RU2282007C1 - Building structure water-tightness and waterproof covering recovery method - Google Patents

Abstract

FIELD: building, particularly roof repair and waterproofing.

SUBSTANCE: method involves arranging roof paper between coating area to be repaired and movable heating member; heating organic binding material to soften thereof by means of the heating member; compacting the coating along with rolling-on roofing paper to heated coating.

EFFECT: increase service life of waterproof covering.

5 cl, 1 tbl

Description

The invention relates to construction production, and in particular to methods of repairing waterproofing and roofs containing an organic binder (compositions based on bitumen, tar, etc.).

A known method [1] of roof repair, in which the elimination of defects is carried out by applying parts of the materials from which the old coating was made, or by sticking new layers of rolled roofing material when repairing large sections of the roof, when the material is glued by applying hot or cold adhesive mastic with subsequent layout rolled material and its rolling.

The disadvantage of this method is that when gluing a new roofing material to the old, the defects of the latter are not eliminated.

In the process of prolonged atmospheric exposure (sunlight, a sharp change in temperature, frequent freezing and thawing of the roof, etc.), the roofing material becomes embrittled with the appearance of many cracks that remain in it even after new material is glued to it. As a result of this, the old roofing material continues to “crack” (due to the expansion of cracks), which has a negative effect on the coating glued on top. Microcracks appear in it, and sometimes even a partial peeling off of a new roofing occurs. Microcracks that appeared in the new roofing material as a result of atmospheric exposure begin to grow rapidly, which leads to a violation of the waterproofing of the coating.

As studies have shown, the durability of the roof repaired by the above method is 1.5-2.4 times (depending on the condition of the old coating) lower than the durability of the roof, on which one layer of the new roofing material is laid.

A known method [2] of eliminating defects in the waterproofing of structures, in which the heating of the waterproofing layer is carried out by electric current, by passing it through a metal mesh previously embedded in the insulation layers. After melting and subsequent cooling of the bituminous mastic defects, cracks, pores disappear.

The main disadvantage of the described method is the limited use of it, due to the need to use a conductive grid, which should be initially laid when installing the roof.

In addition, the method has several other disadvantages.

Firstly, if necessary, eliminate the defect, for example, only in one small area of the roofing is the entire coating area heated.

Secondly, due to the lack of surface thermal insulation, heating of the coating is accompanied by large heat losses, especially in the cold season, which leads to significant unproductive energy costs.

Thirdly, the presence of a metal mesh makes it difficult to access the base of the coating and to the roof itself, which greatly complicates the implementation of various repair and maintenance work, etc.

For the prototype, a method was chosen to restore the waterproofing of the waterproofing coating of building structures [3] by heating the organic binder, the renewable waterproofing coating by the movable heating element laid on it, and sealing the coating until it softens. In this case, the surface temperature of the heating element exceeds 1.8-3.0 times the softening temperature of the organic binder, and the coating is densified at 0.15-0.5 MPa. Before compaction, the softened organic binder is leveled.

The disadvantage of the method chosen for the prototype is that it does not provide uniform heating of the organic binder over the entire thickness. The upper layers of the organic binder, which are closer to the heating element, have a significantly higher temperature and viscosity than the lower layers, as a result of which, when the softened organic binder is subsequently compacted, microcracks form in the roofing, which quickly deepen and expand under atmospheric action, thereby , reducing the durability of the restored coating.

The technical task of the invention was to increase the durability of the restored waterproofing coating.

The essence of the invention lies in the fact that in the method of restoring the waterproofing of the waterproofing coating of building structures, including heating the organic cementitious coating to soften by means of a movable heating element and subsequent sealing of the coating, roofing cardboard is placed between the restored plot of the coating and the movable heating element before roofing , after warming up, the roofing cardboard is rolled to coating while sealing the coating.

In addition, before placing the roofing cardboard between the restored coating area and the movable heating element, preliminary heating, leveling of the softened organic binder and sealing of the coating are carried out.

Before placing the roofing cardboard between the restored area of the coating and the movable element, the roofing cardboard or the restored area is treated with a surfactant. After rolling the roofing cardboard to the heated coating while sealing the coating, a waterproofing layer of at least 1 mm is applied to the roofing cardboard. In this case, the heating of the organic binder coating is carried out to a temperature of 80-270 ° C with holding at this temperature for 4-20 minutes, and the coating is densified with a force of 0.1-0.6 MPa.

The durability of the waterproofing coating of building structures restored by the proposed method significantly exceeds the durability of a similar coating restored by the known method selected for the prototype. This effect is achieved due to the fact that in the restored coating by the proposed method there are no microcracks, surface pores and other similar defects that are rapidly progressing from atmospheric exposure.

The proposed method is acceptable for the restoration of both thick coatings (up to six or more layers deposited on each other), and thin, including severely destroyed and thinned in the upper layers to a thickness of less than 1 mm.

The method of restoring the waterproofing of the waterproofing coating of building structures is as follows. On a previously cleaned dry surface of a site of an old waterproofing coating of a roof, roofing cardboard is laid (TU 57770-502-2002-843-71-8-94 of LLC Kubankrovlya. Prior to the development of the proposed method, roofing cardboard was used only as the basis of roofing felt). A movable heating element, for example, a flexible heating element, is laid on top of the roofing cardboard, and the organic binder is heated through the roofing cardboard to a temperature of 80-270 ° C with holding at this temperature for 4-20 minutes. If the reconstructed waterproofing coating contains 1-2 layers, the heating is carried out to a temperature of 80-90 ° C with an exposure of 4-5 minutes. As the thickness of the reconstructed coating increases, the heating temperature and the exposure time increase. If the reconstructed coating contains, for example, six or more layers, then the organic binder is heated to a temperature of 270 ° C and maintained at this temperature for 20 minutes. After heating the organic binder, the reconstructed waterproofing coating to the desired temperature and holding at this temperature, the roofing cardboard is rolled to the heated coating with simultaneous compaction of the coating with a force of 0.1-0.6 MPa.

If the top layer of the multilayer reconstructed coating is severely destroyed, depleted in bitumen and thinned to a thickness of less than 1 mm, then before placing the roofing cardboard between the reconstructed section of the waterproofing coating and the movable heating element, the organic binder is preheated to a temperature of 80-270 ° C with exposure at this temperature for 4-20 minutes, leveling the softened organic binder and sealing the coating with a force of 0.1-0.6 MPa. Then, roofing cardboard and a movable heating element are laid on a preheated and compacted coating. After that, the same operations are carried out with the same modes as described above.

If the top layer of the reconstructed waterproofing coating is depleted in bitumen, it is recommended to treat the roofing cardboard or the reconstructed coating section before placing the roofing cardboard between the reconstructed coating section and the movable heating element. This intensifies the penetration of bitumen and its components of the lower part of the coating into the upper and into the roofing cardboard.

If the top layer of the reconstructed waterproofing coating layer with a surfactant helps to reduce the temperature holding time from 4-20 minutes to 4-12 minutes. Moreover, any surfactants, including kerosene, green oil and others, are suitable for these purposes. The choice of a specific surfactant for use in the proposed method depends solely on economic factors.

In addition, if the top layer of the reconstructed waterproofing coating is heavily depleted in bitumen and its components, then after rolling the roofing cardboard to the heated coating while sealing the coating, a waterproofing layer is applied to the roofing cardboard. The thickness of this waterproofing layer must be at least 1 mm.

The results of comparative tests showed that the physico-mechanical properties of the coating restored by the proposed method far exceed the physico-mechanical properties of the coating restored by the method selected for the prototype. The tests were carried out as follows. Four samples were taken from the roof, waterproofing after operation for five years. The samples were restored by the proposed method and by the method selected for the prototype, and then underwent 10 aging cycles, which corresponds to 5-8 years of operation on the roof. Aging of reconstructed samples of waterproofing coatings was carried out according to the method described in GOST18956-73 "Roofing roll materials. Testing methods for aging under the influence of climatic factors".

After aging, reconstructed samples of the waterproofing coating were tested for breaking load (according to GOST 2678-94), water absorption (according to GOST 2678-94), heat resistance (according to GOST 2678-94), flexibility (according to GOST 2678-94) and crack resistance (according to " Methodology for determining the crack resistance of waterproofing materials ", developed by the State Unitary Enterprise Rostov Research Institute of the Academy of Public Utilities). The test results are shown in the table.

Table Physico-mechanical properties of waterproofing coatings, restored by the proposed method and according to the patent of the Russian Federation No. 2085676 after 10 aging cycles. Breaking load, MPa Water absorption,% Heat resistance Flexibility Crack resistance A single-layer ruberoid coating restored by the proposed method 24.4 3.0 withstood withstood withstood A single-layer ruberoid coating restored according to US Pat. RF №2085675 12,2 7.0 withstood could not resist could not resist Four-layer roofing coating restored by the proposed method 35,4 6.3 withstood withstood withstood The four-layer roofing material restored according to US Pat. RF №285675 27,2 9.8 withstood could not resist could not resist

Literature

1. Arievich E.M. and other. Operation of residential buildings. - M .: Stroyizdat, 1991, p. 408.

2. USSR copyright certificate No. 62358, cl. E 04 B 1/64.

3. Patent RU 2085675, cl. E 04 D 5/02.

Claims (5)

1. The method of restoring the waterproofing of the waterproofing coating of building structures, comprising heating the organic cementitious coating until it is softened by means of a movable heating element and subsequent sealing of the coating, characterized in that before the heating of the organic cementitious coating, a roofing cardboard is placed between the restored coating section and the movable heating element, after heating is carried out rolling of roofing cardboard to a heated coating with simultaneous seal coating. 2. The method according to claim 1, characterized in that before placing the roofing cardboard between the restored coating area and the movable heating element, preliminary heating, leveling of the softened organic binder and sealing of the coating are carried out. 3. The method according to claim 1, characterized in that before placing the roofing cardboard between the restored coating area and the movable heating element, the roofing cardboard or the restored coating area is treated with a surfactant. 4. The method according to claim 1, characterized in that after rolling the roofing board to the heated coating while sealing the coating, a waterproofing layer is applied to the roofing board, the thickness of which is at least 1 mm. 5. The method according to claim 1 or 2, characterized in that the heating of the organic adhesive coating is carried out to a temperature of 80-270 ° C with holding at this temperature for 4-20 minutes, the coating is compacted with a force of 0.1-0.6 MPa