EP1571402A1 - Room air treating device for heating, cooling and/or ventilating a room and corresponding method - Google Patents

Abstract

The device (1) has a primary air connection (22) for incoming primary air, a room air inlet (31) and a supply air outlet (36) as well as a heat exchanger (28). An air conveyor device (33) is connected in downstream of the heat exchanger and the air supply outlet is connected in downstream of the air conveyor. The air conveyor is a ventilator. Independent claim describes method for heating, cooling and ventilating a room whereby room air and/or when required primary air is supplied to the heat exchanger and then air can be conveyed optionally further on into the room.

Description

The invention relates to an air-conditioning device for heating, Cooling and / or ventilating a room.

Ventilation systems provided with induction devices are known. They are with their primary air connection to one centrally located in the building primary air treatment via ventilation ducts connected. These lead the respective induction device Primary air flowing into and out of a mixing chamber the induction effect sucks room air through a heat exchanger. The room air is treated thermally in the heat exchanger and mixes downstream of the heat exchanger in the Mixing room with the primary air. The mixed air thus formed is over blown a Zuluftauslass in the room of the building. such Facilities have only a limited cooling or Heating power on, as the amount of primary air supplied is measured according to the fresh air content to be provided in the room. If necessary, this fresh air content is determined by the Purpose of the room, in particular according to the expected number of people in the room.

The invention is based on the object, a specify room ventilation equipment with more flexible management, among other things a greater cooling or heating capacity at optionally preferably constant primary air quantity (the same Primary air volume flow).

This object is achieved in that the mentioned Ventilation system a primary air connection for delivered primary air, a room air inlet and a Zuluftauslass and a heat exchanger, wherein the heat exchanger Room air from the room air inlet and / or demand-dependent / optional Primary air from the primary air supply can be fed and the downstream of an air conveyor downstream, and wherein downstream of the air conveyor the Zuluftauslass lies. Due to this configuration can in a first mode the primary air supply are fed to primary air, which is in one Mixing chamber in front of the heat exchanger due to their induction effect mixed with sucked in from the room room air. This one Mixture of the two types of air takes place before the heat exchanger is located here the so-called direct induction. The mixed air flows through then the heat exchanger and is there, if necessary, thermally treated. The air thus treated flows to the supply air outlet and thereby enters the room. The air conveyor, the between the heat exchanger and the Zuluftauslass is located not in operation; it is therefore only of the heat exchanger flowing through the air stream. In a second mode is connected to the primary air connection as described above. also supplied with primary air, so that they are the same Set conditions as described above for the first mode, however, an active air delivery takes place downstream of the Heat exchanger by putting the air conveyor into operation is. This has the consequence that by the induction effect the primary air sucked in room air in their flow is considerably increased by the fact that the air conveyor exerts a suction effect, so that through the room air inlet a correspondingly large amount of room air enters, with the primary air mixes, flows through the heat exchanger and the air conveyor and from there via the supply air outlet into the room entry. In this way can be by means of the air conveyor significantly increase the cooling or heating capacity. Especially can also be a regulation or control done by that the air conveyor operated variably in terms of their delivery becomes. The primary air volume flow remains in the second operating mode preferably constant or to an adjustable value limited, that is, the amount of per unit time the primary air connection supplied primary air is essentially not from the Suction effect of the air conveyor influenced. As a consequence, that - regardless of the effect of the air conveyor - only the amount of primary air enters the room, which is for the respective Room use is desired. You can, for example, from yourself be there dependent on the number of people. In particular, will they have a fixed value resulting from the ventilation Rules. It is in a third mode possible, the ventilation device according to the invention without the Supply of primary air to operate. Thus, the primary air connection no primary air supplied, which is done, for example can that the central air distribution network of the primary air in the Area of the primary air connection a closable air damper or this air damper inside the inventive Device is housed. In the mentioned third mode is However, the air conveyor in function, that is, unfolds a suction effect, with the result that room air through the heat exchanger sucked and conveyed to Zuluftauslass so that accordingly room air by means of the heat exchanger thermally can be treated and blown back into the room becomes. The amount of air thus treated is in turn of the Operational management of the air conveyor device dependent, in particular a control or regulation may be provided.

In a further, fourth mode, the inventive Ventilation system also work in ventilation mode. This is the case when the heat exchanger is switched off, that is, a cooling or heating medium flowing through the heat exchanger can not be active. The consequence is when the primary air is not supplied, that the room air is circulated and with supplied primary air, that a fresh air supply with mixing and circulation of the room air he follows. The latter can both with active air conveyor as well as disconnected air conveyor due to the induction effect be performed.

According to a development of the invention it is provided that the Air conveyor is a fan. About the fan speed the air flow rate can be determined easily.

Alternatively, it can also be provided that instead of the fan an induction device is used as an air conveyor. It is conceivable that these are from a partial flow of primary air or additional primary air is passed through, i.e., their induction nozzles receive a share of primary air or additional primary air (in addition to the primary air supplied to the primary air supply), the / does not flow through the heat exchanger. Due to the developed Induction effect is amplified air over the heat exchanger sucked, with the result that a correspondingly larger Part of room air passes through the heat exchanger.

In particular, the air conveyor can be used as a cross-flow fan be educated. This embodiment allows the promotion large amounts of air at very low sound power, so that preferred can be dispensed with a silencer. Of course However, are also embodiments with muffler conceivable.

A downstream of the primary air connection is preferred Induction device provided. Basically, the blowing out the primary air in the mentioned mixing space to an induction effect, sucks in the room air. However, this suction effect will amplified when the blowing of the primary air into the mixing chamber by means of the mentioned induction device takes place, so that thereby a larger amount of room air is sucked.

The induction device has in particular at least one induction nozzle. With the induction nozzle, the primary air is in the Mixture space ejected, the nozzle effect a strong induction causes, so sucked a correspondingly large amount of room air becomes. Preferred are a plurality of induction nozzles of Induction device available to a large volume of room air to create.

The primary air connection preferably leads to an air distribution box. Thus, the supplied primary air through the air distribution box injected in accordance with a wide current in the mixing chamber, so that a surface effect is achieved. In particular, at the Luftverteilkasten the mentioned induction nozzles arranged so that the supplied primary air is initially distributed in the air distribution box and then from the spaced apart induction nozzles exits into the mixing chamber.

In particular, the air conditioning device is central Device trained. This means that it supplies centrally with primary air is, that is, the primary air comes from an air center, the one Variety of room ventilation equipment supplied. The air center is preferably located at a particular location of the building to to prepare central fresh air there. The outside air becomes particular filtered and possibly moistened or dehumidified. She can in particular already pretreated thermally, so flow through suitable heating or cooling units. About one Pipe distribution network (air ducts) is the thus prepared primary air fed to the primary air connection of the respective central device.

Alternatively, it is also possible that the invention raumlufttechnische Device is designed as a decentralized device. This means that there is no central primary air treatment, but a decentralized. This is also a subsequent installation the decentralized device in a to be conditioned or to ventilating space possible. Of course, this can also be largely done invisible, so for example in a raised floor. As the primary air, the decentralized device is supplied with air, which it receives from his immediate neighborhood. For example by means of an air conveyor outside air in the area of the facade sucked the room and fed to the primary air connection. As This results in the course of this application under primary air thus including outdoor air (treated or untreated) Understood.

Depending on the installation site of the ventilation system in Room and, depending on the appropriate training of ventilation technology Device, the training results as an underfloor device, Parapet or ceiling unit.

It is advantageous if the heat exchanger in the housing of the ventilation technology Device is arranged obliquely, because then achieved a correspondingly low or narrow height becomes. Thus, the dimension of the heat exchanger is greater than the corresponding housing dimension.

According to a development of the invention it is provided that the Room air inlet and the supply air outlet on the same, first side of the housing the housing of the ventilation system lie. Preferably, the primary air connection is on a second side of the housing arranged, which forms an angle with the first side of the housing. So it is possible, for example, room air inlet and Zuluftauslass form on the ceiling wall of the housing while the primary air connection to a side wall or End wall of the housing is arranged and consequently the two mentioned housing sides preferably an angle of about 90 ° to each other. The mentioned configuration is particular advantageous if the air conditioning device as an underfloor device is equipped, since then the mentioned ceiling wall a floor section to be ventilated or air-conditioned Can form space.

In particular, it can be provided that the first housing side has an air grid or is formed by an air grid.

According to a development of the invention it is provided that the Heat exchanger is led to the grille and thereby the opening of the room air inlet limited. This saves expensive air handling equipment and therefore reduces the construction costs. Corresponding it can be provided that the cross-flow fan is a vortex generator has, which is arranged on the air grid and thereby the Opening of the supply air outlet limited. Only the zone between vortex generator and heat exchanger must be in the area of the grille by means of closed a corresponding wall of the housing be to prevent coming from the heat exchanger Air enters the room without passing through the air conveyor.

• Zuführung von Raumluft und/oder bedarfsabhängige/optionale Zuführung von Primärluft zu einem Wärmetauscher,
• stromabwärts des Wärmetauschers bedarfsweise erfolgendes Fördern der vom Wärmetauscher stammenden Luft und
• Einbringen der vom Wärmetauscher stammenden Luft als Zuluft in den Raum.

Finally, the invention relates to a method for heating, cooling and / or ventilating a room with the following steps:

• Supply of room air and / or demand-dependent / optional supply of primary air to a heat exchanger,
• downstream of the heat exchanger, if necessary, promoting the originating from the heat exchanger air and
• Introducing the air coming from the heat exchanger as supply air into the room.

Figur 1

eine schematische Seitenansicht durch eine lufttechnische Einrichtung,

Figur 2

eine der Figur 1 entsprechende Ansicht eines weiteren Ausführungsbeispiels einer lufttechnischen Einrichtung,

Figur 3

die lufttechnische Einrichtung der Figur 1 als zentrales Gerät und

Figur 4

die lufttechnische Einrichtung der Figur 1 als dezentrales Gerät.

The drawings illustrate the invention by means of exemplary embodiments, namely:

FIG. 1

a schematic side view through an air conditioning device,

FIG. 2

1 is a view corresponding to FIG. 1 of a further exemplary embodiment of an air-conditioning device,

FIG. 3

the ventilation device of Figure 1 as a central device and

FIG. 4

the ventilation device of Figure 1 as a decentralized device.

FIG. 1 shows a room air technical device 1, which is used as central Device 2, namely as an underfloor device 3 is formed. The underfloor device 3 has a substantially cuboidal housing 4, which has a bottom wall 5, a top wall 6, a side wall 7, a side wall 8 and two further, not visible from Figure 1 Has side walls which are parallel to the paper plane of Figure 1 run and spaced from each other and the width of the Determine the underfloor device 3. The side wall 7 has an oblique extending wall part 9 and the side wall 8 also a sloping wall portion 10. Starting from the bottom wall 5, the side wall 7 further has a right angle to the bottom wall 5 standing wall part 11 and the side wall 8 a likewise perpendicular to the bottom wall 5 extending wall portion 12th on. The two sloping wall parts 9 and 10 are in yours Angles are oriented so that they diverge from one another. The ceiling wall 6 is formed as an air grid 13, which is a first Housing side 14 of the housing 4 forms. The side wall 7 forms a second housing side 15 of the housing 4. The side edge areas 19 'and 20' of the air grille 13 project beyond the wall part 9 and the wall part 10th

The underfloor device 3 is located within a double floor 16 a room 17 of a building, not shown, or the like. The underfloor device 3 is below the aufgefelzten Floor 18 of the room 17 arranged that the air grille 13th aligned with the floor 18.

The underfloor device 3 is in the area of the facade 19 of the room 17th arranged, that is, the air grille 13 extends to the parapet wall 20 of the room 17 zoom. Located above the parapet wall 20 a window 21. Further details of the room 17 are here Not shown for simplicity.

A primary air connection 22 is in the region of the side wall 7 of the housing 4 arranged and opens into a triangular in cross-section trained air distribution box 23, which extends across the width the room ventilation device 1 extends. The backward Wall 24 of Luftverteilkastens 23 extends at an acute angle to the bottom wall 5 and has - over its width and / or height-air outlet openings 25 on. Is-about a not shown Primary air channel primary air according to primary air arrow 26 via the primary air connection 22 blown into the air distribution box 23, so occurs this primary air from the mentioned air outlet openings 25 according to the primary air arrows 26 'in the interior of the housing 4. this happens in a mixing chamber 27, on one side of the Luftverteilkasten 23 and on the other side of a heat exchanger 28th is bounded. The heat exchanger 28 is inclined in the housing 4 housed so that its lower corner edge 29 against the Inside the bottom wall 5 and its upper corner edge 30 against the inside of the air grille 13 abuts. In the upper area of the Mixing space 27, the grille 13 forms a room air inlet 31st

Due to the effluent from the air outlet openings 25 primary air (Primary air arrows 26 '), an induction effect is achieved, the This leads to that from the room 17 room air according to the room air arrows 32 is sucked and enters the mixing chamber 27. There takes place in the course of the so-called direct induction a mixture with the Primary air. The air distribution box 23 forms together with the air outlet openings 25 thus an induction device 52. The formed Mixed air flows through the heat exchanger 28 and is there treated thermally. Depending on whether the heat exchanger of flows through cold water or warm water, takes place Heating the air or a cooling. The water connections and the entire water cycle of the heat exchanger 28 are not shown for the sake of clarity. It goes without saying possible, the temperature of the heat exchanger 28 in the desired Specify way and possibly also a controller or regulating the amount of water to realize. By means of Mixed air arrows 33 'is indicated that the heat exchanger 28th perfused mixed air now to an air conveyor 33rd passes, which are arranged in the housing 4 and as a cross-flow fan 34 is formed. The cross-flow fan 34 is by means of a driven electric motor, not shown. The drive is a and turn off as well as controllable and / or controllable, so that not one shown control and / or regulating device depending on the desired Mode a corresponding operation of the Unterflurgeräts 3 performs. If necessary, the water temperature the heat exchanger 28 and possibly also the Volume flow of water additionally or alternatively regulated and / or controlled. Likewise, it is possible by means of a in the figure 1, not shown, the air flow of the Primary air (primary air arrow 26) on and off and to control and / or to regulate. All mentioned parameters can be of course alone or in combination of certain parameters control each other or all parameters with each other or regulate.

The cross-flow fan 34 delivers the mixed air according to the Mixed air arrows 35 up to a Zuluftauslass 36, of a range the air grid 13 is formed. Between the heat exchanger 28 and the facing edge of the opening of the Zuluftauslasses 36th is a the air grille 13 occlusive wall portion 37th of the housing 4, in a vortex generator 38 of the cross-flow fan 34 passes. From the Zuluftauslass 36, the mixed air 35 occurs as Supply air according to supply air arrow 39 upwards. This is preferably done near the parapet wall 20 of the room 17.

The room air technical device 1 according to Figure 1 works in one first mode thus according to the above such that the primary air induces room air and the thus formed Mixed air passes through the heat exchanger 28. The then subsequent Crossflow fan 34 is off, but can be traversed by the air. The mixed air flows over the supply air outlet 36 in the room 17 upwards or obliquely upwards.

In a second mode, the device operates as in the first mode, In addition, however, the cross-flow fan 34 is turned on and thus supports the induction effect. Even if due the exit of the primary air from the air outlet openings 25th no induction effect would be achieved, ensures the suction effect the cross-flow fan 34 that room air from the room 17th is sucked in, mixes with the primary air and mixed air the Heat exchanger 28 interspersed.

In a third mode, the ventilation system works 1 of Figure 1 as follows: it is the primary air port 22 no Supplied primary air because, for example, there existing, not shown air valve is closed. The cross-flow fan 34 is in function and therefore finds a ventilation Treatment of the room air of the room 17 instead, since the cross-flow fan 34 via the room air inlet 31 draws in room air, the Room air in the heat exchanger 28 treated with respect to their temperature and the air thus treated from the Zuluftauslass 36 again is blown into the room 17.

Finally, it is also conceivable that in the aforementioned three modes of heat exchanger 28 taken out of service is, that is, its water supply is blocked and / or the Water is not cooled or heated. In such a case works the ventilation device 1 as a ventilation device for the room 17th

FIG. 2 shows a further exemplary embodiment of an air-conditioning system Device 1 that for the embodiment of Figure 1 only differs in that instead of the air outlet openings 25 of the air distribution box 23 induction nozzles 40 (primary air nozzles) are provided, of which -for the sake of simplicity-in the Figure 2 is shown only one. As a result, the induction device 52 formed. Advantageously, several rows of primary air nozzles 40, which cause the from the primary air nozzles 40th Exiting primary air cause a very intense induction, i. It is a correspondingly large volume flow of room air through sucked in the room air inlet 31 and mixed with the primary air.

The operation of the air conditioning device 1 according to the embodiment of Figure 2 otherwise corresponds to the operation, as in the embodiment of Figure 1 already has been described.

The embodiment of a room ventilation device 1 according to Figure 3 differs from the embodiment of the 1 in that in the primary air supply line 41, an air valve 42nd is arranged in the form of a rotary flap 43, so that-depending on Drehklappenstellung- a corresponding primary air flow to the Air distribution box 23 is supplied.

In the embodiment of Figure 4 is a raumlufttechnische Device 1 realized, which corresponds to the embodiment of Figure 1, However, a primary air supply 44 is connected upstream, so that the Ventilation device 1 in the embodiment of the figure 4 not as a central, but as a decentralized device 45 is formed is. A in the facade 19 of the room 17 having the building there is an outside air opening 46, corresponding to the outside air the outside air arrow 47 can flow. The outside air opening 46 can be adjusted by means of an outside air valve 48 as needed open or close or according to the desired Set outside air volume flow. This is funded from one adjoining the outside air valve 48 downstream Outside air fan 49, whose speed of the already mentioned Control and / or regulating unit controlled in the desired manner and / or regulated. It is also conceivable that only one simple on and off operation takes place. To the outside air fan 49 may connect a muffler 50, but then may be omitted if the outdoor fan 49, for example, as Cross-flow fan is designed and therefore only a very low Sound pressure releases. The outside air fan 49 is over the optional Silencer 50 with the primary air connection 22 via a Air connection line 51 connected.

In the embodiment of FIG. 4, the primary air feed 44, which represents an outside air supply, indicated only schematically. In practice, it is by no means necessary that a U-shaped Air supply takes place. For example, it is also conceivable that Ventilation system 1 a little further away from the parapet wall 20 to arrange, so that the outside air in a straight way can enter the room ventilation device 1, wherein but then the primary air connection 22 is not facing away from the Facade, but this is arranged facing, that is, the air conditioning Device 1 is opposite to the representation of the figure 4 rotated by 180 ° in the double bottom 16 of the space 17. It is also conceivable that the primary air feed 44 is not separate, So outside of the housing 4 of the air conditioning device 1 is located, but is located within the housing 4, so that consequently a decentralized device 45 is created, all Components or at least a proportion of the components (optionally no muffler 50).

The embodiment of Figure 4 operates as follows. ever according to the speed of the outside air fan 49 is a corresponding Outside air volume flow sucked, wherein the outside air valve 48th is open. This outdoor air volume flow is called primary air volume flow via the air connection line 51 and the primary air connection 22 supplied to the air distribution box 23. From there then takes place the respective operation management of the ventilation device 1 as well as described in the embodiment of Figure 1.

The ventilation device according to the invention can be according to operate in the first mode in direct induction mode. By means of Primary air is supplied to a correspondingly relatively small volume flow, due to the corresponding induction effect too a relatively small cooling capacity / heating power leads. Will the primary air decentralized processed, so supplied by means of a fan outside air, so a small sound power is achievable when as a fan a cross-flow fan is used. Alternatively, it is possible to use an axial fan or centrifugal fan. Possibly is then the downstream of a silencer recommended. Alternatively to decentralized operation is also a central Operation possible, that is, the primary air is from an air center of the Building supplied via an air distribution network.

In the second mode of operation, in addition to the first mode of operation Operation of the air conveyor downstream of the heat exchanger is. This allows a correspondingly large volume flow generate, so that a large cooling capacity is the result. The same of course applies to the heating power. by virtue of the use of a cross-flow fan as an air conveyor can achieve a small sound power.

In the third mode, in which only the air conveyor in operation is, but no primary air is supplied, can be a corresponding achieve large cooling capacity or heating power, because a large volume flow can be promoted. Through a Cross-flow fan as an air conveyor can be a achieve small sound power. There is a fan coil unit.

When connected to a central ventilation system, the primary air through a central fan and over one in the ventilation duct and / or sitting directly in front of the ventilation system Volumetric flow controller, preferably with silencer supplied. at a decentralized device, the primary air through a shut-off and Control unit in or just behind a wall opening the facade is attached, from one in the flow direction following fan (centrifugal fan, axial fan or cross-flow fan), optionally with silencer, promoted, wherein this promotion can be controlled or regulated.

To the cooling or heating capacity -as mentioned - essential To increase, the cross-flow fan sitting in the unit sucks over the heat exchanger at a constant primary air quantity essential more circulating air / room air. This will increase the airflow increased many times over. The used crossflow fan can be compared to a corresponding centrifugal fan or axial fan at the same sound power considerably larger volume flows promote. If the cross-flow fan is used, then a Mufflers omitted. The resulting from the figure 4 primary air supply 44 may in the execution of the ventilation device as a decentralized device directly into the housing 4 of the ventilation Facility to be integrated. Alternatively, it is also possible form the primary air supply 44 as a mounting kit, ie in to integrate an attachment housing. In training the ventilation Device as a central device can be a shut-off and / or control flap according to the embodiment of Figure 3 with in the device (Housing 4) be integrated, so that a unit in a common Housing is present.

Claims (21)

Air conditioning device (1) for heating, cooling and / or Ventilating a room (17), with a primary air connection (22) for delivered primary air, a room air inlet (31) and a Zuluftauslass (36), and with a heat exchanger (28), the room air from the room air inlet (31) and / or demand-dependent / optionally primary air from the primary air connection (22) can be fed and the downstream an air conveying device (33) is connected downstream, wherein downstream of the air conveyor (33) the Zuluftauslass (36) lies. Air conditioning device according to claim 1, characterized in that the air conveying device (33) is a fan. Air conditioning device according to one of the preceding claims, characterized in that the air conveying device (33) is a cross-flow fan (34). Air-conditioning device according to one of the preceding claims, characterized in that the air-conveying device (33) is an induction device. Air-conditioning device according to one of the preceding claims, characterized by an induction device (52) located downstream of the primary air connection (22). Air-conditioning device according to one of the preceding claims, characterized in that the induction device (52) has at least one induction nozzle (40) for blowing out the primary air. Air-conditioning device according to one of the preceding claims, characterized in that the primary air connection (22) leads to an air distribution box (23). Air conditioning device according to one of the preceding claims, characterized in that the air distribution box (23) emanating from the induction nozzle (40). Air conditioning device according to one of the preceding claims, characterized in that upstream of the heat exchanger (28) is a mixing space (27) for primary air and room air. Air conditioning device according to one of the preceding claims, characterized by the design as a central device (2). Ventilation device according to one of the preceding claims, characterized by the design as a decentralized device (45). Air-conditioning device according to one of the preceding claims, characterized by the construction as an underfloor device (3). Air conditioning device according to one of the preceding claims, characterized by the training as a parapet device. Ventilation device according to one of the preceding claims, characterized by the design as a ceiling device. Ventilation device according to one of the preceding claims, characterized in that the heat exchanger (28) is arranged obliquely in a housing (4) of the air conditioning device (1). Air conditioning device according to one of the preceding claims, characterized in that the room air inlet (31) and supply air outlet (36) on the same, first side of the housing (14) of the housing (4). Air-conditioning device according to one of the preceding claims, characterized in that the primary air connection (22) on a second side of the housing (15) which forms an angle with the first housing side (14). Air-conditioning device according to one of the preceding claims, characterized in that the first housing side (14) has an air grid (13) or is formed by an air grid (13). Air conditioning device according to one of the preceding claims, characterized in that the heat exchanger (28) is guided to the air grille (13) and thereby limits the opening of the room air inlet (31). Ventilation device according to one of the preceding claims, characterized in that the cross-flow fan (34) has a vortex former (38), which is arranged on the air grid (13) and thereby limits the opening of the Zuluftauslasses (36). Method for heating, cooling and / or ventilating a room, in particular using a room ventilation device according to one or more of the preceding claims, with the following steps: Supply of room air and / or demand-dependent / optional supply of primary air to a heat exchanger, downstream of the heat exchanger as needed / optionally promoting the air coming from the heat exchanger, Introducing the air coming from the heat exchanger as supply air into the room.

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