RU2296841C2 - Scaffold equipment set to erect buildings and building structures having cast-in-place frame - Google Patents

Abstract

FIELD: construction technology, particularly to erect buildings and building structures with the use of collapsible, prefabricated and flying forms.

SUBSTANCE: scaffold equipment set comprises draw-out scaffold including trusses, working deck and folding guard structure. Set also includes cantilevered column corbels with deck and deck corbels. Draw-out scaffold trusses are provided with brackets for additional working deck receiving. The brackets are connected to outer truss brace. Cantilevered corbels consist of frames connected by girder so that cantilevered corbels may be re-adjusted in the case of column dimension change for value divisibly by module. Cantilevered corbels of columns may be installed on floor panel at columns and connected to the columns in extreme upper and lower sections thereof and to floor panel by thrust. The deck corbels may be provided with bent girders, which provide desk installation on, resting upon and fastening in stable position to one column.

EFFECT: extended range of technical means and technological capabilities of scaffold and technological equipment, increased simplicity of main works, decreased number of operations, labor inputs, increased equipment universality, reliability and improved safety of operations.

3 cl, 11 dwg

Description

The invention relates to construction technology and can be used for the erection of buildings and structures with a monolithic frame using collapsible, block, block or volumetric formwork.

The closest technical solution is the roll-out scaffolds included in the set of volumetric climbing formwork and installed on the same level on two sides of the building, consisting of trusses, working flooring and folding fences.

The disadvantages of the scaffolds are their limited technological capabilities, which involve the movement of personnel and technological equipment at the same level on two sides of the building, since on the other sides it is assumed that there are concrete walls in the frameless structural design or columns in the frame structural design of the building, as well as the impossibility of setting the withdrawable scaffolds simultaneously with two sides of the same corner of the building frame structure in the presence in the corner of the column. (one).

A bracket for cantilever scaffolds is known, including links connected by hinges, where each hinge is made in the form of a grip with a fixing device, which allows fixing the bracket with the same pitch to the rod mounted on the construction elements, regardless of the location of the elements.

The disadvantages of this design are the high degree of prefabrication of cantilever scaffolds consisting of a lock, brackets, rods and floorboards, the absence of fences and blocking devices (mechanisms) that prevent the spontaneous movement of the lock, bracket and floorboards, the inability to install brackets and flooring with only one element structures (columns), the unreliability of the installation of the castle, hung on the structural elements of the structure, determined by the friction force (2).

A device for attaching pendants is known, consisting of hooks inverted relative to each other, rigidly attached on rivets to opposite sides of the clamp.

The disadvantage of this design is the limited capabilities that do not require support and fixation in a stable position of flat elements (flooring), limited clamp parameters, determined by the length of the screw and the size of the mouth of the clamp (3).

The aim of the invention is to expand the technological capabilities of the scaffolds in the construction of buildings and structures in a frame design, providing movement at least on two sides - at two levels and solve the problem of providing scaffolds with the whole perimeter of the building, as well as the maximum reliability of the scrubbing means and manufacturability when they installation and dismantling, including on one column.

The goal is achieved:

1. The definition of the necessary module of the multiplicity of the overall dimensions of the structural elements in the plan and the dimensions in the axes of the regular building plan.

2. Reduction to a single module of overall dimensions in terms of means of conditioning.

3. The integrated use of both pre-existing and newly declared means of pre-treatment.

Previously known scaffolds include roll-out scaffolds, mounted scaffolds, assembly (working) platforms, transition bridges.

Newly announced scaffolds include roll-out scaffolds with a basket for additional working flooring, cantilever brackets with a flooring installed on the floors of the columns, and a floor bracket with a folding crossbar for installing the flooring in the presence of one column.

The design of the roll-out scaffolds is distinguished by the fact that their trusses are equipped with baskets for additional working flooring, hung on the external strut of the farm on clamps, which allows you to organize the second level of the flooring and equip additional evacuation routes.

The constructive solution of cantilever brackets with a deck is characterized in that brackets capable of readjustment depending on the dimensions of the columns with a constant constructive solution of the deck and combined with the deck into mounting blocks are installed on the ceiling of the columns with fastening to the columns in their extreme upper and lower section and additionally with a thrust in the floors, and the flooring is equipped with a fence and blocking mechanisms that prevent the spontaneous movement of individual elements of the scaffolds.

The design of the flooring bracket is characterized by the presence of a folding crossbar that allows installation, support and subsequent fastening in a stable position of the flat flooring, which makes it possible to install the flooring on one column, as well as a large throat clamp, which allows it to be installed on structural elements with a large range in thickness.

The proposed set of conditioning tools for the construction of buildings and structures with a monolithic frame is illustrated by drawings, where in FIG. 1 shows a fragment of the regular building plan and the layout of the facilities for the conditioning; figure 2 - roll-out scaffold, section aa; in Fig. 3, the node I is the fastening of the basket frame for an additional working flooring to the external strut of the roll-out truss farm; in figure 4, the node II is an explanatory device of the basket frame and the fastening of the additional working flooring; figure 5 is a schematic diagram of the installation of the cantilever bracket and flooring with fixing on existing structures of a building or structure; figure 6 - cantilever bracket of the column with the flooring in the working position, section BB; Fig.7 node supporting, fixing and locking the flooring on the cantilever bracket, section 1-1; on Fig - node lock bracket to columns and flooring to brackets, section 2-2; figure 9 - flooring in the transport and unlocked position; figure 10 - bracket flooring in the transport position; 11 is a diagram of the installation of the flooring on the cantilever bracket of one column and the bracket of the flooring, section BB.

The fragment of the regular building plan shown in FIG. 1 has a distance between the axes that is a multiple of the module, in this case 3M, where M = 100 mm, and is represented in the drawing by structures where reinforced concrete monolithic columns 1 have plan dimensions that are multiples of M.

On the monolithic floor slab 2 there are installed augmentation tools: roll-out scaffolds 3, cantilever brackets of columns 4, flooring along brackets of columns 5, floor brackets 6, forming a working flooring around the entire perimeter of the building being erected.

In the presented fragment it can be seen that the traditional solution is the organization of means of conditioning on the facade in the axes 1, IB; 4, Zh-I is impractical, since a significant part of the internal space around the perimeter of the building or structure is occupied by the pinched part of the withdrawable scaffolds.

Roll-out scaffolds 3, shown in figure 2, consist of trusses 7, assembled in a rigid spatial structure by ties 8 and struts 9, equipped with mounting loops 10 and hinged racks 11, are installed on the floors 2 of the underlying floor with jamming between the floors 2 and bursting with struts 9 in vertical structures 1.

For the production of works on the facade in the axes 1-4; B, And the floor being built, for moving people, the roll-out scaffolds are equipped with a working floor 12 and a guard 13 on racks 11.

To organize the evacuation of people from the installation horizon, moving along the facade in places difficult on the installation horizon, the scaffolds are equipped with additional working flooring 14 along the horizontal elements of the basket frame 15, hung, as shown in figure 3, node I, on the clamps 16 to the outer strut of the farm 7 roll-out scaffolds 3.

Additional working flooring 14 is performed similarly to the main working flooring 12, as shown in figure 4, the node II is mounted on bolts 17 to the horizontal elements of the basket frame 15 and is equipped with a fence 13 along the vertical elements of the basket frame 15.

To carry out work on the facade in the axes 1, BI of the floor being built on floors 2 to columns 1 with pinching between the floors 2 of the underlying floors, as shown in Fig. 5, installation means are installed consisting of cantilever brackets of columns 4 on which the flooring is supported 5.

The cantilever brackets of the columns 4 consist of mirrored frames 18, united in the spatial structure by the lower girders 19, the upper girders 20 through the hole 21, 25 on the bolts 17 and the latches 22. The frames of the cantilever brackets of the columns 18 are equipped with mounting loops 10, jacks 23 leading to the flooring 5 in a horizontal position, supports 24 and have a number of holes 21 with a step M corresponding to the modulus of the multiplicity of the dimensions of the columns 1 in the plan, and are intended for readjustment of the console brackets 4 in connection with the change in the size of the columns along p am 18 cantilever brackets 4. For the conversion of cantilever brackets 4 due to the change in the size of columns 1 across the frames of the cantilever brackets 18 and determining the distance between the frames 18, the lower crossbars 19 and the upper crossbars 20 have two rows of holes 25 in increments of 0.5 M, providing in a manner symmetrical with respect to the axis of the column, the dimensional change between the frames 18 with step M.

For reliable support and fixing of the flooring 5 in plan, the upper crossbars 20 are equipped with cantilever-mounted vertical latches 26.

The flooring 5 consists of a metal supporting frame with fork latches 27 and transverse ties 29, locking mechanisms 28, working floor 12 and guards 13 along the racks 11. The distance between the fork latches 27 and transverse ties 29 of the flooring frame correspond to the diameter of the cantilever vertical latches 26, and the distance between their axes is a multiple of 3M. Due to this, when changing the distance between the axes of the columns along the perimeter of the building with a step of 3M, with each rearrangement of the cantilever brackets of the columns 4, the fork latches of the supporting frame 27 of the deck 5 will be located on both sides of the cantilever vertical latches 26, reliably fixing the deck 5 on the cantilever brackets 4 in plan.

The fixing of the flooring 5 on the cantilever brackets 4 in height is provided by locking mechanisms 28, the design of which is illustrated in Fig.6, 7, 8.

The locking mechanism 28 consists of a pair of U-shaped hinged brackets 30 pivotally mounted between the transverse connections 29 of the supporting frame of the flooring 30, equipped with pivotally mounted mounting loops 31 and connected by a locking rod 32 located on the same vertical axis as the hinge of the U-shaped hinged brackets 30 that allows the rod 32 under the action of its own weight to automatically close the deck 5 on the upper crossbar 20 of the cantilever bracket of the columns 4, fixing it in height.

Dismantling of the flooring 5 is carried out with automatic unlocking when bringing it into transport position. Figure 9 shows that when the slings are pulled over the mounting loops 31 of the locking mechanisms 28, the U-shaped hinged bracket 30 opens the deck 5, and the locking rod 32, abutting in the highest position in the transverse ties 29 of the base frame of the deck 5, ensures its uniform rise .

To reduce the operations performed, the flooring 5 can be fixed in any possible way on the cantilever brackets of the columns 4, thus forming a single mounting block.

When organizing the means of scaffolding along the facade of a building or structure in the presence of only one column (section BB, FIG. 1), in addition to the above solutions, reliable support and fixation in a stable position of the deck 5 is ensured by the deck bracket 6 shown in FIG. 10, consisting of an integral clamp with a cantilever supporting part 33 and a mounting loop 10, a folding bolt 34 with a mounting loop 10, equipped with jacks 23 and a latch 22.

By installing the clamp on the ceiling 2 when the folding bolt 34 is in the transport position, as shown in FIG. 11, the flooring 5 is mounted on the cantilever support part of the clamp and the console bracket of the column 4. After the locking mechanisms 28 are brought into operation, the folding bolt 34 is installed in a horizontal position and fixed latch 22, after which the working flooring 12 together with the supporting frame of the flooring 5 are clamped by a jack 23, ensuring the support of the cantilever part of the flooring 5 and its reliable fixing in the design position.

The invention extends the arsenal of technical means, the technological capabilities of scaffolds and technological equipment in the construction of buildings and structures in a frame design, simplifies the implementation of the main types of work, reduces the number of operations performed, the labor costs for their implementation, increases the versatility of the equipment used, its reliability, safety of the work performed .

Information sources:

1. RF patent No. 2078180, cl. E 04 G 11/20, 1997.

2. Copyright certificate No. 484294, cl. E 04 G 5/06, 1975.

3. Japan patent 2772780, cl. E 04 G 21/32, 1998.

Claims (3)

1. A set of scaffolds for the construction of buildings and structures with a monolithic frame, including roll-out scaffolds, consisting of trusses, working floor and folding rails, characterized in that the console brackets of columns with a deck and floor brackets are introduced into the kit, and the truss scaffold farms are equipped with baskets for additional working flooring, hung on the external strut of the truss, while the cantilever brackets of the columns consist of frames connected by crossbars, with the possibility of readjusting the cantilever brackets with changing the size of the columns by a multiple of the modulus. 2. A set of scaffolds for the construction of buildings and structures with a monolithic frame according to claim 1, characterized in that the cantilever brackets of columns capable of readjustment depending on the dimensions of the columns with a constant structural solution to the flooring and combining it with the flooring in mounting blocks are installed on the ceiling columns with fastening to the columns in their extreme upper and lower section and additionally with a thrust in the ceiling, and the flooring is equipped with a fence and blocking mechanisms. 3. A set of scaffolds for the erection of buildings and structures with a monolithic frame according to claim 1, characterized in that the floor brackets are equipped with folding bolts that allow installation, support and fastening in a stable position of the flooring on one column.

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