BE1030951B1 - METHOD FOR CONTROLLING A CENTRAL VENTILATION SYSTEM AND VENTILATION SYSTEM CONFIGURED FOR EXECUTING THIS METHOD - Google Patents

Abstract

This invention concerns a method for controlling a central ventilation system for carrying out flow measurements, the ventilation system comprising: - a ventilation unit; - a central fan (3) in the ventilation unit; - multiple channels, connected to the ventilation unit for supplying and/or extracting air to and/or from the ventilation unit using the central fan (3); - a control unit (1) for controlling the central fan (3); wherein the central ventilation system is de-energized and energized again, so that the control unit (1) runs through a start program, during which the central fan (3) is controlled for a test time according to an imposed test program (5). In addition, this invention concerns a ventilation system configured to perform this method.

Description

METHOD FOR CONTROLLING A CENTRAL

VENTILATION SYSTEM AND VENTILATION SYSTEM CONFIGURED

FOR CARRYING OUT THIS PROCEDURE

This invention relates to a method for controlling a central ventilation system for carrying out flow measurements, the ventilation system comprising: - a ventilation unit; - a central fan, which is installed in the ventilation unit; - multiple ducts connected to the ventilation unit for supplying and/or extracting air to and/or from the ventilation unit using the central fan; and - a control unit for controlling the central fan; whereby a test program imposed depending on standards, rules and legislation is determined and where the central fan is first controlled according to a normal operating program, then is controlled according to the imposed test program before carrying out the flow measurements and is then controlled again according to the normal operating program.

In addition, this invention relates to such a central ventilation system, configured for carrying out such a method.

Said central ventilation systems are used to ventilate buildings, typically for residential applications. Examples of such central ventilation systems are described and depicted in BE1018155A5,

BE1018969A5 and BE1019913A5.

These central ventilation systems are divided into the following types of ventilation systems according to the presence of ducts for air supply and/or ducts for air extraction: - type B, with mechanical pulse, where air is sucked into the building using the fan. The ducts connected to the ventilation unit are then provided for the supply of air and are connected to various rooms of the building to be ventilated to supply air to them. - type C, with mechanical extraction, where air is removed from the building using the fan. The ducts are then provided for air extraction and are connected to various rooms of the building to be ventilated to remove air from them. These areas are typically the so-called damp areas, including bathroom, kitchen and toilet, but sometimes also bedrooms where too high CO or NO levels are measured. - type D, with mechanical pulsion and extraction, where air is both sucked into and extracted from the building using the fan. One or more air supply channels are connected to one or more rooms of the building to be ventilated and one or more air exhaust channels are connected to one or more rooms of the building to be ventilated.

With such ventilation systems, standardized flow measurements must be carried out upon delivery and during certain checks to check the flow rates in accordance with the applicable standards, rules and legislation per country or region.

The mechanical ventilation flow rates must be measured separately for each room. The European standard EN16211 was developed for this purpose. For

In Belgium, the flow measurement methods for residential applications are described in the NDN EN 12599 standard. In France, these flow measurement methods are prescribed in 'Protocole Ventilation RE2020'. In the Netherlands, a methodology has been agreed that is described in TKI SecureVent for quality assurance of ventilation systems.

The nature of the prescribed flow measurements depends, among other things, on the type of ventilation system. These may, for example, depend on whether there are channels for exhaust and/or channels for air supply. In addition, these may depend on whether adjustable valves or other flow controllers are provided per channel and whether the ventilation system is adjustable based on measurements from, for example, a moisture sensor, etc.

In order to carry out these flow measurements, the fan is controlled according to an imposed test program, whereby this test program depends on the aforementioned standards, rules and legislation per country or region.

The mentioned control unit is provided on the ventilation unit. In order to control the fan using this control unit according to the imposed test program, you can now, depending on the central ventilation system, either manually control the control unit at the ventilation unit itself, or control the control unit via an app. control unit from a distance.

The first existing solution has the disadvantage that you normally have to carry out the flow measurements with 2 people. One person must then manually control the control unit at the ventilation unit, while a second person carries out flow measurements at the various connections to the ducts in the various rooms.

An additional problem with this first option is that the ventilation unit is often mounted in a difficult-to-access location, such as a crawl space, making it difficult to manually control the control unit.

The option via an app requires a network connection and a program to be installed to control the control unit. However, the relevant flow measurements are usually carried out upon completion of the building and there is rarely a network available through which control can take place.

The purpose of this invention is to provide a solution to easily control the central ventilation system to carry out flow measurements under several possible circumstances.

This object of the invention is achieved by providing a method for controlling a central ventilation system for carrying out flow measurements, the central ventilation system comprising:

- a ventilation unit; - a central fan, which is installed in the ventilation unit; - multiple ducts connected to the ventilation unit for supplying and/or extracting air to and/or from the ventilation unit using the central fan; and - a control unit for controlling the central fan, which is provided with a storage unit in which several test programs are stored and is provided with a selection unit for selecting one of the test programs as said imposed test program; whereby a test program imposed depending on standards, rules and legislation is determined with the selection unit and whereby the central fan is controlled according to a normal operating program, the method comprising de-energizing the central ventilation system and re-energizing this ventilation system, so that the control unit runs through a start program, during which the central fan is controlled for a test period in accordance with the imposed test program, before carrying out the flow measurements and at the end of the start program it controls the central fan again according to the normal operating program.

In this solution, the activator is for controlling the central fan according to the imposed test program, de-energizing and re-energizing the central ventilation system. This can be done easily without having direct access to the ventilation unit and without a network connection having to be available. Typically this will be possible via, for example, the fuse box. Such a fuse box must always be located in an easily accessible place. Alternatively or additionally, such a central ventilation system can be connected to a socket with a plug, whereby this plug can be removed from the socket and plugged back in.

An even further alternative or additional option is to connect the central ventilation system to an electricity grid using a switch, whereby this ventilation system can be de-energized and energized using this switch. Such a plug/socket and/or such a switch can also be provided in a more accessible location than the ventilation unit itself. Disconnecting and energizing the ventilation system using the fuse box offers the advantage compared to such a plug/socket and/or such a switch, that an additional plug/socket and/or switch does not have to be provided. and additional wiring.

This solution does not require the presence of the installer during inspections by government services.

The central fan is operated for a limited test time to complete this test program, typically between 15 and 45 or 30 min, which is the necessary time to perform the flow measurements. If the central ventilation system loses power for some other reason and is turned on again, this limited time during which the central fan is controlled according to this test program will not be experienced as a nuisance.

This has the additional advantage that you do not have to reset the central ventilation system to operating settings, but that when the start program is ended, the control unit can control the central fan again according to a normal operating program. O.a. any user settings, installation settings and parameters to ensure that the operating program complies with applicable regulations and legislation can be retained.

The object of this invention is also achieved by providing a central ventilation system, comprising: - a ventilation unit; - a central fan, which is installed in the ventilation unit;

- multiple ducts connected to the ventilation unit for supplying and/or extracting air to and/or from the ventilation unit using the central fan; and - a control unit for controlling the central fan, which is provided with power supply means for de-energizing and re-energizing the central ventilation system, is provided with a storage unit in which several test programs are stored, and is provided with a selection unit for selecting one of the test programs as a test program imposed depending on standards, rules and legislation and provided with a normal operating program and a start program, to run a method according to this invention.

In order to avoid problems resulting from an unforeseen and sudden power outage during the night, the control unit is, in a preferred embodiment, provided with a time module for keeping time and it is provided that when the start program is run, the central fan is only switched on in accordance with the test program. when the time is between a start time and an end time. For example, through a well-considered choice of the start time and the end time, the test program can be stopped between 9:00 PM as the end time and 8:00 AM as the start time. Keeping time can be done via a built-in (real-time) clock or a connected clock with a control unit that is connected to the internet.

Optionally, the control unit may be configured to withhold the test program from starting for multiple set time periods.

The control unit can further be provided with a reading unit for reading user settings and/or installation settings. The control unit is preferably provided in a known manner for controlling the central fan based on these settings. This control unit is provided to adjust the operating program mentioned or to choose from several operating programs depending on these settings.

This reading unit can be provided to read these settings directly to the ventilation unit and/or to read them alternatively via a network.

In the latter case, the control unit is configured to communicate wirelessly, for example using a network connection.

User settings can, for example, include a temperature setting to control the central ventilation system in a larger climate control system with the operating program in such a way that certain temperatures are maintained in the building or, for example, a setting that night cooling is desired.

Installation settings may include, for example, the country of installation, the number of air supply ducts, the number of air exhaust ducts, the presence of controllable valves and/or flow controllers and/or sensors, etc.

The central ventilation system can be provided in various known ways for reading such settings.

Installation settings can be read, for example, using an installer device as described in WO2021/234470A1.

The test program will depend on the installation settings that were set by the installer during installation and will therefore differ depending on the country/region. For example, with the same ventilation system in France (set during installation), the flow rates will change when the relevant procedure is started. in the kitchen go to 'Ventilation Temporisée' or 'Ventilation de pointe', while in other rooms the flow rates go/remain at normal demand-driven flow rates. For a more accurate measurement, this can also be a combination of 'Ventilation Temporisée' in the kitchen and a minimum flow rate in the other rooms. In Belgium, the flow rates would then return to 'nominal values' in each room as described in the Unified technical specifications STS-P-73-1. Or if the ventilation system has the option, place the “wet” and “dry” rooms separately in test mode as indicated by the BCCA.

Such a selection unit can be configured, for example analogous to control units that are provided to adjust or select the normal operating program on the basis of said settings, to select the test program on the basis of installation settings that are, for example, made using have been read from said reading unit.

In a specific embodiment, the control unit can also be provided with a boost program, whereby the central fan is controlled at maximum power and is provided with an activator for activating this boost program. The central ventilation system can, for example, be provided with a switch for activating this boost program and/or the control unit can be configured to run through the boost program for a certain boost time. This boost program can be provided to extract air at a maximum flow rate only in a single room, such as in a kitchen, for example to replace a cooker hood. This boost program can be provided alternatively or additionally, for example to supply maximum air in one or more rooms. If one or more corresponding discharge channels and/or one or more supply channels are equipped with an adjustable valve or another flow controller, the control unit is then configured accordingly to control these valve(s) or flow controller(s).

In addition, the object of this invention is also achieved by providing a computer program product, consisting of computer-readable code, which, when executed on a control unit of a central ventilation system described above according to this invention, results in the result is that the central ventilation system is controlled according to a method according to this invention described above.

Finally, the object of this invention is also achieved by providing a non-volatile machine-readable storage medium on which such a computer program product according to this invention is stored.

This invention will now be explained in more detail on the basis of the following detailed description of some preferred embodiments of methods and central ventilation systems according to this invention. The purpose of this description is solely to provide illustrative examples and to point out further advantages and features of this invention and cannot therefore be interpreted as limiting the scope of the invention or the patent rights claimed in the claims.

In this detailed description, reference numerals refer to the attached figure, which schematically shows a method for controlling a central ventilation system according to the invention.

In this figure, the parts that are present in a basic embodiment are shown in solid lines and any optional elements are shown in dotted lines.

The method according to this invention applies to different types of central ventilation systems. These central ventilation systems each comprise a ventilation unit in which a central fan (3) is arranged. One or more air supply ducts and/or one or more air exhaust ducts are connected on the one hand to this ventilation unit and on the other hand to the areas of a building to be ventilated. The ventilation unit is equipped with a control unit (1) for controlling the central fan (3).

Figure 1 shows how this control unit (1) is equipped with an operating program (2) for controlling the central fan (3), with limitations depending on the applicable standards, rules and legislation per country or region (9 ) and based on installation settings (11) and any user settings (10) and based on sensor data (14).

The sensor data (14) can come from one or more sensors. These one or more sensors can be provided in the ventilation unit, installed in the central control unit (1), at the level of the central fan (3) or at the level of one or more actuators or decentrally in certain rooms of the building to be ventilated, or in a combination of these (for example centrally and decentrally).

The control unit (1) can optionally be equipped with a reading unit to read the standards, rules and legislation and the settings on the ventilation unit and/or via a network connection (11). This control unit (1) is also provided for controlling multiple control valves (131-131) or alternative flow controllers, which are provided in the various supply and/or discharge channels per channel.

A central ventilation system and its control unit (1) can be constructed and configured in a known manner.

The control unit (1) is further provided with power supply means (4) for de-energizing and re-energizing the central ventilation system. This can be done, for example, with the help of a fuse box and/or a plug/socket and/or a switch.

According to the invention, this control unit (1) is now additionally provided with a start program for controlling the central fan (3) according to an imposed test program (5). When de-energizing the central ventilation system and re-energizing this ventilation system using the power supply means (4), the control unit (1) can control the central fan (3) for a test time in accordance with this test program (5). . This test time is the time required to carry out prescribed flow measurements and can be, for example, between 15 minutes and 45 minutes. Controlling can either take place each time the central ventilation system is switched on again, or the control unit (1) can be equipped with a time module (8) for keeping time and configured using a decision module (15). When running the start program, you can check this time against a start time and an end time and only control the central fan (3) according to the test program (5) when the time between this start time and this end time is.

The control unit (1) is furthermore provided to further control the central fan (3) according to the normal operating program (2) after completing the start program.

The control unit (1) is also provided with a storage unit in which several test programs are stored and is provided with a selection unit for selecting one of the test programs as the imposed test program (5). The selection can be made based on the applicable standards, rules and legislation per country or region (9) and based on installation settings (11).

In addition, the control unit (1) can be equipped with a boost program (7), whereby the central fan (3) is controlled at maximum power and can be equipped with an activator (6) for activating this boost program (7).

A switch (6) can, for example, be provided as an activator (6) for activating this boost program (7).

The control unit (1) can be configured with the aid of a corresponding decision module (16) to control the central fan (3) according to the boost program (7) when the switch (6) is switched on and when the switch is switched off. (6) end this boot program (7) and continue controlling the central fan (3) according to the normal operating program (2).

The switch (6) can, for example, be installed in a kitchen to use the central ventilation system as a cooker hood when the boost program (7) is switched on.

Claims (7)

CONCLUSIONS 1. Method for controlling a central ventilation system for carrying out flow measurements, the central ventilation system comprising: - a ventilation unit; - a central fan (3), which is installed in the ventilation unit; - multiple ducts connected to the ventilation unit for supplying and/or extracting air to and/or from the ventilation unit using the central fan (3); - a control unit (1) for controlling the central fan (3); whereby a test program (5) imposed depending on standards, rules and legislation is determined and where the central fan (3) is first controlled according to a normal operating program (2), then the flow measurements are carried out according to the imposed test program (5) is controlled and then controlled again according to the normal operating program (2); characterized in that the control unit (1) is provided with a storage unit in which a plurality of test programs are stored and is provided with a selection unit for selecting one of the test programs as said imposed test program (5), which is the particular imposed test program (5) is selected with the selection unit and the central ventilation system is de-energized and energized again, so that the control unit (1) runs through a start program, during which the central fan (3) is operated for a test time according to the prescribed test program (5) is run to carry out the flow measurements and, at the end of the start program, controls the central fan (3) again according to the normal operating program (2). 2. Central ventilation system, including: — a ventilation unit; - a central fan (3), which is installed in the ventilation unit; - multiple ducts connected to the ventilation unit for supplying and/or extracting air to and/or from the ventilation unit using the central fan (3); - a control unit (1) for controlling the central fan (3); characterized in that the control unit (1) is provided with power supply means (4) for de-energizing and re-energizing the central ventilation system, is provided with a storage unit in which several test programs are stored, and is provided with a selection unit for selecting one of the test programs as a test program (5) imposed depending on standards, rules and legislation and provided with a normal operating program (2) and a start program, in order to go through a method according to claim 1. 3. Central ventilation system according to claim 2, characterized in that the control unit (1) is provided with a time module (8) for keeping time and is provided to operate the central fan (3) only according to the start program. to control the test program (5) when the time is between a start time and an end time. Central ventilation system according to one of claims 2 to 3, characterized in that the control unit (1) is provided with a reading unit for reading user settings (10) and/or installation settings (11) and that the control unit (1) is provided for controlling the central fan (3) based on these settings (10, 11). Central ventilation system according to one of claims 2 to 4, characterized in that the control unit (1) is provided with a boost program (7), whereby the central fan (3) is controlled at maximum power and is provided with a activator (6) for activating this boost program (7). 6. Computer program product, consisting of computer-readable code, which, when executed on a control unit (1) of a central ventilation system according to any one of claims 2 to 5, results in the central ventilation system being controlled is carried out according to a method according to claim 1. 7. Non-volatile machine-readable storage medium on which a computer program product according to claim 6 is stored.