DE3046380A1 - Solar heat conserving roof or facade ducting system - has panels mounted on supports for individual laid combined pipe sections - Google Patents

Abstract

The heat-carrying fluid circulates through extruded heat-collecting pipes. The pipes have ribs increasing their absorbent surface. The system is installed in a solar or environmental energy absorbing roof or external wall face. Sections of circulation pipes (15) and the interposed heat-collecting pipes (17) are held on shaped support pieces (12), so as to form a heat-collecting element for laying as an individual unit. The agent inside this is forced to flow through the heat-collecting pipes from one circulation pipe section to another. The water-ducting roof or facade panels (46) are held on the support pieces.

Description

Heat collector system for an energy roof

or an energy facade The invention relates to a heat collection system for an energy roof or an energy facade to generate thermal energy Solar radiation or from the ambient temperature, whereby for energy transport a heat transfer medium through extruded, with enlarging the absorption area Ribbed heat collecting tubes is circulatable.

Such extruded heat collector pipes are already known (German Patent application P 30 41 374.2) and are designed so that they are not only for Energy generation, but also as supporting elements of the water-bearing roof cladding Can be used. For this purpose, the heat collector tubes are grooved Recesses of thermal insulation panels laid, which are used as a sub-roof for thermal insulation are attached to the roof structure. Because the groove-shaped recesses in the thermal insulation panels are arranged in the brick spacing, the number of the heat transfer medium leading Heat collector pipes cannot be increased at will. As with the known heat collector tubes Bricks are hung with their noses on the heat collector pipes and there on the other hand the the air flow under the bricks through the transverse ones Heat collector tubes is obstructed, results in the space between two Rows of bricks create a stagnation of air that is not fully used for heat recovery. In addition, the laying of the heat collector tubes is relatively complicated when for example, provide the roof surfaces with 1) surface windows and intersections and short sections of heat collector pipes need to be laid on the roof. The associated installation work on the roof is cumbersome because a Prefabrication because of the need to adapt to the individual roof only are limited possible.

The invention is based on the object of a heat collector system to create that can be assembled from individual heat collectors lemcn, wherein the individual heat collector elements are industrially manufactured and individually on the roof can be relocated. The heat collecting elements should be designed in this way that the water-bearing roof cladding is laid and fastened in a conventional manner can be.

This object is achieved according to the invention in that sections of circulation pipes and the interposed heat collector pipes on support profiles are held tind form an individually relocatable heat-collecting element that the Heat transfer medium within the heat collector element through the heat collector pipes forced from one circulation pipe section to the other circulation pipe section flows, and that the water-bearing roof panels or facade elements on the support profiles are held.

According to a further embodiment of the invention it is provided that the support profile in each case from a base plate with one of them at right angles to one side protruding rib, and that on one edge of the base plate on the rib the side opposite the rib along a stripe runs, which is provided with an angled support edge on its free edge is.

Lin constructed according to the features of the invention offers the possibility that it is in sections on a heat-insulating sub-roof can be laid, with the rib provided on the support profiles in the groove-shaped Recesses for hanging the brick lugs engages, and the angled support edge allows the hanging of the roof tiles in a conventional manner. Instead of roof tiles other roofing panels can also be attached to the angled support edges will. The circulation pipe sections of the individual heating elements are each connected to each other with hose clamps, so that the heat collector element is laid on the roof is very easy and possible without highly qualified specialists. Of the The structure of the heat collector element enables the production of different series of types Dimensions, so that roof areas with unfavorable area divisions are also optimally used can be, especially since the connection of the individual heat collector elements with hose connectors allows great flexibility.

In the interests of optimal air circulation, it is known that the individual To lay roofing tiles with spacer elements on top of one another, so that one large area rear ventilation and thus an intensive exchange of air is possible. Despite the intensive exchange of air should on the other hand also ensure that none the chimney effect is too strong, so that in the interests of optimal heat absorption An intensive exchange of energy occurs through the manifold pipes. This braked Ilinter ventilation can be achieved in a simple manner in that the support profile in the area of the transverse strip with cutouts for the air passage and the circulation pipe sections is provided.

One A particularly advantageous embodiment of a rmesammlerelementes provides that two support profiles are used per heat collector element find which are connected to each other with spacers. The Spacer rails lying against the face of the support profiles or in slots inserted to be attached to these. To attach the spacer bars are in Ouerstreifen of the support profiles provided chip grooves in which connecting pins or connecting screws can be used to fix the spacer rails.

The invention also provides that the support profiles with the on Base plate attached rib in slots in the surface of thermal insulation panels a sub-roof can be inserted. Several heat collector elements can be used be combined in a laying unit, with the support profiles partially extend either over the entire width of the unit or also beyond this.

The heat collector pipes welded to the circulation pipe sections are each with a large number of radially distributed over a semicircle Provided ribs and also have a tangential to the orircumference extending width Rib in the middle of the other semicircle. This configuration results a very favorable heat yield in the area between two support profiles, in the relatively large absorber surfaces are available without the exchange of air to hinder too much.

The controlled exchange of air also serves the measure that the Heat collector tubes between the circulation tube sections at a distance from one another run that the free distance between a heat collector tube and the wide The rib of the adjacent rmesammlerrohres smaller than the total width dimension of the Heat collector tubes is.

The advantages The advantages and features of the invention also emerge from the following description of an exemplary embodiment in connection with the claims and the drawing.

They show: FIG. 1) A perspective view of a heat collector element according to the invention Fig. 2) A section through a heat collector element laid on the roof-Fig. 3) A section through a heat collector tube Fig. 4) A section through a support profile The heat collector element 10 shown in Fig. 1 is on a pipe register 11, two support profiles 12 and two spacer rails 13 built. The pipe register 11 consists of two circulation pipe sections 15 and 16, which with ärmesammlerrohren 17 are preferably connected by welding. The circulation pipe sections 15 and 16 are open on one side and provided with a rim 18 over which a hose connector, not shown, can be pushed. The other end 19 of the respective circulation pipe section is closed. Through this structure the pipe register 11 results in a forced flow within the ärmesammlerelementes through the 'ärmesammlerrohre 17 from one circulation pipe section to the other.

The pipe register 11 rests on the support profiles 12 and is with these connected in a conventional manner. The support profiles 12 consist, as shown in Fig. 4 emerges from a base plate 20, on which a transverse strip at one edge 21 connects, which extends perpendicular to the base plate 20 upwards. At the top this transverse strip 2t an angled support edge 22 is formed, which for Fastening or

or holder of the roofing panels is used. On the bottom a rib 23 is formed on the base plate at a certain distance from the free edge, which runs vertically downwards and at the bottom one pointing to the side Has knife edge 24, which, as will be explained below, during laying presses into the material of the thermal insulation board. There are also flutes on the horizontal strip 25 formed, in which fastening means such as screws or clamps in known Way can be screwed in or used.

As can be seen from Fig. 1, cutouts 30 are punched out in the crosspiece, which allows air to pass through in the interests of circulation and pushing through of the circulation pipe sections 16 allow. To the support profiles 12 in the desired Distance from each other, which is a lath spacing or a Can act a multiple of this, the spacer rails 13 with the support profiles 12 screwed. For this purpose, elongated holes 31 are provided on the spacer rails 13, through which screws 32 which are screwed into the flutes 25 engage.

A heat laminator element constructed in this way has the advantage that it on the one hand can be manufactured industrially as a compact unit, and on the other hand can be easily adapted to the conditions on the roof. For example, through Adjusting the distances between the support profiles 12 with the aid of the spacer rails 13 adjustments at lath spacing or

Fixing distances can be made.

In Fig. 3 is a section through the heat collector tube 17 is shown, from which it can be seen that a plurality of radially extending ribs 35 are arranged distributed approximately over a semicircle of the tube, and that of the other Semicircle from a wide rib 36 tangentially in the central area tial runs from the circumference of the pipe wc £. With the help of this broad rib, the air flow becomes influenced in the rmesammlerelement.

In Fig. 2, the structure of an energy roof is shown in which on rafters 40 battens 41 are arranged in a conventional manner. Above the slats 1ntärmedämnplatten 42 are laid, which on the top either grooves 43 or Have not shown slots in which the ribs 23 of the support profiles 12 of a heat collector element can be used. In the interests of a flawless The thermal insulation panels are water-fed in a conventional manner in plastic films inserted, which enclose the thermal insulation panels 42 from the underside and overlap in the area of the roof batten 41 in a water-bearing manner. The heat collecting element shown is constructed as a unit of two support profiles 12, the support profiles in the usual Latten spacing are arranged from each other. Run between the support profiles the heat collector tubes 17, which open into a circulation tube section 15. on the support edge 22 of the support profiles 12 are I) acheindeckungsplatten 46 in conventional Way hung, with spacer elements between the individual roofing panels 47 are arranged, which grip around the brick nose with a fastening strip and are held on the angled support edge. Through these spacers it is ensured that a large area ventilation of the energy roof is ensured is to ensure the air circulation in the thermal liner element in an optimal way. At the upper edge of the circulation pipe section 35 is a further heat collector element fastened with the aid of a flange clamp 41. Instead of such a flange clamp A hose connector can also be used, especially if a flexible one Coupling is desirable.

At the When laying the heat collecting elements you can these be arranged side by side and one above the other in such a way that e.g.

the heat transfer medium through the pipe register along a staircase Flow path or a rectangular wave-shaped flow path flows. In the latter Case, two similar types of heat collecting elements are required in which the pipe register is only inserted rotated by 180.

It is obvious that not on the angled support edge only roof cladding panels attached, but also roof cladding panels screwed on can be. It is even possible to use sheet metal shingles for the support edge shown to hang in the angled edge.

When using the heat collector element for an energy facade the support profiles are placed on corresponding supports on the masonry and Suitable fastening elements ensure that the load on the facade is flawless is applied into the masonry. Solutions for this are in the field of craftsmanship Ttikeit.

In the context of a different type selection it is provided that the heat collecting elements can be of different sizes, for example Dimensions for a basic element of about 1 m to 2 m with one or two lath spacing can be viewed as particularly expedient as a basic model.

It is easily possible to make the support profiles longer and to allow more support profiles to run parallel to each other in order to make larger ones Get items.

It can be useful to have several pipe registers within one Elements to be laid next to each other, with between the individual pipe registers 21 spacer rails can be used in slots in the transverse strip, so that not only on the side edges, but also in the central area Distance protection is possible. It is also provided that the support profiles are of different lengths can, and only a pipe register in a partial area of the heat collector element is provided. This makes it possible, even in areas in which there is no pipe register should run, the support edge necessary for laying the roofing panels to be provided.

Claims (10)

Claims 1) ärmesammlersystem for an energy roof or a Energy facade for the generation of thermal energy from solar radiation or from the Ambient temperature, whereby a heat transfer medium is extruded through for energy transport Circulatable heat collecting tubes provided with ribs that enlarge the absorption area is, d u r ch marked, - that sections of circulation pipes (15, 16) and the heat collector tubes (17) arranged therebetween are held on support profiles (12) are, and form an individually relocatable heat collector element (10), - that the heat transfer medium forcibly within the heat collector element (10) through the heat collector tubes (17) from one circulation pipe section (16) to the other circulation pipe section (15) flows, - and that the water-bearing roof panels (46) or facade elements the support profiles (12) are held. 2) ärmesammlersystem according to claim 1, d a d u r c h characterized, - That the support profile (12) each consists of a base plate (20) with one after it one side at right angles protruding rib (23), - and that on the one Edge of the base plate (20) on the side opposite the rib (23) a transverse strip (21) runs along which at its free edge with an angled support edge (22) is provided. 39 heat collecting system according to claim 2, characterized by d a d u r c h, that the support profile (12) in the area of the transverse strip (21) with cutouts (30) is provided for the passage of air and the circulation pipe sections (15, 16). 4) heat collector system according to one or more of claims 1 to 3, d a d u r c h g e k e n n n z e i c h n e t - that per heat collector element (10) at least two support profiles (12) are used, which with spacer rails (13) among each other are connected. 5) heat collector system according to claim 4, d a d u r c h characterized, - That the spacer rails (13) rest against the end face of the support profiles (12) or inserted into slots attached to the support profiles. 6) Heat collector system according to one or more of claims 1 to 5, that the transverse strip (21) with chip grooves (25) to screw on ben the spacer rails (13) is provided. 7) Heat collector system according to one or more of claims 1 to 6, that the support profiles (12) with the on the base plate (20) attached rib (23) in slots (43) in the surface of thermal insulation panels (42) of a sub-roof can be inserted. 8) heat collector system according to one or more of claims 1 to 7, d a d u r c h e k e n n n z e i c h n e t - that several heat collecting elements (10) are combined to form a laying unit, the support profiles partially either extend over the entire width of the unit or also beyond this. 9) heat collector system according to one or more of claims 1 to 8, that the heat collector tubes (17) each with a large number of radially extending ribs (35) distributed over a semicircle are provided, and that also a tangential to the pipe circumference extending width Rib (36) is attached in the middle area of the other tlalbireis. 10) ärmesammlersystem according to one or more of claims 1 to 9, that the heat collector tubes (17) with the Circulation pipe sections (15, 16) run at a distance from one another that the free distance between one heat collector tube and the wide rib of the neighboring one The rm collector pipe is smaller than the total width dimension of a rme collector pipe.