EP0413784B1 - Device for aerating and, if necessary, deaerating a space - Google Patents

Abstract

In a device for aerating and, if necessary, deaerating a space by means of individual nozzles arranged in a casing box (4), at least one individual nozzle (14) is ridigly mounted in a nozzle grid (5) arranged so as to swivel about an axis of the casing box (4).

Description

The invention relates to a device for ventilating and possibly also venting a room by means of at least one individual nozzle which is arranged in a housing box.

From DE-U-8613078 a single nozzle is known which can be adjusted by hand. Furthermore, EP-A-0212749 shows a plurality of individual nozzles, each of which can be adjusted separately.

Warm or cold air is fed into a room by means of such individual nozzles. A disadvantage of these individual nozzles is the considerable assembly effort, since a motor must be assigned to each individual nozzle or manual adjustment is carried out for each individual nozzle.

The inventors have set themselves the goal of a device of the above. To develop a way by which the introduction of supply air into a room can be controlled much better and whose assembly is easier.

To achieve this object, the individual nozzle (s) is / are rigidly inserted into a nozzle grille and this is arranged pivotably in relation to an axis of the housing.

On the one hand, there is the advantage that the individual nozzle itself does not have to be adjusted, but rather is adjusted via the nozzle grille. Furthermore, it will usually be the case that several individual nozzles are combined in a nozzle grille, so that when the nozzle grille is adjusted, several individual nozzles are always adjusted. In a ventilation grille designed in this way, several nozzle grilles with several individual nozzles can be used in individual rows or subsequent rows. All of these grilles or only certain of them can be adjusted together using a servomotor. For example, pivoting from the longitudinal axis is possible when the ventilation grille is installed in the wall. If the nozzles are swiveled towards the floor of the room, the introduction of warm air is improved. If the nozzle axes remain in a horizontal plane, this ventilation grille is used to introduce isothermal air. When cold air is introduced, however, the nozzle axes are directed towards the ceiling, so that no drafts occur.

With this ventilation grille, an operator has the advantage that the incoming fresh air gets into the interior of the room relatively safely and the room is flushed very well. Using appropriate diagrams, a user of the system or a corresponding installer can determine which throwing distances they can safely reach with the nozzles. The individual nozzle grids are supplied with nozzles of different nozzle diameters, so that practically any desired room depth can be filled with fresh supply air without any problems. Of course, this also depends on the amount of air supplied. The nozzle grilles are very quiet and can discharge a considerable amount of air.

A nozzle grille preferably consists of a frame strip which is adapted to the inner contours of the housing box. If only a swivel from the longitudinal axis of the housing box is desired, this frame strip is not fixed laterally. However, it should also be possible to rotate the nozzle grille about the longitudinal axis of the housing box and should be encompassed by the present inventive concept. In this case, the housing box has a lateral bulge, so that pivoting of the nozzle grille around the longitudinal axis of the housing is not hindered.

The frame strip in turn preferably encompasses plates in which the individual nozzles are inserted and with which the individual nozzles are firmly connected.

In the present exemplary embodiment, the nozzle grille is connected to the housing box via fastening straps, these fastening straps lying opposite one another and forming an axis of rotation for the nozzle grille.

In this way, the nozzle grille can be adjusted very easily and simply upwards or downwards.

For example, a servomotor is suitable for pivoting the nozzle grille. Of course, the pivoting is also possible manually, the nozzle grille then preferably being fixed in a specific position. Relatively many individual nozzles can be adjusted by means of a single drive or manually, so that there is a high saving in assembly costs and in the power consumption.

In a further exemplary embodiment of the invention, the air vents are partially penetrated by the air vents. This makes it possible to extract exhaust air from a room without disturbing the supply air. The nozzles throw the supply air relatively far into the room, so that no short circuit, i. H. there is no direct discharge of the supply air. In the case of conventional grilles, the entry speed is too slow to permit such a combination of supply and exhaust air grilles.

Of course, this ventilation grille according to the invention is suitable for both wall and ceiling installation. It can be used with or without ball protection in any length or width.

• Fig. 1 eine Vorderansicht eines erfindungsgemäßen Lüftungsgitters;
• Fig. 2 einen Querschnitt durch das Lüftungsgitter gemäß Figur 1;
• Fig. 3 einen Querschnitt durch ein weiteres Ausführungsbeispiels eines Lüftungsgitters entsprechend demjenigen gemäß Figur 1.

Further advantages, features and details of the invention result from the following description of preferred exemplary embodiments and from the drawing; this shows in

• Fig. 1 is a front view of a ventilation grille according to the invention;
• 2 shows a cross section through the ventilation grille according to FIG. 1;
• 3 shows a cross section through a further exemplary embodiment of a ventilation grille corresponding to that according to FIG. 1.

According to FIG. 1, a ventilation grille 1 has a grille frame 2, which essentially consists of cover strips 3 and an approximately rectangular housing box 4. The cover strips 3 enclose the housing box 4 as a collar. This lattice frame 2 is, not shown in more detail, for example, installed in a wall or a ceiling.

According to FIG. 2, the housing box 4 has side walls 6 which are planar over their entire surface. FIG. 3, on the other hand, shows a housing box 4a with side walls 6a, some of which have bulges 7.

Nozzle grids 5 and 5a are inserted in the housing boxes 4 and 4a. Each nozzle grille 5 or 5a has a frame strip 8, via which the nozzle grille 5 or 5a is supported against the side walls 6 or 6a.

In the exemplary embodiment according to FIG. 3, the nozzle grille 5a is seated in the region of the bulges 7.

The nozzle grids 5 and 5a are connected to the housing box 4 and 4a only by means of fastening tabs 9 at the end which have a bore 10, for example for receiving a corresponding screw or rivet. These bores 10 simultaneously form a pivot bearing, whereby the inclination of the nozzle grille 5 or 5a can be changed within the housing box 4 or 4a.

With the frame strip 8 approximately square plates 12 are connected, which have a central recess 13. Individual nozzles 14 are inserted into the recess 13 and connected to the plate 12 by means of corresponding screws 15. Several such individual nozzles 14 are preferably provided for a nozzle grid 5.

The arrangement of exhaust air slots 16 is also shown in dashed lines in FIG. 1, a separate supply of the supply air to the individual nozzles 14 and removal of the exhaust air from the exhaust air slots 16 also connecting to the housing box 4 or 4a.

Claims (7)

1. Device for aerating and, if necessary, deaerating a space by means of at least one individual nozzle which is arranged in a casing box, characterised in that the individual nozzle(s) (14) is/are inserted rigidly into a nozzle grid (5) and the nozzle grid (5) is arranged pivotally in relation to an axis of the casing box (4).

2. Device according to claim 1, characterised in that the nozzle grid (5) consists of a frame strip (8) which is adapted to the internal contours of the housing box (4).

3. Device according to claim 2, characterised in that the frame strip (8) surrounds at least one plate (12) into which the individual nozzle (14) is inserted.

4. Device according to one of claims 1 to 3, characterised in that the nozzle grid (5) is connected to the housing box (4) by fastening tabs (9) which form a pivot bearing (11).

5. Device according to at least one of claims 1 to 4, characterised in that the nozzle grid (5) is pivoted by means of an actuator.

6. Device according to at least one of claims 1 to 4, characterised in that the nozzle grid (5) is pivoted manually.

7. Device according to at least one of claims 1 to 6, characterised in that an outlet slot (16) is provided next to the individual nozzle (14).

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