CN114150579A - Prefabricated bridge deck joint structure without embedded steel bars and construction method thereof - Google Patents

Abstract

The invention discloses a prefabricated bridge deck joint structure without embedded steel bars and a construction method thereof, and particularly relates to the technical field of bridge engineering. In the scheme, the embedded steel bars in the prefabricated bridge deck are omitted, so that the problem of collision of the embedded steel bars during joint connection is avoided; the connection of the steel bars at the joint can be finished through binding without welding, so that the construction period is greatly shortened; the dry joint and the wet joint are effectively combined, the integrity is good, and the force transmission path at the joint is more definite due to the arrangement of the bent steel bars.

Description

Prefabricated bridge deck joint structure without embedded steel bars and construction method thereof

Technical Field

The invention relates to the technical field of bridge engineering, in particular to a prefabricated bridge deck joint structure without embedded steel bars and a construction method thereof.

Background

The traditional prefabricated bridge deck is connected with the wet joints of the bridge deck by embedding the steel bars on the plate side, so that the collision of the embedded steel bars is easily caused during construction, and the steel bars at the joints are connected by adopting a welding method, so that the construction period is prolonged; concrete at the joint of the post-pouring wet bridge in the hogging moment area is easy to crack, so that the integral bearing capacity of the bridge is reduced; traditional prefabricated decking needs pre-buried lug reinforcing bar, has influenced decking's outward appearance.

Therefore, it is desirable to provide a prefabricated bridge deck joint structure without embedded steel bars and a construction method thereof.

Disclosure of Invention

In order to overcome the above defects in the prior art, embodiments of the present invention provide a prefabricated bridge deck joint structure without embedded steel bars and a construction method thereof, so as to solve the problem of inconvenient construction of the traditional prefabricated bridge deck in the prior art due to the embedded steel bars on the plate side.

In order to solve the technical problems, the invention provides the following technical scheme: a prefabricated bridge deck joint structure without embedded steel bars comprises two prefabricated bridge decks, two embedded steel members, high-strength bolts, bent steel bars, transverse penetrating steel bars, post-cast concrete and longitudinal steel bars, wherein a plurality of mounting holes are formed in the two embedded steel members, the mounting holes are distributed on the upper part and the lower part of the embedded steel members, the two embedded steel members are fixedly connected through high-strength bolts, two ends of the longitudinal steel bar respectively penetrate through the interior of the prefabricated bridge deck slab, two ends of the bent steel bar are respectively provided with a bent end, the bending end is fixedly connected with the longitudinal steel bar through a steel wire rope, the bending end is positioned below the transverse through steel bar, the upper end of the bent reinforcing steel bar is fixedly connected with the transverse through reinforcing steel bar through a steel wire rope, a rectangular step type groove is formed in the top surface of the prefabricated bridge deck, and post-cast concrete is arranged in an inner cavity of the rectangular step type groove.

Preferably, the rectangular step groove comprises two steps, the thickness of the first step is 1/2 of the thickness of the bridge deck, and the thickness of the second step is 1/4 of the thickness of the bridge deck.

Preferably, the embedded steel members are made of Q345 and above steel materials, and the embedded steel members are positioned below and on the sides of the prefabricated bridge deck.

Preferably, the strength of the post-cast concrete is C40-C60 or ultra-high performance concrete.

A construction method for a prefabricated bridge deck joint without embedded steel bars comprises the following steps:

s1: a factory firstly manufactures a prefabricated bridge deck in advance, a rectangular step-type groove is formed in the upper part of the prefabricated bridge deck, longitudinal steel bars in the prefabricated bridge deck are exposed in the rectangular step-type groove, and pre-buried steel members are pre-buried below and on the side of the prefabricated bridge deck;

s2: transporting the prefabricated bridge deck to an installation site, and carrying out hoisting alignment by using exposed longitudinal steel bars;

s3: installing a high-strength bolt in a hole of the pre-buried steel member, binding a bending end of a bent steel bar with longitudinal steel bars on two sides through a steel wire rope, and placing a transverse through steel bar below the bent steel bar and binding the transverse through steel bar with the transverse through steel bar;

s4: and pouring joint concrete in the inner cavity of the rectangular stepped groove to form an integral bridge deck, and putting into use after curing according to requirements.

The technical scheme of the invention has the following beneficial effects:

in the scheme, the embedded steel bars in the prefabricated bridge deck are omitted, so that the problem of collision of the embedded steel bars during joint connection is avoided;

in the scheme, the connection of the steel bars at the joint can be completed through binding without welding, so that the construction period is greatly shortened;

in the scheme, the bent steel bars are closer to the upper flange of the prefabricated bridge deck under the condition that the protection layer allows, so that the cracking of concrete at the joint of the hogging moment area is effectively inhibited;

in the scheme, the exposed longitudinal ribs can be used as hanging points, lifting lug reinforcing steel bars do not need to be additionally embedded, and the appearance is more attractive;

in the above-mentioned scheme, effectively combined dry joint and wet seam, the wholeness is better, and the setting of the reinforcing bar of buckling makes seam department pass power route more clear and definite.

Drawings

FIG. 1 is a top view of a prefabricated bridge deck wet joint construction of the present invention;

FIG. 2 is an underside effect view of a wet seam construction of a prefabricated decking of the present invention;

FIG. 3 is a schematic diagram of the prefabricated bridge deck of the present invention after splicing;

FIG. 4 is a schematic view of the prefabricated bridge deck of the present invention before splicing;

FIG. 5 is a top plan view of the prefabricated decking of the present invention after splicing;

fig. 6 is a bottom plan view of the prefabricated bridge deck according to the present invention after splicing.

[ reference numerals ]

1. Prefabricating a bridge deck; 2. pre-burying a steel member; 3. a high-strength bolt; 4. bending the reinforcing steel bar; 5. transversely penetrating through the steel bar; 6. post-pouring concrete; 7. longitudinal reinforcing steel bars.

Detailed Description

In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the following detailed description is given with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 6, an embodiment of the present invention provides a prefabricated bridge deck joint structure without embedded steel bars, including two prefabricated bridge decks 1, two embedded steel members 2, high-strength bolts 3, bent steel bars 4, transverse through steel bars 5, post-cast concrete 6 and longitudinal steel bars 7, wherein a plurality of mounting holes are formed in the two embedded steel members 2, the mounting holes are distributed in the upper and lower parts of the embedded steel members 2, the two embedded steel members 2 are fixedly connected with each other through the high-strength bolts 3, two ends of the longitudinal steel bars 7 respectively penetrate through the prefabricated bridge deck 1, two ends of the bent steel bars 4 are provided with bending ends, the bending ends are fixedly connected with the longitudinal steel bars 7 through steel wire ropes, the bending ends are located below the transverse through steel bars 5, the upper ends of the bent steel bars 4 are fixedly connected with the transverse through steel wire ropes 5, the top surfaces of the two prefabricated bridge decks 1 are provided with rectangular step grooves, the inner cavity of the rectangular stepped groove is provided with post-cast concrete 6.

The rectangular step groove comprises two steps, the thickness of the first step is 1/2 of the thickness of the bridge deck, and the thickness of the second step is 1/4 of the thickness of the bridge deck.

The embedded steel members 2 are made of Q345 and above steel, and the embedded steel members 2 are positioned below and on the sides of the prefabricated bridge deck 1; the strength of the post-cast concrete 6 is C40-C60 or ultra-high performance concrete.

A construction method for a prefabricated bridge deck joint without embedded steel bars comprises the following steps:

s1: a factory firstly manufactures a prefabricated bridge deck 1 in advance, a rectangular step-type groove is formed in the upper part of the prefabricated bridge deck, longitudinal steel bars 7 in the prefabricated bridge deck 1 are exposed in the rectangular step-type groove, and pre-buried steel members 2 are pre-buried in the lower part and the side part of the prefabricated bridge deck 1;

s2: transporting the prefabricated bridge deck 1 to an installation site, and carrying out hoisting alignment by using exposed longitudinal steel bars 7;

s3: the high-strength bolt 3 is installed in a hole of the embedded steel member 2, the bending end of the bent steel bar 4 is bound with longitudinal steel bars 7 on two sides through a steel wire rope, and a transverse penetrating steel bar is placed below the bent steel bar 4 and bound with the transverse penetrating steel bar;

s4: and pouring joint concrete in the inner cavity of the rectangular stepped groove to form an integral bridge deck, and putting into use after curing according to requirements.

The working process of the invention is as follows:

in the above scheme, at first the mill makes prefabricated decking 1 in advance, prefabricated decking sets up rectangle stepped groove in the top, expose the inside longitudinal reinforcement 7 of prefabricated decking 1 in the rectangle stepped groove, transport prefabricated decking 1 to the installation site after that, utilize naked longitudinal reinforcement 7 to hoist the counterpoint, and with pre-buried steel member 2 pre-buried in prefabricated decking 1 below and side, install high strength bolt 3 in the hole of pre-buried steel member 2 again, buckle the end of buckling and the both sides longitudinal reinforcement 7 of reinforcing bar 4 and carry out the ligature through wire rope, buckle reinforcing bar 4 below place horizontal through reinforcement and rather than carry out the ligature, at last pouring the seam concrete at the inner chamber of rectangle stepped groove, form whole decking, can put into use after the maintenance as required.

This scheme has cancelled the embedded bar in not only prefabricated decking, and the collision problem of embedded bar when having avoided the joint connection buckles the reinforcing bar and more is close to prefabricated decking top flange under the protective layer allows the condition moreover, effectively restraines the fracture of hogging moment district seam crossing concrete, has still effectively combined dry joint and wet seam simultaneously, and the wholeness is better, and the setting up of buckling the reinforcing bar makes seam crossing pass power route more clear and definite.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, other structures can refer to common designs, and the same embodiment and different embodiments of the invention can be combined with each other without conflict;

and finally: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention are intended to be included in the scope of the present invention.

Claims (5)

1. The prefabricated bridge deck joint structure is characterized by comprising two prefabricated bridge decks (1), two embedded steel members (2), high-strength bolts (3), bent steel bars (4), transverse through steel bars (5), post-cast concrete (6) and longitudinal steel bars (7), wherein a plurality of mounting holes are formed in the embedded steel members (2), the mounting holes are distributed in the upper part and the lower part of the embedded steel members (2), the two embedded steel members (2) are fixedly connected through the high-strength bolts (3), two ends of the longitudinal steel bars (7) penetrate through the prefabricated bridge deck (1) respectively, two ends of the bent steel bars (4) are provided with bending ends, the bending ends are fixedly connected with the longitudinal steel bars (7) through steel wire ropes, and are located below the transverse through steel bars (5), the upper end of the bent reinforcing steel bar (4) is fixedly connected with the transverse through reinforcing steel bar (5) through a steel wire rope, the top surface of the prefabricated bridge deck slab (1) is provided with a rectangular step-type groove, and an inner cavity of the rectangular step-type groove is provided with post-cast concrete (6).

2. The precast bridge deck slab joint structure without embedded steel bars according to claim 1, wherein the rectangular step groove comprises two steps, the thickness of the first step is 1/2 of the thickness of the bridge deck slab, and the thickness of the second step is 1/4 of the thickness of the bridge deck slab.

3. The precast bridge panel joint structure of canceling embedded steel bars according to claim 1, wherein the embedded steel members (2) are made of Q345 and above steel, and the embedded steel members (2) are located below and at the sides of the precast bridge panel (1).

4. The precast bridge deck joint structure of which embedded steel bars are omitted as claimed in claim 1, wherein the strength of the post-cast concrete (6) is C40-C60 or ultra high performance concrete.

5. The construction method of the joint of the prefabricated bridge deck without the embedded steel bars as claimed in claim 1, is characterized by comprising the following steps:

s1: a prefabricated bridge deck (1) is manufactured in advance in a factory, a rectangular step-type groove is formed in the upper portion of the prefabricated bridge deck, longitudinal steel bars (7) inside the prefabricated bridge deck (1) are exposed in the rectangular step-type groove, and pre-buried steel members (2) are pre-buried below and on the side of the prefabricated bridge deck (1);

s2: transporting the prefabricated bridge deck (1) to an installation site, and carrying out hoisting alignment by using exposed longitudinal steel bars (7);

s3: high-strength bolts (3) are installed in holes of the embedded steel members (2), bending ends of the bent steel bars (4) are bound with longitudinal steel bars (7) on two sides through steel wire ropes, and transverse penetrating steel bars are placed below the bent steel bars (4) and bound with the transverse penetrating steel bars;

s4: and pouring joint concrete in the inner cavity of the rectangular stepped groove to form an integral bridge deck, and putting into use after curing according to requirements.

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