NO771888L - SOLAR COLLECTOR. - Google Patents

Description

Solar collector.

The invention relates to a solar collector, the backside of which consists of a heat barrier layer, which has a cover that is permeable to solar rays against convection loss and which is equipped with a collector plate which is equipped with a spirally arranged tube or channel system through which a heat carrier has flowed, with a joint in the outer winding starting inlet and outlet ending in the inner winding and with an absorption layer.

The sun is an inexhaustible source of energy for an unforeseeable time. In view of humanity's growing energy needs and in view of the scarcity of the earth's usual primary energy types, efforts are being made to include the utilization of solar energy in a current and future-oriented concept for worldwide energy supply.

The sun's heat radiation can be made usable in a relatively simple way with the help of solar collectors. A solar collector generally consists of an absorption surface for converting the sun's rays into heat and a well heat-conducting pipe or duct system connected to this surface, in which a liquid medium circulates that absorbs the heat and transports it to where it is to be used.

Usually, a solar collector in detail consists of a metal, plastic or wooden housing, the back and side walls of which are equipped with a heat barrier layer and the front of which has a cover that is permeable to sunlight to prevent convection loss. Between the rear heat barrier layer and the cover, the arranged collector plate is equipped with a channel or pipe system with an absorptive surface for the flow of a heat carrier. The pipe connections for the supply and discharge of the heat transfer medium are led out on the side or back of the house. In order for the heat taken up by the absorption surface to be partially lost to the air by convection and lost for use, single or double glazing is arranged on the trawling side of the collector plate. The glass can be completely or partially replaced by plastic sheets or foils.

The disadvantage of such solar collectors is that

it is necessary to arrange a relatively cumbersome housing around each collector plate so that the functionality of the solar collectors is not affected by climatic influences and corrosive influences.

The invention is therefore based on the task of designing a solar collector in such a way that the manufacturing cost and weight are reduced without affecting its functionality. Furthermore, the minimum possible building height should be achieved.

The solution to this task consists in the fact that with the solar collector mentioned in the introduction, it is located on the pipes or Duct system-free edge areas of the collector plate covered during intermediate joining of a circumferential elastic sealing profile.

Appropriately, this device formed of collector plate, elastic sealing profile and cover is inserted into a correspondingly shaped profile, as the profile simultaneously serves to bind the solar collector to a roof or other suitable surface.

Within the framework of the preferred design of the invention, pipe and channel-free edge areas of the collector plate are preferably reshaped at the edges so that this forms the housing frame, with the circumferential elastic sealing profile 1 resting on the flange-like deflected part of the edge area.

There are several designs for the collector plate. Thus, it is e.g. It is known that in the case of two faces that are partly connected to each other by rolling, there is a channel system bent from the connecting plane on both sides. It is also possible to connect the two tins to each other instead of by rolling with the help of soldering. Furthermore, absorber tin can be produced with on a

longitudinal channels located on the side during string pressing. A further possibility consists in soldering, welding on or mechanically applying pipes to one side of a flat sheet metal. Furthermore, corrugated tin plates have also already been soldered onto flat tin plates along the contact lines. As materials, aluminum and copper as well as their alloys, steel and plastics come into consideration.

With the object of the invention, it is possible to reduce the weight of the solar collector by approx. 20$ and the building height around approx. 30$. Furthermore, since its assembly is simplified, a considerable reduction in work can be achieved.

The object of the invention is shown below

using several embodiments of the drawing:

Figure 1 shows a plan view of a collector plate 1, where between two parts partially connected by rolling, a channel system 2 is bulged out on both sides in a spiral form from the connection plane s, since the inlet 3 is arranged in the outer winding and the inlet 3 in the inner winding the outlet 4 for the heat carrier medium.

Figure 2 shows a cross-section through a solar collector with a collector plate 5 equipped with a channel system 5, which on its back side has a -heat dam layer 7- On the channel system-free edge area of the collector plate there is a circumferential elastic sealing profile 8 with the glass disc 9 arranged thereon. The glass disc 9 , the sealing profile 8 and the collector plate 6 are inserted into an S-shaped profile 10j with which the solar collector can be bound into a surface. The S-shaped profile 10 serves at the same time to hold the heat barrier layer 7-In order to increase the efficiency of the solar collector, it is possible instead of single glazing to choose double glazing, as the inner disc is equipped with an IR-reflective layer and the collector plate with a selective layer. The glass discs are each on an elastic profile.

Figure 3 shows a cross-section through a solar collector, where the collector plate 12 equipped with a heat barrier layer 11 with channel system 19 in the edge area is edged to form a flange 13 - On the flange 13 is the elastic sealing profile 14, on which the glass pane 15 lies . Between the glass disk 15 and the collector plate 12, a further glass disk 16 is arranged, which is glued to the circumferentially glued profile 17. The profile 18 holds the collector plate 12, the sealing profile 14 and the glass disk 15 and simultaneously serves to hold the heat dam layer 11.

Figure 4 shows a cross-section through a solar collector with collector plate 20 with channel system 21, which has a heat barrier layer 22 and which is bevelled twice in its edge area.

On the flange 23 lies the circumferential elastic sealing profile 24 and on it the glass disc 25. Between the glass disc 25 and the collector plate 20 there is a further glass disc 26 glued to the first edge. The collector plate 20, the glass disc 25 and the elastic profile 24 lying between them are inserted into the profile 26 which also holds the heat barrier layer 22. The profile 24 serves to fix the solar collector on a roof surface.

Claims (3)

1. Solar collector, the back side of which consists of a heat barrier layer and which has a cover that is permeable to solar rays against convection loss and which is equipped with a collector plate equipped with a spirally arranged pipe and channel system through which a heat carrier has flowed with common in the outer winding be- favorable inlet and outlet ending in the inner winding and with an absorption layer, characterized in that the cover (9, 15, 25) under the jointing of an elastic sealing profile (8, 14, 24) lies on the pipe and channel system-free edge area of the collector plate ( 1, 6, 12, 20). 2. Solar collector according to claim 1, characterized in that the collector plate (6, 12, 20), sealing profile (8, 14, 24) and the cover (9, 15, 25) are inserted in a correspondingly shaped profile (10, 18, 26 ). 3. Solar collector according to claim 1 and/or 2, characterized in that the pipes or duct system-free edge area of the collector plate (12, 20) correspondingly reshaped forms the housing frame.