NO119761B - - Google Patents

Description

Joint sealing system for sealing joints

between building elements.

in

Sealing of joints "between building elements, for example facade elements made of concrete or brick; hardman has so far used many different constructions and working methods. Thus, in certain cases, joints have been sealed by injecting a sealant of a suitable synthetic rubber material, while in others cases have introduced suitably shaped, flexible metal strips which have been anchored to the building elements using a suitable binder,

for example in the form of an on-site thread of rubber-like sealant. A vacuum-deformed hose has even been inserted into vertical joints, whereby the seal was achieved with the help of the hose's own springing ability after the vacuum has been lifted.

It is also known to seal joints between facade elements with wood

to use sealing strips that are fixed in place using snap-

effect. With one of these known systems, horizontal joints between the building elements are sealed with the help of strips, which are undivided compared to vertical joints between the building elements, while the vertical joints are sealed with the help of strips that have the same extent in height as the building elements and which at their ends are close-fitting against the horizontal joints sealing strips.

The former known sealing systems are rather difficult to install and the latter known systems have the disadvantage that the ventilation behind the building elements is too small or completely missing. The purpose of the present invention is to arrive at a joint sealing system which is partly easy to install and partly, which is the most important thing, provides a certain amount of ventilation between the inside and outside of the building elements, while rainwater is prevented from penetrating behind the building elements. It has been shown that ventilation behind the building elements is necessary to prevent moisture outbreaks, paint peeling and other moisture-related effects. A further purpose of the invention is to achieve ventilation in a simple and cheap way in connection with the sealing of the joints, without requiring special ventilation devices.

The present invention thus relates to a joint sealing system for sealing joints between building elements, preferably facade elements, comprising sealing strips fixed using snap elements or in another way, where horizontal joints between the building elements are sealed using sealing strips, which are undivided in relation to vertical joints between the building elements and where the vertical joints between the building elements is sealed using sealing strips that generally have the same extent in height as the building elements that surround the vertical joint. The distinguishing feature of the system according to the invention is that the sealing strips that seal the vertical joints begin inside the horizontal joint's sealing strip above and end outside the horizontal joint's sealing strip below.

It is advantageous if the vertical joints in the joint sealing system are designed in such a way that the sealing strips of the vertical joints with their lower end extend slightly below the level of the lower horizontal joint and with their upper end extend upwards to a place close to the underside of the building element that is located above the upper horizontal joint.

The invention shall be described in more detail below

reference to the accompanying drawings, where:

Fig. 1 shows an embodiment of the invention and

schematically shows a section along a vertical joint between a number of building elements arranged one above the other.

Fig. 2 schematically shows a section through a horizontal joint

according to fig. 1.

Fig. 3 schematically shows a section through a vertical joint i

the design example according to fig. 1.

Fig. 4 shows a section through an alternatively designed horizontal joint.

Fig. 5 shows another embodiment of the invention

and schematically shows a vertical section through a horizontal joint under which the section is placed in the middle of a vertical joint.

Fig. 6 shows a section through an alternatively designed vertical joint.

In the embodiment of the invention shown in figures 1-3, horizontal joints 10 between two building elements 11 and 12 are sealed by means of a sealing strip 13 which is liquid-tightly attached to

the building element 11 lying below the joint 10 in that the sealing strip 13 is connected to a sealing element 14, which is inserted into the upper side of the building element 11, by means of a clamping action or adhesive action. The upper edge of the sealing strip 13 goes into a groove 15 which is formed in the underside of the building element 12 which is

itself over the joint 10. In order to give a fully approved sealing effect, the sealing strip 13 must not be pushed against any vertical joint.

As can be seen from fig. 3, vertical joints 16 between two building elements 11 and 17 are sealed by means of a sealing strip 19 which has snappert elements 20 at its longitudinal edge parts,

which engages with corresponding undercut grooves 21 in a sealing element 22 for each building element 11, 17. From fig. 1 shows that the vertical sealing strips have largely the same extent in height as the building elements 11 and 17 that surround the vertical joint 16, below which the sealing strip 19 extends inside the sealing strip 13 to the horizontal joint 10 which lies above the building elements 11 and 17 and ends outside the sealing strip to the horizontal joint which lies under building elements 11 and 17.

With the help of this joint sealing system, rainwater is practically completely prevented from penetrating inside the building elements, despite the fact that ventilation of the building elements' rear side is permitted, so that any condensation can disappear. The joint sealing system is easy to assemble since the horizontal sealing strips 13 are inserted into the sealing elements 14 on the upper side of the building elements by hand, while the snap elements 20 of the vertical sealing strips 19 are simply pressed into the undercut grooves 21 in the sealing elements 22.

In the embodiment according to fig. 1-3, it is also possible to seal the horizontal joints 10 by means of a sealing strip which, by means of a snap-on device, is liquid-tightly attached to the building element 11 which lies below the horizontal joint. In fig. 4 shows a possible design of such a sealing of the horizontal joints. On

the building element 11 which is located below the horizontal joint 10

is glued a sealing element 22 with an undercut groove 21. This sealing element is similar to the sealing element 22 for the vertical joints 16. The sealing strip 13 is in this case equipped with a side-protruding snap member 23 which is held in place by the sealing element 22 through a snap action. As before, the sealing strip 13 extends upwards in a groove 15 in the building element 12 which is located above the horizontal joint 10.

If desired, the liquid-tight connection between the components 13 and 14, respectively 20 and 22, respectively 22 and 23, can be made even more secure by coating the snap members 20 and 23, respectively, and/or the grooves in the sealing elements 14, respectively 22, with a suitable adhesive.

It is also possible to omit it in fig. 2 shown sealing element 14, under which the liquid-tight connection between the sealing strip 13 and the building element 11 is produced by the sealing strip 13 being inserted and optionally glued into a groove which is formed in the upper edge of the building element 11.

Even also in the embodiment according to fig. 5, the vertical joints 16 between two building elements 11 and 17 are sealed by means of a sealing strip 19 which, at its longitudinal edge parts, has a snappert element which engages with corresponding undercut grooves in a sealing element 22 on each building element 11, 17. As with the embodiment according to fig. 1, the vertical sealing strips 19 have approximately the same extent in height as the building elements 11 and 17 that surround the vertical joint 16, below which the sealing strip 19 extends inside the sealing strip 13 to the horizontal joint 10 that lies above

■building elements 11 and 17 and ends outside the sealing strip of the horizontal joint under building elements 11 and 17.

the shape according to fig. 5, the same type of sealing strip is used to seal both the vertical joints 16 and the horizontal joints 10 between the building elements. The sealing strips used in the embodiment according to fig. 5 differs from the sealing strips according to fig. 3, among other things, in that they have anchoring recesses 14 which are embedded in the associated concrete elements. The strips 22 are thus fixed in the concrete elements during their manufacture.

As with the embodiment according to fig. 1-3 is the joint sealing system according to fig. 5 easy to assemble as the horizontal and vertical sealing strips 13 and .19 with their snap elements 20 can be inserted by hand into the undercut grooves 21 of the sealing elements 22.

A particularly good seal is achieved if, as can be seen,

of fig. 5, allows the sealing strips 19 of the vertical joints with their lower end 19<1> to extend somewhat below the level of the lower horizontal joint and with their upper end 19'<1> to extend upwards to a place close to the underside of the building element which is located above the upper horizontal joint. With this arrangement of the vertical joint sealing strips, rainwater can be prevented from flowing in behind the sealing strips in the event of strong wind pressure. It has been shown that rainwater very rarely rises more than a few centimeters in the space between the sealing strips 19 and 13.

If desired, the liquid-tight connection between the components 20 and 21 can be made even more secure by coating the snap members 20 and 21 with a suitable adhesive before mounting the sealing strips 13, 19.

In fig. 6 shows an alternative design of the horizontal and/or vertical joint sealing strips. In this case, the sealing elements 22 fixed in the building elements 11 and 12 and 17, respectively, are designed and fixed in such a way that the snap elements 20 of the sealing strips 13 and 19, respectively, are to be pressed laterally into the undercut grooves 21 of the sealing elements 22. When the sealing elements are cast in place 22 in the building elements, in this case it is advantageous to fasten the sealing elements in the mold by means of strips which are inserted into the undercut grooves 21 and which have a slightly greater width than the snap elements 20 of the sealing strips 13 or 19. This results in the wedge-shaped slots 25 that are required so that the snap elements of the sealing strips 20 can later be introduced into the undercut grooves 21, namely to be formed automatically. During the production of building elements, sealing elements 22 for the horizontal sealing strips 13 are cast in parallel to the front side of the building element, while the sealing elements 22 for the vertical sealing strips 19 are cast in at an angle in relation to the front side of the building elements so that the vertical sealing strips 19 can be fitted with overlapping.

The joint sealing system is particularly suitable for sealing joints between facade elements, which can be storey high, but the joint sealing system can also be used for sealing around door parts or glass parts that are part of the facade, under which the horizontal and vertical sealing strips are preferably fixed using snap fasteners r.

As mentioned above, the joint sealing system according to the invention has a very good sealing effect and in reality can completely prevent water ingress even with strong wind pressure and driving rain. This has been established by testing the joint sealing system in a special driving rain machine, in which four building elements were mounted with intermediate horizontal and vertical joints. The building elements and their sealing strips were located in a room, where several water showers were directed both obliquely from above and obliquely from below towards the building elements at the same time as a stream of air was blown towards the building elements by means of powerful fans. As an example, it can be mentioned that the embodiment according to fig. 5 was tested at wind speeds of 18, 25 and 31 m/sec. (which corresponds to a 20, 40 and 60 mm water column pressure difference between the front side of the building elements affected by driving rain and their back side). The embodiment according to fig. 5 was tested partly with a 50 mm and partly with a 75 mm overlap between the vertical sealing strips 19 (i.e. the length of the section 19<*>, calculated from the upper edge of the lower building element 11, was respectively 50 and 75 mm). The test time was 13 minutes at each wind speed. With an overlap of 75 mm, no water can enter the back of the building elements or sealing strips at the three wind speeds tested. With an overlap of 50 mm, some water penetrated at the wind speed of 31 m/sec., while at the two other wind speeds no water penetrated at all. It is thus clear that the joint sealing system according to the invention provides a fully satisfactory seal despite the fact that ventilation of the back of the building element is permitted through the cracks found in the area of the intersection between a vertical joint and a horizontal joint.

Claims (2)

1. Joint sealing system for sealing joints between building elements, preferably facade elements, comprising sealing strips fixed using snappert elements or in another way, where horizontal joints (10) between the building elements (11, 12) are sealed using sealing strips (13), which are undivided opposite vertical joints (16) between the building elements (11, 17) and where the vertical joints (16) between the building elements (11, 17) are sealed by means of sealing strips (19) which largely have the same extent in height as the building elements (11, 17 ) which surrounds the vertical joint (16), characterized in that the sealing strips that seal the vertical joints begin inside the sealing strip (13) of the horizontal joint (10) above and end outside the sealing strip (13) of the horizontal joint (10) below' 2. Jointing system in accordance with claim 1, characterized in that the sealing strips (19) of the vertical joints (16) with their lower end (19') extend slightly below the level of the lower horizontal joint (10) and with their upper end (19") extend upwards to a place close to the underside of the building element (12) which is located above the upper horizontal joint (10).