DD262892A5 - DEVICE FOR CONDUCTING AN AIRFLOW - Google Patents

Abstract

1. A device for guiding an air stream by parallel lamellae (1a, 1b) which are disposed at the outlet of a device guiding and more particularly producing the air stream, each two lamellae (1a, 1b) being rotatably articulated via their lateral longitudinal edges adjacent the source of the air stream to a pivot (3) or to two pivots disposed closely adjacent to one another, to form a pair (2) of lamellae which co-operates with adjacent pairs of lamellae (2) to form air channels (5), whose width can be changed by pivoting the lamellae (1a, 1b), characterized in that the lamellae (1a, 1b) can always be so adjusted by pivoting that with a direction (8) of flow in and to the air channels (5) in the direction of the inflowing air (6) the air channels (5) have a smaller width (b) than in the direction at an inclination to the inflowing air (6), and the lamellae (1a, 1b) can be adjusted via a linkage (9, 10, 11), each lamella (1a) of a pair (2) of lamellae being adjustable independently of the second lamella of the same pair (2).

Description

For this 10 pages drawings

Field of application of the invention

The invention relates to a device for directing an air flow through fins, which are arranged at the outlet of the air flow leading, in particular generating device, wherein each two fins are hinged with their the air flow source facing lateral longitudinal edges on one axis or two closely spaced axes rotatably, to form a pair of slats whose width is variable by pivoting the slats.

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Characteristic of the known state of the art

Such V-shaped louvers are known at the outlet of an air flow device from US Pat. No. 2,224,312. In this known air guiding device is achieved by the individual adjustment of the slats, that the exiting between the pairs of slats air flows in strength and direction are different from each other. In particular, this should be achieved at a diversion of an air flow, a uniform air flow.

In these as well as in conventional louvers, it has been shown that the penetration depth of the air flow into the room, especially in air heaters, is not deep enough. This is particularly evident when such an air heater is attached to the ceiling of a hall and blows vertically downwards. If, however, such an air heater attached to the wall of a hall, the air distribution is usually not sufficiently uniform. Depending on the mounting method on the ceiling or on the wall, it is necessary to provide different louvers.

Object of the invention

The aim of the invention is to largely avoid the aforementioned disadvantages.

Explanation of the essence of the invention

The object of the invention is to improve a louver of the type mentioned so that the penetration depth in the room is easily and accurately changed. In particular, it is the object of the invention to provide an air guiding device which achieves a greater penetration depth in a vertical Aussirömrichtung and a better mixing of the room air and a more uniform distribution of the supply air in a horizontal outflow direction.

These objects we / according to the invention achieved in that the lamellae are adjustable by pivoting that at a flow direction in and after the air ducts in the direction of the incoming air, the air ducts have a smaller width than in an oblique to the inflowing air direction.

If the air ducts are adjusted in the direction of the incoming air, the lamellae or profiles form the smallest free flow cross sections between them, as a result of which very high air flow speeds are achieved in the ducts, so that the exiting air reaches a large penetration depth. However, if the profiles are arranged obliquely to each other that the air ducts located between them deviate from the inflowing direction, the profiles form between them larger free flow cross-sections, which lead to a broader distribution of the outflowing air in the room. The former setting is particularly advantageous with air outlets arranged at the ceiling of rooms, with the air flowing vertically downwards, and the second arrangement is particularly advantageous with outlets arranged on the walls of rooms.

It is advantageous that at least one lamella of a pair of lamellae with that lamella of another pair of lamellae, which is not parallel to the first lamella, is connected via a connecting rod, wherein the two articulation points are at different distances to the axes.

In order to achieve a uniform and mutually uniform adjustment of the slats, it is proposed that the slats are adjustable by a linkage. In this case, each second lamella can be articulated on a first right-angled rod to the inflowing air and the remaining lamellae on a second rod.

It is particularly advantageous if an arbitrary fraction, preferably one half, of the adjacent pairs of laminations are adjustable independently of the laminar pairs of the other group. Thus, at least one half of the exiting air flow can be blown out in an oblique direction and the remaining half in the opposite oblique direction, so that an optimal distribution of the air can be achieved. This is particularly useful in ceiling units.

For this purpose, it is also proposed that the slats are coupled together in such a way that upon adjustment of the one slat half to the outside, the other slat half is adjusted in the opposite direction to the outside.

Particularly high and accurately directed flows are achieved when the lamellae have a curved cross-section, wherein the outer surfaces which form the air duct, are convex. A simple and secure method of attachment is created when longitudinally arranged screw channels are formed on the inner sides of the slats.

The air outlet speed and the mixing with the room air are further improved by the fact that the lateral end faces of the intermediate space of each pair of slats are open to allow secondary air to enter. For this purpose, it is also proposed that fastened for a free entry of secondary air into the interstices, the fins pairs before the outlet

In order to obtain particularly widely divergent, especially horizontal partial air flows, it is proposed that the axes of a number, in particular one half of the slats lie in a plane which is at an angle α to the plane of the other axes. Here, the angle α 30 to 120 °, in particular about 90 °, amount. In order to obtain more than two partial air flows, it is proposed that the slats are articulated on the sides of a truncated pyramid. Alternatively, it is proposed that the axes of the slats lie in a cylindrical surface.

embodiments

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

Fig. 1: a vertical section through an air guiding device on the wall of a room with horizontally directed into the room airflow;

FIG. 2 shows an air guiding device according to FIG. 1 in a medium inclined position; FIG. 3 shows an air guiding device according to FIGS. 1 and 2 with maximum inclination;

4 shows a vertical section through an air guiding device on the ceiling of a room with vertically downward directed air flow at maximum exit speed;

5 shows an air guiding device according to FIG. 4, whose air flow is divided into two inclined partial air flows; 6 shows an air guiding device according to FIG. 4 or 5 with maximum oblique position of the two partial air flows; 7 is a perspective view of another embodiment with outlet openings arranged at right angles to each other, wherein the lamellae of both outlet openings produce a vertical air flow;

8 shows in perspective the embodiment of Figure 7 with a Lameilenstellung that produces two horizontal air flows. 9 shows a side view of an embodiment similar to FIG. 7 with a right-angled arrangement

Outlet openings, wherein the lamellae of both outlet openings produce a vertical air flow and Fig. 10: in side view of an embodiment similar to Fig. 8 with a lamellar division, which generates two horizontal air streams.

The device has a plurality of fins 1 a; 1 b, which can also be Fiachprofile, flaps, baffles, Venetian blinds can be called and of which two slats 1A; 1 b form a pair of lamellae 2. For this purpose, the slats 1 a; 1 b articulated at one end to an axle 3. This axis 3 is on the air flow source side facing the pair of lamellae, so that the inflowing air 4 first occurs on the axis 3 and then passes into air channels 5, which are each formed between the pairs of lamellae 2. Thus, the adjacent lamellae 1 a; 1 b of two different pairs of lamellae each between them an air duct, which tapers in the direction of flow 6 to the outside. The axis of rotation is provided in the flow direction with a radius which ensures an aerodynamically favorable flow of the air passages. The rotatable about the axis 3 slats 1a; 1 b can be adjusted so that the gap 7 between two lamellae of a pair of lamellae 2 becomes smaller and the air duct 5 is larger and the gap 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 air ducts B, so that the air emerging thereby reaches a very high speed and thus a large room depth. Here, the outflow 8 is equal to or parallel to the direction of flow. 6

If the outflow direction 8 obliquely to the flow direction 6 seih, the slats 1 a are not adjusted by the same angle of rotation as the slats 1 b, but one of the two types of slats 1 a or 1 b is rotated more than the other, so that the in Fig 2 shown oblique center position is achieved. Due to the larger width B, the outflow velocity is lower here than in FIG. 1, so that the lower exit velocities of the supply air cause a smaller penetration depth. If the lamellae are pivoted even more in an inclined position, again turning the lamellae 1 a more counterclockwise than the lamellae 1 b, then the position shown in FIG. 3 is produced, in which the largest free flow cross section (B maximum) is produced. and a maximum inclination and thus Ausströmablenkung is created. The penetration depth achieved is relatively low, but the air deflection is relatively large. The uniform adjustment of all slats 1 a; 1 b, wherein the lamellae 1 a are parallel to each other and are uniformly drehverstellt and the fins 1 b always remain parallel to each other and are adjusted by other rotation angle is generated by a linkage 9, which is perpendicular to the incoming air 4 lying rods 10th and 11, wherein the rod 10 all lamellae 1a and the rod 11 all lamella 1 b connects via the joint 12 with each other. By this type of fastening ensures that all slats 1 a perform the same rotational movements. The same applies to the slats 1 b. In addition, at least one blade 1 a is connected via an oblique articulated rod 13 with a lamella 1 b, said articulated rod 13 obliquely to the incoming air and to the rods 10; 11 is. Thus, the pivot point 14 of the rod 13 on the blade 1 b at a different distance A1 than the distance A2 of the pivot point 15 of the rod 13 on the blade 1 a to the axis of the third

The joints and articulation points can be formed by screw 16, which are integrally formed on the inner sides of the slats. The outer surfaces of the slats 1 a; 1 b are convex, so that the air ducts operate nozzle-shaped. The embodiment of FIGS. 4 to 6 differs from that of FIGS. 1 to 3, characterized in that a part 2 a of the lamellae is pivotable to one side and the other part 2 b of the lamellae to the other side, so that the inflowing air flow is shared. Such splitting of the airflow to two opposite sides is particularly advantageous when the air outlet is on the ceiling of a room or hall.

In this embodiment according to Figures 4 to 6, the linkage in each case two pairs of rods 10; 11, of which a pair of rods controls the second Lamellei egg 2 b. Here, operating rods are hinged to the rods so that when pivoting the slats of a part 2a or half of the other part 2 b or the other half pivoted in the opposite direction of rotation. The slats 1 a; 1 b of a single pair of lamellae 2 form between them the gap 7, which is open to the end faces to allow secondary air to enter. This secondary air then flows out in the outflow direction 8, since it is entrained by the air flowing through the air channels 5 air. It is important that the smallest free flow cross section of the air duct 5 far ahead of the free ends of the slats 1 a; 1 b is located. In order to ensure a free admission of secondary air in the interstices 7 in a particularly simple manner, the lamellae are arranged so far in front of the outlet of a device or an air duct, that the end faces are free.

In the embodiment of Figures 7 and 8, one half of the slats and thus four slats 1a; 1 barn edge of a first outlet opening 17 which is inclined at 45 ° to the inlet opening 19, wherein the second outlet opening 18 forms an angle of 90 ° to the first outlet opening 17 and an angle of 45 ° to the inlet opening 19. The three openings 17; 18; 19 thus form a straight prism with a right-angled and isosceles triangle as a base. Alternatively, four outlet openings may be provided which form a truncated pyramid whose base forms the inlet opening. In this case, the upper surface of the stump, which is parallel to the inlet opening, can form a further outlet opening. In the vertical slat position of Figure 7, the air flows of both outlet openings 17; 18 a vertical total air flow 20 and in the position of Figure 8, two partial air streams 21; 22, which are horizontally oppositely directed and thus flow along the ceiling of a hall or a room.

The embodiment of Figures 9 and 10 differs from that of F.j.7 and 8 essentially in that the lamellae 1 a; 13 connecting rods 10; 11; 13 are shown and between the innermost and thus the bottom two fins in Gehäuseinnem a right angle bent air guide plate 23 is arranged, which prevents air flow between these two fins.

Claims (14)

1. A device for directing an air flow through mutually parallel lamellae, which are arranged at the outlet of the air flow leading, in particular generating device, wherein each two fins are hinged with their in the Luftstromquelie facing lateral longitudinal edges on one axis or two axes lying close to each other rotatably to form a Lamelienpaarzu forming with adjacent pairs of slats air ducts whose width is variable by pivoting the slats, characterized in that the slats (1 a; 1 b) are adjustable by pivoting, that in a flow direction (8) in and after the air ducts (5) in the direction of the inflowing air (6), the air ducts (5) have a smaller width (B) than in an oblique direction to the inflowing air (6). 2. Apparatus according to claim 1, characterized in that the lamellae (1 a, 1 b) by a linkage (9; 10; 11) are adjustable. 3. Apparatus according to claim 2, characterized in that each second blade (1 a) at a first to the inflowing air right-angled rod (10) is hinged and the other blades (1 b) to a second rod (11). 4. Apparatus according to claim 2 or 3, characterized in that a Teii (2 a), in particular about one half of the adjacent pairs of slats (2) independently of the pairs of slats (2) of the other part (2 b) or half is adjustable. 5. Apparatus according to claim 4, characterized in that the lamellae (1 a, 1 b) are coupled together in such a way that at an adjustment of the one lamella part (2 a) to the outside of the other lamella part (2 b) in the opposite Direction is adjusted outwards. 6. Device according to one of the preceding claims, characterized in that the lamellae (1 a, 1 b) have a curved cross section, wherein the outer surfaces which form the air duct, are convex. 7. Device according to one of the preceding claims, characterized in that longitudinally arranged on the inner sides of the lamellae screw channels (16) are integrally formed. 8. Device according to one of the preceding claims, characterized in that at least one lamella (1 a) of a pair of lamellae (2) with that lamella (1 b) of another pair of lamellae (2), which is not parallel to the first lamella (1 a) , is connected via a link rod (13), wherein the two pivot points (14; 15) at different distances (A 1) and (A2) to the axes (3). 9. Device according to one of the preceding claims, characterized in that the lateral end faces of the intermediate space (7) of each pair of lamellae (2) are open to allow secondary air to enter. 10. The device according to claim 9, characterized in that for a free entry of secondary air into the intermediate spaces (7) the pairs of lamellae (2) are fixed in front of the outlet. 11. Device according to one of the preceding claims, characterized in that the axes (3) of a number, in particular one half of the slats (1 a, 1 b) lie in a plane which is at the level of the other axes (3) at an angle (α) is located. 12. The device according to claim 11, characterized in that the angle (α) is 30 to 120 °, in particular about 90 °. 13. The apparatus of claim 11 or 12, characterized in that the lamellae (1 a, 1 b) are articulated on the sides of a truncated pyramid. 14. Device according to one of claims 1 to 10, characterized in that the axes (3) of the lamellae (1 a, 1 b) lie in a cylindrical surface.