FR2465964A1 - Building internal air circulator - has flat solar heat collector through which air flows secured to building via sub-frame - Google Patents

Abstract

The supply gives forced circulation of air inside a building, being actuated by a flat solar heat collector, through which the air circulates. The collector can be enclosed by a frame of profiled sections, pressing against a joint to form a seal, and secured to the building by a sub-frame, whose inner edge slides between the frame and the collector itself. There can be a shutter at the inlet and outlet, controlling the direction of the air current. The sub frame retains the collector using clips.

Description

The present invention relates to the finishing work of the building, the air conditioning and ventilation of the premises and the collection of solar energy by flat collectors with air circulation.

During the cold and wet seasons, there is a problem of humidity in residential, industrial or agricultural premises with serious consequences on the sanitary condition of the people and livestock that frequent these premises, on the preservation of the state places or equipment stored there.

In the current state of the art, the solutions applied consist in - heating the room to increase the equilibrium voltage of the water vapor
in the room and thus reduce the condensation of air humidity, - ventilate the room to reduce the pressure of the water vapor in the vicinity
cold room surfaces and prevent condensation on surfaces
cold rooms.

The first solution entails a large costly energy consumption especially when, in most cases, it is necessary to heat the room sufficiently to raise the temperature, not only of the ambient air, but especially that of the surfaces where condensation occurs.

The second solution is not very effective when it uses natural ventilation (opening windows, ventilation openings, etc.) or also consumes costly energy when it uses mechanical ventilation.

The device, object of the invention, allows a third solution which heats the air in the room and circulates this air at the same time: circulation is created artificially by heating the air in a flat solar collector.

The idea of using a solar collector to ventilate a room is not new, but such use is not very widespread because the solar collectors known to date have three drawbacks: - they require significant civil engineering, - they are large and therefore integrate very poorly into the architecture of the building, - they are expensive, which limits them to a wealthy clientele.

The device, object of the invention, is a flat solar collector with air circulation which does not have these three drawbacks, because - its modest dimensions facilitate its architectural integration without tra
important values, - the simplicity of its manufacture and that of its installation make it possible to reduce the
both the manufacturing cost and the installation cost, - the possibility of using conventional manufacturing means and using
common trade materials also helps to bring down
its cost price.

The flat solar collector, air circulator, object of the invention, consists mainly of (Figures 1, 2, 3, 4, 5): - a frame of wood or any other rigid and thermally insulating material, 1 - a chest, 2, provided with openings at the top and bottom, 21 and 22, louvered or
no, - a flat corrugated or accordion-folded sheet, 3, dark in color, and of which
the longitudinal edges are raised, - a window pane, 4, - a profiled frame, 5, comprising a seal groove, 51, -a seal, 6, - a layer of thermal insulation> 7, between the sheet metal, 3, and the trunk, 2,
The trunk, 2, envelops the frame, 1, and is fixed on this frame. The sheet, 3, is fixed inside the frame, 1, by its raised longitudinal edges. This sheet, 3, has a shorter length than the internal length of the frame, 1, so that, once fixed to the frame, 1, it leaves gaps at the top and bottom with the frame, I, of a width equivalent to that of the orifices, 21 and 22.

The sheet metal, 3, can be folded back at its two ends to contain the thermal insulation 7.

The window pane, 4, which constitutes the front face of the solar collector, is kept fixed to the frame, 1, by the profiled frame, 5. The sealing of the fitting of this pane, 4, is ensured by the seal, 6, housed in the seal groove, 51, of the profiled frame, 5. (Figure 4)
The folded edges, 52, of the profile frame, 5, envelop the frame, 1, and the sides, 23, of the trunk, 2, and thus protect the circulator against the penetration of water. 5> is kept fixed on the front face of the circulator by cap nuts, 53, provided with washers, 54, sealing the passage of the bolts, 11, fixed to the frame, 1, (FIG. 4)
Between the edges, 52, of the profiled frame, 5, and the sides, 23, of the trunk, 2, there may be an interval allowing the sliding of a pre-frame, 8, (FIG. 4) fixed to the building and which ensures the tightness of the connection between the sensor and the building.

The sun's rays are trapped by the glass, 4, and heat the sheet metal, 3, which, in turn, heats the air that is in contact with it. This air, between the glass, 4, and the sheet, 3, becomes lighter on heating, escapes through the upper orifice, 21, and is replaced by fresh air which enters the orifice. lower, 22. (figure 2)
The openings, 21 and 22, can be oriented either forwards or backwards
of the circulator according to its use. These orifices, 21 and 22, can be oriented both towards the front and towards the rear of the circulator. Of
valves 211 and 221 allow the air circulation to be oriented as desired according to the effect desired by the user (Figures 6, 7, 8). This valve orifice system is fully integrated inside the frame, 1.

The openings, 21 and 22, can be provided with caps or rejingots, 212 and 222, on the front face of the circulator so as to prevent rainwater from entering the circulator (FIG. 9). Given the simplicity and the small number of components of the device, a very thin planar solar collector is thus obtained which can be mounted on a roof instead of part of the covering (Figure 10) or in a facade. of the building instead of part of the wall (figure 11).

The assembly and disassembly of the circulator is easily done by clipping, 81 and 231, on the internal edges of the frame, 8, fixed to the building, and of the trunk 2, (FIG. 4).

The air circulator, object of the invention, can be used in all applications of a solar collector with air circulation. It is perfectly suited to the ventilation (Figure 12) and the auxiliary heating (Figure 13) of the premises.

Its best application is the forced circulation of air in a room to avoid condensation on the cold surfaces of the room.

The invention therefore finds application in all cases where it is necessary to air condition, heat or ventilate a residential, industrial or agricultural premises.

Claims (6)

1. Device for creating a forced circulation of air inside a room, characterized by the fact that it operates on solar energy captured by a flat solar collector with air circulation a 2. Device according to claim 1, characterized in that the solar collector comprises a profiled frame which envelops the entire collector. 3. Device according to claim 1, characterized in that the sealing of the sensor is ensured by a profiled frame which crushes a seal and which envelops the external edges of the sensor. 4. Device according to claim 1, characterized in that the sealing of the connection between the building and the sensor is ensured by a frame, the internal edge of which is slid between the profiled frame of the sensor and the sensor itself. 5. Device according to claim 1, characterized in that the sealing of the external air inlet and outlet openings of the sensor is ensured by caps or rejingots. 6. Device according to claim 1, characterized in that the orientation of the air flow at the inlet as at the outlet towards the front or the rear of the sensor is ensured by a valve. 7. Device according to claim 1, characterized in that the mounting of the sensor on the building is done by clips. 8. Device according to claim 1; characterized in that the rigidity and the lateral insulation of the sensor are provided by a frame. 9. Device according to claim 1, characterized in that the sensor can be placed on any type of roof or wall. space with the interior of the room are calculated to allow air circulation without external energy source, by the only convection forces resulting from the heating of the metal sheet.  5. Device according to claim 4 and comprising at least one valve for acting on the air circulation, characterized in that said valve is arranged to send the heated air either inward or outward from the room.  6. Device according to claim 5 and comprising a second valve which acts on the air admitted into the device characterized in that said second valve is arranged to bring into the device air from either the outside or the inside the room.