DE19636983A1 - Stand element for construction of lightweight dividing wall - Google Patents

Abstract

The stand element in which the outer part sections (2.1,2.2) are so joined to the inner part section (3) at a number of different points that a leaf spring type of joint is formed between the part sections. The part sections are spaced apart by dowels (1.1-1.3) such that the part sections do not touch each other, with the thrust forces in the longitudinal direction and the tensile and compression forces being transmitted at right angles to the dividing wall.

Description

Technical field

The invention relates to a stand element for the creation of lightweight partition walls the one, which consists of at least three sub-elements arranged side by side.  

State of the art

Multi-layered lightweight wooden partitions are usually made up of one Edge wood on floor and ceiling, studs at a distance of 50 or 62.5 cm, planking on both sides made of wood-based panels or plasterboard and a cavity insulation together.

A heat and sound insulating multi-layer wall made of prefabricated elements is z. B. also known from DE 27 30 717 A1. Here are z. B. two or three wood shell ge through connectors at a predetermined mutual distance hold. The connectors consist of two or three by transverse elements in the Slats kept at a distance, which are inserted into the front grooves of the wooden shells will.

However, the known partition walls are not capable of sound insulation to satisfy.

Presentation of the invention

The object of the invention is to provide a stand element of the type mentioned give that to the manufacture of lightweight partitions with good sound insulation suitable properties.

The solution to the problem is defined by the features of claim 1. According to of the invention, the at least three sub-elements are such by connecting means point-to-point connection with one another, that overall a leaf spring-like connection is formed between the sub-elements.

The wall plates or shells attached to the outer partial elements are thus not stiff, but springy, which makes it much higher Soundproofing can be achieved.  

Connection means provided at the connection points are designed such that the sub-elements are not only kept at a constant distance, but that at the same time the thrust forces in the longitudinal direction and the tensile and compressive forces at right angles be transferred to the partition wall level.

The connecting means are preferably short pegs or dowels made of hardwood, which in attached a regular grid over the length of the stand element are. The distance between adjacent sub-elements is relatively small (e.g. some Millimeters to a few centimeters). In principle, instead of cones Screws or spacers (wood discs or plates) can be provided.

The sub-elements are e.g. B. as wooden slats or beams with a rectangular cross-section educated. In order to implement the leaf spring connection according to the invention the neighboring sub-elements at regular intervals with bolts (such as described above) connected in pairs, taking care that a inner sub-element the point connections on the one hand (eg "left") outer Sub-element in the direction of the longitudinal axis of the stator element are ge compared to those to the other (e.g. "right") outer sub-element. I.e. it a kind of accordion structure is created. In particular, there are no continuous ones Connections between the outermost sub-elements.

The sub-elements can be made the same or different. Preferably ha ben the two outer elements the same dimensions (in particular the same cross section). The interior element (s) can e.g. B. be larger in cross-section (in particular the same width but thicker) than that outside. It is therefore easily possible to determine the stability or static loading adapt resilience to the respective needs (resilience, wall thickness).

For the installation of cables routed inside the lightweight partition the stand element has recesses (bores, openings). This through place the sub-elements perpendicular to the direction of the connecting bolts. You can in  be arranged at regular intervals so that in any case during assembly the shortest possible routing is possible. The recesses are made with pre part on the inner part element (centered or off-center with respect to the longitudinal axis) intended.

To produce a lightweight partition, several invention are first moderate stand elements with the help of floor and ceiling slats to a support or Support structure built. Then wall panels are placed on both sides of the Stand elements nailed, the latter completely in the space between the opposing wall shells are included. The difference The stand elements therefore anticipate the prior art mentioned at the beginning preferably not in the front grooves of the wall panels.

Optimal suppression of sound propagation naturally results when for the construction of the support structure only stand pillar according to the invention elements are used, and if there is no continuous wall at any point there is a rigid connection between the wall panels.

In order to connect two abutting stand elements, e.g. B. Verbin used in the slots between the spaced sub-elements fit. The connection plate can, for. B. with Brackets can be fixed. It is important to ensure that by connecting the Stand elements do not locally save the spring action between the sub-elements Force is set.

A lightweight partition according to the invention is preferably with a sound insulating material (e.g. with felt strips) opposite the floor, wall and ceiling liert.

From the following detailed description and the entirety of the claims there are further advantageous embodiments and combinations of features of the Invention.

Brief description of the drawings

The drawings used to explain the exemplary embodiment show:

Fig. 1 is an axonometric view of a composite stand element according to the invention;

FIG. 2 shows a side view of a stand element from FIG. 1;

Fig. 3 is a longitudinal section along the line AA of Fig. 2;

FIG. 4 shows a cross section along the line BB from FIG. 2;

Figure 5a is a side view of a stator element with a lateral recess.

Figure 5b is a side view of a stator element with a central recess.

Fig. 6 is an axonometric view of the link element;

Fig. 7 is an axonometric view of a partition formed from composite stand elements according to the Invention, supplemented with springs, the underlay strip, cavity damping and planking.

In principle, the same parts are provided with the same reference symbols in the figures.

Ways of Carrying Out the Invention

Figs. 1 to 3 show a section of an inventive Ständerele ment. In the present case, this essentially consists of two outer and one inner sub-element 2.1 , 2.2 and 3 , which are held at a small mutual distance by several dowels 1.1 to 1.3 (cf. slots 4.1 , 4.2 ). That is, the partial elements 2.1 , 2.2.3 form a layered or sandwich-like structure.

As can be seen in particular from FIG. 2, the dowels 1.1 , 1.3 between the sub-elements 3 and 2.2 are offset in the longitudinal axis direction of the stand element with respect to the dowels 1.2 etc. between the sub-elements 2.1 and 3 . Advantageously, the one dowel 1.2 etc. is placed in the middle of the distance between the dowels 1.1 , 1.3 . When the stand element is loaded in the direction of the dowels, the middle sub-element 3 can deform in the longitudinal direction of the axis, so that structure-borne sound waves can be caught.

As can be seen from Fig. 4, the connecting means of the individual Teilele elements consist of round, glued holes in hardwood dowels, which transmit the thrust forces generated on bending. It can also be seen that the middle part element 3 a z. B. 2 to 3 times larger cross section than the outer ( 2.1 , 2.2 ). The dowels 1.1 to 1.3 each pass through the corresponding sub-elements 2.1 and 3 or 3 and 2.2 perpendicular to their longitudinal axis of the stand element.

From FIGS. 5a and 5b it can be seen that z. B. in the middle part 3 in the middle ( Fig. 5a) or laterally ( Fig. 5b) recesses 5 a, 5 b can be provided, which allow the pulling of installation lines 6 into the wall. The recesses 5 a, 5 b pass through the said partial element 3 perpendicular to the direction of the dowels 1.1 to 1.3 (and perpendicular to the longitudinal axis).

Fig. 6 shows how two abutting stator elements 13 and 14 or 14 and 15 can be connected together by plates 11.1 and 11.2. Accordingly, the plate 11.1 or 11.2, which is adapted in terms of its thickness, is inserted into one of the two slots 4.3 or 4.5 of a stand element 15 and z. B. fixed with a bracket 12.1 , after which the stand element 13 or 15 thus prepared is inserted into the slot 4.4 of the second stand element 14 laid on the floor, who can.

Finally, FIG. 7 shows a section of a lightweight partition wall according to the invention. The stand member 14 mounted on the floor is e.g. B. isolated by a separating strip 8 made of felt. For the aforementioned assembly holes 9 can be provided in the middle sub-element at suitable intervals. (These place the stand element perpendicular to the longitudinal axis and parallel to the slots.) The wall plates 10.1 , 10.2 are fixed on the outer main surfaces. The space between the wall panels 10.1 , 10.2 is filled with a suitable cavity insulation 7 .

In terms of statics, this stand element acts like two Vendeel beams placed on top of each other with offset bending posts, in which the lower flange of the upper beam at the same time is identical to the top chord of the lower beam. The extremely short bending posts absorb and transfer the load to be transferred via the embankment pressure via embrasure pressure again. The fact that this is extraordinary small cross-sections of a material are extremely flexible, that the bending posts transmit the shear forces with extreme rigidity. With that a further reduction in the overall bending stiffness can be prevented.

When considering the strength, the stand element must not be considered in isolation, since the cladding with wall panels 10.1 , 10.2 plays an extremely important role here. Nevertheless, a quality assurance must be installed in the manufacture of these stand elements. A strength test must be carried out either at the beginning or at the end of production. The normal occurrence of branches of different sizes with diameters up to the entire cross-sectional width must be taken into account; preferably by an automatic finger jointing system, which automatically cuts out branches of a certain size and reassembles the profile. This method is also suitable for processing by-products of the wood industry in order to achieve added value here again. The cross sections can be produced from individual planed profiles as well as from a full profile separated during the manufacturing process. It is important that the wood used has the usual moisture values; ie about 8-12%. The wood quality used should not fall below certain values. For example, there should be no Buch (reaction wood) zones in the outer sub-element, as these will deform. There should also be no different levels of moisture, as these can provoke deformations. The relatively small cross-sections mean that fluctuations in moisture can also affect the wood. However, this has no drastic influence on the quality of the building, since the greatest deformations occur radially and tangentially, but not along the wood cross-section.

All panel-shaped building materials, including woodwork, are suitable as cladding fabrics as well as gypsum building boards, cement-bound building boards, calcium silicate boards etc. The plates can also be varied according to the purpose. For good sound insulation, a plate that is as heavy as possible, for example a plasterboard be used. Gypsum fiber or cement-based are suitable as plaster bases wood wool panels. As a carrier for ceramic plates, for example, Cal ciumsilicate boards, gypsum fibreboards or hydrophobized gypsum board will. Building materials containing gypsum must also be removed in direct contact with water be sealed. Gypsum fiber boards or special ones are suitable for fire protection purposes Fire protection panels. Wood-based panels are the basis for paints and tapes possible, but are becoming increasingly rare today due to the formaldehyde content used.

A partition with the assembled stand element according to the invention is constructed as follows:
Separating strips 8 made of felt, mineral fiber or wood soft fiber are laid on the floor, walls and ceiling or sloping roof and lightly tacked on. They separate the assembled stand element from the other components and thus interrupt the longitudinal sound conduction. Then the edge slats, consisting of the composite stand elements according to the invention, are mounted. The assembly can be done by screwing, gluing with the double-sided adhesive strip, dowels or weft attachment.

Between the floor and ceiling edge slats, the vertical composite stand elements according to the invention are assembled in a certain grid, based on the commercially available plate formats. For this purpose, small wooden plates 11.1 , 11.2 are used, which are inserted into the gaps ( 4.3 to 4.5 ) of the sub-elements and are easily attached (see brackets 12.1 , 12.2 ). Only one plate should be used per connection so that the spring effect is retained. At the same time, it must be ensured that there is a distance between the stand element and the ceiling, which can absorb the deflection of the ceiling. The planking is now attached to one side of the grate created in this way. Screws, nails or, preferably, clips are suitable for this, which can be moved with nail guns. The planking may only be attached to the vertical stand elements so that the floor and ceiling can deform without causing constraints. The fasteners must have corrosion protection to prevent stains on the finished wall. Special attention should also be paid to joint formation, which the panel manufacturer has specified. If desired, a cavity insulation 7 can now be used on the still open side of the partition. Mats or plates made of mineral fibers, wood fibers, cellulose fibers etc. are suitable for this. Openings must be tightly enclosed. Before the second cladding side is closed, installation lines 6 can be laid through the cutouts 5 a, 5 b in the assembled stand elements according to the invention. Then the second planking, like the first, is attached to the vertical stand elements. As with other constructions, the surface treatment is carried out according to the rules of architecture, or according to the specifications of the panel manufacturers.

Of course, the invention is not limited to the embodiment described example. In particular, instead of three, four or more sub-elements can also be used be applied. It is also not necessary that the connection points on a  straight line. You can look at each other in any suitable way facing longitudinal sides of the sub-elements can be distributed.

In summary it can be stated that with the stand pillar according to the invention the wooden shells of a multi-layer, non-load-bearing wall construction resilient, but still kept exactly at a continuous distance. In order to noise protection can be significantly improved.

Reference list

1.1-1.3 dowels
2.1 , 2.2 sub-element
3 sub-element
4.1-4.5 slot
5 a, 5 b recess
6 Installation guide
7 cavity insulation
8 dividing strips
9 holes
10.1 , 10.2 wall plate
11.1 , 11.2 platelets
12.1 , 12.2 brackets
13 , 14 , 15 stand element

Claims (8)

1. Stand element for the creation of lightweight partitions, which consists of at least three juxtaposed partial elements ( 2.1 , 2.2.3 ), characterized in that the outer partial elements ( 2.1 , 2.2 ) point by point with an inner partial element ( 3 ) are connected so that overall a leaf spring-like connection between the sub-elements ( 2.1 , 2.2.3 ) is formed. 2. Stand element according to claim 1, characterized in that the Teilele elements ( 2.1 , 2.2 , 3 ) are held by connecting means ( 1.1 to 1.3 ) in such a way at a continuous distance that the sub-elements ( 2.1 , 2.2.3 ) do not touch and that thrust forces in the longitudinal direction and the tensile and compressive forces are transmitted at right angles to the plane of the partition wall. 3. Stand element according to claim 1 or 2, characterized in that the Ver binding means ( 1.1 to 1.3 ) between the sub-elements ( 2.1 , 2.2.3 ) are attached in a regular grid. 4. Stand element according to one of claims 1 to 3, characterized in that the connecting means ( 1.1 to 1.3 ) between the sub-elements ( 2.1 , 2.2.3 ) alternately on both sides of the central sub- element ( 3 ) with the outer sub-elements ( 2.1 , 2.2.3 ) so that there is no continuous connection at any point. 5. Stand element according to one of claims 1 to 4, characterized in that the outer sub-elements ( 2.1 , 2.2 ) each have the same thickness and all three sub-elements ( 2 , 3 ) have the same width. 6. Stand element according to one of claims 1 to 6, characterized in that for the installation guide ( 6 ) recesses laterally ( 5 a) or in the middle ( 5 b) in the central part element ( 3 ) are arranged at a regular distance. 7. Lightweight partition, in which at least two wall panels ( 10.1 , 10.2 ) are connected at a distance by at least one stand element ( 13, 14 ) according to one of claims 1 to 7, so that the thrust forces in the longitudinal direction and the tensile and compressive forces be transferred at right angles to the partition wall level. 8. Lightweight partition according to claim 7, characterized in that the United connection of two stand elements ( 13,14 ) through in the space ( 4.1 , 4.2 ) between the sub-elements inserted plates ( 11.1,11.2 ) with brackets ( 12.1 , 12.2 ) are attached, is manufactured.