NL1005147C2 - Building. - Google Patents

Abstract

The invention relates to a building comprising rising walls and a roof, wherein the roof as well as at least one of the walls is provided with one or more air grates of the passive kind, and wherein adjustment means are provided for the control of the air grates, which control depends on the input data or measurements for the adjustment of the air ventilation through the air grates. The setting of each of the air grates depends on an air pressure distribution measured around and above the building. <IMAGE>

Description

Building

The invention relates to a building comprising upright walls and a roof, in which at least one ventilation grille is included, and which is provided with control means for controlling the ventilation grille depending on input data or measurements for controlling the air ventilation through the ventilation grille.

Dutch patent application 8601406 discloses a system for regulating the air ventilation in a room, in which use is made of a thermometer 10 which measures the outside ambient temperature, as well as a moisture meter for measuring the relative humidity in the room in question, wherein depending on this relative humidity and the outside temperature, the air ventilation in the room can be set.

Dutch patent application 9500205 discloses a system for automatically controlling the position of a ventilation grille, wherein the flow rate passing through the grille is made independent of the wind speed along the facade of a building in which this grille is placed.

In general, a mechanical system for the ventilation of that building is used for the ventilation of a building of the type described in the preamble, because such a system is easy to control and causes few draft problems. The disadvantage of such a mechanical ventilation system is the price, both in terms of purchase and maintenance, the energy consumption, and the sound production.

The object of the invention is to provide a building with a ventilation system that is free from these drawbacks.

This is achieved with the building according to the invention in that both the roof and at least one of the walls are provided with one or more ventilation grids which are of the passive type and are arranged with openings that can be controlled by the control means in position. In this way, a natural ventilation system is provided which, although based on the prevailing climatic conditions inside and outside the building and varying from moment to moment, is nevertheless controllable on a constant or adjustable ventilation -lation need.

After years of research in collaboration with the Dutch organization for Applied Scientific Research TNO and supported by the Dutch Organization for Energy and Environment NOVEM, the applicant has succeeded in making this system of natural ventilation adjustable so that the building has a manageable climate without the draft problems associated with 10 known natural ventilation systems.

It is desirable that the building is equipped with a ventilation system according to the invention, wherein the position of each of the ventilation grids depends on an air pressure distribution around and above the building determined by the control means.

For this purpose it is useful that for determining the air pressure distribution by the control means, these control means have data relating to the wind direction, the wind speed and preferably also characterizing data about the building and the surroundings of the building. The necessary data can be entered for this purpose, for example via an input device, but it is preferred to connect first sensors to the control means, with which at least the air pressure can be measured at strategic locations around and above the building.

Furthermore, the building should preferably be equipped with a ventilation system, such that the position of each of the ventilation grids depends on a temperature gradient in the building determined by the 30 control means, which serves as a measure for the thermals in the building.

The speed of the rising air, or the thermals, can be obtained by calculation, but it is preferred that second sensors are connected to the control means for measuring the rate of rise of the air flow in the building.

A preferred embodiment of the building according to the invention is characterized in that the position of each ventilation grille is set such that the flow rate of each ventilation grille remains below an adjustable or fixed value. This ensures that any draft sensation experienced by those present in the building is avoided.

In case such a draft sensation is nevertheless observed, the building is arranged in such a way that the position of selected ventilation grids is adjusted so that the air flows passing through these ventilation grids have an amplified upwardly directed velocity component, and that the position of unselected ventilation grids is thus adjusted. set to meet the ventilation requirement in the building. This can play a role in particular if the supplied outside air has a relatively low temperature, or if the air pressure on a certain side of the building is so high that the air speeds in the building are likely to become too high.

The so-called throw of the supplied air is changed with the provision just mentioned. This air is introduced into the relevant space in such a way that it is possible to heat it up before the persons present in the building are exposed to this freshly introduced air.

The draft sensation is thereby combated.

It is further desirable that the control means close each ventilation grille placed in the roof upon precipitation, and that the other ventilation grids are adjusted in such a way that the ventilation requirement in the building is met. In this way it is prevented that damage to the ventilation system or the building is caused by precipitation entering the building. The closed ventilation grids 30 naturally mean that the ventilation profile of the building changes, as a result of which the other ventilation grids need adjustment in order to maintain the ventilation requirement in the building.

The invention will now be further elucidated with reference to a diagram in which a number of important relations between input data and output data of the system according to the invention are shown.

The diagram shown comprises five columns in which the data and measurements used by the ventilation system 1005147 4 according to the invention are respectively specified, the calculations performed by the control means of the ventilation system, the input data processed by the control means, that is, the natural ventilation controller, the natural ventilation controller itself, and finally the output data of the natural ventilation controller.

The net passage of the applied ventilation grids, or also referred to as fans, should serve as a design detail or boundary condition within which the natural ventilation control system according to the invention should function. Within the scope of the invention, fans do not include the active type, that is, the type provided with electrically driven fan motors; the invention only relates to an embodiment with passive-type ventilation grids, ie without external power supply.

Further data that are important for the ventilation system are the wind direction, the wind speed, and the building and the environment typical characteristics. Based on these data just mentioned, a current pressure distribution on the building envelope is determined. Building envelope is understood to mean the outer perimeter of the building, including the walls and the roof. Other important data are the so-called indoor temperature high and the indoor temperature low.

25 These are the temperatures in the building in a relatively high place and a relatively low place. Based on these data, the rate of rise of the air in the building, or the thermals, as well as an average temperature present in the building is determined. Also important is the placement or distribution of the ventilation grids in the roof and the outer walls, the outside temperature, and whether or not precipitation is present. The natural ventilation regulator determines, based on the pressure distribution on the building envelope and the rate of increase of the air in the building, the placement and distribution of the fans over the roof and the walls, respectively, and the ventilation requirement set by the users of the building, the settings of the fans, ie the current flow resistance at any time. This setting of the fans also serves as input since 1005147 5 determines the total air inflow, and thus the degree of natural ventilation, in connection with the pressure distribution on the building envelope. The fans are set so that the flow rate of each ventilation grille below 5 remains an adjustable or fixed value. This depends on a set draft correction, the average indoor temperature, the outside temperature, the current settings of the ventilation grids, the wind speed and wind direction, and as an uncontrollable variable the distance between those present in the 10 building. Adjusting a ventilation grille in such a way that said flow rate remains below the adjustable or fixed value results in the natural ventilation controller adjusting the other ventilation grilles in such a way that the set ventilation requirements in the building are still met.

With the draft correction that is set, the position of selected ventilation grids can be adjusted so that the air flows passing through these ventilation grids have an amplified upwardly directed velocity component, 20 and the position of unselected ventilation grids can be adjusted to meet the ventilation requirement in the building. . On the basis of any measured precipitation, the natural ventilation controller intervenes in such a way that each ventilation grille placed in the roof is closed, and in that case the other ventilation grids are set in such a way that the set ventilation requirement in the building is met.

The ventilation system of the building according to the invention can further optionally be extended with devices for heating or cooling the building, taking into account the composition of the air and the concentration distribution of gases present in the building. and the humidity.

It is clear to the skilled person that within the scope of the invention, as specified in the following claims, various embodiments are further conceivable, all of which are within the scope of the following claims.

1005147

Claims (9)

Building comprising upright walls and a roof, in which at least one ventilation grille is included, and which is provided with control means for controlling the ventilation grille depending on input data or measurements for controlling the air ventilation through the ventilation grille, with the characterized in that both the roof and at least one of the walls are provided with one or more ventilation grids which are of the passive type and are fitted with openings that can be controlled in position by the control means. Building according to claim 1, characterized in that the position of each of the ventilation grids depends on an air pressure distribution around and above the building determined by the control means. 3. Building as claimed in claim 2, characterized in that for determining the air pressure distribution by the control means, these control means have data relating to the wind direction, the wind speed and preferably also characterize the building and the environment of the building data. Building according to claim 2 or 3, characterized in that first sensors are connected to the control means for measuring the air pressure. 5. Building as claimed in any of the claims 1-4, characterized in that the position of each of the ventilation grids 25 depends on a temperature gradient in the building determined by the control means, which serves as a measure for the thermals in the building. 6. Building according to claim 5, characterized in that second sensors are connected to the control means for measuring the rate of rise of the air flow in the building. Building according to any one of the preceding claims, characterized in that the position of each ventilation grille is set such that the flow rate of each ventilation grille remains below an adjustable or fixed value. Building according to any one of the preceding claims, characterized in that the position of selected ventilation grids is adjusted so that the air flows passing through these ventilation grids have a reinforced upward directed speed component, and in that the position of unselected ventilation grids it is set that the ventilation requirement in the building is met. 9. Building as claimed in any of the claims 1-8, characterized in that the control means control each ventilation grille placed in the roof close to precipitation, and the other ventilation grids are adjusted in such a way that the ventilation requirement in the building is met. 1005147