DE2754869A1 - AIR OUTLET FOR ROOM VENTILATION - Google Patents

Description

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Hess & Cie., Pilgersteg

Rüti / Switzerland owner Hofmann & Cie.

Air outlet for room ventilation

809826/0615

The present invention is based on the object of finding an air outlet that has an optimal distribution of in Air flowing into a room is permitted, so that the air already present in the room can also be recirculated to the optimum Way is possible. The latter results from the so-called induction effect of bundled air jets relatively high speed. This object is achieved by an air outlet which is characterized by several arranged in the outlet cross-section of a ventilation duct, Nozzle body pivoted on all sides, the spaces between the nozzle bodies against a Leakage of air are sealed.

809876/0615

Due to the division of the air supplied via a ventilation duct resulting from such an air outlet In several air jets generated by the nozzle body there is a good induction effect, and the pivotable Storage of the nozzle body allows the air to be distributed in the desired or optimal manner.

The all-round pivotability of the nozzle bodies can advantageously be achieved in that they are designed as spherical bodies through which a nozzle channel extends and which is each rotatably held on its spherical surface. The nozzle bodies or spherical bodies can run in one or more straight, curved or circular shapes Be arranged in rows.

The spherical bodies can be held in openings in a wall provided in the outlet cross-section of the ventilation duct be, in that these openings consequently circular in cross section have side walls in the form of a spherical surface. By forming the spherical bodies and / or the wall from an elastic material, the spherical bodies can then Press into the openings so that they can be rotated in them.

In a preferred embodiment of the invention, the spherical bodies are spaced apart in circular openings of two

809R26 / 0R15

parallel plates held by the diameter of the openings is smaller than the diameter the spherical body.

The invention is explained in more detail below with reference to the exemplary embodiments shown in the drawing. It shows:

1 shows a cross section through an air outlet with nozzle bodies arranged in a row one behind the other,

FIG. 2 is a view of the front side of the air outlet in FIG reduced display,

3 shows the view of the front side of an outlet with nozzle bodies arranged in two rows,

4 shows a view of the front side of an air outlet with nozzle bodies arranged on concentric circles, and

5 shows a cross section through an air outlet with nozzle bodies arranged in two rows.

The air outlet forms part of a duct system of a ventilation system and the supply line for the air to the, for example elongated ventilation channel 2 takes place via a

809826/06 1 5

Pipeline, not shown, which laterally into the ventilation duct opens outside the part shown. At the outlet of the ventilation channel there are, for example, flanges 4 provided, which can be used to rest on the wall surface of the room to be ventilated. The one in the outlet cross-section of the ventilation channel 2 arranged nozzle bodies 6 are spherical formed and through its center extends a nozzle channel 8, which has a cylindrical shape or the shape of a Venturi nozzle may have.

The spherical nozzle body 6 is held in the outlet cross-section by two spaced apart parallel to each other extending plates 9, 10, in that they are provided with circular openings 12, 14, the diameter of which is somewhat is smaller than the diameter of the nozzle body 6. In this way, the nozzle bodies are on both sides between the plates and these are in turn inserted into side slits 16 in the outlet cross-section of the ventilation duct. The mounting plates 9, 10 are preferably made of an elastic material, so that they are pretensioned on the The spherical surface of the nozzle body 6 is in contact. The pretensioning force results from the arched bending of the Plates through the nozzle body used. To improve the seal on the spherical surface, a Not shown plate made of a softer or better sealing material can be provided, which approximates the has the same dimensions as one of the plates. It is not

809826/0615

required that the two plates 9, 10 symmetrically to The spherical nozzle bodies run in the middle, so that, for example, the receiving openings 12 of one of the plates 9 may have a smaller diameter than the receiving openings 14 of the plate 10.

Figs. 2 to 4 show various examples of the Arrangement of the nozzle body in the outlet cross-section of a ventilation duct.

The illustration in FIG. 5 corresponds to the illustration in FIG. 1 with the difference that the air outlet, corresponding to the illustration in FIG. 3, has two rows of nozzle bodies 6 ¹ running parallel to one another.

It goes without saying that due to the ball bearings of the nozzle bodies, the exit direction each through a nozzle body flowing air jet can be varied continuously over a wide range. In this way it is possible to use the air jets to align according to a desired pattern, so that according to the arrangement of the air outlet at one point of the Wall of the room to be ventilated an optimal adaptation to the room geometry is possible and different ventilation effects can be achieved.

10/20/1977
Qu / ae / lf

8098 2 6/0615

Claims (7)

Claims f 1.j Air outlet for room ventilation, characterized by several nozzle bodies (6, 6 ') which are arranged in the outlet cross-section of a ventilation duct (2, 2 ¹ ) and pivotably mounted on all sides, the spaces between the nozzle bodies being sealed against the escape of air. 2. Air outlet according to claim 1, characterized in that the nozzle bodies are designed as spherical bodies through which extends a nozzle channel (8, 8 ') and which is rotatably held on its spherical surface. 3. Air outlet according to claim 2, characterized in that the nozzle bodies (6, 6 ¹ ) are arranged next to one another in one or more straight or curved rows. 4. Air outlet according to claims 1 or 3, characterized in that that the nozzle body is provided in openings (12, 14) in the outlet cross-section of the ventilation channel Wall (9, 10) are held. 5. Air outlet according to claim 4, characterized in that for holding the spherical nozzle body (6, 6 ') 809826/0615 in the Viand circular openings are provided in cross-section, the side walls of which have the shape of a spherical surface and bear against the spherical surface of the nozzle body, the wall and / or the nozzle body from consist of an elastic material. 6. Air outlet according to claims 2 and 4, characterized in that the spherical nozzle bodies (6, 6 ¹ ) are held in circular openings (12, 14) of two spaced parallel plates (9, 10), the diameter the openings (12, 14) is smaller than the diameter of the nozzle body. 7. Air outlet according to claim 2, characterized in that the nozzle channel (8) is designed as a venturi channel (Fig. 1).