DE19652568C2 - Solar collector with horizontally divided main frame - Google Patents

Description

The invention relates to a solar collector with a main frame men, the side part of a solar collector housing forms.

Solar collectors usually have a housing, the we significant components are a main frame running around the side, a transparent cover attached to the top of the main frame and in the bottom attached to the bottom of the main frame in the form of a lead ches or a plate. There is an absorber in the housing plate with tubes attached to it in a thermally conductive manner Operation to be flowed through by a heat transfer fluid, collecting lines for the supply and discharge of the heat transfer fluid and Thermal insulation material added, the heat loss from the solar should prevent the collector housing out. Depends on the chosen construction of the main frame will be the transparent Cover either glued directly to the main frame, at for example using silicone rubber, or the cover is only carried by the main frame and with an additional fixation frame, the top of the main frame and the side Raised, fixed and sealed edge of the cover. Solar Collectors of this type are, for example, from the DE 80 12 524 U1 and DE 31 15 617 A1 are known. According to the DE 77 30 084 U1 uses a transparent cover locking profile bar fixed on the main frame.

The task of the fixing frame can also be done accordingly designed profile seal take over that in the main frame is pressed in and which fixes and seals the cover. For this purpose, for example, DE 77 25 984 U1 and DE 29 47 956 A1 referenced.

The present invention does not relate to the aforementioned Fixing frame for the transparent cover, but the side circumferential main frame of the solar collector housing.

The invention has for its object a solar collector with a housing that has a main frame so ver improve that the assembly of the solar collector is simplified and the manufacturing cost is reduced. Beyond that the improved solar collector allow that with only little change effort externally different solar col editors can be produced.

According to the invention, this object is achieved by the main frame men is divided horizontally at least once and two together the connectable frame parts, of which a lower Frame part the foot and at least part of the side wall of the Solar collector housing forms, and of which an upper frame partially supports a transparent cover. Preferential wise, the upper frame part carries essentially only that Coverage, however, it can also be a part embrace the side wall.

This solution according to the invention has several advantages: more common become the main frame for solar collector housings as a strand pressed parts, in particular as extruded aluminum parts manufactured. The conventional, not horizontally divided Main frames of solar collector housings are made of relative complicated shaped profile parts, for example a Support bar for the transparent cover and the like for To make available. This intricately shaped extrusion Profile parts cannot be bent, they have to be made by cut the desired length of the extruded profile become. These pieces then become the main frame of the solar col editor housing assembled. A conventional main frame for a solar collector housing therefore consists of four strands pressed parts, each miter sawn, then assembled, sealed and finally joined together, for example by riveting.

In contrast, the solar collector according to the invention offers due to its horizontally divided main frame, the possibility  the lower, usually less complex shaped frame part to be made from one piece and into the desired frame shape to bend. If there is an inwardly projecting foot on the lower part of the frame trained, this foot must only in the area of everyone Notched frame corner, d. H. for example cut out become. In this way, the lower part of the main frame of the Solar collector housing in one piece and with only one Connection point are made. This is preferred te, the only connection that is on the lower frame of the solar collector according to the invention is still present, so ge puts it not in one corner, but between two corners of the main frame. In this way, the frame must no single miter cut can be made. It is advantageous to use the only connection point if the type plate is attached and with the lower frame part for example riveted. If the nameplate is still there encloses the foot or the underside of the main frame and / or an additional counterpart, for example made of sheet metal, is present on the inside of the lower frame part a particularly high stability and tightness of the main frame mens.

The construction according to the invention clearly reduces the cost Manufacture of solar collectors because it can, for example no need for expensive miter saws. Despite little lower manufacturing costs, the quality is increased, because where none There are no leaks anymore occur more.

The construction of the solar collector according to the invention offers moreover the advantage that the introduction of the absorber plate with the pipes and manifolds mounted on it the solar collector housing is easier because the Absorber plate can already be inserted in the lower part of the frame and the upper frame part can be added later become. This has an effect when it is introduced into the solar collector housing an inwardly projecting support strip for the cover not distracting. With conventional main frames for solar col  this support bar reduces the inner light Width of the main frame clearly and makes it difficult anyway difficult addition of the absorber plate because the Collecting lines must protrude beyond the absorber plate protrude from the solar collector housing when assembled to be able to.

Another advantage of the solar collector according to the invention is that when using extruded parts for the Main frame the material thickness can be chosen less than previously common. This is possible because of the extrusion a dependency between the material width and the Material thickness exists so that at a given width a certain material thickness cannot be undershot. Even if it is not necessary for reasons of stability, must therefore a relatively large one when extruding wider profiles Material thickness can be selected. Since the bottom according to the invention Frame part is narrower than previously common frame parts can whose material thickness is chosen to be correspondingly lower without that this has a negative impact on the stability of the solar col editor housing.

Finally, the solar collector according to the invention offers the Advantage that by changing only the upper part of the frame Selection of externally different solar collectors created can be. For example, depending on the application and Customer request the top frame parts look different, or on otherwise treated or colored while the bottom Ren frame parts that are in the installed state of the solar collector are not visible anyway, just in a single versi need to be manufactured. The production and warehouse In this way, maintenance costs are high despite an externally large Diversity of solar collectors kept low.

The last three advantages of solar col according to the invention proofreaders also come into play when the lower frame part is not made in one piece. However, this is preferred lower frame part to be made in one piece to the above  described to be able to use manufacturing advantages. The lower frame part does not have to be an extruded part be, for example, a one-piece sheet metal part or deep-drawn part that also fits well into the desired one can bend te frame shape.

Yet another advantage of the invention, horizontally divided solar collector can be seen in that the one sealing the cover can already be done if that upper frame part not yet connected to the lower frame part that is. This prevents outgassing from the ver applied sealant following sealing can occur more often, get into the collector housing and contaminate the inside of the cover can, which can only be removed with great effort (Disassembly of the collector housing, etc.). According to the invention the cover is sealed on the still separate, upper frame part and wait for the sealant to "cure" before the connection to the lower frame part is made so that a Contamination of the inside of the cover is prevented. Out this approach also has an advantage in terms of of the required storage space, because until now during the up to three days of curing of the sealant entire solar collector can be stored quietly because a trans Port of the freshly sealed solar collector is not possible is because the loads occurring during transport become a Displacement of the cover in the still plastic seal would lead mass. According to the invention, this only needs smaller, less space-consuming frame upper part after the Sealing process to be stored. Dead capital is being raised this way also reduced because only the frame tops need to be kept available and the lower frame parts Can be produced later in time.

Finally, the horizontally divided according to the invention Construction of the solar panel still has the advantage of a significant simplified handling, because according to the invention that can first Lower frame part to be installed at the site and then the  fully sealed upper part of the frame with the already installed th lower frame part are connected. Fiddling with that complete, very heavy solar collector is no longer needed such.

In preferred embodiments of the invention Solar collector is the upper frame part with the lower frame menteil connected by a snap or snap connection. Such exemplary embodiments therefore only have two with one another connectable frame parts. The lower frame part is like this shaped that it is the foot and at least the majority the side wall of the solar collector housing forms while the upper frame part essentially only serves the cover to take up or carry and possibly even a smaller one Part of the side wall includes.

The upper frame part of the solar collector according to the invention is conventionally composed of several individual sections, the are, for example, extruded parts, in particular aluminum Extruded parts. These parts are mitered or sawn and flush and tight at the abutting corners connected with each other.

Several preferred embodiments of an inventive Solar collectors are described below with the help of the attached schematic drawings explained in more detail. It shows:

Fig. 1 the side portion of a first embodiment of a solar collector according to the invention in section;

Fig. 2 is a one-piece, on the lower frame part of the solar collector-gate of Fig. 1 in three-dimensional representation,

Fig. 3, the lower frame portion of Fig. 2 before its molding to the frame,

Fig. 4 shows a second embodiment of an inventive solar collector in a view corresponding to Fig. 1, and

Fig. 5 shows a third embodiment of an inventive SEN solar collector in a view corresponding to FIG. 1.

In Fig. 1, the side region of interest of a solar collector 10 of interest is shown in section. The solar collector 10 has a main frame, which forms the lateral part of a solar collector housing, to which in addition to the main frame also a transparent cover 12 , here in the form of a cover, and a housing base, not shown here. An absorber plate, also not shown here, is accommodated in this solar collector housing, on which absorber tubes are fastened, through which a heat transfer fluid flows when the solar collector is in operation. The solar collector housing is lined to the bottom and to the sides with thermal insulation material (not shown) to prevent heat loss from the solar collector housing.

As can be seen from FIG. 1, the main frame of the solar collector housing consists of two interconnectable frame parts, namely a lower frame part 14 and an upper frame part 16 . The lower frame part 14 is designed so that it includes a wall 18 projecting at right angles towards the inside in the embodiment shown and the major part of a side wall 20 of the solar collector housing. The upper frame part 16 has a in relation to the solar collector housing at right angles inwardly projecting support bar 22 on which the cover 12 is placed. Between the cover 12 and the upper frame part 16 there remains a circumferential space which, as shown, is filled with a silicone sealing compound 24 in order to fasten the cover 12 to the upper frame part 16 in a sealing manner.

Both the lower frame part 14 and the upper frame part 16 can be manufactured as extruded parts, for example as aluminum extruded parts. However, the lower frame part 14 can also be a sheet metal part or a deep-drawn part.

To connect the two frame parts 14 and 16 , two locking ribs 26 are formed on the lower frame part 14 at the free end of the side wall 20 , which are provided for engagement in two complementary locking grooves 28 , which are located in a guide groove 30 of the upper frame part 16 . In order to connect the lower frame part 14 to the upper frame part 16 , only the side wall 20 needs to be pushed into the guide groove 30 until the locking ribs 26 engage in the locking grooves 28 .

In Fig. 2, the lower frame part 14 is shown spatially, the Rastrip pen 26 have been omitted for the sake of simplifying the drawing. As shown in FIG. 2, the lower frame part 14 is a one-piece part which has been bent into the desired frame shape and only needs to be connected at 32 . Thus, the frame member having the base 18, bottom can be bent into the desired shape frame 14, must tease material portions out of the foot 18 notched in the region of each Rahme, ie away before. Fig. 3 illustrates this and shows how in the area of each future frame corner by removing Mate rial recesses 34 must be created in order to then be able to produce the desired shape of the lower frame part 14 by bending. In the case of a rectangular frame part 14 , the angle α must be 90 °.

Fig. 4 shows a slightly modified, second Ausführungsbei play a solar collector 10. The connection of the lower frame part 14 and the upper frame part 16 is solved as in the first embodiment. However, the cover 12 is simply placed on the support bar 22 and the fixing of the cover 12 is carried out by an additional fixing frame 36 which is attached to the upper frame part 16 and one leg of which overlaps the edge of the cover 12 . For sealing between the said leg and the cover 12 a rubber seal 38 is arranged. The fixing frame 36 without the rubber seal 38 can also be used in the first embodiment if a covering of the circumferential joint filled with silicone sealant 24 is desired.

A further modified third embodiment is shown in FIG. 5. The upper frame part 16 is provided according to the third embodiment with another locking groove 40 , which runs around the cover 12 and into which a specially designed profile seal 42 is pressed, which covers both the cover 12 fixed as well as seals.

Instead of the connection shown between the lower frame part 14 and the upper frame part 16 by means of locking ribs 26 and locking grooves 28 , other types of connection between the two frame parts 14 and 16 are possible. In addition to other latching connection types, the two frame parts 14 and 16 can also be firmly connected to one another, for example by gluing or another material connection, or also by riveting, screwing, etc.

According to all three illustrated exemplary embodiments, the upper frame part 16 can be designed differently from the lower frame part 14 both in terms of its material and in terms of its color. For example, the upper frame part 16 can be anodized, also colored anodized, while the lower frame part 14 is a galvanized sheet metal part.

Claims (7)

1. Solar collector ( 10 ), with a main frame which forms the part since a union of a solar collector, characterized in that the main frame is divided at least once horizontally and has two interconnectable frame parts ( 14 , 16 ), one of which is the lower one Frame part ( 14 ) forms the foot and at least part of the side wall ( 20 ) of the solar collector housing, and of which the other, upper frame part ( 16 ) supports a transparent cover ( 12 ). 2. Solar collector according to claim 1, characterized in that the lower frame part ( 14 ) is in one piece. 3. Solar collector according to claim 2, characterized in that the lower frame part ( 14 ) is an extruded or deep-drawn part, in particular an aluminum extruded or deep-drawn part, in which an associated foot ( 18 ) of the solar collector housing, inward ra gender Material section in the area of each frame corner is spared. 4. Solar collector according to claim 2 or 3, characterized in that the lower frame part ( 14 ) is a sheet metal part. 5. Solar collector according to one of the preceding claims, characterized in that the upper frame part ( 16 ) with the lower frame part ( 14 ) is connected by a latching or snap connection. 6. Solar collector according to one of the preceding claims, characterized in that the upper frame part ( 16 ) consists of extruded parts, in particular extruded parts made of aluminum, which are mitred or sawn. 7. Solar collector according to one of the preceding claims, characterized in that the upper frame part ( 16 ) is colored, in particular by anodizing.