EP1586823A2 - Ceiling, in particular cooled or heated ceiling - Google Patents

Abstract

An air supply channel (30) is located in the intermediate space (21) between two tubes (20) extending in the ceiling panel length direction. The ceiling comprises a perforated panel (11), at least two tubes located on the top side of the panel for carrying a heat transport medium in thermal contact with the panel and at least one channel for supplying air located in between the two tubes. The perforations (14) in the panel form the inlet (31) and outlet for the air channel. The tubes are spaced apart in the ceiling panel width direction.

Description

The invention relates to a ceiling, in particular a cooling or heating blanket, which is provided with a perforated ceiling plate. The ceiling plate points a top, a bottom and a variety of at regular intervals on the base of the ceiling plate distributed openings. The Ceiling further comprises at least two tubes, which are transported by a heat Medium are flowed through and on top in one thermally conductive contact with the ceiling plate stand. Furthermore, the ceiling provided with at least one air duct, which is permeated by supply air and an inlet and an outlet formed through the openings. The tubes and the air duct extend in a longitudinal direction, the tubes being in a transverse direction orthogonal to the longitudinal direction separated by a gap.

Air conditioning systems are used for the air conditioning of buildings Application that provide fresh air to a closed room and in Depending on the desired room air condition they heat, cool, filter, moisten or dehumidify. In addition to conventional air conditioning systems, which the air temperature and humidity in a room exclusively Keeping on the supply air to predetermined values are increasing frequent cooling and electric blankets, the noiseless a pleasant and generate draft-free room temperature. The amount of supply air limited in such cases to maintain the standard of hygiene necessary needs.

The reason for this is that with a cooling or heating blanket the desired effect primarily by radiation exchange between the cooled or heated Ceiling surfaces and the room is done. In contrast, at conventional air conditioning systems, the heat exchange mainly by forced Convection, which can cause drowsiness in humans, achieved. In addition, cooling or electric blankets are compared to conventional air conditioning due to low energy consumption and low maintenance and repair costs. Save for cooling or Cooling and heating blankets can usually also be used for interior design, Use light reflection or sound absorption.

A ceiling that can be used to cool or heat a room will be in DE 43 08 502 A1 describes. The ceiling is made up of a variety Ceiling elements together, each provided with a ceiling plate are. The ceiling panel has a bottom facing the room and a top on. On top of the ceiling tile is the ceiling elements Supply air supplied, which flows through supply air outlets in the room. The Zuluftdurchlässe, for example, as the air flow directing swirl diffuser are formed by recesses of the ceiling plate educated. The recesses reduce the active for cooling or heating Ceiling surface. In addition, the recesses are visible from the room and can disturb the appearance of the ceiling. The design the Zuluftdurchlasses as induction air outlet causes moreover a comparatively high exit velocity, which is a dirtying of the bottom can cause the ceiling plate.

Furthermore, DE 42 01 595 C2 discloses a room cooling ceiling, which is a perforated Ceiling plate has. On the top of the ceiling slab are from a liquid flowed through cooling tubes arranged. The cooling tubes are located in a pressure room where there is a higher air pressure than in the pressure room to cool room. The pressure chamber is supplied with dried supply air, the flows along the cooling tubes and in this way prevents being on the cooling tubes forms a condensate. The existing due to the perforation Openings of the ceiling slab also represent a passage through the supply air flows into the room. The room cooling ceiling is with the disadvantage a relatively complex assembly, resulting from the Arrangement of the cooling tubes in the air duct representing a pressure chamber and the mutually densely arranged ceiling panels results. Another Disadvantage is that such constructions for subsequent maintenance in the ceiling cavity are very difficult to access.

The invention has for its object to provide a cooling or heating blanket, which can be relatively easily assembled and disassembled at a relatively large active ceiling area.

To solve this problem is provided according to the invention in a ceiling with the features mentioned in accordance with claim 1, that the air channel is arranged in the intermediate space and the openings, which are located in the region of the air channel, form the outlet.

The ratio of the active ceiling area to the total area is in the inventive Ceiling relatively large. This is due to, that the supply air supplied to the air duct by the due to the perforation existing openings of the ceiling plate in a below the ceiling plate room, so that it has a separate air outlet, Both the active ceiling surface and the visual appearance the ceiling affected, not needed. The inventive Ceiling is also characterized by a relatively simple installation and disassembly. The reason for this is primarily the arrangement of the air duct in the space between the pipes. The air duct and the Tubes can be installed independently this way. In addition, ceilings that have no outside air supply can be such as, for example, the heating or heating system described in EP 0 849 541 B1 Cooling ceiling, with a relatively little effort at any time with the Retrofit the air duct to realize a ventilation.

Advantageous embodiments of the inventive cover are in the Claims 2 to 16 defined.

So it is in terms of a compact and lightweight design advantageous if the air duct is U-shaped in cross-section and a first Leg portion, a second leg portion and a first Leg section and the second leg portion interconnecting Base section has.

It is also advantageous to arrange a perforated baffle plate in the air duct, which preferably extends parallel to the base portion. The The baffle dividing the air duct into at least two areas contributes to this in that on the one hand, the air evenly distributed in the air duct and on the other hand, an overpressure is generated in the air duct, the one source-air-like flow characteristic through the openings in the Space below the ceiling plate causes flowing air.

In a preferred embodiment of the inventive cover is the Base portion provided with an inlet forming the opening, the Air duct with a distribution box, preferably in the transverse direction extends, connects. The distribution box allows a variety of Arrange air ducts on the ceiling plate. For example, several Air ducts arranged parallel to each other, then can be a strip-shaped Air outlet pattern generate, especially when the temperature the supply air is below the room temperature and the flow velocity is relatively low, contributes to a stable flow of air.

Advantageously, the distribution box with a conical extension provided, which is connected to the inlet forming the opening. The conical On the one hand ensures an airtight connection of the Distribution box with the air ducts. On the other hand, the conical nosepiece carries to a simple assembly, by the distribution box on attach the air ducts.

Optionally, the distribution box advantageously with a sound-insulating Be provided with a low-noise distribution of the liner Supply air to the air ducts ensures.

In a preferred embodiment of the inventive cover has the ceiling plate on a free hole cross-sectional area, whose share of the Total area of the ceiling tile is between 10 percent and 30 percent. Usually the perforation of the ceiling slab serves the improvement of the Room acoustics by absorbing sound. In the ceiling of the invention while the free hole cross-sectional area formed in the ceiling plate becomes at the same time used as passage for the supply air.

Preferably, the ceiling panel has a width in the longitudinal direction and the air duct in the longitudinal direction has a length, wherein the ratio of width to length is between 1.0 and 2.0. The length of the air duct depends primarily on the desired volume flow and the number of air channels. Thus, the length of the air duct at a flow rate of 50 m ³ / h and a total of two air ducts, for example, be 1000 mm.

Advantageously, the tubes are mounted on thermally conductive rails. The thermally conductive rails provide a reliable heat transfer from the pipes on the ceiling plate safely. In addition, the heat-conducting wear Rails for easy assembly and disassembly. In this context It has also proved to be advantageous if the rails with at least one longitudinally extending side wall are provided, which is adjacent to the air duct in the transverse direction. Moreover are the rails conveniently by at least one in the transverse direction extending crossbar interconnected. The Crossbar, for example, attached to the side wall of the rails is, it facilitates the rails and thus the rails and the tubes formed tube register at regular intervals, in particular Equidistant, to arrange and the loads occurring evenly on the Distribute longitudinal edges of the ceiling slab.

If a variety of pipes provided, so it is appropriate, this to arrange in a meandering form on top of the ceiling panel.

It is also expedient, if the ceiling plate made of steel or aluminum sheet, Plasterboard or a composite material. The blanket can open This way, for example, as a sheet metal ceiling, panel ceiling, jointless Ceiling, custom design ceiling or designed as a ceiling canopy.

Advantageously, the openings on the top and / or the bottom the ceiling panel covered with an air-permeable non-woven fabric to in addition to achieve a sound-absorbing effect in the room.

Preferably, similar openings are provided, preferably the Shape of a round hole, square hole, triangle hole, diamond hole or slot to have.

To realize a modular design, the ceiling is advantageously composed of a variety of ceiling elements that in the Transverse direction and / or arranged adjacent to each other in the longitudinal direction are.

Fig. 1

eine perspektivische Ansicht einer Decke;

Fig. 2

einen Schnitt gemäss der Linie II-II in Fig. 1;

Fig. 3

einen Schnitt gemäss der Linie III-III in Fig. 1;

Fig. 4

eine Draufsicht auf eine Deckenplatte der Decke gemäss Fig. 1 und

Fig. 5

eine Darstellung des sich ergebenden Strömungsprofils.

Details and further advantages of the inventive cover will become apparent from the following description of a preferred embodiment. In the drawings, which only schematically illustrate the exemplary embodiment, illustrate in detail:

Fig. 1

a perspective view of a ceiling;

Fig. 2

a section along the line II-II in Fig. 1;

Fig. 3

a section along the line III-III in Fig. 1;

Fig. 4

a plan view of a ceiling plate of the ceiling according to FIG. 1 and

Fig. 5

a representation of the resulting flow profile.

The ceiling shown in Fig. 1 is used as a cooling ceiling or as a heating blanket application. The ceiling is made up of a large number of ceiling elements 10 together, in a longitudinal direction x and in a transverse direction y adjacent to each other are arranged and a modular design of the ceiling to ensure. The ceiling elements 10 are each provided with a perforated ceiling plate 11 provided that a top 12, a to be cooled or to be heated space facing bottom 13 and a variety of Having openings 14 formed by the perforation. The openings can for acoustic reasons on the top 12 or bottom 13 be covered with an air-permeable nonwoven fabric. The example Ceiling plate made of perforated steel or aluminum sheet 11 is further provided with a beaded side edge 15 which is an appendage the ceiling elements 10 facilitates, provided, in particular from Fig. 4th is apparent.

On the top 12 of the ceiling plate 11 are a plurality of tubes 20, the heat-transporting medium, for example water, be flowed through, arranged in a meandering shape. Depending on the application can the tubes 20 in a Doppelmäanderform or a be arranged in a different form. As can be seen in particular FIG. 2, the tubes 20 are mounted on heat conducting rails 22, which in a thermally conductive contact with the ceiling plate 11 stand. The rails 22 are U-shaped in cross-section and have two side walls 23 which are extend in the longitudinal direction x. The side walls 23 are through a in the transverse direction y extending cross-beam 24 connected to each other. The cross-beam is provided with a plurality of projections 25 which it allow the cross-beam 24 aufzustecken on the side walls 23. On Reason of an equidistant arrangement of the projections 25 can be the Rails 22 and thus the tubes 20 in a predetermined grid at the rails 22 in the transverse direction y through a gap 21st are separated from each other, arrange on the ceiling plate 11.

As can be seen in particular Figs. 1 and 2 are in the interstices 21 arranged between the rails 22 each have an air duct 30, which extends in the longitudinal direction x and flows through supply air. Of the Air duct 30 is U-shaped in cross-section and has a first leg portion 32, a second leg portion 33 and a first leg portion 32 and the second leg portion 33 interconnecting Base section 34. The side walls representing leg sections 32, 33 adjoin the rails 22 in the transverse direction y. Of the Base portion 34 is provided with an opening having an inlet 31 for the Supply air forms. The inlet 31 is connected to a distribution box 36 which extends in the transverse direction y and with a conical extension is provided, which projects into the opening 31 forming the opening. The distribution box 36 is provided with a sound-absorbing lining and has a standardized example of DN 80 port 37, through the the supply air is supplied to the distribution box 36, on.

Inside the air channels 30, a perforated baffle 35 is arranged, which extends parallel to the base portion 34. The baffle 35 divides the air ducts 30 into an upper area and a lower area and ensures that the supply air supplied from the distribution box 36 to the air ducts 30 is distributed uniformly in the longitudinal direction x. The supply air flows from the upper portion through the perforated baffle 35 in the lower region of the air duct 30 and then exits through the outlet forming openings 14 of the ceiling plate 11 in the space located below the ceiling plate 11 space. The free cross-sectional area of the ceiling plate 11 is dimensioned so that the openings 14 have a share of the total area of the ceiling panel between 10 percent and 30 percent. In this way, a specific volume flow between 30 m ³ / h per m ² and 90 m ³ / h per m ² ceiling surface can be realized at a relatively low sound pressure level of about 30 db (A). The amount of supply air supplied to the room depends primarily on the length I of the air ducts 30 in the longitudinal direction x and the number of air ducts 30. As can be seen in particular from FIG. 3, the ratio of the width w of the ceiling plate 11 in the longitudinal direction x to the length l of the air ducts 30 in the present case is almost 1: 1, that is, the air ducts 30 extend almost over the entire width w the ceiling plate 11. If the length I, for example 800 mm, so it can be achieved with a total of four air channels 30 and a proportion of the free cross-sectional area of about 16 percent, a volume flow of 90 m ³ / h. If less air is needed, either the number of rails 22 can be reduced or their length can be made shorter.

The ceiling described above is characterized by a comparatively simple Assembly and disassembly. This is mainly because the Air ducts 30 are arranged in the intermediate space 21 between the rails 22 are and in this way independent of the rails 22 and the Install pipes 20. Depending on the temperature of the through the tubes 20 flowing medium both as a cooling ceiling and as Electric blanket usable blanket has a relatively large active Ceiling surface, since the openings 14 of the ceiling plate 11, the outlet for form the supply air, leaving separate air vents, which the active ceiling area and impaired the visual appearance of the ceiling, dispensable are. The Staublech 35 helps that through the openings 14 emerging supply air over the length 1 of the air duct 30 evenly distributed will and will have a relatively low flow rate source air-like flow characteristic results, as from

Fig. 5 can be seen. To a draft-free room ventilation also carries the parallel Arrangement of the air ducts 30, which, in particular, Figs. 4 and 5 to identify, generates a strip-shaped air outlet pattern 16, the ensures a stable air flow even if the supply air is a lower Temperature than the air in the room.

LIST OF REFERENCE NUMBERS

10

ceiling element

11

ceiling tile

12

top

13

bottom

14

Openings / outlet

15

margin

16

Air flow patterns

20

Tube

21

gap

22

rail

23

Side wall

24

crossbeam

25

head Start

30

air duct

31

inlet

32

first leg section

33

second leg section

34

base section

35

baffle

36

distribution box

37

connection

I

length

w

width

x

longitudinal direction

y

transversely

Claims (16)

Ceiling, in particular cooling or electric blanket, with
a perforated ceiling panel (11) having an upper surface (12), a lower surface (13) and a plurality of openings (14) distributed at regular intervals over the base of the ceiling panel (11);
at least two tubes (20), which are flowed through by a heat-transporting medium and on the upper side (12) in a heat-conducting contact with the ceiling plate (11), and
at least one air channel (30) through which supply air can flow and has an inlet (31) and an outlet formed by the openings (14);
wherein the tubes (20) and the air channel (30) extend in a longitudinal direction (x) and
the tubes (20) being separated from one another in a transverse direction (y) orthogonal to the longitudinal direction (x) by a gap (21),
characterized in that the air duct (30) is arranged in the intermediate space (21) and the openings (14) located in the region of the air duct (30) form the outlet. Ceiling according to claim 1, characterized in that the air duct (30) is U-shaped in cross-section and a first leg portion (32), a second leg portion (33) and a first leg portion (32) and the second leg portion (33) with each other comprising connecting base portion (34). Ceiling according to claim 2, characterized in that in the air duct (30) a perforated baffle (35) is arranged, which preferably extends parallel to the base portion (34). Ceiling according to Claim 2 or 3, characterized in that the base section (34) is provided with an opening forming the inlet (31), which communicates the air channel (30) with a junction box (36), preferably in the transverse direction (y). extends, connects. Ceiling according to claim 4, characterized in that the distribution box (36) is provided with a conical end piece connected to the opening forming the inlet (31). Ceiling according to claim 4 or 5, characterized in that the distribution box (36) can be provided with a sound-absorbing lining. Ceiling according to one of claims 1 to 6, characterized in that the ceiling plate (11) has a free cross-sectional area, the proportion of the total area of the ceiling plate (11) is between 10% and 30%. Ceiling according to one of claims 1 to 7, characterized in that in the longitudinal direction (x) the ceiling panel (11) has a width (w) and the air duct (30) has a length (I), the ratio of width (w) to length (I) is between 1.0 and 2.0. Ceiling according to one of claims 1 to 8, characterized in that the tubes (20) on heat conducting rails (22) are attached. Ceiling according to Claim 9, characterized in that the rails (22) are provided with at least one side wall (23) extending in the longitudinal direction (x) and adjoining the air duct (30) in the transverse direction (y). Ceiling according to claim 9 or 10, characterized in that the rails (22) by at least one in the transverse direction (y) extending cross-beam (24) are interconnected. Ceiling according to one of claims 1 to 11, characterized by a plurality of tubes (20) which are arranged in a meandering form on the upper side (12) of the ceiling plate (11). Ceiling according to one of claims 1 to 12, characterized in that the ceiling plate (11) consists of steel or aluminum sheet, plasterboard or a composite material. Ceiling according to one of claims 1 to 13, characterized in that the openings (14) on the top (12) and / or the bottom (13) of the ceiling plate (11) are covered with an air-permeable non-woven fabric. Ceiling according to one of claims 1 to 14, characterized by similar openings (14), which preferably have the shape of a round hole, square hole, triangular hole, diamond hole or slot. Ceiling according to one of claims 1 to 15, characterized by a plurality of ceiling elements (10) which are arranged adjacent to one another in the transverse direction (y) and / or in the longitudinal direction (x).

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