DE3638616A1 - DEVICE FOR CONDUCTING AN AIRFLOW - Google Patents

Abstract

1. A device for guiding an air stream by lamellae disposed at the outlet of a device guiding and more particularly producing the air stream, each two lamellae being rotatably articulated via their lateral longitudinal edges adjacent the source of the air stream to a pivot disposed at an air outlet of the device or to two pivots disposed closely adjacent to one another, to form a pair of lamellae which cooperates with adjacent pairs of lamellae to form air channels, more particularly slot-shaped nozzles, whose width can be changed by pivoting the lamellae, characterized in that the lateral end sides of the gap (7) of each pair (2) of lamellae are open, to allow secondary air to enter, the pairs of lamellae themselves forming after-flow channels for secondary air by being disposed in front of the air outlet.

Description

The invention relates to a device for guiding a Air flow through fins, the one at the outlet Air flow leading, in particular generating device are arranged, each with two slats with their Longitudinal edges facing the airflow source on a Axis or two axes that are close together are pivoted to form a pair of slats, that forms air channels with adjacent pairs of fins, the width of which can be changed by pivoting the slats is.

Such V-shaped slats are at the outlet of one an air flow leading device from the U.S. Patent 2,224,312 is known. In this known Air control device is by the individual adjustment of the Slats reached that between the slat pairs escaping air flows in strength and direction to each other are different. In particular, this is intended for a Branch of an air flow is an even air flow can be achieved.  

Has in these as well as in conventional air control devices it has been shown that the depth of penetration of the air flow in the space is often insufficient, especially with air heaters is deep. This is particularly evident when such Air heater is attached to the ceiling of a hall and blows vertically down.

The object of the invention is to provide an air guiding device to improve the type mentioned so that a high Induction effect with regard to the ambient air and thus a faster reduction of the air jet temperature and increased flushing of the room is achieved.

This object is achieved in that the side end faces of the space each Lamellar pairs are open to enter and secondary air across the V-shaped free cross section to the outer ones To let profile longitudinal edges flow where they are due to the high velocity of the primary air flow in these is induced.

Adjacent profile pairs thus form configured as a nozzle Slot outlets for the primary air flow, the profile pairs itself night flow channels for secondary air.

It when the slats through is particularly advantageous Swiveling are adjustable that at a flow direction in the direction of the incoming air Profile pairs a smaller outlet cross section for the Have primary air than in the incoming air oblique direction.

The first setting is advantageous for high altitudes arranged above the lounge area of rooms Air outlets where high initial air speeds must be reached so that the air into the  Lounge area can reach. The second arrangement is particularly beneficial when low on the walls of rooms arranged outlets to avoid Drafts the initial speed of the air too to reduce.

Embodiments of the invention are in the drawings shown in cross-sections and are described in more detail below described. Show it:

Fig. 1 is a vertical section through an air-guiding device to the wall of a room with horizontally directed air flow into the room;

FIG. 2 shows an air guiding device according to FIG. 1 in a middle inclined position;

Fig. 3 shows an air guide device according to FIGS. 1 and 2 with maximum inclination.

The device has a plurality of fins 1 a , 1 b , which can also be called flat profiles, flaps, baffles, louver profiles and two of which 1 a, 1 b form a pair of fins 2 . For this purpose, the slats 1 a , 1 b are articulated at one end to an axis 3 . This axis 3 is on the side of the pair of plates facing the air flow source, so that the incoming air 4 first hits the axis 3 and then reaches nozzle-shaped slot outlets 5 , which are each formed between the pair of plates 2 . The mutually adjacent slats 1 a , 1 b of two different pairs of slats each form a slot nozzle between them, which tapers in the inflow direction 6 to the outside.

The slats 1 a , 1 b , which can be rotated about the axis 3 , can be adjusted such that the space 7 between two slats of a pair of slats 2 becomes smaller and the air duct 5 becomes larger and the space larger and the air duct 5 correspondingly smaller. In the embodiment shown in FIGS . 1 to 3, the position shown in FIG. 1 shows a minimum width B of the slot nozzles 5 and a maximum width of the secondary air channels 7 , so that the air emerging through 5 has a very high speed and thus a large depth of penetration reached and by 7 a maximum of secondary air can flow. The outflow direction 8 is the same or parallel to the inflow direction 6 .

If the outflow direction 8 is oblique to the inflow direction 6 , the slats 1 a are not adjusted by the same angle of rotation as the slats 1 b , but one of the two slat types 1 a or 1 b is rotated more than the other, so that the in Fig. 2 shown oblique center position is reached. Due to the larger width B , the outflow speed is lower here than in FIG. 1. If the slats are pivoted even more in an inclined position, the slats 1 a again being rotated more counterclockwise downward than the slats 1 b , the position shown in FIG generates position shown. 3, in which the largest free cross section of flow (B max) and a maximum inclined position and thus Ausströmablenkung is provided. The depth of penetration achieved is relatively small.

The uniform adjustment of all slats 1 a , 1 b , the slats 1 a each lying parallel to one another and being rotated uniformly and the slats 1 b also always remaining parallel to one another and being adjusted by different angles of rotation, is produced by a linkage 9 that from There are rods 10 and 11 lying at right angles to the incoming air 4 , the rod 10 connecting all the plates 1 a and the rod 11 connecting all the plates 1 b via a joint 12 . This type of attachment ensures that all slats 1 a perform the same rotary movements. The same applies to the slats 1 b . In addition, a blade 1 a via an oblique joint rod 13 is connected at least with a sipe b 1, wherein said articulated rod 13 obliquely to the incoming air and to the rods 10,. 11 Thus the articulation point 14 of the rod 13 on the lamella 1 b is at a different distance A 1 than the distance A 2 of the articulation point 15 of the rod 13 on the lamella 1 a to the axis 3 .

The joints and articulation points can be formed by screw channels 16 , which are formed on the inside of the lamellae. The outer surfaces of the lamellae 1 a , 1 b are convex in shape, so that the air channels work in a nozzle-like manner.

The fins 1 a , 1 b of a single pair of fins 2 form between them the intermediate space 7 , which is open towards the end faces to allow secondary air to enter. This secondary air then flows out in the outflow direction 8 , since it is carried along by the air flowing through the air channels 5 . It is important here that the smallest free flow cross section of the air duct 5 is located far in front at the free ends of the lamellae 1 a , 1 b . In order to ensure a free entry of secondary air into the intermediate spaces 7 in a particularly simple manner, the fins are arranged so far in front of the outlet of a device or an air duct that the end faces are free.

Claims (3)

1. Device for guiding an air flow through lamellae, which are arranged at the outlet of an air flow-guiding, in particular generating device, wherein two lamellae with their side longitudinal edges facing the airflow source are rotatably articulated on one axis or two axes lying close to each other around a pair of lamellae to form, which forms air ducts, in particular slot-shaped nozzles, with adjacent pairs of fins, the width of which can be changed by pivoting the fins, characterized in that the lateral end faces of the space ( 7 ) of each pair of fins ( 2 ) are open in order to allow secondary air to enter, the Lamella pairs themselves form night flow channels for secondary air. 2. Device according to claim 1, characterized in that for a free entry of secondary air into the intermediate spaces ( 7 ), the pairs of fins ( 2 ) are fastened in front of the outlet. 3. Device according to one of the preceding claims, characterized in that the lamellae ( 1 a , 1 b ) are adjustable by pivoting such that in a direction of flow ( 8 ) in the air channels ( 5 ) in the direction of the incoming air ( 6 ) Air channels ( 5 ) have a smaller width ( B ) than in an oblique direction to the incoming air ( 6 ).