DE4310959C1 - Air outlet - Google Patents

Abstract

The invention relates to an air outlet having at least one air discharge opening associated with an air chamber supplied continuously with preferably conditioned supply air, and having a pressure-increasing device which generates in the air chamber preferably pulse-like, in particular periodic, air-pressure increases such that corresponding air quantities are in each case expelled from the air discharge opening as vortices along a vortex street (in accordance with Patent 4133278). There is provision for at least one pressure frequency source (30) for generating air-pressure oscillations to be associated with the air chamber (2). <IMAGE>

Description

The invention relates to an air outlet with min least an air outlet opening, which a con continuously with preferably treated supply air supplied air chamber is assigned, and with a Pressure booster in the air chamber impulsive Air pressure increases generated so that correspond air volumes as vortices along one Vortex street out of the air outlet opening are encountered, according to patent 41 33 278.

Air outlets are in many different construction known shapes. They serve, for example to ventilate a lounge or to climate tize. The distance between the stay zone in the common room and the individual air outlets is often relatively large.

Are the rooms to be ventilated? for example around halls, there are installation heights of 6 up to 8 m or installations on the side walls of the Halls in front, the halls being a width of 20 to Can have 30 m. The supply air temperature is from depending on the respective heating or cooling load. she can  for example in the range between 16 ° and 30 ° C lie. The penetration depth of the supplied air in the room is from the difference to room temperature dependent. Especially if you want to heat, is a correspondingly high blowing speed the supply air emerging from the air outlet necessary to blow deep enough into the room sen. There are long distances to be overcome, for example wise in the halls mentioned above, he said usually bring no conventional air outlets peaceful result. Induction effects are in Larger amounts undesirable because pollutants that gathered above the area where the room is located this area of residence by entering redirect the supply air by adding leads.

The main patent 41 33 278 therefore looks to solve the problem supply, especially through larger Ent to bring distances without causing a we substantial mixture with the ambient air, before that the air chamber a booster device device is assigned in the air chamber pulsed air pressure increases generated so that corresponding Air volumes each as a vortex along a vortex street ejected from the air outlet opening become. The continuously in the air chamber flowing supply air is due to the pressure increase device in pulses from the air outlet ejection, causing eddy formation  comes so that vortexes along a desired Direction, that is along the vortex mentioned street, the residential zone are fed. This Air vortices form relatively due to their swirl tightly held together structures, so that it only to an insignificant meddling of reverse air comes when these vortices run along the we belstrasse will be held. The impulsive end kick the air vortex causes them to be targeted over large distances of the desired room zone are feedable.

It is therefore possible with such an air outlet Lich, the air into the desired zone of the rough mes to bring.

A lot about the air outlet after the main patent sided use, it is provided that the air chamber at least one pressure frequency source assigned to generate air pressure vibrations is.

In addition to the pressure boosting device that does this serves to swirl the air out of the air outlet opening ejecting is another facility namely the pressure frequency source provided with the Air pressure vibrations within the air chamber be fathered. These air pressure vibrations serve not ejecting the vertebrae, but influencing them the vertebral discharge. Depending on the type and strength of the Air pressure vibrations can be particularly the one penetration depth of the vortex into the room to be ventilated to be influenced. It is also possible to get rich direction of the expelled vortices, i.e. the direction to influence the vortex street. Furthermore, there is  Possibility of expanding the vertebrae, that is, the vertebral enlargement in the course of the transverse Whirling movement. Through these legs Flowability can occur in the heating case, ie when heated Air is blown into the room, the eddies wide who is brought into the lounge area of the room the, so that for example in the floor area sufficient heating is achieved so that People who are in the room are subjectively comfortable feel. In the cold case, when cooled air in the space is introduced, the depth of penetration the air vortex by adjusting the pressure fre source are changed so that the vertebrae less far than in the heating case in the room to avoid drafts caused by people in this zone as to be uncomfortable.

It is also advantageous if the pressure frequency source an electromagnetic excitation device having. Such an excitation device leaves very easily with signals of various types control, whereby the desired influence can take place on the expelled vertebrae. The pressure frequency source can be in particular as or be designed like a loudspeaker, the means it has an electromagnetic Er excitation device and one excitable by this Membrane located inside the air chamber or a wall or part of a wall of air chamber forms. This pressure frequency source is in front preferably to an electrical frequency generator connected, the selectable control voltages  testifies so that the pressure frequency source in ent speaking way can be excited. The Control voltage can be in its curve shape and / or ver in frequency and / or amplitude changes and specified in the desired manner. So it is possible, for example, different Forms of voltage, such as sine voltages, square wave voltages, triangular voltages etc. of the pressure frequency source that is of the appropriate type and Wise responds and assigned air pressure fluctuations generated. A frequency selection enables especially a resonance state in the air came mer generate, which is a particularly strong Be influence on the air vortex is possible. With of the adjustable amplitude of the control chip The strength of the air pressure vibrations can be be influenced, which also affects leads the vortex to be expelled.

It is preferably provided that the pressure frequency source is opposite the air outlet opening. For example, the air chamber can be in the form of a cube ger or cuboid space. The Pressure frequency source is then on the wall of air chamber arranged, that of the air outlet opening provided wall of the air chamber is opposite. Al lerdings besides this be mentioned above preferred variant, other designs are possible, that is, the pressure frequency source can also on egg ner other wall of the air chamber may be arranged. In the aforementioned preferred embodiment play the opposite of the air outlet opening and pressure frequency source may also be provided  be that in one of the walls of the air chamber a zu air line opens, this wall neither the Pressure increasing device still the pressure frequency source. By means of the supply air line, the Air chamber continuously supplied with air that is then blown out through the exhaust port and by means of the pressure increasing device in her Flow shape is affected. According to other executions For example, another assignment can also be used supply air line, that is, it can also open into a wall, for example also has the pressure frequency source.

It is possible that the pressure increasing device works on the electromagnetic principle that means it has a coil on electro magnetically moves a membrane, which in pulse-like air pressure increases can be generated to expel the vertebrae. This same elek tromagnetic device can also from the electrical frequency generator are excited, so that they bil the pressure frequency source det, with the vibrations generated to bring about carry out the air pressure vibrations speaking impulses are superimposed on the vertebrae eject.

The drawings illustrate the invention based on exemplary embodiments and shows:

Fig. 1 an air outlet for the discharge of Toruswirbeln,

Fig. 2 is a plan view of the air outlet of FIG. 1 and

Fig. 3 shows an air outlet for the exit of vortices.

Fig. 1 shows an air outlet 1 , which is shown only schematically. The air outlet 1 has an air chamber 2 , which is cubic. It has a front wall 3 , a rear wall 4 , side walls 5 and 6 and a bottom wall 7 and a top wall 8 .

In the front wall 3 there is an air outlet opening 9 which has a circular cross-section. In the side wall 5 opens a supply air line 10 through which the interior of the air chamber 2 is continuously supplied with supply air 11 (primary air), in particular processed supply air. Referring to FIG. 2 the side wall 2 is formed as air chamber 6 of the elastic wall, in particular as a rubber membrane 12, which is connected via an operating rod 13 with an iron core 14. The iron core 14 is longitudinally displaceable within an electrical coil 15 which is connected to a frequency generator 16 . Alternatively, it is of course also possible that the actuating rod 13 or a corresponding device is connected to the coil 15 , which is movable in the magnetic field of a permanent magnet be.

According to the excitation frequency, the excitation strength and the time course of the excitation of the coil 15 by means of the frequency generator 16 , the iron core 14 is moved, which deflects the rubber membrane 12 via the actuating rod 13 . As a result, corresponding air pressure increases are generated in the interior of the air chamber 2 , which swirl to eject air from the air outlet opening 9 of the air outlet 1 lead. Depending on the excitation and design of the air outlet opening 9 , the shape of an individual air vortex emerging from the air outlet opening 9 can be changed. The Fig. 1, for example shows a toroidal vortex 17 having a diameter d toroid and a free diameter D of the Torusringes. The individual vertebrae 17 move along a vortex road, the direction of which is indicated in FIG. 1 by means of the arrow 18 .

According to FIG. 2, a pressure frequency source 30 , which has an electromagnetic excitation device 31 , is arranged on the rear wall 4 of the air chamber 2 . The pressure frequency source 30 is preferably constructed as a loudspeaker or in the manner of a loudspeaker, that is to say it has a membrane which forms part of the wall of the air chamber 2 and which can be electromagnetically excited. Via an electrical connection 32 , the pressure frequency source 30 is closed to a frequency generator 33 . The frequency generator 33 supplies control voltages that can be selected in the curve shape, in the frequency and / or in the amplitude. Depending on the application, it is also possible that a certain control voltage of the pressure frequency source 30 is supplied with a certain curve shape, a certain frequency and a certain amplitude. As a result, the pressure frequency source 30 generates air pressure swings in the interior of the air chamber 2 , which have an effect on the depth of penetration of the vortex 17 ejected by means of the pressure booster from the air outlet opening 9 and / or on the direction of the vortex (direction of the vortex road arrow 18 ) and / or have the widening of the vertebrae due to the vortex movement. As can be seen from FIG. 2, the front wall 3 has the air outlet opening 9 and the rear wall 4 opposite the front wall 3 has the pressure frequency source 30 . The standing at a 90 ° angle to the front wall 3 side wall 5 is with the supply air line 10 and the side wall 5 ge opposite side wall 6 is provided with the printer lifting device.

Fig. 3 shows a further embodiment of an air outlet 1 , the air chamber 2 is cylindrical in shape with a circular cross section. In the jacket wall 19 of the air chamber 2 , a rectangular air outlet opening 9 is provided, from which, due to a pressure-increasing device, which may also have a rubber membrane 12 with an excitation device, for example, rod vortices 20 emerge along a vortex street 18 indicated by the arrow. The pressure increasing device can be located, for example, on the circular end wall 21 of the air chamber 2 (not shown). At the opposite end of the end wall 21 is the supply air device 10 . Furthermore, the air chamber 2 of the exemplary embodiment from FIG. 3 is also provided with a pressure frequency source which is connected to a corresponding frequency generator. This is not shown in FIG. 3. For example, it is possible to bring the pressure frequency source also on the end wall 21 of the air chamber 2 un. As already mentioned, it is also possible to provide only one electromagnetic excitation device, which generates both the pulsed air pressure increases for ejecting the vortex and also works simultaneously as a pressure frequency source.

Claims (11)

1. Air outlet with at least one air outlet opening, which is a continuously supplied with preferably processed air chamber zugeord net, and with a pressure increasing device that generates pulsed air pressure increases in the air chamber, so that corresponding amounts of air are each expelled as a vortex along a vortex road from the air outlet opening are, according to Patent 41 33 278, characterized in that the air chamber ( 2 ) is assigned at least one pressure frequency source ( 30 ) for generating air pressure vibrations. 2. Air outlet according to claim 1, characterized in that the pressure frequency source ( 30 ) has an electromagnetic excitation device ( 31 ). 3. Air outlet according to one of the preceding Ansprü surface, characterized in that the pressure frequency source ( 30 ) is designed as or in the manner of a speaker. 4. Air outlet according to one of the preceding Ansprü surface, characterized in that the pressure frequency source ( 30 ) is connected to an electrical frequency generator ( 33 ). 5. Air outlet according to one of the preceding claims, characterized in that the frequency generator ( 33 ) supplies at least one selectable control voltage for the pressure frequency source ( 30 ), which control voltage has a selectable curve shape and / or a selectable frequency and / or a selectable bare Has amplitude. 6. Air outlet according to one of the preceding Ansprü surface, characterized in that the pressure frequency source ( 30 ) such air pressure vibrations, it produces that a resonance state in the air chamber ( 2 ) is generated. 7. Air outlet according to any one of the preceding Ansprü surface, characterized in that the pressure frequency source ( 30 ) such air pressure vibrations he testifies that the depth of penetration of the by means of the pressure increasing device from the air outlet opening ( 9 ) ejected vortices ( 17 , 20 ) in the to be ventilated tendency space is influenced and / or that the Rich direction of the vortex road (arrow 18 ) is influenced and / or that the vortex expansion ensuing in the course of the vortex movement is influenced. 8. Air outlet according to one of the preceding Ansprü surface, characterized in that the pressure frequency source ( 30 ) of the air outlet opening ( 9 ) is opposite. 9. Air outlet according to one of the preceding Ansprü surface, characterized in that the pressure frequency source ( 30 ) on the wall (rear wall 4 ) of the air chamber ( 2 ) is arranged, the opening with Luftaustrittsöff opening ( 9 ) wall (front wall 3 ) Air chamber ( 2 ) is opposite. 10. Air outlet according to one of the preceding claims, characterized in that in a wall (side wall 5 ) a supply air line ( 10 ) opens and that this wall (side wall 5 ) neither the pressure increasing device nor the pressure frequency source ( 30 ) are assigned. 11. Air outlet according to one of the preceding claims, characterized in that the printer raising device forms the pressure frequency source ( 30 ) at the same time.