DE2851046A1 - Ventilation outlet for air conditioning system - with main and secondary air currents at reduced and increased pressure and selective direction control - Google Patents

Abstract

The ventilation outlet has an outlet grid (3) for the primary air current supplied at a reduced press., e.g. exhibiting a press. redn. of 10mm WS, with at least one pt (7) positioned in the centre of the outlet grid. This jet provides a smaller vol. secondary air current with a higher pressure, e.g. with a pressure increase of between 60 and 120 mm WS. The secondary air current is supplied via a separate ventilation line and the mouth of the jet (7) is either positioned in the plane of the outlet grid (3) or slightly behind it. The jet (7) can be angled w.r.t. the plane of the outlet grid (3) so that the secondary air stream is blown in a given direction.

Description

2851Ö4S

Dipl. Mg. Peter Otte - 3 _ _{7033 Herrenberg (couplings)} Patent attorney Eifelstrasse 7

Telephone (0 70 32) 319 99

13 81 / ot / wi
Nov 16, 1978

MR. WALTER HIRSCH
Greutweg 14
7300 Esslingen

Air outlet device for air conditioning and ventilation systems

State of the art

The invention is based on an air outlet device the genre of the main claim. Air outlet devices for Room air conditioning and ventilation systems or in connection exhaust ports used with such systems or Slots are known and can be found, for example, in DE-AS 22 42 582, DE-AS 2 020 643 and the DE-OS'en 2 416 406, 2 260 380 and DE-PS 23 20 134. In The air outlet opening according to DE-AS 22 42 582 is about the effects that the supply air exiting through a nozzle has

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to mix this supply air with sucked in room air. A pressure chamber is provided which is connected to an adjacent mixing chamber via a nozzle with an injector effect supplies all of the available supply air. The mixing chamber has two openings that are approximately in the middle a partition are separated and in one opening of which room air is sucked in by the injector effect of the supply air jet which is then mixed in after the supply air has been deflected and exits through the other opening of the mixing chamber. In this branch of the line there is still an adjustable control element arranged a lamella. The disadvantage of this air outlet opening is that the injector effect caused by the nozzle is used exclusively for mixing, the exit from the actual air outlet then being non-directional takes place and the supply air distribution essentially depends on the amount of pressure with considerable energy expenditure depends on the conveyed supply air.

A similar mechanism results in the system according to DE-AS 2 020 643, in which primary air passes through slot openings emerges behind parapet panels below windows; this primary air is composed of the mixture of Room air sucked in by the injection effect with pressurized, climatically treated air.

From DE-OS 2 416 406 is a device for feeding a variable amount of air to cover the heating or cooling needs of a room is known in which this amount of air is fed in at least two substreams. The two substreams are fed in through separate ones, if necessary but close to each other arranged air supply openings, whereby one of the substreams with high impulse and the other with

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low pulse is applied. Due to the spaced Relationship of the outlet openings for the two partial flows should It must be ensured that the partial flow with a low impulse is only mixed with the partial flow after room air has been mixed in high impulse is also ejected. In addition, the aim is to To obtain a flow pattern in the room that does not change with different supply air flows, including the one with a high impulse Base current must be around 20% of the maximum total current. A considerable amount of energy is required for this.

In the method known from DE-OS 2 260 380 for air-conditioning operating rooms, a jet of incoming air is directed onto the operating field and is directed around this jet Induced additional supply air introduced as low induction displacement ventilation. The field around the supply air jet for a Low induction displacement ventilation should ensure that unwanted room air contaminated with particles is removed from the supply air jet is not induced, so that only high-quality supply air gets into the operating field. The outlet opening for the supply air can be up to about half of the Extend the entire width or length of the room, so that the patient is in a downwardly falling room air-free supply air curtain appears enveloped. The nozzle and the supply air field surrounding it receive air from the same supply air duct supplied, with a jet effect in this by appropriate design of the nozzle with lower flow resistance is produced.

Finally, from DE-PS 23 20 134, a method for ventilating larger or irregular spaces is known. in which a first ventilation airflow and a second in his Direction acting on it ejector air flow introduced

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whose amount of air over time is less than that of the ventilation air flow is. The ventilation air flow then follows one another along the intended flow path Ejector air flows to act on the ventilation air flow brought so that the direction of the respective ejector air flow is the direction of the flow path of the ventilation air flow certainly.

There is a need for a simply constructed air venting device for air conditioning and ventilation systems, effective ventilation of even larger rooms without creating drafts caused by movement Air quantities achieved with a minimum of the required supply air volume, so that the Supply air can achieve considerable energy savings for air treatment.

Advantages of the invention

The air outlet device according to the invention with the characterizing features of the main claim has the advantage that compared to a conventional air outlet through which the supply air is only released into the room, the amount of air required for effective ventilation can be reduced to about half, so that It is also possible to reduce the fan output by half in terms of air volume. This then results in a corresponding reduction in the fan energy requirement to around a quarter. With an existing sewer system, the reduced output between the fan energy requirement and the amount of air conveyed by the fan results from the total squared pressure loss. All that is needed is a small, insignificant additional requirement for the performance of the secondary air given by the nozzle.

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It is also of particular advantage that regardless of the temperature of the incoming air, i.e. regardless of it, whether the temperature is too high or too low, the throwing distance the introduced supply air is relatively constant. A high induction behavior results from the use e.g. the centrally arranged secondary air flow nozzle. Because of The measures according to the invention result in a significant air movement in the supply and room air with a minimum amount supplied air.

Through a flexibly mounted connection of the ejector air jet The directional jet nozzle generating the nozzle enables the ventilation system to be individually adjusted. In the end there are no large divergent air losses after leaving the outlet, which in turn means better utilization the introduced supply air in the living area of people.

The measures listed in the subclaims are advantageous developments and improvements of the main claim specified air outlet device possible. Particularly The area around the outlet opening by means of a ring is advantageous, so that the supply air at the end of the ring is in its Air flow is essentially laminar; this then causes the preferably in the middle of the air outlet device arranged nozzle with its higher jet pressure that the primary air over the outlet grille frame or the perforated plate is also injected. Therefore, there are also excessive and low temperatures no longer a big role.

drawing

An embodiment of the invention is shown in the drawing and is shown in more detail in the following description

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explained. 1 shows an air outlet device in a side view with a schematic representation of the air outlet area and the course of the flow in the room introduced supply air, Fig. 2 in an enlarged view, also in side view, the actual outlet area and the assignment of the nozzle to the outlet grille frame, FIG. 3 the illustration of FIG. 2 in a view of front, FIG. 4 shows an air outlet device in one Sectional view with two outlet openings and the 5 with a perspective illustration in section with a channel leading the primary air with low pressure several outlet devices according to the invention.

Description of the exemplary embodiments

The basic idea of the present invention is to use a perforated plate-like or perforated grid-like structure to allow a larger volume of supply air to exit evenly with a low impulse and approximately in the middle of the outlet opening to arrange a nozzle with its own outlet opening in the perforated plate level or behind it, ie is arranged upstream inwardly and which, with its higher jet pressure, co-injects the via the Perforated sheet supplied primary air, so that an effective room air flow, a large, ventilated room area can be achieved with only a comparatively very small amount of supply air.

By a mobility of the nozzle, the following as Secondary air is the term for jet air ejected by the nozzle and under a comparatively higher pressure and with it all of the injected air can be changed in its direction as desired.

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In Fig. 1 is a supply air duct, which is exclusively under low Pressurized primary air of an air outlet chamber 2 supplies, denoted by 1. The pressure, this primary air, the quantitative almost the entire, through the respective outlet opening includes supply air to be supplied to the room, can at about 3.η riöj * Alisfcrit * t "ssbsnG

10 to 20 mm WS / lie. The air outlet chamber 2, if necessary but also directly the duct 1 leading the supply air has an air outlet opening 3 which is formed by a Outlet grille, a perforated plate or something similar structured element, which in the following is only referred to as a perforated plate and is denoted by the reference number is marked. This perforated plate can also act as a rectifier to rectify the flow through it Serve air, so that in the area of the perforated plate 4 or at the latest after exiting through one of the perforated plate surrounding ring a substantially laminar air flow can be achieved.

Approximately in the middle of the perforated plate and with a separate outlet opening 6 for the secondary air expelled by it a nozzle 7 is arranged. An air volume of the order of magnitude is introduced through this nozzle into the air outlet area approximately between 3 to 10% of the primary air volume depending on the choice of nozzle. The pressure of this secondary air, as it is referred to below, is essential higher than the primary air pressure and can be between 60 to 120 mm water column in one embodiment. The height of the ring surrounding the perforated plate 4 can be about 15 to 20 cm, the size and number of holes of the perforated plate is the volume of primary air which passes through this outlet opening should be performed, adjusted.

According to the illustration of FIG. 1, the secondary

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air can be processed and treated completely separately; but it goes without saying that it is possible to use the secondary air branch off via a branch line 8 from the line 9 carrying the entire supply air and by means of its own, separate line Bring compressor or fan 10 to the desired pressure.

It was found that enormous air movements can be achieved with a minimum of the required air volume, because due to the high induction behavior, a directed flow is initially directed towards the supply air supplied at low pressure, but also additionally induced or sucked in room air can be achieved, a directed flow, which is determined from the direction of the secondary air flow, which is under higher pressure. Physically it results therefore an effect as it can best be seen in FIG. 2; the secondary jet air, which has a pronounced flow direction through the nozzle, flows accordingly the arrows A and determines the very large throw and the direction of the total supply air / air circulation lobe that is formed. Due to the induction effect of the secondary jet air, the primary air, which has a much larger air volume, flows after laminar exit from the air ring 5 with the jet air jet A with or tends to move according to the arrows B in cross-section in the direction of the secondary jet air to narrow. At the same time, a further induction or circulation effect then results in accordance with the arrows C. the room air that gets into the total air lobe flow and with is circulated. This mode of action depends on the temperature that emerges with a low impulse or with a strong impulse Supply air (primary air and secondary air) essentially independent; If the temperature of the supply air is too low, as shown in FIG. 1, at the end of the throwing club

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a downward inflation (with minus sign - provided) result, an excess temperature of the supply air results in a corresponding upward protuberance (marked with plus sign +) . It can be seen that the throwing distance is relatively constant due to the air guiding mechanism according to the invention and is essentially only slightly influenced by an excessively high or low temperature of the supply air.

Due to the mobility of the nozzle in the area of the nozzle mouth can be hinged to the perforated plate 4 or at some other suitable point, you can individually adjust the direction of the air throw and adapt it to the desired ventilation conditions of the room. The invention is therefore particularly suitable for the ventilation of larger rooms, industrial production halls and the like. in spite of the high air movements achieved within the ventilated rooms, only a very small volume of air to be supplied is needed.

Because of the articulation of the nozzle 7 (two further nozzle positions are indicated by dashed lines 7a and 7b in FIG. 2) the supply of the secondary air to the nozzle preferably through a flexible hose 11 or a similar element, for example a folded spiral-seam tube, round tube or the like.

3 shows a front view of the inlet air outlet opening with a large number of smaller hole openings 12 for the outlet of the low-pressure primary air and one here in the center arranged larger outlet opening 13 for the nozzle, the front nozzle opening behind the opening 13 in the perforated plate or is arranged in the plane of the perforated plate. The air outlet opening According to FIG. 3, as shown, it can be square, round, oval or otherwise designed; a

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The surrounding rim wall 5a then has a speaking shape.

The exemplary embodiment of FIG. 4 serves for the simultaneous ventilation of two rooms, in the partition wall of which the supply air duct 1 'with supply air collecting chamber 2' can be arranged; there are two diametrically opposite air outlet openings 3 ^r , 3 ″; one recognizes the two nozzles 7 ¹ and 7 ″, which supply the secondary air to achieve the jet effect. The secondary air can be supplied to the nozzles 7 ', 7 "via separate feed lines 14a, 14b or from a common distribution line; it is possible to carry out the non-jet change via a linkage 15 (see also FIG. 1) Nozzle angle can be made manually, mechanically via the rod 15 or mechanically-motorized, depending on the requirements.

In Fig. 5, finally, a supply air duct 16 is shown, which has a larger number of air outlet openings 17 in its wall, which are each formed by a perforated plate 18a, 18b, 18c embedded in the wall and a surrounding rim wall 19a, 19b, 19c. via a separate, Much thinner pressure line 20 running within supply air duct 16 passes through individual branch lines the secondary jet air to the outlet openings, for which a common fan 21 is provided, which generates the pressure for the secondary air.

The present invention is also particularly suitable for the conversion of existing systems that do not have the ejector effect a secondary air jet had to work with considerable amounts of air in order to achieve the desired air circulation of rooms to be able to carry out. Despite a possible reduction in the amount of incoming air and

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thus a considerable energy saving, the invention ensures a significantly better air circulation and ventilation larger ranges, and because of the overall lower air volumes, there is also the risk of fences which sensitive people react is avoided.

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Claims (6)

Dipl. Ing.PetOr Ott 7033 Herrenberg (Kuppingen) Patent attorney Eifelstrasse 7 Telephone (O 70 32) 319 99 81 / ot / wi
Nov 16, 1978 MR. WALTER HIRSCH, Greutweg 14, 7300 Esslingen Claims .j air outlet device for air conditioning and ventilation systems, from which, if necessary, conditioned, supply air emerges, characterized by the combination of following measures: a) there is an outlet grille frame (perforated plate 3) for with low pressure (Ap ^ io mmWS) supplied Primary air provided, b) there is at least one nozzle (7, 7 ¹ , 7 ") arranged essentially centrally in the outlet grille frame, c) this nozzle (7, 7 ', 7 ") is a referring to the Primary air lower secondary air volume with higher pressure (.Ap ~ 60-120 mm water column) supplied, d) the secondary air is taken from a separate supply air duct, e) the mouth of the nozzle (7, 7 ', 7 ") is located in the plane of the grille outlets for the primary air or behind and f) the nozzle (7, 7 ¹ , 7 ") is movably mounted for any pivotability in such a way that the pri- 0 30 023/0240 28S1Ö46 1381 / ot / wi Nov 16, 1978 - 2 - Marair air and secondary air formed air lobe can be changed in their throwing direction. 2. Apparatus according to claim ι, characterized in that the outlet grille frame, designed as a perforated sheet metal (3), from a rim (5) causing a laminar air flow is surrounded. 3. Apparatus according to claim 1 or 2, characterized in that the perforated plate (3) as a rectifier for the primary air flowing through them is formed. 4. Device according to one of claims 1 to 3, characterized in that that in the perforated plate (4) a preferably central cutout (13) for the passage the secondary jet air is provided, the nozzle outlet opening for the secondary jet air is directed at this passage opening. 5. Device according to one of claims 1 to 4, characterized in that that to feed the secondary jet air to the nozzle (7, 7 ', 7 ") a flexible line piece (corrugated hose, Spiral duct 11) is provided. 6. Device according to one of claims 1 to 5, characterized in that that the movably mounted nozzle (7, 7 ', 7 ") is connected to a rod (15) for changing the directional beam, which can be operated manually, mechanically or by motor. 030023/0240