RU2819329C1 - Roof covering and method of making roof covering - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, in particular to roof covering for accumulation of solar energy. Roof covering includes heat-receiving panels, with the heat-insulated side installed on the roof surface, containing heat-absorbing surfaces made with possibility of converting solar radiation into heat, and panels made with possibility of solar radiation reflection, installed on roof surface with heat-insulated side. Heat-receiving panels and panels configured to reflect solar radiation are connected to each other by corresponding branch pipes with possibility of heat carrier circulation for heat exchange with heat accumulator. Disclosed is a method of making a roof covering.

EFFECT: reduced effect of solar activity on heat accumulator.

5 cl, 6 dwg

Description

The technical solution relates to a roof covering, in particular to a method of laying a roof covering for storing solar energy, used in particular for heating water.

The roof of a pitched roof of a building is known, used as a device for heating water with solar energy. The roof is made in the form of a tank in the shape and size of the pitched roof of the building and consists of roofing modules made of fiberglass, which are connected to each other using connecting elements. The roof contains a filling fitting for pumping water into a reservoir assembled from roofing modules, in which it is distributed among the roofing modules (RF Patent No. 199621, published 09.09.2020).

Known photovoltaic bitumen shingles, which are photovoltaic asphalt roofing tiles, which consist of a bitumen base attached to a photovoltaic module, and the bitumen base consists of a bitumen layer with a support of glass film impregnated with oxidized bitumen and bitumen self-adhesive mastic; and the photovoltaic module contains at least one solar cell made of amorphous silicon with three junctions and electrical connecting means (RF Patent No. 2493338, published 09/20/2013).

A power supply device is known that contains several energy panels made in the form of roofing tiles, which cover part of the building and each of which contains an energy module used for absorbing solar energy, connected to a power supply line. On one of the outer sides of the building there is at least one metal pipeline on which energy panels are installed, which are mechanically and thermally connected to the pipeline, in which a cable channel is provided for housing the power supply line and at least one channel for the passage of a liquid heat transfer medium, with the help of which thermal energy is transferred from the energy panel to the thermal energy consumer (Patent in the Russian Federation No. 2464670, published 10/20/2012).

The objective of the stated technical solution is to create a roof covering that ensures the safe accumulation of solar heat without overheating the heat accumulator.

The technical result of the proposed technical solution is to reduce the influence of solar activity on the heat accumulator, in particular, the time of its influence on the coolant circulating in the roofing panels.

The stated technical result is achieved by the fact that the roof covering includes heat-receiving panels, the thermally insulated side installed on the roof surface, containing heat-absorbing surfaces designed to convert solar radiation into heat, in which there are channels for circulation of the coolant and pipes for the inlet and outlet of the coolant, panels made to reflect solar radiation, with a thermally insulated side installed on the roof surface, containing channels for circulation of coolant in them and pipes for inlet and outlet of coolant, while heat-receiving panels and panels made to reflect solar radiation are connected to each other by appropriate pipes with the possibility of coolant circulation for heat exchange with the heat accumulator.

The claimed technical result is also achieved by the fact that the method of manufacturing roofing is characterized by the fact that heat-receiving panels with heat-absorbing surfaces and panels designed to reflect solar radiation are placed alternating with each other.

Due to the fact that the roofing covering includes heat-receiving panels and panels designed to reflect solar radiation, connected to each other by pipes for the inlet and outlet of the coolant with the possibility of circulating the coolant for heat exchange with the heat accumulator, a decrease in the temperature of the coolant at the outlet of the roofing covering is ensured for subsequent heat exchange with a heat accumulator. This solution makes it possible to prevent overheating of the heat accumulator in conditions of increased solar activity. Overheating of the battery can cause various negative consequences, regardless of its form, in particular, when using a water tank as a battery, it can lead to boiling.

Heat-receiving panels, the heat-insulated side installed on the roof surface, containing heat-absorbing surfaces, designed to convert solar radiation into heat, in which there are channels for coolant circulation in them and pipes for coolant inlet and outlet, necessary for heating the coolant under the influence of solar radiation, performing function of a solar collector, with subsequent transfer of coolant to the pipes and channels of other coating panels.

Panels designed to reflect solar radiation, with a thermally insulated side installed on the roof surface, containing channels for coolant circulation in them and pipes for coolant inlet and outlet, perform the function of coolant conductor through a system of pipes and channels of the roofing without additional heating of the coolant. Thus, the coolant, entering the inlet pipe of a given panel with a certain temperature, has the same temperature at the exit from the corresponding pipe.

In one embodiment, the heat-receiving panels are installed with a partial overlap of panels configured to reflect solar radiation, or heat-receiving panels. In another embodiment, panels configured to reflect solar radiation are installed with partial overlap of heat-receiving panels or panels configured to reflect solar radiation. This overlap of the upper elements with the lower ones, like scales, ensures moisture resistance of the entire structure, as well as reducing the influence of solar activity on the pipes for the inlet and outlet of the coolant, which can be located outside the contour of the panels, which can also lead to overheating of the coolant, or destruction of the system structure pipes under the influence of external factors.

Making the panel (both heat-receiving and designed to reflect solar radiation) with an area of 0.25 to 0.5 square meters additionally ensures uniform and moderate heating of the coolant. Making a heat-receiving panel less than 0.25 square meters will not provide heating of the coolant from the sun due to the low flow of coolant through the panel. Providing a heat-receiving panel or a panel designed to reflect solar radiation greater than 0.5 square meters may be inconvenient for installation on a roof.

A method for manufacturing a roofing covering, in which heat-receiving panels with heat-absorbing surfaces and panels designed to reflect solar radiation are placed alternating with each other, ensures that the coolant is heated to the optimal temperature necessary for moderate heat exchange with the heat accumulator.

The claimed technical solution is further explained with the help of figures, which show one of the possible options for the roof covering.

In fig. Figure 1 conventionally shows a diagram of the roofing of a building and the accumulation of heat in its premises.

In fig. Figure 2 shows an example of alternating roofing panels.

In fig. Figure 3 shows a fragment of the roof covering.

In fig. 4 shows a top view of the heat-receiving panel.

In fig. 5 is a cross-sectional view A-A of the heat-receiving panel.

In fig. Figure 6 shows a three-dimensional cross-sectional view of the heat-receiving panel.

The following elements are indicated by numbers:

- heat-receiving panel (1);

- pump (2);

- heat accumulator (3);

- panel (4) designed to reflect solar radiation;

- heat-absorbing surface (5) of the heat-receiving panel (1);

- channels (6) for coolant circulation (8);

- pipe (7) for coolant inlet (8);

- pipe (9) for coolant outlet (8);

- insulation (10) of the heat-receiving panel (1);

- sheet (11) of glass.

Below, with reference to the figures, a preferred embodiment of the claimed technical solutions is described.

The roof covering includes heat-receiving panels (1), configured to convert solar radiation into heat, and panels (4), configured to reflect solar radiation, connected to each other.

Heat-receiving panels (1) with their heat-insulated side are installed on the roof surface and contain heat-absorbing surfaces (5). The heat-receiving panels (1) have channels (6) for circulation of coolant (8) and pipes (7), (9) for coolant inlet and outlet, respectively. Preferably, a glass sheet (11) is installed on the outside of the panel (1).

Panels (4), designed to reflect solar radiation, are installed on the roof surface with their thermally insulated side, and also contain channels (6) for circulating coolant (8) in them and pipes (7), (9) for inlet and outlet of coolant (8 ), respectively. Preferably, the panels (4), configured to reflect solar radiation, include outer surfaces, the color of which reflects the sun's rays as much as possible, for example, light, in particular white, or a combined color. Decorative panels can be used as panels (4) designed to reflect solar radiation.

Heat-receiving panels (1) and panels (4), designed to reflect solar radiation, are connected to each other by corresponding pipes with the possibility of circulating coolant (8) for heat exchange with the heat accumulator (3).

In a preferred embodiment, heat-receiving panels (1) are installed with partial overlap of panels (4) configured to reflect solar radiation or with partial overlap of heat-receiving panels (1), and/or panels (4) configured to reflect solar radiation are installed with partial overlapping panels (4) designed to reflect solar radiation or with partial overlapping of heat-receiving panels (1).

Preferably, the panel (both heat-receiving and capable of reflecting solar radiation) is made with an area of 0.25 to 0.5 square meters.

Preferably, the panels (1), (4) are interconnected by fastening elements that ensure the reliability of the roof covering.

The claimed roof covering works as follows.

Coolant (8) with a low temperature, for example, through a pump (2), is supplied through a pipe (7) for the coolant inlet (8) into the heat-receiving panel (1) or into the panel (4), designed to reflect solar radiation. Next, the coolant (8) passes through heat-receiving panels (1), which are solar collectors, due to which it is heated, and through panels (4), designed to reflect solar radiation without affecting its heating. Having passed through all the panels (1), (4) of the roofing, the coolant (8) exits through the coolant outlet pipe (9) (8) and is supplied to the heat accumulator (3), in particular, to the water tank, heat exchange with which provides heating of water in the tank. Meanwhile, having given up its heat in a similar cycle, the coolant (8) again enters through the corresponding pipe (7) into the roofing for further circulation.

Water heated by the sun is stored in a tank and can be used at any time as needed.

The method for manufacturing a roofing covering is characterized by the fact that heat-receiving panels (1) with heat-absorbing surfaces (5) and panels (4) designed to reflect solar radiation are placed alternating with each other. In this case, alternation should be understood as combining in any order, quantity and ratio of heat-receiving panels (1) and panels (4), designed to reflect solar radiation. The alternation may be accompanied by the implementation of a decorative pattern of the roof covering, when making panels (4) designed to reflect solar radiation, for example, white or any other color except black.

All elements of the roofing covering are combined into a single system “panel - water tank”, that is, each element is part of a single system. If necessary, a heat-receiving panel (1), or a panel (4), designed to reflect solar radiation, can be added to the roofing by connecting the pipes (7), (9) of the installed and installed panel (1) or (4).

The claimed roof covering can be used as a solar heating tile for safe and efficient indoor water heating.

The presented figures, description of the design of the roofing and the method of its use do not exhaust the possible design options and do not limit in any way the scope of the proposed technical solution. Other options for execution and use are possible within the scope of the claimed formula.

Claims (5)

1. Roof covering, including heat-receiving panels, the heat-insulated side installed on the roof surface, containing heat-absorbing surfaces, designed to convert solar radiation into heat, in which there are channels for circulation of coolant in them and pipes for the inlet and outlet of coolant, panels made with the ability to reflect solar radiation, the thermally insulated side installed on the roof surface, containing channels for circulation of the coolant in them and pipes for the inlet and outlet of the coolant, while heat-receiving panels and panels made with the possibility of reflecting solar radiation are connected to each other by corresponding pipes with the possibility of circulation coolant for heat exchange with a heat accumulator. 2. Roofing according to claim 1, characterized in that the heat-receiving panels are installed with partial overlap of panels designed to reflect solar radiation, or with partial overlap of heat-receiving panels. 3. The roofing according to claim 1, characterized in that the panels configured to reflect solar radiation are installed with partial overlap of the panels configured to reflect solar radiation, or with partial overlap of heat-receiving panels. 4. Roofing according to claim 1, characterized in that the panel is made with an area of 0.25 to 0.5 square meters. 5. A method for manufacturing a roofing covering, including heat-receiving panels, the heat-insulated side installed on the roof surface, containing heat-absorbing surfaces, designed to convert solar radiation into heat, in which there are channels for circulating coolant in them and pipes for inlet and outlet of coolant, panels, made with the possibility of reflecting solar radiation, the thermally insulated side installed on the roof surface, containing channels for circulation of coolant in them and pipes for inlet and outlet of coolant, while heat-receiving panels and panels made with the possibility of reflecting solar radiation are connected to each other by corresponding pipes with the possibility of coolant circulation for heat exchange with a heat accumulator, in which heat-receiving panels with heat-absorbing surfaces and panels designed to reflect solar radiation are placed alternating with each other.