BE1016642A3 - VENTILATION DEVICE. - Google Patents

Abstract

Induction device, comprising: an air collection chamber provided with an air inlet; which air collecting chamber comprises a wall with at least one air outlet arranged therein with an outflow opening for generating a ventilating air flow, and which air outlet is provided with a closing valve for at least partially covering the outflow opening for regulating the air outflow. According to the invention, the closing valve comprises a magnetic strip element accommodated in the air collecting chamber for providing an airtight seal between the closing valve and the outflow opening. This provides a cheap and efficient termination.

Description

Title: Ventilation device

The invention relates to an induction device, comprising: an air collection chamber provided with an air inlet and at least one air outlet for generating a ventilation air flow; which air outlet is provided with a shut-off valve for at least partially covering an outflow opening for regulating the ventilation air flow.

Such devices are, as is known, used to provide ventilation in buildings and spaces where there is a need for ventilation, for example, in office spaces, etc. The known devices have a standard dimensioning which connects to modular dimensions customary in the construction industry, whereby to install such a device per module, for example, per 1.8 meter. This then corresponds to a predetermined ventilation requirement per module with normal use of the room.

It happens, however, that when designing a building it must be taken into account that a room will be used more intensively, for example as a meeting room or the like, whereby the need for ventilation will increase. This is difficult for the construction of the induction devices.

On the one hand, there is a need to be able to provide an increased ventilation requirement with the same device, to avoid having to use complicating additional models, and to maintain flexibility in the later redesign of the room. On the other hand, it has been found that the known devices do not appear to be easily variably adjustable because undesired noise such as whistling is easily produced when closing outflow openings, partly due to the outflow rates and pressures applied in the ventilation device, in particular when induction devices are used. It is to be understood that an induction device uses a powerful air jet generated by means of an air pump that induces an air flow.

These disadvantages have so far only been overcome by the use of relatively expensive constructions, as a result of which the device became economically less attractive. The invention therefore has for its object to provide an inexpensive and simple construction in which the disadvantages described above are overcome and wherein an adjustable ventilation range can easily be provided without the occurrence of annoying noise.

This is achieved by applying the measures according to claim 1. In particular, it has been found that a magnetic material can provide a simple and particularly robust airtight seal, so that no small gaps remain, causing turbulences that cause noise. Preferably the air collection chamber comprises a plurality of outflow openings, the valve being configured to at least partially close off at least some of the outflow openings. The valve is further preferably strip-shaped, and can be shifted along the wall. Thereby, a pattern of recesses may be provided in the strip corresponding to at least a portion of a pattern of outflow openings provided in the wall for providing a variable ventilation air flow. It is thus possible to provide variable adjustability, with, for example, multiple positions of use.

The Russian publication SU844940 shows a ventilation device with a magnet actuated valve. Japanese publication 1120154 shows a magnetic attachment for changing the outflow direction.

United States publication No. 5479984 shows a ventilation opening that can be protected by a magnetic panel. This publication does not show an adjustable induction device.

In a preferred embodiment, the strip comprises a slide member which extends outwards through a wall opening in order to be able to be displaced from the outside of the air collection chamber, wherein the strip is also provided with a magnetic element near the slide member. The magnetic element also prevents annoying air currents along the slide.

Further advantages and features will be explained with reference to the drawing. It shows:

Figure 1 shows an example of an air ventilation device according to the invention;

Figure 2 shows a first embodiment of a strip-shaped shut-off valve according to the invention;

Figure 3 shows a second embodiment of a strip-shaped shut-off valve according to the invention;

Figure 4 shows another embodiment of a shut-off valve according to the invention;

Figure 5 shows yet another embodiment of a shut-off valve according to the invention; and

Figure 6 shows the operation of a preferred embodiment of a slide control for the shut-off valve according to the invention.

Figure 1 shows an induction device 1 for providing fresh air in a room of a room or office space or the like, wherein an air inlet 2 is connected to an air collection chamber 3, which is pressurized by the air inlet 2 (in practice: a light overpressure of about 50 Pascals or more, for example 200 Pa). The air can escape via air outlets 4, so that ventilation is provided because fresh, possibly conditioned, air is supplied to the room.

According to the example, the air outlets 4 have a venturi shape for generating a powerful air flow P, so that induction C can occur and air rises from the chamber and is sucked past an air treatment unit 5. According to the example, these venturi shapes are punched in a metal plate 6, which is therefore magnetically sensitive.

The inwardly located air outflow openings 4 'are closed in the example of Figure 1 by a shut-off valve 7'. Because these air outflow openings are closed, the amount of ventilation air flowing out is limited. The outwardly located air outflow openings 4, on the other hand, are opened, and a shut-off valve 7 provides a passage to the air outflow opening 4. According to the invention, the air outlet 4 comprises a magnetic element 8 to provide an airtight seal between the shut-off valve 7 and the outflow opening 4. According to the example the magnetic element 8 acts on the magnetizable wall 6, which is made of sheet steel or the like, to provide an airtight seal between the shut-off valve 7 and the outflow opening 4.

Figure 2 shows a wall 6 which comprises a plurality of outflow openings 4 (only a few are explicitly indicated with reference numerals). In the example of Figure 2, the shut-off valve 7 is formed by a magnetic strip that is slidable along the sheet steel wall 6. Due to the magnetic attraction, the strip 7 is pressed against the wall 6 over the entire surface, at least over the surface that forms or may form a seal for the openings 4. By sliding the strip 7 transversely to the first row (I) of openings 4 the row can be sealed so that the ventilation device is used with a limited air outflow. For environments where this is desired, the first row (I) of openings can simply be exposed by displacing the strip 7, so that an increased release of air becomes possible.

Figure 3 shows an alternative embodiment, in which the strip 7 is shifted in the longitudinal direction, and comprises a pattern of recesses 9 corresponding to at least a part of a pattern of outflow openings 4 which are arranged in the wall 6 for providing a variable ventilation air flow. If the openings 4, 4 'have mutually different sizes, an extra dimension can be provided in the possibility of varying the air flow.

Figure 4 shows another alternative in which an improved closure of a shut-off valve 4 is achieved with the aid of a magnetic element 8. In this example, a shut-off valve 4 partially protrudes through the wall plate and can be moved vertically up and down by elevator members not further shown.

Figure 5 shows a still further application of the invention, wherein a partial closure of an outflow opening 4 is effected with the aid of a magnetic element 8. Figure 5 (A) shows the outflow opening, which may be in the form of a spindle perpendicular to the plane of the drawing, in an almost closed state, so that the amount of outflowed air is limited. Figure 5 (B) shows the outflow opening 4 in a fully opened state, wherein the amount of outflowed air is maximum.

Figure 6 shows a preferred embodiment for the invention, wherein the strip 7 is a sliding member 10 which extends outwardly through a wall opening 11 in order to be able to be displaced from the outside of the air-collecting chamber 3. According to the example shown, the strip is magnetic over its entire length. Due to the magnetic action close to the gate, the gate is sealed airtight and no unwanted air can escape. The sliding movement of the strip 7 results in the release and closure of the air outlet 4. Due to the magnetic action near the air outlet, a robust airtight seal is also realized there. It goes without saying that the strip 7 can still be provided with soft sealing layers such as foam or felt or the like.

The invention is considered not to be limited to the examples shown in the figures. The invention can include variations, and modifications of the examples, without departing from the inventive concept.

Such variations are understood to be within the scope of the following claims.

Claims (8)

An induction device, comprising: - an air collection chamber provided with an air inlet and at least one air outlet for generating a ventilation air flow; - which air outlet is provided with a shut-off valve for at least partially covering an outflow opening for regulating the ventilation air flow; characterized in that - the shut-off valve comprises a magnetic strip element accommodated in the air-collecting chamber for providing an airtight seal between the shut-off valve and the outflow opening. Induction device according to claim 1, characterized in that the air-collecting chamber comprises a plurality of outflow openings, and in that the valve is configured to at least partially close off at least some of the outflow openings. Induction device according to claim 1 or 2, characterized in that the shut-off valve is slidable along a wall of the air collection chamber. Induction device according to claim 3, characterized in that the strip comprises a pattern of recesses corresponding to at least a part of a pattern of outflow openings arranged in the wall for providing a variable ventilation air flow. An induction device as claimed in claim 3 or 4, characterized in that the strip comprises a sliding member which extends outwardly through a wall opening in order to be able to be displaced from the outside of the air-collecting chamber, wherein the strip is also provided with a sliding element near the sliding member. magnetic element. Induction device according to at least one of the preceding claims, characterized in that the air-collecting chamber is kept in operation at an overpressure greater than 50 Pascals. Induction device according to at least one of the preceding claims, characterized in that the closing valve comprises a soft closing layer of foam or felt or the like. Induction device according to at least one of the preceding claims, characterized in that the shut-off valve extends at least partially through the air outflow opening.