DE202008014690U1 - Air outlet for air conditioning and ventilation systems - Google Patents

Abstract

Air outlet for air conditioning and ventilation systems with at least one of a passage area (2) surrounded air outlet (1), wherein the Ausströmquerschnitt at least one air outlet (1) is variable in size, characterized in that for the use of the air outlet even with variable air flow rates the air outlet in the region of at least one variable in size air outlet opening (1) is formed so that with increasing pressure difference and thereby increasing, through the air outlet (1) flowing air volume flow, the size of Ausströmquerschnittes the respective air outlet (1) by the air flow against a restoring force increases and decreases in decreasing pressure difference and thereby decreasing air flow, the size of the Ausströmquerschnittes due to the restoring force again.

Description

The The invention relates to an air outlet for air conditioning and ventilation Installations with at least one air outlet opening surrounded by a passage area, wherein the outflow cross section at least an air outlet opening changeable in size is.

Become an induction device mainly with constant primary air volume flow operated. Due to the increasing proportion of needs-based ventilation and the reinforced one Use in other application areas, such as meeting rooms or Laboratories, induction devices are increasingly being operated with variable primary air volume flows. in the The prior art are induction devices with air outlets, in particular designed as induction nozzles air outlets, known in which the induction nozzles made of steel or plastic exist or are punched out. Such induction nozzles have an unchangeable one outflow and a solid geometry. As a result, the primary air volume flow range is limited because a certain induction ratio for one beam stability is required. The lower part gives the restriction by a minimum pulse current for a sufficient induction and a suitable flow structure needed becomes. In the upper area, the primary air volume flow is due to the high blow-off speed and the resulting sound power level limited. In some known induction devices is a manual or motorized adjustment of the induction nozzle possible to the induction device to others Switch over flow ranges.

task The invention is to avoid the aforementioned disadvantages and specify an air outlet, where the size of the Ausströmquerschnittes easier to change is.

These Task is solved by that for the Use of the air outlet even with variable air flow rates of Air outlet in the range of at least one variable in size air outlet is designed so that with increasing pressure difference and thereby rising through the air outlet pouring Air volume flow the size of the outflow cross section the relevant air outlet by the pressure against a restoring force increases and decreases in pressure difference and thereby diminishing Air volume flow the size of the Ausströmquerschnittes due the restoring force decreases again. Under the pressure difference, the difference of the pressures in the flow direction Seen before and behind the air outlet. That fits the size of the outflow cross section automatically to the current pressure, leaving the air outlet and so that, for example, the induction unit with the corresponding air outlets in larger volume flow ranges and thereby variable use.

The Size of the outflow cross section varies depending on from the pressure difference between the room and - when using the air outlet according to the invention in an induction unit - the primary air chamber. This is the size of the outflow cross section at high differential pressures, d. H. high volume flows, elevated. When the differential pressure decreases, d. H. at falling volume flows, finds an automatic Reduction instead. With this measure, the practically usable Primary air volume range an induction device be significantly expanded, since the size of the outflow cross section to the desired Volumetric flow adapts.

at an embodiment may be provided an element that the theoretical free outflow reduced and through the air flow such against a restoring force can be shifted, that the free Ausströmquerschnitt the air outlet opening is increased.

there For example, the element may have a cross-sectional area increasing in the direction of the air flow and with increasing pressure difference, d. H. with increasing airflow, a smaller and falling pressure difference, d. H. decreasing air flow, a larger proportion of the maximum possible Ausströmquerschnittes close. The element can in both extreme positions the outflow cross section Completely close and almost at high air flow rates Completely release.

The Element may be pointed or blunt. The cross section of the element may be formed point or mirror symmetry. For example, the element may be wedge-shaped, conical or frustoconical be educated.

Preferably is the cross section of the element at least approximately the embodiment the air outlet opening customized. It lends itself, for example, if in a round Air outlet of the Cross section of the element is also round, so that between the element and the edge of the air outlet opening an annular gap forms.

The element can be displaced, for example, in its position in the direction of the flow direction. At high pressure difference, ie high air flow rates, the element is displaced against a spring force, so that increases the free Ausströmquerschnitt. With decreasing air flow, ie at lower primary air chamber pressure in an induction device, the element shifted by the force exerted by the spring restoring force in the direction of the outlet opening, and thus reduces the available Ausströmquerschnitt the outlet opening.

Preferably can at least the passage area of an air outlet to the change the size of the Ausströmquerschnittes at least partially made of an elastic material, such as a film, an elastic plastic or the like. In one embodiment is the passage area that surrounds and forms the air outlet opening, at least partially, preferably completely, of an elastic Material, such as rubber, foil or elastic plastic. At high pressure difference bulges the elastic material turns outwards. This increases the outflow cross section by the expansion of the elastic material.

In induction units are usually several exhaust vents intended. This is useful if, for example, a strip is used from the elastic material, the strip having a plurality of corresponding air outlet openings. The stripe is circumferentially mounted in the induction device. With rising Pressure in the primary air chamber bulges the strip to the outside and the elastic material is stretched, whereupon the outflow cross section each air outlet opening increased. at Such an embodiment increases the Ausströmquerschnitt essentially only in the transverse direction to the strip.

At least the passage area of an air outlet opening may be a nozzle-like having trained collar, wherein at least the collar for change the size of the Ausströmquerschnittes partially made of an elastic material. At a Such an embodiment, the relevant air outlet opening as Nozzle, in particular as induction nozzle, educated.

The Induktionsdüse can completely made of an elastic material. Of course it is but it is also possible that the nozzle only for example one or two parallel to the flow direction having aligned regions of an elastic material. Also by this configuration causes an increasing pressure difference a widening of the nozzle and thus an enlargement of the Ausströmquerschnittes.

in the Below are embodiments shown in the drawings of the invention explained. Show it:

1 a plan view of an air outlet with an air outlet opening, wherein the passage area consists of an elastic material,

2 a strip of elastic material having a plurality of juxtaposed air outlet openings,

3a a cut in the direction of AA through the objects after the 1 and 2 at low pressure difference,

3b a cut in the direction of AA through the objects after the 1 and 2 at high pressure difference,

4 an air outlet opening with a nozzle-like collar, wherein the collar consists of an elastic material and

5 an air outlet with a displaceable against a restoring force element.

In The figures are several embodiments an air outlet according to the invention shown.

1 shows an air outlet with an air outlet opening 1 passing through a passageway 2 is included. This passage area 2 consists of an elastic material. The passageway area 2 is annular in the illustrated embodiment and is externally tigungsstreifen from a likewise annular trained Befes 3 , which is connected to components not shown further comprises.

At low pressure differences, as in the sectional view in 3a shown, no bulging of the elastic material instead, since the size of the Ausströmquerschnittes the air outlet 1 is sufficient. Climb in the direction of the arrow 4 flowing air volume flow, the elastic material bulges due to the increasing pressure difference, as in the sectional view in 3b shown, in the flow direction of the air flow (arrow 4 ). This decreases the size of the Ausströmquerschnittes the air outlet 1 to.

In 2 is an embodiment, as used for example in induction devices used. Here is a strip 5 shown having a plurality of juxtaposed air outlet openings 1 and passageways 2 includes. The stripe 5 itself consists of an elastic material and is on the edge of attachment strips 3 connected with components not shown. There 2 only a part of the strip according to the invention 5 shows, only at the two opposite longitudinal edges each have a fastening strip 3 indicated. It needs no nä Heren explanations that even at the two free ends, ie at the short edges of a suitable attachment, for example in the form of a fastening strip 3 , is provided.

With increasing pressure difference, as it is in 3b is shown, the elastic material is curved substantially in the transverse direction. While the air vents 1 At low pressure differences in the illustrated exemplary embodiment from a substantially circular Ausströmquerschnitt, as in 2 is shown, the Ausströmquerschnitt the air outlet 1 due to the substantially only in the transverse direction curvature with increasing pressure difference more and more oval.

In 4 an embodiment is shown in which at the air outlet opening 1 a nozzle-like trained collar 6 is provided, the collar 6 consists of an elastic material in the illustrated embodiment. With solid lines are the collar 6 and the air outlet 1 shown at low pressure difference. As the pressure difference increases, the collar expands 6 and assumes the contour shown in dashed lines. This increases the size of the Ausströmquerschnittes the air outlet 1 ,

In 5 is an air outlet 1 shown, with the edge of the air outlet 1 in the direction of the airflow (arrow 4 ) is angled. Inside the air outlet 1 there is a cone-shaped element 7 that has a connector 8th with a clasp-shaped spring element 9 connected is. The element 7 is in and against the direction of the air flow (arrow 4 ) relocatable. The outflow cross section of the air outlet opening 1 is due to the centrally located element 7 as a circulating between the element 7 and the passageway area 2 arranged gap formed.

If the pressure difference increases, the element becomes 7 against the of the spring element 9 generated restoring force in the direction of the air flow (arrow 4 ) relocated. This decreases the size of the Ausströmquerschnittes the air outlet 1 to. As the pressure difference decreases, the element becomes 7 by the restoring force of the spring element 9 again counter to the flow direction (arrow 4 ) and thus reduces the size of the Ausströmquerschnittes.

Claims (5)

Air outlet for air conditioning and ventilation systems with at least one of a passage area ( 2 ) surrounded air outlet opening ( 1 ), wherein the outflow cross-section of at least one air outlet opening ( 1 ) is variable in size, characterized in that for the use of the air outlet even with variable air flow rates of the air outlet in the region of at least one variable in size air outlet opening ( 1 ) is formed so that with increasing pressure difference and thereby increasing, through the air outlet ( 1 ) flowing air volume flow, the size of the Ausströmquerschnittes the relevant air outlet opening ( 1 ) increases by the air flow against a restoring force and the size of Ausströmquerschnittes decreases due to the restoring force with decreasing pressure difference and thereby decreasing air flow. Air outlet according to the preceding claim, characterized in that an element ( 7 ) is provided, that the theoretical free Ausströmquerschnitt reduced and can be displaced by the air flow against a restoring force such that the free Ausströmquerschnitt the air outlet opening ( 1 ) is increased. Air outlet according to the preceding claim, characterized in that the element ( 7 ) one in the direction of the air flow (arrow 4 ) has increasing cross-sectional area and closes with increasing air volume flow each smaller and with decreasing air volume flow a respective larger proportion of the maximum possible Ausströmquerschnittes. Air outlet according to one of the preceding claims, characterized in that at least the passage area ( 2 ) an air outlet opening ( 1 ) For changing the size of the Ausströmquerschnittes at least partially made of an elastic material. Air outlet according to one of the preceding claims, characterized in that at least the passage area ( 2 ) an air outlet opening ( 1 ) a nozzle-like collar ( 6 ), wherein at least the collar ( 6 ) For changing the size of the Ausströmquerschnittes partially made of an elastic material.