NL1017867C2 - Air vent for ventilating indoor spaces with outside air, includes sensor for opening or closing ventilation channel depending on difference in inside and outside air pressure - Google Patents

Abstract

The flow of air from the inside to the outside (B) is prevented with the aid of a sensor which monitors the air pressure differential between the inside and outside. The sensor closes the ventilation channel (3) if the air pressure inside is greater than the air pressure outside and opens the channel if the reverse is the case. The air vent (1) comprises a casing (2) containing a ventilation channel connecting the inside and outside. The channel is provided with a closure device (5). An Independent claim is also included for a sensor casing containing the above sensor.

Description

Brief indication: Ventilation device with closing device.

The present invention relates to a ventilation device which can be placed in a wall, in particular a facade, of a building for ventilating an inner space of the building with air from outside comprising a ventilation duct connecting the outer space to the inner space, wherein the ventilation device further comprises a closing member and means for preventing an air flow from the inner space to the outer space.

Such ventilation devices are used to provide rooms in a building with fresh air. The passage capacity of the ventilation devices with a certain standard air pressure difference between the inner space and the outer space is usually prescribed. The supply of too much fresh air from the outer space to the inner space has the disadvantage that in the case that the temperature of the outer air is lower than that of the air in the inner space, the inner space is unnecessarily cooled. This is undesirable from an energy point of view. In order to prevent the supply of fresh cold air to the interior space too much, a ventilation device is proposed in NL 9002826, wherein a self-regulating valve is provided in the ventilation duct, with which the amount of air flowing through the ventilation device within a certain pressure range is provided independently. of the air pressure difference between the inner space and the outer space is kept substantially constant.

However, it also happens that the air pressure in the inner space is higher than the air pressure in the outer space. As a result, air flows through the ventilation duct from the inner space to the outer space. If the air in the interior space is heated by a heating system, it is undesirable for the heated air to flow out. A ventilation device the ventilation channel of which can be closed off to prevent the air from flowing from the inner space to the outer space is disclosed in NL 1001340. In this ventilation device a direction-sensitive air flow speed sensor is placed in the ventilation channel. When an air flow from the inner space to the outer space is observed in the ventilation duct, the ventilation duct is closed off with the closing member.

A drawback of this known device is that the difference in air pressure between the inner space and the outer space cannot be observed when the ventilation duct is closed. The proposed sensor is therefore not immediately able to determine when the air would again flow from the outside space to the inside space.

As a solution for this, it is proposed in NL 9002826 to periodically open the ventilation duct, once it has been closed, to observe whether the direction of the air flow through the ventilation duct has been reversed. If the direction is not reversed, the ventilation duct is closed again. To determine the period, a choice must be made between, on the one hand, keeping the ventilation duct closed for an unnecessarily long time and, on the other hand, very regularly opening the closed ventilation duct briefly, which has as a consequence that the moving parts of the closing member wear out more quickly and air flows from the inside to the outside. Moreover, periodically opening and closing the closing member produces unwanted noises.

The object of the invention is to provide an improved ventilation device with which it is unnecessary to open the ventilation duct, if it is closed as a result of an observation of an air flow from the inner space to the outer space, to determine whether the direction of the air flow is reversed.

This object is achieved with a ventilation device according to the preamble of claim 1, the means of which, in order to prevent an air flow from the inner space to the outer space, comprising a sensor which is adapted to operate both when the ventilation duct is closed and when the ventilation duct is closed. is open, to observe the air pressure difference between the inner space and the outer space in order to close the ventilation duct if the pressure in the inner space is higher than the pressure in the outer space and to open if the pressure in the inner space is lower than the pressure in the inner space outdoor space.

The sensor is preferably arranged outside the ventilation duct.

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In an alternative embodiment, a very small opening can be provided in the closing member or the closing member can be designed such that, in the closed position, it does not just completely close off the ventilation duct.

In a further preferred embodiment the sensor is arranged in an open channel separate from the ventilation duct, which connects the inner space to the outer space. Air can also flow through such an open channel if the ventilation channel itself is closed. It is advantageous to keep the diameter of the open channel as small as possible, so that not much hot air flows out through the open channel. The sensor in the open channel can be a mechanical part which, as a result of the movement of the part caused by the air flow, controls the closing member. An electronic air flow direction sensor may also be provided in the open channel.

In another preferred embodiment, the air pressure difference is determined by means of two pressure sensors or a pressure difference sensor.

Further advantageous embodiments of the ventilation device according to the invention are explained in more detail below with reference to the drawing. Herein: figure 1 shows a schematic cross-section of a ventilation housing with a ventilation channel provided with a self-regulating valve and a closing member, figure 2 shows a perspective view of a ventilation device according to the invention, and figure 3-6 four embodiment variants of sensors for direct or indirectly observing the air pressure difference between the inner space and the outer space.

Figure 1 shows a ventilation device, indicated in its entirety by the reference numeral 1. The ventilation device 1 comprises a ventilation housing 2, in which the ventilation duct 3 is situated, which the inner space, indicated in Figure 1 by 'inside', connects to the outside space, indicated in figure 1 as 'outside'. Such a ventilation device 1 is arranged in the wall of a building, in particular in a facade of, for example, a house or an office building, to transport fresh air from the outside space to the inside space. The outside space will usually be the outside air, but can also be any other room in which there is fresh air, such as an atrium or a corridor.

The amount of fresh air that has to flow from a outside space to the inside space (Direction A) at a certain standard air pressure difference per unit of time is usually prescribed by building standards. An excess of fresh air will, in case the interior space is heated, cool the air in the interior space. To prevent an excessive amount of fresh air from flowing into the interior, a self-regulating valve 4 is provided in the ventilation duct. This self-regulating 4 valve controls the amount of air flowing through the ventilation duct 3 in the direction A and keeps this amount substantially constant over a certain air pressure difference range across the wall. Such a self-regulating valve 4 is known from the prior art, e.g. NL 9002826, and will therefore not be further discussed here.

If the air pressure inside is higher than outside, an air flow will flow from inside to outside (direction B). Because such 'leaking' of warm air is undesirable, a closing member 5 is furthermore provided, with which the ventilation duct 3 can be closed off. The closed position is shown in Figure 1 with a dotted line.

Figure 2 shows a ventilation device 1 according to the invention. The ventilation housing 2 can for instance be the same as shown in figure 1. Another ventilation housing can also be provided. The ventilation housing 2, for example, cannot comprise a self-regulating valve 3 or another valve with which the supply of fresh air can be controlled. Disposed next to the ventilation housing 2 is a separate sensor housing 6 separate from the ventilation housing, in which is located the sensor 7 which can detect the difference in air pressure between the inner space and the outer space. The sensor housing 6 can also be placed in a position other than directly next to the ventilation housing 2.

In the sensor housing 6 shown, an open channel 8 is arranged which connects the inner space to the outer space. Even if the ventilation channel 2 is closed by the closing member 5, the sensor 7 placed in the open channel 8 will be able to detect the difference in air pressure between the inner space and the outer space.

An advantage of using a sensor housing 6 is that it can be used in combination with ventilation housings 2 of different lengths. Another advantage is that if the sensor 7 or the other components, if any, are housed in the sensor housing 6, such as, for example, the drive for the closing member 5, only the sensor housing 6 and not the entire ventilation device 1 to be replaced. The sensor 7 and the other parts accommodated in the sensor housing 6 can also be accommodated in the ventilation housing 2 itself. The sensor housing 6 shown in Figure 2 has substantially the same depth and height as the ventilation housing 2, so that they can easily be installed together in a wall or frame.

Figure 3 shows an open channel 8, which connects the inner space with the outer space. The open channel 8 can be arranged in the sensor housing 6 or the ventilation housing 2. In the open channel 8 there is arranged a paddle wheel 9 which is rotatable about the axis 10. The paddle wheel 9 can, as a result of an air flow through the open channel 20 start turning. With the aid of this rotating movement of the blade wheel 9, the closing member 5 can be driven via a mechanical transmission. When the impeller 9 rotates in one direction, the closing member 5 will close the ventilation duct 3. If the impeller 9 rotates in the opposite direction 25, the ventilation duct 3 will be opened correctly. In order to be able to develop sufficient force for moving the closing member 5, the open channel 8 will have to be designed with a relatively large cross-section. However, this need not have an adverse effect on the loss of hot air through the open channel, since the paddle wheel 9 can be arranged such that it only rotates during the opening or closing of the ventilation channel. If the closing member 5 is fully opened or closed, the paddle wheel 9 will then remain stationary.

Figure 4 shows another embodiment of the ventilation device according to the invention. An electronic airflow direction sensor 11 is provided in the open channel 8. With this sensor 11 the direction of an air flow through the open channel 8 can be determined. On the basis of the output signal from the sensor 11 - 6 - the ventilation channel 3 is closed or opened. The closing member 5 is, for closing and opening the ventilation duct 3, possibly driven by a transmission by an electric motor.

Figure 5 shows a third embodiment of a sensor that can be used in a ventilation device according to the invention. In this embodiment the air pressure difference between the outer space and the inner space is determined by means of two pressure sensor elements 12, 13, the first of which measures the pressure in the inner space and the second the pressure in the outer space. So there is no open channel that connects the inner space with the outer space. An electric motor is driven with an electronic circuit 14, which optionally brings the closing member 5 into the correct position via a transmission.

Figure 6 shows a fourth embodiment, in which an air pressure difference sensor 15 is used to detect the air pressure difference between the inner space and the outer space. The differential pressure sensor 15 is arranged such that the sensor is in contact with the outer space and with the inner space. In this embodiment there is no airflow from the inside to the outside when the ventilation duct is closed. On the basis of the output signal of the differential pressure sensor 15, the ventilation channel 3 is opened or closed, for example, via an electronic circuit.

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Claims (17)

1. Ventilation device which can be placed in a wall, in particular a facade, of a building for ventilating an inner space of the building with air from outside, comprising a ventilation housing in which there is a ventilation duct connecting the outer space to the inner space, wherein the ventilation device further comprises a closing member with which the ventilation duct can be closed off, and means for preventing an air flow from the inner space to the outer space, characterized in that the means for preventing an air flow from the inner space to the outer space , comprising a sensor adapted to detect the air pressure difference between the inner space and the outer space both when the ventilation channel is closed and when the ventilation channel is open in order to close the ventilation channel if the pressure in the inner space is higher than the pressure in the outside space and can be opened if the pressure in the inside space is lower then the pressure in the outside space. 20 Ventilation device according to claim 1, characterized in that the sensor is arranged outside the ventilation channel. 3. Ventilation device as claimed in claim 1 or 2, characterized in that the sensor is arranged in an open channel separate from the ventilation channel, which connects the inner space to the outer space. 4. Ventilation device as claimed in claim 3, characterized in that the sensor comprises a movable mechanical part which is placed in the open channel, wherein a movement of the part is caused by the air pressure difference and on the basis of the movement the ventilation channel is opened or closed. Ventilation device according to claim 4, characterized in that a mechanical transmission is arranged between the mechanical part and the closing member. - 8 - Ventilation device according to claim 4 or 5, characterized in that the mechanical part comprises a paddle wheel or the like. Ventilation device as claimed in any of the claims 1-3, characterized in that the sensor is an electronic air flow direction sensor. 8. Ventilation device as claimed in claim 1 or 2, characterized in that the sensor comprises a first pressure sensor element and a second pressure sensor element, wherein the first pressure sensor element measures the pressure in the inner space and the second pressure sensor element measures the pressure in the outer space. Ventilation device as claimed in claim 2, characterized in that the sensor is an air pressure difference sensor which is arranged in a further closed connecting channel between the inner space and the outer space. 10. Ventilation device as claimed in one or more of the foregoing claims, characterized in that the sensor is arranged in a sensor housing distinct from the ventilation housing. 11. Ventilation device as claimed in claim 10, characterized in that the height and the depth of the sensor housing substantially correspond to the height and the depth of the ventilation housing, so that the sensor housing and ventilation housing can be mutually aligned against each other mounted. 12. Ventilation device as claimed in claim 10 or 11, characterized in that control means are provided in the sensor housing for controlling the closing member. 13. Ventilation device according to the preceding claim, characterized in that the control means comprise an electric drive which can drive the closing member by means of a mechanical transmission which connects the sensor housing to the ventilation housing. - 9 - 14. Ventilation device as claimed in one or more of the foregoing claims, characterized in that a self-regulating valve is furthermore arranged in the ventilation duct which, in the case the air flows from the outer space to the inner space, the amount of air which unit of time flows in. 15. Sensor housing which can be placed in a wall, in particular a facade, of a building for driving a closing member located in a ventilation channel 10 connecting an outer space with an inner space, which sensor housing is provided with at least one sensor for continuously observing the air pressure difference between the inner space and the outer space. 16. Sensor housing as claimed in claim 15, characterized in that the sensor housing further comprises control means, which can be coupled to the closing member, for controlling the closing member. 17. Sensor housing as claimed in claim 15 or 16, characterized in that the depth and the height of the sensor housing substantially correspond to the depth and height of a ventilation housing.