RU52044U1 - SOFT FLAT ROOF DEVICE - Google Patents

Abstract

The invention relates to construction, namely to the construction of a soft flat roof. The aim of the invention is to reduce the thickness of the roof structure, simplify installation, reduce weight and reduce the cost of the structure, as well as the exclusion of cold bridges. For this, a roof structure is proposed consisting of a floor slab, a waterproofing layer, a frame mounted on it with a sheet material fixed to it and ultralight monolithic foam concrete poured between them as a heat-insulating layer.

Description

Technical field

The invention relates primarily to construction, and in particular to a soft flat roof device.

State of the art

Roof structures are known, consisting of layers of waterproofing, expanded clay, successively laid on a reinforced concrete slab, and, after leveling it and giving an appropriate slope to the gutters, sheet material - flat slate, on which, as a rule, two-layer waterproofing is applied. Due to the usual expanded clay density of 600 kg / m3 and insufficiently effective thermal protection, this leads to an increase in the thickness and weight of the roof. The disadvantages also include the difficulty to provide the required slopes for expanded clay in the direction of drains, the subsequent subsidence of expanded clay, the wetting of expanded clay during transportation, storage and installation, which leads to the loss of heat-shielding properties and subsequent expansion and destruction of the waterproofing coating. The use of expanded clay is associated with high transportation costs, lifting to the roof, additional area is required at the construction site for unloading and storage. Roof construction methods are also known, where insulation materials from mineral wool slabs are placed between the waterproofing layers. In addition to the natural fragility of mineral wool insulation, installation difficulties, difficulties to ensure the required slopes, mineral wool insulation is hygroscopic, which creates difficulties in their transportation, storage and installation. This makes it impossible to work under adverse atmospheric conditions in the open air and at low temperatures. The construction of expensive heated canopies only partially solves this problem, since in conditions of snowy winters and strong winds it is almost impossible to use canopies. Mineral wool insulation itself is short-lived,

subside during operation, which leads to the destruction of the roofing.

SUMMARY OF THE INVENTION

The main task, the solution of which the present technical solution is aimed, consists in such a roof design, the construction of which can be carried out year-round in any weather conditions. Other objectives are to increase the durability of the roof, the reliability of thermal protection, reduce the cost of its construction due to the low cost of materials, ease of installation, reduce labor, the cost of transportation and lifting of materials on the roof, reduce the size of the construction site.

The solution of these problems is achieved due to the following roof structure. A waterproofing layer is applied to a reinforced concrete slab or a slab of another material, and a metal profile frame is mounted on it along racks with low thermal conductivity with a certain step in one direction and with a certain step in the other direction along the design slopes towards the gutters. Further, sheet material is laid on the racks, which is attached to the racks, for example, with self-tapping screws. The joints between the sheets are sealed, and in the cavity between the vapor barrier of the ceiling and the sheets is filled with monolithic low-density foam concrete. A standard two-layer waterproofing carpet is laid on the sheets. It is possible to manufacture a fully metal or wooden frame.

This design of a soft flat roof provides a monolithic structure devoid of cold bridges. Modern equipment allows pouring from the ground, and the ultralight monolithic non-autoclaved foam concrete itself requires only cement, water, and a small amount of foaming agent for its production.

Brief List of Drawings

The invention is illustrated in drawing 1, which shows a section of the roof structure.

Information confirming the possibility of carrying out the invention On the existing reinforced concrete slab 1, a layer of waterproofing material 2 is applied. This layer can be a polyethylene film or a rubber-bitumen material deposited or applied by a roller. On top of layer 2, thrust bearings 4 are mounted on which racks 3 of wood or lightweight galvanized metal profiles are mounted. A frame 5 of a metal profile is mounted on the racks 3, and the racks are made of different heights in order to provide a certain angle of inclination to the gutters of the asbestos-cement sheets 6 attached to the metal frame 5 by self-tapping screws. The joints of the sheets 6 are sealed immediately or during subsequent work. After that, through the holes in the asbestos-cement sheets, the cavity is filled between the vapor barrier layer and the casing of asbestos-cement sheets with low-density heat-insulating foam concrete, for example, with a density of 160 kg / m3, onto which the lower and upper layers of the deposited material are applied, acting as a waterproofing carpet. It is possible to install flat sheets on a solid metal or wooden frame with the required slopes of flat sheets to the gutters.

The resulting roof structure is devoid of cold bridges, since foam concrete forms a monolithic structure, and the racks have low thermal conductivity. The use of this method of constructing a soft flat roof eliminates the additional erection of canopies and tents above the roof and allows you to work in any weather conditions. Naturally hardened foam concrete is produced directly at the construction site and is pumped from the ground or from free sections of the roof. The thickness of the fill is determined based on the density of the foam concrete and, accordingly, its thermophysical characteristics and the requirements of regulatory documents. To improve the heat-shielding properties, foam concrete may contain additives, for example, polystyrene foam granules.

Claims (6)

1. A soft flat roof containing layers of a waterproofing coating applied to the ceiling, thermal insulation material laid on it with a slope to the gutters of flat sheets with a waterproofing coating applied to them, characterized in that the flat sheets are mounted on a frame providing the required slope to the gutters, and heat-insulating material is monolithic ultralight foam concrete, poured under flat sheets. 2. Soft flat roof according to claim 1, characterized in that the frame is made of wood. 3. The soft flat roof according to claim 1, characterized in that the frame is made of lightweight galvanized metal profile. 4. A soft flat roof according to claim 1, characterized in that the frame is formed of wood uprights and guides made of a light metal profile. 5. Soft flat roof according to claim 2, characterized in that the flat sheets are mounted on rails mounted on racks of different heights. 6. Soft flat roof according to any one of claims 2 to 5, characterized in that the foam concrete contains polystyrene foam granules.