BE1018550A3 - IMPROVED METHOD FOR CONDITIONING A SPACE AND AN APPARATUS APPLIED. - Google Patents

Abstract

Improved method for conditioning a room by means of one or more ventilation systems (1) and / or one or more heating systems (2) and / or one or more cooling systems (3), of which at least one of the above systems is controlled by a controller (5), characterized in that the CO2 content and / or the relative humidity and / or the temperature is measured in the room to be conditioned (4) and that the controller (5) takes the CO2 into account when controlling the aforementioned systems. content and / or relative humidity, whether or not in combination with the temperature in the room to be conditioned (4).

Description

Improved method for conditioning a room and an associated device.

The present invention relates to a method for conditioning a space.

More specifically, the invention relates to a method for conditioning a room that uses one or more ventilation systems, heating systems, cooling systems and a controller that controls said systems.

It is known that living comfort within a home, building or the like is strongly determined by the quality of the air in the home or building in question.

In addition, it is important to keep the temperature and moisture content of the air within certain limits in order to ensure optimum living and / or working comfort.

Modern homes are becoming increasingly better insulated. In this way, thicker insulation is placed against the walls and ceilings, and cracks and the like are eliminated.

The above implies that the 12 to 14 liters of water vapor that an average family produces through showering, cooking, sweating and the like can no longer be disposed of in a responsible manner.

Also in meeting rooms and conference rooms where many people are present, a considerable amount of moisture and heat is produced, which is preferably removed by a suitable ventilation system.

It is clear that a well-insulated room should have a high-performance ventilation system.

Standards prescribe the extent to which fresh air must be supplied and contaminated air must be removed. Typically, the standard prescribes the number of cubic meters of air that must be supplied and removed per hour per square meter of ground surface of the home, building or the like.

Existing methods of ventilation are based on the aforementioned standards, which means that such methods supply and extract a volume of air that is directly proportional to the ground surface of the room concerned.

A disadvantage of the known methods for ventilation consists in that a large volume of air must be supplied and discharged in case a large room is ventilated, and this independently of, for example, the number of persons present in the room or of the activities that are carried out in this room. space.

It is clear that energy consumption is corresponding.

An additional disadvantage is that one is confronted with a large heat loss, even if the heat from the discharged air is used to pre-heat the supplied air.

The present invention has for its object to provide a solution to the aforementioned and / or other disadvantages in that it provides an improved method for conditioning a space by means of one or more ventilation systems and / or one or more heating systems and / or one or several cooling systems, of which at least one of the aforementioned systems is controlled by a controller, wherein the CO2 content and / or the relative humidity content and / or the temperature is measured in the room to be conditioned and where the controller takes into account the control of said systems with the CO2 content and / or the relative humidity content, whether or not in combination with the temperature in the room to be conditioned.

An advantage of a method according to the invention is that the CO2 content and / or the relative humidity content and / or the temperature of the room to be conditioned is taken into account to control the aforementioned systems, so that the control will take into account, for example, the number of people present in the room as they develop moisture and CO2 or with the activities in the room that generate moisture and / or CO2, such as during cooking.

An advantage associated with this is that less energy will be used since the aforementioned systems will only be switched on for a suitable period of time and will be switched off in the meantime or will be controlled by a lower energy-saving regime.

According to a preferred feature of the invention, the controller controls the ventilation system as a function of the measured CO2 content in such a way that when the CO2 content rises above a characteristic value, the flow rate of the ventilation system is increased.

An advantage here is that the ventilation system is only switched on when this is necessary or in other words when the CO2 value in the room concerned rises too high. This is in contrast to the known ventilation method that works on the basis of the standards set out in the introduction.

It is clear that this can save energy.

According to another preferred feature of the invention, the controller controls the ventilation system as a function of the measured relative humidity content in such a way that when the relative humidity content rises above a characteristic value, the flow rate of the ventilation system is increased.

An advantage of controlling the ventilation system on the basis of the relative humidity in the room to be ventilated is that, on the one hand, the ventilation system only works if this is deemed necessary, which can save on energy and, on the other hand, that the measurement of the relative humidity relatively cheap.

According to yet another preferred feature of the invention, the controller has a control algorithm in which the controller controls the flow of the ventilation system on the basis of the CO2 content and / or the relative humidity content and one or more characteristic curves with an additional characteristic that said curves adjustable in the controller.

An advantage here is that the ventilation system can be controlled more accurately, more efficiently and on the basis of recent data in the form of characteristic curves.

The invention also relates to an improved device for conditioning a space that essentially consists of one or more ventilation systems and / or one or more heating systems and / or one or more cooling systems and a controller for controlling at least one of the aforementioned systems, wherein the controller is connected to a CO2 meter and / or a relative humidity meter and / or a temperature meter for respectively measuring the CO2 level, the relative humidity level and the temperature in the room to be conditioned and wherein the controller uses this CO2 content and / or relative humidity content, whether or not in combination with the temperature, for controlling one or more of the aforementioned systems.

According to a preferred embodiment, the controller, the systems and the meters form an integral part of a home automation system.

The advantages coupled to a device according to the invention are identical to the advantages discussed above that a method according to the invention offers.

An additional advantage that the aforementioned preferred embodiment offers is that the regulation of ventilation, cooling and heating can take place within one and the same system, in particular the home automation system.

With the insight to better demonstrate the characteristics of the invention, a preferred method according to the invention and a device used therein is described below as an example without any limiting character, with reference to the accompanying drawings, in which: figure 1 shows diagrammatically and in detail: perspective view of a method according to the invention; Figure 2 shows schematically and in perspective an embodiment of an improved device according to the invention.

The method according to the invention, in this case, as shown in Figure 1, uses a ventilation system 1, a heating system 2 and a cooling system 3, which systems are arranged within a space 4 and are controlled by a controller 5.

A space CO2 meter 6 and a relative humidity meter 7 are also arranged in the space e 4, both of which are connected to the controller 5.

The method according to the invention is characterized in that it uses the CO2 content and / or the relative humidity content, whether or not in combination with the temperature in the space 4, to control said systems on the basis thereof for the purpose of controlling the space 4 condition.

According to a preferred characteristic, the controller 5 controls the ventilation system 1 as a function of the CO2 content or the relative humidity in the room 4, and in such a way that when the CO2 content or the relative humidity content respectively exceeds a characteristic value, the flow rate from the . ventilation system 1 is raised.

In comparison with the existing ventilation methods, the method according to the invention offers the advantage that the activity of the ventilation system 1 can be increased when this is necessary or in other words when the CO2 content or the relative humidity content in the space 4 exceeds a maximum permissible characteristic value.

According to another preferred characteristic, the controller 5 has a control algorithm in which the controller 5, on the one hand, based on the CO2 content or the relative humidity content in the space 4 and, on the other hand, on the basis of one or more characteristic curves controls ventilation system 1.

By equipping the controller 5 with a control algorithm, the space 4 can be conditioned more accurately and efficiently.

The aforementioned characteristic values and curves can be set in the controller 5 so that the controller 5, at any time, performs the control on the basis of recent data. The aforementioned characteristic values can, for example, be transmitted and adjusted remotely via a rotary knob or the like to the controller.

Figure 2 shows schematically a house 8 that is equipped with a device according to the invention. The device in this case essentially consists of a ventilation system 9, a heating system 10, a relative humidity meter 11, a temperature meter 12 and a controller 13, the latter being connected to the power supply network 15 via a transformer 14.

The ventilation system 9 is provided with a supply and discharge conduit 16, 17 for respectively supplying fresh air and discharging contaminated air.

According to a preferred feature of the invention, the controller 13, the systems 9, 10 and the meters 11, 12 form an integral part of a home automation system.

The core of said home automation system consists of the controller 13 which is connected via a bus system 18 to the ventilation system 9, the heating system 10 and both meters 11, 12, wherein the bus system 18, according to a preferred feature of the invention, consists of two wires 19 .

The ventilation system 9, the heating system 10 and the meters 11, 12 are each separately connected in parallel to the aforementioned bus system 18.

The operation of the device is very simple and as follows.

The relative humidity level prevailing in the home is measured by the relative humidity meter 11, said meter continuously or periodically registering relative humidity values.

The relative humidity meter 11 then forwards the current measured value via the bus system 18 to the controller 13.

The controller 13 compares said instantaneous value with the maximum allowable value of the relative humidity in the home 8.

As soon as the measured value in the home 8 exceeds the aforementioned maximum allowable value, also called characteristic value, the controller 13 will increase the flow rate of the ventilation system 9.

The flow rate of the ventilation system 9 is therefore not constant, but can be increased if necessary. This offers the advantage that the system does not have to continuously supply and remove a large flow of air into the home 8. It is clear that this can save energy.

According to a preferred embodiment, the controller 13 has a control algorithm in which the controller 13 controls the flow rate of the ventilation system 9 on the one hand and one or more characteristic curves on the basis of measured relative humidity values.

In this way, the controller 13 can perform a more optimum control of the flow rate of the ventilation system 9.

The controller 13 can thus activate the ventilation system 9 as soon as the measured relative humidity value in the home 8 exceeds a certain limit. As the relative humidity level increases, the controller 13 will suitably increase the flow rate of the ventilation system 9.

As soon as the measured value falls below a certain limit, the controller 13 will switch off the ventilation system 9.

According to a preferred embodiment, the aforementioned characteristic curves can be set in the controller 13.

The home automation system is in this case also equipped with a heating system 10 for heating the house 8. On the basis of a temperature measurement, the controller 13 controls said heating system 10.

The controller 13, the ventilation system 9 and the meters 11, 12 form an integral part of the home automation system. In other words, the controller 13 has different data data available at any time, on the basis of which the controller 13 appropriately controls the ventilation system 9 and / or the heating system 10.

The controller 13 can thus control the flow rate of the ventilation system 9 on the basis of measured relative humidity values in combination with measured temperature values in the room 8.

In this way a device is obtained for conditioning a space 8 which, on the one hand, excels in its simplicity and, on the other hand, creates an excellent living environment in the home 8.

According to a preferred embodiment, communication not only takes place over the bus system 18 but said bus system 18 is also responsible for supplying the ventilation system 9, heating system 10 and meters 11, 12. In particular, the bus system feeds for example various control modules of the ventilation system 9 and / or the heating system 10.

The present invention is by no means limited to the embodiments described as examples and shown in the figures, but an improved method for conditioning a space and a device used therewith can be realized in all shapes and sizes without departing from the scope of the invention .

Claims (14)

An improved method for conditioning a room by means of one or more ventilation systems (1) and / or one or more heating systems (2) and / or one or more cooling systems (3), at least one of the aforementioned systems being controlled by a controller (5), characterized in that the CO2 content and / or the relative humidity content and / or the temperature is measured in the room to be conditioned (4) and that the controller (5) takes into account the above-mentioned systems when controlling the CO2 content and / or the relative humidity content, whether or not in combination with the temperature in the room to be conditioned (4). Improved method according to claim 1, characterized in that the controller (5) controls the ventilation system (1) as a function of the measured CO2 content, in such a way that when the CO2 content rises above a characteristic value, the flow rate of the ventilation system (1) is increased. The improved method according to claim 1, characterized in that the controller (5) controls the ventilation system (1) as a function of the measured relative humidity, such that when the relative humidity rises above a characteristic value, the flow rate of the ventilation system ( 1) is increased. Improved method according to claims 2 or 3, characterized in that said characteristic value is adjustable in the controller (5). Improved method according to claim 1, characterized in that the controller (5) has a control algorithm in which the controller (5) based on the CO2 content and / or the relative humidity content and one or more characteristic curves controls the flow rate of the ventilation system (1) controls. Improved method according to claim 5, characterized in that said characteristic curves are adjustable in the controller (5). 7. Improved device for conditioning a space consisting essentially of one or more ventilation systems (9) and / or one or more heating systems (10) and / or one or more cooling systems and of a controller (13) for controlling at least one of the aforementioned systems, characterized in that the controller (13) is connected to a CO2 meter and / or a relative humidity meter (11) and / or a temperature meter for measuring the CO2 content, the relative humidity content, respectively and the temperature in the room to be conditioned (8) and wherein the controller (13) uses this CO2 content and / or relative humidity content, whether or not in combination with the temperature, for controlling one or more of the aforementioned systems. Improved device according to claim 7, characterized in that the controller (13) controls the ventilation system (9) as a function of the measured CO2 content, in such a way that when the CO2 content rises above a characteristic value, the flow rate of the ventilation system (9) is increased. Improved device according to claim 7, characterized in that the controller (13) controls the ventilation system (9) as a function of the measured relative humidity level, in such a way that when the relative humidity level rises above a characteristic value, the flow rate of the ventilation system (9) ) is increased. The improved device according to claim 7, characterized in that the controller (13) is provided with a control algorithm wherein the controller (13) is based on the measured CO2 content and / or the measured relative humidity content and one or more characteristic curves, controls the flow rate of the ventilation system (9). The improved device according to claim 10, characterized in that said characteristic curves can be set in the controller (13). Improved device according to one of claims 7 to 11, characterized in that the controller (13) controls the systems. (9, 10) and the meters (11, 12) form an integral part of a home automation system. Improved device according to one of claims 7 to 12, characterized in that the coupling between the controller (13) and the aforementioned systems and meters is effected by means of a bus system (18) consisting of two wires (19). Device according to claim 13, characterized in that the bus (18) is responsible for supplying the systems (9, 10) and the meters (11, 12).