DE102022109231A1 - Line system for supplying and/or discharging at least one supply medium to or from a floor of a building - Google Patents

Abstract

Line system (1) for conducting a supply medium in a building, comprising an upper supply line section (3) and a mounting bracket (6) arranged between a ceiling opening (4) and a floor opening (5) on a floor level (2), the upper supply line section ( 3) runs through the ceiling opening (4) and is arranged essentially vertically between the ceiling opening (4) and the mounting bracket (6), the mounting bracket (6) having an upper guide (8) for receiving the upper supply line section (3) in the region of a lower end (9) of the upper supply line section (3), and the upper supply line section (3) has an inner pipe (10) and an outer pipe (11) arranged around the inner pipe (10), wherein between the inner pipe (10) and a filling material (12) is arranged on the outer tube (11), and the inner tube (10) runs without contact through the upper guide (8) into the mounting bracket (6), wob ei the outer tube (11) rests on the upper guide (8) along at least a section of a cross-sectional circumference of the outer tube (11).

Description

The invention relates to a line system with the features of the preamble of claim 1.

In modern, multi-storey buildings, supply media such as electricity, fresh water, waste water, supply air and exhaust air are routed in so-called supply lines. These supply lines run through the floors of the building and supply each floor with the supply media.

In order to enable central access to these supply lines and to simplify the planning and construction of buildings, the supply lines are routed in a common line, the so-called building services line, which runs in a building services shaft. This building services line runs through all floors of the building. In the course of the construction of new buildings, the installation of the building services takes up a significant part of the total workload and thus also the total costs. The large number of different supply media and the structural engineering regulations associated with the routing of these media require a large number of work steps in building construction, which must be carried out by different trades and must be planned in a specific sequence. The building services line is therefore very expensive to install, has many pipe and fitting connections, and also causes the greatest sources of error. Many stimuli, such as noise pollution, emanate from the line area and many protective devices such as fire, heat and condensate protection are also implemented in this area.

A key challenge when installing utility lines is preventing sound and vibration from being transmitted from the utility lines to the building structure. Such a sound transmission leads to permanent noise pollution for the occupants of the building. Comprehensive soundproofing is particularly important in multi-storey or apartment buildings, so that no sound is transmitted from one residential unit to another through the supply lines. Furthermore, the installation of utility lines is a time-consuming operation, which creates a need for simplifying the installation of utility lines. Furthermore, it is desirable that odors from the supply lines do not penetrate into interior areas of a building.

The invention is therefore based on the object of providing a line system for supplying and/or discharging at least one supply medium to or from a floor level of a building, which compared to the prior art achieves improved sound decoupling and odor tightness between the building structure and the supply lines, and at the same time easy and quick to install.

This object is achieved by a line system with the features of claim 1.

The line system according to the invention for supplying and/or discharging at least one supply medium to or from a floor level of a building comprises an upper supply line section for conducting the supply medium, and a mounting bracket arranged between a ceiling opening and a floor opening of the floor level. The upper supply line section runs through the ceiling opening and is arranged essentially vertically between the ceiling opening and the mounting bracket. The mounting bracket includes an upper guide for accommodating the upper supply line section in the region of a lower end of the upper supply line section. The upper supply line section has an inner tube and an outer tube arranged around the inner tube, with a filling material being arranged between the inner tube and the outer tube. The inner tube runs contact-free through the upper guide into the mounting bracket, with the outer tube resting on the upper guide along at least a section of a cross-sectional circumference of the outer tube.

Due to the multi-layer construction of the upper supply line section with the inner pipe, the outer pipe and the filling material in between, a sound decoupling between the inner pipe of the upper supply line section is provided. The filling material can provide additional thermal insulation, for example. Typical filling materials are PU foam or similar. This achieves the advantage that the sound generated by the supply medium flowing in the inner tube is only transmitted to the outer tube in a very heavily attenuated manner. Also, the only point of contact between the upper umbilical section and the console is provided by the upper guide. This further reduces the intensity of the vibrations transmitted from the supply line section to the console and thus subsequently to the building structure. In addition, the inventive design of the line system provides the advantage that essentially the entire weight load of the upper supply line section with is transferred to the console by means of the upper guide. As a result, no additional fastening of the upper supply line section to the building structure is necessary. This significantly reduces the time required for assembling the line system, and thus also the associated costs. In addition, this relieves the statics of the building structure.

According to the preferred embodiment of the line system according to the invention, the upper guide has an upper damping element arranged between the mounting bracket and the outer pipe of the upper supply line section. The upper damping element achieves improved sound decoupling between the upper supply line section and the mounting bracket.

The upper guide preferably has a centering element, which at least partially surrounds the outer pipe of the upper supply line section, for centering the inner pipe of the upper supply line section in the upper guide. This achieves the advantage that the inner tube runs centrally through the upper guide. It also simplifies alignment of the upper umbilical section to the console during installation.

According to a preferred embodiment variant of the line system according to the invention, the line system has a lower supply line section running through the ground opening with an inner pipe and an outer pipe arranged around the inner pipe, with a filling material being arranged between the inner pipe and the outer pipe. The mounting bracket has a lower guide, arranged in alignment with the upper guide, for receiving the lower supply line section in the region of an upper end of the lower supply line section. This has the advantage that the line system can be installed on every floor of a building. In addition, the advantage achieved by the lower guide is that the lower supply line section can easily be aligned in alignment with the upper supply line section.

The lower guide preferably has a lower damping element which rests at least in sections on the outer pipe of the lower supply line section. This achieves improved sound decoupling between the lower supply line section and the console.

The lower guide also preferably includes a fixing element which is designed to run around the outer tube of the lower supply line section at least in sections and to press against the lower damping element. This provides a simple and quick method of attaching the lower umbilical section to the console. In addition, this ensures that the lower supply line section is arranged essentially in alignment with the upper supply line section. This makes it easier to connect the lower supply line section to the upper supply line section.

In addition, the line system can include a connecting element which is designed to connect the upper supply line section and the lower supply line section in the area of the mounting bracket between the upper guide and the lower guide. The connecting element preferably has an interface for removing and/or introducing the supply medium from and/or into the upper supply line section and/or the lower supply line section. The connecting element is also preferably flexible at least in sections. This simplifies the connection of the upper supply line section to the lower supply line section. In addition, the connecting element makes it possible to compensate for construction tolerances, for example of up to 3 cm.

According to the preferred embodiment, the outer pipe of the upper supply line section has an interruption in the area of the ceiling opening, and the upper supply line section has fire protection insulation surrounding the inner pipe of the upper supply line section in the area of the ceiling opening. This prevents that, in the event of a fire, a fire spreads from a lower floor level to an overlying floor level via the pipe system. The interruption of the outer pipe also reduces the temperature transfer between the floor levels. In addition, the outer pipe of the lower supply line section preferably has an interruption in the area of the floor opening, and the lower supply line section has fire protection insulation surrounding the inner pipe of the lower supply line section in the area of the floor opening. This also reduces the temperature transfer and prevents a fire from spreading between the storey levels.

The mounting bracket is also preferably connected to a floor wall of the floor level, with the line system between the floor opening and the ceiling opening being connected to the floor wall only via the mounting bracket. This prevents noise and vibration from being transmitted to the projectile wall.

• 1 zeigt das erfindungsgemäße Leitungssystem in einer mehrere Geschoßebenen übergreifenden Konfiguration.
• 2a zeigt einen Ausschnitt eines erfindungsgemäßen Leitungssystems mit einem oberen Versorgungsleitungsabschnitt und einem Abschnitt einer Montagekonsole.
• 2b zeigt die Montagekonsole des erfindungsgemäßen Leitungssystems in einer perspektivischen Ansicht.
• 2c zeigt eine obere Führung der Montagekonsole mit einem in die obere Führung eingeführten oberen Versorgungsleitungsabschnitt.
• 3 zeigt eine untere Führung der Montagekonsole mit einem in die untere Führung eingeführten unteren Versorgungsleitungsabschnitt.
• 4 zeigt das erfindungsgemäße Leitungssystem in einem installierten Zustand mit einem Bodendurchbruch einer Geschoßebene.
• 5a, 5b und 5c zeigen verschiedene Ausführungsvarianten von unteren Versorgungsleitungsabschnitten beziehungsweise oberen Versorgungsleitungsabschnitten.
• 6 zeigt einen Bereich eines Bodendurchbruchs zwischen zwei Geschoßebenen mit dem erfindungsgemäßen Leitungssystem.

The line system according to the invention, as well as preferred and alternative variants are explained in more detail below with reference to the figures.

• 1 shows the line system according to the invention in a configuration spanning several floors.
• 2a shows a section of a line system according to the invention with an upper supply line section and a section of a mounting bracket.
• 2 B shows the mounting bracket of the line system according to the invention in a perspective view.
• 2c shows an upper guide of the mounting bracket with an upper supply line section inserted into the upper guide.
• 3 shows a lower guide of the mounting bracket with a lower supply line section inserted into the lower guide.
• 4 shows the line system according to the invention in an installed state with a floor opening of a floor level.
• 5a , 5b and 5c show different embodiment variants of lower supply line sections or upper supply line sections.
• 6 shows an area of a floor breakthrough between two floor levels with the line system according to the invention.

The line system 1 according to the invention for supplying and/or discharging at least one supply medium to or from a floor 2 of a building is in 1 shown in a configuration spanning several floors 2 . The line system 1 comprises an upper supply line section 3 for conducting a supply medium, and a mounting bracket 6 arranged between a ceiling opening 4 and a floor opening 5 of the floor level 2, which in 2a and 2 B can be seen in detail. In 1 the line system 1 is shown with a plurality of upper supply line sections 3, which carry various supply media such as hot water, cold water, supply air, exhaust air and waste water. According to the invention, the line system 1 comprises at least one upper supply line section 3. Other supply media within the scope of building technology are generally known to the person skilled in the art. The upper supply line section 3 runs through the ceiling opening 4 and is arranged essentially vertically between the ceiling opening 4 and the mounting bracket 6 .

In the 2a partially and 2 B fully illustrated mounting bracket 6 is designed to be mounted on the floor 2 on a wall. This is done for example by means in the 2a and 2 B visible slots 7, by means of which the mounting bracket 6 can be attached. These also make it easier to align the mounting bracket 6 on the wall. Other wall mounting methods are well known to those skilled in the art. The mounting bracket 6 has an upper guide 8 for receiving the upper supply line section 3 in the area of a lower end 9 of the upper supply line section 3 . The upper supply line section 3 has, as in 2a and 2c visible, according to the invention also has an inner tube 10 and an outer tube 11 arranged around the inner tube 10 . A filling material 12 is arranged between the inner tube 10 and the outer tube 11 . This multi-layer construction of the upper supply line section 3 provides the advantage that the inner pipe 10 is insulated from the outer pipe 11 both thermally and acoustically. This prevents noise generated by a supply medium flowing through the inner pipe 10 from being transmitted to the outer pipe 11 and thus subsequently to the floor level 2 and the living spaces located therein. In addition, this reduces the heat loss, for example from hot water conducted in the line system 1 . Furthermore, this achieves the advantage that the outer pipe 11 provides static strength, as a result of which the weight of the upper supply line section 3 is absorbed by the outer pipe 11 .

The inner tube 10 runs as in 2a and 2c as can be seen without contact through the upper guide 8 into the mounting bracket 6. The outer tube 11 rests on the upper guide 8 along at least a section of a cross-sectional circumference of the outer tube 11, as shown in FIG 2c shown as an example. As a result, the dead weight of the upper supply line section 3 is transferred to the mounting bracket 6 via the outer tube 11 . In addition, no additional fastenings of the upper supply line section 3 to the building structure are necessary in order to bear its own weight. in the in 2c apparent embodiment is the outer tube 11 along the entire transverse cutting circumference on the upper guide 8. Because only the outer pipe 11 and not the inner pipe 10 is in contact with the mounting bracket 6, a transmission of sound and vibration from the inner pipe 10 to the mounting bracket 6 is greatly reduced. As a result, an improved living climate is achieved, and unwanted noise and vibrations generated by the line system 1 are suppressed. A further advantage is that the construction of the line system 1 according to the invention essentially transfers the entire weight load of the upper supply line section 3 to the mounting bracket 6 via the upper guide 8 . As a result, no further pipe clamps or other pipe holders known in the prior art are required in floor level 2. On the one hand, this reduces the effort involved in installing the line system 1 according to the invention, and thus its costs, and on the other hand, the contact points of the line system 1 with the building structure are reduced, whereby a particularly high-quality sound and vibration decoupling is achieved.

According to a preferred embodiment of the line system 1 according to the invention, the upper guide 8 has an upper damping element 13 which is arranged between the mounting bracket 6 and the outer pipe 11 of the upper supply line section 3 and which 2a , 2 B and 2c is shown. The upper damping element 13 provides a further improvement in the noise and vibration damping between the upper supply line section 3 and the mounting bracket 6 . Furthermore, a centering element 14 of the upper guide 8 included in the preferred embodiment of the line system 1 can be seen in these figures. The centering element 14 encompasses the outer pipe 11 of the upper supply line section 3 at least in sections for centering the inner pipe 10 of the upper supply line section 3 in the upper guide 8. This ensures that the inner pipe 10 is guided at a predetermined angle and without contact through the upper guide 8 into the mounting bracket 6 occurs.

As in 4 As can be seen, the line system 1 according to the preferred embodiment has a lower supply line section 15 running through the floor opening 5 . Like the upper supply line section 3 , the lower supply line section 15 comprises an inner pipe 10 and an outer pipe 11 arranged around the inner pipe 10 , with a filling material 12 being arranged between the inner pipe 10 and the outer pipe 11 . As explained with respect to the upper umbilicus section 3 , the outer pipe 11 provides the lower umbilical section 15 with static strength, whereby a dead weight of the lower umbilical section 15 is supported by the outer pipe 11 . Thus, no additional fastenings of the lower supply line section 15 to the building structure are necessary in order to bear its own weight. in the in 1 As can be seen in the configuration of the line system 1 according to the invention that spans several storeys 2, the upper supply line section 3 of a storey level 2 simultaneously represents the lower supply line section 15 of a further storey level 2 above this storey level 2. Likewise, the ceiling opening 4 of a storey level 2 represents the floor opening 5 of a storey level above it 2. According to this embodiment variant, the mounting bracket 6 also has a 3 apparent lower guide 16, which is arranged with the upper guide 8 in alignment. The lower guide 16 is designed to accommodate the lower supply line section 15 in the region of an upper end 17 of the lower supply line section 15 . As a result, the upper end 17 of the lower supply line section 15 and the lower end 9 of the upper supply line section 3 within the mounting bracket 6 are aligned with one another in such a way that a connection of the lower supply line section 3 to the upper supply line section 15 is simplified.

The lower guide 16 preferably has a 3 shown, at least in sections on the outer pipe 11 of the lower supply line section 15 abutting, lower damping element 18. The lower damping element 18 rests at least in sections on a circumference of the outer tube 11 of the lower supply line section 15 and at least partially surrounds it. This reduces the transmission of sound and vibrations to the mounting bracket 6 . In addition, the lower guide 16 preferably comprises an in 3 illustrated fixing element 19, which is designed to encircle the outer tube 11 of the lower supply line section 15 at least in sections, and to press against the lower damping element 18. The fixing element 19 can be designed, for example, as a rubber band or, preferably, as a coated wire. As a result, vibrations are reduced and the lower supply line section 15 is fixed to the mounting bracket 6 .

To connect the upper supply line section 3 to the lower supply line section 15 in the area of the mounting bracket 6 between the upper guide 8 and the lower guide 16, the line system 1 according to the invention comprises a connecting element 20 according to the preferred embodiment binding element 20 is in 4 shown. The connecting element 20 preferably comprises an interface for removing and/or introducing the supply medium from and/or into the upper supply line section 3 and/or the lower supply line section 15. In order to simplify the connection between the upper supply line section 3 and the lower supply line section 15, this is Connecting element 20 preferably at least partially flexible.

In 5a until 5c different versions with different diameters of the inner tube 10 of the upper supply line section 3 and the lower supply line section 15 are shown. Different pipe diameters are usually used for different supply media. The outer pipe 11 of the upper supply line section 3 preferably has an in 5a-5c and 6 apparent interruption 21 on. In addition, the upper supply line section 3 in the area of the ceiling opening 4 has fire protection insulation 22 surrounding the inner pipe 10 of the upper supply line section 3 . This can be made of rock wool, for example. Other types of fire protection insulation 22 are well known to those skilled in the art. Likewise, the outer pipe 11 of the lower supply line section 15 can have an interruption 22 in the area of the floor opening 5, and the lower supply line section 15 in the area of the floor opening 5 can have fire protection insulation 22 enclosing the inner pipe 10 of the lower supply line section 15. This prevents a fire from spreading from one floor level 2 to another floor level 2 via the line system 1 . In addition, this prevents heat conduction via the outer tube 11 between the floor levels 2 .

Furthermore, the line system 1 according to the invention can include a fire protection sleeve 23 that can be arranged in the area of the ceiling opening 4 and runs around the lower supply line section 15 or the upper supply line section 3 . When installing the line system 1 according to the invention, the floor opening 5 or the ceiling opening 4 is also closed with a fire protection mortar 24 after the line system 1 has been introduced into the floor opening 5 or the ceiling opening 4 . Such a configuration is shown in the detailed view of the floor opening 5 or the ceiling opening 4 in 6 In addition, a seal 25 is preferably arranged in the area of the floor opening 5 or the ceiling opening 4, which is preferably made of rubber material. This seal 25 is also preferably designed to be fire-resistant. This achieves acoustic and vibration decoupling of the fire protection mortar 24 and the components of the line system 1 according to the invention arranged therein from the rest of the building structure. In addition, a liquid-tightness of the floor opening 5 is thereby achieved. The components arranged in the area of the floor opening 5 also prevent odors from penetrating from a floor level 2 to a floor level 2 above or below.

According to the preferred embodiment of the line system 1 according to the invention, the mounting bracket 6 is connected to a floor wall of the floor level 2, the line system 1 between the floor opening 5 and the ceiling opening 4 only being connected via the mounting bracket 6 to the floor wall. This reduces the contact points of the line system 1 with the building structure. This enables the line system 1 according to the invention to be installed particularly quickly and therefore cheaply.

Claims (12)

Line system (1) for supplying and/or draining off at least one supply medium to or from a floor (2) of a building, comprising an upper supply line section (3) for conducting the supply medium, and one between a ceiling opening (4) and a floor opening (5) the floor level (2) arranged mounting bracket (6), characterized in that the upper supply line section (3) runs through the ceiling opening (4) and is arranged essentially vertically between the ceiling opening (4) and the mounting bracket (6). , wherein the mounting bracket (6) has an upper guide (8) for receiving the upper supply line section (3) in the region of a lower end (9) of the upper supply line section (3), and the upper supply line section (3) has an inner tube (10), and an outer tube (11) arranged around the inner tube (10), a filling material (12) being arranged between the inner tube (10) and the outer tube (11). et, and the inner tube (10) runs contact-free through the upper guide (8) into the mounting bracket (6), the outer tube (11) running along at least a section of a cross-sectional circumference of the outer tube (11) on the upper guide (8) rests. Line system (1) according to claim 1 , characterized in that the upper guide (8) has an upper damping element (13) arranged between the mounting bracket (6) and the outer tube (11) of the upper supply line section (3). Line system (1) according to one of Claims 1 or 2 , characterized in that the upper guide (8) has a centering element (14) which at least partially encompasses the outer pipe (11) of the upper supply line section (3) for centering the inner pipe (10) of the upper supply line section (3) in the upper guide (8 ) having. Line system (1) according to one of Claims 1 until 3 , characterized in that the line system (1) has a lower supply line section (15) running through the floor opening (5) with an inner pipe (10) and an outer pipe (11) arranged around the inner pipe (10), with between the inner pipe (10) and the outer pipe (11) a filling material (12) is arranged, and the mounting bracket (6) has a lower guide (16) arranged in alignment with the upper guide (8) for receiving the lower supply line section (15) in the area an upper end (17) of the lower supply line section (15). Line system (1) according to claim 4 , characterized in that the lower guide (16) has a lower damping element (18) which rests at least in sections on the outer tube (11) of the lower supply line section (15). Line system (1) according to claim 5 , characterized in that the lower guide (16) comprises a fixing element (19) which is designed to encircle the outer tube (11) of the lower supply line section (15) at least in sections and to press against the lower damping element (18). Line system (1) according to one of Claims 4 until 6 , characterized in that the line system (1) comprises a connecting element (20) which is designed to connect the upper supply line section (3) and the lower supply line section (15) in the area of the mounting bracket (6) between the upper guide (8) and to connect to the lower guide (16). Line system (1) according to claim 7 , characterized in that the connecting element (20) has an interface for removing and/or introducing the supply medium from and/or into the upper supply line section (3) and/or the lower supply line section (15). Line system (1) according to one of Claims 7 or 8th , characterized in that the connecting element (20) is at least partially flexible. Line system (1) according to one of Claims 1 until 9 , characterized in that the outer pipe (11) of the upper supply line section (3) has an interruption (21) in the area of the ceiling opening (4), and the upper supply line section (3) in the area of the ceiling opening (4), an inner pipe (10 ) of the upper supply line section (3) enclosing fire protection insulation (22). Line system (1) according to one of Claims 4 until 9 , characterized in that the outer pipe (11) of the lower supply line section (15) has an interruption (21) in the area of the floor opening (5), and the lower supply line section (15) in the area of the floor opening (5), an inner pipe (10 ) of the lower supply line section (15) enclosing fire protection insulation (22). Line system (1) according to one of Claims 1 until 11 , characterized in that the mounting bracket (6) is connected to a floor wall of the floor level (2), the line system (1) between the floor opening (5) and the ceiling opening (4) being connected to the floor wall only via the mounting bracket (6). is.

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