RU2346125C1 - Method for installation of structures from multi-layer construction panels - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention is related to construction, namely to construction of structures from multi-layer panels, and may be used in panel house building. Method for installation of structures from multi-layer construction panels is realised by fixation of binding contour made of wooden bars to foundation, formation of grooves in ends of wall panels, installation of wall panels so that lower groove of wall panel is put on bars of binding contour, and joining of panels to each other. Prior to assembly line of structure binding contour is marked on foundation, anchor bolts are installed along the line of binding contour, elastic tape element is laid between anchor bolts, and binding contour is made of bars with length equal to panel length. Elastic tape element is cut by fixation to foundation by anchor bolts so that plane of every cut matches end of fixed bar. Assembly of wall panels is done from the structure angle, the second angle panel is connected at the right angle to the first panel, and structure is assembled by serial connection of panels to each other. Plumb is used to check deviation of assembled panel from vertical position, and panel end is aligned by vertical line by adjustment of anchor bolts tightening.

EFFECT: improvement of assembly quality.

2 cl, 1 dwg, 3 ex

Description

The present invention relates to construction, namely the construction of structures from multilayer panels, and can be used in panel housing construction.

A known method of mounting structures from multilayer building panels by connecting panels, roof frame and roof panels fixed to the roof frame.

RF patent №2098578, Е04Н 1/02, 1996

The method allows to produce a building structure with exhaust ducts and an exhaust shaft, and the outer walls and roof with a ventilated air gap between the layers of panels, which provides good ventilation properties.

The disadvantage of this method is the complexity of installation.

This drawback was overcome in another way of mounting structures from multilayer building panels by attaching to the foundation a strapping line of timber, forming grooves at the ends of the multilayer wall panels, installing panels so that the lower groove of the panel is worn on the strapping beam, and connecting the panels to each other

A positive decision on the application No. 2007103451, 2007 for the RF Patent for utility model.

This method according to the technical nature and the achieved result is the closest to the invention, and therefore adopted as a prototype.

This method makes it easy and quick to erect a panel structure.

According to the prototype method, the installation of a structure of multilayer building panels with a length of 6500-8000 mm and a height of 2500-3000 mm begins with laying on the foundation of a wooden trim beam, on which the wall panels are mounted, connecting them to each other with keys. After that, the upper beam is installed. The grooves in the ends of the panels in the form of U-shaped recesses bounded by the inner walls of the facing material are formed in a known manner by gluing plates of a porous material with facing plates, the sizes of the sides of which differ by the value of the depth of the grooves.

The accuracy of the interface between the panels and, as a result, the reliability and quality of the building structure as a whole depends on how accurately the size and shape of the groove is maintained. The non-perpendicularity of the ends of the grooves in the bases of the panels with respect to the vertical ends of the facing plates within 2-5 mm per 3000 mm of the length of the groove leads to a significant deviation of the panels from the vertical position, as a result of which there are distortions during installation, the value of which increases as the number of mating panels increases . Large gaps are formed at the joints of the panels, it becomes necessary to align the already closed ends of the corner panels after their installation, i.e. ends, in the grooves of which a protective or power element is already mounted that covers the porous layer, as a rule, a wooden beam. In this case, the vertical alignment of the structure angle by trimming the corner end of the panel occurs along the beam body, which violates the strength characteristics of one of the main supporting structural elements.

Thus, the disadvantage of this method is the unsatisfactory quality of installation of the structure.

The technical result of the proposed invention is to improve the quality of installation of a building structure by regulating the accuracy of the vertical installation of wall multilayer panels on a strapping beam.

The technical result is achieved by the fact that in the method of mounting structures from multilayer building panels by attaching to the foundation a strapping contour from wooden beams, forming grooves at the ends of the wall panels, installing wall panels so that the lower groove of the wall panel is worn on the beams of the strapping contour, and joining the panels with each other, before assembly, marking is carried out on the foundation of the line of the strapping loop of the structure, installing anchor bolts along the line of the strapping loop, laying with anchor bolts, an elastic tape element and form a strapping contour of bars equal to the length of the panels by fastening them to the foundation with anchor bolts, cut the elastic tape element so that the plane of each cut coincides with the end of the fixed beam, and the installation of wall panels is carried out starting from the construction angle , the second corner panel is connected at right angles to the first panel and the structure is being mounted, sequentially connecting the panels to each other, while the plumb line is checked for deviation my panel from the vertical end panels and are aligned vertically by adjusting the tightening anchor bolts.

It is advisable to use multilayer panels made of porous materials of polyurethane foam or expanded polystyrene, lined with plates of oriented particle board or drywall.

The drawing shows a diagram of the installation of panels.

Installation of wall panels is carried out starting from the corner of the structure, the first corner panel 1 is connected at right angles to the second panel 2. Further installation of the structure is carried out sequentially, connecting the panels to each other. Wall panels are installed so that the lower groove of the panel is worn on the beam 3 of the strapping loop mounted on the elastic band 4. In view of the presence of an elastic gasket between the beam and the foundation, the panel is freely mounted on the beam with a gap with the foundation. The deviation L of the mounted panel from the vertical position is checked using a plumb line. These deviations are associated with the error in the formation of the groove in the multilayer panel during its assembly and are expressed in the non-perpendicularity of the horizontal walls of the grooves 5 and the vertical ends of the cladding 6. The end face of the panel is vertically aligned during installation of the panel by adjusting the tightening of nuts 7 of the anchor bolts 8 securing the beam under this panel . The alignment is due to the fact that the beam has the ability to bend due to the elastic element 4 located under it. Moreover, this or that tightening of one beam does not affect the ability to regulate the beam following the data in the same way, since each adjustable area under one or another panel It is autonomous due to cuts of the elastic element (cut lines are indicated by arrows C) into sections equal to the length of each panel. The panels are fastened together by the upper strapping beam 9.

Using the ability to adjust the curvature of the profile of the strapping beam, due to its pressing to the foundation with anchor bolts through an elastic gasket, allows you to install the panels vertically, tightly mate them together, which improves the quality of installation of the structure.

According to the invention, building panels are used with a length of 6500 to 8000 mm and a height of 2500 to 3000 mm from a porous material 100 mm thick: polystyrene foam grade ПСБ С-35 GOST 15588-86 "Polystyrene foam" or polyurethane foam grade ППУ-317 according to OST 6-55 -455-90, lined with rigid oriented particle boards (OSB) 12 mm thick, made according to the technical specifications of TU RB 00276475.418-97 "Particle boards from large-sized oriented chips" or gypsum plasterboard sheets 12 mm thick, made in accordance with GOST 6266- 89. The strapping is performed from a wooden beam 100 × 50 mm, that is, a width of not more than a width and a height of not less than the depth of the grooves mating with it.

The invention is illustrated by examples.

Example 1. Installation of the structure begins with marking on the foundation of the strapping line, then, according to the template, drill holes in the foundation where the anchor bolts are installed, center them along the strapping line and fasten by cementing. Between the anchor bolts, a tape elastic element of rubber 12 mm thick and 100 mm wide is laid, on which the bars are laid with a length of 6500 mm, a width of 100 mm and a height of 50 mm, in which the holes for the passage of anchor bolts are pre-drilled using the aforementioned template. The bars are attached to the foundation and level horizontally by tightening the nuts of the anchor bolts. After attaching each beam, the elastic band element is cut so that the plane of each section coincides with the end face of the fixed beam.

As wall panels, multilayer panels with a length of 6500 mm and a height of 2500 mm are made of polyurethane foam with a thickness of 100 mm, lined with OSB plates with a thickness of 12 mm. The grooves in the ends of the panels in the form of U-shaped recesses with a depth of 50 mm, bounded by the inner walls of the facing material, are formed by gluing plates of porous material with facing plates, the sizes of the sides of which differ by the value of the depth of the grooves.

Wall panels are installed so that the lower groove of the panel is worn on the beam of the strapping loop. At the same time, with the help of a plumb line, the deviation of the mounted panel from the vertical position is checked. The end face of the panel is vertically aligned by adjusting the tightening of the anchor bolts securing the beam under the panel. The joints of the panels with the bars and between each other are sealed with foam. The joints of the panels with the bars are fixed with nails. The panels are fastened together by the upper strapping bar, which is installed horizontally in level, the joints are sealed with foam and the panels are fastened with nails to the upper bars. Then they mount the next floor, floor or roof of the building structure in accordance with the project.

Example 2. Mount the structure of multilayer building panels according to the technology described in example 1, using as wall panels, panels 8000 mm long and 3000 mm high of polystyrene foam 100 mm thick, lined with OSB plates 12 mm thick.

Example 3. Mount the structure of multilayer building panels according to the technology described in example 1, using as wall panels, panels with a length of 6500 mm and a height of 3000 mm from polyurethane foam 100 mm thick, lined with gypsum plasterboards 12 mm thick.

Designs made according to the invention are compared with designs made by the prototype method. The quality of installation is assessed by the appearance of the structure and by the amount of skew of the panels in the corners of the structure. Designs made according to the proposed technical solution practically do not require sealing joints between panels, since the maximum gaps between them along the vertical edges do not exceed 6 mm, while similar gaps in the structure according to the prototype method are in the range from 15 to 22 mm, which requires their sealing and subsequent stripping. The skews of the panels in the corners, that is, the deviation of the end face of the corner panel from the vertical position L, in a structure made in a known manner reaches 18-22 mm. When trimming such a protrusion vertically, to equalize the angle of the structure made by the known method, it is necessary to cut the corner beam by almost half the thickness, and the structure made by the proposed method is in the range from 5 to 10 mm, which improves the quality of the structure and there is no need for additional measures to strengthen it.

Using the method of mounting structures from multilayer building panels according to the proposed technical solution improves the quality of installation of the structure, expands the possibilities of panel housing construction and the pace of construction of building panel structures.

Claims (2)

1. The method of mounting structures from multilayer building panels by attaching to the foundation a strapping loop of wooden beams, forming grooves at the ends of the wall panels, installing wall panels so that the lower groove of the wall panel is worn on the beams of the strapping loop, and connecting the panels to each other, different the fact that before assembly, marking is carried out on the foundation of the line of the strapping circuit of the structure, installing anchor bolts along the line of the strapping circuit, laid between the anchor bolts of electric elastic band element and form a strapping loop of bars equal to the length of the panels, by fastening them to the foundation with anchor bolts, cut the elastic band element so that the plane of each section coincides with the end of the secured beam, and the wall panels are installed, starting from the construction angle, the second the corner panel is connected at right angles to the first panel and the structure is being assembled, sequentially connecting the panels to each other, while using a plumb line, check the deviation of the mounted panel from the vertical nogo position and align the end panel by controlling the vertical tightening anchor bolts. 2. The method according to claim 1, characterized in that as a multilayer building panels use plates of porous materials from the series: polyurethane foam, expanded polystyrene, lined with plates of oriented chipboard or drywall.