RU133550U1 - HEAT-INSULATION STRUCTURE AND HEAT-INSULATION ELEMENT FOR ROOFS - Google Patents

Abstract

1. A heat-insulating structure containing mineral wool as thermal insulation for roofs, in particular for gently sloping roofs, characterized in that it contains a single-layer heat-insulating gasket containing mineral wool plates, and the mineral wool fibers in the plates are oriented mainly perpendicular to the two main surfaces a heat-insulating gasket, and a heat-insulating gasket of one of its main surfaces is fixed to the roof supporting structure by means of a steam barrier, mounted on said support surface without penetrating into the vapor barrier detaley.2 mechanical fasteners. The heat-insulating structure according to claim 1, characterized in that the roof supporting structure forms or is provided with a concrete base or a shaped sheet and a floor installed on them, the steam barrier being attached to the floor fixed to the specified concrete base or shaped sheet. The heat-insulating structure according to claim 1 or 2, characterized in that the steam barrier comprises at least one glued bitumen membrane, wherein the steam barrier is fastened to the roof supporting structure by gluing with hot bitumen, or the steam barrier contains at least one welded bitumen a membrane, wherein the steam barrier is attached to the roof support structure by heating bitumen on the lower surface of the steam barrier. 4. The heat-insulating structure according to claim 1 or 2, characterized in that on the upper main surface of the heat-insulating strip, a waterproofing is provided in which or on which the layer is placed, providing

Description

FIELD OF THE INVENTION

The invention relates to a heat-insulating structure containing mineral wool, intended for thermal insulation of roofs, in particular for gently sloping roofs.

In addition, the invention relates to a heat-insulating element containing mineral wool, intended for thermal insulation of roofs, in particular for gently sloping roofs.

State of the art

Currently, the known plate glass wool thermal insulation used on roofs consists of products such as thin plates (thin panels) on the upper surface and mechanical glass wool thermal insulation fasteners passing through the steam barrier to the roof supporting structure. Technical solutions are also known in which the heat-insulating gasket consists of a series of mineral wool panels laid one on top of the other, the insulating layer being fixed to the roof supporting surface through a steam barrier.

In essence, this solution is workable, but there is a need to reduce the consumption of insulating material and steam leakage caused by fasteners penetrating the vapor barrier, and, generally speaking, you need to get rid of the stages of work associated with mechanical fastening.

Description of the invention

With the help of the invention, an effective design for thermal insulation of roofs is achieved, and it is possible to eliminate the disadvantages of the known technical solutions.

The heat-insulating structure proposed in the invention is characterized in that it includes a single-layer heat-insulating gasket containing a layer of mineral wool, and the mineral wool fibers in this layer are oriented mainly perpendicular to the two main surfaces of the heat-insulating gasket, and the heat-insulating gasket is fixed with one of its main surface on the roof support structure by means of a steam barrier mounted on said support surface without penetrating into the vapor howling barrier of mechanical fasteners.

In one preferred embodiment of the heat-insulating structure according to the invention, the roof support structure forms or is provided with a concrete base or a shaped sheet and a building floor laid on them, the steam barrier being attached to this floor fixed to said concrete base or on the shaped sheet. Preferably, the flooring is made of plywood.

In another preferred embodiment of the thermal insulation according to the invention, the steam barrier comprises at least one bonded bitumen membrane, wherein the steam barrier is attached to the roof supporting structure by gluing with hot bitumen, or the steam barrier contains at least one weldable bitumen membrane, wherein the steam barrier is attached to the roof supporting structure is performed by heating bitumen on the lower surface of the steam barrier.

In another preferred embodiment of the heat-insulating structure according to the invention, a waterproof barrier is provided on the upper main surface of the heat-insulating gasket, and a pressure providing layer is provided in or on said waterproofing barrier. In this layer it is possible to use shingle or similar tiles or some other types of facing stone.

In one preferred embodiment of the invention, the mineral wool plates of the heat insulation pad are attached to the vapor barrier a) by bonding with hot bitumen or b) by heating the fixing bitumen on the surface of the vapor barrier.

On the other (upper) main surface of the thermal insulation structure according to the invention, a waterproofing barrier is fixed. It is desirable that the waterproofing barrier contains at least one bitumen membrane attached to the mineral wool of the heat-insulating strip by gluing with hot bitumen.

In addition, it is possible to fasten the floor to the upper main surface of the heat-insulating layer by means of mechanical fasteners penetrating through the floor and self-locking into the mineral wool layer to a predetermined depth so that they do not penetrate the vapor barrier on the other main surface of the plate gasket.

The heat-insulating element proposed in the invention is characterized in that it includes a single-layer insulating gasket containing a layer of mineral wool, and the mineral wool fibers in this layer are oriented mainly perpendicular to the two main surfaces of the insulating gasket, and the insulating gasket is fixed with one of its main surface on the roof support structure by means of a steam barrier mounted on said support surface without mechanically penetrating the steam barrier their fasteners.

In one preferred embodiment of the heat-insulating element according to the invention, the mineral wool plate of the heat-insulating gasket is attached to the vapor barrier a) by bonding with hot bitumen or b) by heating the fixing bitumen on the surface of the steam barrier. In addition to this, in another preferred embodiment of the invention, it is possible to fasten the waterproofing barrier to another (upper) main surface of the heat-insulating pad. In one embodiment of the invention, the waterproofing barrier comprises at least one bitumen membrane attached to the mineral wool of the thermal insulation strip by bonding with hot bitumen. In one special embodiment of the invention, the waterproofing includes two bitumen (rubber) membranes placed one on top of the other. In some cases, it is possible to fix the flooring (thin mineral wool plate) on the upper main surface of the heat-insulating gasket using mechanical fasteners, while it is preferable to mount the waterproofing barrier on the outer surface of the flooring (i.e. the floor remains between the gasket consisting of mineral wool plates , and a waterproofing barrier). The mechanical fastenings of the flooring penetrate through it and enter self-locking into the mineral wool layer to a predetermined depth so that they do not penetrate the vapor barrier on the other main surface of the plate gasket.

In the present invention, basalt or glass wool may be used as mineral wool for a heat-insulating pad.

DETAILED DESCRIPTION OF THE INVENTION

Below the invention is described in more detail by way of example with reference to the attached drawings, in this case:

figure 1 presents an example of the heat-insulating structure of gently sloping roofs according to the invention, illustrating the principle of the device and

figure 2 shows a plate of mineral wool, suitable for use in a heat-insulating structure or element according to the invention.

The following example is just one example of a heat insulating structure according to the invention, also illustrating its manufacture. The appended claims also cover other embodiments of the invention that are not discussed in detail here. In the example below, the thermal insulation structure according to the invention is particularly suitable for gently sloping roofs.

The heat-insulating structure does not need to be provided with flooring on the upper surface of the mineral wool plates of the single-layer structure, and in particular on the upper surface of the single-layer structure 4, in this example the flooring is not used at all. In this example, mineral wool is basalt wool, but glass wool is also suitable for use in the invention.

In this example, the roof support structure consists of one or more profiled sheets 1 or of one or more plywood boards 2 fixed with mechanical fasteners (not shown in the drawing). The vapor barrier 3 is provided with a weldable bitumen membrane, wherein the vapor barrier is attached to the roof support structure by heating the bitumen on the lower surface of the vapor barrier. In this example, the vapor barrier 3 is implemented as a single layer barrier, as is usually common in practice, i.e. bitumen membranes overlap one another only in compounds of bitumen membranes of vapor barriers. B. As a bitumen membrane suitable for a vapor barrier, for example, a vapor barrier K-MS 170/4000 (TL 2) is possible.

It is possible to fix part of the mineral wool plate of the heat-insulating strip 4 on the steam barrier 3 either by gluing with hot bitumen, or by heating the fixing bitumen present on the surface of the steam barrier 3, so that the mineral wool fibers in the plate are oriented mainly perpendicular to the two main surfaces of the heat-insulating strip, consisting of plates. On the other (upper) main surface of the heat-insulating gasket 4 of the heat-insulating structure, a waterproofing barrier is fixed, consisting of two bitumen (rubber) membranes, located one on top of the other, fixed to the heat-insulating gasket 4 of basalt wool by gluing with hot bitumen. For example, K-MS 170/3000 (TL 2) membranes can be used as the main bitumen membrane, and K-PS 170/5000 (TL 2) membranes are used as the outer membrane. Shingles are added on top of the waterproofing as a pressure layer 10. An alternative possibility is to glue the shingle with hot bitumen, added as part of the outer bitumen membrane of the waterproofing barrier.

In accordance with the above method, an illustrated example, a single-layer heat-insulating spacer 4 is obtained containing a layer of mineral wool, in which the mineral wool fibers are oriented mainly perpendicularly to the two main surfaces of the insulating spacer 4 and in which the insulating spacer is fixed with its second main surface to the roof supporting surface (plate (s) of sheet metal 1 + plywood plate (s) 2) by means of a vapor barrier 3 fixed without penetrating into the vapor arer mechanical fasteners.

The following is an example of a possible manufacture of a thermal insulation element made in accordance with the invention, comprising mineral wool for roofs, in particular for gently sloping roofs.

The mineral wool plates of the heat-insulating strip 4 are fixed on a concrete base or on a floor, for example, on a plywood plate by means of a single-layer steam barrier 3 containing a bitumen membrane, or by gluing with hot bitumen or by heating fixing bitumen available on the surface of the vapor barrier 3, while the fibers in mineral wool plates are oriented perpendicular to the two main surfaces of the heat-insulating pad, consisting of plates. On the other (upper) main surface of the heat-insulating gasket 4 of the heat-insulating structure, a waterproofing barrier 5 is fixed, consisting of two bitumen (rubber) membranes located one on top of the other, attached to the mineral (glass or basalt) cotton wool of the heat-insulating gasket 4 by gluing with hot bitumen. For example, a K-MS 170/3000 (TL 2) membrane can be used as the main bitumen membrane, and a K-PS 170/5000 (TL 2) membrane is used as an external membrane. On top of the waterproofing, shingles can be added as layer 10, providing pressure. An alternative option involves gluing the shingle with hot bitumen, added as part of the outer bitumen membrane of the waterproofing barrier.

In the plates of the heat-insulating structure and the heat-insulating element according to the invention, it is possible to cut the grooves and create prefabricated channels for draining them with the help of low-pressure fans of moisture that appears during the construction period. It is also possible to remove moisture using gutters that can be made. Figure 2 shows a mineral wool plate 6 in a heat-insulating structure and element according to the invention, in which the plate 6 is made with a groove 7 and a first cutout 8 for forming a prefabricated moisture channel when combined with other corresponding plates installed in series and adjacent to one another fixed positions. In addition, the plate is also provided with a second cut-out 9 for covering and closing the collecting channel using a fitted strip of mineral wool plate (not shown in the drawing). In this mineral wool strip, a slot is then made for the low pressure fan.

The single-layer heat-insulating structure according to the invention withstands the normal suction pressure created by the wind on the roof, without any mechanical fasteners.

Claims (9)

1. A heat-insulating structure containing mineral wool as thermal insulation for roofs, in particular for gently sloping roofs, characterized in that it contains a single-layer heat-insulating gasket containing mineral wool plates, and the mineral wool fibers in the plates are oriented mainly perpendicular to the two main surfaces a heat-insulating gasket, and a heat-insulating gasket of one of its main surfaces is fixed to the roof supporting structure by means of a steam barrier, mounted on said support surface without penetrating into the vapor barrier of mechanical fasteners. 2. The heat-insulating structure according to claim 1, characterized in that the roof supporting structure forms or is provided with a concrete base or a shaped sheet and a floor installed on them, the vapor barrier being attached to the floor fixed to the specified concrete base or shaped sheet. 3. The heat-insulating structure according to claim 1 or 2, characterized in that the steam barrier contains at least one glued bitumen membrane, and the steam barrier is attached to the roof supporting structure by bonding with hot bitumen, or the steam barrier contains at least one a welded bitumen membrane, wherein the steam barrier is attached to the roof support structure by heating bitumen on the lower surface of the steam barrier. 4. The heat-insulating structure according to claim 1 or 2, characterized in that on the upper main surface of the heat-insulating gasket there is a waterproofing in which or on which a layer is provided that provides pressure. 5. The heat-insulating structure according to claim 1 or 2, characterized in that the mineral wool plates of the heat-insulating gasket are fixed to the steam barrier a) by bonding with hot bitumen or b) by heating the fixing bitumen on the surface of the steam barrier. 6. The heat-insulating structure according to claim 1 or 2, characterized in that the waterproofing barrier is fixed to another - upper - main surface of the heat-insulating gasket. 7. The heat-insulating structure according to claim 6, characterized in that the waterproofing comprises at least one bitumen membrane fixed to the mineral wool of the heat-insulating strip by gluing with hot bitumen. 8. The heat-insulating structure according to claim 1 or 2, characterized in that on the upper main surface of the heat-insulating gasket the floor is fixed using mechanical fasteners so that the mechanical fasteners penetrate the floor and enter with self-fixation into the gasket consisting of mineral wool plates, to a predetermined depth without penetrating the vapor barrier on the other main surface of the plate gasket. 9. A heat-insulating element containing mineral wool as thermal insulation of roofs, in particular for gently sloping roofs, characterized in that it contains a single-layer heat-insulating spacer containing a mineral wool plate, while the mineral wool fibers in the heat-insulating spacer are oriented mainly perpendicularly two main surfaces of the heat-insulating gasket and a heat-insulating gasket of one of its main surfaces are fixed to the roof support structure by vom vapor barrier supported on said supporting surface without penetrating into the vapor barrier of mechanical fasteners.

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