DE3010101A1 - Solar heat tubular absorption unit - has horizontal tubes woven in basket pattern round vertical supports - Google Patents

Abstract

The tubular absorption unit is partic. for solar heat recovery, a fluid flowing through the tubes acting as heat-transfer medium. It is in two freestanding parts one behind the other, each comprising horizontal plastic absorber tubes on vertical supports, and connected at opposite ends to plastic distribution and collector manifolds. The horizontal tubes (11,21) in both units are deflected in alternate directions by the vertical supports (15, 16) and woven together in a basket pattern. The supports can be at regular intervals between the manifolds (10), adjacent ones being joined together at the top (17) to form a stirrup, the horizontal portion of which lies on the uppermost absorber tube.

Description

Tube absorber unit, especially for solar

utilization systems The invention is based on a tube absorber unit, especially for solar use systems with liquid circulating in the pipes as a heat transfer medium, which is composed of two partial absorber units, which are free-standing are arranged directly one behind the other and each consist of horizontally running, on vertical supports held plastic absorber pipes that are attached to a End with a plastic manifold and at the other end with a plastic manifold are conductively connected.

Such a pipe absorber unit can be used as a garden fence or the like. be placed outdoors. In a known tube absorber unit this Art are the two partial absorber units on both sides of the vertical supports attached, the dimensions of the supports being the spacing of the both Partial absorber units are determined. The horizontal plastic absorber tubes of the partial absorber units are held individually on the vertical supports and are guided to be adjustable to be able to carry out a corresponding expansion movement in the event of temperature increases.

This single down of the horizontal plastic absorber tubes requires a considerable amount of parts and assembly. Also, the vertical Plastic distribution pipes and the plastic collecting pipes of the two partial absorber units not be fixed in place at both ends. But this makes the connection more difficult the pipe absorber unit on the solar utilization system, which is usually done via connecting pipes he follows. Even with this complex, adjustable setting of the two partial absorber units on the vertical supports it is not ensured that the horizontal plastic absorber pipes are located can expand and contract evenly, but if this is not the case, then the appearance of the free-standing tube absorber assembly is severely impaired. Another disadvantage is that the two partial absorber units the known tube absorber unit does not have the same radiation conditions of Sun and the same flow conditions in the air are exposed.

It is the object of the invention to provide a tube absorber assembly of the initially mentioned to create mentioned type that is simpler in structure and with fixed plastic manifolds and plastic manifolds larger expansion movements of the horizontal absorber tubes can intercept without affecting the appearance of the tube absorber assembly, and in which both partial absorber units nevertheless have the same radiation and flow conditions are exposed.

In the case of a tube absorber unit, this task is carried out according to the generic term of claim 1 solved in that the horizontal plastic absorber tubes the two partial absorber units alternately against each other by means of the vertical supports are deflected and intertwined like a basket.

Which are intertwined with each other and with the vertical supports like a basket horizontal plastic absorber pipes can expand in horizontal planes and contract without affecting the uniform image of the tube-absorber assembly, since both partial absorber units change uniformly but in opposite directions. It is no longer required that the plastic manifold and the plastic manifold must be able to adjust at one end of the partial absorber units. Since the horizontal Plastic absorber pipes alternating from support to support once to the front and are offset towards the rear of the tube absorber assembly for connection both partial absorber units exposed to the same radiation and flow conditions.

The optimal configuration is characterized in that the vertical Evenly spaced supports between the plastic manifolds and the plastic headers are arranged and that each two adjacent vertical Supports are connected to one another by means of a web to form a bracket, the web of which on the top horizontal plastic absorber tube of the two partial absorber units rests.

The bow-shaped supports can be according to a further Ausgestunq thereby fix on the partial absorber units that the vertical supports by means of Clamps or the like under- half of the lowest plastic absorber pipe of the two partial absorber units are fixed in such a way that they cannot be displaced.

According to a further embodiment it is provided that the vertical Support a core made of metal pipe, metal rod or the like and a plastic outer skin, e.g. plastic hose, plastic coating or the like. Those trained in this way Supports have sufficient stability and allow sliding movement of the horizontally adjacent plastic absorber pipes with little friction.

A further development of the tube absorber unit is characterized in that that the horizontal plastic absorber pipes are evenly spaced twice the diameter of the plastic absorber pipes on the plastic distribution pipes and the plastic header pipes are attached and that the two partial absorber units are offset from one another by half a division in the vertical direction. The horizontal Plastic absorber pipes are then each in the middle between two vertical ones Supports directly on one another, so that no additional holding or guiding means more are required on the vertical supports.

The connection of the tube absorber unit to the solar utilization system can be made easier according to one embodiment that the plastic manifold and the plastic header pipes on the two partial absorber units are swapped and that at one end of the tube absorber assembly, the plastic manifold of the a partial absorber unit with the plastic collecting pipe of the other partial absorber unit is conductively connected to each other. The two connecting lines from and to the Need solar harvesting system then only to one end of the tube absorber assembly to be introduced.

An easy to manufacture and tight connection between the horizontal Plastic absorber pipes and the plastic distribution pipes or plastic collecting pipes can be achieved according to a further embodiment that the horizontal Plastic absorber pipes through thermoplastic deformation in bores in the plastic distribution pipes and the plastic header tubes are welded in and that the ends of the plastic absorber tubes in the thermoplastic state by means of an expanding mandrel or the like.

from the inside of the plastic manifolds and the plastic manifolds widened forth and are deformed as an abutment on the inner wall of the same. This expansion at the end of the plastic absorber tubes ensures that when welding the bore of the plastic absorber pipes is not reduced in size.

The assembly of the two, preferably separate prefabricated Partial absorber units become the tube absorber unit according to a further development simplified by the fact that the number of vertical supports is even and the number of the divided fields is odd. The partial absorber units placed on top of one another are intertwined by inserting the supports, with the plastic absorber tubes are alternately deflected to one side or the other. The abstract the supports to a bracket with two legs and a bar is an advantage.

The invention is based on an embodiment shown in the drawings explained in more detail. It shows: Figure 1 is a partial front view of a A pipe absorber unit that can be used as a garden fence and consists of two partial absorber units is put together, Figure 2 shows a cross section through the tube absorber unit according to Figure 1, which shows the basket-like interweaving of the two partial absorber units the vertical supports can be seen, Figure 3 shows a cross section through the connection point between a horizontal plastic absorber pipe and a vertical plastic distributor or collecting pipe and FIG. 4 shows a cross section through a vertical support.

Using FIGS. 1 and 2, the structure of a tube absorber unit are explained according to the invention. First, there are two partial absorber units manufactured that includes a vertical plastic manifold 10 and a vertical plastic manifold 20 have. Between the plastic manifold 10 and the plastic manifold 20 horizontal plastic absorber tubes 11 and 21 are arranged, respectively in conductive connection with the vertical plastic distribution or collecting pipes stand.

The front partial absorber unit has the plastic distributor pipe at the left end 10, while on the right, not shown the end of a plastic collecting tube 20 is arranged. The rear partial absorber unit, on the other hand, has that on the left end Plastic manifold 20, while at the right end, not shown, a plastic manifold 10 is attached.

The plastic absorber tubes 11 are part of the front partial absorber unit and the plastic absorber tubes 21 are part of the rear partial absorber unit. The two Partial absorber units can therefore be connected in series at one end of the tubular absorber unit are by simply connecting the plastic manifold 10 of the a partial absorber unit with the plastic collecting pipe 20 of the other partial absorber unit. The other end of the tube absorber assembly is connected via two connecting lines connected to the solar use system. These two connecting lines are connected to the assigned plastic distribution and collecting pipes.

The horizontal plastic absorber tubes 11 and 21 are shown in FIG 1 drawn at a distance from one another in order to better illustrate their interdependence. The vertical supports 15 and 16 are inserted so that the horizontal plastic absorber tubes 11 and 21 of the two partial absorber units are interwoven like a basket. Two adjacent vertical supports 15 and 16 are each over a web 17 united to a bracket. The support 15 is inserted so that the horizontal Plastic absorber tubes 11 of the front partial absorber unit behind the support 15 and the horizontal plastic absorber tubes 21 of the rear partial absorber unit lie in front of the support 15. The support 16, however, is inserted so that the plastic absorber tubes 11 of the front partial absorber unit in front of the support 16 and the plastic absorber tubes 21 of the rear partial absorber unit ter the support 16 lie. The bracket with the supports 15 and 16 is inserted until its riser 17 starts the top plastic absorber tube 11 of the front partial absorber unit rests. The free ends of the supports 15 and 16 are above the lowermost plastic absorber tube 21 of the rear partial absorber unit and can od for fastening in the ground.

Like. Be used. So that the supports 15 and 16 on the tube absorber assembly adjusters are below the lowest plastic absorber tube 21 clamps 18 or the like. Attached, the supports 15 and 16 immovable determine.

When the horizontal plastic absorber tubes 11 and 21 of the front or the rear partial absorber unit in an even division with twice that Diameter of the plastic absorber pipes are attached and if the front and the rear partial absorber unit in the vertical direction by half a division against each other are offset, then the two partial absorber units can be intertwined in such a way that that in the middle between two supports 15 and 16 or

in the middle between the first or last column and the final column Plastic distribution and collecting pipes, the plastic absorber pipes 11 and 21 directly lie on top of one another, as indicated by the reference numeral 12. On additional Holding or guiding means for the plastic absorber pipes on the supports can then be waived.

It is advantageous if the number of vertical supports 15 and 16 is even and the partial absorber units in an odd number of Fields is subdivided. Then the separately prefabricated partial absorber units stacked on top of each other and solely through the introduction of the vertical support Zen are intertwined with each other. Looking at the view of the tube absorber assembly according to Figure 1, then it can be clearly seen that for each plastic absorber tube 11 and 21 of the front and rear partial absorber units have the same radiation and flow conditions for sun and air are given. This requires a uniform Expansion or contraction of the horizontal plastic absorber pipes. The adjusting movements occur evenly and oppositely in horizontal planes. This always leads to a uniform appearance of the tube absorber assembly.

In Figure 3 is a junction between a horizontal Plastic absorber tube 11 with a vertical plastic distribution tube 10 is shown. A bore 14 is made in the plastic distributor pipe 10 for each connection point, which is smaller in diameter than the outer diameter of the plastic absorber tube 11. The wall of the bore 14 and the outer circumference are at the end via the heating mirror of the plastic absorber tube 11 is heated and made plastic. After that, that will The end of the plastic absorber tube 11 is inserted into the bore 14. Be there Parts of the material shifted and form a bead 13. The end face of the plastic absorber tube 11 is inside the plastic manifold 10 by means of an expanding mandrel or The like. Deformed and pressed against the inner wall of the plastic distributor pipe 10. This creates an abutment 19 that connects the plastic absorber pipe 11 to the plastic manifold 10 additionally defines. It is also ensured that the bore of the plastic absorber tube 11 is not reduced in size during this welding process.

When the plasticized areas of the plastic absorber pipe cool down 11 and the plastic manifold 10 is a clear and tight connection achieved.

As the cross section according to Figure 4 shows, the supports 15 and 16 from a core 23 made of metal pipe, metal rod or the like. Sufficient strength manufactured. A plastic outer skin 22 is applied to this core 23, which Can be designed as a plastic hose, plastic coating or the like. This plastic outer skin 22 reduces the friction of the plastic absorber pipes 11 and 21 on supports 15 and 16.

Claims (9)

A n p r ü c h e: rn Pipe absorber assembly, especially for Solar utility systems, with liquid circulating in the pipes as a heat transfer medium, which is composed of two partial absorber units, which are directly free-standing are arranged one behind the other and each from horizontally extending to vertical Supports held plastic absorber tubes are made, which at one end with a Plastic distribution pipe and conductive at the other end with a plastic collecting pipe are connected, characterized in that the horizontal plastic absorber tubes (11,21) of the two partial absorber units by means of the vertical supports (15,16) are alternately deflected against each other and interwoven like a basket. 2. Pipe absorber unit according to claim 1, characterized in that that the vertical supports (15,16) at uniform distances between the plastic distribution pipes (10) and the plastic manifolds (20) are arranged and that each two adjacent vertical supports (15, 16) connected to one another to form a bracket by means of a web (17) whose web (17) is on the top horizontal plastic absorber tube <11) of the two partial absorber units. 3. Pipe absorber assembly according to claim 1 and 2, characterized in that that the vertical supports (15,16) by means of clamps (18) or the like. Below of the lowest plastic absorber pipe (21) of the two partial absorber units are held immovably. 4. Pipe absorber assembly according to one of claims 1 to 3, characterized characterized in that the vertical supports (15,16) have a core made of metal tube, metal rod or the like and a plastic outer skin, e.g. plastic hose, plastic coating or the like exhibit. 5. Pipe absorber assembly according to one of claims 1 to 4, characterized characterized in that the horizontal plastic absorber tubes (11,21) in a uniform Division with twice the diameter of the plastic absorber tubes (11,21) on the Plastic manifolds (10) and the plastic manifolds (20) attached are and that the two partial absorber units in the vertical direction ur? a half Pitch are offset from each other. 6. Pipe absorber assembly according to one of claims 1 to 5, characterized characterized in that the plastic manifolds (10) and the plastic manifolds (20) are interchanged on the two partial absorber units and that at one end of the Tube absorber unit the plastic distributor tube (10) of one part absorber unit with the plastic collecting pipe (20) of the other partial absorber unit conducting to one another connected is. 7. Pipe absorber assembly according to one of claims 1 to 6, characterized marked, that the horizontal plastic absorber pipes (11,21) by thermoplastic deformation in the bores (14) of the plastic distribution pipes (10) and cer plastic manifolds (20) are welded unc that the ends of the Plastic absorber pipes in the thermoplastic state (11, 21) by means of an expanding mandrel or the like. From the inside of the plastic manifold pipes (10) and the plastic header pipes (20) widened and deformed as an abutment (19) on the inner wall of the same are. 8. Pipe absorber unit according to claim 7, characterized in that that the diameter of the bores (14) in the plastic manifolds (10) and the plastic collecting pipes (20) is smaller than the outer diameter of the plastic absorber pipes (11.21). 9. Pipe absorber assembly according to one of claims 1 to 8, characterized characterized in that the number of vertical supports (15,16) is even and the Number of divided fields is odd.