DE10216899A1 - Solar collector for producing hot water, securable directly to roof timbering and provided with reduced height insulation layer - Google Patents

Abstract

The insulation layer (50) beneath the collector layer (60) has a thickness equal to between one quarter and one third of the height of the collector frame, this height being calculated as the distance between the bottom edge of the lower frame profile (1) and the top edge of the upper frame profile. The frame includes a means for securing the collector directly onto building roof timbering. The lower frame profile is U-shaped, the area in between its arms defining a space inside the frame which is filled by the insulation layer. A base plate (40) held in the frame is used to support the insulation layer. The collector layer is also held in the frame. A glass plate (70) on top of the collector layer is held in the frame between the upper and lower frame profiles.

Description

The invention relates to a solar collector for Hot water generation with a frame that has a frame profile Includes upper part and a frame profile lower part and its Frame profile lower part has a substantially U-shaped cross section the free interior of which faces the interior of the frame, with one inserted in the frame profile lower part in the frame all-round insulation material, which essentially the interior of the cross-sectionally U-shaped frame profile lower part, with a base plate, which is inserted into the frame, with one the base plate in the frame of the inserted insulation layer, with one placed on the insulation layer in the frame Collector layer and with one between the frame profile lower part and the frame profile upper part on the collector layer in the Frame inlaid glass plate.

Such solar panels are used, for example, by companies Vissmann, Buderus or Nau offered and distributed. The so far Known solar panels are for mounting on any Suitable for roofs. The solar panels are on the existing roof mounted. I.e. between the roof truss and the Solar panel is the usual roof covering like for example roof tiles or the like. This leaves regularly between the roofing and the bottom of the Solar collector a space through which air flows. This the Space between the solar panel and the roof covering air flowing through cools the solar panel. Especially at low outside temperatures and high ones Wind speeds affect this cooling of the Solar collector the heat output of the solar collector Production of hot water. The well-known solar panels have therefore on the underside between the solar panel and the Base plate the insulation layer mentioned. This insulation layer takes in the known solar collectors a high proportion of Height of the solar panel.

In recent times it has often been adopted that Solar panels not retrospectively on the existing ones Mount roofing, but either the roofing in the area remove the solar panels and the solar panel to attach directly to the roof truss or the Attach the solar panel to the roof structure from the outset and then the remaining roof covering around the solar panel on the To lay roof truss. The previously known solar panels However, because of their great height, they are superior to the rest Roofing. This is bothersome and unaesthetic. At the same time leads this again and again tightness problems on the ridge-side transition between the solar collector and the remaining roof covering.

The invention is therefore based on the object Propose solar panel, which for an immediate Installation on a roof truss is suitable and the rest of the roof covering of a roof.

This object is achieved in that the Insulation layer has a layer thickness that is 1/4 to 1/3 of the height of the Has frame, the height of the frame is from the bottom edge of the frame profile lower part up to the upper edge of the frame profile Upper part is sufficient, and that the frame has means with which the Solar panel directly on the roof structure of a building is attachable.

The advantage of a solar collector according to the invention is that the Solar collector due to the low height of the insulation layer in the Compared to the usual solar panels, in a normal one Roof can be fitted without the solar panel over the roof protrudes. In the solar collector according to the invention the effect is exploited that in the case of a direct impact on the Roof frame no longer mounted the cool outside air can attack the solar collector from below. A fat one Insulation layer, as used in the previously common solar collectors was therefore no longer necessary.

According to the invention, the means can be one on the roof structure attachable bracket and a groove on the frame profile lower part have, the groove cooperating with the bracket. To the Attaching the solar panel is first the clip on the Roof frame screwed tight, then the solar panel with a Groove snapped into the bracket. The groove is advantageous after open outside and protrudes with its bottom into the interior of the Frame profile lower part into it, so that the interior of the Frame profile lower part is reduced. For better mounting points at least one wall of the groove grooves.

According to the frame profile upper part of the Be clipped on the frame profile lower part. To do this, the frame profile Lower part on the outside of the frame profile upper part facing leg two spaced apart webs have, which in the lower region of the facing each other Flanks have a throat.

The frame profile upper part can also according to the invention on the the side facing the frame profile underside two from each other have spaced webs, the outer distance is somewhat smaller is equal to or equal to the inner distance from the Frame profile lower part attached webs and their outer flanks have a bead in the area of the ends. This bead works on Clip the upper part of the frame profile into the lower part of the frame profile with the throats on the upper part of the frame profile.

An embodiment for an inventive Solar collector is described in more detail with reference to the drawing. In this shows

Figure 1 shows a cross section of the frame profile lower part.

Figure 2 shows a cross section of the frame profile upper part.

Fig. 3 shows a cross section of the bracket and

Fig. 4 shows a cross section through the edge region of a solar collector according to the invention.

The illustrated in Fig. 1 frame profile bottom part 1 has a substantially U-shaped cross section. The lower leg 2 of the frame profile lower part 1 has a shoulder 3 , which projects into the interior of the frame profile lower part 1 and thus reduces this interior. This creates space on the outside of the frame profile lower part 1 , so that a groove 4 is formed which has the shoulder 3 and an opposite wall 5 as the side walls. The inner side of the side wall 5 is provided with grooves. The two walls of the groove 4 are connected to a floor. On the back of the bottom 6 , namely the side of the bottom 6 facing the interior, an attachment is formed. This approach forms a groove 7 and a screw groove 8 . The upper leg 9 of the lower section of the frame profile has two webs 10 , 11 running parallel to one another and spaced apart from one another. The mutually facing inner flanks of the webs 10 , 11 have a throat in the lower region. The web 10 facing away from the frame is angled at the upper end. An angle piece 12 is formed between the two webs.

The frame profile upper part 20 shown in FIG. 2 has two webs 21 , 22 running parallel to one another on its underside. These webs 21 , 22 have an outer spacing from one another which corresponds to the inner spacing of the webs 10 , 11 of the lower frame section 1 or is insignificantly smaller. At the free ends of the webs 21 , 22 , the webs 21 , 22 have beads. The frame profile upper part also has a dovetail groove 23 on the underside in the region of the end facing the inner region of the solar collector.

The bracket 30 has an angled end 31 and a stop 32 . Furthermore, the end of the bracket opposite the angled end 31 is provided with a run-on slope 33 .

To mount the solar collector, the bracket 30 is first attached to the roof structure. For this purpose, a screw is screwed through the bracket into the roof truss at a point 34 . However, the screw is initially not fully tightened. The remaining collector is then pushed onto the clamp 30 . The bracket runs with its chamfer 33 into the groove 4 of the lower frame section. The grooves on the underside of the clip and the grooves on the top of the lower wall 5 of the groove 4 interlock. The frame profile lower part bears against the stop 32 of the clamp 30 after assembly. Now the screw at point 34 is fully tightened so that the solar panel is firmly connected to the roof structure.

As can be seen from FIG. 4, the solar collector is composed as follows. A base plate 40 is pushed from the side into the lower frame section 1 . In the case of rectangular base plates, the frame profiles are mitred so that the frame profile lower parts 1 can be pushed on on all four sides and are flush with one another. The mitred frame profile lower parts 1 that abut each other at the corners of the rectangular base plate 40 are connected by screws. These are screwed through the bottom 6 of the groove 4 of one frame profile lower part into the screw groove 8 of the abutting frame profile lower part.

Furthermore, all-round insulation is used in the interior of the lower frame section 1 . This isolates the solar collector from the cold penetrating through the adjacent roof covering. An insulation layer 50 which is insulating downward is then placed on the base plate 40 . This insulation layer 50 is 1/3 to 1/4 as high as the frame of the solar collector from the lower edge of the lower frame section 1 to the upper edge of the upper frame section 20 . The insulation layer 50 is then followed by a collector layer 60 , through which lines run, which carry the water to be heated by the solar radiation. In the upper region, the collector layer 60 borders on the upper edge of the lower frame section 1 , ie the collector layer 60 is flush with the leg 9 of the lower frame section 1 . The surface of the collector layer 60 and the upper layer of the leg 9 of the frame profile lower part 1 thus form a surface. This area is covered with a glass plate 70 . For this purpose, the glass plate 70 is placed on the top of the leg 9 of the lower frame section 1 and the insulation layer 60 . To hold the glass plate 70 , the frame profile upper part 20 is clipped onto the frame profile lower part 1 . For this purpose, the two legs 21 , 22 are pressed together so that they can be inserted between the two webs 11 , 12 until the beads on the webs 21 , 22 snap into the throats of the webs 11 , 12 . In the dovetail groove 23 , a seal, not shown, is inserted, which protects the solar collector from the ingress of precipitation.

In the free area between the frame profile upper part and the angled end of the web 10 , a sheet can be inserted from the outside and then screwed, which is used to seal the transition area between the solar panel and the adjacent roof covering. In the area that remains free between the upper part of the frame profile and the angle piece 12 , a flat angle piece can be used on the miter-cut frame profiles that meet at the corners of the solar panel in such a way that the two legs project into a frame profile part on one side of the solar panel. From above, these angle pieces can then be screwed to the angle piece 12 with screws through the frame profile upper part 20 , so that a stable corner connection of the frame profiles of the solar collector is created.

Claims (7)

1. Solar collector for hot water generation
with a frame which comprises a frame profile upper part ( 20 ) and a frame profile lower part ( 1 ) and whose frame profile lower part ( 1 ) has a substantially U-shaped cross section, the free interior of which faces the interior of the frame
with an insulating material encircling the frame profile lower part ( 1 ) which essentially fills the interior of the frame profile lower part ( 1 ) which is U-shaped in cross section,
with a base plate ( 40 ) which is inserted into the frame,
with an insulation layer ( 50 ) inserted into the frame on the base plate ( 40 ),
with a collector layer ( 60 ) inserted into the frame on the insulation layer ( 50 ) and
with a glass plate inserted into the frame between the lower frame section ( 1 ) and the upper frame section ( 20 ) on the collector layer ( 60 ),
characterized by
that the insulation layer ( 50 ) has a layer thickness which is 1/4 to 1/3 of the height of the frame, the height of the frame extending from the lower edge of the frame profile lower part to the upper edge of the frame profile upper part ( 20 ), and that the frame has means with which the solar collector can be attached directly to a roof structure of a building. 2. Solar collector according to claim 1, characterized in that the means have a clip ( 30 ) which can be fastened on the roof truss and a groove ( 4 ) on the lower frame section ( 1 ), the groove ( 4 ) with the clip ( 30 ) interacts. 3. Solar collector according to claim 2, characterized in that the groove ( 4 ) is open to the outside and projects into the interior of the frame profile lower part ( 1 ) and thus reduces the interior of the frame profile lower part ( 1 ). 4. Solar collector according to claim 3, characterized in that one of the walls of the groove ( 4 ) has grooves. 5. Solar collector according to one of claims 1 to 4, characterized in that the frame profile upper part ( 20 ) is clipped onto the frame profile lower part ( 1 ). 6. Solar collector according to claim 5, characterized in that the frame profile lower part ( 1 ) on the outside of the frame profile upper part ( 20 ) facing leg has two spaced apart webs ( 10 , 11 ) which in the lower region of the mutually facing flanks to have a throat. 7. Solar collector according to claim 6, characterized in that the frame profile upper part ( 20 ) on the side facing the frame profile lower part ( 1 ) has two spaced apart webs ( 21 , 22 ), the outer distance of which is somewhat smaller than or equal to how the inner spacing of the webs ( 10 , 11 ) attached to the frame profile lower part ( 1 ) and their outer flanks have a bulge in the region of the ends.