DK167700B1 - ADDITIONAL PIECES TO ISOLATED SPACES WALLS - Google Patents

Description

DK 167700 B1

The present invention relates to an elongated cavity sealing profile piece made of a flexible, compressible material with heat insulating properties.

In certain types of building structures known as insulated cavity wall construction, it is common to have a structure comprising an outer wall, an air-filled gap or cavity, which may have been vented, and an interior wall. Such a construction generally comprises insulating plates or insulating materials applied to the inner cavity wall in such a way that a vent space remains between the insulating plates and the outer wall. It has been shown that natural convection, in the sense of thermal air circulation, results in significant heat losses around the insulation layers and / or insulation plates, as compared to calculated theoretical values.

Thus, in order to obtain a properly heat insulated cavity wall, appropriate steps must be taken to prevent the occurrence of natural convection. This requires the insulating plates to fit tightly together to form an airtight shield. Openings 20 of only a few millimeters in width can form natural convection currents with correspondingly significant heat losses.

However, it is even more important to be able to seal all openings around the top and bottom edges of the insulation layers, around the wall openings and vertical corner joints 25 in the cavity walls to prevent normal air infiltration and heat convection from occurring.

In practice, the inner wall is usually not smooth on the cavity side, ie. that there are protruding cement residues and dimensional differences for the bricks that prevent the insulating plates 30 from coming to rest perfectly against the inner wall. Furthermore, the top and bottom edges of the insulation layers are not normally sealed in an airtight manner with other building parts. Therefore, it is clear that in order to achieve proper thermal insulation, it is necessary to take extra precautions and work very carefully, which is time consuming and consequently an expensive way to build an insulated cavity wall construction.

From AT-A-344380, in the case of hollow insulating elements, which are intended to be placed on the inside of the inner wall of a cavity wall, it is known at the ends of these elements to place vertical in cross-section L-shaped profile pieces made of a non- moisture absorbing insulating material. The shorter leg of the profile piece is inserted between the cover plate of the insulating element and the insulating plate and its longer legs are placed with abutment for the edge surface of the insulating plate. Two such profile pieces are placed at each corner.

Further known from GB-A-1617966 is a so-called overlap tray comprising a first cross-section Z-shaped elongated metal part and a second metal part so arranged in relation to the first metal part that there is between the body part and the upper part of the first metal part. the second metal part forms a cavity in which is placed a thermal insulating material. The upper part of the first metal part can be inserted between a joint between an overlay and the outer wall 9 of the cavity wall, while the lower part of the first metal serves to support a change of stone in the outer wall.

It is an object of the present invention to provide a cavity sealing profile piece for use in an insulated cavity wall construction, which is easy to use and prevents circulation of atmospheric air via natural convention around the insulation layer and enables the drainage of condensed rainwater from the cavity. It is a further object of the present invention to provide a method of using the cavity sealing profile piece of the invention.

For this purpose, the cavity sealing profile piece according to the invention is characterized by the features of claim 1.

DK 167700 B1 3

It is clear that any flexible, compressible, water repellent material with heat insulating properties can be used for the profile piece. However, it is preferred that it be made of a synthetic foam of polyethylene, polypropylene, polyurethane, ethylene vinyl acetate, polyvinyl chloride or polystyrene. Preferably elastic, cross-linked and non-cross-linked closed cell polyolefin foam is used. Specifically, void-sealing profiles comprising non-crosslinked polyethylene foam fabrics or mixtures containing such closed-cell foam materials may be used. These materials have very good heat insulating properties, are not prone to hydrolysis and absorb virtually no water. Furthermore, such polyethylene foam materials are resiliently resilient and can absorb the tensile and compressive stresses resulting from temperature variations or load pressures. Because of their elasticity, they are able to deform under tension and pressure, thereby fitting tightly into the cavity wall without cracking. Thus, cavity sealing profiles made of these materials form a sealing seal in the cavity, effectively preventing any heat loss from occurring via heat convection.

The desired profiles can be made from foam blocks, cast to the desired shape or extruded to the desired shape through special matrices. However manufactured, the cavity sealing profile piece is adapted to be placed in the cavity of the wall in such a way that the "outer longitudinal surface of the vertical portion of the L-shaped profile piece is adjacent to the inner surface of the outer wall, while the longitudinal edge of the The horizontal leg of the L-shaped cavity sealing profile piece is adjacent to the inner surface of the inner wall. An advantage of the cavity sealing profile piece or the additional profile piece herein lies in the construction of the cavity wall itself. By placing the extra profile piece at the base of the cavity wall, it forms a spacer between the inner and outer walls, whereby 4

UK 1 b // UU b I

a correct cavity width is provided and maintained. At the same time, the extra profile piece helps prevent cold bridges from occurring at the connections between insulation surfaces and other structural parts. Furthermore, once the horizontal longitudinal surface of the horizontal sealing profile piece of the cavity is vertical and wadding, then insulation plates added will also automatically be wadded. Once the top of the cavity wall is reached, another cavity sealing profile is positioned opposite to the base cavity sealing profile, thereby effectively sealing all air leaks at both the bottom and the top of the cavity. It is obvious that additional cavity sealing profile pieces can be incorporated at vertical corners and around all wall openings, such as doors and windows.

In addition to the functions already mentioned, cavity sealing profile pieces may serve to discharge any condensate or rainwater that may be present in the cavity between the insulation layer and the inner surface of the outer wall, its surface sloping downward toward the outer wall. Thus, the inclined top surface will direct any water or condensate in the direction of the outer wall.

20 The water. and the condensate can be easily discharged via openings provided close to the lower point of the inclined top surface, which openings lead to the outside of the outer wall.

An effective discharge of cavity wall condensate or rainwater that could be collected in the cavity is achieved by the moisture-proof, tear-resistant, flexible film attached to the inclined surface of the cavity sealing profile piece. The top edge of the foil can be attached to the outer surface of the insulating plate, while the bottom edge of the foil can be fed to the outside of the outer wall via a horizontal joint in the outer wall. The foil serves as a water-impervious barrier and directs any rainwater or condensate that finds its way into the cavity wall to the outer wall of the outer wall. The top of the foil can also conveniently be attached to the outer surface of the insulating plates by passing it through a horizontal joint in the insulating layer in such a way that it does not destroy the air tightness of the joint.

DK 167700 B1 5

Some embodiments of the present invention are described below by way of example with reference to the accompanying drawings, in which: 1 is a perspective view of an oblong cavity sealing profile piece in combination with a moisture-proof sheet material; FIG. 2 is a cross-section through a cavity wall structure showing the location of an insulator between two cavity sealing profile pieces shown in FIG. 1, FIG. 3 and 4 are a vertical and a horizontal cross section, respectively, through a cavity wall located around a window or door and equipped with an insulating piece held by means of a cavity sealing profile piece according to FIG. 1, FIG. 5 is a horizontal cross-section of a corner of a cavity wall provided with insulating parts held by a cavity sealing protrusion or flange; and FIG. 6 and 7 are vertical cross sections through two variations of the cavity sealing profile piece of FIG. First

In FIG. 1, an oblong cavity sealing profile piece 1 having a substantially L-shaped cross-section and 20 made of a flexible compressible material with heat insulating properties is shown. The free end of the vertical leg 2 of the Lf-shaped cavity sealing strip 1 has a top surface 3 extending obliquely downward from its inner longitudinal surface 4 towards the outer longitudinal surface 5. A moisture-proof film material 6 can be attached to the sloping top surface 3 which is of sufficient length to extend substantially beyond the top and bottom edges of the sloping surface 3. As shown in FIG. 2, the cavity sealing profile piece 1 is adapted for pressure fitting into the base of a cavity wall 9, 10's cavity 7. The lower longitudinal surface 11 of the profile piece rests on the foundation 8 or cavity 7, while the outer longitudinal surface 5 is adjacent. to the inner surface of the outer wall 10. The longitudinal edge 13 of the horizontal leg 12 rests adjacent to the inner surface of the inner wall 9. Between the inner longitudinal surface 4 of the sealing profile 1 and the cavity side of the inner wall 9, a portion of an insulating plate 14 is adapted to be accommodated therein. It is to be understood that the sealing piece 1 should be of such length as to seal the entire length of the cavity wall.

The sloping top surface 3 of the cavity sealing profile piece 1 is intended 10 to collect any rainwater or moisture condensate present in the cavity 7 and discharge it to the outside of the outer wall 10. It is preferred that the sealing profile 1 is positioned in such a way that the bottom point of the top surface 3 aligns with a horizontal joint 15 formed by two brick rows in the outer wall 10.

For effective discharge of water, the moisture-proof, tear-resistant flexible film 6 is attached to the top surface 3. of the cavity sealing profile piece 1. This film can be easily held in place by passing it through a joint 20 formed between two insulation plates 14, taking care not to 20 destroy the collection's airtightness. The lower edge of the foil can be sloped downwards and led to the outside via a horizontal joint 15. The top of the cavity wall can be enclosed by turning the cavity sealing profile piece so that the longitudinal surface 11 of the profile piece 1 is adjacent to the ceiling 16.

FIG. 3 and 4 show a horizontal and vertical cross section of a cavity wall adjacent to a window or door opening and shows how the cavity sealing profile piece 1 can be mounted in such a case. FIG. 3 shows the use of a: brick or stone switch laid on an edge beam 17 and the location of the sealing profile piece positioned at an appropriate height against the inner surface of this brick or stone switch. Such a method can e.g. is used when the edge beam 17 is an overlay or window beam or an ornamental support structure of natural stone, with a larger vertical dimension than DK 167700 B1 7 the outer longitudinal surface of the cavity sealing profile piece 5 »Here, too, the vertical joints between the overlays and the overlying bricks act as an outlet shell. for all moisture and water that the cavity should receive. The cavity formed between the longitudinal bottom surface 11 of the frame 5 18 and the sealing piece 1 can be filled with an insulating piece 14 and then with expandable foam or soft insulating material 19. In the vertical part of the wall (see Fig. 4), the cavity sealing profile piece can be placed against the frame 18 without any problems. since its location close to a joint is not necessary in vertical plane.

FIG. 5 shows an embodiment of how a cavity sealing profile piece 1 can act as a cavity sealing member in the situation where the outer walls are perpendicular to each other. Such placement of the sealing profile piece results in effective sealing of any gap or gap formed by improperly suitable insulating plates. Since even small spaces of 1 to 2 mm can induce heat convection with resulting heat loss, the use of the cavity sealing profile to seal a corner joint is a further advantage of the object of the present invention.

FIG. 6 and 7 show two cross-sectional variations on the sealing profile piece 1. The beaded leg ensures that the insulation plate 14's edges with a complementary profile fit tightly and remain airtight. The fact that the cavity sealing profile piece can be easily deformed when the edge of the insulation plate is pressed against the cavity sealing profile in the L-shaped surface of the lamina ensures a tight fit. The result is that a very good seal is obtained and no unwanted air circulation or heat convection occurs between the inner surface of the inner wall and the insulating plates.

It is clear that without departing from the scope of the present invention, changes may be made, e.g. with respect to the profile of the sealing piece. Also, the sealing piece can be used between any two spaced intervals.

Claims (5)

Oblong cavity sealing profile piece (1) made of flexible, compressible material with heat insulating properties, characterized in that the sealing profile piece (1) has a longitudinal horizontal leg (12) with an outer longitudinal surface, an inner longitudinal surface and a longitudinal edge surface. (13) and a longitudinal vertical leg (2) having an outer longitudinal surface (5), an inner longitudinal surface (4) and a longitudinal top surface (3), that the top surface (3) of the profile piece extends downwardly from the inner longitudinal surface (3). 4) to the outer longitudinal surface (5), the vertical longitudinal leg (2) and the horizontal longitudinal leg (12) are integrated to form a substantially L-shaped cross-section, that the longitudinal horizontal leg (12) and the longitudinal vertical leg (2) is of sufficient thickness to exhibit insulating properties and the profile piece (1) is provided with a moisture-resistant 20 tear-resistant flexible film (6) attached to the top surface (3) of the vertical leg of the profile piece and extending in both directions beyond the top surface of the profile piece (3). Oblong cavity sealing profile piece according to claim 1, characterized in that the top surface of the horizontal leg (12) of the profile piece (1) is formed as a spring / groove assembly. Oblong cavity seal profile according to claim 1, characterized in that the top surface of the horizontal leg (12) of the profile support (1) is formed in the same way as a profile board assembly. Elongated cavity sealing profile piece according to one or more of the preceding claims, characterized in that the profile piece is of a synthetic foam of polyethylene, polypropylene, polyurethane, ethylene vinyl acetate, polyvinyl chloride or polystyrene. Method of constructing heat-insulated cavity walls, characterized in that A) affixing an oblong cavity sealing profile piece according to claim 1 inserting at the base of the cavity (7), B) the edge of a heat insulation plate (14) into the L-shaped portion of the profile piece (1), C) gradually constructing the inner and outer cavity walls (9, 10) at the same time adding additional insulation plates (14) until the desired height is reached and D) placing another elongated sealing profile piece positioned opposite to the base profile piece as a cap on the upper edge of the insulation plate (14). 15