CH666508A5 - ACOUSTIC SEALING OF JOINTS BETWEEN SOUND-INSULATING DOUBLE-SHELLED HOLLOW WALL PANELS. - Google Patents

Description

DESCRIPTION

The invention relates to an acoustic seal of joints between sound-absorbing double-shell hollow wall panels with a plate connection designed in the form of a tongue and groove connection.

If the tongue and groove connections are made from resistant, solid material as usual, they act as a sound bridge, by means of which the sound-absorbing effect of the cavity wall plate having an intermediate cavity is rendered ineffective.

There have also been proposed sound-absorbing double-walled hollow wall panels, the two outer shells of which enclosing an intermediate cavity are connected by means of a soft-resilient intermediate layer arranged in this intermediate cavity or also by means of soft-resilient strips arranged on the edge regions of the intermediate cavity and flush with the end faces of the shells.

Such a proposed arrangement, however, has the disadvantage that when building the cavity wall panel with the help of grout or with an adhesive there is a risk that improper and careless execution of the work due to the urge usual on construction sites to quickly complete the work on the building often present adverse weather conditions of these mortars or adhesives can pass from each of the shells along the strips flush with the end faces of the shells to the middle of the plate, so that a sound bridge bridging the intermediate cavity is formed, which largely abolishes the sound-absorbing effect of the double-shelled hollow plate .

The invention has for its object to overcome these disadvantages and such an acoustic seal

To create joints between sound-insulating double-walled cavity wall panels, which is suitable to prevent the formation of sound bridges between the shells both by a passage of mortar from mortar joints and by spaced parts of the springs arranged between the shells, so that the sound-insulating effect the cavity wall panels are not affected.

The object is achieved by the features specified in the characterizing part of claim 1 and by the features specified in the characterizing parts of claims 2 to 6.

According to the invention, there is the advantage that the sound-absorbing effect of the double-walled cavity wall panels cannot be adversely affected either by the formation of sound bridges by joint mortar entering the intermediate cavity or by the formation of sound bridges by parts located between the shells, and that the two outer shells of the cavity wall panels simple, the sound-absorbing effect way can be connected to each other to form a cavity wall.

In the drawing, several embodiments of the subject of the invention are shown. It shows:

1 shows an end face joint of two cavity wall panels designed according to the prior art in section;

2 shows the arrangement according to the invention of the face joint of two cavity wall panels in section;

3 shows a section through the double-shell hollow wall panel with the strip-shaped spring inserted into it in accordance with a first embodiment;

4 shows a section through the double-shell hollow wall panel with the stiff spring inserted into it according to another embodiment;

5 shows a section through the double-shell hollow wall panel with the strip-shaped spring inserted into it in accordance with a further exemplary embodiment;

6 shows a section through the double-shelled hollow wall panel with the strip-shaped spring inserted into it in accordance with a further exemplary embodiment;

7 shows the face joint of two double-shell hollow wall panels in section, the upper adjacent double-shell hollow wall panel being indicated in dashed lines;

Figure 8 shows the double-shell hollow wall panel with springs made already soft during the manufacture of the panel, which simultaneously represent the connection of the two shells, in section.

Fig. 9, the double-walled cavity wall panel with protruding arranged on two sides and rearwardly arranged on two sides according to FIG. 8, in plan view.

In the case of double-shell hollow wall panels known according to the prior art (FIG. 1), the two shells 1, 2 of the one hollow wall panel or the two shells 1 ', 2' of the adjacent hollow wall panel are connected to one another by means of themselves along the edge regions of the intermediate cavity of the double-shell hollow wall panel extending and connected with their side edges flush with the front edges of the shells soft spring strips 3.

Such a known design has the disadvantage that when building the cavity wall with the aid of grout 4 there is a risk that this grout 4 can pass from each of the shells along the strips 3 flush with the end faces of the shells to the middle of the plate, so that thereby forming a sound bridge 5 bridging the intermediate cavity, which largely cancels out the sound-absorbing effect of the double-shell hollow wall panel.

According to the invention, for sealing the mortar joints, end connections between sound-absorbing double

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shell-shaped cavity wall panels uses a known tongue and groove connection, which acts as a seal and prevents the grout or adhesive from the mortar joints between the shells 1 and 1 'or 2 and 2' entering the intermediate cavity and thus a Sound bridge can form (Fig. 2).

The tongue-and-groove connection is formed according to the invention in that all around the hollow wall panels in the intermediate cavity of the latter arranged inwardly from the end faces of the shells and thus forming a groove with the shells 1, 2 or 1 ', 2' the entire length of the edges of the shells extending strips 3 made of soft spring material are arranged, which are connected to the shells 1, 2 or 1 ', 2'. A strip-shaped tongue 6 is then inserted into the groove of each of the double-shell hollow wall panels thus formed, which represents a mechanical obstacle to the passage of mortar to the intermediate cavity and prevents grout or adhesive between the shells 1, 2 and 1 '. , 2 'can form a sound bridge.

The spring 6 is made of soft, resilient solid material, such as bonded material fibers, which itself does not allow any noteworthy vibration transmission and therefore cannot form a sound bridge itself.

The strips 7 (FIG. 4) which form a spring and which are to be introduced into the grooves formed when laying the sound-absorbing double-walled hollow wall panels can also consist of a solid material, such as, for example, of soft-resilient foam. _

The springs can also consist of a relatively stiff material, which is only made soft by means of joints. The springs 8 can be made of hard foam and have a soft suspension which is brought about by shaping with an approximately U-shaped cross-sectional shape. The springs 8 are made of a solid material, such as foam, with an initially oval cross-sectional shape by forming a sack-like slot 10 in the longitudinal center thereof, so that a U-shaped cross-sectional shape causing a soft suspension is thereby formed.

666 508

The springs 9 can also consist of a relatively stiff material, such as a profiled plastic film, and have a soft suspension caused by a tubular oval cross-sectional hollow shape (FIG. 6). The grooves and tongues can also be formed when using non-groove cavity wall panels in that on the end faces of the cavity wall panels as springs, made of deformed plastic film, profiled plastic strips 11 and as grooves, in the form of grooves, profiled plastic strips 12 are used in the form of hollow bodies with a spring-like projecting cross-sectional shape.

When an adjacent hollow wall panel having the shells 1 ', 2' is attached, on which plastic strips 12 formed in the shape of a groove are inserted on the corresponding end face, the two plastic strips 11 and 12 touch each other before the grout 4 is pressed towards the center of the hollow wall panel can be. Such a seal prevents mortar from entering the intermediate cavity and thus the formation of sound bridges.

The on-site insertion of the springs 6, 7, 8, 9 and 11 designed according to FIGS. 1 to 7 requires a certain amount of additional work. This can be avoided by attaching the springs to the hollow wall panels during the manufacture (FIG. 8).

Here, U-shaped springs 13 are used, which consist of hard foam, which produces a sufficiently firm and at the same time a sufficiently resilient connection between the shells 1 and 2.

The springs 13 are, as can be seen from FIG. 9, projecting on two sides of the plate and arranged on the other two sides, whereby a groove 15 is formed on two sides. In this way, the connection of the shells and protection against sound bridge formation at the edges of the plates is achieved in a simple manner by one and the same measure.

Feathers 8 according to FIG. 5 or tongues 11 according to FIG. 7 can also be used in the side 14 forming a groove.

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1 sheet of drawings

Claims (6)

666 508 1. Acoustic sealing of joints between sound-absorbing double-walled cavity wall panels with a tongue and groove jointed panel connection, characterized in that the springs are soft, with a dynamic stiffness of 20 MN / m3. 2. Acoustic seal according to claim 1, characterized in that the springs made of a soft spring material, such as consist of bound mineral fibers (6) or soft spring foam (7). 2nd PATENT CLAIMS 3. Acoustic seal according to claim 1, characterized in that the springs (8) made of a rigid material e.g. consist of hard foam and have a soft suspension caused by shaping with an approximately U-shaped cross-sectional shape. 4. Acoustic seal according to claim 1, characterized in that the springs (9) made of a rigid material e.g. consist of plastic film and have a soft suspension caused by a tubular oval cross-sectional shape. 5. Acoustic seal according to claim 1, characterized in that both the grooved profiles (12) and the springs (11) consist of profiled plastic film, which forms a groove-shaped recessed or spring-like cross-sectional shape having a hollow body. 6. Acoustic seal according to one of claims 1, 3 and 4, characterized in that the springs made flexible by shaping simultaneously represent the connection of the two shells of the hollow wall plate.