NL1039551C2 - VENTILATION SYSTEM. - Google Patents

Abstract

The system has a measuring device for measuring a parameter of interior air that includes carbon dioxide level, and relative humidity. A volatile organic substance regulating unit controls evacuation of air from a concerned building (1) or dry room e.g. bed room (3c), according to the measured interior air parameter. A set of ventilation grids (9a, 9b) is arranged in a living room (3a) and in the bed room. An air passage (10) is provided in a visible manner between the living room and a toilet (2b).

Description

VENTILATION SYSTEM

This invention relates to a ventilation system for ventilating a building with two or more dry spaces and one or more moist spaces, comprising air supply means for natural air supply to the one or more dry spaces and comprising a mechanical air discharge device comprising a central fan for discharging air from the one or more humid spaces, wherein the mechanical air discharge device comprises air discharge means for mechanically discharging air from at least two of the dry spaces, comprising at least two respective air discharge channels connected to a respective dry space, comprising a collector to which said air air discharge channels are connected, comprising a central air discharge channel between the collector and the central fan and comprising control means, which are arranged in the central air discharge channel, for controlling the air discharge from the bet reffende dry spaces.

This invention relates to a so-called mechanical drain system or C system. Fresh air is hereby supplied via natural ventilation devices (controllable supply openings), such as window grilles, into a building via "dry rooms". This air then flows inwardly from these dry spaces, through flow openings in doors, walls, via corridors, halls, stairwells, etc. to the "humid (or wet) spaces". In the damp mimtes, the air is actively discharged to the outside with the help of a fan.

25

In homes, the living room, bedrooms and office are the so-called "dry mimtes", while a kitchen, bathroom, toilet and laundry room are the so-called "wet mimtes".

A major disadvantage of such a system, however, is that when, for example, people sleep in the bedrooms at night, the air in these dry rooms becomes polluted faster than fresh air is supplied, so that the air quality during the greatly reduces the night. This is caused by natural pressures such as wind pressure and thermal pressure that oppose the mechanical discharge pressure or by too small through openings.

5

With a D-system in which the air is both mechanically supplied via the dry rooms and mechanically discharged from the humid rooms, it is possible in variants to adjust the air supply in these bedrooms as a function of indoor air parameters of these bedrooms and a proportional share of air elsewhere 10 drain into the building through the wet rooms, so that sufficient fresh air is supplied throughout the night to ensure adequate air quality.

However, a C system is often preferred over a D system (whereby the air is supplied both mechanically via the dry spaces and mechanically discharged via the moist spaces), because of the lower investment costs, lower maintenance costs, simplicity and / or because of of saving space.

EP 1 947 384 A1 describes a ventilation system in which the flow rate of air to be discharged can be regulated as a function of measured values of the effectively discharged flow rate. This makes it possible to control the flow on the basis of pre-set target values for the flow of air to be discharged. However, based on such a control, it is not possible to create a healthier indoor climate in dry rooms than with a known C-system.

25

The object of this invention is to provide a ventilation system whose investment cost is more in line with a C system than with a D system and with which a healthier indoor air climate can be created in dry rooms such as bedrooms than with a known C system.

3

This object of the present invention is achieved by providing a ventilation system for ventilating a building with two or more dry spaces and one or more damp spaces, comprising air supply means for natural air supply to the one or more dry spaces and comprising a mechanical air exhaust device , comprising a central fan for discharging air from the one or more humid spaces, wherein the mechanical air discharge device comprises air discharge means for mechanically discharging air from at least two of the dry spaces, comprising at least two respective air discharge channels connected to a respective 10 dry space, comprising a collector to which the said air discharge channels are connected, comprising a central air discharge channel between the collector and the central fan, comprising control means arranged in the central air discharge channel for controlling n of the air discharge from the relevant dry spaces and comprising a measuring device for measuring at least one indoor air parameter of the relevant dry spaces, wherein said at least one indoor air parameter comprises one or more of CO2, relative humidity, VOC (volatile organic compounds) and wherein the control means are adapted to control the air discharge from the relevant dry spaces in function of the measured at least one indoor air parameter.

20

By actively removing the air in bedrooms in function of one or more indoor air parameters, it is possible to achieve a much better air quality in the bedrooms when people are sleeping. The air supply means for natural air supply in these spaces are herein preferably chosen such that the discharged air is automatically supplied again.

Thanks to the collector, the central air discharge channel and the control means which are arranged in the central air discharge channel, the additional investment cost can be kept limited with respect to a C system, so that the investment cost still remains well below the investment cost of a D system. If separate control means were provided per relevant dry space 4, this additional investment cost would immediately be a lot higher.

The provision of common control means for the various dry spaces concerned is not really a limitation for the largest applications of this system. This is because the greatest need for such an adapted system exists in homes with several bedrooms, where the relevant dry rooms are these bedrooms. For most homes, these bedrooms are occupied at the same time for most of the night.

10

Such a ventilation system preferably comprises per controllable dry room a controllable outlet grille, which is connected to the respective air outlet channel of this dry room.

Where bedrooms are not always occupied at the same time during most of the night, in this way, with a limited additional cost, the air discharge from a relevant bedroom that is not occupied can be temporarily disconnected from the mechanical air discharge device by closing the discharge grille. The additional investment cost of such an adjustable drain grate is considerably smaller than the additional investment cost for additional control means.

The measuring device of a ventilation system according to the present invention preferably comprises at least one sensor per respective dry space. This at least one sensor is preferably arranged in the relevant dry room. Alternatively, this at least one sensor can be arranged in the air exhaust duct that is connected to the respective dry room.

Further or alternatively, the measuring device of a ventilation system according to the present invention preferably comprises at least one sensor in the collector or in the central air exhaust duct.

5

The air exhaust ducts, which are connected to a dry space, preferably have substantially the same air resistance.

In order to achieve substantially the same air resistance, an equivalent air obstacle course (length of pipe assembly - bends - etc.) must be provided between each dry space to which an air discharge duct is connected and the collector. If adjustable exhaust grilles are provided per dry room to which an air exhaust duct is connected, then these adjustable exhaust grilles can be controlled such that the air resistance of the relevant exhaust ducts becomes practically the same.

In a specific embodiment of a ventilation system according to the present invention, the collector has a sound-absorbing construction.

This invention will now be further elucidated on the basis of the following detailed description of a preferred ventilation system according to the present invention. The purpose of this description is only to provide clarifying examples and to indicate further advantages and details of this ventilation system, and thus can in no way be interpreted as a limitation of the scope of the invention or of the patent rights claimed in the claims.

In this detailed description reference is made to the accompanying drawings by reference numerals, wherein in figure 1 a house is shown in cross-section which comprises a ventilation system according to the present invention.

The sectional view of the home (1) in Figure 1 shows that this home (1) includes a living room (3a) on the ground floor, a toilet (2b) and a kitchen (2c). On the upper floor, this home (1) includes the pictured bathroom (2a) and two bedrooms (3b, 3c).

6

The living room (3a) and the bedrooms (3b, 3c) are so-called dry rooms of this house (1), while the kitchen (2c), the toilet (2b) and the bathroom (2a) are so-called wet (wet) rooms of the home (1). In addition to the 5 rooms shown (2a, 2b, 2c, 3a, 3b, 3c), additional wet rooms, such as, for example, an additional toilet or laundry room, can of course be connected to the ventilation system. Analogously, additional dry rooms, such as, for example, an additional bedroom or desk, can of course also be connected to the ventilation system.

10

Via natural air vents (9a, 9b) with self-regulating valves, air is supplied to the dry spaces (3a, 3b, 3c) - here the living room (3a) and the bedrooms (3b, 3c). Only the ventilation grilles (9a, 9b) in the living room (3a) and in one of the bedrooms (3c) can be seen in this section of the home (1). The ventilation grille of the second bedroom (3b) is in a different - not shown - section of the home (1).

Internally different air passages (10) are provided in the house (1), which connect the different rooms (2a, 2b, 2c, 3a, 3b, 3c) of the house (1) with each other and flow of air from the ensure dry spaces (3a, 3b, 3c) to the damp spaces (2a, 2b, 2c). Only the air passage (10) between the living room (3a) and the toilet (2b) is visible in the section shown. The remaining air passages are located in other cross sections of the house (not shown) (1).

25

In order to also be able to discharge the air that is fed into the house (1) again and thus to continuously refresh the air in the house (1), the ventilation system comprises a mechanical air discharge device (4, 5a, 5b, 5c, 6a, 6b , 6c, 7, 8).

This mechanical air exhaust device (4, 5a, 5b, 5c, 6a, 6b, 6c, 7, 8) comprises a central fan (4) for extracting air from the bathroom (2a), the 7 bedrooms (3b, 3c) , the toilet (2b) and the kitchen (2c). By extension, additional damp rooms and additional bedrooms can be connected to this. The reference number for the fan (4) in the figure indicates the housing of the central collector (4) in which this fan (4) is included. This central collector (4) is accommodated in a separate room (11) of the home (1) - here in the attic under the roof (12).

The mechanical air exhaust device (4, 5a, 5b, 5c, 6a, 6b, 6c, 7, 8) further comprises a general air exhaust channel (8) for extracting the air from all said spaces (2a, 3b, 3c, 2b, 2c) from which air is discharged. This general air exhaust duct (8) is connected on the one hand to the central collector (4), in which the central fan (4) is accommodated, and on the other hand extends through the roof (12) to outside the house (1).

Air outlet ducts (6a, 6b, 6c) are furthermore directly connected to the central collector (4) which are connected at their other end to the humid spaces (2a, 2b, 2c). As the flow rate to be discharged from the toilet (2b) is always smaller than the flow rate to be discharged from the other humid spaces (2a, 2c), the diameter of the air discharge duct (6b) connected to this toilet (2b) is ) smaller than the 20 diameters of the air ducts (6a, 6c) connected to the bathroom (2a) and the kitchen (2c).

Air vents (5a, 5b) are also connected to the bedrooms (3b, 3c), but they are not directly connected to the central collector (4). The air exhaust ducts (5a, 5b) of the bedrooms (3b, 3c) are connected to a separate collector (7), which in turn is connected to the central collector (7) with the aid of a central air duct (5c). The collector (7) is, just like the central collector (4), arranged in the space (11) below the ridge of the roof (12). In the central air discharge channel (5c) control means are included for controlling the air discharge from the bedrooms (3b, 3c). Sensors have been installed in the bedrooms (3b, 3c) for measuring CO2 and / or relative humidity 8 and / or VOC in these bedrooms (3b, 3c). The control means of the central air discharge duct (5c) control the air discharge from the bedrooms (3b, 3c) in function of the measured values of these sensors in order to ensure optimum air quality in these bedrooms (3b, 3c). To discharge the same air flow rate from both bedrooms (3b, 3c), the air discharge ducts (5a, 5b) between the bedrooms (3b, 3c) and the collector (7) have the same length and each have a single, same bend so that both air discharge channels (5a, 5b) have substantially the same air resistance. To prevent that sound can go from one bedroom (3b) to the other bedroom (3c) via the ventilation system, the collector (7) has a sound-absorbing structure.

In order to make the above-mentioned ventilation system also optimally usable when the different bedrooms (3b, 3c) are not always occupied at the same time, adjustable exhaust grilles can be connected in the bedrooms (3b, 3c) to the respective air exhaust ducts (5b, 5a). If a bedroom (3b, 3c) then remains unused, it is not necessary for the same flow of air to be discharged from all bedrooms (3b, 3c), but the adjustable outlet grille of the bedroom (3b, 3c) that remains unoccupied can be closed so that only air is discharged from the bedroom (3b, 3c) that is occupied. When it becomes too difficult to design the air exhaust ducts (5a, 5b) from the different bedrooms (3b, 3c) to be almost identical to make their air resistance practically identical, the air resistor of the different air ducts (5a, 5b) from the different bedrooms (3b, 3c) can also be adjusted with the help of such adjustable drainage grilles until this is almost the same.

25

The air resistance should only be the same if an identical number of people are in the bedrooms. This is not always the case. The flow rate can be adjusted to 15 to 20 m3 / h / person by means of the adjustable discharge grate.

1039551

Claims (8)

Ventilation system for ventilating a building (1) with two or 5 more dry rooms (3a, 3b, 3c) and one or more damp rooms (2a, 2b, 2c), comprising air supply means (9a, 9b) for natural air supply to the one or more dry spaces (3a, 3b, 3c) and comprising a mechanical air exhaust device (4, 5a, 5b, 5c, 6a, 6b, 6c, 7, 8), comprising a central fan (4) for discharging air 10 from the one or more humid spaces (2a, 2b, 2c), wherein the mechanical air discharge device (4, 5a, 5b, 5c, 6a, 6b, 6c, 7, 8) air discharge means (4, 5a, 5b, 5c, 7, 8) for mechanically discharging air from at least two of the dry spaces (3b, 3c), comprising at least two respective air discharge channels (5a, 5b) connected to a respective dry space (3b, 3c), comprising a collector (7) to which said air exhaust ducts (5a, 5b) are connected, comprising a central air exhaust duct 1 (5c) between the collector (7) and the central fan (4), and comprising control means, which are arranged in the central air discharge channel (5c), for controlling the air discharge from the relevant dry spaces (3b, 3c) ), characterized in that the ventilation system comprises a measuring device for measuring at least one indoor air parameter of the relevant dry rooms (3b, 3c), wherein said at least one indoor air parameter comprises one or more of CO2, relative humidity, VOC and wherein the control means are adapted are for controlling the air discharge from the relevant dry spaces (3b, 3c) as a function of the measured at least one indoor air parameter. 2. Ventilation system according to claim 1, characterized in that the ventilation system comprises an adjustable outlet grille per respective dry room (3b, 3c), which is connected to the respective air outlet channel (5a, 5b) of this dry room (3b, 3c). 1039551 Ventilation system according to one of the preceding claims, characterized in that the measuring device comprises at least one sensor per respective dry space (3b, 3c). 5 Ventilation system according to claim 3, characterized in that the at least one sensor per respective dry room (3b, 3c) is arranged in the relevant dry room (3b, 3c). Ventilation system according to claim 3, characterized in that the at least one sensor per respective dry room (3b, 3c) is arranged in the air exhaust duct (5a, 5b) which is connected to the respective dry room (3b, 3c). Ventilation system according to one of the preceding claims, characterized in that the measuring device comprises at least one sensor in the collector (7) or in the central air outlet duct (5c). 7. Ventilation system according to one of the preceding claims, characterized in that the air discharge ducts (5a, 5b), which are connected to a dry room (3b, 3c), have substantially the same air resistance. Ventilation system according to one of the preceding claims, characterized in that the collector has a sound-absorbing structure. 25 1 0 39 5 5 1