FR3001284A1 - VENTILATION INSTALLATION FOR VENTILATION AND HEATING OF AN ENCLOSURE, AND A CONSTRUCTION EQUIPPED WITH SUCH A INSTALLATION - Google Patents

Abstract

Installation (1) for ventilating and heating an enclosure (2), of the type comprising at least one inlet (3) of air outside the enclosure (2), and means (4) for blowing said air outside inside the enclosure (2) to ventilate. Said installation (1) further comprises a box (5) with an airflow mixture and a solar collector, said mixing box (5) comprising two air inlets (7, 8) and an outlet (14) of air. air supplying the blowing means (4) with air, said solar sensor (6) being interposed between the inlet (5) of outside air, said fresh air inlet, and at least one inlet (8) of air from the mixing box (5).

Description

The present invention relates to a ventilation system for ventilating and heating an enclosure, and a construction equipped with such an installation.

Ventilation systems for the ventilation and heating of an enclosure, especially from renewable energies, are well known to those skilled in this art.

Up to now, however, such installations can not, because of their design, be used as air conditioning installations and allow the cooling of the enclosure to be ventilated from the elements used for heating the enclosure.

An object of the present invention is therefore to provide a ventilation system whose design allows, in some configurations and low cost, to cool the enclosure to ventilate. For this purpose, the subject of the invention is a ventilation installation for ventilating and heating an enclosure, said installation comprising at least one air inlet outside the enclosure, called fresh air inlet, means blowing said outside air inside the enclosure to be ventilated, characterized in that said installation further comprises an air flow mixing box and a solar collector, said mixing box comprising two air intakes and an air outlet supplying air to the blowing means, said solar sensor being interposed between the inlet or one of the outside air inlets, said fresh air inlet, and at least one air intake of the mixing box. The interposition of the solar collector between the inlet or one of the outside air inlets and the air inlet of the mixing box allows, under certain conditions, that is to say in particular when solar radiation exposure of the solar collector, heating air from said outside air inlet before entering the mixing box. Due to the presence of the mixing box, the flow of air introduced by means of blowing into the enclosure to be ventilated can indifferently be a hot air 5 heated by solar radiation, the outside air or a mixture of both. Preferably, said solar collector affects the shape of a box having a so-called front face intended to be exposed to solar radiation, this box comprising two openings opening inside the box, one of placing in communication the inside the box with the outside and forming the inlet or one of the outside air inlets to the enclosure, said fresh air inlet, said installation, the other connectable to one of the inputs of the mixing box. The air disposed between the front and rear faces of the box can be heated by solar radiation before supplying the mixing box if necessary. Preferably, the so-called front face of the box intended to be exposed to solar radiation, is formed at least partially of a transparent or translucent wall permeable to said radiation to allow the heating of the air contained inside the box. The so-called front face of the box intended to be exposed to solar radiation can be formed at least partially of a photovoltaic panel or a solar thermal panel. The so-called rear face of the box opposite the front face is a wall of a thermal inertia material or is lined externally with a thermal inertia coating. This configuration makes it possible in particular for the material with thermal inertia to accumulate calories during the daytime periods and to restore them during the nocturnal periods. Preferably, the inlet of air outside the enclosure, called fresh air inlet, of the installation, which feeds via the solar collector to the mixing box, is equipped with air filtration means. This configuration makes it possible, when the solar collector is box type with a transparent or translucent front face, to prevent fouling of said front face. Generally, at least one of the air inlets of the mixing box opens in the open air to allow direct supply of the mixing box into a stream of air outside the enclosure. The mixing box is therefore, by one of its air intakes fed directly into a flow of air outside the enclosure and by its other air inlet supplied with an external air flow via the solar collector. . Preferably, the mixing box comprises at least two air outlets and at least one of the air outlets opens directly into the open air to allow the evacuation of the air flow coming from said outlet. air outside the enclosure. Preferably, each air inlet of the mixing box communicates with the or each of the air outlets of the mixing box by a closable connection. The closure members of said links are controlled by means of an electronic and / or computer processing unit able to receive input data from sensors, such as temperature or pressure sensors 30 or other and able to outputting a control signal of said shutter members according to said input data.

The invention also relates to a construction of the type comprising at least one housing body delimiting at least one enclosure to ventilate, a protective cover of said housing body and a ventilation installation of said enclosure, characterized in that said ventilation installation is in accordance with that described above, in that the solar collector of said installation is disposed outside the building, against a wall of the housing body or the roof of said building, and that the mixing box and the blowing means are arranged under the cover of the construction between the cover and the housing body, said blowing means comprising an air outlet opening into the enclosure to be ventilated. The single figure shows a schematic view of a construction equipped with a ventilation system according to the invention. As mentioned above, the subject of the invention is a ventilation installation 1 for the ventilation and heating of a building and a building equipped with such an installation. This construction may comprise, as illustrated, a housing body delimiting at least one enclosure 2 to ventilate, and a cover 16, for protecting said housing body, roof type. Finally, this construction comprises a ventilation installation 1 of the enclosure 2. The ventilation installation 1 comprises at least one inlet 3 of outside air to the enclosure 2, said inlet 3 of fresh air, and means 4 blowing said outside air inside the chamber 2 to ventilate. Said installation 1 further comprises a box 5 for mixing air flow and a solar sensor 6. Said mixing box 5 comprises two air inlets 7, 8 and an air outlet 14. Said outlet 14 of air supplies air to the blowing means 4. The solar sensor 6 is interposed between the inlet 3 or one of the outside air inlets, called fresh air inlet, and at least one air inlet 8 of the mixing box 5 to allow, under certain conditions exposing the solar collector, heating the air entering the mixing box 5 through said inlet 3 of outside air.

The mixing box 5 and the blowing means 4 are housed under the cover 16 of the construction while the solar sensor 6 is disposed outside the construction on a wall of the housing body or the cover 16 of the building. construction.

The outlet 18 of the blowing means 4 opens into the upper part of the housing body to allow ventilation of the enclosure 2 to ventilate. In the example shown, said solar sensor 6 has the shape of a box 9 having a so-called front face 10 intended to be exposed to solar radiation. This box 9 comprises two openings 3, 12 opening into the interior of the box 9, one 3 of communication of the interior of the box 9 with the outside and forming the external air inlet 3 to the enclosure, said fresh air inlet of said installation, the other 12 connectable to one 8 of the inputs 7, 8 of the 5 mixing box. The opening forming the external air inlet 3 is formed at the base or lower part of the box while the opening 12 connectable to the inlet 8 of the mixing box 5 is disposed in the upper part of the box. The so-called front face 10 of the box 9 intended to be exposed to solar radiation, is formed at least partially of a transparent or translucent wall permeable to said radiation to allow the heating of the air contained inside the box 9. The said rear face 11 of the box 9 opposite the front face 10 is a wall 30 of a thermal inertia material or is lined externally with a coating 17 with thermal inertia, such as concrete, a phase change material or equivalent.

As mentioned above, the air inlet 3 is provided at the base of the box. This external air inlet 3 to the enclosure, called the fresh air inlet 3, of the installation is equipped with means 13 for filtering the air to prevent fouling of the transparent or translucent wall of the solar collector. . At least one of the air inlets 7, 8 of the mixing box 5 opens to the outside air to allow the mixing box 5 to be fed into a flow of air outside the chamber 2. The mixing box 5 is therefore indifferently 10 supplied directly with air outside the enclosure or via the solar sensor 6 according to the heating requirements of the enclosure 2 to be ventilated. The mixing box 5 has at least two air outlets 14, 15. At least one of the air outlets 14, 15 opens directly into the open air to allow the flow of air coming from said outlet to be discharged outside the enclosure 2. Each inlet 7, 8 air of the mixing box 5 communicates with the or each of the air outlets 14, 15 of the mixing box 5 by a closable connection. Control means make it possible to control the shutter members in operation as a function, for example, of the desired temperature inside the enclosure. These control means are formed by an electronic processing unit and / or computer such as a microprocessor or a smart card. When it is specified that the processing unit is able to perform a given operation such as the transmission of a control signal, it means that said unit comprises computer instructions for carrying out said operation. The piloting allows the flow of air, which, for example, has been introduced through the inlet 3 of fresh air of an installation, has passed through the solar collector being able to be heated by the latter. feeding the mixing box through the inlet 8 of said mixing box and out of the mixing box either through the outlet 15 in the open air to be released into the environment, or through the outlet 14 feeding the means of blowing to supply air to the enclosure 2.

In parallel with the air supply of the inlet 8 of the mixing box, the inlet 7 of fresh air of the mixing box can also be supplied with a flow of air which comes inside the mixing box mix with the air flow from the fresh air inlet 3 via the solar collector to form a flow of air supplying one and / or the other of the outputs of the mixing box. This configuration, in which the two air flows entering the mixing box are mixed, can make it possible to lower the temperature of the flow coming from the solar collector.

It is also possible to feed the blowing means 4 only with fresh air from the fresh air inlet 7 of the mixing box or only with the outside air via the solar collector from the unit 8. air of the mixing box. It is also possible to evacuate all the air entering the mixing box to the outside via the outlet 15 in the open air. This control can operate according to the desired temperature inside the chamber 2, the outside air temperature, the temperature of the air flow of the solar collector at the inlet of the mixing box. ..

A heating solution with temperature regulation of a low cost enclosure is obtained.

Claims (10)

REVENDICATIONS1. Ventilation installation (1) for ventilation and heating of an enclosure (2), said installation comprising at least one inlet (3) of air outside the enclosure (2), said inlet (3) of fresh air, means (4) for blowing said outside air inside the chamber (2) to be ventilated, characterized in that said installation (1) further comprises a box (5) with a flow mixture of air and a solar collector, said mixing box (5) comprising two air inlets (7, 8) and an air outlet (14) supplying air to the blowing means (4), or at least two outlets ( 14, 15), one of which supplies air to the blowing means (4), said solar sensor (6) being interposed between the inlet (3) or one (3) of the outside air inlets. , said fresh air inlet, and at least one air inlet (8) of the mixing box (5) for heating air from said outside air inlet (3) into the box ( 5) mixing. 2. Installation (1) according to claim 1, characterized in that said solar sensor (6) has the shape of a box (9) having a front face (10) intended to be exposed to solar radiation, this box ( 9) comprising two openings (3, 12) opening inside the box (9), one (3) placing the interior of the box (9) in communication with the outside and forming the inlet ( 3) or one (3) of the air intakes outside the enclosure, called fresh air inlet, of said installation, the other (12) connectable to one (8) of the inlets (7, 8) of the air from the mixing box (5). 3. Installation (1) according to claim 2, characterized in that the face (10) said front of the box (9) intended to be exposed to solar radiation, is formed at least partially of a transparent or translucent wall permeable to said radiation to allow the heating of the air contained inside the box (9). 4. Installation (1) according to one of claims 2 or 3, characterized in that the face (10) said front of the box (9), intended to be exposed to solar radiation, is formed at least partially of a photovoltaic panel or a solar thermal panel. 5. Installation (1) according to one of claims 2 to 4, characterized in that the face (11) said rear of the box (9), opposite the face (10) before, is a wall of a material inertia or externally lined with a coating (17) thermal inertia. 6. Installation (1) according to claims 1 to 5, characterized in that the inlet (3) of air outside the enclosure, said inlet (3) of fresh air, the installation that feeds via the sensor (6) solar mixing box (5) is equipped with means (13) for filtering air. 7. Installation (1) according to one of the preceding claims, characterized in that at least one (7) of the inputs (7, 8) of the air from the mixing box (5) opens into the open air to allow direct supply of the mixing box (5) into a stream of air outside the enclosure (2). 8. Installation (1) according to one of the preceding claims, characterized in that the mixing box (5) comprises at least two air outlets (14, 15), one of which feeds the means (4) of blowing and the other (15) or another (15) opens directly to the open air to allow the evacuation of the air flow from said outlet outside the enclosure (2). 9. Installation (1) according to one of the preceding claims, characterized in that each inlet (7, 8) of air of the mixing box (5) communicates with the or each of the outputs (14, 15) of air of the box (5) to mix by a closable connection. 10. Construction of the type comprising at least one housing body delimiting at least one enclosure (2) to ventilate, a cover (16) for protecting said housing body and a ventilation installation (1) of said enclosure (2) , characterized in that said ventilation installation (1) is in accordance with one of claims 1 to 9, in that the solar sensor (6) of said installation (1) is arranged outside the building, against a wall of the housing body or cover (16) of said construction, and in that the mixing box (5) and the blowing means (4) are arranged under the cover (16) of the construction between cover (16) and housing body, said means (4) for blowing having an outlet (18) of air opening into the enclosure (2) to ventilate.