DE20104122U1 - Locking flap and supply air element - Google Patents

Description

2689GM shutter and supply air element

Description

The invention relates to a closure flap for a supply air element for a system for controlled home ventilation and a supply air element with such a closure flap. The supply air element essentially consists of a supply air duct, a soundproofing pipe, a weather protection hood, an air inlet grille, a filter, a volume flow limiter and a closure flap. Supply air elements in systems for controlled home ventilation usually have a closure flap and a volume flow limiter in addition to other components such as filters, air inlet grilles and the like. Such supply air devices for supplying rooms with supply air are known, for example, from the publications EP 0655587 A2 and DE 199 14 103 A1.

The length of supply air elements installed in an external wall of a building is limited to the thickness of the wall. This results in problems in accommodating the required functional parts. The components supply air grille, sound insulation pipe, volume flow limiter, closure flap and internal outflow geometry are closely packed, which leads to compromises in terms of function. The components arranged close together in the air flow path prevent a directed flow from one component to the next because the distance between them is too small. As a result of the undirected air flow, an additional pressure loss occurs at the next component, which either limits the air volume to such an extent that several supply air elements are required, or is at least undesirable due to the energy expenditure. The object of the invention is therefore to develop a supply air element and a closure flap for a supply air element, whereby the above-mentioned disadvantages are to be largely avoided and an optimal flow to achieve a high air volume is to be made possible.

According to the invention, this object is achieved by features of claims 1 and 6. Advantageous embodiments of the invention can be found in the respective associated subclaims.

Accordingly, the invention* includes a closure flap for a supply air element for a system for controlled apartment ventilation, with a volume flow limiter being arranged directly on the closure flap and forming a unit with it. According to a special feature of the invention, the closure flap consists of a disk that can be rotated about an axis, with a semicircular plate being provided as a volume flow limiter on each side of the disk in the axis area.

Furthermore, the invention comprises a supply air element for a system for controlled apartment ventilation, which essentially consists of a supply air duct, a sound-insulating pipe, a weather protection hood, an inflow grille, a filter, a volume flow limiter and a closure flap, wherein the volume flow limiter and the closure flap consist of a unit in the embodiment described above.

The plates arranged on the closure flap consist of semi-circular silicone flaps, the forward and backward movement of which is controlled by the material tension and stiffness. However, it is also possible that the plates are mechanical plates, the forward and backward movement of which is controlled by spring forces.

The open/closed position of the shutter is controlled by a mechanical device.

The designs according to the invention enable a shorter design. This means that the supply air volume flow has a longer inflow length available, which allows a uniform speed profile of the supply air volume flow to be established. Furthermore, higher air volumes can be conveyed with the same pressure loss.

The amount of air required in the room is conveyed inwards via the supply air element by creating a negative pressure in the room (approx. 8 Pa). The possible adjustable negative pressure is limited to 8 Pa in order to avoid problems when opening and closing doors and windows, for example. The diameter of the opening required in the outer wall is also limited, among other things, so as not to weaken the existing sound insulation effect of the solid masonry.

Another problem is the accumulation of necessary functional components such as weather protection hood, volume flow limiter and closure flap in the existing

short flow path, since the* length of the supply air element is limited by the thickness of the wall. No directed flow can develop between the components, so that the eddies and turbulence caused, for example, by the flow deflection on the weather protection hood, deflect the volume flow limiter a little even at low volume flow and thus represents additional resistance.

In terms of flow technology, the amount of air that can be conveyed through a pipe geometry at a given pressure is proportional to the reciprocal square root of the resistance coefficient of the pipe geometry in question. This means that with a constant pressure difference (in our case 8 Pa between inside and outside), the amount of air conveyed through the supply air element decreases as the resistance coefficient increases. If the resistance coefficient can be reduced, the amount of air increases at the given differential pressure.

Some of the options for reducing the resistance coefficient in the supply air element, such as increasing the diameter in the wall opening or omitting functional elements, are not in line with the market. The advantage of the device according to the invention is that the combination of the volume flow limiter with the closure flap extends the flow path between the weather protection hood and the volume flow limiter to such an extent that there are fewer or no eddies or turbulences in the flow, which in turn have less resistance at the closure flap and volume flow limiter and thus allow more air to be conveyed at the same differential pressure.

The invention will be explained in more detail below using an embodiment. The drawings show

Figure 1: a simplified representation of a supply air element with a

closed flap,
Figure 2: a supply air element with open shutter at normal

air flow,
Figure 3: a supply air element with an open shutter in the presence of wind pressure from outside.

Figure 1 shows a supply air element for a system for controlled apartment ventilation. This essentially consists of a supply air duct 4, a volume flow limiter 2, a closure flap 1, a weather protection hood 5, a soundproofing pipe (not shown), an inflow grille (not shown), and a filter (not shown). The open/closed position of the closure flap 1 is controlled by a mechanical device, also not shown. In Figure 1, the closure flap 1 is closed. There is no supply air volume flow. According to the invention, the closure flap 1 and the volume flow limiter 2 consist of a unit, with the closure flap 1 consisting of a disk 1.1 that can be rotated about an axis X. In the axis area X, a semicircular plate 3, 3* is provided on each side of the disk 1.1 as a volume flow limiter 2.

Figure 2 shows the same supply air element with the shutter 1 open and the air flow normal. The supply air volume flow is swirled by deflections in the weather protection hood 5 and is shown by arrows running in the direction of flow. A uniform speed profile can develop in the supply air duct 4 due to the sufficient available inflow length. With a normal air flow, the supply air volume flow reaches the room side 7 from the outside 6 without being limited by the volume flow limiter 2.

Figure 3 shows the same supply air element with the shutter 1 open when there is wind pressure from outside. The supply air volume flow is greatly reduced and passes through the volume flow limiter 2 arranged on the shutter 1 from the outside 6 to the room side 7, whereby a uniform speed profile can form in the supply air duct 4 due to a sufficiently available inflow length. The plates 3,3* provided as volume flow limiters 2, which consist of semicircular silicone flaps, are deflected in the process. Their forward and backward movement is regulated by the material tension and rigidity of the material.

The plates 3,3* can also consist of mechanically adjustable plates, the forward and backward movement of which is controlled by spring forces.

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• *

Figure 1 shows a supply air element for a system for controlled apartment ventilation. This essentially consists of a supply air duct 4, a volume flow limiter 2, a closure flap 1, a weather protection hood 5, a soundproofing pipe (not shown), an inflow grille (not shown), and a filter (not shown). The open/closed position of the closure flap 1 is controlled by a mechanical device, also not shown. In Figure 1, the closure flap 1 is closed. There is no supply air volume flow. According to the invention, the closure flap 1 and the volume flow limiter 2 consist of a unit, with the closure flap 1 consisting of a disk 1.1 that can be rotated about an axis X. In the axis area X, a semicircular plate 3, 3* is provided on each side of the disk 1.1 as a volume flow limiter 2.

Figure 2 shows the same supply air element with the shutter 1 open and the air flow normal. The supply air volume flow is swirled by deflections in the weather protection hood 5. A uniform speed profile can develop in the supply air duct 4 due to the sufficient flow length available. With a normal air flow, the supply air volume flow reaches the room side 7 from the outside 6 without being limited by the volume flow limiter 2.

Figure 3 shows the same supply air element with the shutter 1 open when there is wind pressure from outside. The supply air volume flow is greatly reduced and passes through the volume flow limiter 2 arranged on the shutter 1 from the outside 6 to the room side 7, whereby a uniform speed profile can form in the supply air duct 4 due to the sufficient flow length available. The plates 3,3* provided as volume flow limiters 2, which consist of semi-circular silicone flaps, are deflected in the process. Their forward and backward movement is regulated by the material tension and rigidity of the material.

The plates 3,3* can also consist of mechanically adjustable plates, the forward and backward movement of which is controlled by spring forces.

Claims (9)

1. Closure flap for a supply air element for a system for controlled apartment ventilation, characterized in that the closure flap ( 1 ) and the volume flow limiter ( 2 ) form a unit. 2. Closure flap according to claim 1, characterized in that the volume flow limiter ( 2 ) is arranged on the closure flap ( 1 ), wherein the closure flap ( 1 ) consists of a disk ( 1.1 ) rotatable about an axis X and in the axis region X on each side of the disk ( 1.1 ) a semicircular plate ( 3 , 3 *) is provided as a volume flow limiter ( 2 ). 3. Closure flap according to claims 1 and 2, characterized in that the plates ( 3 , 3 *) consist of semicircular silicone flaps, the forward and backward movement of which is regulated by the material tension and rigidity. 4. Closure flap according to claims 1 and 2, characterized in that the plates ( 3 , 3 *) are mechanical plates whose forward and backward movement is controlled by spring forces. 5. Closure flap according to one of the above claims, characterized in that the open/closed position of the closure flap is controlled by a mechanical device. 6. Supply air element for a system for controlled apartment ventilation, consisting essentially of a supply air duct, a sound-insulating pipe, a weather protection hood, an inflow grille, a filter, a volume flow limiter and a closure flap, characterized in that the volume flow limiter ( 2 ) and the closure flap ( 1 ) consist of a unit, wherein the closure flap ( 1 ) consists of a disk ( 1.1 ) rotatable about an axis X and in the axis region X on each side of the disk ( 1.1 ) a semicircular plate ( 3 , 3 *) is provided as a volume flow limiter ( 2 ). 7. Air supply element according to claim 6, characterized in that the plates ( 3 , 3 *) consist of semicircular silicone tabs, the forward and backward movement of which is regulated by the material tension and rigidity. 8. Closure flap according to claim 6, characterized in that the plates ( 3 , 3 *) are mechanical plates whose forward and backward movement is controlled by spring forces. 9. Closure flap according to one of the above claims, characterized in that the open/closed position of the closure flap ( 1 ) is controlled by a mechanical device.