CZ25986U1 - Thermally insulating backing, load-bearing section underneath window and/or door frames - Google Patents

Description

Technical field

The technical solution relates to the field of construction, namely thermal insulating base profiles under window and / or door frames to reduce heat losses and eliminate thermal bridges in the transition area of the building interior and exterior.

BACKGROUND OF THE INVENTION

The connection of window and door frames to the vertical building construction of the building is currently not satisfactorily solved. The space under the windows, balcony doors or exterior doors of the building is usually made familiar with common building materials, such as bricks, or is filled with conventional building materials such as concrete. Such a solution leads to the formation of thermal bridges, which result in heat leakage, freezing of building structures and consequently mold formation. This space is also filled with plastic load-bearing profiles, but they do not provide sufficient insulation to prevent thermal bridges.

The attachment of a window or door frame in a building opening is often dependent on the type of building opening filler used and the type and quality of the prepared building structure. The solution, which currently helps to fit the window or door frame into the building opening, consists in a groove in which the thermal insulation material, which is mainly polystyrene, is deposited. The efficiency of such a solution is relatively low.

The object of the present invention is to provide a thermal insulating base profile which is optimal for use in the construction of wall openings, ensures reliable anchoring of the door and / or window frame in the building and further helps to remove thermal bridges between the frame and the building opening.

The essence of the technical solution

This object is achieved by providing a heat insulating backing profile under the window 25 and / or door frame, which is formed by at least two interconnected layers, wherein the outer layer is formed of a waterproof material and the inner layer is formed of a thermally insulating material. The essence of the invention is that the waterproof outer layer material is based on hardened PUR / PIR foam and the inner layer material is based on extruded, non-absorbent polystyrene XPS, wherein the layers are formed as plate-like formations and are arranged vertically. The insulating backing profile formed in this way perfectly tolerates the clash of the internal conditions of the building and the external conditions. The XPS polystyrene inner layer increases the already very good insulating properties of the outer layer material.

Preferably, the waterproof outer layer material has a density in the range of 450 kg / m ³ to 700 kg / m ³ , a pressure resistance in the range of 7500 kPa to 9500 kPa, and a thermal conductivity coefficient of 35 · λ in the range of 0.07 to 0 10 W / (mK).

In another preferred embodiment, the outer layer material comprises PUR / PIR foam recyclate. The use of recyclate significantly reduces the cost of manufacturing the outer layer material.

The thermally insulating backing profile is formed by three rigidly connected layers, the inner layer being arranged between the two outer layers. The thermal insulation efficiency of the profile 40 is thus significantly increased. In addition, both outer waterproof layers protect the inner layer, thereby increasing the service life of the profile.

At least one tongue and / or groove and / or rebate is provided in the upper surface of the at least one outer layer for fitting the window and / or door frame. This is advantageous for a good fit of the door and / or window frame, which is easier to attach to the profile.

At least one tongue and / or groove and / or rebate is provided in the upper surface of the inner layer to fit the window and / or door frame. This embodiment is also advantageous for better and stronger

Door and / or window frame mounting. The groove, rebate or tongue can be custom made according to the frame to be fitted to the profile.

At least one opening for anchoring the profile to the structure of the building is provided in the lower surface of the heat-insulating base support profile, thereby achieving greater strength of the window and door frame shoulder.

Finally, it is preferred that the outer layers are reinforced by a transverse reinforcing plate. This embodiment is particularly advantageous under long profiles, in particular under sliding doors, which are thereby strengthened against sagging.

The advantages of the technical solution are its good insulating properties, which prevent the formation of thermal bridges, and thanks to the sandwich design with waterproof material forming outer layers to extend the life of the thermal insulating base profile.

Clarification of drawings

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a heat-insulating backing profile with tongues formed in the outer layers; FIG. 2 is a cross-section of a heat-insulating backing profile with a groove formed in the inner layer and rebates formed in the outer layers; FIG. 3 is a view of the bottom surface of the heat-insulating backing with an opening for anchoring the heat-insulating backing to the building structure; and FIG. 4 is a perspective view of the heat-insulating backing with tongues formed in the outer layers and reinforcing plate.

Examples of technical solutions

It is to be understood that the specific embodiments of the invention described and illustrated below are presented by way of illustration and not by way of limitation of the exemplary embodiments of the invention to the present cases. Those skilled in the art will find or will be able to detect, using routine experimentation, more or less equivalents to the specific embodiments of the technical solution specifically described herein. These equivalents will also be included within the scope of the following protection claims.

FIG. 1 shows a thermally insulating backing profile 1 formed as a sandwich, the inner layer of which consists of extruded, non-absorbent polystyrene XPS. The outer layers 2, 3 are formed of a waterproof material based on hardened PUR / PIR foam. The waterproof material is made of residues from the production of PUR / PIR block foam or PUR / PIR bonding foam. Waterproof material from PUR / PIR block foam production residues has the following characteristics:

density: 475 to 540 kg / m ³ pressure resistance: 7500 kPa thermal conductivity coefficient; 0.0784 W / (mK).

Waterproof material from PUR / PIR bonding foam production has the following characteristics: density: 610-690 kg / m ³ pressure resistance: 9500 kPa thermal conductivity coefficient: 0.0103 W / (mK).

The waterproof material of the outer layer 3, 4 can also be made of recycled PUR / PIR foam. This significantly reduces the cost of producing a waterproof material.

density: 500 to 50 kg / m ³ pressure resistance: 24.2 N / mm ² thermal conductivity coefficient: 0.073 W / (mK).

In FIG. 1, an embodiment of a heat-insulating base support profile 1 can be seen below the door frames. The heat-insulating base profile 1 can be used under any door frame, even for frames

-2GB 25986 U1 sliding doors, known as HST portals. This embodiment has one tongue 5 in each outer layer 2, 3 for fitting a door frame.

FIG. 2 shows an embodiment of a heat-insulating substrate 1 for window frames. In this embodiment, a groove 6 is formed in the inner layer 4 and rebates 7 are formed in both outer layers 2, 3. The arrangement of the tongues 5, grooves 6 and rebates 7 may be arbitrary depending on the door or window frame to be on the profile. 1 set.

The heat-insulating base profile 1 is laid into the building structure in a pre-formed cut-out. Particularly in an embodiment for window frames, an opening 8 is milled in the lower surface of the profile 1 for mounting the profile on a pin or for a screw head to firmly anchor the profile 1 to the building structure. The heat-insulating base profile 1 can also be glued to the building structure. In the embodiment for fitting door frames, the profile 1 can be fastened to the building structure only by the weight of the door frame mounted on the profile 1. Or it is possible to drill the profile 1 in its entire height and anchor it to the structure by screws.

FIG. 4 shows an embodiment of the base profile 1 under the door frames. At regular intervals, in this exemplary embodiment of 50 cm, the inner layer is removed and a reinforcement plate 9 formed of the outer layer 2, 3 material is inserted into the recess. The reinforcement plate 9 is fastened to the outer layers 2, 3 by screws 10. The reinforcement plate 9 overall strengthens the load-bearing capacity f.

Industrial applicability

The heat-insulating sub-profile according to this invention can be used under window and / or door frames in all types of building structures.

Claims (8)

PROTECTION REQUIREMENTS A heat-insulating base support profile (1) under a window and / or door frame comprising at least two interconnected layers (2, 4), wherein the outer layer (2, 3) is formed of a waterproof material and the inner layer (4) is formed thermally insulating material, characterized in that the waterproof material of the outer layer (2, 3) is formed on the basis of hardened PUR / PIR foam and the inner layer material (4) is formed on the basis of extruded, non-absorbent polystyrene XPS, and are arranged vertically. Heat-insulating sub-base profile according to claim 1, characterized in that the waterproof material of the outer layer (2, 3) has a density in the range of 450 kg / m ³ to 700 kg / m ³ , a pressure resistance in the range of 7500 kPa up to 9500 kPa and a thermal conductivity coefficient λ between 0.07 and 0.10 W / (mK). The heat-insulating backing profile according to claims 1 and 2, characterized in that the material of the outer layer (2, 3) comprises recycled PUR / PIR foam. The heat-insulating support profile according to at least one of Claims 1 to 3, characterized in that it consists of three interconnected layers (2, 3, 4), the inner layer (4) being arranged between the two outer layers (2, 3). ). Heat-insulating support profile according to at least one of Claims 1 to 4, characterized in that at least one tongue (5) and / or a groove (6) and / or a groove (6) is formed in the upper surface of the at least one outer layer (2, 3). or a rebate (7) for fitting a window and / or door frame. Heat-insulating base support profile according to at least one of Claims 1 to 5, characterized in that at least one tongue (5) and / or a groove (6) and / or a rebate (7) is formed in the upper surface of the inner layer (4). Installation of window and / or door frame. -3EN 25986 Ul Heat-insulating sub-base according to at least one of claims 1 to 6, characterized in that at least one opening (8) is provided in its lower surface for anchoring the heat-insulating sub-base (1) to the building structure. The heat-insulating support profile according to at least one of claims 1 to 7, characterized in that the outer layers (2, 3) are reinforced by a transverse reinforcing plate (9).