DE20206800U1 - Infrastructure Channel - Google Patents

Description

Infrastructure channel

The invention relates to an infrastructure channel according to the preamble of the main claim. Such an infrastructure channel is known.

Such well-known infrastructure channels are used to combine all supply and drainage lines in a single channel element, preferably in new development areas. This makes monitoring, repair and/or extension and expansion work significantly easier and cheaper.

The channel elements used are usually reinforced concrete pipes that are manufactured in the factory and then assembled on site to form a pipeline channel using end seals.

The disadvantage of this type of construction is that the concrete pipes, which have a round cross-section, have to be lined after they have been laid, because the excavator digging the trench can only create a largely flat support surface with its bucket. However, this type of liner is time-consuming and expensive. In addition, pipes with a round cross-section are not buoyant against groundwater.

The invention is based on the object of avoiding the disadvantages outlined and of creating an infrastructure channel which has a base plate adapted to the excavator bucket and is at least largely flat, which also does not require any underlay, which is buoyancy-proof and which, apart from transport protection, does not require any reinforcement. Another object is to use the infrastructure channel to overcome inclines or declines, e.g. when passing under motorways or railway lines or bodies of water or canals (culverts).

This object is achieved according to the invention by the characterizing features of the main claim. Advantageous developments of the subject matter of claim 1 emerge from the features of the subclaims.

drawing

Several embodiments of the invention are shown in perspective in the drawing and explained in more detail in the following description.

Description of the embodiments

Figure 1 shows an infrastructure channel 1 that is made up of individual monolithically manufactured prefabricated segments 2. The prefabricated segments 2 are manufactured from concrete in a factory and are delivered to the construction site as prefabricated parts. They are provided with circumferential seals 5 on at least one of their two end faces 3 and 4, so that the prefabricated segments 2 assembled on the construction site form a continuous, sealed infrastructure channel 1.

As can be seen from the drawing, the cross-section of the infrastructure channel 1 is designed as a vault with a base plate 6, to which two side walls 7 and 8 are connected, and at the top the walls 7 and 8 are connected to each other via a vault 9. In this way, a self-contained, one-piece and pressure-resistant vault 10 is created, which offers pressure-resistant protection for continuous lines.

The following lines are possible and are shown: two lines 11 and 12 (supply and return) for district heating, a communication cable duct 13, two lines 14 and 15 for drinking water and service water, a vacuum line 16 for black water and green waste and a rainwater collection line 19 that leads to a cistern 20. Of course, the number of lines could be increased if necessary.

External connections of the above-mentioned lines are installed through openings 17 and 18 in the walls 7 and 8. Brackets 21 are provided on the inside of the walls 7 and 8 to support the lines. These brackets 21 are preferably molded directly onto the walls 7 and 8, i.e. cast onto them. In the vault 10 at the top left, 20 kW, 360 V and solar lines are also mounted on the wall 7. The base plate 6 is also equipped with a cast or molded wastewater channel 22, which is preferably covered with a floor plate 23, particularly because the infrastructure channel 1 is dimensioned so that it can be walked on. Finally, a distribution box bears the reference number 24.

Ar:,":

Figure 2 shows an infrastructure channel 25 that is designed to overcome a gradient and is therefore provided with steps 26 on the inside that are molded into its base plate 27 according to the angle of the gradient. Of course, it is also possible to overcome a gradient in this way; however, the steps 26 must then lead downwards. The configuration of the prefabricated segments 28 is then adapted to the gradient or incline of the infrastructure channel.

In the embodiment according to Figure 2, the steps 26 extend over the entire width of the base plate 27. Figure 3 shows that steps (29) can also be arranged such that their width is limited only to the most frequently used part of a base plate 30.

How it works

The factory-made monolithic prefabricated segments 2 are delivered to the construction site by truck or rail. There, an excavator has dug a trench with a continuous, flat base and smooth side walls, the dimensions of which are tailored to the prefabricated segments 2. The prefabricated segments 2 are placed in the trench prepared in this way using a grabber, with their outer cross-section filling the trench completely. This means that there is no need for underlay and side filling. This avoids the usual soil settlement. Compaction work is also not necessary. This saves time, money and hassle.

The arch-like shape of the individual segments 2 ensures excellent strength and pressure resistance of the structural channel 2, so that the structure has a long service life. The flat base plate 6 also guarantees a high degree of buoyancy protection against rising groundwater levels.

When constructing the infrastructure channel 1, it is advantageous to install T-pieces as prefabricated segments 2 at certain intervals, where the T-branch can be closed with a door, so that the prefabricated segment 2 is accessible. In this way, assembly or maintenance personnel have access to the interior of the channel. It is also possible to provide a prefabricated segment 2 with a manhole that can be closed with a cover. This would then create access from above. Furthermore, ventilation and lighting facilities must be installed inside the vault 10.

Finally, it should be noted that the prefabricated segments 2 can be made not only from pure concrete, but also from a fiber-reinforced special concrete, in particular from a polymer concrete. It is also conceivable that the prefabricated segments 2 could be made from plastic.

The designs according to Figures 2 and 3 are used when the infrastructure channel 25 is to overcome or penetrate gradients. Such a task occurs, for example, when crossing under or over motorways or railway facilities. It is also possible to use such a rising and/or falling infrastructure channel 25 to cross under bodies of water or canals in the manner of a culvert. The stepless infrastructure channel 1 according to Figure 1 will then be used for the horizontal parts of the structure.

List of reference symbols Infrastructure channel i". ;*·· .··.
:..::".·': : .· ^: : : &Ggr;: ·"· j \\ \ \ \ ':
···· ·* ···· ·· ·· ·· ·· ·* _{## ###} 1 Finished segment 2 Front side 3 Front side 4 poetry 5 Base plate 6 Wall 7 Wall 8th Curvature 9 Vault 10 Line 11 Line 12 Line 13 Line 14 Line 15 Vacuum line 16 breakthrough 17 breakthrough 18 Rainwater collection pipe 19 cistern 20 console 21 sewer 22 Floor panel 23 Electrical distribution box 24 Infrastructure channel 25 stages 26 Base plate 27 Finished segment 28 stages 29 Base plate 30

Claims (3)

1. Infrastructure channel consisting of individual, monolithically manufactured prefabricated segments which can be assembled in a sealed manner to form a continuous channel, characterized in that each prefabricated segment ( 2 , 28 ) has a base plate (6, 27 and 30) to which two side walls (7 and 8) adjoin, which are connected to one another in one piece via a curvature ( 9 ) to form a vault ( 10 ), and in that the base plate (27 and 30) is provided with steps ( 26 , 29 ) corresponding to a normal staircase with an angle of inclination to which the side walls (7 and 8) and the upper curvature ( 9 ) are also adapted. 2. Infrastructure channel according to claim 1, characterized in that the steps ( 26 ) extend at least largely over the entire inner width of the base plate ( 27 ). 3. Infrastructure channel according to claim 1, characterized in that the steps ( 29 ) are limited in their width to the walkable part of the base plate ( 30 ).