RU121821U1 - FLAT BRACKET SUPPORT BRIDGE - Google Patents

Abstract

1. A flat support of a prefabricated bridge, containing a pair of struts, fastened to each other by a box-section transverse girder and cross-braces rigidly fixed by their ends on the struts, and also at least one support shoe, characterized in that the girder is made with flanges for fastening on the racks, and the racks themselves are made up of tubular sections with gussets along the edges and fastened to each other and to the girder flanges using swing bolts. ! 2. The flat support of the modular bridge according to claim 1, characterized in that the shoe of the support is made up of a central and attached parts, each of which is a horizontal sheet reinforced with stiffeners, framed along the outer contour by a vertical bead protruding beyond its lower edge, and the attached part of the shoe is rigidly attached to the support posts with lanyards and bolts to transmit vertical forces from the support posts and hold the single-standing support in a vertical position during assembly. ! 3. The flat support of the modular bridge according to claim 1, characterized in that each post is provided with a screw pile located inside it, a pile shoe enclosing this pile, a post tip associated with the pile shoe, and a bolt attachment to the pile. ! 4. The flat support of the modular bridge according to claim 1, characterized in that each post is provided with an assembly ladder. ! 5. The flat support of the modular bridge according to claim 1, characterized in that the tubular sections are made of different or the same height.

Description

The utility model relates to the field of bridge construction and can be used in collapsible bridges.

Known lifting supports on metal or wooden piles, constructed from local materials, including a lifting beam, two pendants, two pairs of jack and jack beams, jacks (Railway bridge NZHM-56. Addition, - M. Voenizdat, 1997, p.67- 73).

The disadvantages of the known supports are the reduction of their operational capabilities, the increase in installation time due to the need to build a foundation from driven piles on water, the complexity of installation due to the need for welding, in particular, on water.

A utility model is known (RU No. 60087, IPC E01D 19/14, E01D 15/00, 08.21.2006), which relates to the field of bridge construction and can be used in the construction of coastal parts of floating railway bridges with fluctuations in water level. The technical result of the aforementioned utility model is to create a support with reduced mass without changing its bearing capacity and operational characteristics, simplifying the technology of its installation. The bridge frame support contains a pair of racks installed inside each of them with the possibility of vertical movement of a screw pile with a pile tip equipped with a screw blade, holes along the entire height of each of the screw piles with a given step are made, a pair of shoes, each of which is made with an open cavity under the screw blade of the pile tip and by means of a cross swivel attached to the lower part of each of the racks, the base of each of the support shoes is made with vertical ribs gesture bones, a crossbar, at each end of which a groove is made under the racks and one technological platform is rigidly fixed, two mechanisms for raising or lowering the crossbar, each of which consists of a drive winch, a flexible link and a chain block containing two blocks: movable, consisting of two rollers and fixed, while the drive winch and one of the rollers of the movable unit are installed on the technological platform, support elements located on racks above and below the crossbar, pins, a transverse connection rigidly fixed with its ends to the ykah. New is that each shoe is a welded metal structure, including a base made in the form of a square sheet with beveled corners and with an axial square hole for the screw blade of the pile tip, at least four stiffeners are rigidly mounted on the outer sides of each of which is made in the form of a trapezoid, and the length of its lower base is equal to the length of the side of the square sheet, and the length of its upper base is equal to the length of the side of the square hole, each platforms is rigidly attached to the corresponding end of the crossbar, so that its horizontal axis of symmetry is parallel to its longitudinal axis of symmetry, another roller of the pulley block is mounted on the crossbar in front of the groove under the rack, each supporting element is made in the form of a flat rectangular lining, rigidly fixed to the rack .

However, the technical result is not fully achieved, because The disadvantage of the technical solution is the complexity of the support structure, the complexity and low efficiency of the assembly at the installation site.

Known bridge frame support, including a pair of racks installed inside each of them with the possibility of vertical movement of a screw pile with a pile tip equipped with a screw blade, holes are made along the entire height of each of the screw piles with a given step, a pair of shoes, each of which is open cavity with the possibility of placing a screw blade of the pile tip in it and by means of a cross swivel attached to the lower part of each of the racks, each support shoe is made in the form f truncated cone, consisting of upper and lower rings connected to each other by curly stiffeners, a crossbar made with grooves at the ends under the racks, two pairs of technological platforms, each of which is rigidly fixed respectively at each end of the crossbar, with the axis of symmetry each technological platform is perpendicular to the longitudinal axis of the crossbar, two mechanisms for raising or lowering the crossbar with flexible traction, each of which includes a chain hoist, the movable block of which consists of two rollers, each roller anovlen the respective technological platform, support elements arranged above and below the bolt, screw means for vertically movable bolts, pins, connection [RU №2149946 C1, IPC E01D 19/14, 1999].

The disadvantages of the known support is the complexity of the assembly and installation, a large mass with insufficient strength and carrying capacity.

The technical result is the creation of supports with reduced mass without changing its bearing capacity and operational characteristics, simplifying the technology of its installation and expanding functionality.

To achieve the indicated technical result, in a flat support of a prefabricated bridge containing a pair of struts fastened together by a box cross-section crossbar and transverse ties rigidly fixed by their ends to the racks, as well as at least one support shoe, the crossbar is made with flanges for fixing on racks, and the racks themselves are made of composite tubular sections having gussets along the edges and fastened together and with bolts flanges using hinged bolts.

In addition, the support shoe is made up of central and attached parts, each of which is a horizontal sheet reinforced with stiffeners, framed along the outer contour with a vertical side protruding beyond its lower edge, and the attached part of the shoe is rigidly attached to the support pillars with lanyards and bolts for transferring vertical forces from the struts of the supports and holding a single-standing support in an upright position during assembly.

In addition, each stand is equipped with a screw pile located inside it, a pile shoe covering this pile, a tip of the rack connected to the pile shoe, as well as a bolt mount on the pile.

In addition, each rack is equipped with an installation ladder.

In addition, the tubular sections are made of different or the same height.

The utility model is illustrated by drawings, which depict:

figure 1 - floodplain flat support, General view; figure 2 is the same side view and front view; figure 3 - channel flat support, General view; figure 4 is the same front view.

Flat support 1 of the prefabricated bridge, contains a pair of struts 2, fastened together by a box cross-beam 3 and transverse ties 4, rigidly fixed by their ends to the uprights, and also a shoe 5 of the support. The crossbar 3 is made with flanges 6 for fastening to the posts 2, and the posts themselves are made of composite tubular sections 7, with gussets 8 at the edges and fastened together and with the flanges 6 of the crossbar using hinged bolts 20.

The shoe of the floodplain support is made up of the central 9 and attached 10 parts, each of which is a horizontal sheet reinforced with stiffeners 11, framed along the outer contour with a vertical side 12 protruding beyond its lower face, and the attached part of the shoe is rigidly attached to the struts 2 of the support with lanyards 13 and bolts 14 for transmitting vertical forces from the struts of the supports and holding a single-standing support in an upright position during assembly. Each rack 2 of the channel support is equipped with a screw pile 15 located inside it, a pile shoe 16 covering this pile, a column tip 17 connected to the pile shoe, and a bolt mount 18 on the pile. Each rack is equipped with an installation ladder 19. This embodiment of the individual structural elements of the support, as well as their combination, provides the creation of a support with a reduced mass with virtually no change in its bearing capacity, and operational characteristics are significantly increased due to simplification and increased efficiency of installation at the place of use and expansion of functionality due to the unification of the design for various conditions of use.

The operation of the flat support can be shown on the example of a specific design, given below.

The flat support is the main structural element of the collapsible bridge-overpass IMZH-500.

Flat supports of a flyover are designed for the perception and transmission of vertical temporary and permanent loads. The predominant way to transfer loads to the ground - surface support through the shoes to the ground is provided with a design soil resistance of at least 1.5 kgf / cm2. To enable the construction of a flyover on soils of lower strength or in the channel of a watercourse (including at a large water depth), it is possible to construct these supports on screw piles.

Supports of prefabricated type with different support methods have a maximum number of identical elements. On the supports, inspection openings and devices for examining the elements of the supports and joints are provided.

A flat support consists of the following mounting elements: a transverse crossbar, sections of the struts of the supports of the shoes of the support, the tip of the rack, transverse connections with fasteners to the struts of the supports, stairs. Support elements are interconnected by folding bolts.

The transverse crossbar is made in the form of a welded box-shaped beam of constant cross section with flanges for joining to the struts of supports and shoes. Vertical sheets of the crossbar along the edges are reinforced with stiffeners.

The support shoe consists of a central part and an attached part. Each of the parts is a horizontal sheet reinforced with stiffeners. The outer contour of the sheet is framed by a vertical side, protruding beyond the lower edge.

To transfer vertical forces from the struts of the supports, as well as to hold a single-standing support in an upright position when assembling the flyover, rigid attachment of the attached part of the shoe to the support stands with lanyards and bolts is provided.

The following elements are additionally provided for support on screw piles: pile shoe, rack tip and bolt mount. Piles are located inside racks through mounting holes. The load is transmitted from the crossbar via screw pendants and the fastening of the crossbar on the pile.

Support posts are tubular with gussets along the edges. Rack sections have three sizes: lengths of 0.5 and 1.0 and 3.0 meters to ensure the assembly of supports in increments of 0.5 meters and to meet the requirements of interchangeability. The racks are connected to each other and to the ends of the supports by folding bolts. The length of the racks is a maximum of 11 m.

There are two sizes of cross-links with a length of 3.7 m and 6.4 m, made of tapes and lanyard, which are interconnected by plates and bolts.

The fastener ties is used to attach the struts of the transverse ties to the uprights of the supports.

The minimum height of the flat support when resting on the ground through the shoes is 1.605 m, the maximum is 12.605 m.

The minimum height of the flat support during the construction on screw piles is 7.89 m, the maximum is 12.89 m.

Material of flat support elements:

- for the main elements - steel 09G2S GOST 19281-89;

- For mechanical parts (mounting blocks, cotter pins, bolts, nuts, washers, etc.), modern high-strength engineering alloys and steels were used;

Estimated vertical load on a flat support 400 t.

Thus, it is possible to obtain a technical result in the form of creating a support with reduced mass without changing its bearing capacity and operational characteristics, simplification of its installation technology and expansion of functionality.

Claims (5)

1. A flat support for a prefabricated bridge, comprising a pair of struts fastened together by a box-shaped crossbar and transverse ties rigidly fixed by their ends to the posts, as well as at least one support shoe, characterized in that the crossbar is made with flanges for fixing on racks, and the racks themselves are made of composite tubular sections having gussets along the edges and fastened together and with bolts flanges using hinged bolts. 2. The flat support of the prefabricated bridge according to claim 1, characterized in that the shoe of the support is made up of central and attached parts, each of which is a horizontal sheet reinforced with stiffeners, framed along the outer contour with a vertical side protruding beyond its lower face, and the attached part of the shoe is rigidly attached to the support posts with lanyards and bolts to transmit vertical forces from the support posts and to keep the stand alone in an upright position during assembly. 3. The flat support of the prefabricated bridge according to claim 1, characterized in that each column is provided with a screw pile located inside it, a pile shoe covering this pile, a column tip connected to the pile shoe, and also securing the crossbar to the pile. 4. The flat support of the prefabricated bridge according to claim 1, characterized in that each rack is equipped with an installation ladder. 5. The flat support of the prefabricated bridge according to claim 1, characterized in that the tubular sections are made of different or the same height.