DE2352623C3 - District heating duct, in particular for hot water pipes - Google Patents

Description

The invention relates to a district heating duct, in particular for hot water pipes, as described in the preamble of Claim 1 described and from OE-PS 2,53,879 is known. In this known district heating duct are the pipes supported by metal feet on a support and enclosed by an insulating fiber mat, which is coated on the outside with a bitumen cardboard and a plastic bandage so that it is watertight. In this known district heating duct, the penetration of moisture must be avoided because Once moisture has penetrated in this type of duct, the insulation does not or only very slightly long drying time can be removed.

Furthermore, in the application (DT-OS 23 45 777) of the applicant, which was not previously published, there is a district heating channel has been suggested which is self-drying. The entire insulating mass is of two or Surrounded several overlapping, perforated cover films. The holes on the top and the side walls are so small that they meet the rising from the insulating material Let evaporation of the penetrated water forming steam escape, but prevent vice versa, that water can penetrate through the holes in the insulating compound. Rather, this runs on the Overlap points or through the larger holes on the underside to the canal bottom from where it goes there laid drainage pipes.

The object of the present invention is to improve a district heating duct with insulated pipes in such a way that that with simple assembly a quick dehumidification of the insulation is possible and thus the thermal insulation quickly becomes fully functional again even in the event of water ingress. This task will solved according to the invention by the characterizing features of claim 1. It has been shown that the Protection against moisture and the self-drying effect through the design according to the invention Sheathing of the pipes can be significantly improved. The use of hollow cylinder segments offers not only the advantage of a particularly simple assembly, but the further advantage that it is not more it is absolutely necessary to lay the pipes on a pressure-resistant support.

According to the invention, it is particularly advantageous if the tube or tubes are not closed Cover foil casing, but enclosed by several closed cover foil casing be, with each one advantageously between the individual cover foil envelopes Insulating material layer is arranged, in the manner described above from preformed insulating material bodies exists in the form of hollow cylinder segments.

Before they are laid in the district heating duct, the pipes are covered with the insulating material and the Covering film provided and introduced into the district heating duct in sections. At the joints the pipes are then welded together and then the insulating layer or layers as well as the cover film or sheathing by subsequent insertion of insulating material compacts in Shape of hollow cylinder segments as well as sleeves made of cover film arranged over the joints, which are connected to the rest of the cover film by welding, gluing, folding or the like.

According to the invention, the cover sheet can have holes of different sizes, that is to say, for. B. fine holes the top and sides of the insulating compound and larger holes on the bottom. The fine holes are so small that they prevent water from outside through these fine holes into the insulating compound penetrates, but conversely the water vapor that forms when water has evaporated let escape. The larger holes on the underside, on the other hand, are dimensioned in such a way that water flows through them can flow from the inside to the outside. This may be condensation that is in the lower Area inside the cover foil cladding accumulates, or around, for example, in the event of flooding or thunderstorm rain water that has penetrated the insulating material.

The embodiment of a heating channel according to the invention also has the effect of moisture penetration Insulating compound drying quickly as a result of flooding or other water ingress, d. H. it there is only a short-term saturation, which chromium steel in particular can endure, but not the long-term as with the known heating channels. In these there are very long drying times, in the course of which is known to favor the corrosive attack.

The invention is explained in more detail below with reference to schematic drawings of an exemplary embodiment explained. It shows

F i g. 1 shows a cross section through a heating duct designed according to the invention with two laid therein Heating medium pipes,

F i g. 2 shows a cross section similar to FIG. 1 by a modified embodiment of the invention Heating duct and

F i g. 3 shows a part of a cover film in plan view.

Drainage pipes 2 / are laid on the bottom of a heating channel I. The pipes 3 carrying the heating medium are on top Blocks of insulating material 4, which can be continuous, but also from individual blocks, at a distance from one another arranged, pressed from insulating material base blocks can exist instead of the blocks 4. However, it is also a loose bed of the insulating material usable.

The tubes 3 are covered by an insulating material 5 enclosed, which consists of preformed bodies in the form of hollow cylinder segments. In the embodiment according to FIG. 1, the tubes 3 are each enclosed by two hollow cylinder segments, each one Enclose an angular sector of 180 ° of the pipe circumference. However, you can also use an angle of 120 or 90 ° enclose so that three or four segments are sufficient to enclose a pipe along its circumference. the Insulating maierial bodies are preferably made of mineral wool, glass wool or foamed plastic.

The space above the blocks of insulating material 4 and between the pipes 3 enclosed by the insulating material envelopes 6 and cover film envelopes 5 is filled with a fill of insulating material 7 which also covers the drainage pipes 2. The space above the bed of insulating material 7 is filled with excavated sewer T up to the level of the terrain. It is also possible to cover the canal with a road surface, since the structure according to the invention is resilient.

In the embodiment according to FIG. 2 is each of the tubes 3 of a first and a second Surrounding insulating material casing 6 or 6 ', between which a first cover film casing 5 is arranged is. A second cover film jacket 5 'is then arranged around this outer insulating material envelope 6'.

In the embodiment according to FIG. 3 consists the insulating material envelope 6 made of preformed insulating material bodies in the form of hollow cylinder segments, which enclose the pipes 3 to an angular sector of 180 ° of the pipe circumference .. The insulating material envelope 6 'consists of three pre-formed insulating material bodies in the form of hollow cylinder segments, which enclose an angular sector of 120 ° each of the pipe circumference.

The cover films 5 or 5 and 5 ', which form a closed casing, are preferably made of strip-shaped film material formed in that the strips are placed around the insulating material 6 or 6 'and be closed at the joints by gluing, welding or folding.

The cover foils with which the insulating material envelopes are sheathed consist, as shown in FIG. 3, from an advantageously uniformly thick base layer 8, the one with holes 9, 9 'and 9 "larger than or equal 0.05 mm in diameter and provided with reinforcing ribs JO, which extend like a network over the base layer streckeri. The side of the foils provided with the reinforcing ribs lies on the insulation material envelope on. To adjust in the lower part of the channel; better drainage of condensation water or through a To achieve any water penetration penetrated water, only the part of the films 5, which is on the Top and on the sides of the insulating material envelope 6 and 6 'rests, holes 9 with a diameter from 0.05 to 0.2 mm, while the holes 9 ', 9 "formed in the lower halves of the film, have increasing diameter. The dividing line between the top and bottom of the Foil is indicated at 12 by a dashed line. The holes 9 'and 9 "can have a diameter up to 6 mm, preferably up to 4 mm.

1 sheet of drawings

Claims (3)

Patent claims: 1. District heating duct, in particular for hot water pipes, with one or more pipes carrying the heating medium, which are laid in a duct; i ^r -inem or more supports consisting of heat-insulating ..terial, with watertight enclosing the respective pipe at a distance inside Cover film a first insulation and outside the cover film a second insulation is provided over which a filling is applied, characterized in that the first insulation consists of prefabricated bodies (b) in the form of hollow cylinder segments and the plastic cover (5) in its upper half is provided with fine holes (9) that are only permeable to water vapor and in its lower half with larger holes (9 ', 9 ") for the drainage of accumulated water. 2. District heating duct according to claim 1, characterized in that two or more with holes provided cover films (5, 5 ') at different radial distances from the tubes (3) and between these prefabricated insulating bodies (6,6 ') are arranged. 3. District heating duct according to claim 1 or 2, characterized in that the fine holes (9) each Cover film (5, 5 ') have a diameter of 0.05 to 0.2 mm, the larger holes (9.9') have a diameter to 6 mm.