EP1462731A2 - Air curtain having a double air stream for a door opening - Google Patents

Abstract

The air wall device for the separating of two areas (5,6) lying on both sides of door opening (8) in a building has a first and second air outlet through which a first and second compressed airflow each in the form of an air wall (4a,4b) emerges at an angle of 0 to 60 degrees to the plane of the door opening. The second air outlet similar to the first is located in the closing region of the door (9) and is entrained by the door. The air outlets entrained by the door are connected by at least one flexible pipe to a corresponding air fan.

Description

The present invention relates to an airwall device for separating two adjoining each other at a gate opening closable by a gate Spaces with an airflow compressed airflow after the Preamble of claim 1.

Air wall devices or air wall systems are generally known per se. They serve for climate or atmospheric separation as well as prevention or at least the reduction of heat losses at building openings, especially at open gate openings, where due to frequent Passages of persons and / or vehicles mechanical separation devices can not be used or only inadequately.

For airflow systems relatively small amounts of air flow with it very much high pressure in a laminar or at least approximately laminar, even Core air flow at the building opening to be shielded from what over the entire opening area a wall-shaped foreclosure of the building opening causes transversely flowing air masses. The building openings Or door openings can both inside the building and on be arranged on an outer wall of the building. Although usually Ambient air is used to generate the air walls, in principle Any gas compositions can be used for this purpose Furthermore, so-called air curtain systems are known in which relatively blown large quantities of air at the building opening to be shielded and usually heated beforehand to allow incoming cold air as possible to prevent, at least, but to warm so much that the climate or the Temperature inside the building or the respective room as possible little changed. The blown air volumes do not flow here laminar in a core air level, but comparatively turbulent.

On the other hand, air wall systems do not use cold air masses conditioned or heated, which pass through the building opening, but the passage of cold air masses is depending on the design of the airwall system greatly reduced or even almost completely prevented. On this way, a highly effective separation of the internal and external air or of the climate on both sides of the building opening. The lesser Amounts of air to be discharged and the ability to waive A warming of the air flow allow a structurally simpler design of airwall systems and do their operation in relation to air curtain systems extremely effective and comparatively inexpensive. separation For the purposes of this application is to maintain an existing To understand separation.

In known airwall devices are usually stationary Installations that are usually fixed above the building opening are. So that in this case a sufficiently strong air flow even at the air wall device is ensured opposite end of the door opening and the best possible screening result is achieved, they must Systems are consistently operated at high power, which is consistent with high operating costs. For large opening areas, for example This is especially true for large gateways in the industrial sector disadvantageous, especially if the building opening for the on or Outlet of people or smaller vehicles often only partially open and this is still the full power of the air flow system is needed.

To avoid these disadvantages, an air curtain system was disclosed in DE 100 56 596 A1 of the type mentioned above, depending on from the opening height of the gate and the associated yet to be bridged Route provides a customized air curtain. By the Arrangement of the air curtain device associated with the closing edge Closing area of the door can be optimal in any closed position of the gate Position of the air curtain relative to the respective free opening area of Gate opening achieved and the efficiency of the air curtain at a simultaneous Reduction of operating costs can be increased accordingly.

A disadvantage of this proposed solution, however, is that the entire air curtain as a compact complete installation at the closing area of the gate is arranged. The very heavy weight of such a complete installation can average sized gates in their static design in an excessively high load, so that the air flow system either not at all or only with elaborate reinforcement constructions available gates are used. In addition, the very high weight the complete installation especially the motors for opening and Significantly overstretching the door in terms of its drive power, resulting in damage and failure of the door drive and thus to considerable Impairment of operations and related additional costs. To avoid such damage Therefore, reinforcements of the gates and stronger door drives are required, which with additional material and assembly costs and in particular with additional costs.

Apart from these disadvantages can so while at lower power and Thus, with correspondingly lower operating costs, an improved shielding result achieved, however, reaches the separation achieved thereby or shielding effect in certain applications, in particular in the case of atmospheres contaminated by odor and / or particulates, not yet out.

It would therefore be desirable to provide an airwall device that is below Maintaining the comparatively low operating costs the aforementioned Disadvantages no longer has and also beyond stronger shielding requirements enough.

To further improve the shielding effect of an airwall For this purpose, for example, proposed in US 3 211 078, two parallel air walls to use in the form of a parallel air layer composite a Shield the building opening. Further, an airwall device with two parallel air walls also known from EP 0 645 588 B1, in which case even still a third airwall parallel between the two outer airwalls runs.

Both devices assume that two or more parallel side by side guided air flows difficult to mix with each other. From this they deduce a good separation of the two to be separated Gas atmospheres on both sides of the building opening.

However, since such parallel guided air flows also parallel and in particular impinge perpendicular to the opposite end of the building opening, Divide here in each case in half and flow to both sides. there penetrates into the space between the two parallel air walls from both sides in each case half of the respective volume flow, which is mix turbulent there. The two sides in this space depressed air must then escape from the gap to one to avoid local pressure increase. Since this is an equality of the atmosphere the air escapes to the side of the building opening to which it is aimed the larger temperature difference has. This escape leads to more turbulent mixing with the affected airwall.

So if, for example, a frozen area of about -28 ° C from a room area be sealed off with a room temperature of about + 20 ° C, so escapes the resulting in the space turbulent mixed air in the Freezer area, which then has to be cooled again energy-intensive. This effect occurs in the solution known from EP 0 645 588 B1 the additionally introduced into the space and preferably heated Air flow all the more pronounced.

According to these known solutions, the foreclosure of the building opening especially in deep-frozen areas so only under strong heating and Conveying costs of the airwall system and under intense cooling with a separate cooling system possible, which in addition to by the constructive Cost-related higher production costs in turn also significantly higher operating costs caused.

In addition, it is disadvantageous that people who are affected by such Luftwaldanlage must move through, the turbulent turbulence in the Interspace and at least one of the two air walls as a strong disturbing feel.

The object of the present invention is therefore to provide a structurally simple, inexpensive to manufacture and easy to handle airwall device the to provide the aforementioned type, with a low energy consumption a improved shielding especially against odor and / or particulate polluted atmospheres, and one permanently safe use at gates and no additional reinforcement measures regarding the carrying capacity of a conventional gate or Increased performance of the door drive requires.

This object is achieved by an air wall device according to Claim 1 solved. Advantageous embodiments and developments of the invention result from the dependent claims.

Essential in the inventive arrangement of the airwall device in that the airwall device has a second air outlet through which a second compressed air flow in the form of a second air wall in one Angle from 0 ° to 60 ° to the plane of the door opening emerges, with the second Air outlet is also located at the closing area of the door and from the gate is carried along, that the two air outlets are arranged such that the core planes of the two airwires oblique to each other from the air outlets emerge, with the distance between the two air walls with increasing distance from the air outlets becomes larger, and being between the exit directions of the two air walls an angle between 1 ° and 120 ° is that the air blower or the air wall device stationary on the building, preferably in an edge region of the door opening arranged is or, and that the entrained by the door air outlets over at least one flexible duct with the stationary air blower (s) are connected.

The solution according to the invention is characterized by two significant advantages out. The first major advantage is that not the full airwall device arranged as a complete installation on the gate and with the Tor must be carried. According to the present invention, it is sufficient only a part of the airwall device at the closing area of the gate attach and move with the gate while an integral part with by far the majority by weight not at the gate, but is fixed to the building and not carried with the gate must become. Therefore, the weight loads acting on the gate with significantly reduced to about 10%, and thus caused damage of the gate or the door drive can be avoided without that this particular reinforcements on the statics of the gate or at the Drive power of the door drive are required.

In this constructively simple way is a low operating costs created highly effective airwall device, in particular also subsequently can be retrofitted to existing gates. The gates can be designed in particular as a sliding, lifting, rolling or sectional doors his.

The second significant advantage of the solution according to the invention is that the benefits of a double airwall partition can be used without that in this case the disadvantages of turbulent air mixing in the space and the leakage of the turbulent mixed air through an air wall into the dimensions of the previously known air wall devices with parallel air walls occur. A mixing of the two airwalls can be sufficient even completely avoided.

The adjacent to the building opening and to be separated or Therefore, the different climatic zones to be partitioned remain due to the Both low-turbulence shallow nuclear air wall beams reliable in their respective spatial environment.

As the two Flachwandkernluftstrahlen with increasing distance from the respective air outlets from each other, flow on impact on objects, for example, on the building opening passing body or to the boundaries or floors opposite the air outlets, only much smaller parts of the respective volume flow back towards the building opening or back into the gap. The sharper the Angle is where the airwall hits the ground or an object the fewer parts of air flow inwards into the space between the two air walls back and the less it can be turbulent there Air turbulence is coming.

The air flow device according to the invention is of simple construction inexpensive to manufacture and easy to handle. It ensures at low energy consumption improved shielding of the two areas at a building opening not only with respect to different temperatures, but especially if in the room area on a Side of the building wall by a smell and / or by particles, for example There is an atmosphere of dust or bacteria. Also in Food sector can do so from a hygienic point of view be a big advantage. According to the invention, the efficiency of the air wall at simultaneous reduction of operating costs can be increased.

It is particularly advantageous if the flexible line movable and / or in their length variable hoses and / or pipe connections comprises. hereby can the flexible connection of the air blower with the moving air outlet be achieved in a particularly simple manner.

Depending on the type of flexible lines, it may also be advantageous if at the Gate opening a device for guiding the flexible lines is provided. Such a guide device can in particular by link chains or be formed by receiving matrices, wherein the receiving matrices are preferably be divided into slats or a sectionally incised may include open rubber profile.

The air-wall device according to the invention comprises means for sucking Outside air and / or inside air and means for compressing the sucked air, which then as a laminar air flow in the form of an air wall from the respective Air outlet exits. The second air outlet of the device is advantageously arranged at least approximately parallel to the first air outlet. It is preferably proposed that the second air outlet at a distance from 1 to 80 cm, preferably from 5 to 20 cm, next to the first Air outlet is arranged.

It is particularly advantageous if between the exit directions of the two Air walls an angle between 5 ° and 60 °, preferably between 10 ° and 30 ° lies. This can be a turbulent mixing of the two air walls especially safely prevented.

In this case, the first or the second air flow parallel to the plane of the door opening emerge from the respective air outlet. However, according to the invention at least one air wall is directed so that it is at an angle to the plane of the Gate opening runs.

A particularly low-turbulence and at least approximately laminar air flow in the form of a flat core air jet wall can be achieved by the first and the second air outlet each have at least one core air jet nozzle comprising an air guide, through which the respective air wall exit. The louver is advantageously as laminar rectifier for integrated the air flow in the Kernluftstrahldüse and the outlet slots upstream. The length of the louver in the flow direction is a multiple, especially 2.5 to 6 times the nozzle gap width.

According to a particularly preferred and easy to install embodiment the invention, the first air outlet and the second air outlet in a common housing, in particular in a common Doppelkernluftstrahldüse with two nozzle chambers, be arranged.

It is also particularly advantageous if the first and / or second air outlet, in particular the core air jet nozzle (s) and / or the air guiding device (s), is adjustable, in particular pivotable, that the exit direction of the emerging airwall is variable. This allows the angle of the air wall For opening the door particularly flexible adapted to different applications become.

To one for each door position particularly good effectiveness of the foreclosure of the To achieve gate opening, it is also particularly advantageous if the outlet direction an airwall or both airwalls by means of a regulatory or Control unit automatically, preferably in dependence on the degree of opening of the gate and / or depending on the desired and / or current climate conditions, is controllable or controllable is or are.

According to a first, particularly inexpensive embodiment of the invention is proposed, the first and the second air outlet with a common air blower to connect and the sucked and compressed Air then split into two partial air streams.

According to an alternative, particularly variable embodiment However, the invention can also be any air outlet with a separate air blower be connected, wherein preferably the respective sucked air different pressures compressible and / or to different temperatures is heated, and wherein in particular different volume flows are sucked. In this case, a particularly effective shielding can continue be achieved by providing a control unit is through which the two air blowers and / or the optionally provided heating device (s) independently controllable or are controllable, wherein the pressure and / or the flow rate and / or the temperature the first and the second airwall independently controllable or are controllable. The mentioned parameters can automatically be sent to the each prevailing environmental conditions are adjusted.

To achieve a particularly good effectiveness of the airwall device, is It further particularly advantageous if at the lateral edges of the door opening Sealing means, in particular sealing walls are provided on where the lateral end portions of the air walls abut or flow along.

According to a particularly preferred embodiment of the invention suggested that in the edge region of the door opening, of the two Air walls is flown, especially in the lower edge region of the door opening, at least one control air outlet is arranged, through which a control air flow such at an angle to the outflow direction of the first and / or the second air wall, preferably perpendicular to the door opening, can flow out, that the first and second air wall in the flow direction of the control air flow is deflectable. This will be a particularly favorable flow reached in the bottom of the two air outlets, in which the affected air wall in the desired direction only to one Side, in particular directed away from the other airwall, flows out.

In this way, an unwanted mixing of the mutually separated Air or gas compositions of the two areas be avoided, which in known air wall systems by the outflow a part of the volume flow of an air wall, usually one of the two to be separated and differently air-conditioned and / or differently with Particles and / or odors polluted space areas is taken, can occur. Such unwanted mixing can therefore be additional Cost of cooling the affected room area lead or the Application in hygienically sensitive areas difficult or even impossible do.

Become through the inventive development of the airwall device avoided these problems. For example, if a refrigerated area of approx. - 28 ° C from a room area with a room temperature of approx. + 20 ° C an air wall is to be sealed off and the air for the air wall to this end is sucked from the freezer, so the cooled air of the air wall be completely deflected back to the freezer area on the ground so that it neither to a reduction in the room temperature of the room area through incoming cold air still to a warming of the frozen area by incoming room air comes. If the air for the air wall from the room area is taken with + 20 ° C or if the air of the airwall over their Flow path would be too much heated, so the air can the air wall on the floor also completely deflected back into the warmer room area so that it does not cause a warming of the frozen area by incoming warm air comes, so that energy-intensive additional Cooling measures are not required.

It is preferably proposed to be at the bottom in the middle between the impact areas the two air walls a double control air jet or two in opposite directions away from each other and at least approximately directed parallel to the ground control air jet nozzles for each control air flow to provide, on both sides of the respective airwall deflects outwards and lets it flow away.

The two control air jet nozzles or the double control air jet nozzle preferably extend each continuous at least over the width of a Air wall. In this case, the air of each air wall advantageously from the Room area to be sucked, to which the respective air wall is applied, so that the air conditions of both areas are not or only extremely low to be changed.

According to a particularly inexpensive embodiment, it is proposed the control air outlet on the one hand and the two air outlets for the two Air walls on the other hand to connect with a common air blower and then split the sucked and compressed air into two partial air streams. According to an alternative, particularly variable embodiment However, the invention may also be the control air outlet with a be connected separate air blower, in which case advantageously the sucked air compressed to another pressure and / or otherwise conditioned can be considered the air for the airwaves. In particular, here are also different volume flows can be sucked.

To the control air outlet from damage by external mechanical Protecting loads, it is also particularly advantageous if the Control air outlet at least partially through a with air passage openings covered cover is covered. In particular, when the control air outlet arranged at the bottom can be arranged by an appropriately arranged Mudguard Damage when people appear or when Avoid driving over vehicles.

It is also particularly advantageous if for the first and / or for the second Air wall and / or for the at least one control air flow means for climatic and / or physical and / or mechanical and / or biological treatment of the intake air is provided. So, for example Heating device for heating or a cooling device for Cooling and alternatively or additionally thereto a filter, in particular a Electrostatic precipitator or a UV filter, and / or a dehumidifier for one or both air streams are arranged. That's the way it can be the aspirated air from any existing germs and impurities be cleaned so that the resulting germ-free and purified Air wall also in hygienically sensitive areas, especially in the Food and food sector can be used. By the oblique diverging flow pattern of the two air walls and the hereby accompanying deflection of the air streams impinging on the ground outside on the side turned away from the gap and the other airwall the suitability of the air wall system according to the invention in these hygiene areas further strengthened

Even at different temperatures and against each other abgeschottenden Spaces can be created by different conditioning of the two Airwall streams are achieved special benefits. In the space between The two outlet slots of the air walls form a mixed climate zone from which fluidically produces a lock effect. In the mixed climate zone occurs at a temperature that is between the temperatures of the two is to be separated or sealed climatic zones or gas atmospheres, and in particular also above the dew point. The temperature of the Mischklimazone depends on the one hand on the two temperatures of the shielded Spaces and on the other hand of the exit angles of the core air jets, of their mass flow rates and their conditionings from.

Also, in this embodiment of the invention, the physical effect of Dew point shift can be used, which is a fog formation and icing prevents the functional elements located near the opening. For this purpose, the low-temperature air is sucked in by a blower and before their re-emergence on the low-temperature side of the building opening until heated above the dew point, so that the heated core air jet contained air humidity of flowing to the other side of the building opening Climate zone / gas atmosphere is bound in the mixed climate zone. The Design of the heat exchanger or the heating unit is dependent the water vapor partial pressure and the temperature of the warmer ambient air.

It is also particularly advantageous if a control or control unit is provided, through which the air flow and / or the optionally existing climate-physical installation components, in particular the desired Heating or cooling capacity of the air walls and / or of the optionally existing at least one control air flow and / or humidification or Dehumidifiers and / or filters and / or biological treatment devices, For example, germination components, preferably in dependence from the degree of opening of the gate and / or depending on the desired and / or currently available climatic conditions automatically be controlled or controlled.

In this way, depending on the opening height of the gate and the associated with this still to be bridged route always a customized Air wall provided and optimal in every closed position of the gate set airwall device can be achieved. The efficiency of the airwall device can thereby reduce operating costs increase.

Further advantages and features of the invention will become apparent from the following Description and the embodiments illustrated in the drawings.

Figur 1:

Querschnitt durch eine erste Ausführungsvariante einer erfindungsgemäßen Luftwandvorrichtung,

Figur 2:

vergrößerte Darstellung des Teilbereichs E aus Figur 1,

Figur 3:

Seitenansicht der Luftwandvorrichtung aus Figur 1

Figur 4:

Schnittansicht der Doppelkernluftstrahldüse aus Richtung A in Figur 3, und

Figur 5:

Querschnitt durch eine zweite Ausführungsvariante einer erfindungsgemäßen Luftwandvorrichtung.

Figur 6:

Seitenansicht einer weiteren Ausführungsvariante einer erfindungsgemäßen Luftwandvorrichtung

Show it:

FIG. 1:

Cross section through a first embodiment of an airwall device according to the invention,

FIG. 2:

enlarged view of the portion E of Figure 1,

FIG. 3:

Side view of the airwall device of Figure 1

FIG. 4:

Section view of the Doppelkernluftstrahldüse from direction A in Figure 3, and

FIG. 5:

Cross section through a second embodiment of an airwall device according to the invention.

FIG. 6:

Side view of another embodiment of an airwall device according to the invention

The arrangements of the invention shown in the figures Airwall devices 1 each have a Doppelkernluftstrahldüse 2, in the a first air outlet 3a for a first air wall 4a and a second air outlet 3b are provided for a second air wall 4b. The air wall device 1 serves to separate the in the two space areas 5 and 6 on the two Pages of a building wall 7 prevailing climate at one in the Building wall 7 introduced gate opening 8. The door opening 8 can through a vertically closing sectional door 9 closed or partially or completely be opened. To open the door opening 8, the gate 9 is upwards method and above the door opening 8 deflected horizontally.

The lower end of the door 9 forms the closing area 29, which in the vertical Level of the door opening 8 is guided up and down movable and at closed gate 4 at the bottom 6 in particular rests on a sealing lip. In horizontally closing gates, the closing area 29 in the closed State also abut the closing area of a second gate.

At this closing region 29 of the gate 9 is the Doppelkernluftstrahldüse second attached so that they are vertical when opening or closing from the gate 9 is carried. The or for the generation of the air walls 4a and 4b necessary Air blower 10 or 10a and 10b of the airwall device 1 are according to the invention but not at the gate 9, but fixed to the building attached and arranged in each case via a flexible conduit 11 with the gate 9 Double core air jet 2 connected. The air blower 10 and 10a and 10b are therefore not moved when opening or closing the gate 9. As a result, a considerable saving to be borne by the gate 9 and reached to moving weight. For example, at constant Boundary conditions to be borne by the gate 9 weight of a complete installation according to the prior art from about 300 kg to about 24 kg at the training of the invention can be reduced. The clearly overwhelming Weight portion of the air wall device 1 is thus fixed to the Arranged building and exerts no burden on the gate 9. reinforcements on the statics of the gate 9 or on the drive power of the door drive acting motor 27 are therefore not required.

In the embodiment shown in Figure 3 are for the two air outlets 3a and 3b, two separate air blowers 10a and 10b provided, wherein the respectively sucked ambient air 12 by a respective compressor 13a, 13b is compressed to different pressures. That of the air blower 10a sucked air 12 is also heated by an air heater 14.

The Doppelkernluftstrahldüse 2 has in a single nozzle housing two in a small distance adjacent and through a partition 15th separate nozzle chambers 16 a and 16 b, each extending over the entire width of the gate 9 extend. From each nozzle chamber 16a, 16b occurs a separate air wall 4a, 4b, which at each one as a louver serving baffle 17a, 17b guided with a rectifier profile 18 such is that the foreclosure of the building opening 8 exiting air wall 4a, 4b low-turbulence and laminar in a so-called Kernluftstrahlebene emerges.

According to the invention, the air outlets 3a and 3b and the baffles 17a and 17b arranged so that the core air jet planes of the two air walls 4a and 4b at an angle γ, which is here about 12 °, run apart at an angle. The two air walls 4a, 4b flow in such a way that their distance from each other increases with increasing distance from the air outlets 3a, 3b. As a result, a turbulent air mixing in the space 19 between the two air walls 4a, 4b also in the region of the bottom 20 or an optionally passing through the door opening 8 obstacle Largely avoided and the escape of turbulent mixed air one or both air walls 4a, 4b does not occur.

In the embodiment shown in Figures 1 and 2, the closer At the gate 9 located air wall 4a at an angle α of about 10 ° through the Gate opening 8 through out into the space area 5 directed to the outside, while the other air wall 4b with a very small angle β of about 2 ° in the opposite direction is directed inward in the space area 6.

In addition, on one side of the door opening 8 more proximity sensors 21st arranged on the building, which are connected to a regulator 22, over the the air flow rate of the air blowers 10a and 10b, for example, depending From the opening degree of the gate 9 can be automatically controlled.

In the embodiment shown in Figure 5 are on the bottom 20 two further air outlets as control air outlets 23a and 23b provided by the in each case a further compressed air flow as a control air flow 24a, 24b perpendicular to the building opening 8 and parallel to the floor 20 in the direction of Room area 5 or 6 emerges to the side. This will be in the bottom area 28 achieved a particularly favorable flow, in which the incident here Airwall streams 4a and 4b in the opposite direction of the other air wall 4b and 4a directed away together with the each control air flow 24a, 24b flow. An uncontrolled outflow the air walls 4a, 4b on both sides of the space regions 5 and 6 becomes so safely prevented.

Here are the two control air outlets 23a and 23b in the middle between the Impact lines of the two air walls 4a, 4b provided in the form of a double nozzle 25, the on each side by the impinging air wall 4a, 4b by the control air flows 24a, 24b deflects to the outside and can flow out. On Mixing the two air walls 4a and 4b is also in the bottom area 28 excluded.

At the top, the double nozzle 25 is covered by an apron 26 and before protected against mechanical stress. In the fender 26 are lateral Introduced openings through which the control air flows 24a, 24b to the outside can escape.

In the embodiment shown in Figure 6 is for the two air outlets 3a and 3b only a common air blower 10 is provided. The sucked Ambient air 12 is heated by an air heater 14 and through a compressor 13 on the for a secure foreclosure of the door opening. 8 compressed high pressure required. The air blower 10 is here via a flexible line 11 connected to the Doppelkernluftstrahldüse 2, in which the compressed air flow into two partial air streams for the two air walls 4a and 4b is split. The flexible line 11 is in this case by a length formed variable hose, wherein the length of the hose 11 adapted to the respective opening degree of the gate 9.

In the embodiment shown in Figure 2, the flexible lines 11a and 11b, in contrast, each by a flexible hose line formed, the bend or course depending on the degree of opening of the gate 9 changes.

Claims (11)

Air-wall device (1) for separating two areas (5, 6) which lie on both sides of a door opening (8) provided in or on a building, which can be closed by a gate (9) which is at least connected to a closing area (29 ) performs a movement substantially in the plane or parallel to the plane of the door opening (8),
wherein the airwall device (1) has a first air outlet (3a) through which a first compressed air flow in the form of a first air wall (4a) exits at an angle of 0 ° to 60 ° to the plane of the door opening (8) and at the closing area (29) of the door (9) is arranged and carried by the gate (9),
characterized in that the airwall device (1) has a second air outlet (3b) through which a second compressed air flow in the form of a second airwall (4b) emerges at an angle of 0 ° to 60 ° to the door opening (8) the second air outlet (3b) is likewise arranged on the closing region (29) of the door (9) and is carried along by the door (9),
that the two air outlets (3a, 3b) are arranged such that the core planes of the two air curtains (4a, 4b) obliquely to each other from the air outlets (3a, 3b) to escape, wherein the distance between the two air walls (4a, 4b) with increasing Distance from the air outlets (3a, 3b) is greater, and wherein between the exit directions of the two air walls, an angle (γ) is between 1 ° and 120 °,
in that the air blower or fans (10, 10a, 10b) of the air wall device (1) are arranged fixedly on the building, preferably in an edge region of the door opening (8),
and that the air outlets (3a, 3b) entrained by the door (9) are connected to the fixed air blower (s) (10, 10a, 10b) via at least one flexible duct (11, 11a, 11b). Airwall device according to claim 1, characterized in that the first (3a) and the second (3b) air outlet each comprise at least one core air jet with a louver (17a, 17b), through which the respective air wall (4a, 4b) turbulence and at least approximately laminar exits in the form of a wall. Air-wall device according to claim 1 or 2, characterized in that the first air outlet (3a) and the second air outlet (3b) in a common housing (2), in particular in a common Doppelkernluftstrahldüse (2) with two nozzle chambers (16a, 16b) arranged are. Air wall device according to one of the preceding claims, characterized in that the first (3a) and / or second air outlet (3b), in particular the Kernluftstrahldüse (s) (2) and / or the louver (s) (17a, 17b), so adjustable , in particular pivotable, that the outlet direction of the exiting air wall (4a, 4b) is variable. Air wall device according to claim 4, characterized in that a control or control unit is provided, through which the outlet direction of at least one air wall (4a, 4b) automatically, preferably in dependence on the opening degree of the gate (9) and / or in dependence on the desired and / or currently existing climatic conditions, is controllable or controllable. Airwall device according to one of the preceding claims, characterized in that each air outlet (3a, 3b) is connected to a separate air blower (10a, 10b), wherein preferably each sucked air (12) compressible to different pressures and / or heated to different temperatures is, and in particular different volume flows are sucked,
and that preferably a control or control unit is provided, by means of which the two air blowers (10a, 10b) and / or the optionally provided heating device (s) (14) are independently controllable or regulatable, the pressure and / or the volume flow and / or the temperature of the first (4a) and the second (4b) airwall are independently controllable or controllable. Air wall device according to one of the preceding claims, characterized in that at the lateral edges of the door opening (8) sealing means, in particular sealing walls, are provided, against which the lateral end portions of the air walls (4a, 4b) abut or flow. Air wall device according to one of the preceding claims, characterized in that in a second, preferably in the lower edge region (20) of the door opening (8) at least one control air outlet (23a, 23b) is arranged through which a control air flow (24a, 24b) in such an angle to the outflow direction of the first and / or the second air wall (4a, 4b), preferably perpendicular to the door opening (8), can flow, that the first and second air wall (4a, 4b) in the flow direction of the control air flow (24a, 24b ) is deflectable. Airwall device according to claim 8, characterized in that at the bottom (20) between the impact regions of the two air walls (4a, 4b) two in opposite directions away from each other and at least approximately parallel to the bottom (20) directed control air jet nozzles (23a, 23b) for each one Control air flow (24a, 24b) are provided. Air wall device according to one of the preceding claims, characterized in that for the first (4a) and / or for the second (4b) air wall and / or for the at least one control air flow (24a, 24b) means (14) for climatic and / or physical and / or mechanical and / or biological treatment of the sucked air (12), in particular a heating device (14) or a cooling device and / or a filter device and / or a dehumidifier is provided. Air wall device according to one of the preceding claims, characterized in that a control or control unit is provided, through which the air flow rate and / or any existing built-in climate-physical installation components, in particular the desired heating or cooling capacity of the air walls (4a, 4b) and / or at least a control air flow (24a, 24b), automatically, preferably depending on the degree of opening of the door (9) and / or in dependence on the desired and / or currently present climatic conditions, controllable or controllable is or are.

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