RU2035538C1 - Butt joint and method for connecting collar beam and pier post of a bridge - Google Patents

Abstract

FIELD: civil engineering; bridge construction. SUBSTANCE: butt joint has a collar beam, a post and concrete to form monolith. The upper part of the post has free lengths of reinforcement bars. The lower part of the collar beam is provided with protrusions. The reinforcement bars are arranged alternately and connected to each other with plate-like inserts. During the installation period the lower part of the collar beam is set over the free length of reinforcement bars plate-like inserts cut at the marked levels. A plate-like insert is placed between each pairs of reinforcement bars and welded with a vertical weld to both reinforcement bars. Shuttering is mounted circumferentially around the post and monolithing concrete is poured through openings. EFFECT: simplified construction process, provided possibility to set the collar beam under loading before placing concrete. 2 cl, 5 dwg

Description

 The invention relates to the construction, in particular to rack-mount or pile supports of bridges, pipelines, etc.

Known butt connection of the struts of the supports with a bolt connecting them, in which the bolt is supported by mounting elements, and the releases of the rack reinforcement freely enter the cone-shaped holes of the bolt [1]
The disadvantage of this connection is the need for accurate installation of racks in height and the large material consumption of the mounting mounting devices.

The closest solution in technical essence and the achieved result to the invention is the butt connection of the crossbar with the strut of the bridge support, including the reinforcing outlets of the rack, monolithic with the embedded elements of the crossbar [2]
The disadvantage of this butt connection is the need for accurate installation of the racks in terms of and the complexity of welding the rods to embedded parts.

 The technical result of the invention is to simplify the production process and simplify the design.

 This is achieved by the fact that the ends of the outlets of the rack reinforcement are cut to the mark of the bottom of the crossbar, and its mortgages are made in the form of reinforcing outlets in the joint zone, are spaced apart from the outlets of the rack reinforcement and are combined with them through plate inserts.

A known method of connecting the crossbar with the strut of the bridge support, including the installation of the strut and the crossbar, attaching the reinforcement outlets of the rack to the mortgages of the crossbar with monopolizing the joint [2]
The disadvantage of this method is the difficulty of welding in the bolt hole.

 The technical result of the method is to simplify the production of works.

 This is achieved by the fact that prior to installation of the crossbar, the outlets of the rack reinforcement are cut to the mark of the bottom of the crossbar, and the embedded bolts are made in the form of outlets of the armature and are installed on the outlets of the armature of the rack, with the orientation of the outlets of the crossbar reinforcement opposite to the outlets of the armature, then the outlets of the armature and the releases of the bolt reinforcement are pairwise combined with plate inserts, and the joint is monolithic using formwork.

 Figure 1 shows the racks after their installation in the support; figure 2 bolt mounted on the releases of the racks; figure 3 details of the butt joint; in FIG. 4 butt joint after monolithic; in Fig. 5 a section A-A in Fig. 3.

 The butt joint contains a stand or pile 1, crossbar 2 and concrete 3 monopolizing.

 The upper part of the rack 1 has reinforcing outlets 4, and the lower part of the crossbar 2 embedded, made in the form of reinforcing outlets 5. The reinforcing outlets 4 and 5 are interconnected through plate inserts 6, for example, by welding.

 Butt joint is as follows.

 After installation and fixing in the soil of the struts 1, they are nickel-plated, marking on the reinforcing outlets 4 the design mark of the bottom of the crossbar 2.

 Reinforcing releases 4 of all pillar racks are cut to this mark. A pre-assembled crossbar 2 is installed on the trimmed ends of the outlets, having downward directed outlets of reinforcement 5. Between each pair of outlets 4 and 5, a plate insert 6 is installed in place and welded with a vertical seam to both outlets.

 In this form, the connection is ready for the perception of the mounting load, for example, the mass of blocks of spans.

 Along the perimeter of the rack 1, close to the lower plane of the crossbar 2, the formwork 7 is installed and through the hole 8 in the crossbar the monolithic concrete 3 is laid.

 When used as racks 1 driven reinforced concrete piles, their heads are pre-chopped with exposure 4 outcrops.

 The proposed butt joint allows you to increase the tolerances on the position of the racks in plan, height and slope, as well as load the deadbolt with the mounting load before laying monolithic concrete.

Claims (2)

 1. The butt connection of the crossbar with the strut of the bridge support, including the reinforcement outlets of the strut, monolithic with the mortgage elements of the crossbar, characterized in that the ends of the outlets of the strut are cut to the bottom mark of the crossbar, and its embedded ones are made in the form of reinforcing outlets to the joint zone, located apart from the outlets reinforcement racks and combined with them through plate inserts.  2. A method of connecting the crossbar with the bridge support strut, including installing the strut and the crossbar, attaching the reinforcement outlets of the rack to the bolts of the crossbar with monolinging the joint, characterized in that before the installation of the crossbar, the releases of the rack reinforcement are cut to the mark of the bottom of the crossbar, and the embedded bolts are made in the form releases of reinforcement and set on releases of reinforcement of a rack with an orientation of releases of reinforcement of a crossbar in a direction opposite to releases of reinforcement of a rack, then releases of reinforcement of a rack and releases of reinforcement of a crossbar in pairs about edinyayut between a plate inserts and joint produced using the concreting formwork.

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