DE19753888C1 - Pressurized air outlet for building - Google Patents

Abstract

The outlet has a casing with a connection stub and multiple air discharge opening in an outlet face with a mesh in a flow separating and guide chamber. A section (9) of the mesh (6) is movably mounted and is removable from the dividing plane between the air separating and guiding spaces

Description

The invention relates to a displacement air outlet with a housing that a Connection piece and a variety of arranged in an air outlet surface Has air outlet openings and by means of a perforated plate arranged therein in one Distribution room and a rectifier room is divided.

Such displacement air outlets are generally known and are used for low-turbulence Blow out the supply air, whereby the blow-out speed is usually less than 1 m / s. Due to the low blowing speed, the jet course is very different from that Temperature difference between the supply air and the room air. During the cooling case compared to room temperature, cooler supply air tends to drop downwards, In the case of heating, the supply air supplied with excess temperature escapes to the ceiling area so that it unsatisfactory warming of the living area occurs.

For this reason, displacement air outlets are usually designed to be adjustable. To the State of the art include adjustment mechanisms, such as rotary flaps, which can be moved Disks, sliding aperture rings, openable outlet floors and a pivoting of the entire blow-out element.

DE 39 35 620 A1 describes a device for generating low-turbulence Displacement flow known from a distribution space and one below it connected annulus exists. The inner wall of the annulus is one Core tube formed. With outlet openings arranged on the bottom, supply air from the Distribution room either in whole or in part via external outlet openings in the Annulus or in whole or in part via a central outlet opening in the core tube be blown out. In addition to this, there is still a parallel to the core tube flow Air outlet through an annular outlet opening from the distribution space, which is extends outside the perforated sheet jacket, possible. The supply air introduced into the annulus is led into the room to be ventilated via perforated plates, which serve as an external boundary.  

The rays emerging from the core tube and the annular outlet opening can be the Induce the rays emerging from the perforated sheet jacket in such a way that there is little turbulence Displacement flow results.

Thus, while the core tube is closed and the annular outlet opening is closed the entire supply air exits through the perforated sheet jacket at a low air speed (Cooling case), is used to achieve a higher penetration depth of the supply air when heating, especially at very high supply air temperatures, the core tube and the ring-shaped Outlet opening fully open, while an air outlet from the perforated sheet jacket is prevented. Due to the outer ring-shaped air outlet opening is around an air jet apron is formed in the supply air stream flowing into the core tube, which, in Connection with high outflow speeds, a large penetration depth of the supply air allows.

The structure and the adjustment mechanisms of the device described above are, however complicated, which results in high production costs.

The invention has for its object to propose a displacement air outlet, the is simple in its construction and is nevertheless an effective adjustment of the Air outlet direction allowed.

Starting from a displacement air outlet of the type described at the beginning, this is Object achieved according to the invention in that a section of the perforated plate is movable stored and from a level between the distribution room and the Rectifier room is removable.

In the displacement air outlet according to the invention is therefore a very simple possibility created to adjust the beam direction. The one located inside the case  In any case, perforated plate is available to avoid any displacement air outlets Adjustment option to achieve an even air outlet. With very simple ones constructive measures can be taken by removing a section of the perforated plate achieve a very effective beam adjustment.

If the perforated plate section is removed from the parting plane, it can be done with a certain Inlet air supplied with excess pressure in this area is throttled into the rectifier chamber occur, which is why there is a larger volume flow in this area than in the non-distant one Set the condition of the perforated plate section. There is thus a flow through the Rectifier room instead, which not only runs vertically to the perforated plate, but also one Component received parallel to the perforated plate. This oblique flow of Rectifier room also causes an oblique outflow of air from the Air outlet area.

If the perforated plate section can be removed continuously from the parting plane is provided, can thus, starting from a vertical outflow from the Air outlet surface, also achieve a stepless deflection of the air jet.

Two particularly simple ways of realizing the removability of the Perforated plate section consist in that the section of the perforated plate is pivotable or is movable.

The adjustment of the blow-out direction is particularly effective and the jet pattern is special homogeneous if the section of the perforated plate in an edge region of the perforated plate is arranged.  

For a displacement air outlet with a housing with a rectangular cross section it makes sense that the section of the perforated plate extends over the entire width of the housing extends and the removable portion is foldable onto the fixed part of the perforated plate.

If a displacement air outlet with a cylindrical housing is the inventive Obtaining features so it is advantageous if several sections of one also cylindrical inner perforated plate are foldable.

To form a displacement air outlet according to the invention with a housing, the has a trapezoidal or semi-octagonal cross section and a rear wall forms a baseline of the trapezoid or a center line of the octagon, it is recommended that sections of the trapezoidal or semi-octagonal shaped section adjoining the rear wall Perforated sheets are foldable.

Finally, it is proposed that the movable section of the perforated plate and that other perforated plates have the same hole diameter. This results in particular advantages if the section that can be removed from the parting plane onto the rest Perforated plate is pushed or folded, since then the congruence is complete Holes of the touching perforated plate sections can be achieved.

The invention is based on several embodiments that are shown in the drawing are shown schematically, explained in more detail. It shows:

Fig. 1 shows a longitudinal section through a Verdrängungsluftauslaß,

FIG. 2 to FIG. 1 showing the beam path with the flap closed,

Fig. 3 to Fig. 2 but with the flap open,

Fig. 4 shows a longitudinal section through a cylindrical displacement air outlet and

Fig. 5 shows a section through a semi-octagonal air passage.

Fig. 1 shows a displacement air outlet 1 with a housing 2 , which has a connecting piece 3 and a plurality of air outlet openings 4 , which are arranged in an air outlet surface 5 . The air outlet surface 5 is formed by a perforated plate.

The inside of the housing 2 is divided into a distribution space 7 and a rectifier space 8 by a perforated plate 6 . The perforated plate 6 brings about an equalization of the air outlet from the air outlet openings 4 , in which it ensures a comparatively homogeneous supply of air to the rectifier chamber 8 .

An upper section 9 of the perforated plate 6 is pivotally mounted about a hinge 10 and can therefore be partially or completely removed from the separation plane defined by the perforated plate 6 between the distributor space 7 and the rectifier space 8 . The foldable section 9 of the perforated plate 6 and the rest of the perforated plate 6 have the same hole diameter so that in the completely folded-down position of the section 9 a congruence can be established, that is to say that the holes of the perforated plate sections touching one another correspond to one another.

In Fig. 2 it is shown that a horizontal outflow direction is established when the section 9 of the perforated plate 6 is in the folded-up position. In this case, the displacement air outlet 1 shown has the same jet characteristic as an outlet which is equipped with a continuous rigid perforated plate 6 .

In Fig. 3, the discharge pattern is shown which arises when the section 9 is completely folded down in the perforated plate 6 and therefore releases a maximum flow cross section between the distribution space 7 and the rectifier chamber 8 in the folded area. Due to the increased volume flow in the upper portion in the rectifier chamber 8 results in a helical flow through said rectifier space 8, which in turn is reflected in an obliquely downwardly directed outflow out of the air exit surface. 5

Any intermediate positions can be realized between the two extreme positions of the foldable section 9 of the perforated plate 6 shown in FIGS . 2 and 3, as a result of which any blow-out directions between the characteristics shown can also be realized.

Fig. 4 shows a displacement air outlet 1 'with a cylindrical housing 2 ', the jacket-shaped air outlet surface 5 is formed entirely by a perforated plate. The inner perforated plate 6 'is also cylindrical and separates the inner distributor space 7 ' from the outer rectifier space 8 'arranged coaxially therewith. Two sections 9 'of the perforated plate 6 ' are rotatably mounted by means of hinges 10 '. These sections are diametrically opposed and, for reasons of foldability, do not have too great a length extension. It is possible to provide a plurality of sections 9 'diametrically opposed in pairs, each of which is supported with separate hinges 10 ' or to move the entire section parallel to the perforated plate 6 '.

Finally, FIG. 5 shows a section through a semi-octagonal displacement air outlet 1 ″, which is also provided with an essentially semi-octagonal inner perforated plate 6 ″. In the edge areas of the inner perforated plate 6 ″, which adjoin a rear wall 11 on both sides of the air connection piece 3 , there is in each case a pivotable section 9 ″ of the perforated plate 6 ″, with which in the folded-down state there is a direct connection between the distributor space 7 ″. and can create the rectifier room 8 ''. Depending on the position of the foldable sections 9 ″, the air jet emerging from the displacement air outlet 1 ″ can be fanned out to a greater or lesser extent.

Claims (8)

1. displacement air outlet with a housing, which has a connecting piece and a plurality of air inlet openings arranged in an air outlet surface and is divided into a distribution space and a rectifier space by means of a perforated plate arranged therein, characterized in that a section ( 9 , 9 ', 9 '' ) of the perforated plate ( 6 , 6 ', 6 '') is movably mounted and can be removed from a separation level between the distributor space ( 7 , 7 ', 7 '') and the rectifier space ( 8 , 8 ', 8 ''). 2. Displacement air outlet according to claim 1, characterized in that the section ( 9 , 9 ', 9 '') of the perforated plate ( 6 , 6 ', 6 '') is pivotable. 3. displacement air outlet according to claim 1, characterized in that the section ( 9 , 9 ', 9 '') of the perforated plate ( 6 , 6 ', 6 '') is displaceable. 4. displacement air outlet according to one of claims 1 to 3, characterized in that the section ( 9 , 9 ', 9 '') of the perforated plate ( 6 , 6 ', 6 '') in an edge region of the perforated plate ( 6 , 6 ', 6 '') is arranged. 5. displacement air outlet according to one of claims 1 to 4, characterized in that the housing ( 2 ) has a rectangular cross section and the section ( 9 ) of the perforated plate ( 6 ) extending over the entire width of the housing ( 2 ) on the fixed part of the perforated plate ( 6 ) can be folded. 6. displacement air outlet according to one of claims 1 to 4, characterized in that the housing ( 2 ') is cylindrical and a plurality of sections ( 9 ') of a likewise cylindrical inner perforated plate ( 6 ') are foldable. 7. displacement air outlet according to one of claims 1 to 4, characterized in that the housing ( 2 '') has a trapezoidal or semi-octagonal cross section, with a rear wall ( 11 ) forming a baseline of the trapezoid or a center line of the octagon, and that sections ( 9 '') of the trapezoidal or semi-octagonal perforated plate ( 6 '') adjoining the rear wall ( 11 ) can be folded. 8. displacement air outlet according to one of claims 1 to 7, characterized in that the movable section ( 9 , 9 ', 9 '') of the perforated plate ( 6 , 6 ', 6 '') and the remaining perforated plate ( 6 , 6 ', 6 '') have the same hole diameter.