SU1705520A1 - Unprepared roofing of building - Google Patents

Abstract

The invention relates to construction and can be used in multi-storey residential and public buildings with a warm attic with internal or external drainage. The purpose of the invention is to improve the performance of the roof by increasing the efficiency of ventilation. The roof of the building includes attic walls 20, catchment trays 5 and reinforced concrete roofing panels 1. They are laid on each longitudinal edge of the roofing panel 1 with one vertical cut as half inverted truncated cone and in the upper part 16 .i-gHS o,. 1d 21 15 14 V 74 - longitudinal channels 8 for condensate drainage and longitudinal grooves for the ridges of the slab panels, as well as one transverse flange and two longitudinal flanges to improve the water tightness of the joints of adjacent roof panels. The ventilation air from the premises of the building through the exhaust ducts and through the ventilation diffusers 14 enters the attic room, heats it evenly, and then is discharged outside the attic through openings 16 in the form of an inverted truncated cone formed by adjacent roof panels. Gaps between roofing panels that are not involved in the ventilation process are thermally insulated with insulation and sealed. The condensate formed by the ventilation air flows on the lower part of the lining panel 6 is directed by the drips into the longitudinal channels and along them is led out of the roof through the catchment trays into the storm sewer, which is heated within the attic space with warm ventilation air flows. 2 hp ff. 5 il. .i-gHS o (L S XI O SP (L o o 21 15 14 V

Description

The invention relates to the construction, in particular to non-roll-up roofs of buildings, and can be used in multi-storey residential and public buildings with a warm attic with internal or external drainage.

The purpose of the invention is to improve the performance of the roof by increasing the efficiency of ventilation.

The goal is achieved by the fact that in a non-roll roof of the building, including attic walls, catchment trays, reinforced concrete roofing panels with longitudinal grooves arranged in rows with a gap, and crests of the caulis placed with a gap, on the longitudinal edges of each roofing panel There is one vertical cut-out in the form of a half of an inverted truncated cone, and when two adjacent roof panels are joined, a vent is formed in the form of an inverted truncated cone.

In order to improve the watertightness of the joints, roofing panels are made with external flanges located at the longitudinal edges. In this case, the gaps between adjacent roof panels that are not involved in the ventilation process are thermally insulated and sealed.

FIG. 1 shows a roofless roof of the building, a fragment of the plan; in fig. 2 - roof, cross section; in fig. 3 shows section A-A in FIG. one; in fig. 4 shows a section BB in FIG. one; in fig. 5 shows a section B-B in FIG. one.

The barrier-free roof of the building consists of three-layer roofing panels 1 consisting of an upper water-insulating 2 and lower vapor-insulating 3 layers, between which internal air voids 4, filled with insulating materials if necessary, drainage trays 5 of internal drainage and flat panels 6 with ridges 7.

On each longitudinal edge of the roofing panel 1, there is one vertical cut-out in the form of a half inverted truncated cone, and in the upper part along the edges there are longitudinal channels 8 for condensate drainage and longitudinal grooves 9 for the ridges of the flat panels, and one transverse flange 10 and two longitudinal ribs 11 to increase the water tightness of the joints of adjacent roof panels. The roof panel stroping is performed by the hinges 12 located on the longitudinal flanges 10. For fixing the roof guard posts on the transverse flange 11 there are embedded parts 13. Ventilation air from the premises of the building through exhaust ducts and through the vents of diffusers 14 enters

into the attic 15, heating it evenly, and then is led outside the attic through the openings 16 in the form of an inverted truncated cone formed by adjacent roof panels. Clearances

0 between roofing panels that are not involved in the ventilation process, are insulated with insulation 17 and sealed 18.

The sealing gasket 19, placed on the contact surface of the parapet panel 20 and the catchment tray 5 with the roofing panel 1 and being under pressure of its own weight of the roofing panel and the sponge 6, ensures tightness

0 interface The wind pressure that circulates within the roof and under the splash reinforces the ventilation of the ventilated air through the ventilation openings 16. Through these openings it is carried out along the shortest

5 distance the ventilation of 21 from sewers and rooms with harmful gases outside the attic room, as well as the input of telecables and cables of low-current lines into the building, which is also carried out unhindered after all construction and installation work on the roof structure. Condensate formed by ventilation air flows on the lower part of the lining panel 6, co5 is guided by tears 22 into the longitudinal channels 8 and along them is led out of the roof through the catchment trays to the storm sewer 23, which is heated within the attic space with heat ventilating air flows .

The vent holes 16 are designed in the form of an inverted truncated cone, based on the requirements of reliable sealing and caulking of the vents of the ventilation outlets from sewage drains and rooms with harmful gases, which cannot be achieved with holes in the form of a cylinder, as well as as roofing panels 1

0 are molded face down in cassettes. In order to avoid any return flow of ventilation flows from the above ventilation outlets into the attic room 15 at the junction of two adjacent

5 roof panels should have only one vent.

The uniform arrangement of air vents over the entire roof area prevents the formation of stagnant non-ventilated zones in the attic.

Claims (3)

Claim 1. Bezrulonna roof of the building, including attic walls, catchment trays, reinforced concrete inclined roof panels with rows of channels with channels and longitudinal grooves, in which the ridges of the base panel are placed with a gap, which is different in that with the aim of improving the operational qualities of the roof by increasing the efficiency of ventilation, each roofing panel on the longitudinal faces is made with vertical cuts, which form a truncated cone-shaped opening when connecting the adjacent panels. 2. Roof according to claim 1, characterized in that, in order to improve water resistance, the roofing panels are made with external flanges located at the longitudinal edges. 3. The roof according to claims 1 and 2, characterized in that it is equipped with placed between adjacent roof panels heat insulating and sealing elements. fig1 2 Yu sixteen 6-6 22 fi g 5