JP6749573B1 - Construction method based on mobile work platform for steel box girder overpass construction - Google Patents

Abstract

PROBLEM TO BE SOLVED: To effectively satisfy the need for installation work across a steel box girder road without implementing traffic restrictions. SOLUTION: A step of forming a superstructure by connecting upper edge sections to both ends of an upper intermediate section, and lifting the superstructure to a girder surface of a steel box girder and fixing the superstructure to a girder of a steel box girder. Steps to configure the substructure by connecting the lower edge sections to both ends of the lower middle section and connecting the side vertical frames to the outside of the lower edge section, and a winch lifting system on the upper edge section. Connect the winch lifting system to the substructure, activate the winch system, lift the side vertical frame of the substructure to the mated and joined position with the upper edge section of the superstructure, and secure the side vertical frame to the upper edge section. Provides a construction method based on a mobile work platform for superstructure erection of steel box girders, including steps to connect and thereby complete the assembly of the platform. [Selection diagram] Fig. 1

Description

The present invention relates to the technical field of bridge construction, and particularly to a construction method based on a mobile work platform for steel box girder overpass construction.

At present, in the construction of an overpass bridge, the bridge is generally designed as a steel box girder to straddle an existing road, and under the same weight condition, the steel box girder has a better crossing ability than reinforced concrete.

When installing steel box girders, generally, the sections are hoisted and installed by a bridge girder erection machine, and then welding and anticorrosion coating are performed. In the prior art, when performing work such as welding and anticorrosion coating, generally, traffic regulation is carried out and a holder is erected or a lift truck is used to send the worker to the work position of the steel box girder for construction. .. Since welding and anticorrosion painting work for steel box girders both take time and labor, there is a problem that if the holder is erected with traffic regulation, the period for constructing the holder is too long. It is necessary to close the road even if a lift truck is used because it requires regulation, and closing a busy road for a long time has a great impact on the traffic.

Chinese Patent Application Publication No. 10897484

INDUSTRIAL APPLICABILITY The present invention provides a method for assembling a steel box girder for a curved bridge by a rail slide construction method, which is an improvement over the conventional rail slide construction method, and can be applied to an installation construction for a steel box girder for a curved bridge.

An object of the present invention is to provide a construction method based on a mobile work platform for erection of steel box girders.

The object of the present invention is achieved by the following technical solutions.
Provide a construction method based on a mobile work platform for steel box girder overpass construction, the work platform having an upper structure and a lower structure,
The upper structure includes an upper edge section and an upper middle section, and the upper edge section is connected to both ends of the upper middle section, and the traveling system is provided at the bottom of the upper edge section.
The lower structure includes a lower edge section and a lower middle section, each of which has a lower edge section connected to each end of the lower middle section, and a lower surface vertical frame connected to the lower edge section.
The upper edge section is further provided with a winch lifting system, the winch lifting system is connected to the undercarriage and is used for lifting the undercarriage into a mating and joined position with the superstructure,
Side vertical frame, lower edge section and lower middle section are used for the passage of workers,
The construction method is
Configuring the superstructure by connecting upper edge sections to both ends of the upper middle section, respectively,
Steps of suspending the superstructure on the girder surface of the steel box girder, fixing the superstructure to the girder body of the steel box girder, and connecting the lower edge section to both ends of the lower middle section respectively, and the side vertical frame outside the lower edge section. Connecting the to form a substructure,
The upper edge section is equipped with a winch lifting system, the winch lifting system is connected to the undercarriage, the winch system is activated, the side vertical frame of the undercarriage is mated and joined with the upper edge section of the superstructure. Fixedly connecting the side vertical frame to the upper edge section, thereby completing the assembly of the platform.

In one embodiment, a positioning pulley that moves along the bridge direction is provided inside the side vertical frame.

In one embodiment, a wire rope is provided on each of the front and rear sides of the upper edge section, and the work rope is fixed by connecting the wire rope to a lifting lug on a steel box girder.

In one embodiment, the method comprises
Providing a traveling system at the bottom of the upper edge section, which is controlled by a motor and has electric wheels for driving the work platform to move back and forth along the bridge direction, and a caster for adjusting the moving direction of the work platform. ,
When the work platform needs to be moved, the wire rope is released, the motor is activated to drive the electric wheels, and the whole work platform is driven to move.

In one embodiment, the lengths of the upper middle section and the lower middle section are set according to the width of the steel box girder.

In one embodiment, a side vertical frame is provided with a ladder for the worker to pass up and down,
The work area is the lower edge section and the lower middle section, the floorboard is laid under the lower edge section and the lower middle section, and the lateral trusses on the sides of the lower edge section and the lower middle section are the work area fences. A worker passes along the work area.

In one embodiment, the upper edge section and the upper middle section are connected via high strength bolts.

In one embodiment, the lower edge section and the lower middle section are connected via high strength bolts.

In one embodiment, the lower edge section and the side vertical frame are connected via high strength bolts.

In one embodiment, the winch lifting system comprises a winch, a guide sheave provided at a corner location of the upper edge section, and a wire connected to the undercarriage, the winch cooperating with the guide sheave and through the wire to the lower portion. Lift the structure.

In one embodiment, the winch system lifts the side vertical frame of the undercarriage into a mating and mating position with the upper edge section of the upper structure and then secures the side vertical frame to the upper edge section with high strength bolts. Connecting.

The beneficial effects of the present invention are as follows. According to the method of the present invention, by providing a work platform laterally surrounding the entire steel box girder, and using the steel box girder as a supporting foundation, the operator lifts the work area of the worker to an appropriate position so that the worker can operate the steel box girder. It becomes easier to carry out welding or anticorrosion coating construction, and by providing a traveling system on the work platform, the needs for movement and steering of the work platform can be satisfied. Effectively meet the needs for installation construction of steel box girder road crossings without enforcing traffic restrictions, ensure the personal safety of workers and traffic safety on the road surface, and improve the work efficiency of installation construction of steel box girder Let

Further, by providing a traveling system on the work platform, the needs for moving and steering the work platform can be satisfied.

In addition, the method of the present invention allows the length of the upper middle section and the lower middle section of the work platform to be adjusted so that it can be applied to various bridge widths, and the construction flexibility is high.

The present invention will be further described with reference to the drawings, but the embodiments in the drawings do not limit the present invention, and those skilled in the art can use the drawings below to draw other drawings without creative efforts. I can think of it.
It is a general|schematic elevational view at the time of attaching the work platform of this invention. It is a side view of the work platform of the present invention. It is a top view of the work platform of this invention. It is an original top view of the connection structure by the high strength bolt of this invention. It is an original side view of the connection structure by the high strength bolt of the present invention. It is a schematic diagram of temporary fixing of the work platform of the present invention. It is a figure when lifting and attaching the lower structure of the work platform of this invention.

The invention will be further described in combination with the following application scenarios.

Referring to FIG. 1 to FIG. 7, there is shown a structural schematic view of a mobile work platform for erection of steel box girders, the work platform is divided into an upper structure and a lower structure, and the upper structure is an upper edge. The upper edge section 2 is connected to both ends of the upper intermediate section 4, and the traveling system 1 is provided at the bottom of the upper edge section 2.
The lower structure is composed of a lower edge section 6 and a lower middle section 5, both ends of which are connected to the lower edge section 6 and is perpendicular to one side of the lower edge section 6 apart from the lower middle section 5. Side vertical frame 3 along the direction is connected,
The upper edge section 2 is further provided with a winch lifting system, which is connected to the undercarriage and is used for lifting the undercarriage into a mating and joined position with the superstructure,
In the above work platform, the side vertical frame 3, the lower edge section 6 and the lower middle section 5 are all used for the passage of workers,
Providing the construction method of the above work platform, the method is
Constructing a superstructure by connecting the upper edge sections 2 to both ends of the upper middle section 4 respectively, and attaching the superstructure to the ground;
Suspending the superstructure on the girder surface of the steel box girder and fixing the superstructure to the girder body of the steel box girder,
Connecting the lower edge section 6 to both ends of the lower intermediate section 5, and connecting the side vertical frame 3 to the outside of the lower edge section 6 to form the lower structure, and attaching the lower structure to the ground;
The position where the winch lifting system is installed in the upper edge section 2, the winch lifting system is connected to the lower structure, the winch system is activated, and the side vertical frame 3 of the lower structure is fitted and joined to the upper edge section 2 of the upper structure. And fixedly connecting the side vertical frame 3 to the upper edge section 2, thereby completing the assembly of the platform.

In one embodiment, the upper edge section 2, the upper middle section 4, the lower edge section 6, the lower middle section 5 and the lateral vertical frame 3 all use a steel truss space structure,
Preferably, the material of the steel truss space structure is a Q235 box type square steel tube, and further, a box type square steel tube having a cross section of 40 mm×40 mm and a wall thickness of 3 mm is used inside the steel truss structure.

In one embodiment, the lateral vertical frame 3 is provided with a positioning pulley 10 that can move along the bridge direction. As an example, after the work platform is installed, the positioning pulley 10 maintains a constant distance with respect to the side of the steel box girder, and the positioning pulley 10 is provided so as to be movable only along the forward direction of the bridge. , Play a role in preventing lateral rollover when the work platform moves. In a preferred embodiment, the distance between the positioning pulley 10 and the side surface of the steel box girder is maintained at 250-350 mm.

In order for the positioning pulley 10 provided inside the side vertical frame 3 to maintain a close distance to the side surface of the steel box girder, a truss portion extending to the steel box girder is provided inside the side vertical frame 3 and the positioning pulley 10 is provided. Is attached to the extending truss portion, the positioning pulley 10 can be brought close to the steel box girder.

In one embodiment, a wire rope 14 is provided on each of the front and rear sides of the upper edge section, and the wire rope 14 is connected to the lifting lug 16 of the steel box girder to fix the work platform. As an example, the wire rope 14 may secure the superstructure and the steel box girder lifting lug 16 after the superstructure of the work platform is suspended on the steel box girder surface or if the work platform needs to be fixed for a long time. , The lifting lugs 16 are fixed to the steel box girder welds, which ensures the fixing of the superstructure and also the whole work platform.

Preferably, the wire rope 14 is a rope having a diameter of 12 mm.

In one embodiment, as shown in FIG. 5, motor-controlled motorized wheels 11 for driving the work platform to move back and forth along the bridge direction, and casters 12 for adjusting the moving direction of the work platform. A traveling system 1 with is provided at the bottom of the upper edge section 2.

As an example, one set of trackless electric wheels 11 and one set of casters 12 are provided at the bottom of each of the two upper edge sections 2 of the superstructure, the trackless electric wheels 11 are controlled by a motor, and the motor power is 0.37 kW. Yes, the traveling speed of the electric wheel 11 is controlled to 2 m/min, and the caster 12 uses a caster 12 for ultra-heavy load of iron core PU polyurethane with a specification of 8 inches and also has a braking function.

When the work platform needs to be moved, the work platform and the steel box girder are unfixed and the motor is activated to drive the electric wheel 11 to drive the movement of the entire work platform.

As an example, when the work platform moves to an appropriate position and needs to be temporarily stopped by the worker for construction, the front and rear of the electric wheel 11 and the caster 12 along the forward direction of the bridge respectively. A steel stop 13 can be provided to secure the work platform.

In one embodiment, the length of the upper middle section 4 and the lower middle section 5 is set according to the width of the steel box girder, the upper middle section 4 and the lower middle section 5 abutting a plurality of identical steel trusses, The upper middle section 4 and the lower middle section 5 are configured by selecting an appropriate number of steel trusses according to the actual width of the steel box girder.

In one embodiment, the side vertical frame 3 is provided with a ladder to serve as an upper and lower passage for an operator, the lower edge section 6 and the lower middle section 5 are used as working areas, and a floor plate is laid below the lower edge section 6 and the lower middle section 5. Then, the worker passes along the work area by using the lateral trusses provided on the sides of the lower edge section 6 and the lower middle section 5 as fences of the work area.

As an example, when the lower edge section 6 and the lower middle section 5 are used as working areas, the inner clearance is 1.05 m, and a 20 mm wood board is laid below the lower edge section 6 and the lower middle section 5, The lateral trusses on the sides of the section 6 and the lower middle section 5 serve as fences in the work area, and one layer of 0.8 mm iron and one layer of fire protection cloth are laid on the wood boards and fences.

During actual construction, the work area is used only for the passage of workers, does not place any tools or cargo, and the distance from the girder bottom of the steel box girder to the upper chord of the truss of the platform substructure is It is maintained at about 100 mm, which ensures that the work platform does not rub against the girder bottom and become scratched when moving.

In one embodiment, each of the sections between the upper edge section 2 and the upper middle section 4, between the lower edge section 6 and the lower middle section 5, and between the lower edge section 6 and the lateral vertical frame 3 has high strength. Connected via a bolt 7.

As an example, as shown in FIGS. 4 and 5, as the high-strength bolts 7 connected between the respective sections, four Hs 8.8 class friction high-strength bolts of specification M16 are used. Each bolt is provided with one gasket and two nuts, so that it is stable connected and avoids sliding and shear failure.

In one embodiment, as shown in FIG. 5, when installing the winch system in the upper edge section 2, the winches 8 are fixed to the two upper edge sections 2 of the superstructure, respectively, and are placed in the corner positions of the upper edge section 2. A guide pulley 9 is provided, and one end of the wire 15 is connected to the winch 8.

After the substructure is assembled, when it is necessary to lift the substructure, the other end of the wire 15 is connected to the substructure and the winch 8 is activated to lift the substructure.

As an example, a 3T class winch 8 is attached between the support legs of the upper edge section 2, a guide pulley 9 is attached to a corner position of the upper edge section 2, and a wire 15 having a diameter of 18 mm is connected to the winch 8. 15 is connected to the undercarriage via a guide pulley 9 to activate the winch 8 to lift the undercarriage, and the side vertical frame 3 of the undercarriage is fitted and joined to the upper edge section 2 of the superstructure. After lifting, the lateral vertical frame 3 is fixedly connected to the upper edge section 2 with high strength bolts 7 to achieve the mounting of the working platform laterally around the entire steel box girder.

In addition, when constructing using the work platform, the worker can move the work area up and down by the ladder of the side vertical frame 3, and three people can work simultaneously on the work platform. The worker must be out of the work area to move the.

When the work platform is not in use, the wire rope 14 must be connected and secured to the steel box girder to prevent the work platform from being destroyed by gusts and hurricanes.

After the work platform has been installed, if the distance between the bottom of its undercarriage and the bottom of the straddling road is less than 5.5 meters, it must be used in combination with a height limiting frame.

In the above-described embodiment of the present invention, a work platform that laterally surrounds the entire steel box girder is provided, and the steel box girder serves as a supporting foundation, and the worker's work area is lifted to an appropriate position so that the worker can operate the steel box girder. It becomes easy to perform welding or anticorrosion coating of the girder, and by providing the traveling system 1 on the work platform, the needs for moving and steering the work platform can be satisfied. Effectively meet the needs of installation construction of steel box girder road straddle without enforcing traffic restrictions, ensure the personal safety of workers and traffic safety on the road surface, and improve the work efficiency of installation work of steel box girder. Improve.

Further, by providing the traveling system 1 on the work platform, it is possible to meet the needs for moving and steering the work platform.

In addition, the method of the present invention allows the length of the upper middle section 4 and the lower middle section 5 of the work platform to be adjusted so that it can be applied to a variety of different bridge widths, and is highly flexible in construction.

The above embodiments are merely for explaining the technical solution of the present invention, and do not limit the patent scope of the present invention. Although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art can modify or equivalently replace the technical solution of the present invention without departing from the spirit and scope of the technical solution of the present invention. It can be performed.

1 Traveling System 2 Upper Edge Section 3 Side Vertical Frame 4 Upper Middle Section 5 Lower Middle Section 6 Lower Edge Section 7 High Strength Bolt 8 Winch 9 Guide Pulley 10 Positioning Pulley 11 Electric Wheel 12 Castor
13 Steel stopper 14 Wire rope 15 Wire
16 lifting lugs.

Claims (9)

A construction method based on a mobile work platform for erection of steel box girders,
The work platform includes an upper structure and a lower structure,
The upper structure includes an upper edge section (2) and an upper middle section (4), and the upper edge section (2) is connected to both ends of the upper middle section (4). A running system (1) is installed at the bottom of the
The lower structure comprises a lower edge section (6) and a lower middle section (5), and the lower edge section (6) is connected to both ends of the lower middle section (5), respectively. A side vertical frame (3) is connected to
The upper edge section (2) is further provided with a winch lifting system, the winch lifting system is connected to a lower structure and is used for lifting the lower structure into a mating and joined position with the upper structure,
The side vertical frame (3), the lower edge section (6) and the lower middle section (5) are used for the passage of workers,
The construction method is
Constructing a superstructure by connecting the upper edge sections (2) to opposite ends of the upper middle section (4), respectively.
Lifting the upper structure on the girder surface of the steel box girder, and fixing the upper structure to the girder body of the steel box girder,
Forming a lower structure by connecting the lower edge section (6) to both ends of the lower intermediate section (5) and connecting the lateral vertical frame (3) to the outside of the lower edge section (6). When,
The upper edge section (2) is provided with a winch lifting system, the winch lifting system is connected to the lower structure, the winch system is activated, and the lateral vertical frame (3) of the lower structure is connected to the upper edge section (2) of the upper structure. Lifting in a mating and joined position to fixedly connect the lateral vertical frame (3) to the upper edge section (2), thereby completing assembly of the platform.
A construction method based on a mobile work platform for erection of steel box girders. A positioning pulley (10) is provided inside the side vertical frame (3),
The construction method based on the mobile work platform for erection of steel box girders according to claim 1. A wire rope (14) is provided on each of the front and rear sides of the upper edge section (2), and the work platform is fixed by connecting the wire rope (14) to the lifting lug (16) of the steel box girder.
The construction method based on the mobile work platform for erection of steel box girders according to claim 1. The traveling system (1) includes a motor-controlled electric wheel (11) for driving the work platform to move back and forth along the bridge direction, and a caster (12) for adjusting the moving direction of the work platform. Providing at the bottom of said upper edge section (2),
When the working platform needs to be moved, releasing the wire rope (14) to activate the motor to drive the electric wheels to drive the movement of the entire working platform.
The construction method based on the mobile work platform for erection of a steel box girder according to claim 3. The lengths of the upper middle section (4) and the lower middle section (5) are set according to the width of the steel box girder.
The construction method based on the mobile work platform for erection of steel box girders according to claim 1. A ladder is installed on the side vertical frame (3) for workers to pass up and down,
The lower edge section (6) and the lower middle section (5) are used as working areas, and a floorboard is laid below the lower edge section (6) and the lower middle section (5). A transverse truss provided on the side of the intermediate section (5) is used as a fence for the work area, and a worker passes along the work area.
The construction method based on the mobile work platform for erection of steel box girders according to claim 1. The upper edge section (2) and the upper middle section (4) and/or the lower edge section (6) and the lower middle section (5) are connected via high strength bolts (7).
The construction method based on the mobile work platform for erection of steel box girders according to claim 1. The winch lifting system comprises a winch (8), a guide pulley (9) provided at a corner position of an upper edge section, and a wire (15) connected to the lower structure, the winch (8) comprising: Cooperating with a guide pulley (9) to lift the substructure via the wire (15),
The construction method based on the mobile work platform for erection of steel box girders according to claim 1. The winch system lifts the lateral vertical frame (3) of the lower structure to a position where the lateral vertical frame (3) of the upper structure is fitted and joined to the upper edge section (2) of the upper structure, and then uses the high strength bolts (7) to lift the lateral vertical frame. (3) is fixedly connected to the upper edge section (2),
The construction method based on the mobile work platform for erection of steel box girders according to claim 1.

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