DE19509399C2 - Sound insulation device - Google Patents

Description

The invention relates to a device for sound insulation in heating, sanitary or other lines according to claim 1.

Central heating systems are known, for example, in which the pipelines in the Floor structure of a building to be laid. The lines are used for heat solation with a thermal insulation jacket, for example made of a foamed plastic or the like. At the points in the central heating system where a radiator is installed, branches are ge to the radiator in question leads. These junctions cannot from the thermal insulation system mentioned are covered and the screed is in contact with the construction of the floor structure the lines. With regard to heat transfer, there is such little contact between the central heating lines and the screed or floor structure irrelevant. However, this slight surface contact between the floating screed, for example, and the bare pipe mean that Structure-borne noise picked up uninhibitedly and in via the central heating system itself extremely large buildings can be distributed. The radiators themselves are considered to be the ones  sound-emitting vibrating body to look at. Of course, for example Impact sound also spread through building components, such as walls. A building that is formed with such a thermally insulated piping system, points more understandable show a very disadvantageous behavior towards structure-borne noise.

In another system, the pipe that is led out of the screed is replaced by one Insulation surrounded by a corrugated pipe. However, the area of the junction remains the supply line to the radiator either unprotected, or you help yourself tediously by means of an insulating tape that crosses around the area of the cable branch supply between the adjacent insulation sheaths, connecting them, is unwound. It it is clear that this type of procedure is extremely cumbersome on the one hand, because the management for example on the raw concrete of a subsurface or ceiling of a building sits, and thus is not radially accessible, and because such a Umwic Tiling or wrapping the branch piece or T-piece against a screed medium consistency is not tight, so that here too sound bridges between the swim screed of the floor structure and the pipe system.

Another system uses a can in the angled one Pipes that are guided in a jacket from the floor structure or from the screed be brought out. On the one hand, the can is not sufficiently tight against you Screed of medium to high consistency and on the other hand parts of the pipe become without any Jacket passed through the screed. So here too the problem arises that structure-borne noise including impact sound on the direct connections between the screed of the floor structure of the building and the pipe system are excellent be transmitted.

In the event that plastic piping or plastic-covered lines through a special floor structure can be passed, the upper layer of which consists of a If there is asphalt, it is necessary to preposition the plastic parts in the area of the asphalt layer to protect against high heat. A casing has been around here for some time Natural fiber to keep the asphalt away from the affected plastic parts. This too Sheathing is not suitable for the purposes according to the invention since the natural fiber material  can be penetrated and soaked by the screed, so that here too Sound short circuits occur frequently. In addition, the thermal insulation mentioned is off finally intended for use in a floor structure with an asphalt layer and educated.

DE 44 22 888 A1 discloses a device for insulation for pipe outlet bends from Water pipes, these made up of two separate, assembled components is building. The two components can, for example, via a film hinge to be folded up. The disclosed isolation device has an entrance opening and an exit opening for the ends of a knee of a water pipe. So that's how the openings of this pipe outlet bend are opened continuously and the insulating jacket According to this document, it cannot be used for any other purpose, but is for the user limited as insulation for pipe bends or pipe elbows.

EP 0 573 755 A1 discloses an insulation system for a floor structure. Doing so an interrupted layer of insulation is applied to a floor, with a gap to Recording a pipe and the insulation surrounding the pipe is provided. In the A gap is let in, which goes up and down to the concrete floor is covered with respective layers of insulation. Between the two insulation materials layers, a pipe is guided in the housing. A decrease in this insulation arrangement for Pipes in a gap that is about too deep is blocked by shoulders protruding into the gap reached.

It is the object of the present invention to provide a device for sound insulation To create heating and plumbing lines or other lines where possible with a few different insulation devices as many applications as possible can be dealt with fairly.

This object is achieved by a device with those listed in claim 1 Features resolved. Appropriate embodiments of the device according to the invention are defined by the features listed in the subclaims.  

The advantages to be achieved according to the invention are based on the fact that thereafter formed device can be used for several purposes. Since several input or exit openings are provided, at least some of which are closed, can, if necessary, uncover the desired opening or openings be to prepare the device according to the invention for a given purpose ren. The entrance or exit openings can, for example, via Schwä lines, proportions or the like, be drawn so that the craftsman on the construction site for a specific purpose only, for example, using a screw bendrehers or the like must push out a closure at an opening to the To expose the opening.

In this way, a single device according to the invention can, for example, be the same be used early as a T-piece or as a knee piece or the like. Also one Use as an elbow or bend is included.

Conversely, it is of course just as advantageously possible to have several existing openings to close the application of the device according to the invention. For example, screw or plug or snap closures can be used reach.

The housing of the device does not need on the side facing a part of the building be formed with a sound-absorbing layer, since this area through the bordering part of the building and the surrounding layers of the floor structure are protected from it is in direct contact with sound-transmitting parts of the floor structure, especially the screed layer.

On the other hand, however, it hardly means any additional effort, including the building contact side to provide the housing with a sound-absorbing layer, so that the entire housing except for the inlet and outlet openings is covered by a sound-absorbing layer. This configuration has the advantage that there are also irregularities in the floor construction or assembly errors there is no indirect risk that despite all efforts a sound-conducting contact between the floor structure and the line is established can.  

Advantageously, the housing or the device according to the invention can also be un be formed indirectly from a sound-absorbing material, so that there are a large number of manufacturing steps can be saved, which is a particularly favorable option of Manufacturing goes hand in hand. The sound-absorbing layer or the Housing made of polyurethane foam or polyethylene foam, for example according to DIN 4109 poses. In particular invented with or from a soft integral foam Devices according to the invention are with regard to body and impact sound absorption or insulation particularly advantageous.

Advantageously, the device or its housing is Be at the openings provide fastening devices to fix pipelines and / or their cladding. It is advantageous if between the respective pipes or their casing Pipe sealing connections can be made to prevent low-viscosity screed can penetrate in the manufacture of the floor structure, and possibly Sound bridges produced.

The housing or the device according to the invention is advantageously designed as a T or Double T-piece, with the central branch of the T-piece being made from the building material protruding section is to be formed with an exit or longitudinal opening.

To prevent the housing or the device according to the invention from progressing structural measures slipped, or due to its buoyancy from the screed dives, the device should be provided with at least one assembly device to the device on a part of a building, for example a base or a wall, to be able to mount firmly.

On the leg leading out of the structure or floor structure or in it provided opening, a sealing taper is advantageously provided, through which the line leading to the radiator or other line through the assigned opening can be led out of the device according to the invention. The line can be sealed so that even in the construction phase no materials fall into the device according to the invention or its housing  can and the beneficial effects of the sound absorbing device according to the Partially annul invention.

It is advantageous to use the openings or the one leading out of the floor extension Opening additionally provided a sealing lip, which together with the wall of the passed line can also meet even higher tightness requirements.

The device according to the invention or its housing can advantageously be made of at least two symmetrical or asymmetrical parts made around the Line or its branch are plugged together. By the invention a device is provided that is suitable for the body - including impact sound damping is essential. It is easy to manufacture and very easy to assemble and can at the same time effect additional thermal insulation. The characteristics in the sub Claims in connection with the invention are suitable for particularly advantageous Combinations to be merged.

Heating pipes and water pipes can be laid in corrugated pipes. Woolen pipes provide protection in general. They have a certain insulation or Sound decoupling capacity and thermal insulation as well as mechanical protection for the internal, water-carrying pipes. When installing cables in ceilings / floors constructions is u. a. de DIN 18560 "Screeds in construction" to be observed, hereby is incorporated by reference into the disclosure of the present text. In this is described, if pipelines are laid on the load-bearing surface, these must be determined. By leveling, there is again a flat surface to accommodate the insulation layer - but at least the impact sound insulation. The construction must therefore not have any point-like elevations, such as pipes or the like. have sound bridges and / or fluctuations in the screed thickness could.

The invention is described below using preferred exemplary embodiments under Be access to the accompanying figures explained in more detail. In doing so, further objectives,  Features and advantages disclosed according to the present invention. The figures are explained briefly below, after which:

Fig. 1 shows part of a further embodiment of the device according to the invention in a perspective view;

FIG. 2 shows a counterpart matching the part according to FIG. 1 in a perspective view; and

FIGS. 3a and b a plurality of sections or schematic views of the embodiment shown in Figs. 1 and 2 according to.

In the figures, the same or at least functionally identical components are the same Reference numerals named, but in each additional embodiment, the respective assigned reference number is increased by 100.

Device 100 according to the invention is shown in FIG. 1.

The device 100 according to the invention has an outer sound-absorbing layer, which surrounds all areas of the device 100 according to the invention where a sound-transmitting contact to the floor structure and in particular a screed layer can occur. Accordingly, the bottom region of the device 100 according to the invention can be designed without a sound-absorbing layer. It would of course be safer if the floor area were also shielded by the sound-absorbing layer 112 ( FIG. 2).

The device 100 has a housing 114 which is surrounded by the sound-absorbing layer 112 .

Openings 116 , 118 are provided at the ends of device 100 .

The sound-absorbing material of the layer 112 can advantageously consist of an integral foam which is compressed towards the outside in such a way that the outer surfaces of the device according to the invention form a smooth outer layer. The devices according to the invention and thus also the lines or their cladding can be fastened via the fastening device or an engaging mounting plate to a building, for example a raw concrete ceiling, in order to prevent the devices 100 according to the invention from being displaced during construction measures , or the lines are moved or bent together with the devices 100 .

As can be seen from FIG. 2, the sound-absorbing layer 112 is pulled down to the bottom of the housing 114 so that no screed slumps resulting in sound bridges can occur.

In Fig. 2 it is indicated that the housing follows in principle the outer shape, which is predetermined by the sound-absorbing layer 112 , without a guide contour having been set up, by means of which, for example, a rigid tube can be guided around the corner. However, a corresponding guide contour can also be arranged here.

Fig. 1 shows one half of the embodiment 100 of the present invention. This can be designed, for example, as a T-piece with an outlet 118 and two closed openings 116 a, 116 b. However, two openings can additionally be provided on the walls offset from openings 116 a, 116 b by 90 degrees.

The openings 116 a, 116 b are each sealed by closures 117 . The closures Ver 117 are connected via a line of weakness 119 to the adjacent walls of the housing 114 .

Latching elements and / or sealing elements can be provided along the connecting lines 103 a, 103 b (see FIG. 2), around the halves 101 a, 101 b (see FIG. 2) around a line branch, around a line knee or a line bend or the like to be able to lay around.

The second part 101 b according to FIG. 2 can be sealingly connected to the first part 101 a (see FIG. 1). It is also possible to join the two halves 101 a, 101 b together using an adhesive.

The closure parts 116 a, 116 b can be broken out before or after joining the two halves 101 a, 101 b. If the device 100 according to the invention is to be placed around a line area, the desired openings should be removed from them before the halves 101 a, 101 b are joined together. The schematically illustrated embodiment 100 can of course be provided at its openings with fixing devices or sealing devices, for example in the form of sealing lips or the like. Fastening devices can also be provided in the bottom area of the guide form 100 .

The embodiment 100 can also have housing parts and sound-absorbing layers molded thereon or mounted thereon. On the other hand, it is particularly advantageous if the entire device 100 is produced from a sound-absorbing material, for example a polyurethane or a polyethylene foam or integral foam. The channel leading to the opening 118 should then be designed in such a way that, if possible, it surrounds a specific outer pipe diameter so that it can simultaneously serve as a seal. Accordingly, it is advantageous if the exposed openings 116 a, 116 b are simultaneously formed so that they can enclose a cladding tube arranged around the pipe laid in the ground with screed-tight edges.

It is of course also possible to form the openings 116 a, 116 b with a plurality of weakening lines with a different radius in order to use one of a plurality of weakening lines and to expose an opening of a predetermined size, depending on the need and the diameter of the pipe to be passed through or the cladding pipe to be connected.

Accordingly, the inside diameter of the line leading to the opening 118 can also be conical, so that even pipes with a small outside diameter can be sealed at least in certain areas. The leg of the device 100 protruding from the screed can also be cut to length, if necessary, in order to enable the use of a length (not shown) which is fixed in its dimensions, for example despite an excess length which is intended to fit different types of floor structure with different screed thicknesses.

In FIG. 3, an embodiment is shown, which could be used as a junction piece with a Heizkörperabzweigung both as elbow, a T-piece, as well. This embodiment 200 is basically designed in the same way as the embodiment 100 according to FIGS. 1 and 2. However, openings 216 a, 216 b, 216 c and 216 d provided with closures 217 are provided on each of the side walls here. The weakening lines 219 are graduated in order to ensure better accessibility.

Reference list

100 first embodiment
101 a first housing part
101 b second housing part
103 a connecting lines
103 b connecting lines
112 soundproofing layer
114 housing
116 a closed opening
116 b closed opening
117 closures
118 exit
119 line of weakness
200 second embodiment
212 soundproofing layer
212 a soundproofing layer
214 housing
216 a closed openings
216 b closed openings
216 c closed openings
216 d closed openings
217 closures
218 exit
219 line of weakness

Claims (12)

1. Device for sound insulation in heating, sanitary or other lines, consisting of:

• - a housing ( 14 , 114 , 214 ) with at least one sound-absorbing layer ( 12 , 112 , 212 ) continuous in the longitudinal direction of the housing ( 14 , 114 , 214 ),
• - The housing comprises more than two openings ( 116 a, 116 b; 216 a, 216 b, 216 c, 216 d), which can only be accessed via lines of weakness ( 119 , 219 ), perforations or the like.

2. Device according to claim 1, characterized in that the building contact side (s) of the housing ( 114 , 214 ) has a sound-absorbing or insulating layer ( 112 , 212 ). 3. Device according to one of claims 1 or 2, characterized in that the housing ( 114 , 214 ) is formed directly from a sound-absorbing or -insulating material ( 112 , 212 ). 4. Device according to one of claims 1 to 3, characterized in that the housing ( 114 , 214 ) has a plurality of input openings ( 116 a, 116 b; 216 a, 216 b, 216 c, 216 d), of which preferably at least some are closed. 5. The device according to claim 4, characterized in that at least some of the plurality of input or output openings ( 116 a, 116 b; 216 a, 216 b, 216 c, 216 d) can be closed with screw or plug closures or the like . 6. Device according to one of claims 1 to 5, characterized in that the housing ( 114 , 214 ) at its openings ( 16 , 116 a, 116 b; 216 a, 216 b, 216 c, 216 d) is provided with fastening devices to define pipes and / or their cladding. 7. Device according to one of claims 1 to 6, characterized in that the housing is designed as a T- ( 100 ) or double T-piece ( 200 ), and the central branch as the projecting from the building material section with an output or input opening ( 118 , 218 ) is optionally formed with an angle piece or an arc. 8. Device according to one of claims 1 to 7, characterized in that a mounting device is provided on at least one side of the housing ( 114 , 214 ). 9. Device according to one of claims 1 to 8, characterized in that the Housing preferably on its protruding from the building material after assembly Section with a line sealing against the line led through the opening Rejuvenation is formed. 10. Device according to one of claims 1 to 9, characterized in that a sealing lip-like device is formed on the portion protruding from the building material after assembly, which has the opening ( 118 , 218 ) through which the line is passed. 11. Device according to one of claims 1 to 10, characterized in that the device ( 100 , 200 ) has at least two symmetrical or asymmetrical parts from which the device can be assembled. 12. The apparatus according to claim 11, characterized in that along the symme trical or asymmetrical parts locking elements are provided, via which the parts ver are binding.