CZ25068U1 - Ceiling and wall cooling - Google Patents

Description

The Industrial Property Office does not ascertain whether the subject of the utility model meets the conditions of eligibility for protection pursuant to Section 1 of Act no. No. 478/1992 Coll.

CZ 25068 Ul

Ceiling and wall cooling

Technical field

The technical solution relates to ceiling and wall cooling, consisting of capillary mats or tubes for cold distribution.

BACKGROUND OF THE INVENTION

Ceiling and wall cooling is well known. It consists of a system of tubes, mostly of plastic, or capillary mats in which the medium flows and which are mounted on the surface of the ceiling or wall. These tubes or capillary mats are then plastered or covered with plasterboard. When using a gypsum board covering of pipes or capillary mats, the cooling capacity is reduced by about 30% and an additional construction must be made to which the gypsum board is attached. The loss of cooling capacity by covering the plasterboard must be compensated either by a higher density of the tubes or by an increase in the cooled area. Thanks to this variant, the cost of the refrigerated space is increased. After installation on the ceiling or wall construction, the pipes must be attached to the required positions and ensure that the plaster does not change during the plastering process. positions. Plastering on pipes or capillary mats is technically and time consuming, as the plaster has a thickness of 10 mm, which means that the ceiling must be rendered in two layers. Since the pipe system is below the surface of the ceiling or wall structure, where the ceiling or wall has a large structural height at the wall width, the ceiling or wall is cooled. For this reason, at the beginning of the accumulation of cold into the structure, instead of into the cooled space, there is a large delay between the temperature change of the carrier medium. There is a long reaction time, which can be a disadvantage for controlling thermal comfort in a space provided with this type of cooling.

The essence of the technical solution

These drawbacks are largely eliminated by ceiling and wall cooling according to the enclosed technical solution. Ceiling and wall cooling includes a set of tubes or capillary mats with an inlet pipe and an outlet pipe for fluid inlet and outlet connected to the cooling system. The essence of the invention is that the tubes or capillary mats are incorporated directly in the entire surface of the insulation board. The advantage of this system is that it enables quick and easy assembly, reduces reaction time and increases cooling efficiency.

By placing tubes or capillary mats directly on the surface of the ceiling or wall insulation board and subsequent plastering, a fast reaction time of the system and a uniform temperature curve is ensured over the entire cooled surface, whereby the insulation board serves to prevent cooling of the space above the board. wall cooling behind the plate. The advantage is also the elimination of possible damage during transport, as the tubes are already built into the insulating board and they cannot be handled in any way.

For manufacturing reasons and for ease of handling, assembly and economical reasons, it is preferred that the tubes are made of plastic, selected from the group consisting of polypropylene, polyethylene, polybutene, ethylene-vinyl alcohol plastic, aluminum plastic tubes and copper. This technical solution can be used for capillary tubes whose diameter ranges from 2 to 6 mm. From a functional disk, it is preferable to use insulated sheets of molded polyurethane or gypsum board, fibreboard, extruded polystyrene, connected to a tongue-and-groove or rebate or a shrink. These joints are not only simple to manufacture, but also advantageous in terms of assembly. For anchoring the boards to the ceiling or wall made of hardened polyurethane plate, the pressed-in U-shaped steel profile is used directly on the hardened polyurethane plate. On the ceiling construction, a U-shaped steel profile is attached, which is smaller so that the two profiles can be held together. This profile will serve as a support profile for the hardened polyurethane plate. The spacing of the supporting profile is the same as the spacing of the cured polyurethane plate. On the pre-mounted load-bearing profiles, it is snapped on by the hardened polyurethane plate.

By using a profiled hardened polyurethane plate with built-in hinge, three structural layers are eliminated. The soffit no longer has to be insulated, there is no need to apply vapor-proof insulation and one component of the grid. Furthermore, this system eliminates the need for anchoring the gypsum board with screws and subsequent sealing and grinding. This system saves considerable time on assembly and reduces the cost. The final surface treatment of suspended ceilings or use with hardened polyurethane foam can be thin-layer plaster, plasterboard, AL sheet or cassettes, particle board, glass.

It is preferred that the insulation board has at least one dimension equal to multiples of the building module. BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be explained in more detail in the drawings, wherein FIG. 1 is an axonometric view of an insulating plate with built-in tubes; FIG.

Examples of technical solution

In Fig. 1 there is an insulating plate 1 with embedded tubes 2 of pressed polyurethane with inlet and outlet tubes 4 for the medium. By insulating plate 1 is meant here plate 1 which is mounted either on the ceiling or wall, usually dry, with the surface layer 3 being realized directly on it. Insulating plates 1 are usually manufactured as so-called modular, i.e. their dimensions are They are chosen to correspond to multiples of the building module or certain dimensional series, so that they can be laid without or with minimal modification of their dimensions during assembly. As can be seen from FIG. 1, tubes 2 are embedded in the insulating plate 1. The spacing of the tubes or capillary mats is determined by the cooling surface requirement. By tubes 2 is meant here a generally hollow profile, preferably a circular cross-section with a diameter in the range of 2 mm to 6 mm, wherein tru25 of balls 2 with such diameters are referred to as capillary tubes. The tubes 2 provide the required flow of the heat transfer medium and thus the required supply of thermal energy.

Giant. 2, showing the structure of the ceiling provided with cooling according to the invention with extruded profiles 5 for mounting the slab to the ceiling or wall. After mounting the insulation board 1 with the tubes 2, a surface layer 3, for example a plaster, is applied. The insulating plate f is provided with a rebate for connection to the adjacent insulating plate 1. Other conventional known joints such as groove-tongue or splice joint can also be used. The joint is secured, for example, with a dispersion adhesive. Industrial applicability

Ceiling cooling, according to the present technical solution, is suitable for reconstruction and new construction for both residential buildings, office buildings, shopping centers, airport and railway station vestibules, metro areas, industrial and warehouse halls. Thanks to ceiling or wall cooling, there is no drafts and the entire space is cooled down evenly.

Claims (6)

PROTECTION REQUIREMENTS Ceiling and wall cooling, comprising a set of tubes (2) with a supply and drain pipe (4) connected to a cooling system, characterized in that the tubes (2) are embedded in at least one insulating plate (1) which is designed for mounting on the ceiling and / or wall construction by means of pressed-in profiles (5). CZ 25068 Ul Ceiling and wall cooling according to claim 1, characterized in that the system insulating board (1) has at least one dimension corresponding to multiples of the building module. Ceiling and wall cooling according to claim 1, characterized in that. The insulating plate (1) is provided with a surface layer (3). 5 Ceiling and wall cooling according to one of the preceding claims, characterized in that the tubes (2) are made of a plastic selected from the group consisting of polypropylene, polyethylene, polybutene, ethylene-vinyl alcohol plastic, aluminum plastic or copper. Ceiling and wall cooling according to one of the preceding claims, characterized in that the tubes (2) are formed from capillary tubes with a diameter of 0.002 to 0.006 m. io Ceiling and wall cooling according to one of the preceding claims, characterized in that the insulating board (1) is a polyurethane or polystyrene or mineral wool or wood chipboard or gypsum board connectable to a tongue-and-groove or rebate or to a collision with another adjacent insulation plate (1).