DE10223085B4 - Device for heating and / or cooling a room - Google Patents

Abstract

Device for heating and / or cooling a room, with a heating and / or cooling element and a heat- or cold-emitting radiation surface, wherein in a first mode, the radiation surface (32) with a heat or cold air flow (30) is applied inside the device and in a second mode of operation of the heat or cold air stream (30) at least partially passes through at least one device-related opening (16,17) in the space (1), according to the German patent DE 101 28 381 C1 , characterized in that the heating and / or cooling element (26) together with a heat or Kälteluftstrom (30) generating air conveyor (28) forms a structural unit (90), the structurally the device-related opening (16,17) and / or the switching of the operating modes making members (20,22).

Description

The invention relates to a device for heating and / or cooling a room with a heating and / or cooling element and a heat- or cold-emitting radiation surface, wherein in a first mode, the radiation surface with a heat or cold air flow inside the device is acted upon and in a second mode the heat or cold air stream at least partially passes through at least one device-related opening into the room, according to the German patent DE 101 28 381 C1 ,

Such heating or cooling devices go from the German patent DE 101 28 381 C1 out. In a first operating mode, the radiant surface is acted on inside the device with a heat or cold air flow, and in a second operating mode the heat or cold air flow passes at least partially through at least one device-related opening into the room. The room user can thus decide freely between the two modes, the radiation mode (first mode) without any drafts, so that a permanent stay in the vicinity of the room air conditioning device according to the invention is easily possible. If the room user decides to raise or lower the room temperature quickly, he chooses the second mode of operation, which is a convection mode, and accepts the drafts or even wants such air flow. Of course, it is also possible to perform this convective operation with such a set or set in the pulse heat or cold air flow that relatively moderate air velocities occur in the room. By means of one and the same device, different heating or cooling modes are thus possible, namely, as mentioned, the radiation mode and the convection mode, wherein in the convection mode preferably a certain amount of radiation additionally participates. In the comfort mode, ie in the first operating mode, the heating or cooling air flow is guided inside the device, that is, it does not enter the room in terms of flow, but acts on the side of the radiation surface facing away from the room, so that the side of the radiation surface facing the room through radiation energy exchange on the room climate acts. In the second operating mode, at least part of the heat or cold air flow is introduced into the room, so that a high power density is achieved.

Of the Invention is based on the object, the above device to simplify structurally considerably, to make it less expensive, and a better separation between the trades Klimabau and drywall to create in the creation.

These Task is inventively characterized solved, that the heating and / or cooling element together with a heat or cold air flow generating air conveyor forms a structural unit, the unitary the device-related opening and / or having the switching of operating modes making members. Accordingly, the Assembly all or substantially all air conditioning modules on that made by an air conditioning company and be assembled. The assembly preferably forms a complete self-sufficient, self-contained air conditioner. These Assembly is assigned to a housing preferably made in drywall, being this case forms a plenum. The plenum is preferred in the ceiling area of the to be heated or cooled Room of a building arranged or created there in the drywall. by virtue of The invention thus the trades air conditioning and drywall separately executable, so that, for example, the drywall no switching elements or like for must consider the first and the second mode of operation, since this Baueinheitlich the unit are assigned, ie in particular belong to the separate room air conditioner.

To a development of the invention, it is provided that the device-related opening a outlet for one Circulating air flow is and that another device-related opening one inlet port for the Circulating air flow forms. The subsidized by a corresponding source of heat or cold air leaves thus over the outlet opening the device and enters the room. There is a lively Air mixture, preferably with high induction, instead. A corresponding the supply air flow measured Umluftstrom ver leaves the residence area of persons and passes through the inlet opening in the course of said Recirculation process back to the re-treatment facility.

To an embodiment of the invention, the heat or cold air flow promoted by a fan. additionally or alternatively it is possible to promote this air flow through induction air nozzles. Finally is it in addition or alternatively possible, the heat or cold air flow to promote free convection.

The Heating and / or cooling element is preferred as a heat exchanger educated. In particular, come water / air heat exchanger or else Coolant / air-heat exchanger for use.

The heating and / or cooling element and the Heat or cold air flow driving air conveyor are preferably components of a Ventilor Konvektors or an induction device.

The Switching the modes is done in particular by means of mechanical Switching the members. These songs may be preferably to supply or exhaust air valves or the like act. in the The term "flap" also includes others Closing means to understand, with those air flow paths open or can be closed. Thus, according to the invention, the folding movement does not occur on, but only on the opening and closing. Of course can also When opening and closing Intermediate positions are approached, that is, the invention is not on a complete one close and maximum opening the airways restricted, but also a partial opening and closing is included. This may be in the course of a control or regulating operation respectively.

To a preferred embodiment The invention provides that the outlet opening and / or inlet opening can be opened closing elements assigned. The outlet opening is a supply air flap and the inlet opening associated with a recirculation damper. The outlet opening can be for example, open and close by means of the inlet flap; of the for the airflow effective cross section of the inlet opening is determined by the position of the Recirculation damper dependent.

To a preferred embodiment of Invention is the inlet opening not provided with a closure device, that is, they is unlockable designed and arranged so high that in the first mode, So in the comfort mode, the inside of the device cold air flow through circulating the gravity effect largely inside the device remains. In the deflection area can Be provided with baffles. The cold air flow thus does not occur into the room. There is thus a closed flow paths having cold air lake, which largely remains in the device and its surface lower than the inlet opening. In this state, the radiation surface is applied, so that these influences the climate in the room. If the transition to the second mode, so leaves the heat or cold air flow at least partially through the outlet opening the device and enters the room to be heated or cooled. To a pressure equalization bring about, flows in the second mode by the correspondingly high arranged Inlet opening room air back to the institution, this means, It is a designated cooling operation possible, without the entrance opening a flap is assigned. This simplifies the design.

The Drawings illustrate the invention with reference to exemplary embodiments, and that shows:

1 a room of a building or the like equipped with a device for heating and / or cooling, the device being in a first operating mode,

2 the representation of 1 but in a second mode,

3 to 5 different designs of the device,

6 a device with two louvers,

7 and 8th a device with only one air flap,

9 a device with internal partition,

10 a device with an air guiding device,

11 and 12 a device in which the conveying device of the air is arranged separately from the heating and / or cooling element,

13 a device with horizontally divided air chambers,

14 to 16 a device in which the air inlet into the room can be influenced by the settable size of the volume flow of the conveying device,

16a to c, another embodiment of a corresponding to the 14 trained institution,

17 a device with an outlet opening designed as a slot outlet, which allows air guidance in the room,

18 an example of air control in the room,

19 to 21 the device with a supply air flap enabling the air control in the room,

22 . 23 a device provided with an induction device,

24 a device associated with a partial ceiling with induction device,

25 a device associated with a closed suspended ceiling with induction device,

26 . 27 a device provided with a vertical radiating surface,

28 a device in which the air is conveyed by means of free convection,

29 to 31 further embodiments of the device Einrich.

The 1 shows a room 1 a building. The space 1 has a solid ceiling 2 , a floor 3 and sidewalls 4 . 5 on. Inside the room 1 there is a facility 6 for heating or cooling. It is below the solid ceiling 2 arranged and has a housing 7 That's a plenary session 8th forms. The housing 7 points to its underside 9 a radiation wall 10 and at its top 11 a ceiling wall 12 on. Furthermore, the housing has 7 side walls 13 , Wherein, in a quarter-wave housing design a total of four side walls 13 are provided. Adjacent sidewalls 13 each include an angle of 90 °. At two, opposite each other, from the 1 apparent side walls 13 (first sidewall 14 and second side wall 15 ) is in each case an opening 16 respectively 17 formed, with the opening 16 an outlet opening 18 and the opening 17 an inlet opening 19 forms. The outlet opening 18 is by means of a member 20 representing supply air flap 21 and the inlet opening 19 by means of a likewise a building song 22 forming recirculation damper 23 closable. inlet flap 21 and recirculation damper 23 are around central, horizontal axes 24 pivoted.

At the inside 25 of the housing 7 is a heating and / or cooling element 26 arranged, which has a heat exchanger 27 forms. It is also located inside 25 of the housing 7 a conveyor 28 , which serves to promote air and as a fan 29 is trained. The heating and / or cooling element 26 forms together with the air conveyor 28 and the inlet flap 21 and the recirculation damper 23 a structural unit 90 in a device housing 91 is located. This air conditioning unit is thus separate from the housing 7 So the plenum 8th , educated. Preferably, the structural unit 90 be made in an air conditioning factory, while the plenum is preferably created in the drywall, so belongs to another trade.

The result is the following function: The fan 29 promotes a flow of air that the heat exchanger 27 happens, so that - depending on the condition of the heat exchanger 27 (Heating or cooling) - this one heat or cold air flow 30 represents. In a first operating mode are supply air flap 21 and recirculation damper 23 closed so that the heat or cold air flow 30 at the inside 25 of the plenum 8th so that it rotates on the inside 31 the radiation wall 10 along, then - in the area of the outlet opening 18 - is deflected upward, below the ceiling wall 12 flows back, in the region of the inlet opening 19 is deflected down and back to the fan 29 arrives. Because the radiation wall 10 is designed to conduct heat, radiates the external radiation surface 32 Heat or cold (arrows 33 ) in the room 1 ,

A second mode of operation of the device 6 is in the 2 shown, with respect to the designation of the parts on the 1 is referenced. In the 2 are supply air flap 21 and recirculation damper 23 open. There outlet opening 18 and inlet opening 19 spaced to the side walls 4 and 5 of the room 1 lie, the heat or cold air flow occurs 30 out of these openings and enters the room 1 , There is a strong convective mixing. The room air passes as circulating air through the inlet opening 19 back to the interior 25 the device 6 , As the heat or Käteluftstrom 30 also in the from the 2 resulting second mode in the inside 31 the radiation wall 10 along, exchanges their radiation surface 32 also heat or cold (arrows 33 ) with the room 1 out; however, this exchange is opposite to that in 1 shown mode lower. Also in the embodiment of 2 are heat exchangers 27 , Fan 29 and inlet flap 21 and recirculation damper 23 as a structural unit 90 in a device housing 91 accommodated. The device housing 91 has in all embodiments of this application, of course, corresponding openings, so that the air flows off or can occur.

The 3 shows the room 1 with the arrangement according to the 1 and 2 that is, the device 6 is located at a distance below the solid ceiling 2 , The device 6 is for example by means of a suspension device 34 on the solid ceiling 2 attached. According to 4 It is also possible, not a cover sail according to 3 provide, but a closed ceiling 35 form, that is, below the solid ceiling 2 of the room 1 there is the suspended ceiling 35 that the outlet opening 18 , the inlet opening 19 , the inlet flap 21 and the recirculation damper 23 having. In the space between the ceilings 2 and 35 inside 25 , are heat exchangers 27 and fan 29 arranged.

The 5 shows an embodiment in which a partial ceiling 36 in the room 1 is formed, that is, only a portion of the floor plan of the room 1 has the plenary 8th on, with the Auslas söffnung 18 and the inlet flap 21 on a vertical wall 37 and the inlet opening 19 and recirculation damper 23 on a horizontal wall 38 are located, with the horizontal wall 38 the radiation wall 10 represents.

From the 6 It can be seen that - as well as in the embodiment of 1 and 2 - the device 6 with inlet flap 21 and recirculation damper 23 is provided. The ceiling wall 12 is closed.

In the embodiments of the 3 to 6 each is a structural unit 90 with device housing 91 provided, wherein the structural unit 90 the fan 29 , the heat exchanger 27 as well as the inlet flap 21 and the exhaust air flap 23 includes.

In contrast, the shows 7 An institution 6 whose housing 7 with distance to the solid ceiling 2 is arranged and in the area of its ceiling wall 12 the inlet opening 19 has, which is not closable, so has no flap or the like. Otherwise, the embodiment of the embodiment corresponds to 7 the embodiment of the embodiment of 6 , From the 7 and 8th shows the operation of this embodiment. Will - according to 7 - In the cooling mode according to the first mode, the supply air flap 21 closed, so the fan promotes 29 one through the heat exchanger 27 cooled cold air flow 30 inside 25 of the housing 7 circulates and also remains therein due to the gravity effect. Will - according to 8th - the inlet flap 21 opened, so the cold air flow penetrates 30 in the room 1 one. To equalize the pressure, a corresponding amount of air flows out of the room 1 through the inlet opening 19 in the interior 25 the device 6 back. In the embodiments of the 7 and 8th each form heat exchangers 27 , Fan 29 and inlet flap 21 a structural unit 90 with device housing 91 ,

The 9 shows a device 6 that the institution 6 of the 8th equivalent. The only difference is that inside 25 the device 6 a horizontal partition 39 is the internal heat or cold air flow 30 in one to the inlet flap 21 flowing in and one to the fan 29 subdivided backflowing branch. In addition, a louver 40 be provided, which - like the top view of the 10 shows - that of the heat exchanger 27 coming air diverging fanning out. For this purpose, appropriately designed air baffles 41 provided so that a horizontal fanning takes place. In the embodiment of 9 and 10 are thus vertically divided air chambers 42 . 43 in front. According to 10 becomes the inlet flap 21 around its axis 24 by means of a drive 44 pivoted. The heat exchanger 27 , the ventilator 29 , the inlet flap 21 with drive 44 and the louver 40 belong to a structural unit 90 on, to their cohesion - a device housing 91 having.

Also in the embodiment of 11 and 12 is the plenum 8th because of the top 11 the device 6 lying flap-free inlet opening 19 partly open. fan 29 and heat exchangers 27 are spaced from each other so that the fan 29 below the inlet opening 19 located and the heat exchanger 27 below the ceiling wall 12 of the housing 7 lies. According to 12 In the first operating mode, a heat or cold air flow is formed 30 from the fan 29 goes out, the heat exchanger 27 happens and splits up there. The two partial flows are diverted (it is assumed that the inlet flap 21 is closed, unlike in the 12 shown in dashed lines), so that the two partial flows again the heat exchanger 27 pass and to the fan 29 back pass. An assembly 90 with device housing 91 takes the heat exchanger 27 , Fan 29 and inlet flap 21 with drive 44 on.

In the embodiment of 13 lie with the device 6 horizontally split air chambers 45 and 46 in front. This is achieved by - the heat exchanger 27 starting - a partition 47 at the inside 25 of the housing 7 is arranged. outlet 18 and inlet opening 19 lie to the center line 48 offset to the air chamber 46 to accomplish. In the second operating mode, it flows onto the outlet opening 18 directed heat or cold air flow 30 up to an opening 49 between the front of the partition 47 and the housing 7 is formed. There, the air is deflected accordingly, leaving it in the air chamber 46 arrives. From there, the heat or cold air stream flows 30 back to the fan 29 , An assembly 90 with device housing 91 takes the heat exchanger 27 , the fan 29 , the inlet flap 21 and the drive 44 on.

The 14 to 16 show an embodiment of the device 6 , which is formed without flaps. In the case 7 is the heat exchanger 27 and the fan 29 housed; the ceiling wall 12 is not closed, but with the inlet opening 19 provided, which - as will be shown below - simultaneously the outlet opening 18 forms. Will - according to 14 - the ventilator 29 operated at low speed, so the heat or cold air flow remains 30 , in particular the cold air flow, in the interior 25 the device 6 , Will a high speed fan 29 set, this leads to the fact that the heat or cold air flow 30 from the outlet opening 18 exit. For pressure equalization is a corresponding air flow in the with the outlet opening 18 coincidental inlets söffnung 19 enter. A certain proportion of air is only inside 25 the one direction 6 circulated, resulting due to the radiation wall 10 Radiation energy in the room 1 is delivered. heat exchangers 27 and fan 29 are an integral part of a structural unit 90 that have a device housing 91 having.

The 16a , b and c show an embodiment of a device 6 which basically like the establishment of the 14 is trained. However, there is no freedom of valve. Rather, the ceiling wall 12 in the outlet side deflection area 86 with a baffle 85 Mistake. The deflection area 86 of the housing 7 facing end edge of the air deflector 85 is by means of a hinge 87 on the ceiling wall 12 hinged; the opposite end edge of the air deflector 85 forms a free end edge, which is the combined outlet / inlet port 18 / 19 partially limited. The ceiling wall 12 extends only over a relatively short horizontal extent (starting from the deflection 86 or the first side wall 14 ). Take the air deflector 85 the in the 16a shown position in which they are with the ceiling wall 12 Aligned, that is arranged horizontally, so is the same mode of action, as for 14 described. Will the air deflector 85 however according to 16b pivoted upward, that is, it extends - starting from the hinge 87 diagonally upwards, so the cold air flow 30 - Especially under the action of the deflection in the deflection 86 upwards from the outlet opening 18 escape. Out of the room 1 a corresponding proportion of air flows through the inlet opening 19 in the interior 25 of the housing 7 back.

Will the air deflector 85 lowered, like this from the 16c emerges, so that they - starting from the hinge 87 - has obliquely downwards, preferably down to the inside of the radiation wall 10 enough, it forms in this position a ramp for the cold air flow 30 so that this in the room 1 is steered. Through the combined outlet / inlet opening 18 / 19 a corresponding amount of air comes out of the room 1 in the interior 25 of the housing 7 back. heat exchangers 27 , Fan 29 and air deflector 85 belong integral to a structural unit 90 that have a device housing 91 has.

The 17 shows an embodiment of the device 6 in which the outlet opening 18 as a slot outlet 50 , that is formed linear. Such a configuration may, for example, in the embodiment of 19 to 21 be provided. This will be discussed in more detail below.

The 18 merely clarifies that it is due to the arrangement of a device 6 in a room 1 is not necessary, in a room corner 51 to install a radiator of the usual kind. Leaves, for example, a heat air flow 30 with sufficient flow impulse the device 6 with a temperature of about 25 ° C and flows towards the corner of the room 51 and then on the floor 3 of the room 1 along, so does the air flow in the area of the floor 3 For example, the temperature is still around 20 ° C. So the device is 6 suitable to the room 1 heat. A Bauein unit 90 is formed by fan, heat exchanger and flap, these components clearly the 18 can be seen. The construction unit 90 has a device housing 91 ,

The 19 to 21 show a specially designed outlet opening 18 and a correspondingly designed inlet flap 21 , This makes it possible, the supply air flap 21 for air control in the room 1 to use. The first side wall 14 of the housing 7 is in the area of the inlet flap 21 with a slant in the interior 25 of the housing 7 extending upper wall 52 provided, the end a bend 53 having. The bottom wall 54 the first side wall 14 has a short vertical wall piece 55 and an adjoining angled, short horizontal wall piece 56 on. The bend 53 and the wall piece 56 serve in particular the mechanical stiffening of the arrangement. Between the horizontal wall piece 56 and the upper wall 52 is the outlet opening 18 educated. The axis 24 the inlet flap 21 runs relative to the housing 7 far outboard, with the inlet flap 21 as an angle flap 57 is formed, which has a first leg 58 and a second leg 59 having, wherein the two legs 58 . 59 include an angle that is less than 180 °. The end edges of the angle flap 57 are with bends 60 . 61 Mistake. In the 19 is the supply air flap 21 shown in the closed position. Will she - according to 19 - in the direction of the arrow 62 pivoted clockwise by means of a drive, not shown, it takes the position according to 20 one. This removes the first leg 58 from the upper wall 52 so that part of the outlet opening 18 is formed. Furthermore, the second leg moves away 59 from the bottom wall 54 so that there is another part of the outlet opening 18 arises. Since the geometry has corresponding inclined walls, as described above, the air is removed from the device 6 not vertically down but slightly sloping down into the room 1 blown out. A very low air flow leaves the device 6 through the upper area of the outlet opening 18 , Will - according to 21 - the inlet flap 21 even further pivoted in the clockwise direction, so the air occurs even more distracted to the vertical from the lower outlet opening 18 out. The air flow of the upper outlet opening 18 increases. An assembly 90 is formed by the heat exchanger 27 , Venti lator 29 as well as the angle flap 57 , To this unit 90 preferably also include the wall integrally 52 and the bend 53 as well as the wall parts 55 and 56 , Everything is in a device housing 91 ,

According to a particular embodiment of the invention occurs in the in the 19 present position of the inlet flap 21 a supply air flow from the device 6 out. There is preferably an alternating exit from the linear air outlet (see 19 , Arrows 63 ) to realize a basic ventilation.

The 22 shows an embodiment of a device 6 that the embodiment of the 1 equivalent. Deviating is merely that no fan is provided, but a Induk tion device 68 is trained. This has primary air nozzles 64 on that with primary air 65 be fed. The primary air 65 is preferably processed centrally. The primary air 65 occurs after exiting the primary air nozzles 64 in a mixing room 66 and unifies there due to their induction effect with through the heat exchanger 27 sucked air (arrows 67 ). The functional principle of the device 6 of the 22 otherwise corresponds to the 1 and 2 , A compact with device housing 91 provided unit 90 is formed by the induction device 68 together with the inlet flap 21 and the air damper 23 ,

The 23 clarifies the establishment of the 22 in the plan view. In dashed lines are the inlet flap 21 and the recirculation damper 23 shown (each open position). Instead of or as an alternative to the recirculation damper 23 can also have an inlet opening 19 be provided as dashed in the 23 is reproduced. Also in the embodiment of 23 is an induction device 68 and no fan provided.

In the 24 is a facility 6 shown, which is an induction device 68 having. A partial ceiling 69 by means of a suspension device 70 from the solid ceiling 2 spaced apart, extends only over part of the floor plan of the room 1 , The inlet flap 21 has a size that is the distance of the partial ceiling 69 from the solid ceiling 2 equivalent. The outlet opening 18 is thus formed vertically lying. As on the right side of the 24 recognizable, extends the part ceiling 69 not quite to the side wall 5 of the room 1 , so that even there, an air flow can escape (arrow 71 ).

The embodiment of 25 corresponds to the embodiment of 24 and differs only in that instead of the partial wall 69 a closed ceiling 72 is provided, in which the outlet opening 18 - in horizontal position.

In the embodiments of the 24 and 25 forms the induction device 68 with the inlet flap 21 one unit each 90 , For this purpose, a device housing is in each case 91 intended.

The 26 and 27 show a device 6 with vertical radiation wall 10 that is, the plenum 8th is from a sidewall 4 of the room 1 , Dividing the solid ceiling 2 and the floor 3 as well as the already mentioned radiation wall 10 educated. The radiation wall 10 points in the area of the floor 3 the outlet opening 18 and in the area of the solid ceiling 2 the inlet opening 19 on. Here air grids can be formed. Corresponding layers have the inlet flap 21 and the recirculation damper 23 , heat exchangers 27 and fan 29 are arranged one above the other, with the fan 29 above the heat exchanger 27 located. Both parts are inside 25 the device 6 arranged. In the first operating mode, the air flow results according to 26 at the inside 25 , Accordingly, the radiation surface radiates 32 Energy in the room 1 from. Be the supply air flap 21 and the recirculation damper 23 opened, the heat or cold air flow occurs 30 in the room 1 one. In case of 26 is thus a pure cooling or heating wall before; in case of operation according to 27 There is a convection company. It is an integral unit 90 before that the heat exchanger 27 , the fan 29 as well as the inlet flap 21 and the exhaust air flap 23 includes. Preferred for this purpose is a device housing 91 intended.

From the 28 is an arrangement recognizable that of the 26 and 27 equivalent. However, there is no fan 29 intended. This has the consequence that only by free convection a flow comes about. Are the supply air flap 21 and recirculation damper 23 closed, so forms inside the device 6 a free convection so that the radiation wall 10 Radiation in the room 1 emits. Be the mentioned flaps 21 and 23 opened, that results from the 28 shown air flow, wherein the dashed arrow represents the heating operation and the dotted arrow represents the cooling operation. During heating operation, the air enters the room at the top 1 one; During cooling, the cold air enters the room below. In the embodiment of 29 is also a design with vertical heating / cooling surface before. This is also in the embodiments of 30 and 31 the case. In the embodiment of 29 is a vertical partition 73 at the inside 25 the device 6 intended. Otherwise, the structure corresponds to the embodiment of 26 , Be the supply air flap 21 and the recirculation damper 23 only up to the in the 29 durchgezo represented positions shown pivoted, they close to the partition 73 on, that is, behind the partition 73 lying zone 74 is not traversed by air. fan 29 and heat exchangers 27 are in a zone 75 on the other side of the partition 73 is located, so close to the radiation wall 10 , With closed air inlet flap 21 and recirculation damper 23 This results in the already described internal flow around the dividing wall 73 around. At an opening of the two mentioned flaps 21 . 23 in positions in the 29 are located both a convection operation as well as a circulation of a certain proportion of air inside 25 the device 6 in front.

In the embodiment of 30 is the heat exchanger 27 in the zone 74 (compare to 29 ) arranged. The ventilator 29 located at the front of the partition 73 in the area below 76 the device 6 , Otherwise, the structure corresponds to the 29 , except that the inlet flap 21 hinged in the upper area and in open position against the partition 73 can occur. As a result, no air flow in the zone 75 occur. In the cases of the embodiments of 29 and 30 each is a split plenary session 8th in front.

Finally, the embodiment of the shows 31 a plan view of a side wall 4 of the room 1 , Again, there is a facility 6 with shared plenary 8th intended. This is in the area of the solid ceiling 2 and in the area of the floor 3 each the recirculation damper 23 or the air damper 21 intended. Both valves 21 . 23 are surrounded by vertical partitions 77 . 78 , Escaping to the part walls 77 and 78 lie middle walls 79 and 80 , such that air openings 81 and 82 be formed. Between the two middle walls 79 and 80 There are fans 29 and heat exchangers 27 , The radiation wall, not shown 10 runs parallel to the illustrated side wall 4 and has the flaps indicated by dashed lines 21 and 23 on. Are the supply air flap 21 and recirculation damper 23 closed, the air distribution in accordance with the in 31 drawn arrows 83 that is, the air delivered by the fan passes through the heat exchanger 27 Through and distributed over the entire floor plan area, that is, there is a very large radiation surface in the first mode. The air passes through the air openings 81 and 82 , so that the side zones are well flowed through. Be air inlet flap 21 and recirculation damper 23 opened, the largest part of the conveyed air emerges from the outlet opening 18 out and get into the room 1 and from there back over the inlet opening 19 to the plenum 8th , In this case, the side zones are no longer subjected to an air flow as much, so that the radiant power of the overall arrangement decreases; however, the convection power assumes a value corresponding to the flap position.

In the 29 to 31 Embodiments are shown, the units 90 include, which in each case the heat exchanger 27 , the fan 29 as well as inlet flap 21 and exhaust air flap 23 include and for this preferably each device housing 91 exhibit.

From the above it is clear that to switch the first mode to the second mode, a corresponding flap position change must be performed. This can be done by hand or by motor. It is also possible to use a controller or it is done by means of a manual control signal (by wire or wireless). Preferably, the radiation wall 10 , So the room side facing surface heat-conducting and sound-absorbing. For this purpose, it may additionally have a microperforated metal panel. Room lighting can be integrated into the area facing the room (for example built-in, surface-mounted luminaires). It is also possible to form an illuminated reflecting surface, which is acted upon by the light of corresponding candlesticks or radiators.

Claims (12)

Device for heating and / or cooling a room, having a heating and / or cooling element and a heat- or cold-emitting radiation surface, wherein in a first operating mode the radiation surface ( 32 ) with a heat or cold air flow ( 30 ) inside the device is acted upon and in a second mode of the heat or cold air flow ( 30 ) at least partially by at least one device-related opening ( 16 . 17 ) in the room ( 1 ), according to the German patent DE 101 28 381 C1 , characterized in that the heating and / or cooling element ( 26 ) together with a heat or cold air flow ( 30 ) generating air conveyor ( 28 ) an assembly ( 90 ), the structurally the same opening ( 16 . 17 ) and / or the switching of the operating modes making members ( 20 . 22 ) having. Device according to claim 1, characterized in that the device-related opening ( 16 ) an outlet opening ( 18 ) is for a circulating air flow and that another device-related opening ( 17 ) an inlet opening ( 19 ) forms for the circulating air flow. Device according to one of the preceding claims, characterized in that the heat or cold air flow ( 30 ) from a fan ( 29 ). Device according to one of the preceding claims, characterized in that the heat or cold air flow ( 30 ) of induction air nozzles (primary air nozzles ( 64 )). Device according to one of the preceding claims, characterized in that the heat or cold air flow ( 30 ) is promoted by free convection. Device according to one of the preceding claims, characterized in that the heating and / or cooling element ( 26 ) a heat exchanger ( 27 ), in particular a water / air heat exchanger or refrigerant / air heat exchanger. Device according to one of the preceding claims, characterized in that the heating and / or cooling element ( 26 ) and the heat or cold air flow ( 30 ) driving conveyor ( 28 ) Are part of a fan coil or an induction unit. Device according to one of the preceding claims, characterized in that the switching of the operating modes by means of mechanical switching of the members ( 20 . 22 ) he follows. Device according to one of the preceding claims, characterized in that the members ( 20 . 22 ) of supply and / or circulating air flaps ( 21 . 23 ) or the like are formed. Device according to one of the preceding claims, characterized in that the outlet opening ( 18 ) and / or the inlet opening ( 19 ) are associated with openable closing elements. Device according to one of the preceding claims, characterized in that the outlet opening ( 18 ) an inlet flap ( 21 ) and the inlet opening ( 19 ) a recirculation damper ( 23 ) assigned. Device according to one of the preceding claims, characterized in that the inlet opening ( 19 ) is designed to be non-closable and arranged so high that in the first operating mode the device-side cold air flow ( 30 ) by the gravity effect inside ( 25 ) of the institution ( 6 ) remains circulating.