DE1604169B1 - Air outlet for a ventilation system - Google Patents

Description

The invention relates to an air outlet for a ventilation system that has a tube with air-permeable material.

Such an air outlet is from the German utility model 1891700 known. In this known air outlet, the air-permeable jacket consists of a granulate that is bound together by a binder to form a porous substance is. The known air outlet is turned into the train of an air line and guides the main flow of ventilation air. A device for regulating the through The ventilation air occurring the air outlet is not in this known air outlet intended.

The invention is based on the object of providing a ventilation duct in the train to create usable air outlet, the draft-free ventilation with adjustable Air volume allows.

This task is performed with an air outlet for a ventilation system that has a tube with an air-permeable jacket, solved in that through the tube a second tube with a smaller cross-section and an air-impermeable jacket runs, which forms an annular space with the air-permeable jacket of the larger pipe, which is closed at one end and which has a throttle device at the other end, through which the ventilation air can flow from the inner tube into the annulus.

In the case of the air outlet according to the invention, the venting air is discharged regardless of the position of the throttle body over the entire surface of the air-permeable Jacket, so that the ventilation air is draft-free and evenly in the area to be ventilated Room is radiated. - Has in an advantageous embodiment of the invention the throttle body two coaxial, one above the other and one from the other by one perforated wall separate annular chambers, one of which is a Rinkkammer on her to the Annular space adjoining end has an open passage to the annular space and at which the other end is closed, while the other annular chamber has an open passage to the tube with the smaller cross-section, 'where the perforated wall goes through a slide can be closed. A proven, simple construction of the slide is characterized according to a further embodiment of the invention that the Slide a tight against the walls of an annular chamber, in the axial direction sliding ring is.

The subject matter of the present invention is explained in detail with reference to a preferred embodiment shown in the drawings. It shows F i g. 1 shows a longitudinal section of the air outlet in a perspective illustration and FIG. 2 shows a perspective external view of the air outlet: the actual air outlet element is the porous tube 1, which consists, for example, of plastic granules glued together. - The air flows through ... the capillaries between the granules in the direction of the arrows 21 into the open air. The porous tube 1 is clamped between the flange 20 and the clamping flange 4 by means of the die tie rods 3 and the screws 12 and 13 screwed into them. Attached to the clamping flange 4, oriented radially inward, are three supports 15 which support the guide tube 2 which is arranged centrally within the porous tube 1 and which has a conical widening 2 a at one end. At the end of the conical enlargement 2a, this is flanged and attached to the flange 20 with this flanged edge. The guide tube 2 extends into the region of the flange B. In the flanges 8 and 20 , threaded barrels 14 are provided for connection to the air line system. The outer diameter of the porous tube 1 corresponds to that of the outer jacket 11, which is fastened to the flange 8 and to the clamping flange 4. Between the outer jacket 11 and the guide tube 2, the sieve tube 6 is fastened at one end to the flange 8 and at the other end to the annular disk 7. The length of the sieve tube 6 is smaller than that of the outer jacket 11, so that there is a certain distance between the annular disk 7 and the clamping flange 4, the size of which depends on the fluidic point of view. The flowing air enters the air outlet in the direction of arrow 22, the inner diameter of the air duct system, not shown, at the point where it is connected to the air outlet, the inner diameter of the sieve tube 6 on the inlet side and the diameter of the outlet side conical enlargement corresponds to 2 ä. The adjusting ring 5 is arranged displaceably between the outer casing 11 and the sieve tube 6 and has an outer seal 16 which rests on the outer casing 11 in a sealing manner and an inner seal 17 which rests in a sealing manner on the sieve tube 6; Depending on the distance between the adjusting ring 5 and the edge of the sieve tube 6 ending at the annular disk 7, the amount of air corresponding to the position of the adjusting ring 5 flows into the annular space between the guide tube 2 and the porous tube 1. In the outer jacket 11 there is a slot 11 a, the runs helically in the manner of the slot of a bayonet lock. An adjusting lever 9, which is fastened in the adjusting ring 5, protrudes through the slot 11 a. The slot 11a runs over the entire area of the sieve tube 6, the slope of the helical slot being oriented towards the force required to turn the adjusting ring 5 in a helical manner for the purpose of longitudinal adjustment. The arrow 18 shows the direction of the volume of air divided off to flow out of the porous tube 1, while the arrow 19 shows the direction of the air flowing on in the guide tube 2. In one end position of the adjusting 5 in the vicinity of the ring disc 7, which seals the sieve tube 6 against the guide tube 2 at this point, no air can get through the sieve tube into the space between the guide tube 2 and the porous tube 1. If the adjusting ring 5 is in the other end position, in the area of the flange 8, the entire surface of the sieve tube is available for air to pass through. When the adjusting ring 5 is in a corresponding intermediate position, an amount of air corresponding to the passage area and the pressure flows through the sieve tube 6. The slot 11 a is surrounded for sealing purposes by a sleeve 10 which has a bore only at the point at which the adjusting lever 9 is carried out. The cuff 10 has enough play so that it can easily be moved along with the adjustment of the adjusting ring 5. On the adjusting lever 9, locking elements, not shown, are arranged with which the adjusting ring 5 can be locked after the adjustment. For this purpose, for example, a handwheel with an internal thread can be used, which fits onto a thread attached to the adjustment lever 19 and which can be screwed tightly against the outer casing 11.

Claims (3)

Claims: 1. Air outlet for a ventilation system, which is a pipe with an air-permeable jacket, characterized in that through the pipe (1) a second tube (2) with a smaller cross-section and an air-impermeable jacket runs, which forms an annular space with the air-permeable jacket of the larger pipe (1) forms, which is closed at one end (20) and which is a throttle member at the other end has, through which the ventilation air from the inner tube (2) flow into the annulus can. 2. Air outlet according to claim 1, characterized in that the throttle member two coaxial, one above the other and one from the other through a perforated wall (6) has separate annular chambers, one of which is an annular chamber on its to the annular space subsequent end has an open passage to the annulus and at her other End is closed, while the other annular chamber has an open passage to the Tube (2) with the smaller cross-section, and that the perforated wall (6) through a slide (7) can be closed. 3. Air outlet according to claim 2, characterized in that that the slide (7) is a tightly fitting against the walls (6, 11) of an annular chamber, is axially displaceable ring.