SE536503C2 - Solfångartak - Google Patents

Abstract

Solar collector for a building with a roof with roof tiles, which solar collector is arranged to heat water using solar energy, which water is supplied to the solar collector and flows, via channels or pipes, through the solar collector, wherein the solar collector is arranged to supply heated water to the water work system of the building. The invention is characterized in that the solar collector comprises modules (1) with a width corresponding to the distance between roof laths (2,3) running from the roof ridge to the roof base, and with a height corresponding to the thickness of the said roof laths (2,3), in that the modules (1) are made from solid material, in that the modules are arranged with one or several channels (4,5,6) running within the modules in a direction which is parallel to the said laths (2,3), and in that the material of the modules (1) has a heat capacity which at least corresponds to a rubber material of the type which is used in conveyor belts, and in that the exterior of the solar collector comprises translucent tiles (7) with a size which corresponds to conventional roof tiles.

Description

536 503 arranged to heat by means of the sun water which is supplied to the solar collector and which flows through channels or pipes through the solar collector, where the solar collector is arranged to supply heated water to the building's water supply system and is characterized in that the solar collector comprises modules with a width corresponding to the distance between roof battens , which run from the ridge to the eaves and with a height corresponding to the thickness of the roof batten, which modules are arranged to be placed between the batten, in that the modules are of solid rubber material, in that the modules are provided with one or more channels running inside the modules in a direction parallel to said roof batten and in that the rubber material of the modules has a heat capacity at least corresponding to a rubber material of the type used in conveyor belts so that the material can emit heat after heating, while the solar radiation is weak and that the solar collector's exterior comprises light-transmitting boilers with a size corresponding to conventional tiles.

The invention is described in more detail below, partly in connection with an exemplary embodiment of the invention shown in the accompanying drawings, in which - figure 1 shows a boiler belonging to the invention - figure 2 shows a module belonging to the invention - figure 3 shows a cross section of a solar collector according to the invention figure 4 shows modules between battens, which run on a roof in the direction of the roof slope.

Figures 1 and 2 schematically show a part of a solar collector for a building with a roof with a roof tile. The solar collector is arranged to heat water by means of the sun, which is supplied to the solar collector and which flows through channels or pipes through the solar collector, where the solar collector is arranged to supply heated water to the building's water supply system. 536 503 According to the invention, the solar collector comprises modules 1 with a width corresponding to the distance between the roof battens 2, 3 which runs from the ridge to the eaves and with a height which corresponds to the thickness of the said battens 2, 3. The modules 1 are of solid material and are provided with one or more channels 4, 5, 6 running inside the modules in a direction parallel to said batten.

The material of the modules is chosen so that the material has a relatively high heat capacity, so that the material after heating can emit heat, while the solar radiation is weak. An example of a material is a rubber material of the type used in conveyor belts, such as ore conveyor belts. However, other known suitable materials can of course also be used.

The exterior of the solar collector comprises light-transmissive tiles 7 with a size corresponding to conventional tiles.

Figure 3 illustrates a module 1 lying on a roof 8 between two battens 2, 3. On top of the battens 2, 3 there are, as conventional, a number of mutually parallel roof battens 9, which run perpendicular to the said battens 2, 3 and which have as their purpose to support tiles.

According to a preferred embodiment, said light-transmissive boilers are provided with a Fresnel lens on the underside of the boiler. This means that light incident on the forehead is refracted by the lens towards the modules.

According to a preferred embodiment, said light-transmitting pans 7 are made of glass. These tiles have the same shape as conventional tiles. Conventional tiles have a smaller number of standardized shapes. In the figures, the boilers 7 are illustrated with a so-called two-cup roof tile. It is preferred that the channels 4, 5, 6 of the modules 1 consist of tubular channels inside the modules 1 and that the channels of adjacent modules 1 are connected to each other by tubes 10, 11, 12 inserted one piece in the respective module 1, as illustrated. race in Figure 4, where said tube is shown in broken lines. The pipes 10, 11, 12 are tapered towards the respective module.

Modules 1 can thus be placed from eaves to ridge and connected to each other by means of said pipes.

An alternative preferred embodiment is that said channels in the modules 1 consist of pipes 13, 14, 15 with a length corresponding to the total length of the modules 1 in the direction of the roof pitch.

Such pipes have an outer diameter, which corresponds to the diameter of the channels. During assembly, such pipes are pushed through the current number of modules.

It is further preferred that said pipe is made of a corrosion-resistant material, such as copper or aluminum.

Said channels 4, 5, 6 or pipes running continuously in the channels, are connected at the eaves and ridge so that a flow circuit is formed, which is connected to the building's water supply system in a suitably known manner. The flow circuit can be directly connected to a tap water system in the building. Alternatively, the flow circuit may comprise a heat exchanger, where the heat of the water is heat exchanged to a heat exchanger included in a flow circuit in the building.

When installing a number of modules, the existing tiles are removed where modules are to be laid, after which light-transmissive tiles are laid where the ordinary tiles have been removed. This gives a smooth roof corresponding to that which exists before 536 503 installation of modules and light-transmitting boilers. Furthermore, it is not required that the batten is changed or changed.

Because the modules l are made of a material with a high heat capacity, these will accumulate heat energy during solar radiation.

The heat energy in the modules is then transferred to the water flowing in the modules, whereby heated water can be taken out at the other end of the flow circuit or led to said heat exchanger. An adjustment of the number of modules takes place depending on the desired volume of solar heated water.

The present invention thus solves the problems mentioned in the introduction.

A number of embodiments have been described above. However, the invention can be varied, for example with regard to the number of channels in the modules, choice of material with regard to pipes, etc.

The present invention is therefore not to be construed as limiting but may be varied within the scope of the above embodiments, within the scope of the appended claims.

Claims (6)

10 15 20 25 30 536503 Patent claims 1. A solar collector for a building with a roof with a roof tile, which solar collector is arranged to heat water by means of the sun, which is supplied to the solar collector and which flows through channels or pipes through the solar collector, where the solar collector is arranged to supply heated water to the building's water supply system. that the solar collector comprises modules (2,3), drawn on the net, (1) with a width corresponding to the distance between the roof battens running from the ridge to the eaves and with a height corresponding to the thickness of the said battens (2,3), which modules are arranged to be placed between the roof battens, in that the modules (1) are of solid rubber material, in that the modules are provided with one or more channels (4,5,6) running inside the modules in a direction parallel to said roof battens (2 , 3) and in that the rubber material of the modules (1) has a heat capacity at least corresponding to a rubber material of the type used in conveyor belts so that the material after heating can emit heat while solar radiation n is weak and because the exterior of the solar collector comprises light-transmissive tiles (7) with a size corresponding to conventional tiles. 2. A solar collector according to claim 1, characterized in that said light-transmissive boilers are provided with a Fresnel lens on the underside of the boiler. 3. A solar collector according to claim 1 or 2, characterized in that said boilers (7) are made of glass. k ä n n e t e c k - (4,5,6) Solar collector according to claim 1, 2 or 3, characterized in that the channels of the modules (1) consist of tubular channels inside the modules and in that the channels of adjacent modules are connected to each other by tubes (10, 11, 12). slide a piece in each module (1). 10 536 503 k a n n e t e c k - (13, 14, 2 or 3, (4,5,6) Solar collector according to claim 1, n a d a v, that said channels consist of pipes 15) with a length corresponding to the total length of the modules in the direction of the roof pitch. Solar collector according to claim 4 or 5, characterized in that said tubes (13, 14, 15; 10, 10, 11, 12) are made of a corrosion-resistant material, such as copper or aluminum.