FR2966226A1 - Installation for mechanical ventilation of residential premise, has flaps ensuring admission of air issued from nozzles to air inlet duct depending on temperature and/or humidity of captured outside air - Google Patents

Abstract

The installation has an air insufflation chamber (2) including an air inlet duct (21) connected to air inlet channels. Each channel is connected to outer air inlet nozzles (10, 11) captured in different locations at an outer side of a premise (22) to be ventilated. Tiltable flaps (9) ensure admission of air issued from the nozzles to the air inlet duct depending on temperature and/or humidity of the captured outside air in order to minimize intake of outside air having absolute humidity greater than absolute humidity of the indoor air of the premise. An independent claim is also included for a method for mechanical ventilation of a premise.

Description

The present invention relates to the field of ventilation of premises, such as living quarters or offices, and more particularly a mechanical ventilation installation by insufflation. In order to meet the regulatory requirements for ventilation of dwellings, VMC, a single-flow or a dual-flow controlled mechanical ventilation, is often currently used. The principle of the VMC is the extraction, continuously or discontinuously, of the stale air of the housing by a centralized ventilation module disposed for example in the attic. A VMC installation includes sucking the stale indoor air from the housing with suction mouths located in service rooms (bathroom, kitchen, toilets) and then evacuating this air to the outside. this aspiration generating the entry of fresh air into the living rooms (living room, bedrooms) of the housing by a plurality of air inlet vents disposed in the upper part of the joinery or in shutter boxes. More recently, hygroregulated VMC plants have been developed which include moisture-sensitive membranes disposed at one or more suction mouths in one or more parts of the housing so as to trigger a larger opening. large of one of the suction mouths in case of increased humidity. The extraction rate of the exhaust air is thus controlled by the degree of humidity of the indoor air, in particular the extraction flow rate is increased when the indoor humidity level rises above a room temperature. certain threshold, for example. However, it appears that in a certain number of cases, for example in stormy periods, incoming "fresh" air is more loaded with moisture than indoor air. It follows that the absolute humidity rate of the air of the house increases, leading to a result opposite to that sought. In addition no heating or preheating of the incoming air is provided, because a heating of the incoming air would require to act on each of the mouths of fresh air intake. In winter, people can be "inconvenienced" by these very fresh air in the living rooms, giving a feeling of "draft". Similarly, very few installations provide for filtration of the incoming air, which notably allows 30 dust and pollen to enter. In addition, ventilation ventilation devices have been proposed, the principle of which is the opposite of that of the VMC. The principle of mechanical ventilation by insufflation is to take the air outside, to filter it, to preheat it and to insufflate it in the house, which places it in slight overpressure. The outside air intake is generally performed in one place, for example at rooftops. Filtration is centralized and preheating, then the filtered air and possibly preheated can be blown into the living rooms in one or more places of the house. The air comes out of the house by a plurality of air outlets arranged, for example, in the upper part of the joinery or in shutter boxes (these air outlets may actually correspond to the mouths of entry of air VMC devices). The mechanical ventilation system by insufflation, which does not create a feeling of cold air flow, provides indoor air quality housing, complies with the rules of hygiene, the incoming air being filtered, and evacuate internal pollutants, such as COZ, VOCs and also oppose the rise of natural gases such as radon. ls Current insufflation ventilation systems can be coupled with sensors for measuring the temperature and hygrometry of the interior air of the housing, allowing, when a relative humidity threshold of this indoor air is reached or exceeded. initiating the insufflation or increasing the rate of blown air to expel this moist air through the plurality of air outlets to limit or decrease the indoor humidity level of the dwelling . However, until now, no ventilation ventilation system takes into account the hygrometry of the air outside the dwelling. Mechanical ventilation by insufflation is effective when atmospheric humidity is low. Moisture-laden indoor air is replaced by drier air. On the other hand, during periods of high atmospheric hygrometry (stormy periods for example), the ambient outside air and the indoor air are loaded with moisture. When the relative humidity threshold in the housing is reached or exceeded, the insufflation rate is increased which introduces very humid air into the housing and, consequently, further increases the humidity level in said housing. This phenomenon is further increased if the mechanical insufflation ventilation device includes a preheating system for incoming air, since the moisture absorption capacity of the air increases with temperature. This leads to a result quite opposite to that sought. Consequently, during periods of high atmospheric humidity, the user, aware of these problems, has no choice - if he can intervene on the installation - to interrupt the air intake and therefore ventilation. This goes against the goal of a permanent renewal of the air of housing. The present invention therefore aims to provide a mechanical ventilation installation insufflation which takes into account the contribution of moisture from the outside air. In addition, current recommendations for ventilation of homes require a complete renewal of indoor air every two hours. Consequently, it is necessary to provide a ventilation system that operates almost continuously, and therefore under all circumstances, whatever the weather conditions are external to the room to be ventilated. For this purpose, the present invention proposes a mechanical ventilation installation by continuous insufflation of a room, such as a living room or offices, allowing the permanent renewal of the air of said room, comprising: - a module air blowing device comprising at least one air inlet mouth 20 outside said room, connected to an air intake duct connected to a blower-equipped blowing chamber and including filtration means and means for preheating the incoming air, at least one blown air duct and at least one air blowing mouth in said room, first relative humidity sensors and first temperature sensors disposed therein inside the room to be ventilated, for respectively measuring the relative humidity and the temperature of the indoor air of said room, - second relative humidity sensors and second temperature sensors, arranged upstream of the room, ntilator, for respectively measuring the relative humidity and the temperature of the incoming air, - a calculation and control unit controlling the insufflation air flow, depending on the part of the moisture and the air. air temperature of said room to be ventilated and secondly of the humidity and the temperature of the incoming air, the humidity taken into account to control the insufflation air flow rate being the absolute humidity, calculated s from the measured relative humidity and temperature data. The ventilation ventilation installation is thus hydroregulated. Preferably, the insufflation module comprises a preselected fan speed variator, the control unit acting on said variable speed drive, each preselected speed corresponding to an insufflation rate, among a plurality of pre-programmed insufflation flow rates. . This number of preselected speeds may, for example be in the number of ten, without providing a gradient of variation (that is to say without continuous variation) of these speeds hence a very simple operation of this module. insufflation, referring, for example, to the number of preselected speeds. Preferably, the second temperature and humidity sensors are disposed inside said air inlet duct. This provides space saving, and further allows a meaningful measurement of the temperature and humidity of the air to the fan to accurately determine the flow of air to be blown. Likewise, advantageously, the means for preheating the incoming air are arranged upstream of the second temperature and humidity sensors, which also allows a saving of space and a gain in efficiency. These preheating means may be disposed inside said air intake duct or in the insufflation chamber, or may be present near and around an outer air supply duct, upstream of said air inlet duct. Compared to a controlled mechanical ventilation (VMC) installation, a filtration and a preheating of the incoming air can thus be set up in one place since there is here a single duct of air inlet. , in the insufflation chamber. The insufflation takes place continuously, it is only the insufflation rate that is modulated. In this case, we do not have an all or nothing system. It is thus possible permanently to ventilate the housing sufficiently according to current recommendations.

Preferably, the control unit which controls the insufflation air flow therefore also controls the preheating of the air. According to an advantageous embodiment, the air intake duct in the insufflation chamber is connected to a plurality of air inlet ducts, each duct being connected to an intake air intake duct. in different places outside the room to be ventilated, (thus able, in particular, to benefit from a different environment, for example a different exposure to the sun, resulting in a different temperature and / or humidity (s) ), said inlet duct being equipped with flap (s) tilt (s) or steerable (s) for admission of air from one or more inlet mouth (s) to the duct of air intake, depending on the temperature and / or humidity of the captured outdoor air, with a view to minimizing the intake of outside air having an absolute humidity greater than the absolute humidity of the indoor air said premises. Thus, such an installation makes it possible to select the incoming air as a function of its absolute humidity. For example, the facility selects air captured near the surface of a south-facing roof rather than an exposure to the North, depending on the season (winter-summer) or meteorological parameters. According to an alternative embodiment, the air inlet duct connected to the insufflation chamber may also be connected to a recirculation duct of a portion of the interior air of said room. This "recovery" of a part of the air of the room that will be mechanically sucked to be forced back to the insufflation chamber allows partial recirculation of the air, in particular to benefit from an already heated air and thus save money. calories in winter. Such an arrangement is also advantageous for limiting the introduction into the room of very humid air during periods of high atmospheric humidity, for a limited time, while maintaining a permanent circulation of the ambient air. The present invention also relates to a method of mechanical ventilation by continuous insufflation of a room, implementing the installation described above, and characterized in that it comprises the determination of the nominal air blowing rate 30 corresponding to a predefined rate of air renewal of the room, the measurement of the temperature and humidity of the incoming air and the indoor air of the room to be ventilated, the determination and the comparison of the absolute humidity of the incoming air and the interior air of the room, then, depending on the result of this comparison, the actuation of one of the preselected speeds of the fan corresponding to a higher pre-programmed insufflation air inlet flow rate. or equal to the nominal air delivery rate. This nominal air blowing rate may correspond approximately to the renewal of the entire volume V of air of said room in two hours, or 0.5 V / h. The temperature and humidity measurements are advantageously carried out at regular time intervals (for example every 10 minutes) with an immediate adjustment of the insufflation rate. They can, moreover, be memorized over a period (for example a duration of 36 or 48 hours sliding) comprising at least two night periods to check if one is, for example, in the summer season. Indeed, it may be advantageous, in summer during hot weather, to increase the insufflation rate during the night to bring freshness to housing during this period. According to advantageous features of the method of the invention: when the air inlet duct is connected to a plurality of air intake ducts, the control unit selects the outside air inlet duct depending on the temperature of the air at the corresponding air inlet; 20 in case of competition between temperature and humidity, the control unit favors the temperature, that is to say, taking into account the temperature is a priority; when the air intake duct is connected to a duct for recirculating part of the air inside said room, a fraction of the interior air of the room is recycled into the ventilation chamber, via of said air inlet duct. Other advantages will become apparent in the light of the following description of non-limiting examples of embodiment of the installation of the invention, illustrated by the appended figures in which: FIG. 1 schematizes a living space in which is provided a mechanical ventilation installation by insufflation according to an embodiment of the present invention; Figure 2 details the upper part of said installation of Figure 1 at the roof of the house; s Figure 3 details the part of the installation of Figure 1 disposed in the attic of the house, and more particularly including the air inlet duct and the insufflation chamber. Referring to the figures, the ventilation installation 1 according to the present invention is intended to heat a room 22, here a dwelling. The air blowing module 10 disposed, for example in the attic 19 of the dwelling shown diagrammatically in FIG. 1, comprises at least one external air intake opening 10, 11 connected to an inlet duct. air 21 connected to an insufflation chamber 2. The insufflation chamber contains a fan 20 and is connected to a blown air duct 3 opening into said room 22 at an insufflation mouth 4. local is equipped with air outlet vents 24, for example in the form of grids, arranged in the upper part or above the windows 25. Thus the incoming air according to the arrow E at the roof 23 is blown into the 22 and spring of the latter according to the arrows S by removing the stale air of said room 22. A control box 30 of the insufflation and the first sensors of temperature and humidity of the indoor air of the room 22 are arranged in said room. Upstream of the fan 20 are placed, preferably in the air inlet duct 21, filtering means 18 (for example a type G4 filter making it possible to retain coarse particles of size greater than or equal to 5 μm, or a type F7 filter retaining at least 90% of particles of size greater than or equal to about 0.5 μm), preheating means 29 in the form here of a heating resistor, and temperature sensors and humidity 14 of the air entering the insufflation chamber 2. Also provided in the insufflation chamber 2, a calculation and control unit 12 makes it possible to control the speed of the fan in order to control the flow rate. air blown.

The air inlet duct 21 opens at one of its ends into the insufflation chamber 2. Its other end can be connected directly by a sheath 15 to an air intake port 10, 11. According to In the embodiment shown in FIG. 2, this air inlet duct 15 can be connected to two air inlet ducts 27, 28, each of these ducts being connected to an inlet duct. air 10, 11. These air inlet mouths may be disposed on opposite sides of the roof 23, for example the mouth 11 on the face of the roof facing south and the mouth 10 on the face of the roof 23 exposed to the north . An adjustable flap 9 makes it possible to choose the supply of air, coming either from the mouth 10, or from the mouth 11 or a mixture of the two in an intermediate position of the flap. According to an alternative embodiment of the present invention, represented in FIG. 3, the air inlet duct 21 is subdivided into a main air intake duct 8 and an air recirculation duct 26 from said room 22. ls Indeed, part of the air of said local can be taken up by the air intake mouth 5 sucked by the suction means 7, and / or driven by the bypass duct 6 and enter the air intake duct 21. This air intake at the ceiling 17 allows the recirculation of a portion of the air already heated premises, which allows in winter to limit preheating.

The method of mechanical ventilation by insufflation according to the invention allows continuous ventilation of the room 22 with the aid of the installation shown in Figures 1, 2 and 3. The operation is as follows: The fan 20 operates continuously according to preprogrammed speeds, for example speeds ranging from 1 to 10. Depending on the volume of the room 22 to be ventilated, the nominal speed VN of the fan corresponding to a renewal of the room air, for example every two hours, is determined. according to current recommendations, chosen from one of these 10 preprogrammed speeds. The air enters, according to the arrow E, by one or both mouths 10, 11, through the channel or channels 27, 28 according to the orientation of the flap 9, and is brought by the sheath 15 to the duct. In one embodiment of the invention shown in FIG. 3, in this air inlet duct 21 are arranged from upstream to downstream a filter 18, a preheating means 29 and a temperature and humidity sensor 14. The blown air circulates in the blown air duct 3 and enters the room through the blowing mouth 4. This blowing of air into the room creates a slight overpressure in this room and flush stale air by the outputs 24 according to the arrows S. Based on the results of the measurements of the first temperature and relative humidity (RH) sensors 13, located in the room 22, and results of temperature and relative humidity (RH) measurements of the second temperature and humidity sensors 14, located in the air intake duct 21 upstream of the fan 20, the calculation and control unit 12 calculates the internal and external absolute humidity, and accordingly drives the fan 20, that is to say, selects a speed preselected said fan greater than or equal to the speed VN.

For example, depending on the results of the temperatures and humidity, the management of the installation 1 can be carried out as follows: - the case: the rate of H.R. the room is greater than 60%, - if the absolute humidity of the outdoor air is lower than the indoor humidity, the control box will increase by one step above the nominal speed 20 VN - if the The absolute humidity of the outside air is greater than the internal humidity, the housing will maintain or reduce the initial nominal speed so as not to increase the indoor humidity level while maintaining a renewal of the air. HR rate the room is greater than 71%, - if the absolute humidity of the outside air is lower than the indoor humidity, the management box will increase the speed of two graduations beyond VN - if the absolute humidity of the outside air is greater than the internal humidity, the housing will maintain the speed at the initial nominal speed so as not to increase the indoor moisture content while maintaining a renewal of the air. HR rate the room is less than 40%, - the management box will decrease the fan speed of a graduation without ever going below the speed VN. 4th case: the rate of H.R. the room is less than 29%, - the management box will decrease the fan speed of two graduations without ever going below the speed VN.

Claims (11)

REVENDICATIONS1. Installation (1) of mechanical ventilation by continuous insufflation of a room (22), such as a living or office space allowing the permanent renewal of the air of said room, comprising: s - an insufflation module of air having at least one air inlet opening outside said room (10, 11), connected to an air inlet duct (21) connected to an insufflation chamber (2) enclosing a fan ( 20) and including filtration means (18) and means for preheating (29) the incoming air, at least one blown air duct (3) and at least one blowing mouth (4) of the in said local air, - first relative humidity sensors and first temperature sensors (13), arranged inside the room (22) to be ventilated, for respectively measuring the relative humidity and the temperature of the room. indoor air of said room, second relative humidity sensors and second temperature sensors ls (14), arranged upstream of the fan (20), for respectively measuring the relative humidity and the temperature of the incoming air, - a calculation and control unit (12) controlling the insufflation air flow, as a function of a part of the humidity and the temperature of the air of said room to be ventilated and secondly of the humidity and the temperature of the incoming air, the humidity taken into account to control the flow of air. The insufflation air is the absolute humidity calculated from the measured relative humidity and temperature data. 2. Installation (1) according to claim 1, characterized in that the insufflation module comprises a preselected fan speed controller, the control unit acting on said speed controller, each preselected speed 25 corresponding to a flow rate of insufflation, among a plurality of preprogrammed insufflation flow rates. 3. Installation (1) according to one of claims 1 or 2, characterized in that the second temperature and humidity sensors (14) are disposed within said air inlet duct (21). 11 4. Installation (1) according to claim 3, characterized in that the preheating means (29) of the incoming air are arranged upstream of the second temperature and humidity sensors (14). 5. Installation (1) according to any one of the preceding claims, characterized in that the air inlet duct (21) in the insufflation chamber (2) is connected to a plurality of inlet channels of air (27, 28), each channel being connected to an air inlet (10, 11) captured at different locations outside the room (22) to be ventilated and is equipped with a flap ( s) (9) tilt (s) or steerable (s) admission of air from one or more inlet mouth (s) to the inlet duct (21), 10 en a function of the temperature and / or the humidity of the captured outdoor air, with a view to minimizing the entrance of outside air having an absolute humidity greater than the absolute humidity of the indoor air of said room. 6. Installation (1) according to any one of the preceding claims, characterized in that the air inlet duct (21) connected to the insufflation chamber (2) is also connected to a recirculation duct ( 26) of part of the indoor air of said room. 7. A method of mechanical ventilation by continuous insufflation of a room, implementing the installation (1) according to any one of the preceding claims, characterized in that it comprises the determination of the nominal air flow of insufflation 20 corresponding to a predefined rate of local air renewal, measurement of temperature and humidity of the incoming air and indoor air of the room to be ventilated, determination and comparison of humidity absolute of the incoming air and the interior air of the room, then, depending on the result of this comparison, the actuation of one of the preselected speeds of the fan corresponding to an inflating air inlet flow rate. preprogrammed greater than or equal to the nominal air blowing rate. 8. The method of claim 7, characterized in that the measurements are made at regular time intervals with immediate adjustment of the insufflation rate. 30 9. Method according to one of claims 7 or 8, in accordance with claim 5, characterized in that the control unit selects the outside air inlet channel as a function of the air temperature at the level of the corresponding air inlet mouth. 10. Method according to one of claims 7 to 9, characterized in that, in case of competition between temperature and humidity, the control unit favors the temperature. 11. Method according to one of claims 7 to 10, in accordance with claim 6, characterized in that a fraction of the air inside the room is recycled into the insufflation chamber (2), via said air inlet duct (21). 10