BE1028358B1 - VENTILATION ELEMENT WITH ONE OR MORE ROTATABLE FLAPS - Google Patents

Abstract

Ventilation element (1) with one or more rotatable damper blades (3), the ventilation element (1) comprising a physical shaft (8) for each said damper leaf (3) and wherein this physical shaft (8) comprises a passage which extending substantially perpendicular to the longitudinal direction of the physical axis (8), and the ventilation element (1) for each valve leaf (3) comprises a retaining element (9) which is form-fitting with the passage and arranged to extend through the passage of the physical shaft (8) that the retaining element (9) extends on either side of the physical shaft (8), and wherein each valve leaf (3) comprises a recess (10), said recess (10) comprising a first part and a second part extending along the axis of rotation (A) and opening into the first part, and wherein in use the locking element (9) extends into the first part of the recess (10) and parts of the physical axis (8 ) extend into the first and second parts of the recess (10), respectively.

Description

VENTILATION ELEMENT WITH ONE OR MORE ROTATABLE

VALVE BLADES This invention relates to a ventilation element comprising a body enclosing a beam-shaped body passageway, and one or more valve leaflets each rotatably arranged about an axis of rotation in the body passageway to form a closable airflow opening through the body passageway, each valve leaf comprising a base portion. in the form of substantially a hexahedron having 3 pairs of two opposed rectangular outer surfaces being respectively a first and a second rotational plane, two sealing surfaces and two viewing surfaces, each axis of rotation extending through the respective base member and extending substantially perpendicular to the rotational planes . Such a ventilation element serves to enable ventilation through a wall. The wall can be, for example, a wall, a ceiling or a floor. The ventilation element is arranged in a passageway of the wall and comprises a body having a body passageway through which ventilation is possible. The ventilation elements can for instance be fire dampers, wherein the one or more damper blades/lamellas are provided to immediately close off the body passage in the event of a fire. The ventilation elements can also be smoke extraction dampers, in which case the one or more damper blades/blades are provided to ensure appropriate smoke extraction in the event of a fire. The one or more valve blades are here rotatable between an open position, in which the possible ventilation through the body passage is maximal, and a closed position, in which virtually no ventilation is possible through the body passage and the air flow opening is thus closed. During the rotation of the one or more valve blades and this between the different positions, it is important that the rotation always runs smoothly. For example, with several damper blades it is important that the rotation takes place simultaneously. To ensure that this rotation runs smoothly, relatively complex controls of the valve blades are currently provided.

For example, there are existing valve blades comprising, for example, a base portion consisting of two blade parts abutting each other and arranged rotatably about an axis by means of a physical rotation axis, so as to allow the valve blade to rotate between the open and closed positions.

To provide proper rotation, the blade members are connected to each other by means of bolts and nuts, the bolts extending transversely through both blade members, and a transmission is also provided to rotate the valve blade as a whole.

The disadvantage here is that the bolts extend transversely through both blade parts and that these bolts are made of metal, which is of course detrimental to fire safety.

It is also laborious in terms of production technology to start rotatably mounting valve blades in the body in this way.

It is therefore an object to provide a ventilation element with one or more rotatable valve blades, wherein the rotation of the valve blades can take place in a simpler manner, and wherein the rotation can still take place properly.

This object is achieved by providing a ventilation element comprising a body surrounding a beam-shaped body passageway, and one or more valve blades each rotatably arranged about an axis of rotation in the body passageway to form a closable airflow opening through the body passageway, each valve blade comprises a base portion in the form of substantially a hexahedron having 3 pairs of two opposing rectangular outer surfaces, being a first and a second rotation plane, two sealing surfaces and two viewing surfaces, respectively, each rotation axis extending through the respective base portion and being substantially perpendicular extending on the rotational planes, the ventilation element for each said valve blade comprising a physical axis extending in use along the respective rotational axis and said physical axis including a passage extending substantially perpendicular to the longitudinal direction of the physical axis, and the ventilation element for each valve leaf comprises a retaining element that is form-fitting with the passageway and arranged to extend through the passageway of the physical axis such that the retaining element extends on either side of the physical axis, and wherein each valve leaf has a recess which opens into the first plane of rotation, said recess comprising a first part extending along a longitudinal direction which is at an angle with the longitudinal direction of the first plane of rotation, situated between 0° and 30°, and opens over substantially its entire length into the first plane of rotation , and wherein the locking element is fittingly receivable and a second part extending along the axis of rotation opens into the first part and wherein a part of the physical axis is fittingly receivable, and wherein in use the retaining element extends into the first part of the recess and portions of the physical axis extend into the first and second portions of the recess, respectively.

The rotation planes here extend parallel to each other.

For example, the base portion is in the form of a hexahedron with 3 pairs of parallel outer surfaces.

For instance, the base part can be beam-shaped.

The visible surfaces here are the surfaces which preferably extend substantially perpendicular to the body passageway in the closed position and the sealing surfaces here are the surfaces which help to seal the body opening in the closed position and this at the level of two successive valve blades or at the height of a valve leaf and a wall surface of the body.

In use, the longitudinal direction of the locking element preferably extends along the passage, i.e. perpendicular to the longitudinal direction of the physical axis.

The longitudinal direction of the first part preferably extends substantially perpendicular to the axis of rotation.

For instance, the first part can be beam-shaped.

Fittingly absorbable here indicates that the design of one part is adapted to another part.

For instance, the locking element can be received in the first part in a form-fitting and/or clampable manner and a part of the physical shaft can be received in the second part in a form-fitting and/or clampable manner.

The locking element is preferably form-fitting and/or clampably receivable in the passage.

For instance, the locking element may be a tension pin which is provided to be clamped in the passage and in the first part.

By providing the physical shaft and the locking element here, and by providing the appropriate corresponding recess in which the physical shaft and the locking element can be accommodated, one can here simply start transferring the rotation of the physical shaft to the valve blade and this to in such a way that the entire blade undergoes the same rotation as the physical axis. Namely, the locking element extending through the physical axis and extending into the first part of the recess ensures that the rotation is properly transferred to the valve blade. It is therefore possible here in a very simple manner to transfer the rotation of the physical axis to the valve blade, and this by simply providing the said recess and the locking element. There is therefore no need here for bolts and/or nuts that extend through both viewing surfaces. The damper blades are therefore very well able to prevent fire penetration in the closed position.

If the ventilation element comprises several valve blades, the said rotation axes extend substantially parallel to each other.

For example, the body may comprise four contiguous wall surfaces which together enclose the body passageway, said wall surfaces comprising a first and a second pair of two substantially parallel opposite and spaced apart wall surfaces to form said beam-shaped body passageway. . The one or more axes of rotation here then preferably extend substantially perpendicular to the wall surfaces of a said pair of wall surfaces.

Preferably, the second portion extends centrally relative to the first portion as viewed along the longitudinal direction of the first portion and the retaining element extends substantially the same length on either side of the physical axis. In this way the retaining element is very well able to transmit the rotation of the physical axis over the entire base part and thus the valve blade can rotate properly.

In a preferred embodiment the first part of the recess extends substantially along the longitudinal direction of the first plane of rotation. Even more preferably, the length of the first portion is between 0.3 and 0.7 times the length of the plane of rotation, most preferably between 0.4 and 0.6 times the length of the plane of rotation. In this way, the locking element has an effect on a sufficiently long portion of the base part, without the firmness and sealing properties of the base part being compromised. Preferably, the first part extends centrally with respect to the first plane of rotation and this viewed along the longitudinal direction of the first plane of rotation.

The base part is preferably one piece. This makes the base part sturdy and also well able to prevent fire penetration in the event of a fire. Here the recess mentioned is therefore enclosed by one part.

Preferably, the base part is made of a fire-resistant and heat-insulating material. For example, this material may comprise gypsum, calcium silicate and/or concrete. This base part can be, for example, a plasterboard or a calcium silicate board. It is very easy to provide such plates with the necessary recesses. This way, these recesses can be milled.

Preferably, the respective rotation axis extends centrally through the base member. This benefits the firmness and good rotation of the valve blades.

In a very preferred embodiment, the locking element is a tension pin. A turnbuckle is highly capable of clamping itself in a form-fitting first portion of the recess. A turnbuckle is also very capable of clamping itself in the passageway of the physical axis, so that the turnbuckle will always occupy the same position relative to the physical axis. Using a clamping pin it is therefore very easy to properly transfer the rotation of the physical axis to the base part and thus to the damper blade. This clamping pin is, for example, made of spring steel. For example, the diameter of the tension pin is approximately half the diameter of the physical axis. In a preferred embodiment, the ventilation element for each said valve blade comprises a cover plate and this for covering the first rotational plane, this cover plate comprising a passage through which the physical axis is provided to extend. This cover plate can here be made of a fire-resistant material which is very capable of ensuring a good seal between the body and the damper blade. Leaks are thus avoided in the closed position of the one or more valve blades. Preferably, the second rotational plane is also provided with such a cover plate. Furthermore, the cover plate is preferably connected to the respective first rotation plane by means of glue. This ensures that the cover plate does not come loose from the first plane of rotation. Also further preferably, the cover plate is made of high temperature fibres. As a result, the cover plate is very well able to provide a good seal, so that the air flow opening can be properly closed. With the aid of fibers it is possible to provide a good and flexible seal and by providing high-temperature fibers it is also possible to ensure a good seal in the event of fire and this for a certain period of time, because such high-temperature fibers have a good resistance to heat. These high-temperature fibers are, for example, glass fibers or ceramic fibres. These fibers may be felted or woven.

Also further preferably, the ventilation element comprises a support ring which, in use, is provided to extend around the physical axis and this into the passage of the cover. In this way it is avoided that the physical axis starts to compress the cover plate, for instance the fibres, locally and this during the rotation of the one or more valve blades and also in the stated positions of the one or more valve blades.

This support ring can for instance be made of steel or another metal (alloy). In a preferred embodiment, the ventilation element for each valve blade comprises a second physical axis extending in use along the respective rotation axis, and wherein each valve blade comprises a second recess opening into the second plane of rotation, wherein at least a portion of this second recess is form-fitting. is provided with the second physical axis and this second physical axis is provided to partially extend into this second recess.

With the aid of this second physical axis extending in the second recess, the proper rotation of each valve blade is additionally ensured.

This second recess may or may not have a similar design to the first recess.

This depends on whether use is also made of a said locking element at the location of the second plane of rotation.

If the length of the damper blade allows this, it is not necessary to also provide a locking element at the height of the second plane of rotation, since the first-mentioned locking element is then sufficient to start rotating the entire damper leaf properly.

In the case of longer damper blades, however, it may be desirable to also provide such a locking element at the level of the second plane of rotation, in order to ensure that the complete damper leaf will always undergo the desired rotation and will therefore not bend.

The second plane of rotation is, for example, also covered with a cover plate, this cover plate then comprising a passage for the second physical axis.

In this case, use can also be made of the above-mentioned support ring.

The ventilation element is, for example, a smoke extraction valve or a fire damper which is part of a ventilation system.

With the aid of such ventilation elements, the desired ventilation can be provided very well, while the desired smoke extraction or sealing is provided in the event of a possible fire.

Preferably, the ventilation element comprises a drive mechanism for rotating said one or more physical axes about the respective rotation axes.

Furthermore, the damper blades can be provided with sealing rubber and/or intumescent material to ensure a good seal during normal use and in the event of fire. For example, the sealing surfaces can comprise notches in which sealing rubber and/or intumescent material is arranged. This invention will now be further elucidated with reference to the following detailed description of a preferred embodiment of a ventilation element according to this invention. The purpose of this description is only to give illustrative examples and to indicate further advantages and particulars, and can thus in no way be interpreted as limiting the scope of the invention or of the patent rights claimed in the claims.

In this detailed description, reference is made to the accompanying drawings in which - Figure 1 is a perspective view of a ventilation element according to the invention, said ventilation element comprising a plurality of damper blades and these damper leaflets are in an open position to facilitate ventilation. to allow; figure 2 is a view of the ventilation element shown in figure 1, with part of the ventilation element not being visible so that the drive mechanism for the rotation of the valve blades is visible; Figure 3 is an exploded perspective view of a valve leaf, the physical axes, the tension pin and the support rings of the ventilation element shown in Figure 1; Figure 4 is a perspective view of the components shown in Figure 3 in a joined condition, with a portion shown in section. The fire-resistant ventilation element (1) according to the invention, which is shown in the figures, is a smoke extraction valve (1). This ventilation element (1) is part of a ventilation system and is used to enable ventilation through a wall. Furthermore, this ventilation element (1) will make it possible to provide appropriate smoke extraction in the event of a fire.

This ventilation element (1) comprises a body (2) which encloses a beam-shaped body passage.

This body passageway is formed by 4 successive wall surfaces, each arranged parallel two by two, being the rotational wall surfaces and the sealing wall surfaces.

The seal wall surfaces are each provided with a recess that acts as a stop for the damper blades (3) (see below) and are shown horizontally in Figures 1 and 3. The rotational wall surfaces are the wall surfaces extending upright in Figures 1 and 2. 4 valve blades (3) are rotatably arranged in this body passage, each about an axis of rotation (A) in order to be able to provide a closable air flow opening in the body passage.

These 4 valve blades (3) are simultaneously rotatable and this between two extreme positions, namely an open position where the possible ventilation through the body passage is maximal and a closed position where the valve leaves (3) close off the body passage and thus ventilation through the body passage is virtually is completely prevented.

The rotation axes (A) extend parallel to each other and each extend substantially perpendicular to the rotation wall surfaces.

Each damper blade (3) comprises a beam-shaped base part with 3 pairs of parallel rectangular outer surfaces, being a first and a second rotation plane (5), two sealing surfaces (6) and two viewing surfaces (7), respectively, each axis of rotation (A) being located extends through the respective base part (4) and extends substantially perpendicular to the rotation planes (5). These base parts are made of calcium silicate boards or plasterboard and are thus one-piece.

For each said valve blade (3), the ventilation element (1) comprises a set of a first physical shaft (8), a tension pin (9) and a support ring (11) and a set of a second physical shaft (12) and associated support ring (11). For each set mentioned, the base part (4) comprises the appropriate recesses (10). The base part (4) thus comprises a first recess (10) which opens into the first rotational plane (5) and a second recess which opens out into the second rotational plane (not visible in the figures). The first physical axis (8) includes a passage extending perpendicular to its longitudinal direction and in which the tension pin (9)

it is provided to extend therethrough such that the tension pin (9) extends on either side of the passage and this over the same length on either side.

The first recess (10) comprises a first part which extends along the longitudinal direction (B) of the first plane of rotation (5), opens over substantially its entire length into the first plane of rotation (5), and in which the tension pin (9) can be received in a form-fitting manner. and a second part extending along the axis of rotation (A), opening into the first part, extending centrally with respect to the first part and in which a part of the first physical axis (8) can be received in a form-fitting manner.

This first recess (10) therefore has a T-shaped cross section.

In use, the tension pin (9) extends into the first portion of the first recess (10) and a first portion of the first physical axis (8) extends into the first and second portions of the first recess (10) and a second portion extends beyond the base portion.

The second recess extends along the axis of rotation (A) and the second physical axis (12) is form-fittingly receivable in this second recess such that a first portion of the second physical axis (12) extends into the second recess and a second portion of the second physical axis (12) protrudes beyond the base portion.

Each damper blade (3) comprises two cover plates (4) for respectively covering the two rotational surfaces (5). These cover plates (4) are formed from high temperature fibres.

The cover plates (4) are glued to the respective two rotational surfaces (5) and each comprise a passage through which the respective shafts (8, 12) can extend.

The support rings (11) are arranged in the respective passages to support the physical shafts (8, 12) and thus prevent damage to the cover plates (4).

These physical shafts (8, 12) also each extend beyond their cover (4) so that the drive mechanism can engage the first physical shafts (8) and the second physical shafts (12) extend into notches of the body (2). Each base part also includes two notches which open into the sealing surfaces (6), respectively. In one notch, intumescent material (13) is arranged and in the other notch, both intumescent material (13) and a sealing rubber (14) are arranged.

This sealing rubber (14) extends beyond the base part.

These sealing rubbers (14) thus help to provide a good seal between successive valve blades (3) and between a valve blade (3) and a respective sealing wall.

The intumescent material (13) prevents fire penetration for a certain period of time.

Claims (15)

CONCLUSIONS A ventilation element (1) comprising a body (2) surrounding a beam-shaped body passageway, and one or more valve blades (3) each rotatably arranged about an axis of rotation (A) in the body passageway to form a closable airflow opening therethrough the body passageway, wherein each valve leaf (3) comprises a base portion in the form of substantially a hexahedron with 3 pairs of two opposite rectangular outer surfaces, being respectively a first and second rotational plane (5), two sealing surfaces (6) and two viewing surfaces ( 7) wherein each rotation axis (A) extends through the respective base part (4) and extends substantially perpendicular to the rotation planes (5), characterized in that the ventilation element (1) for each said valve blade (3) has a physical axis (8) extending in use along the respective axis of rotation (A) and said physical axis (8) including a passage extending substantially perpendicular to the length direction of the physical axis (8), and the ventilation element (1) for each valve blade (3) comprises a retaining element (9) which is form-fitting with the passageway and arranged to extend through the passageway of the physical shaft (8) that the locking element (9) extends on either side of the physical axis (8), and wherein each valve leaf (3) comprises a recess (10) which opens into the first plane of rotation (5), said recess (10) comprises a first part which extends along a longitudinal direction which is at an angle to the longitudinal direction (B) of the first plane of rotation (5) located between 0° and 30°, opens for substantially its entire length into the first plane of rotation (5), and wherein the retaining element (9) is suitably receivable and a second part extending along the axis of rotation (A) opens into the first part and in which a part of the physical axis (8) is suitably receivable, and wherein in use the retaining element ( 9) extends into the first part of the recess (10) and parts of n the physical axis (8) extend into the first and second parts of the recess (10), respectively. Ventilation element (1) according to claim 1, characterized in that the second part extends centrally with respect to the first part, viewed along the longitudinal direction of the first part and wherein the securing element (9) extends over substantially the same length. extending on either side of the physical axis (8). Ventilation element (1) according to claim 1 or 2, characterized in that the longitudinal direction of the first part of the recess (10) extends substantially along the longitudinal direction (B) of the first rotational plane (5). Ventilation element (1) according to claim 3, characterized in that the length of the first part is between 0.3 and 0.7 times the length of the plane of rotation (5). Ventilation element (1) according to one of the preceding claims, characterized in that the base part is one-piece. Ventilation element (1) as claimed in any of the foregoing claims, characterized in that the base part is made of a fire-resistant and heat-insulating material. A ventilation element (1) according to any one of the preceding claims, characterized in that the respective rotation axis (A) extends centrally through the base part. Ventilation element (1) according to one of the preceding claims, characterized in that the securing element (9) is a tension pin. Ventilation element (1) according to one of the preceding claims, characterized in that the ventilation element (1) comprises a cover plate (4) for each said valve blade (3) and this for covering the first rotational plane (5 ), this cover plate (4) comprising a passage through which the physical shaft (8) is provided to extend. Ventilation element (1) according to claim 9, characterized in that the cover plate (4) is connected to the respective first rotation plane (5) by means of glue. Ventilation element (1) according to claim 9 or 10, characterized in that the cover plate (4) is made of high-temperature fibres. A ventilation element (1) according to any one of claims 9 to 11, characterized in that the ventilation element (1) comprises a support ring (11) which in use is provided to extend around the physical axis (8) and this in the passage of the cover plate (4). A ventilation element (1) according to any one of the preceding claims, characterized in that the ventilation element (1) for each valve leaf (3) comprises a second physical axis (12) which, in use, extends along the respective axis of rotation ( A), and wherein each valve blade (3) comprises a second recess opening into the second plane of rotation, wherein at least a portion of this second recess is form-fitting with the second physical axis (12) and this second physical axis (12) is provided partially extending into this second recess. Ventilation element (1) according to any one of the preceding claims, characterized in that the ventilation element (1) is a smoke extraction damper or a fire damper which is part of a ventilation system. A ventilation element (1) according to any one of the preceding claims, characterized in that the ventilation element (1) comprises a drive mechanism for rotating said one or more physical axes (8) about the respective rotation axes (A). .