DE102008028508A1 - Installation wall has wall construction, which partially limits cavity, media line, which is arranged in cavity, and mineral filling compound - Google Patents

Abstract

The installation wall has a wall construction (10), which partially limits a cavity (13), a media line (9), which is arranged in the cavity, and a mineral filling compound (15), which is arranged in the cavity and which partially encompasses a media line. The filling compound has a light filler granulate material (17) bonded with a binding agent (16). The light filler granulate material is a foam glass granulate material. An independent claim is included for a method for manufacturing an installation wall.

Description

The The invention relates to an installation wall according to the The preamble of claim 1. Furthermore, the invention relates to a method for producing an installation wall according to claim 10th

installation walls in dry construction are opposite installation walls significantly cheaper in traditional solid construction. However, installation walls are faced with drywall construction the solid construction significant disadvantages in the static, fire protection and the isolation.

From the DE 200 07 863 U1 is known an installation wall made of plasterboard. In a cavity formed by the plasterboard, run a variety of media lines, such as drain lines, hot and cold water pipes, heating pipes, electric cables and ventilation ducts. For thermal insulation, the cavity is filled with a mineral insulating material. As a mineral insulating mineral or basalt wool and a mineral fine granules, preferably expanded clay or intumescent, used. The insulating material is blown through blow holes in the cavity of the installation wall. The building physics properties in terms of static, fire protection, sound insulation and insulation of such installation wall are still unsatisfactory.

Furthermore, from the DE 100 52 255 A1 an installation wall known, the cavity is blown completely and evenly with a compressible, einblasfähigen mineral insulation, so that the insulation in the cavity reaches a density of greater than 70 kg / m ³ and less than 150 kg / m ³ .

Of the Invention is therefore the object of a simple installation wall to create good building physics properties.

These The object is achieved by an installation wall having the features of claim 1. According to the invention recognized that in an installation wall in simple dry construction through a filling compound, the one with a binder has bound light filler granules, good building physics Properties are achievable. In particular, is bound by the Leichtfüllstoffgranulat a good statics achievable. When For example, light filler granules are suitable Expanded glass granules, a expanded clay granules or a Blähschiefergranulat. The light filler granules is also heat-insulating, sound-absorbing and non-flammable, so that the filler mass also good fire and Soundproofing properties and good insulation properties. The filling compound is particularly suitable for backfilling of recesses in floors and ceilings. The simple and Cost-effective construction of an installation wall in dry construction remains. Preferably, the wall construction comprises a frame underframe and on this arranged construction panels. Such a wall construction has proven itself in practice. The cavity is preferably completely filled with the filling compound, so that the media lines completely with the filling compound are surrounded. In particular, the media lines without An additional stabilization can be created as this is through supported the curing of the filler and stabilized. The construction of the installation wall is thus by the filling material according to the invention Simplified, while the statics of the installation wall is improved.

By the filling compound according to the invention has the installation wall has both good properties in terms of Statics as well as good thermal insulation properties, of sound and fire protection. Accordingly, the individual components of the installation wall, in particular the media lines, no longer separately to the required building physics Properties to be adjusted. The installation wall can be freestanding or be designed as a pretext.

One Leichtfüllstoffgranulat according to claim 2 allows the production of a filling compound with good building physics Properties. A filling compound with a expanded glass granulate has proven itself in practice.

One Light filler granules according to claim 3 gives a homogeneous Filling compound with correspondingly homogeneous building physics Properties.

One Light filler granules according to claim 4 allows a targeted Influencing the physical properties of the installation wall.

One Lightweight filler granules according to claim 5 and / or claim 6 has proven itself in practice.

A binder according to claim 7 is inexpensive and allows good structural properties of the installation wall. Cement or a two-component binder consisting of a solid component and a liquid component can be used as the mineral binder. The cement can be mixed with water to form a suspension, with a minimal amount of water allowing for rapid setting of the filling compound and preventing excessive moisture absorption of the wall construction. The solid component of the two-component binder is, for example, aluminosilicate. The liquid component of the two-component binder is exemplified example, an alkali metal silicate solution with / without processing aids. In addition, a small amount of water can be added to the liquid component.

A Filling compound according to claim 8 leads to a good Statics.

A Filling compound according to claim 9 dries quickly.

Of the Invention is also the object of a method for manufacturing an installation wall with a simple structure and good building physics To create properties.

These The object is achieved by a method having the features of the claim 10 solved. The advantages of the invention Method correspond to the already described advantages of the invention Installation wall. The installation wall can either on the intended Place, so on the site, be prepared or prefabricated and only be mounted on the construction site. Furthermore, can first a provisional wall construction are created, after solidifying the fill mass by a final Wall construction is replaced, or immediately a final wall construction to be created.

A Training according to claim 11 allows a fast Making the installation wall.

A Training according to claim 12 allows in a simple Make a complete filling of the cavity. Both flammable and non-combustible building boards can be used be used, since already the United filling mass required Having fire protection properties. As construction panels can For example, plasterboard, fiberboard, foam boards or wood panels are used.

A Training according to claims 13 to 15 has become in proven in practice.

Further Features and advantages of the invention will become apparent from the description an embodiment of the drawing. Show it:

1 a schematic representation of a residential arrangement with an installation wall,

2 a vertical longitudinal section through the installation wall in 1 along the section line II-II,

3 a vertical cross section through the installation wall in 1 along the section line III-III, and

4 an enlarged section IV of a filling mass of the installation wall according to 3 ,

A residential arrangement 1 has two adjoining residential units 2 on. The residential units 2 each have a living room 3 and a sanitary room 4 on. The sanitary rooms 4 are through an installation wall 5 separated from each other.

The installation wall 5 is freestanding between a floor 6 and a blanket 7 educated. The floor 6 and the ceiling 7 have several savings from 8th on, through which several media lines 9 are feasible. The media lines 9 are, for example, drain pipes, heating pipes, hot and cold water pipes and conduits designed as conduits for electrical and data transmission cables.

The installation wall 5 has a wall construction 10 on through a metallic frame base 11 and construction panels 12 , such as plasterboard, fiberboard, foam boards or wood panels formed. The construction panels 12 are in the vertical direction one above the other in several rows on the frame base frame 11 arranged. The construction panels 12 are impregnated.

The wall construction 10 essentially defines a cavity 13 through which the media lines 9 run. The media lines 9 go through the recesses 8th in the cavity 13 on or off this. In addition, in the building boards 12 breakthroughs 14 arranged through which the media lines 9 in the sanitary rooms 4 are feasible.

The cavity 13 as well as the recesses 8th are complete with a mineral filler 15 filled in, so the media lines 9 completely from the filling compound 15 are surrounded. The filling mass 15 indicates with a mineral binder 16 bound light filler granules 17 on and is trained Haufwerksporig. The light filler granules 17 is designed as expanded glass granules. Alternatively, the light filler granules 17 be designed as expanded clay granules or expanded slate granules. As a binder 16 serves cement, which is mixed with water to a suspension, wherein the proportion of water, so the moisture content is small. The binder 16 Additives can be added.

Alternatively, a two-component binder 16 can be used, which consists of a solid component, such as aluminosilicates, and a liquid component, for example, an alkali metal silicate solution. The binder 16 can Additives, such as processing aids, and / or water mixed.

The light filler granules 17 is substantially spherical and has a particle size D in the range of 0.1 mm to 16 mm, in particular from 0.5 mm to 8 mm, and in particular from 2 mm to 4 mm. In addition, the lightweight filler granules 17 a bulk density in the range of 100 kg / m ³ to 600 kg / m ³ , in particular from 130 kg / m ³ to 300 kg / m ³ , and in particular from 150 kg / m ³ to 230 kg / m ³ , and a grain density in Range of 200 kg / m ³ to 900 kg / m ³ , in particular from 250 kg / m ³ to 500 kg / m ³ , and in particular from 270 kg / m ³ to 350 kg / m ³ , on. Such a form of expanded glass granules light filler granules 17 is available, for example, under the brand name "Poraver".

The filling mass 15 has a bulk density in the range of 100 kg / m ³ to 1000 kg / m ³ , in particular from 200 kg / m ³ to 800 kg / m ³ , and in particular from 300 kg / m ³ to 600 kg / m ³ , on.

The following is the making of the installation wall 5 described. First, the media lines 9 and the frame base 11 created. The frame base 11 is on both sides next to the recesses 8th built and on the ground 6 and the ceiling 7 attached. The media lines 9 be through the recesses 8th and the frame base 11 guided and are - if necessary at all - attached to this. The recess 8th in the ground 6 is on one of the installation wall 5 turned off side so closed, that between the floor 6 and the media lines 9 no filling compound 15 can escape downwards.

Subsequently, a first series of construction panels 12 on both sides of the frame base 11 attached. Unless media lines 9 from the installation wall 5 are to be led out, the building boards 12 in the appropriate places with breakthroughs 14 Mistake. The between the building boards 12 resulting cavity 13 then with the filling compound 15 completely filled.

For this purpose, first the filling mass 15 from the binder 16 and the light filler granules 17 by means of a suitable mixing and conveying machine, such as a screed machine, mechanically mixed. The proportion of water, the cement formed as a cement 16 is mixed so low that the cement is just bindable. For filling the cavity 13 must have the filling mass 15 be flowable.

• – 45 kg bis 65 kg Leichtfüllstoffgranulat 17,
• – 15 kg bis 45 kg Zement, und
• – 5 kg bis 30 kg Wasser.

A recipe example for 100 kg of the filling compound 15 has the following components:

• - 45 kg to 65 kg light filler granules 17 .
• - 15 kg to 45 kg of cement, and
• - 5 kg to 30 kg of water.

• – 50 kg bis 70 kg Leichtfüllstoffgranulat 17,
• – 15 kg bis 25 kg Feststoffkomponente, beispielsweise Alumosilikate,
• – 5 kg bis 15 kg Flüssigkomponente, beispielsweise Alkalisilikatlösung, und
• – 0 kg bis 8 kg Wasser.

An alternative recipe example for 100 kg of the filling compound 15 with a binder formed as a two-component binder 16 has the following components:

• - 50 kg to 70 kg light filler granules 17 .
• 15 kg to 25 kg solid component, for example aluminosilicates,
• 5 kg to 15 kg of liquid component, for example alkali silicate solution, and
• - 0 kg to 8 kg of water.

By means of the mixing and conveying machine, the mixed filling compound 15 in the cavity 13 filled until completely filled and the media lines 9 completely from the filling compound 15 are surrounded.

Subsequently, a second row building boards 12 arranged above the first row, the resulting cavity 13 in the manner described with the filling compound 15 is filled. The filling can be done either through the recesses 8th in the ceiling 7 or through the ceiling in the building panels 12 arranged filling openings take place. The filling openings are closed after filling.

Alternatively, first all construction panels 12 on the frame base 11 be arranged and fixed so that subsequently the entire cavity 13 can be completely filled via cover-side filling openings. This leads to a simplification of the production process and thus to a time saving.

After filling, the filling material dries 15 out, with the binder 16 sets and the filling mass 15 solidified.

Alternatively, the installation wall 5 be designed as a pretext. The installation wall 5 can be manufactured on site or prefabricated and installed on site. Furthermore, first a provisional wall construction 10 are created after solidifying the filler mass 15 through a final wall construction 10 is replaced.

The installation wall 5 is due to the dry construction simple and inexpensive. Through the filling compound 15 has the installation wall 5 in particular a good statics and good fire protection, sound insulation and insulation properties. In particular, with the filling compound 15 also recesses 8th in the ground 6 and the ceiling 7 closed in compliance with the building physics requirements without additional effort the.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 20007863 U1 [0003]
• - DE 10052255 A1 [0004]

Claims (15)

Installation wall with - a wall construction ( 10 ), which has a cavity ( 13 ) is at least partially limited, - at least one media line ( 9 ), which are in the cavity ( 13 ), and - a mineral filling material ( 15 ), which are in the cavity ( 13 ) and the at least one media line ( 9 ) at least partially, characterized in that the filling material ( 15 ) with a binder ( 16 ) bound light filler granules ( 17 ) having. Installation wall according to claim 1, characterized in that the light filler granules ( 17 ) is a expanded glass granulate. Installation wall according to claim 1 or 2, characterized in that the light filler granules ( 17 ) is formed substantially spherical. Installation wall according to one of claims 1 to 3, characterized in that the light filler granules ( 17 ) has a particle size in the range of 0.1 mm to 16 mm, in particular from 0.5 mm to 8 mm, and in particular from 2 mm to 4 mm. Installation wall according to one of claims 1 to 4, characterized in that the light filler granules ( 17 ) has a bulk density in the range of 100 kg / m ³ to 600 kg / m ³ , in particular from 130 kg / m ³ to 300 kg / m ³ , and in particular from 150 kg / m ³ to 230 kg / m ³ . Installation wall according to one of claims 1 to 5, characterized in that the light filler granules ( 17 ) has a grain density in the range of 200 kg / m ³ to 900 kg / m ³ , in particular from 250 kg / m ³ to 500 kg / m ³ , and in particular from 270 kg / m ³ to 350 kg / m ³ . Installation wall according to one of claims 1 to 6, characterized in that the binder ( 16 ) is mineral. Installation wall according to one of claims 1 to 7, characterized in that the filling compound ( 15 ) has a bulk density in the range of 100 kg / m ³ to 1000 kg / m ³ , in particular from 200 kg / m ³ to 800 kg / m ³ , and in particular from 300 kg / m ³ to 600 kg / m ³ . Installation wall according to one of claims 1 to 8, characterized in that the filling compound ( 15 ) is formed henswerksporig. Method for producing an installation wall, comprising the steps: - creating a wall construction ( 10 ) and at least one media line ( 9 ), whereby - the wall construction ( 10 ) a cavity ( 13 ) at least partially limited, and - the at least one media line ( 9 ) in the cavity ( 13 ), - mixing a mineral filler ( 15 ) from a binder ( 16 ) and a light filler granulate ( 17 ), - filling the cavity ( 13 ) with the mixed filler ( 15 ) such that the at least one media line ( 9 ) at least partially surrounds, and - bonding the binder ( 16 ) such that the filling compound ( 15 ) in the cavity ( 13 ) solidified. A method according to claim 10, characterized in that the mixing of the filling material ( 15 ) and the filling of the cavity ( 13 ) is done by machine. A method according to claim 10 or 11, characterized in that for creating the wall construction ( 10 ) in several rows of construction panels ( 12 ) are arranged, wherein after arranging a row in each case a filling of the resulting cavity ( 13 ) with the filling compound ( 15 ) he follows. Method according to one of claims 10 to 12, characterized in that the mixing of the filling material ( 15 ) with a weight fraction of the light filler granulate ( 17 ) from 45 to 65%, in particular from 45% to 60%, and in particular from 45% to 55%. Method according to one of claims 10 to 13, characterized in that the mixing of the filling compound ( 15 ) with a weight fraction of the binder ( 16 ) from 15% to 45%, in particular from 20% to 40%, and in particular from 30% to 35%. Method according to one of claims 10 to 14, characterized in that the mixing of the filling material ( 15 ) with a weight proportion of water of 5% to 30%, in particular from 10% to 25%, and in particular from 15% to 20, takes place.