FI12371U1 - Roof truss structure for a roof structure with a settling blown-in insulation as an insulation - Google Patents

Description

U20190012

ROOF BODY STRUCTURE WITH UPPER BODY STRUCTURE WITH EXCLUSIVE PUMP

The invention relates to a roof truss structure to a top floor structure of a building with an insulating blow insulator and a roof lining structure comprising a lower edge, a top pair, and beams between them, almost all parts of which inside the blow insulation are inclined.

The roof grid is a supporting structure for the roof of a building. During the construction, the roof trusses are attached to the walls of the building and roof structures and roofing material are attached to the roof trusses.

A few decades ago, a combination of skewed beams and oblique blast insulation, which is still the predominant practice, began to be used as the top-bottom structure. In this structure, the load-bearing capacity of the roof trusses is based on the fact that most of the beams of the roof laths in the structure are inclined in the vertical direction, thereby providing less material with a number of roof grids satisfying the strength requirements, the span of which has been increased and no longer need to be supported in the partition walls. As an insulator, the use of easier and faster installation and also cheaper blasting wool was used to isolate the tighter places, including the underside of the slanted beams, where it was really difficult to seal tightly with the beam.

After mounting the roof trusses and usually after the roof is made, the building is covered with thermal insulation of the upper floor. When loose insulation material, such as, for example, blowing wool, is used for insulation, the insulating material is blown and applied to the top floor as a flat layer. When spreading blasting wool, it also goes into the spaces in the roof grid structure. After application, the loose heat insulation material is on the same level on both sides of the roof grid.

A loose thermal insulation material, such as a blowing wool, is not a solid material but consists of large and small fibers suitably treated for the purpose, or the like, which together form a heat insulating layer. Such material is easily spread and blown well into the subject. Over time, such loose material condenses, i.e. it is pressed downward by the vibration, moisture and gravity of the building.

Although the heat-insulating material is pressed downward, its fibers are adhered to each other and no longer can move laterally in this direction. Thus, the properties of the thermal insulation material deteriorate when cold bridges are formed below the beams in the slanted position of the roof grids due to the deflection due to the properties of the insulation. However, this important thing when designing the top floor structure with skewed roofing grids and a heavy-duty blowing insulator was completely ignored. This structure creates a compatibility problem in the top floor because the deflection of the blasting properties causes cold bridge tunnels below the slanting beams of the roof grid, which hinder the energy and moisture performance of the top floor. Depreciation is taken into account in the instructions of the Ministry of the Environment, calling for more pressure to reach the volume. This guideline only takes into account the deflection at the top of the insulation, and does not take into account the fact that at the same time cold bridge tunnels are automatically formed beneath the oblique beams of the roof grid. The cold bridge tunnels generated from the thermal insulation layer up to the surface of the blast insulation will increase energy consumption. In addition, the heat condenses into moisture at these points, which can cause a moisture and mold problem.

In the roof grid structure according to the invention, the beams are pressed within the blow insulation in a vertical position up to the unpressurized surface of the blowing insulation. The vertical beams have also been used for a different purpose in the past when the trusses were built on-site and the lower beams continued at the partition walls, where it was important for the load-bearing capacity of the structure that the beams supporting the roof were in a vertical position. At that time, a bite and an unbreakable bark were used as insulation. In the roof grid construction according to the invention, the beams are in a vertical position for a different purpose than before building on site. In the roof grid structure according to the invention, the beams are in a vertical position within the compressing blowing insulator because the insulation is pressed down straight down the vertical surfaces of the beams. This eliminates the compatibility problem as well as the cold bridges caused by the blowing of the blast insulation in the top floor structure and improves its energy and moisture performance.

The object of the invention is to disclose a roof grid structure for eliminating compatibility problems with existing top floor structures. In particular, it is an object of the invention to provide a roof grid structure by which the cold bridge tunnels formed by the deflection of the blast insulation layer are removed from the top bottom structure and prevent energy loss as well as the risk of moisture and mold. In addition, the present invention is to provide a kattoristikkorakenne, wherein palaeristeellä Isolation is facilitated when the pattern is not within a blow diagonal beams to the underside of the palaeristeellä isolation has previously been difficult.

The object of the invention is achieved by a roof grid structure, which is characterized by what is described in the protection requirements.

The roof grid structure according to the invention is characterized in that the beams inside the depressed blast insulation of the roof grid structure are in a vertical position up to the surface of the non-wrinkled insulation. In the lattice structure above the insulation, the beams are in an inclined position to ensure that the strength requirements of the roof trusses are met. When the pressing blowing insulator is pushed along the surfaces of the beams in the vertical position, the formation of the elbow bridges is prevented in the top floor structure. Such a roof structure removes cold bridges from the top floor structure and reduces the risk of moisture and mold damage by improving its energy and moisture performance. It is characteristic also that palaeristeellä isolation is facilitated, when the structure inside the blow-in insulation is no longer a diagonal beams to the underside of the isolation palaeristeellä has previously been difficult.

In a preferred embodiment of the invention, only the vertical beams within the blowing insulation, which remove the cold bridges, improve the energy and moisture performance of the top bottom structure and facilitate isolation with the beam insulation.

The invention is not limited to the preferred embodiments shown, but may vary within the inventive idea of the claims.

In the following, the invention will be described in more detail with reference to the accompanying drawings, in which: Figure 1 shows a generally used roof grid structure with beams in an inclined position inside the insulation and an insulating blow insulation layer and Figure 2 shows a roof grid structure according to the invention in which the beams inside the insulation are in a vertical position and an insulating blow insulation layer.

Fig. 1 shows a generally used roof truss structure and an insulating blow molding and having a roof grid structure comprising a lower groove 1, an upper pair 2, and beams 3 between them, most of which are in an inclined position. The thermal insulating layer is depressed over time and below the oblique beams 3, and cold bridge tunnels 7 are formed between the bent blowing insulation 4, the reference surface 6 denotes the original surface level of the thermal insulation layer and the surface level of the blown insulation with the number 5.

Fig. 2 shows a roof grid structure according to the invention and a pressurized blow insulating layer. Also included in this grid structure is the bottom groove 1, the upper pair 2, and the beams 3 inside the blast insulator between them, which are in the vertical position in the compressed blowing insulation 4 up to the surface of the non-crushed blast insulation. In this way, the cold bridge tunnels 7 caused by the blowing of the blast insulation to the surface plane 5 are prevented in the upper floor structure and the energy and humidity function of the top floor structure is improved.

Claims (2)

PROTECTION REQUIREMENTS 1. Roof grid structure for a top-bottom construction with an insulating blow-off insulation having a lower cross member (1) upper pair (2) and a beam (3) within the blast insulator (3) within the blade insulator (4) in a vertical position on the surface of the non-crushed blast insulation (6). up for the removal of a blow insulation settling of the insulation on the depressed surface (5) cold bridge tunnels born (7), and to prevent loss of heat and moisture and mold damage emergence risk roof structure and palaeristeellä isolation is facilitated when the pattern in a blow insulation is not oblique beams isolation with a lower side palaeristeellä has previously been difficult. 2. The grid structure as claimed protection in claim 1, characterized in that inside the collapsible blow dielectric bars (3) are in the upright position, preventing the loss of heat and moisture and mold damage emergence risk roof structure and palaeristeellä Isolation is facilitated when the pattern in a blow insulation is not oblique bars, the isolation of which the lower side palaeristeellä has been difficult in the past.