WO2002035029A1

WO2002035029A1 - Building with combined floor and ceiling construction

Info

Publication number: WO2002035029A1
Application number: PCT/NL2001/000781
Authority: WO
Inventors: Dirk Hugo Groeneveld
Original assignee: Beheermaatschapij H.D. Groeneveld B.V.
Priority date: 2000-10-25
Filing date: 2001-10-25
Publication date: 2002-05-02
Also published as: AU2002214408A1; NL1016484C2

Abstract

The invention relates to a building with at least two spaces one above the other which are vertically separated by a combined floor and ceiling construction, comprising a number of tubes placed mutually adjacently, substantially flat lower surfaces of which define a substantially continuous ceiling surface, sheet-like elements which rest on the tubes and substantially flat upper surfaces of which form a substantially continuous floor surface, wherein the tubes comprise conduits to connecting members received in the lower surfaces and the upper surfaces.

Description

BUILDING WITH COMBINED FLOOR AND CEILING CONSTRUCTION

The invention relates to a building with at least two spaces one above the other which are vertically separated by a combined floor and ceiling construction. Such a combined floor and ceiling construction must one the one hand, as floor for the space above, have sufficient load-bearing capacity and on the other, as ceiling for the space below, take a decorative form.

Combined floor and ceiling constructions are per se known, wherein these comprise a number of tubes placed mutually adjacently, substantially flat lower surfaces of which define a substantially continuous ceiling surface. Sheet -like elements resting on the tubes and having substantially flat upper surfaces herein form a substantially continuous floor surface. The invention has for its object to further improve a building with such a floor and ceiling construction.

This object is achieved according to the invention in that the tubes of the floor and ceiling construction comprise conduits to connecting members received in the lower surfaces and the upper surfaces. All facilities required for the adjoining spaces can hereby be provided from the combined floor and ceiling construction.

The connecting members preferably comprise electrical connecting members such as plug sockets and lighting fixtures, and the conduits comprise electrical wiring. These plug sockets can be arranged in the upper surface forming the floor, while lighting fixtures can be arranged in or on the lower surface defined by the substantially flat lower surfaces of the tubes. All required electrical provisions can in this way be realized with the floor and ceiling construction.

The conduits can for instance also comprise air ducts for ventilation respectively aix'-conditioning applxcations . The connecting members are then exhaust and intake grilles of this conduit system. A suitable further development is characterized in claim 3. The tubes themselves herein form the air ducts.

A very suitable further development is characterized in claim 4. The heat fluid is herein a heating or cooling medium, such as for instance a liquid. The ceiling can be heated or cooled by applying this measure. In the case of heating, it will be possible to provide a pleasant heating on the surface through the generation of radiant heat. Cooling of the ceiling surface achieves that the normal infrared radiation of the ceiling surface also occurring at room temperature is reduced, thereby creating a cool sensation for the users of the space in question. Warm air coming into contact with the ceiling surface will also be cooled, whereby the temperature in the space can be decreased.

In a building where the spaces lying one above another form part of different, separate apartments, the measure of claim 5 is preferably applied. The electrical cabling system for the lower space can hereby remain separated from that for the upper space, so that separate connection is possible for these two spaces.

The combined floor and ceiling construction according to the invention can also be used in suitable manner in a building with larger spans, wherein the tubes are received between beams arranged mutually parallel at equal distances .

In a suitable further development the tubes herein connect onto longitudinal recesses of the beams, and the conduits of the tubes extend in these longitudinal reces- ses. The beams can herein be for instance per se known I- beams , wherein the conduits are arranged against the body of the I-beam.

When the measure of claim 8 is applied, a good thermal insulation between the different spaces is achie- ved in appropriate manner. A longer resistance of the beams is moreover achieved in the case of fire. This can be fuχ-ther improved by applying heat-absorbing material such as for instance calcium silicate. In addition, the upper part of the beam can suitably be left uninsulated so that it is cooled on the relatively cool upper side of the floor construction.

A very suitable embodiment is further characterized in claim 9. The heat transfer liquid will be released as soon as the melt fuses melt owing to too high a temperature as a result of fire. The heat transfer liquid then serves as extinguisher.

The invention also relates to and provides a tube assembly for a building as specified above. This tube assembly can herein comprise a number of mutually connected tubes provided with pre-mounted conduits. The tubes are thus assembled to form larger structural elements which can be fitted quickly in a building during con- struction.

The invention will be further elucidated in the following description of an embodiment as shown in the figures .

Figure 1 shows schematically a building according to the invention in partly broken-away perspective view. Figure 2 shows a partly broken-away, perspective detail view of a floor/ceiling construction in the building of figure 1.

Figure 3 shows a view corresponding with figure 2 of an alternative embodiment.

The building 1 shown schematically in figure 1 has two separating combined floor and ceiling constructions 2. These latter separate two spaces from each other in vertical direction. In this embodiment the combined floor and ceiling constructions comprise beams 3 formed from an I-profile with differing flanges. The lower flanges are wider than the upper flanges.

Tubes 4 are arranged between the lowex" flanges of mutually adjacent beams 3. These tubes lie with their ends on the wide lower flanges. The tubes have a generally flat lower surface and upright sides which end in a transversely bent flange. The flange of one tube lies in fitting manner on the adjoining flange of the adjacent tube, thus forming a mutually closed connection of tubes 4.

The flat lower surfaces of tubes 4 define a substan- tially continuous ceiling surface for the underlying space .

Resting on the tubes are sheet-like elements 5, of which the substantially flat upper surfaces define a substantially continuous floor surface for the upper spaces. In the embodiment shown in more detail in figure 2, the sheet-like elements lie on the bent flanges of the tubes, wherein a layer of damping material 16 of for instance rubber- like material is received therebetween. This damping material 16 prevents sound transmission from the floor to the space below.

Tubes 4 comprise conduits to connecting members arranged in the lower surfaces and the upper surfaces . Conduit 8 can be taken as example. This is an air duct which is connected to a connecting member in the form of an air outlet opening 6.

Another example is the electrical wiring 12 which is for instance connected to plug sockets 9 arranged in a built-in box 10 with cover 7 in the floor. The electrical wiring 12, or at least the pipe through which the elec- trical wiring is arranged, can in this embodiment be received in a cable duct 13 which is accessible from the underside. In the case the combined floor/ceiling construction is an apartment partition wall, the electrical wiring for the lower apartment can thus be kept wholly separated from that for the upper apartment.

A number of the tubes 4 is provided with built-in lighting fixtures 14. The electrical switch wiring likewise runs through the tubes, and for instance further through the longitudinal recesses of beams 3, to switches arranged in the walls.

In the embodiment drawn here insulating material is arranged in tubes 4. This can be thermal insulating material for the purpose of preventing heat transfer between the spaces in vertical direction. The thermal insulating material 15 can also make a significant contribution toward the fire-resistance time of the floor. In the embodiment of figure 3 the sheet -like elements lying on the tubes are made up of a corrugated sheet profile 18 on which is arranged a filling layer 19. These sheet-like elements have a higher load-bearing capacity than that of the embodiment of figure 2. Filling layer 19 can for instance be of stony material so that a heavy floor construction is possible.

Further shown here by way of illustrating the many possibilities of the floor and ceiling construction according to the invention is that auxiliary tubes 20 lying on the insulating material are arranged in a tube. In these auxiliary tubes 20 can also be arranged conduits which do not therefore have to rest directly on the layer of insulating material .

According to a very advantageous embodiment, heating and cooling conduits 21 are arranged on the bottom of the tubes against the flat lower surfaces. These are mounted in good heat-exchanging contact with the lower surfaces using bridging elements 22 which clamp the conduit 21 firmly against the lower surfaces. When a heating or cooling medium is carried through conduit 21, the lower surface of the tubes forming the ceiling will thus be heated or cooled.

The tubes themselves can serve wholly, or partially if insulating material and/or conduits are already pre- sent therein, as conduit, for instance for ventilating air. The inner spaces of the tubes can then be connected in simple manner to the relevant space by means of connecting members in the form of exhaust grilles 6 for supplying or exhausting air. For simple and rapid erection of a building 1 according to the invention, and particularly for rapid and efficient arrangement of the combined floor/ceiling constructions, large structural elements can be prefabricated consisting of a number of mutually connected tubes 4 in which the required conduits and connecting members are prearranged. After assembly only the conduits have to be connected to each other, and much installation work, which is highly time-consuming, becomes unnecessary.

Claims

1. Building with at least two spaces one above the other which are vertically separated by a combined floor and ceiling construction, comprising a number of tubes placed mutually adjacently, substantially flat lower surfaces of which define a substantially continuous ceiling surface, sheet-like elements which rest on the tubes and substantially flat upper surfaces of which form a substantially continuous floor surface, wherein the tubes comprise conduits to connecting members received in the lower surfaces and the upper surfaces .

2. Building- as claimed in claim 1, wherein the connecting members comprise electrical connecting members such as plug sockets and lighting fixtures, and the conduits comprise electrical wiring.

3. Building as claimed in claim 1 or 2, wherein the tubes form air ducts and the connecting members comprise air passage openings .

4. Building as claimed in any of the foregoing claims, wherein the conduits comprise heat fluid conduits which are connected to the tubes in heat-conducting contact with the lower surfaces.

5. Building as claimed in any of the foregoing claims, comprising at least one cable duct arranged in a tube and accessible from the lower surface.

6. Building as claimed in any of the foregoing claims, wherein the tubes are received between beams arranged mutually parallel at equal distances.

7. Building as claimed in claim 6, wherein the tubes connect onto longitudinal recesses of the beams, and the conduits extend in the longitudinal recesses.

8. Building as claimed in claim 6 or 7 , wherein thermal insulating material is arranged in the tubes and the longitudinal recesses.

9. Building as claimed in any of the foregoing claims, wherein conduits for heat transfer liquid are provided with melt fuses.

10. Tube assembly for a building as claimed in any of the foregoing claims, comprising a number of mutually connected tubes provided with pre-mounted conduits.