NL2001480C1 - Roof panel for use in cooling device, has collector tube located in C-shaped channel, pump allowing passage of fluid through tube, and heat exchanger absorbing heat by utilizing fluid - Google Patents

Abstract

The panel has a set of grooves in top (5), and a set of tubular parts extending into the grooves. An insulation is present on an elongated profile (7). A C-shaped cross section cover and two flat collector plates are present in the insulation. A flat plate collector (11) is provided with an omega-shaped cross section, and a collector tube (13) located in a C-shaped channel (9). A pump allows passage of fluid through the tube, and a heat exchanger absorbs heat by utilizing the fluid flowing through the tube.

Description

Roof panel for heat exchange DESCRIPTION: 5

FIELD OF THE INVENTION

The invention relates to a roof panel for heat exchange comprising an insulating layer provided with grooves in the upper side, as well as to the insulating layer provided with elongated profiles which are provided with tubular parts extending in the grooves.

State of the art.

Such a roof panel is known from NL-A-7802886. In the known roof panel, the tubular parts are tubes which are present on the underside of a flat plate-shaped part of the profile. Such profiles are formed by extrusion. This requires a relatively expensive mold and this extrusion process requires a relatively large amount of energy. Moreover, profiles manufactured in this way are not flexible, while for the application on a roof some flexibility is desired.

Summary of the invention.

An object of the invention is to provide a roof panel of the type described in the preamble, wherein the profiles can be manufactured more cheaply. For this purpose, the roof panel according to the invention is characterized in that the profiles comprise a channel with a C-shaped cross-section, as well as two flat collector plates, which are present on the insulating layer, one on each side of the channel, the channel with the flat collector plates has an omega-shaped cross-section, and wherein the roof panel 30 further comprises a collector tube extending into the C-shaped channel.

The profiles of the roof panel according to the invention can easily be manufactured from sheet material by converting the sheet. This requires less energy 2 than extrusion and can be carried out with relatively cheap machines. In addition, profiles made of sheet are somewhat flexible, making them more suitable for use on a roof than the profile of the known roof panel.

An embodiment of the roof panel according to the invention is characterized in that the corners of the profiles are converted substantially perpendicularly to the same side of the profiles as where the channel is located. In this way it is prevented that the corners of the profiles can damage the covering layer, which is applied above a roof, which ensures the watertightness of the roof.

A further embodiment of the roof panel according to the invention is characterized in that the edges of the two ends of the channel are bent outwards. As a result, the risk of damage to the collector tube during installation in the duct and with possible slight movements of the collector tube in the duct during use is reduced.

The invention also relates to a roof construction provided with mutually coupled roof panels according to the invention.

An embodiment of the roof construction according to the invention is characterized in that photovoltaic solar panels are present on top of the roof panels. In this case the roof construction serves to make the solar panels snow-free and / or ice-free in the winter and to cool the solar panels in the summer in order to increase their efficiency.

The invention further relates to a cooling device comprising a number of mutually coupled roof panels according to the invention, as well as a pump, which pumps liquid through the pipes of the roof panels, and a heat exchanger in which heat is delivered to the liquid flowing through the pipes. The heat dissipation capacity of the roof panels is greater than the heat absorption capacity due to the cooling effect of the almost always present wind when used in a roof construction. This makes the roof panels more effective when cooling than when heating.

Brief description of the drawings.

The invention will be explained in more detail below with reference to exemplary embodiments of the roof panel and the cooling device according to the invention shown in the drawings. Hereby shows:

Figure 1 shows an embodiment of the roof panel according to the invention in perspective;

Figure 2 shows the roof panel shown in Figure 1 in longitudinal section; and Figure 3 shows a schematic representation of an embodiment of the cooling device according to the invention.

Detailed description of the drawings.

Figure 1 shows an embodiment of the roof panel according to the invention in perspective. The roof panel 1 has an insulating layer 3 provided with grooves 5 in the top, as well as elongated profiles 7 present on the insulating layer. The profiles 7 have a channel 9 with a C-shaped cross-section and two flat collector plates 11 which are present on the insulating layer 3 , one on each side of the channel. The channel 9 with the flat collector plates 11 has an omega-shaped cross-section. The roof panel 1 further has a collector tube 13, which extends into the C-shaped channel 9.

The corners 15 of the profiles 7 are angled downwards and protrude into the insulating layer 3, see figure 1. Furthermore, the edges of the two ends 9b of the channel 9 are bent outwards, in order to reduce the risk of damage to the collector tube 13. to be reduced, see figure 2. The profiles 7 are further specially glued to the insulating layer 3 to ensure that the adhesion remains present even at strongly changing temperatures.

Figure 2 shows a schematic representation of an embodiment of the cooling device 17 according to the invention. The cooling device has a number of interconnected roof panels 1, as well as a pump 19, which pumps water through the pipes 13 of the roof panels. The cooling device 17 also has a heat exchanger 21 in which heat is delivered to the water flowing through the tubes. The heat comes from a liquid to be cooled which is led through the heat exchanger 21.

Although in the foregoing the invention has been elucidated with reference to the drawings, it must be stated that the invention is by no means limited to the embodiments shown in the drawings. The invention also extends to all embodiments deviating from the 4 embodiments shown in the drawings within the scope defined by the claims.

Claims (6)

CLAIMS 1. Roof panel for heat exchange comprising an insulating layer provided with grooves in the upper side, as well as elongated profiles present on the insulating layer and provided with tubular parts extending into the grooves, characterized in that the profiles have a channel with a C -shaped cross-section, as well as two flat collector plates present on the insulating layer, one on each side of the channel, the channel with the flat collector plates having an omega-shaped cross-section, and wherein the roof panel further comprises a collector tube located in extends the C-shaped channel. 2. Roof panel as claimed in claim 1, characterized in that the corners of the profiles are converted substantially at right angles to the same side of the profiles as where the channel is located. Roof panel according to claim 1 or 2, characterized in that the edges of the two ends of the channel are bent outwards. 4. Roof construction provided with mutually coupled roof panels according to one of the preceding claims. 5. Roof construction as claimed in claim 4, characterized in that photovoltaic solar panels are present on top of the roof panels. 6. Cooling device comprising a number of mutually coupled roof panels 20 according to claim 1, 2 or 3, as well as a pump, which pumps liquid through the pipes of the roof panels, and a heat exchanger in which heat is delivered to the liquid flowing through the pipes.