RU2154139C2 - Fitting for attachment of hydraulic insulation layers to ventilation blocks - Google Patents

Abstract

FIELD: laying of rolled roofing on roofs of apartment houses, public and industrial buildings. SUBSTANCE: invention refers to ventilation blocks with length exceeding 1000 mm. Fitting for attachment of hydraulic insulation layers to ventilation blocks includes inclined layer of light concrete with hydraulic insulation layers bonded on to inclined surface of light concrete layer anchored together with protective apron by means of clamp, bolts and nuts on to ventilation blocks. Clamps are made of longitudinal strips with length equal to that of block with ends bent through 90 deg having holes which match holes in longitudinal strips. Metal bolts are put into holes drilled along longitudinal side of block through its entire thickness and into holes of longitudinal strips. EFFECT: improved quality of attachment, increased functional reliability of fitting in process of its usage. 1 dwg

Description

 The invention relates to the field of construction, in particular, to a device for joining waterproofing layers to ventilation blocks with a length of more than 1000 mm when performing rolled roofs of residential, public and industrial buildings.

Known junction of waterproofing layers to ventilation units / Roof details of residential buildings. Vol. 2. Prefabricated reinforced concrete roofs with rolled and rollless roofs. M., Central Research Institute of Housing, 1979 - 60 pp. /, In which the waterproofing layers are glued to a vertical surface to a height of 300 mm or more from the leveling screed and with a protective apron fixed with dowels to the ventilation unit. At the junction of the coating plates to the ventilation unit, a side 100 mm high is made at an angle of 45 ^o from cement mortar of grade 100.

 The disadvantages of the known node adjoining the waterproofing layers to the ventilation units are: gluing the waterproofing layers to the vertical surface of the ventilation units, unreliable fastening of the waterproofing layers and the protective apron to the ventilation units by shooting them with dowels. Under the influence of systematic efforts caused by frequent gusts of wind, the fastening of the protective apron weakens and after a short time it lags behind the ventilation unit. As a result of solar radiation, bitumen mastic melts and drains from vertical surfaces, as a result, the waterproofing layers slip and open up water to the roof layers.

 The purpose of the invention is to improve the quality, increase the reliability of the known node adjacency of the waterproofing layers to the ventilation units and increase the service life of rolled roofs.

 The goal is achieved by the fact that in the junction of the waterproofing layers to the ventilation units they are glued along the inclined surface of the plaque and together with the protective apron are fixed with a clamp composite clamp to the ventilation units.

 The drawing shows the junction of the waterproofing layers to the ventilation units.

 Thermal insulation with mineral wool plates was performed 1. A vapor barrier 3, a heat insulation layer 4, an equalizing screed were arranged on the coating plates 2. A protective apron 7 was drawn with nuts 6 using metal bolts 8. The places where the protective apron and waterproofing layers adjoin the ventilation pipes were greased with sealing mastic 9. A clamping compound clamp 10 is installed. An inclined plaque 11 and a protective layer 12 of the roof are made. An additional 13 and 14 main waterproofing layers are glued. Ventilation blocks 15 are installed on the layer 16 of cement-sand mortar.

After cleaning the base perform a plaque 11 of lightweight concrete of class B 7.5 to a height of 300 mm at an angle of 45 ^o . After the time required for the hardening of the concrete is over, the main 14 and additional 13 waterproofing layers are glued along the block and the vertical part of the block to a height of 100 mm. Then arrange the protective layer 12 of the roof of the gravel of small fractions. The top of the waterproofing layers is coated with sealing compound 9 UMS-50. Then, holes ⌀ 12 mm are drilled in the longitudinal side of the block through 300-400 mm for the entire thickness of the block. A protective apron 7 made of galvanized steel and longitudinal metal strips with a section of 40x4 mm with holes drilled from the holes and bent ends by 90 are installed. The length of the longitudinal strips should be equal to the length of the block. Metal holes of 8 ⌀ 10 mm made of steel of class A-1 are inserted into the holes in the strips and the block. The bolts must be 60 mm longer than the thickness of the ventilation unit. Screw nuts 6 onto the bolts. Due to the tension, the metal strips tightly press the waterproofing layers and the protective apron to the longitudinal sides of the ventilation unit. Then, a protective apron and end metal strips 10 with holes at the ends, which should coincide with the holes on the longitudinal strips, are installed on the ends of the block. Metal bolts ⌀ 10 mm are inserted into these combined holes, and by tightening the nuts, they are pulled to the end faces of the block. All metal parts are pre-coated with an anti-corrosion compound. The ventilation blocks 15 are insulated below the roof with mineral wool boards 1 and are installed on the layer 16 of cement-sand mortar.

 The device of a light concrete concrete pad allows to improve the performance of waterproofing layers at the junction of them with ventilation units by eliminating the vertical section of the roof. Fixing the top of the waterproofing layers and the protective apron to the ventilation units with a length of more than 1000 mm with the help of metal composite clamps and bolts reliably holds them in the design position.

 Thus, the use of the claimed invention will significantly (not less than 2 times) increase the service life of rolled roofs and simplify the manufacture of ventilation units.

Claims (1)

The node adjoining the waterproofing layers of the rolled roofs to the ventilation units, including an inclined pad, glued on its surface and secured to the ventilation units waterproofing layers, a protective apron, characterized in that the waterproofing layers are attached together with a protective apron to the ventilation units using clamp composite clamps and metal bolts and nuts, wherein the clamps consist of longitudinal strips of length equal to the length of the block, with the ends bent at 90 ^o, with holes at the ends coinciding guides with openings on the longitudinal strips and the metal bolts are inserted into the drilled hole along the longitudinal side of a block on the whole of its thickness in the holes and the longitudinal strips, as well as the matching holes of the end strips and the bent ends of the longitudinal strips.