FI101642B - Solar collector frame structure - Google Patents

Description

101642

Solar collector frame structure Stomkonstruktion för solkollektor 5

The invention relates to a solar collector comprising at least a light-transmitting cover, an absorber, a flow channel of the absorber and a frame structure formed of edge profiles.

10 Currently known solar collectors are generally manufactured as follows. The collector consists of absorber elements which are placed inside an insulated box-like structure. The coating material of the solar light-absorbing side of the collector constructed in this way, i.e. the light-transmitting coating, is either glass or a plastic having good optical properties, such as, for example, PC plastic. The absorbers are manufactured as separate elements. The absorber element can have a structure, e.g. plate-like or narrow strip-like, depending on the manufacturing method. The pressure-resistant liquid space inside the absorber elements is either a tubular space or a space between the two plates with a wider surface. Various metals such as aluminum, stainless steel, copper, etc. can be used as the structural material of the absorber elements. 20 different plastic and composite materials can also be considered. The surface of the absorber elements which receive the heat rays of the sun is treated with a highly absorbent coating such as, for example, black chrome, black nickel, special paint or tape.

It is known from the prior art to form the frame structure of a solar collector, e.g. from aluminum edge profiles, which are fastened to each other either by a screw connection or. ·, Using an adhesive connection. Screw connection and glue connection are laborious connection methods and in addition the glue connection cannot be dismantled. The appearance of currently known connection methods is also disadvantageous. Although the screw connection is in principle a detachable connection, such a frame structure of the solar collector 30 is a poor solution in terms of serviceability.

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The object of the invention is to provide an improvement on the currently known solar collector frame structures.

It is a detailed object of the invention to provide a structure for a solar collector body-5, which can be formed by joining edge profiles together so that the serviceability, interchangeability and appearance of the solar collector are considerably improved.

The objects of the invention are achieved by a solar collector frame structure, characterized in that the solar collector frame structure consists of at least one joint, each joint comprising at least one recess arranged inside the edge profile and at least one pre-bent locking pin. a hole for the locking pin, said at least one hole having a planar surface and said locking pin including a planar surface, the joint being tightenable by turning the locking shock 15 so that the planar surface of the locking pins locks on a planar surface in said hole.

The basic components of the corner connection or corner construction of the solar collector according to the invention are edge profiles, preferably e.g. The corner construction may further comprise a bushing for the connecting pipe of the absorber flow duct, i.e. the manifold.

The corner structure according to the invention acts as a fastening element during the installation of the solar collector. The bushing compensates for the different thermal movements of the solar collector absorber and the collector circuit and acts as an anti-rotation member to facilitate the installation of the solar collector flow piping.

With the solar collector frame structure and the corner construction according to the invention, numerous significant advantages are achieved in the manufacture and installation of the solar collector. The easily disassembled corner connection facilitates the maintenance of the solar collector and allows the replacement of solar collector parts, e.g. boiler glass, absorber, etc. Thanks to the corner insert used in the connection according to the invention, the solar collector assembly is very fast and simple compared to e.g. The clearance allowed by the bushing reduces the stresses on the flow piping and the absorber when the operating temperature of the solar collector varies in the temperature range up to about 200 ° C. Made of plastic, the bushing not only acts as a compensation for stresses, but also acts as a thermal insulating element between the body of the solar collector and the absorber. The connection of the solar collector piping to the roof of the building can be performed simply by using a single key, while the bushing prevents the manifold from rotating. The anti-twist property provided by the structure according to the invention protects the solder joints of the absorber from torsions during installation or removal. The corner recess used in the joint according to the invention acts as a fastening element 15 during installation, often facilitating installation work on a sloping roof in difficult conditions.

The invention will be explained in detail with reference to some preferred embodiments of the invention shown in the figures of the accompanying drawings, to which, however, the invention is not intended to be exclusively limited.

Figure 1 shows a top view of a solar collector according to the invention.

Figure 2 shows a section along the line II-II in Figure 1.

25 *. Figure 3 shows a section along the line III-III in Figure 1.

Figure 4 shows detail A of Figure 1 on an enlarged scale.

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Figure 5 shows a schematic sectional view of a preferred embodiment of the corner structure of the frame structure of a solar collector according to the invention before the final tightening of the joint.

Fig. 6 shows a schematic sectional view of the embodiment according to Fig. 5 after the final tightening of the joint.

Fig. 7 shows a section along the line VII-VII in Fig. 6.

Fig. 8 shows a schematic sectional view of another preferred embodiment of the corner structure of the frame structure of a solar collector according to the invention before the final tightening of the joint.

Fig. 9 shows a schematic sectional view of a third preferred embodiment of the corner structure of the frame structure of the solar collector IS according to the invention before the final tightening of the joint.

In Figures 1-8, the solar collector according to the invention is generally indicated by reference numeral 10. The main components of the solar collector 10 are a light-transmitting cover 11 20 and a plate-like absorber 12. The light-transmitting cover 11 can be e.g. a cover part made of tempered glass. In the flow duct 13 of the absorber 12, heat transfer medium flows. The flow channel 13 can be e.g. copper piping and water, a mixture of water and glycol, heat transfer oils, etc. can be used as the heat transfer medium.

The heat transfer medium is led to the flow duct 13 of the solar collector 10 by means of a distribution element 14, which may be, for example, a manifold. The frame structure of the solar collector 10 is formed of edge profiles IS. The intermediate base in the edge profile IS is indicated by the reference number 15a and the slots in the edge profile 15 by the reference number 15b. In order to form the frame structure of the solar collector 10, the edge profiles 15 are cut at the desired angle 30, preferably e.g. at an angle of substantially 45 °, whereby a so-called jiiriliitos.

101642 5

The corner construction according to the invention comprises metal corner recesses 17 and pre-bent dowel pins 18. The corner construction may further comprise a bushing 19 for the manifold 14. For the bushing 19, a hole suitable for the bushing 19 is machined in the edge profile 15.

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The edge profiles 15 are cut at an angle of substantially 45 ° and, if necessary, a hole is machined in the edge profile 15 for the through-piece 19. Through holes 20 for the shock 18 are drilled in the edge profiles 15. The holes 20 are drilled, for example, in the intermediate base 15a of the edge profile 15. The recesses 17 have holes 21 for the shock 18. The hole 21 in the recesses 17 10 has a planar surface 21a and the pre-bent socket 18, respectively, has a planar surface 18a at the other end of the socket 18.

The frame structure of the solar collector 10 according to the invention and the corner structure or connection according to the invention are formed as follows. Inside the edge profiles 15, corner recesses 17 are placed in the slots 15b, e.g. two inserts per corner. Next, the bushing 19 of the manifold 14 (e.g. a heat-resistant injection-molded plastic part) is installed in place. Finally, the pre-bent locking pins 18, e.g. two, preferably four pieces per corner, are inserted. As a final step, the dowel pins 18 are turned substantially 180 ° with a special wrench. The dowel pins 18 lock in place as their planar surfaces 18a engage the planar surfaces 21a of the holes 21. Due to the pre-bending in the locking pin 18, the joint is tightened to a suitable tension, forming a very strong but easily detachable corner joint.

In the embodiment according to Figures 5-7, a bushing having a flange part 19a, a lug part 19b and a support part 19c is used as the bushing piece 19. Such a bushing 19 compensates for the thermal movements of the absorber 12 and the collector circuit of the solar collector 10 and at the same time acts as an anti-rotation member facilitating the installation of the flow channel duct 13 of the solar collector. The bushing 19 is mounted 30 in a machined hole in the edge profile 15 so that the bushing 19 has a clearance which reduces the stresses 101642 6 on the flow line 13 and the absorber 12 when the operating temperature of the solar collector 10 varies over a relatively large temperature range. Made of plastic, the bushing 19 further acts as a thermal insulating element between the body of the solar collector 10 and the absorber 12.

S The embodiment shown in Fig. 8 is otherwise the same as the embodiment shown in Fig. 5, but in the embodiment according to Fig. 8 only one insert 17 is used.

In the embodiment according to Figure 9, the shape of the bushing 19 allows the rotation 10 to be prevented. In this embodiment, the dowel pins 18 rest on each side of the bushing 19 directly on the surface 19d. In the embodiment according to Fig. 7, the lug part 19b only prevents the bushing 19 from coming out of its hole when the cotter pins 18 are in place. Thus, in the embodiment according to Fig. 9, the dowel pins 18 are positioned so as to rest directly on the surface 19d of the bushing 19. In this case, the cotter pins 18 effectively prevent the rotation of the bushing 19.

The holes 21 may be located in the recesses 17 and / or in the intermediate base 15a and / or in the intermediate projection. Likewise, the holes 20 for the locking pin 18 may be located in the base 15a of the edge profile 15 or in the intermediate projection and the recess 17.

a

Only some preferred embodiments of the invention have been described above, and it will be clear to a person skilled in the art that numerous modifications can be made to them within the scope of the inventive idea set out in the appended claims.

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Claims (7)

101642 Solar collector (10) comprising at least a light-transmitting cover (11), an absorber (12), an absorber flow channel (13) and a frame-5 structure formed of edge profiles (15), characterized in that the solar collector (10) consists of at least one joint , each joint comprising at least one insert (17) fitted inside the edge profile (15) and at least one pre-bent locking pin (18), that the intermediate base (15a) or the projection and the insert (17) of the edge profile (15) have a hole (20,21) for the locking pin (18), wherein at least one of said holes 10 (21) includes a planar surface (21a) and said locking pin (18) includes a planar surface (18a), the joint being tightenable by turning the locking pin (18) so that the planar surface (18a) of the locking sockets (18) is locked to the planar surface (21a) in said hole (21). Solar collector frame structure according to Claim 1, characterized in that the edge profiles (15) to be connected to one another are cut at substantially the same angle. Solar collector frame structure according to Claim 1 or 2, characterized in that the edge profile (15) is provided with a through-body (19) for conducting heat transfer medium to the flow duct (13) by means of a distributor (14). * Solar collector frame structure according to Claim 3, characterized in that the bushing (19) comprises a flange part (19a), an lug part (19b) and a support part (19c). Solar collector body structure according to Claim 3 or 4, characterized in that the bushing (19) is made of a heat-insulating material, preferably a plastic material, the bushing (19) acting as a heat-insulating element between the solar collector body (10) and the absorber (12). 101642 Solar collector frame structure according to one of Claims 3 to 5, characterized in that the locking pins (18) are arranged to prevent rotation of the bushing (19). Solar collector frame structure according to Claim 6, characterized in that the bushing (19) has straight surfaces (19d). «101642