatic pressures in ceiling heating or hydrostatic and water vapor pressures in collector floors. Gap-shaped channels according to Fig.1b are used there, where pressureless heat exchangers with a large surface area and small dead volume are required, e.g. for air-water heat exchangers for heat pumps.

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The air-water heat exchanger according to Figure 2 is made of double webbing wound spirally. To ensure that the flow resistance of the channels is low, there are several double web bands parallel. The double web strips 4 are inserted into a distribution channel 5 and into a collecting channel 6. The heat exchanger is supported by an inner ring 7 and an outer ring 8. The rings are made up of spokes 9 or Metal bands held concentrically. In order for the double web bands 4 to remain at a constant distance, they are corrugated bands made of metal or hard plastic. Corrugated strips 10 made of metal increase the heat transfer capacity, since the Metallband.10 transferred heat at the contact points between the metal band 10 and the double web band 4 will. Trapezoidal strips 10 improve the heat transfer because of the larger contact areas.

For the heat exchanger according to Figure 2, the Double web band according to Fig.1b used. In designs for high temperatures and pressures, the double web band according to Fig.1a be used.

Floor heating systems have a surface temperature of 26 ⁰ C with a flow temperature of 40 ⁰ C. This large temperature difference of 14 degrees' is because of the poor thermal conduction of Estrichts, the floor covering, carpets, etc. necessary. If, on the other hand, a ceiling heating with a double webbing as shown in Fig.1a is used, the surface temperature corresponds practically to the water temperature .. The lowering of the flow temperature to about 30 C increases the efficiency of collectors, the heat capacity of heat storage and the performance figures of the heat pumps.

According to Figure 3, the ceiling heating according to the invention from a double web band 11 nach'Fig.1a, which is on a stiff plate 12 made of Gdps, pressboard or similar is glued on. The double web strip according to Fig.1a can have longitudinal grooves (dovetail) 28 have so that the web double belt 11 and the plate 12 firmly stick together.

The ceiling heating can be produced in panels of a certain width in various lengths. After laying Any remaining unfilled areas can be covered with panels

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suitable thickness. The radiant heating can be pasted over with a woodchip wallpaper or similar. the The surface of the double web tape 11 must be prepared for pasting with wallpaper, e.g. by means of a paper laminate. The water connections are led into the hallway, where the distributors are located behind a suspended ceiling. The plates 12 can with continuous profile strips 13 on the ceiling can be hung. A fastening screw prevents slipping out of these strips.

Fig.3a shows the side view, Fig.3b shows a section of the ceiling radiation heating.

Due to the extensive wetting of the double web strip with water and the small thickness, it can also be used as a collector base be used. This collector base has the following advantages over metal bases:

1) Low material costs, valuable raw materials such as aluminum or copper are not required.

2) No corrosion problems.

3) Low heat capacity, i.e. short warm-up time in the morning.

According to the invention, the collector base consists of an extruded double web strip 14 made of plastic. Located between the collector base 14 and the thermal insulation panels 16 an air gap, which at a certain temperature of the collector bottom by a thermostat at the upper gap exit is opened so that the convection of the air prevents the collector from overheating.

In the case of very long collectors, the thermal expansion of the floor is problematic. This can be reduced if the floor is processed with fillers such as glass fiber. To hold it, the bottom 14 has tubular ano-etches 18 through which metal tubes 19 are drawn. The metal tube 19 is firmly connected at the top to the collector edge 15 and slidably runs through a hole in the collector wall 15 at the bottom. In this way, the thermal expansion of the tube 19 is not transferred to the collector wall 15.
Instead of the tube 18, webs 32 can also be attached to the base 14.

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be working, are inserted into the T-beams 32. With With this construction, better heat dissipation to the air is achieved in the event of overheating.

The radiation losses of the collector floors can through selective layers are lowered. Such layers are highly absorbent for sunlight (black), but have low emission for thermal radiation. Such layers are usually determined by electroplating or in a vacuum by vapor deposition Layers made. Both methods are complex and expensive. The collector bottom made of plastic is therefore glued according to the invention with a metal foil that has been selectively coated beforehand.

Radiation and convection losses can be reduced at the same time if the collector base has a grid or a honeycomb is covered, which is highly transparent to sunlight, but impermeable to heat radiation is.

The finished collector base is according to the invention with a Honeycomb or a plastic grid. A black two-component paint is used as the adhesive. Pig. 5 shows a foil grid that is designed to be wave-shaped for stabilization. -Pig.5a shows the front view of the double web band 20 with the glued-on grid 21. In the side view according to FIG. 5b, the cover plate 22 is visible. The film 21 can also be glued to the pane 22 with highly transparent adhesives.

The double web band according to Fig.1a can with embedded carbon also as a simple light-absorbing wall for swimming pool heating or to supply heat to a heat pump.

A sunlight collector according to Figure 4 and Figure 5 is expediently built into a system according to Figure 6. This consists of the collector 23, a heat accumulator 24 with water, a water pump 25, a special return pipe 27 and an expansion vessel 26. This consists of a funnel with a balloon-like cover.
This system is against overheating, against overpressure and against frost

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protected when the water tank 24 is partially filled with air. The water level is always above the water pump 25th

How the system works:

In the event of overheating, the water pump 25 switches off and the air gap behind the collector base 23 is opened thermostatically. The water flows from the collector base through the water pump 25 into the water reservoir 24 · By wetting in the collector base Any remaining water evaporates and flows through the lower outlet to the expansion vessel 26. The water vapor condenses in the lower part of the collector, as it has a lower temperature here because of the cold air flowing past it has than at the top end. This protects the collector base from overpressure.

This system is also frost-proof if the water from the collector base 23 is good after the water pump has been switched off expires. Connecting pipes exposed to the "cheers, must not be laid horizontally. The lower edge 29 of the collector base is cut off at an angle. An even better one Water drainage is achieved when the lower edge 30 is wedge-shaped. Remaining water droplets can expand when freezing without damaging the bottom. A curved line piece 31 is inserted into the return line, so that the system is well filled when the water pump starts up. The downward line 27 must be designed in this way ensure that the water flow does not stop. A plastic tube, which is divided into small tubes, is suitable for this is. The required extra power of the water pump compared to a closed circuit is low. If the difference in level between the collector inlet and the tank inlet 24 is greater than approx. 8 m, one must come from the storage tank 24 separate air reservoirs are placed in the line 27.

Claims (13)

, 1)) Double strut made of plastic for heat exchangers, characterized in that the water-bearing channels 3 are round. 2) double web band according to claim 1,
characterized, that one side of the longitudinal grooves 28 is drawn into the double web bands are" 3) double web band according to claim 1 _?
characterized, that on the web double belts-on one side tubes 18 tightened are. 4) double web band according to claim 1, characterized, that webs angled on one side on the web double belts 32 are tightened. 5) heat exchanger made from double webbing, characterized in that that one or more web double belts 4 parallel spirally are wound with a certain distance, so that a heat-transferring liquid in these spirals flows while the heat-giving or heat-absorbing air flows through the spiral in the axial direction, 6) Heat exchanger according to claim 5 » through this . g e k e η η ζ. e i c Ü. η e t, that between the double web bands 4 corrugated bands 10 809815/0083 ~ ⁷ " -Z- made of metal or hard plastic are used. 7) heat exchanger according to claim 5,
characterized, that between the double web bands 4 trapezoidal metal band he are used. 8) Ceiling heating made of double webbing,
characterized, that a double web tape 11 is glued to a stiff base. 9) ceiling heating according to claim 8,
characterized, that the plates 12 are suspended from the ceiling by means of continuous angle profiles. 10) sunlight collector, characterized, that the bottom consists of an extruded double web strip with round channels. 11) sunlight collector according to claim 10,
by the fact that the collector base is covered with metal foils. 12) sunlight collector according to claim 10,
characterized, that the collector base is covered with corrugated, transparent plastic sheets 21, which are perpendicular to the floor. 13) sunlight collector according to claim 10,
characterized, 809815/0083 - rf- ■ that the lower bottom edge 29 is inclined. H) sunlight collector according to claim 10, characterized in that that the lower bottom edge 30 is wedge-shaped. Sunlight collector according to claim 10, characterized in that that the connecting pipe 27 between the upper collector outlet and the heat accumulator 24 is divided into a plurality of small-diameter tubes. 809815/0083