DE102007010923A1 - Ceiling, wall or floor component - Google Patents

Abstract

Ceiling, wall or floor component for space cooling or space heating, comprising a conduit system for the passage of a fluid, in particular air, wherein the element consists of several parts of at least two flat components (10, 20, 210, 220, 310, 320) is formed, at least one planar component (10, 20, 210, 220, 310, 320) has depressions (11, 21, 211, 221, 311, 321), so that the depressions (11, 21, 211, 221, 311, 321) when joining with the second planar component (10, 20, 210, 220, 310, 320) form the line system (15, 215, 315).

Description

The The invention relates to a ceiling, wall or floor component for room cooling or space heating, containing a conduit system for the passage of a fluid, in particular Air.

such Ceiling, wall or floor components containing a piping system, are known. Usually These components are prefabricated by creating a piping system and then the fillers, in particular latent heat storage introduced with a phase change material (PCM) and ultimately Cover plates are mounted. These known components are thus very expensive in production. Another disadvantage with These known components is the difficult handling and Assembly of these prefabricated components containing a line system, in particular the making of the connections of the conduit system.

The The object of the invention is a ceiling, wall or floor component for room cooling or to provide space heating, which is easy to install within of the building is and whose parts are easy to handle in the Assembly. At the same time to create a device system with the invention Become more flexible with regard to the embodiment of the conduit system for the passage of a fluid creates, as well as in direct contact with the concrete pavement.

These The object is achieved by a Ceiling, wall or floor component solved according to claim 1.

Thereby, that the component consists of several parts of at least two flat components is formed, wherein at least one planar component has depressions, so that the recesses when joined to the second flat component form the conduit system, a device is created which in that it is at least in two parts, in the building on Ceiling, wall or floor is easier to assemble and clean, in at first a first areal Component is attached directly or indirectly to the building and then a second areal Component is attached to the first component. The two flat components can also be referred to as the upper shell and lower shell, which joined together the device form, being independent understood from the orientation of the device, the term "top shell" to the effect is to be that the upper shell denotes the first planar component, which is attached to the ceiling, wall or floor of the building and wherein "lower shell" that flat component denotes, which on the first sheet-like component - the upper shell - arranged is and when merging in that at least one of the two flat components depressions has, a line system is formed. Because of upper and / or Lower shell can be pronounced in different variants, a component system is created, with the arbitrary conduit systems for the passage of a fluid can be created.

The ceiling, according to the invention Wall or floor component for room cooling, component activation or Space heating is universally applicable and especially for office building as well as for suitable for housing.

advantageous Embodiments of the invention are specified in the subclaims.

So it is particularly advantageous if both flat components, d. H. either the upper shell as well as the lower shell, corresponding recesses exhibit when joining the two components form the pipe system. The advantage here is that occupied by the at least two-part component Space due to the fact that both parts have opposite recesses, optimal for the exploited by the two components formed line system, d. H. that the lines for the passage of the fluid have a large cross-section may have relative to the thickness of the device.

Prefers has a ceiling, wall or bottom side mountable first component, d. H. in the sense of the above definition, the upper shell, a thermally conductive contact surface for Ceiling, wall or floor, d. H. towards the building, on which it is mounted on. This is particularly advantageous if the Component is attached to a solid construction.

Preferably, at least one planar component, ie the lower shell and / or the upper shell, has a phase change material (PCM) embedded in a carrier medium. As a carrier medium can in particular serve plasterboard or plaster. Characterized in that at least one of the components comprises a phase change material, a latent heat storage can be formed in an advantageous manner, since the phase change material is suitable for receiving and storing heat energy and thus enables subsequent component activation. If the component for space cooling or heating is not fastened to a solid construction, it is advantageous if both the upper shell and the lower shell have a phase change material (PCM) embedded in a support medium. This makes it possible to make the largest possible volume available as latent heat storage. In this case, the ceiling, wall or floor according to the invention Component by combining flat components in that a thermally conductive contact surface to the ceiling, the wall or the floor is provided and / or provided in at least one planar component embedded in a carrier medium phase change material, a custom structural requirements adaptable flexible component system can be created.

With the stronger expectant energy saving efforts and the spread of housing or office ventilation, it makes sense, for. B. to use the night air to building walls or Raumwandungen to cool at night, and to move the air where it does the job of cooling directly fulfill can.

The Phase change material is used to store heat or Cold or to replace heavy enclosing walls or ceilings, so that the solution according to the invention subsequently in concrete construction, Masonry or can be used in lightweight construction.

As well is by means of cheap available Night air for the day preceded and the perimeter walls cooled by a few degrees, so that these in turn use the stored energy to cool the room or can heat.

through This construction can be achieved that elaborate and energy-intensive Air conditioners are avoided. The invention therefore provides a system created that not only allows the room air conditioning through component activation via concrete and phase change materials, but also about the introduction of the air to reach the room. The air is pre-cooled and pre-cleaned and with a temperature of about 12 ° C up to 18 ° C introduced into the ceiling, heated There it can reach a room temperature of 21 ° C to 23 ° C. With this temperature will be The air is then directed into the room, thus allowing the required Air exchange.

Advantageous when the second component, i. H. the lower shell, room side a paintable and / or plasterable surface having. It is particularly advantageous that the room side no more fairing or the like is required, but this is created directly by the lower shell by a corresponding Design of the room-side surface.

Thereby On the room side, a smooth surface is created by painting or plastering can be completed without it further Cover elements required. Because such cover elements are not additionally are to be arranged, the heat radiation respectively the thermally conductive contact of the device to the environment is not affected.

Preferably has the second component, i. H. the lower shell, room side sound insulation on. In particular, you can such sound-absorbing Partially arranged acoustic elements, d. H. not on the whole room-side surface the lower shell or lower plate to the required radiation of the component, in particular in the case that the component has a phase change material, not to prevent or to hinder. Alternatively you can thermally conductive soundproofing elements be provided.

In a preferred embodiment the recesses are formed by deep-drawn or folded sheets. By forming the depressions by deep drawing or edges of sheet metal, these can be prepared inexpensively in an advantageous manner.

Prefers has the first component to be mounted on the ceiling, wall or base, d. H. the upper shell, breakthroughs and / or mounting means for securing the first component to the building construction on.

Preferably is the second room-side component releasably on the ceiling, wall or bottom side attached to be fastened first component. By doing that the second one Component, d. H. the lower shell, detachable on the first component, d. H. the upper shell, is attached, is the conduit system to cleaning or Revision work accessible, d. H. The complete channel system can be viewed and accessed be, in that the lower shell of the upper shell can be removed is.

Prefers is the second component by means of locks and / or clips or the like on the first component fastened. Preferably, the locking means and / or Clips arranged on the components such that these after attachment room side are not visible, so that room side a smooth, optically undisturbed surface is created.

Preferably is the line system connected to an air conditioning device and / or has outlet openings into the room, in particular to extract air from the room and / or to deliver to the room.

In addition, between Upper shell and lower shell seals or the like. Are introduced.

Three embodiments of the ceiling, wall or floor element according to the invention for room cooling or space heating are shown in the figures and will be explained in more detail below tert. Show it:

1 a perspective view of partially ceiling-mounted components of a first embodiment,

2 a perspective detail enlargement of the ceiling side partially mounted components according to 1 .

3 the room-side view of a room-clad ceiling,

4 the section IV-IV after 3 .

5 the section VV after 3 .

6 FIG. 2 a sectional view of a room ceiling clad with components of a second embodiment, FIG.

7 a sectional view of a disguised with components of a third embodiment ceiling.

In 1 and 2 1 is a perspective view of components partially mounted on the ceiling side, which are assembled from two panels. First, the top shell is on the ceiling side 10 on the ceiling 5 assembled. The upper shell 10 is profiled towards the bottom, ie it has depressions 11 on. On the upper shell 10 becomes a corresponding second plate, the lower shell 20 , attached. The lower shell 20 has corresponding depressions 21 on, put together with the wells 11 the upper shell 10 forms a conduit system for the passage of tempered air.

The room side creates a smooth surface that can be painted or plastered. The room-side shell 20 is made using a phase change material (PCM), which is embedded in a support structure in the form of a plasterboard.

The lower shell 20 is removable on the upper shell 10 attached so that the conduit system can be exposed for cleaning or maintenance purposes by the lower shell is removed.

That through the plates 10 . 20 created piping system is fed from a flow 30 which in turn is fed from the environment of the building and / or optionally via an unillustrated air conditioning and air filtering device from the building environment. The air gets through through the plates 10 . 20 led conduit system and passes to a collection room 50 and eventually gets out of the plenum 50 via a ventilation opening 55 in the room below 60 directed. Out of the room 60 In turn, room air will be sent to the room 60 connected line 65 taken from the return 40 is coupled.

The room-side lower shell 20 contains an embedded in plasterboard as a carrier medium phase change material (PCM), which serves as an energy store. By taking in cooled night air over the supply 30 can that in the lower shell 20 embedded phase change material to be cooled, which on the day of cooling the air passed through the conduit system and the ventilation 55 in the room 60 discharged air, whereby an air conditioning and a constant air exchange in the room 60 he follows.

3 shows a wiring diagram of a ceiling, which over the flow 30 is fed, in turn, with several feed chambers 45 is in fluid communication. Every one of the plates 10 . 20 formed ceiling element has a flow chamber 45 to which, in turn, the lines 15 connect each component. The wires 15 each lead into a collection room 50 , From the collection room 50 the air is discharged to the room below via a ventilation opening 55 which is covered with a grid.

In 4 is shown section IV-IV after 3 and a detail enlargement from this sectional view. On the ceiling 5 is attached the ceiling-side upper shell 10 of the component. The ceiling-side upper shell 10 has depressions 11 on. On the upper shell 10 becomes the removable lower shell 20 attached, which in turn corresponding recesses 21 having.

Through the respective opposite recesses 11 the upper shell 10 and depressions 21 the lower shell 20 become the wires 15 educated.

Alternatively to the roughly oval cross-section of the pipes 15 as shown 4 Other cross-sectional shapes can also be realized, in particular trapezoidal or rectangular cross sections.

The upper shell 10 has a thermally conductive contact surface 12 for making a thermally conductive contact with the ceiling 5 on. The lower shell 20 has a coatable surface on its underside 22 on.

In 5 the section VV is shown after 3 with an enlarged detail in the area of the air outlet opening 55 from the collection room 50 of Piping system of an element plate. Through the air outlet with a ventilation grille covered 55 Air gets into the room 60 and causes a constant exchange of air in the room 60 ,

In the illustrated embodiment, the heating / cooling is not a liquid but by means of air, which then the room 60 can be supplied, which means that problems with condensate, etc. do not occur but are avoided. Condensate can not occur because of the low temperature difference.

In the 6 and 7 are shown, similar to the representation of 4 , Sectional views of a second ( 6 ) or a third embodiment ( 7 ) of the components according to the invention. On the ceiling 5 is mounted the upper shell 210 with depressions 211 ,

On the upper shells 210 are attached corresponding second plates in the form of lower shells 220 , the corresponding corresponding depressions 221 have, so that in the assembled state of the wells 211 the upper shells 210 with the wells 221 the lower shells 220 a pipe system 215 forms for the passage of tempered air.

Between upper shell 210 and lower shell 220 are arranged seals 240 ,

The lower shells 220 in the illustrated embodiment according to the 6 For their part, they are multi-layered, comprising a chamfering material PCM embedded in the structure 23 , which serves as energy storage. Furthermore, acoustic material is arranged in the structure 24 which serves the sound insulation. At the bottom, the construction has a paintable surface 22 ,

In the 7 is a sectional view of a third embodiment of the components according to the invention shown.

On the ceiling 5 is mounted the upper shell 310 with depressions 311 , For fastening the upper shell 310 at the concrete ceiling 5 has these backside bonds 312 on.

On the upper shells 310 are attached corresponding second plates in the form of lower shells 320 , the corresponding corresponding depressions 321 have, so that in the assembled state of the wells 311 the upper shells 310 with the wells 321 the lower shells 320 a pipe system 315 forms for the passage of tempered air.

Between upper shell 310 and lower shell 320 are arranged seals 340 ,

The lower shells 320 in the illustrated embodiment according to 7 For their part, they are multi-layered, comprising a chamfering material PCM embedded in the structure 23 , which serves as energy storage. Furthermore, acoustic material is arranged in the structure 24 which serves the sound insulation. In the in 7 the embodiment shown is the chamfer material 23 and the acoustic material 24 embedded in plasterboard 25 , At the bottom, the construction has a paintable surface 22 ,

Claims (11)

Ceiling, wall or floor component for space cooling or space heating, comprising a conduit system for the passage of a fluid, in particular air, characterized in that the element consists of several parts of at least two flat components ( 10 . 20 . 210 . 220 . 310 . 320 ) is formed, wherein at least one planar component ( 10 . 20 . 210 . 220 . 310 . 320 ) Wells ( 11 . 21 . 211 . 221 . 311 . 321 ), so that the depressions ( 11 . 21 . 211 . 221 . 311 . 321 ) when joined to the second planar component ( 20 . 10 . 220 . 210 . 320 . 310 ) the pipe system ( 15 . 215 . 315 ) form. Component according to Claim 1, characterized in that both flat components ( 10 . 20 . 210 . 220 . 310 . 320 ) corresponding depressions ( 11 . 21 . 211 . 221 . 311 . 321 ), which in the assembly of the two components ( 10 . 20 . 210 . 220 . 310 . 320 ) the pipe system ( 15 . 215 . 315 ) form. Component according to claim 1 or 2, characterized in that a ceiling, wall or bottom side mountable first component ( 10 . 210 . 310 ) a thermally conductive contact surface ( 12 ) to the ceiling ( 5 ), Wall or floor. Component according to one of the preceding claims, characterized in that at least one planar component ( 10 . 20 . 210 . 220 . 310 . 320 ) in a carrier medium, in particular plasterboard, embedded phase change material ( 23 ) having. Component according to one of the preceding claims, characterized in that the second component ( 20 . 220 . 320 ) on the room side a coatable and / or plasterable surface ( 22 ) having. Component according to one of the preceding claims, characterized in that the second component ( 20 . 220 . 320 ) Soundproofing has on the room side. Component according to one of the previous An claims, characterized in that the depressions ( 11 . 21 . 211 . 221 . 311 . 321 ) are formed by deep-drawn or folded sheets. Component according to one of the preceding claims, characterized in that the ceiling, wall or bottom side to be mounted first component ( 10 . 210 . 310 ) Has breakthroughs and / or mounting means. Component according to one of the preceding claims, characterized in that the second room-side component ( 20 . 220 . 320 ) releasably on the ceiling, wall or bottom first component ( 10 . 210 . 310 ) is attachable. Component according to one of the preceding claims, characterized in that the second component ( 20 . 220 . 320 ) by means of locking on the first component ( 10 . 210 . 310 ) is attachable. Component according to one of the preceding claims, characterized in that the line system ( 15 . 215 . 315 ) is connectable to an air conditioning device and / or outlet openings ( 55 ) in the room ( 60 ) having.