RU104588U1 - ROOF DESIGN - Google Patents

Abstract

 1. Roof construction, including load-bearing roofing slabs, leveling screed and multi-layer rolled waterproofing soft carpet, drainage system, parapets, ventilation blocks and shafts, roof exits, radio and television antennas, roof advertising stands and other structures protruding above the roof, characterized the fact that a hard waterproof layer of monolithic concrete reinforced with welded nets is laid on the roofing slabs. ! 2. The construction according to claim 1, characterized in that the roof structure along the slopes in order to increase the rigidity and strength of the structure can have a flat, ribbed, wavy or other surface shape. ! 3. The construction according to claim 1, characterized in that on the eaves overhang the monolithic layer is rounded and a protruding roofing drain is laid under it, reinforced with a T-shaped steel strip. ! 4. The construction according to claim 1, characterized in that the eaves overhang has a rib with a variable width on the roof to form a slope towards the drainage funnel. ! 5. The design according to claim 1, characterized in that the roof can be installed fencing, fixed to the embedded parts of the monolithic layer. ! 6. The construction according to claim 1, characterized in that to increase the crack resistance from shrinkage and temperature deformations, as well as the strength of concrete, the monolithic layer is reinforced with a welded mesh with mesh sizes ranging from 50-150 mm. ! 7. The construction according to claim 1, characterized in that in order to obtain a monolithic concrete layer of the required quality, special additives are used for self-sealing of concrete, increasing density and water resistance. ! 8. The construction according to claim 1, characterized

Description

A useful model of roof construction relates to the field of overhaul, reconstruction and modernization of reinforced concrete roofs with soft roofs of civil buildings.

Prefabricated reinforced concrete roofs with a micro attic and cool attics with a roof structure in the form of a soft multilayer rolled waterproofing carpet and leveling screed / 1 / are widely known and have long been used in construction. Known monolithic single-layer reinforced concrete roof-roof, the use of which in modern construction is only planned / 2 /. Its peculiarity is the large total weight of all elements, which is not acceptable for use during overhaul, reconstruction and modernization of roofs, roofs at old facilities that have been in operation for a long time, because this will lead to an increase in the load on the old underlying structures (walls, columns, foundations and foundations) and an increase in the cost of their strengthening. In this regard, the closest analogue to the utility model is prefabricated reinforced concrete roofs of a separate design with a micro attic and roofs with a walk-through attic with a roof structure in the form of a continuous soft multilayer rolled waterproofing carpet and leveling screed / 3 /. The main disadvantages of such a roof design are: low service life of 2-6 years, the complex design of the interface nodes of the roof with the vertical surfaces of walls, parapets, ventilation units, as well as the joints with radio, television antennas, extensions, roof stands, and other structures where most often leaks / 4; 5/. On soft roofs, it is not allowed to throw snow with metal shovels, hammer ice with sharp tools, walk in hard shoes and put heavy objects / 5 /. Typically, such roofs are carried out with an external spillway and do not have an organized drain, there are no safety barriers on them, because the installation of catchments and fences is associated with the appearance of additional areas of leakage. Soft roofs have low fire resistance, as they are made of combustible bitumen materials.

The problem to which the claimed utility model is directed is ensured by obtaining technical results in the form of increasing the service life of roofs up to 100 years or more, obtaining a solid and durable surface of a roof structure, creating durable reliable waterproof joints of the roof structure with walls, parapets, ventilation blocks, as well as with radio and television antennas, extensions, stands and other structures on the roof. Technical results are achieved by the fact that in the process of overhaul, reconstruction or modernization of roofs with a soft roof structure, a new roof structure is arranged in the form of a monolithic waterproof dense concrete layer reinforced with welded reinforcing mesh with mesh sizes ranging from 50-150 mm. The thickness of the monolithic concrete layer is taken within 6-12 cm, depending on the climatic region and operating conditions. In order to increase the rigidity and strength of the roof structure and the roof as a whole along flat slopes, the roof can be ribbed, wavy or with another surface shape. All this allows you to increase the life of the roof to 100 years or more. For low-rise buildings, where the preservation of an unorganized gutter is allowed, a monolithic layer is laid along the slopes to the very edge (eaves overhang) with the formation of a smooth rounding of the roof surface and a roof drain device made of roof iron fixed with a rigid T-shaped steel strip, which are installed under monolithic layer. When creating an organized outdoor gutter on the roof along the edge of the cornice, a rib of variable width is formed during concreting with the formation of a slope towards the drainage funnel. On roofs with an internal gutter organized, a monolithic layer at the places of abutment to walls, parapets, ventilation blocks, shafts, pipes and other structures is made with framing ribs, which are tightly adjacent to the vertical planes of the structures through the elastic gasket. From above, such joints are additionally covered with non-hardening sealant and closed with a roofing iron with a compensator. Monolithic reinforced concrete roofing is divided into separate sections (cards) with dimensions within 25x25 m. Between adjacent sections (katas), expansion joints are made with ribs, between which elastic gaskets (veleterm, genit, porizol, PRP, tarred board) are laid, on top - non-hardening sealant and additionally a cap made of roofing iron with a compensator. For fastening safety barriers, radio and television antennas, extensions, billboards and other equipment, special steel embedded parts are installed in monolithic concrete. High water resistance and workability of concrete is ensured by introducing special additives into the concrete mix.

The strength of the monolithic layer and its crack resistance from the manifestation of shrinkage and temperature deformations is ensured by mesh reinforcement.

Figure 1 is a structural diagram of the types of roofs with transverse sections, where you can apply a durable monolithic roof structure; figure 2 shows the design of the cornice unit with an unorganized drain; figure 3 shows the design of the cornice assembly of a reinforced concrete roof with a monolithic roof structure with an organized external gutter; figure 4 shows the nodes of the junctions of the monolithic roof structure to the roof elements; figure 5 shows the expansion joints between adjacent sections (maps) of a monolithic roof; figure 6 shows the fasteners of roof structures on a monolithic roof; figure 7 shows the embedded parts of the fastening of roof structures; in Fig.8 shows the node pairing tubular structures (garbage chute, sewage) with the roof. Figure 1-8 adopted legend: 1 - prefabricated reinforced concrete roof of a separate structure (with a wet roof); 2 - monolithic roof structure; 3 - supporting reinforced concrete ribbed coating plate; 4 - micro attic; 5 - a warming layer; 6 - attic floor; 7 - combined precast concrete roof of a separate structure (with a micro attic) and an organized external drain; 8 - cornice rib of variable width; 9 - drainage funnel of the external drain; 10 - reinforced concrete roof with a cold attic through passage and an internal drain; 11 - parapet; 12 - drainage funnel; 13 - middle water separation rib of variable width; 14 - pipe of the internal drain; 15 - attic space of the passage attic; 16 - a vent; 17 - supporting column or wall with openings; 18 - discharge of roofing iron; 19 - steel T-shaped strip for fastening the drain; 20 - fencing; 21 - embedded part; 22 - node mounting fencing; 23 - a vent in the outer wall; 24 - solution; 25 - wall (parapet); 26 - ventilation unit; 27 - elastic gasket; 28 - sealing non-hardening sealant; 29 - sheet of roofing iron with a compensator; 30 - node mounting braces; 31 - node mounting the antenna; 32 is a node mounting a rack of roof advertising; 33 - embedded part for securing the fence; 34 - embedded part for mounting stretch marks; 35 - embedded part for mounting the antenna; 36 - embedded part for attaching a roof advertising stand and other structures; 37 - pipe; 38 - a protective apron.

The implementation of the claimed utility model occurs, as a rule, during overhaul, reconstruction or modernization of prefabricated reinforced concrete roofs with a roof structure in the form of a soft roll roof. The old soft roof, together with the screed, is removed to clean the surface of the supporting elements of the coating from the remains of the old roof, reinforcing nets, embedded parts are laid and a monolithic layer of dense waterproof concrete is applied, side formwork is installed and ribs protruding on the roof are made of the same concrete, they are closed after hardening of the monolithic concrete all joints, nodes, metal structures are installed and fixed on the roof. This design of the roof can be successfully used in new construction of buildings and structures.

Bibliographic data

1. Maklakova T.G., Nanosova S.M. Construction of civil buildings. Edited by Doctor Tech. sciences, professors T.G. Maklakova. Textbook for high schools. Association of construction universities. M., 2008.

2. The decision to grant a patent for a utility model. Application No. 2009136860/03 (052114), filing date of the application is 05.10.2009.

3. Mazalov A.N., Krichevskaya E.I., Chaplitskaya V.L. Reinforced concrete roofs of multi-storey residential buildings. Overview information. Issue 8. TsNIIEP homes. TSNTI, M., 1982.

4. Methods for identifying defects and evaluating the operational properties of roofs of reinforced concrete roofs of residential buildings. TsNIIEP homes Gosgrazhdanstroy. M., Stroyizdat, 1985.

5. Technical instructions for the operation, repair and reconstruction of combined roofs with rolled roofs. MKH USSR, NIKTI GC, Kiev, 1973.

Claims (11)

1. Roof construction, including load-bearing roofing slabs, leveling screed and multi-layer rolled waterproofing soft carpet, drainage system, parapets, ventilation blocks and shafts, roof exits, radio and television antennas, roof advertising stands and other structures protruding above the roof, characterized the fact that a hard waterproof layer of monolithic concrete reinforced with welded nets is laid on the roofing slabs. 2. The construction according to claim 1, characterized in that the roof structure along the slopes in order to increase the rigidity and strength of the structure can have a flat, ribbed, wavy or other surface shape. 3. The construction according to claim 1, characterized in that on the eaves overhang the monolithic layer is rounded and a protruding roofing drain is laid under it, reinforced with a T-shaped steel strip. 4. The construction according to claim 1, characterized in that the eaves overhang has a rib with a variable width on the roof to form a slope towards the drainage funnel. 5. The design according to claim 1, characterized in that the roof can be installed fencing, fixed to the embedded parts of the monolithic layer. 6. The construction according to claim 1, characterized in that to increase the crack resistance from shrinkage and temperature deformations, as well as the strength of concrete, the monolithic layer is reinforced with a welded mesh with mesh sizes ranging from 50-150 mm. 7. The construction according to claim 1, characterized in that in order to obtain a monolithic concrete layer of the required quality, special additives are used for self-sealing of concrete, increasing density and water resistance. 8. The construction according to claim 1, characterized in that in the nodes adjacent the monolithic layer to the parapets, walls, ventilation units, shafts, pipes and other protruding structures, elastic gaskets are placed (veleterm, genit, porizol, PRP, tarred board, etc.) , an edge is made that has a smooth connection with the roof and bevels of the upper face towards the roof, and the joint itself is filled from above with a non-hardening sealant and covered with roofing iron in the form of a drain, umbrella or sheet with a compensator. 9. The construction according to claim 1, characterized in that the expansion joints between adjacent sections (maps) of the roof are made with vertical ribs with the installation of an elastic gasket between them, sealing on top with a non-hardening sealant and a cap made of roofing iron with a compensator. 10. The construction according to claim 1, characterized in that for mounting radio and television antennas, billboards, fences and other equipment, special fasteners and embedded parts are installed. 11. The construction according to claim 1, characterized in that due to the use of non-combustible material (concrete), the roof structure has a high degree of fire safety.