RU17554U1 - BUILDING MULTI-TIER FORESTS - Google Patents

Abstract

1. Construction multi-tier scaffolding, containing tubular prefabricated vertical frames with docking assemblies, interconnected by diagonal and horizontal connections on brackets, horizontal decks, manholes, stairs, screw jacks and thrust bearings, characterized in that the tubular frame elements are made of square pipes and interconnected guides located inside the upper part of the vertical frame rack, the brackets are made in the form of rods that pass through the frame rack and have on the opposite The movable part is pivotally fixed to the end, and the frame stiffness element is a ladder located in its plane, while the ladder width lies within no more than half the frame width. 2. Multi-tier scaffolding according to claim 1, characterized in that the horizontal ties are made in the form of a tubular element with flattened end parts provided with mounting holes. Multi-tier scaffolding according to claim 1, characterized in that the diagonal connections are made in the form of two tubular elements pivotally connected in the center, having flattened end parts with mounting holes and staggered relative to the plane of the scaffolds.

Description

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Construction multi-level scaffolding.

The utility model relates to construction and is intended for use in the construction and repair of buildings to perform work on the facades of buildings and structures.

Known multi-tier scaffolding containing prefabricated vertical frames interconnected by diagonal and horizontal connections, with stairs and fences, nastrsh platforms installed on frame elements and brackets. The frame element for a vertically mounted frame and / or mobile scaffolds of pre-prepared structural elements consists of two tubular cross-sections of racks rigidly connected to each other in the area of their ends by means of horizontal transverse traverses, and the racks at one end have the first the part that closes the corresponding rack, for example, an integrated pipe segment, at the other end, an additional second part, towering above the corresponding rack for example, a pin fixed without a threaded connection, the connecting elements of the transverse traverse for connecting with the uprights are equipped with stiffening elements that prevent torsion and stabilize the rectangular shape

of the frame element and the upper non-railing cross-beam is made completely and attached directly to the uprights. At the same time, the lower transverse cross-beam on both sides is bent down relative to the first stiffeners of the lower transverse cross-beam and attached to the uprights. (See RF patent No. 2140505, ju. E 04 1/14, dated May 24, 1995).

The disadvantages of the known design include the complexity of its manufacture and installation and, in addition, the implementation of the upper transverse beam in the form of a channel having a groove facing up leads to the accumulation of precipitation and premature corrosion of the metal.

The task to which the utility model is directed is the 5th cultivation of the manufacture, assembly and dismantling of scaffolds, an increase in the manufacturability and reliability of fastening ties, which increases the reliability of the entire scaffold structure as a whole.

The technical result of the proposed utility model is achieved due to the fact that the tubular elements of the frames are made of square tubes and are interconnected by guides located inside the upper part of the vertical frame rack, the brackets are made in the form of rods that pass through the frame rack and are opposite to the frame the end is a pivotally mounted movable part, and the ladder located in its plane is an element of frame rigidity, while the width of the ladder lies within no more than half the width us frames. Horizontal connections are made in the form

tubular element with flattened end parts provided with mounting holes. The diagonal connections are made in the form of two tubular elements pivotally connected in the center, having flattened torsion parts with fixing holes, mounted in the form of a cross in a checkerboard pattern relative to the plane of the scaffolds.

In Fig.1 - a General view of the construction of multi-tier scaffolding, aa - the cross-section of the frame rack, in Fig.2 - is a drawing of the frame, in Fig.Z shows the mounting of the bracket to the frame, in Fig. 4 is a horizontal communication structure, in FIG. 5 - construction of a diagonal connection.

Multi-tier scaffolding is a structure assembled from the following elements: frames 1, horizontal ties 2, diagonal ties 3 installed in the form of a cross in a checkerboard pattern relative to the plane of the scaffolds, fences 4, decking-platforms 5, decking-platforms with a hatch 6, elements anchor 7 to the wall, anchors 8 (Fig. 1)

Prefabricated vertical frames 1, made of square tubes and contain racks 9, the upper part of which is equipped with guide connecting inserts 10 made, for example, of round tubes. In the plane of the frame 1, at a width of no more than its HALF, a ladder I is made, the rack 12 of which is made of circular pipes and is an additional element of rigidity of the frame 1. The brackets 13 are made in the form of rods 14, welded to

the racks of the frame 1, pass through the racks 9 of the frame 1 and have a pivotally mounted movable part 15, made in the form of a falling flag. (figure 2). Horizontal connections 2 are made in the form of a tubular element 16 with flattened end parts 17 provided with mounting holes 18. (Fig. 4). The diagonal connection 3 is made in the form of two tubular elements 19, with flattened end parts 20 and mounting holes 21, which are centrally connected by a hinge 22. (Fig. 5).

Multi-tier scaffolding is built up with each other to the required height with the help of guide connecting inserts 10 made, for example, of round pipes, which are rigidly installed in the upper part of the uprights 9 of the square I frames and rise above them. For stability, the frame 1 structures are connected with each other by diagonal ties 3, which are mounted in the form of a cross in a schachboard pattern relative to the shekus of the woods on the street side and horizontal ties 2 on the side of the building. Horizontal connections 2 are made in the interior of the tubular element 16, and diagonal connections 3 in the form of two tubular elements 19, which are connected by a hinge 22 movably in the center. The tapered parts, the end parts 17 of the ties 2 and the parts 20 of the ties 3 are provided with fixing holes 18 and 20 through which the rods 14 of the brackets 13 pass, and then the hinged part 15 of the locking device is lowered in the form of a flag

falling type. Brackets 13 are used for fastening ties and fences pass through racks 9 and are welded to it.

In the masonry forests in the penultimate tier, diagonal screeds are installed in each span. The scaffolds are fastened to the wall through anchors mounted on frame racks and anchoring elements mounted on the facade of the building. The bottom row of frames 1 is supported by shoes or screw supports that are mounted on wooden linings. The number of shoes and screw supports is determined by the terrain. On the forests, two types of platforms with pastilles from the boards are used: one solid, the other with a hatch. In one span, one platform with a hinged hatch is installed, in another span - three narrow platforms.

The proposed technical solution of the utility model compares it favorably with the known solutions because it is easy to manufacture and assemble, has high adaptability, simple and reliable connection fasteners.

Claims (3)

1. Construction multi-tier scaffolding, containing tubular prefabricated vertical frames with docking assemblies, interconnected by diagonal and horizontal connections on brackets, horizontal decks, manholes, stairs, screw jacks and thrust bearings, characterized in that the tubular frame elements are made of square pipes and interconnected guides located inside the upper part of the vertical frame rack, the brackets are made in the form of rods that pass through the frame rack and have on the opposite The movable part is pivotally fixed to the end, and the frame stiffening element is a ladder located in its plane, while the width of the ladder lies within no more than half the width of the frame.  2. Construction multi-tier scaffolding according to claim 1, characterized in that the horizontal ties are made in the form of a tubular element with flattened end parts provided with mounting holes. 3. Scaffolding according to claim 1, characterized in that the diagonal connections are made in the form of two tubular elements pivotally connected in the center, having tapered end parts with mounting holes and staggered relative to the plane of the scaffolds.