JP4264470B2 - Bridge girder member erection method and erection device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
TECHNICAL FIELD The present invention relates to a bridge girder member erection method and a erection apparatus suitable for use in building a bridge, and more particularly, a erection method for carrying a bridge girder member under a girder and cantilever erection, and a erection apparatus that can be used therefor. It is about.
[0002]
[Background Art and Problems to be Solved by the Invention]
When constructing a bridge, if the bridge girder member is installed at the sea or in the mountains, or there is a problem with the work site, the bridge girder member being built cannot be supported by a vent. Cable crane construction method, lump erection method, cantilever erection method, etc. are carried out.
[0003]
Here, the delivery method is a method in which the bridge girder member is sent out from the location where both ends or one end of the bridge to be installed, and the cable crane method is installed between the locations where both ends of the bridge are located. It is a method of suspending and installing bridge girder members using a cable crane. In these methods, it is necessary to secure a work site for installation of installation facilities and for carrying in members at locations where both ends or one end of the bridge to be installed There is. However, when building a bridge in a mountainous area, the location where the bridge end is located is a steep slope, the location where the bridge end is located is adjacent to a tunnel or cut soil, The alignment of the road to the road may be bent. Under such conditions, it is often difficult to secure a work site necessary for erection. Even if the work site can be secured, the construction time and equipment should be examined in consideration of the situation of the adjacent work area.
[0004]
In addition, the batch construction method is a method of building a bridge body that has been assembled at a different location in a lump, and the large-scale crane is used to assemble the bridge body that has been assembled using a large work site adjacent to the construction site. There is a method of erection and a method of erection of a bridge assembled on the sea or a river using a floating crane when it is built on the sea or a river. Water area is required.
[0005]
The cantilever extension construction method is a method in which a bridge girder member is connected to a bridge girder part that has already been installed and cantilevered, and the bridge girder part that has already been installed is used as a counterweight. There are a method of erected bridge girder members and a method of erected bridge girder members one after the other while linking them to the left and right of the center pier.
[0006]
As the installation equipment for such a cantilever extension construction method, a traveler crane in which a swing arm type crane is mounted on a carriage is generally used (National Institute of Civil Engineers, published by Gihodo on November 1, 1974) (See page 1288 of the new edition of Civil Engineering Handbook), and when the bridge girder can be transported on the sea or river by a trolley or the like and stopped directly under the installation position, the direct suspension method from the traveler crane should be used. However, if it is difficult to hang directly under water flow, etc., the bridge girder transported to the work yard near the pier is lifted above the height of the pier to the already installed bridge girder. It is taken up by a crane equipment such as a tower crane, and the bridge girder member is transported on the bridge girder part to the installation position at the tip of the overhanging part and delivered to the traveler crane. That.
[0007]
However, with such a conventional construction technique, when a cantilever construction is performed using only the work yard near the pier, the traveler crane has a high center of gravity and is unstable. Since the balance is poor and it is difficult to move at high speed on the bridge girder part, a member carriage is required to transport the bridge girder member on the bridge girder part and deliver it to the traveler crane. Constrained by the relationship with the bogie, two traveler cranes are required to install the bridge girder members at the ends of the left and right overhanging parts of the bridge girder part sandwiching the central pier. Since it requires a lot of erection equipment such as crane equipment to pick up the bridge girder member over a certain bridge girder part and deliver it to the above-mentioned material carrier cart, There has been a problem in the corner of.
[0008]
  By the way, as other erection equipment for cantilever erection method, conventionally, a traveling girder in which a wheel with a jack and a vent are fixedly installed on the lower surface of one end side of an erection girder (erection girder) provided with a track on the upper surface ( Mobile construction girders) and construction work vehicles with winches on the carriages that run on the track may be used. Examples of such cases include linking Kasaoka City, Okayama Prefecture, and Kamijima. It is known that the bridge was built on the prefectural road when the Kamishima Ohashi Bridge, a 3-span continuous PC box box bridge, was built (February 20, 1994, published by the Japan Road Association) "Concrete Road Bridge Design Handbook"First 466 ~ 467 pagereference).
[0009]
In this construction method using a traveling girder and an erection work vehicle, since the step between the upper surface of the already installed bridge girder part and the upper surface of the traveling girder is relatively large, a track is attached to the bridge girder part and the work vehicle is installed. Make it possible for the carriage to travel from the vicinity of the pier to the rear edge of the traveling girder so that the construction work vehicle can be delivered between the carriage and the traveling girder. The bridge girder member transported to the bridge girder is lifted to the position under the girder by the winch of the construction work vehicle that has been moved onto the work vehicle carriage on the bridge girder, and then the construction work vehicle works with the bridge girder member suspended. The vehicle carrier is moved to the position of the rear end of the traveling girder together with the installation work vehicle on it. Transferred onto Gugada, its after the erection work vehicle on traveling girder is moved to a predetermined erection site, further lifting up erection position bridge girder member in erection work vehicle winch.
[0010]
However, even with this method using a traveling girder and a construction work vehicle, when a cantilever construction is performed using only the work yard near the bridge pier, a work vehicle transport carriage is required as described above. Since the placement of the traveling girder on the bridge girder is restricted due to the relationship with the car carrier cart, the direction of the extension of the bridge girder is mutually different in order to construct the bridge girder members at the ends of the left and right overhanging parts of the bridge girder with the central pier sandwiched between them. Two traveling girders that are reversed are necessary, and many other construction equipment is required, so there is a problem in its economic efficiency. For this reason, conventionally, the feeding method and the cable crane method have been adopted from the viewpoint of economy, despite the limitations described above.
[0011]
[Means for solving the problems and their functions and effects]
The present invention provides a bridge girder member erection method and a erection apparatus that advantageously solve the problems of the conventional cantilever overhanging construction method, and the bridge girder member erection method according to claim 1 has already been provided. On the overhanging bridge girder part, a traveling girder including an erection girder and a carriage that supports the erection girder so that the support position can be changed and travels on the bridge girder part is disposed, and a bridge girder member to be installed. A construction work device that has a lifting machine that lifts the traveling girder and moves on the traveling girder of the traveling girder is mounted on the erection girder. First, the supporting position of the erection girder by the traveling girder carriage is determined by the erection. A girder's hand-stretching direction side for erection of the bridge girder member and The erection work device on the erection girder so that the erection girder is sandwiched between the erection girder and vertically aligned with the traveling girder carriage, and the traveling girder is already overhanging and installed. It is arranged at a position near the pier on a certain bridge girder part, and then the bridge girder member is lifted below the already overhanging bridge girder part by the lifting machine of the construction work device near the pier, The traveling girder mounted with the erection work device is moved by the carriage, and the bridge girder member is lifted by the lifting machine of the erection work device, the bridge girder portion below the bridge girder portion that has already been overlaid. Along the edge of the bridge girder and the hand of the erection girder The front side portion is extended forward from the tip of the bridge girder already overhanging, and then the traveling girder is connected to the bridge girder already overhanging to prevent the bridge girder from rising. The working device is moved onto the handrail direction side portion of the erection girder, and then the bridge girder member in the suspended state is pulled up to a predetermined height by the lifting machine of the erection work device, and the bridge girder member An extension girder is installed at the tip of the bridge girder that has already been overlaid, and then the traveling girder is disconnected from the bridge girder that has already been overlaid, and then the erection girder by the carriage of the traveling girder The support position is changed to the center of the erection girder and The construction work device is moved on the erection girder so as to be vertically aligned with the traveling girder carriage with the erection girder sandwiched therebetween, and then the traveling girder on which the construction work device is mounted is moved by the carriage. And returning to a position near the pier on the bridge girder already overhanging.
[0012]
According to a second aspect of the present invention, there is provided a bridge girder member erection method comprising: a carriage traveling on the bridge girder part on an already overhanging bridge girder part; and an erection girder fixed on the carriage. A traveling work apparatus that has a lifting machine for lifting a bridge girder member to be installed and moves on the traveling girder of the traveling girder is mounted on the erection girder. Position the work device on the erection girder, with the erection girder sandwiched between it and the trolley of the traveling girder so that the traveling girder is overhanging on the bridge girder part that has already been extended. And then in the vicinity of the pier, the lifting device for the construction work device Thus, the bridge girder member is lifted below the bridge girder portion that has already been overhanging, and the traveling girder on which the construction work device is mounted is moved by the carriage, and is lifted by the lifting machine of the construction work device. The bridge girder member in a state of being stretched is transported to the tip of the bridge girder portion along the bridge girder portion under the already overhanging bridge girder portion, and the extension girder side portion of the erection girder is already overhanging The bridge girder is extended from the tip of the bridge girder to the front, and then the traveling girder is connected to the bridge girder already overhanging to prevent the bridge girder from being lifted. Moved to the handrail direction side part, and then the lifting machine of the erection work device, The bridge girder member in the raised state is pulled up to a predetermined height, and the bridge girder member is erected to the tip of the bridge girder part that has already been erected, and then the already existing erection with the traveling girder. After the connection with a bridge girder portion is released, the erection work device is moved on the erection girder so as to align with the carriage of the traveling girder with the erection girder interposed therebetween, and then the erection girder The traveling girder on which the working device is mounted is moved by the carriage and returned to the position near the bridge pier on the bridge girder already overhanging.
[0013]
  Further, according to the third aspect of the present invention, there is provided a bridge girder member erection method on a bridge girder part that has already been overlaid, a carriage that runs on the bridge girder part, an erection girder fixed on the carriage, An installation work in which a traveling girder having a counterweight movable along the extending direction of the erection girder is disposed and a lifting machine for lifting a bridge girder member to be installed is moved on the erection girder of the traveling girder. The device is mounted on the erection girder, and first, the construction work device is placed on the erection girder so as to be vertically aligned with the traveling girder carriage with the erection girder therebetween. Counterweight on the traveling girder trolley The traveling girder is arranged at a position near the pier on the bridge girder already overhanging, and then the bridge girder member is moved near the pier by the lifting machine of the construction work device. The bridge girder member is lifted below the bridge girder already overhanging, and the traveling girder on which the construction work device is mounted is moved by the carriage and is lifted by the lifting machine of the construction work device. The bridge girder part that is transported along the bridge girder part to the tip of the bridge girder part below the already overhanging bridge girder part, and the extension girder side part of the erection girder is already overhanging. Reach the front from the tip, and then the counterweightAboveThe construction work device is moved onto the handrail direction side portion of the erection girder while being moved to the portion opposite to the hand travel direction side portion of the erection girder, and then the lifting device of the construction work device The bridge girder member in a lifted state is pulled up to a predetermined height, and the bridge girder member is erected to the end of the bridge girder portion that has already been erected, and then the counterweight is vertically aligned with the carriage. And moving the construction work device on the erection girder so that it is vertically aligned with the traveling girder carriage with the erection girder in between, and then mounting the erection work device The traveling girder is moved by the cart, It is characterized in that return to a position near the pier on the bridge girder portions that.
[0014]
  The erection device according to claim 4, which can be used in the erection method according to claim 1, comprises an erection girder and a carriage that supports the erection girder so that the support position can be changed. A traveling girder, a lifting machine for lifting a bridge girder member to be installed, and a moving table that supports the lifting machine and moves on the erection girder. The erection work device mounted on the erection girder of the traveling girder The traveling girder cart is in a state where the moving platform of the erection work device is vertically aligned with the cart, and the lifting machine lifts the bridge girder member to be erectedsoWhile supporting the erection girder and balancing the erection girder, the erection girder travels from the tip of the bridge girder already overhanging to the position where the erection girder cantilevered forward, and , Claims2 and 3The erection device of the present invention according to claim 5, which can be used in the erection method of the present invention described above, includes an erection girder, and a carriage that travels with the erection girder fixedly supported.A counterweight movable along the extending direction of the erection girderA traveling girder comprising a traveling girder, a lifting machine for lifting a bridge girder member to be erected, and a moving platform that supports the lifting machine and moves on the erection girder, and is mounted on the erection girder of the traveling girder And the traveling girder carriage is a moving platform of the construction work apparatus.And the counterweightBridge girder that is already overhanging while maintaining the balance of the erection girder while supporting the erection girder while the hoisting machine lifts the erection bridge girder member in a state of being vertically aligned with the carriage. Traveling from the tip of the part to the position where the erection girder cantilevered forwardThe counter girder of the traveling girder moves in the direction opposite to the moving direction of the moving table of the construction work device on the erection girder to balance the erection girder.It is characterized by.
[0015]
According to the construction method of the present invention as set forth in claims 1 to 3, the bridge girder member is transported from the vicinity of the bridge pier to the tip of the bridge girder portion which has already been erected, and is erected at the tip of the bridge girder. As a result, it is possible to utilize the work yard used for the construction of the piers that are indispensable when building bridges, so there is no need to secure work sites for bridge girder construction, and to create and maintain land accordingly. Therefore, the bridge construction cost can be reduced and the influence on the surrounding environment can be reduced. Also, even if the bridge construction site is on the sea, river or road, if there is enough space under the bridge, it can be constructed simply by using the sea area, water area or land near the pier, so traffic restrictions associated with construction Can be reduced.
[0016]
Moreover, according to the construction method of this invention of Claims 1-3, the construction apparatus which combined the traveling girder used here and the construction work apparatus mounted on it is used for lifting, carrying, Since all the installations can be done with a single device, and the left and right installations can be done with one unit across the bridge pier, various crane facilities for picking up the bridge girder members on the bridge girder already installed The construction equipment can be omitted, and the construction equipment can be reduced as compared with the conventional cantilever extension method.
[0017]
Furthermore, according to the construction method of the present invention as set forth in claims 1 to 3, the bridge girder member that has been pre-assembled in advance is lifted and transported by a construction work device mounted on a traveling girder and already overlaid. Since it is installed overhanging at the tip of the bridge girder part, the construction work on the bridge can be reduced, so the construction period can be made equivalent or shorter than other conventional methods, especially According to the method of Claim 2 and Claim 3, since it is not necessary to change the position of the erection girder on the cart of the traveling girder, the construction period can be further shortened.
[0018]
  And claim 4andClaim5According to the described construction apparatus of the present invention, the operational effects of the above-described construction method of the present invention can be brought about. In the erection device according to the present invention, the lifting machine of the erection work device has a frame that protrudes horizontally beyond both end portions in the width direction of the erection girder, and the bridge girder member extends from both ends of the frame. The bridge girder member can be lifted in a well-balanced manner, and a lifting wire or the like is placed between the bridge girder portions already overhanging. Since it is possible to easily avoid interference with the bridge girder portion by lowering it to the outside of both ends in the width direction, the bridge girder member is lifted up and transported along the bridge girder portion under the bridge girder portion quickly and safely. be able to.
[0019]
In the erection device of the present invention, the lifting machine of the erection work device may include a wire clamp jack that clamps a wire rope and continuously pulls it up, or clamps a strand made of PC steel wire. You may provide the strand jack which pulls up continuously. If such wire clamp jacks and strand jacks are provided, the lifting machine can be made small and lightweight for its lifting capacity, and the entire erection device can be made compact.
[0020]
On the other hand, in the erection apparatus according to the present invention, the lifting machine of the erection work apparatus may include a normal winch for winding a wire rope or a chain block for hoisting a chain. Can be manufactured or obtained at a relatively low cost, so that the lifting machine can be constructed at a low cost.
[0021]
And in the erection device of this invention, at least one of the cart of the traveling girder and the trolley of the erection work device may be self-propelled by mounting a power source. The power source can be made unnecessary, and the construction equipment can be further reduced, and the traveling girder carriage and the construction work device moving base are separately installed on the bridge girder already overhanging. It may be driven or moved by a power source such as a winch, a hydraulic cylinder, or a strand jack, and in that case, the carriage or the moving table can be easily prevented from running away.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 and FIG. 2 are explanatory views showing the installation procedure of the bridge girder member in one embodiment of the erection method of the present invention described in claim 1, and FIGS. 3 (a) and 3 (b) are the above embodiments. A side view and a plan view showing an embodiment of the erection device of the present invention according to claim 4 used in the erection method of FIG. 4, and FIG. 4 is an enlarged front view showing the erection device of the above embodiment.
[0023]
First, the construction apparatus of the above embodiment will be described. Reference numeral 1 in the figure denotes the construction apparatus of the embodiment, and this construction apparatus 1 includes a traveling girder 2 and a construction work apparatus as shown in FIGS. The traveling girder 2 is combined with an erection girder (erection girder) 4 constituted by a plate girder (girder) and a separable connecting mechanism (not shown). The traveling girder 2 is already provided with a carriage 5 that has an electric motor 5a as a power source and is self-propelled by being driven by the electric motor 5a. It travels on the track 6a laid on the bridge girder portion 6 that has been erected. In addition, although the said erection girder 4 is comprised by the plate girder in this Example, it can also be comprised by the girder of other structures, such as a truss structure, for example. In this embodiment, an electric motor is used as a power source to be mounted on the carriage 5. However, other structures such as a wire clamp jack, a strand jack, and a hydraulic cylinder, which will be described later, may be used.
[0024]
Further, the construction work vehicle 3 here has a lifting machine 8 for lifting the bridge girder member 7 to be installed, and supports the lifting machine 8 and has an electric motor 9a as a power source, and is self-propelled by being driven by the electric motor 9a. The construction work vehicle 3 is mounted on the erection girder 4 of the traveling girder 2 and is laid on the erection girder 4. Drive on top.
[0025]
As the lifting machine 8, it is possible to select an optimum one for the bridge to be constructed in consideration of the lifting load and the lifting height. In this embodiment, as shown in FIG. The frame 10 is formed by assembling steel materials in a cross-beam shape so as to protrude horizontally beyond both ends in the width direction of the bridge girder portion 6 and the bridge girder portion 6 having substantially the same width as that of the frame 10. Two known wire clamp jacks 12 that continuously pull up the wire 11 by repeatedly switching the clamp position by two gripping mechanisms and pulling by a vertical hydraulic cylinder on both ends of the direction (left and right in FIG. 4) At the same time, a pallet of substantially the same width as the frame 10 is attached to the lower end of the wire 11 pulled up by the four wire clamp jacks 12 in total. 13 is detachably connected for lifting the bridge girder member 7, but for example, a strand made of PC steel wire is continuously repeated by switching the clamp position by two gripping mechanisms and pulling by a vertically placed hydraulic cylinder. A known strand jack that pulls up, a winch that winds up a wire rope, a chain block that winds up a chain, and the like can be mounted on the frame 9.
[0026]
As a power source mounted on the carriage 9, an electric motor is used in this embodiment as with the carriage 5. However, for example, a wire clamp jack, a strand jack, a hydraulic cylinder, or the like is used. May be.
[0027]
Next, the erection method of the above embodiment will be described. This erection method is performed from the pier 15 to the left and right when erection of the continuous girder as shown in FIG. 5A and the bridge girder 14 of the ramen bridge as shown in FIG. In the case where the bridge girder member 7 is sequentially cantilevered while being balanced in two directions, and among the continuous girder as shown in FIG. 6 (a) and the bridge girder 14 of the ramen girder as shown in FIG. 6 (b) When the bridge girder part 6 is cantilevered in one direction with the bridge girder part 6 already installed by the construction method using the conventional vent 16 etc. as a counterweight, the minimum site and installation equipment near the pier 15 The bridge girder 14 can be erected by using the above-described erection method. In this erection method, the bridge girder member 7 is cantilevered by the procedure shown in FIGS. I do.
[0028]
That is, here, as shown in FIG. 1 (a), the traveling girder 2 of the erection device 1 is disposed at a position near the pier 15 on the bridge girder portion 6 that has already been erected. The erection work vehicle 3 of the erection device 1 is mounted on the erection girder 4 so that the carriage 5 of the traveling girder 2 is on the side of the erection girder 4 in the direction of reaching the bridge girder member 7 (FIG. 1A). Then, the support position of the erection girder 4 by the carriage 5 is set so as to support the part opposite to the right side (the left part in FIG. 1A), and the construction work vehicle 3 is placed on the erection girder 4 The erection girder 4 is placed at a position vertically aligned with the carriage 5 of the traveling girder 2 with the erection girder 4 in between, Keep receiving tentative hand total direction side end portion of the erection girders 4 by inserting a jack 16 between the end portion and the bridge girder portion 6.
[0029]
But here,
(1) First, as shown in FIG. 1 (a), in the same figure of the bridge girder part 6 already installed, the bridge girder member 7 installed at the right end is near the pier 15 of the bridge girder part 6 already installed. Assembling the ground on the pallet 13 at the place where the bridge girder is lifted directly below the position, or making it in another yard, transporting to the bridge girder lifting place and placing it on the pallet 13
(2) Next, as shown in FIG. 1 (b), the bridge girder member 7 placed at the bridge girder lifting place is lifted by a lifting machine 8 of the erection work vehicle 3 directly below the bridge girder portion 6 that has already been erected. Lift it up,
(3) At the same time as the lifting or after the lifting is finished, as shown in FIG. 1 (c), the jack 16 temporarily receiving the end of the erection girder 4 in the handrail direction side is removed, and then the construction work vehicle 3 The bridge girder member 7 is moved under the bridge girder portion 6 that has already been overhanging the bridge girder member 7 that has been lifted by the lifting machine 8 of the construction work vehicle 3. The bridge girder part that is transported to the tip of the bridge girder part 6 along the side of the erection girder 4 of the traveling girder 2 (the right side part in FIG. 1 (c)) is overhanging. 6 is pushed forward from the tip of 6 (to the right in FIG. 1C).
[0030]
(4) Next, as shown in FIG. 1 (d), the erection girder 4 of the traveling carder 2 is positioned between the erection girder 4 and the bridge girder part 6 that is already overhanging at positions before and after the carriage 5. The end of the erection girder 4 on the opposite side (the left end in FIG. 1 (d)) is connected to the bridge girder portion 6 by the connecting member 17 and supported by the jack 16 inserted in the traveling carder. 2 to lift up,
(5) Next, as shown in FIG. 1 (e), the erection work vehicle 3 is moved onto the handrail direction side portion of the erection girder 4 (the right side portion in FIG. 1 (e)), and the erection work vehicle is moved. The bridge girder member 7 lifted by the lifting machine 8 of No. 3 is transported further forward than the tip of the bridge girder part 6 that is already overhanging,
(6) Next, as shown in FIG. 1 (f), the bridge girder member 7 in the state of being lifted up to the height of the tip of the bridge girder portion 6 that has already been overlaid by the lifting machine 8 of the erection work vehicle 3. The bridge girder member 7 is joined to the tip of the bridge girder portion 6 by pulling up.
[0031]
After that, here,
(7) First, as shown in FIG. 2 (a), the end of the traveling girder 4 of the traveling carder 2 in the direction of the handrail direction is further supported by the jack 16, and the pallet 13 is lowered slightly.
(8) Next, as shown in FIG. 2 (b), the jack 16 on the front side of the carriage 5 and the connecting member 17 are removed, and the jack 16 on the rear side of the carriage 5 and the end of the erection girder 4 in the handrail direction side. The support position of the erection girder 4 by the trolley 5 of the traveling girder 2 is changed to the central part of the erection girder 4 by moving the trolley 5 while the erection girder 4 is lifted from the trolley 5 and supported by the jack 16 of the head At the same time, the construction work vehicle 3 is moved on the erection girder 4 to a position vertically aligned with the carriage 5 of the traveling girder 2 with the erection girder 4 interposed therebetween.
[0032]
(9) Next, as shown in FIG. 2 (c), the traveling girder 2 on which the erection work vehicle 3 is mounted is moved by the cart 5, and the previous pier on the bridge girder portion 6 that has already been overlaid. Return to the position near 15 and lower the pallet 13 to the lifting position of the bridge girder on the ground and separate it from the lower end of the wire 11 to prepare the next bridge girder member on the pallet 13, while the traveling girder 2 is further It is moved to a position near the pier 15 on the opposite side of the pier 15 from the position near the previous pier 15. When the bridge girder member 7 is not lifted, the construction work vehicle 3 and the carriage 5 are arranged at positions where they are vertically aligned with the central portion of the erection girder 4 interposed therebetween as shown in FIG. The reason why the traveling girder 2 is moved is to prevent the balance of the erection girder 4 from being lost during the movement, and when the bridge girder member 7 is lifted, the weight of the bridge girder member 7 passes through the construction work vehicle 3. Since it is added to the erection girder 4, the balance of the erection girder 4 is lost even if the traveling girder 2 is moved while the erection girder 4 is offset from the construction work vehicle 3 and the carriage 5 as shown in FIG. There is no.
[0033]
(10) Next, as shown in FIG. 2 (d), the erection girder is inserted with jacks 16 respectively inserted between the end of the erection girder 4 in the handrail direction side and the opposite end and the bridge girder part 6. When the carriage 5 is moved in a state where the carriage 4 is lifted from the carriage 5 and supported, the carriage 5 of the traveling girder 2 moves to the side of the erection girder 4 in the direction of extending the bridge girder member 7 (this time FIG. ), The support position of the erection girder 4 by the carriage 5 is changed so as to support the part opposite to the left side (the part on the right side in FIG. 1D), and the construction work vehicle 3 is placed on the erection girder 4 Then, the above-mentioned bridge girder portion 6 is arranged at a position that is vertically aligned with the carriage 5 of the traveling girder 2 with the erection girder 4 in between. Another pallet 13 is arranged at the place where the bridge girder is lifted on the ground just below the pier 15 on which the construction work vehicle 3 is located, and the same pallet member 7 is placed on the other pallet 13. In the figure of the bridge girder portion 6, a bridge girder member 7 to be installed at the left end is prepared.
[0034]
(11) Thereafter, as shown in FIG. 2 (e), the jack 16 between the bridge girder portion 6 and the end of the erection girder 4 on the opposite side to the handrail direction side (the right end in FIG. 1 (d)). The pallet 5 supports the erection girder 4 and the above-mentioned another pallet 13 arranged at the bridge girder lifting position on the ground bridge 6 immediately below the position of the pier 15 is lifted. The bridge girder member 7 which is connected to the lower end of the wire 11 and is prepared on the other pallet 13 is lifted and transported in the same procedure as described above, and the left end of the bridge girder portion 6 in the figure. Overhang and erection.
[0035]
Therefore, according to the erection method of this embodiment, the bridge girder member 7 is transported from the vicinity of the pier 15 to the tip of the bridge girder portion 6 that has already been erected, and is erected and erected at the tip of the bridge girder. It is possible to utilize the work yard used for the construction of the pier 15 which is indispensable for construction, and therefore there is no need to secure a working site for bridge girder construction, and to create and maintain land accordingly. Costs can be reduced and the impact on the surrounding environment can be minimized. In addition, even if the bridge construction site is on the sea, river, or road, if there is enough space under the bridge, it can be constructed simply by using the sea area, water area, or land near the pier 15; Regulations can be kept low.
[0036]
Moreover, according to the erection method of this embodiment, the erection device 1 that combines the traveling girder 2 and the erection work vehicle 3 mounted thereon is used for lifting, transporting and erection of the bridge girder member 7 all. Since it can be performed by a single device and can be erected on both sides of the bridge pier 15 by one unit, various equipment such as crane equipment for taking up the bridge girder member 7 onto the already installed bridge girder portion 6 can be used. The construction equipment can be omitted, and the construction equipment can be greatly reduced as compared with the conventional cantilever projecting method.
[0037]
Furthermore, according to the erection method of this embodiment, the bridge girder member 7 that has been pre-assembled is lifted and transported by the erection work vehicle 3 mounted on the traveling girder 2, and the bridge girder portion 6 that has already been overhanging is carried out. Since the construction is overhanging at the tip of the bridge, the construction work on the bridge can be reduced, so that the construction period can be made equal or shorter than that of other conventional construction methods.
[0038]
And according to the erection apparatus 1 of this embodiment, the effect of the erection method of the above embodiment can be brought about, and the lifting machine 8 of the erection work vehicle 3 extends beyond both ends in the width direction of the erection girder 4. Since the frame 10 protrudes horizontally and both ends of the bridge girder member 7 are lifted from both ends of the frame 10, the bridge girder member 7 can be lifted in a well-balanced manner, and the lifting wire 11 has already been extended. Since the bridge girder portion 6 is placed between the bridge girder portions 6 and can be lowered to the outside of both ends in the width direction to avoid interference with the bridge girder portion 6. Can be transported along the bridge girder portion 6 quickly and safely.
[0039]
Further, in the erection apparatus 1 of this embodiment, the lifting machine 8 of the erection work vehicle 3 includes the wire clamp jack 12 that clamps the wire 11 and continuously pulls it up. It can be made small and lightweight for its capacity, and the entire construction device can be made compact. Furthermore, the carriage 5 of the traveling girder 2 and the carriage 9 of the construction work vehicle 3 both use an electric motor as a power source. Since it is mounted and self-propelled, it can eliminate the need for a separate power source and further reduce the construction equipment.
[0040]
  FIGS. 7 and 8 are explanatory views showing the construction procedure of the bridge girder member in one embodiment of the construction method of the present invention as set forth in claim 2, and FIGS. 9A and 9B are construction methods of the above embodiment. The erection device of the present invention according to claim 5 used inReference exampleIt is the side view and top view which show.
[0041]
  thisReference exampleSimilarly to the construction apparatus of the previous embodiment shown in FIG. 3 and FIG. 4, the construction apparatus 1 is composed of a traveling girder 2 and a construction work vehicle 3 as a construction work apparatus. Unlike the previous embodiment, the plate girder is configured to be approximately 1.5 times the length of the previous embodiment (in the previous embodiment, for example, the total length is 20 m.Reference exampleIn this case, the erection girder 4 can be extended in both the longitudinal directions by being fixed to the lower surface of the central part of the erection girder 4 to support the erection girder 4 and an electric motor as a power source. A carriage 5 that has 5a and is self-propelled by being driven by the electric motor 5a, and further, on the lower surface of the erection girder 4 at positions on both sides in the longitudinal direction of the erection girder 4 with respect to the carriage 5. It comprises a jack 16 as a temporary support member fixed and a connecting member 17 as a lift stop fixed at both ends in the longitudinal direction of the lower surface of the erection girder 4. The above erection girder 4 isReference exampleIn this case, the plate girder is used, but it can also be constituted by a girder having another structure such as a truss structure. Further, the jack 16 and the connecting member 17 may be inserted or mounted when they are used as in the previous embodiment. And as a power source to be mounted on the cart 5,Reference exampleIn this example, an electric motor is used. However, another structure such as a wire clamp jack, a strand jack, and a hydraulic cylinder, which will be described later, may be used.
[0042]
Further, the erection work vehicle 3 here has a lifting machine 8 for lifting the bridge girder member 7 to be installed, and an electric motor 9a as a power source for supporting the lifting machine 8 and supporting the lifting machine 8, and the electric motor 9a. The construction work vehicle 3 is also mounted on the erection girder 4 of the traveling girder 2, and is mounted on the erection girder 4. Travel on the track 4a. In addition, as the said lifting machine 8 and the said trolley | bogie 9, the thing similar to the previous Example can be used.
[0043]
Next, the erection method of the above embodiment will be described. This erection method is also determined from the pier 15 when the continuous girder as shown in FIG. 5 (a) or the bridge girder 14 of the ramen bridge as shown in FIG. 5 (b) is erected. In the case where the bridge girder member 7 is sequentially cantilevered while being balanced in two directions, and among the continuous girder as shown in FIG. 6 (a) and the bridge girder 14 of the ramen girder as shown in FIG. 6 (b) When the bridge girder part 6 is cantilevered in one direction with the bridge girder part 6 already installed by the construction method using the conventional vent 16 etc. as a counterweight, the minimum site and installation equipment near the pier 15 The bridge girder 14 can be erected by using the erection method. In this erection method, the girder member is constructed by the procedure shown in FIGS. 7 and 8 using the erection apparatus 1 of the above-described embodiment shown in FIG. 7 cantilever erection Do.
[0044]
That is, here, as shown in FIG. 7 (a), the traveling girder 2 of the erection device 1 is disposed at a position near the pier 15 on the bridge girder portion 6 that has already been erected. The erection work vehicle 3 of the erection device 1 is mounted on the erection girder 4, and the erection work vehicle 3 is arranged at the center of the erection girder 4, whereby the erection work vehicle 3 is placed between the erection girder 4 and the erection girder 4 therebetween. It is vertically aligned with the cart 5 of the traveling girder 2 by sandwiching it.
[0045]
But here,
(1) First, as shown in FIG. 7 (a), in the same figure of the bridge girder part 6 already installed, the bridge girder member 7 installed at the right end is near the pier 15 of the bridge girder part 6 already installed. Assembling the ground on the pallet 13 at the place where the bridge girder is lifted directly below the position, or making it in another yard, transporting to the bridge girder lifting place and placing it on the pallet 13
(2) Next, as shown in FIG. 7 (b), the bridge girder member 7 placed at the bridge girder lifting location is lifted by a lifting machine 8 of the erection work vehicle 3 to a height just below the bridge girder portion 6 already erected. Lift it up,
(3) At the same time as the lifting or after the lifting is finished, as shown in FIG. 7C, the traveling girder 2 on which the construction work vehicle 3 is mounted is moved by the carriage 5 to lift the construction work vehicle 3 The bridge girder member 7 lifted by the machine 8 is transported along the bridge girder part 6 to the front end of the bridge girder part 6 below the overhanging bridge girder part 6 and the erection girder of the traveling girder 2. 4 is extended to the front side (right side in FIG. 7C) from the front end of the bridge girder part 6 that has been overhanging (the right side part in FIG. 7C).
[0046]
(4) Next, as shown in FIG. 7 (d), the erection girder 4 of the traveling carder 2 is fixed to the lower surface of the erection girder 4 at positions on both sides of the carriage 5, and the erection girder 4 While supporting by the said jack 16 located between the overhanging bridge girder part 6, the edge part (the left edge part in FIG.7 (d)) on the opposite side to the current reach direction side of the erection girder 4 is provided. The above-mentioned connecting member 17 fixed to the lower surface of the erection girder 4 is connected to the bridge girder portion 6 to prevent the traveling carder 2 from being lifted,
(5) Next, as shown in FIG. 7 (e), the construction work vehicle 3 is moved onto the handrail direction side portion of the erection girder 4 (the right side portion in FIG. 7 (e)), and the construction work vehicle is moved. The bridge girder member 7 lifted by the lifting machine 8 of No. 3 is transported further forward than the tip of the bridge girder part 6 that is already overhanging,
(6) Next, as shown in FIG. 7 (f), the bridge girder member 7 that has been lifted up to the height of the tip of the bridge girder portion 6 that has already been overhanged by the lifting machine 8 of the erection work vehicle 3. The bridge girder member 7 is joined to the tip of the bridge girder portion 6 by pulling up.
[0047]
After that, here,
(7) First, as shown in FIG. 8 (a), the pallet 13 is lowered slightly,
(8) Next, as shown in FIG. 8 (b), the construction work vehicle 3 is returned to the center of the erection girder 4, and the erection work vehicle 3 is sandwiched between the erection girder 4 and the carriage of the traveling girder 2. 5, the jacks 16 on both sides of the carriage 5 are contracted to be separated from the bridge girder portion 6, and the connecting member 17 is removed from the bridge girder portion 6.
[0048]
(9) Next, as shown in FIG. 8 (c), the traveling girder 2 on which the erection work vehicle 3 is mounted is moved by the cart 5, and the previous pier on the bridge girder portion 6 that has already been overlaid. Return to the position near 15 and lower the pallet 13 to the lifting position of the bridge girder on the ground and separate it from the lower end of the wire 11 to prepare the next bridge girder member on the pallet 13, while the traveling girder 2 is further It is moved to a position near the pier 15 on the opposite side of the pier 15 from the position near the previous pier 15. In this embodiment, since the cart 5 supports the central portion of the erection girder 4 in a fixed manner, the construction work vehicle 3 is vertically aligned with the trolley 5 on the central portion of the erection girder 4 with the erection girder 4 in between. As long as the traveling girder 2 is moved, the balance of the erection girder 4 is not lost. Therefore, in the method of this embodiment, the number of times the jack 16 is used can be reduced as compared with the method of the previous embodiment.
[0049]
(10) Next, as shown in FIG. 8 (d), the bridge girder lifting place on the ground just below the bridge girder portion 6 that has already been erected, near the position of the pier 15 on which the construction work vehicle 3 is located. Another pallet 13 is arranged, and a bridge girder member 7 is prepared on the other pallet 13 in the same manner as the previous bridge girder member 7 in the same manner as the bridge girder portion 6.
[0050]
(11) After that, as shown in FIG. 8 (e), the other pallet 13 placed on the bridge girder lifting place on the ground just below the position of the bridge pier 15 of the already installed bridge girder part 6 is lifted. The bridge girder member 7 connected to the lower end of the wire 11 of the machine 8 and prepared on the other pallet 13 is lifted and transported in the same procedure as described above. Extend over the left end.
[0051]
Therefore, also by the method of this embodiment, the same effect as the previous embodiment can be obtained. In addition, according to the method of this embodiment, the central portion of the erection girder 4 is fixedly supported by the carriage 5. Since it is not necessary to change the position of the erection girder 4 on the cart 5 during the erection work, the construction period can be further shortened.
[0052]
  And thisReference exampleAccording to the erection apparatus 1, since the position of the erection girder 4 on the carriage 5 is not changed, the jack 16 and the connecting member 17 are fixed to the erection girder 4. There is no need to arrange and install them one by one, and the construction period can be further shortened in this respect. And thisReference exampleAccording to this construction device 1, the connecting member 17 can be installed at a position farther from the front fulcrum (jack 16 on the hand-stretching direction side) where the acting force on the connecting member 17 becomes small. Can be.
[0053]
  FIG. 10 is used in an embodiment of the erection method of the present invention as set forth in claim 3.5It is a side view which shows one Example of the construction apparatus of this invention of description, The construction apparatus 1 of this ExampleReference exampleThe construction is almost the same as that of the installation device. That is, also in this embodiment, the carriage 5 fixedly supports the central portion of the erection girder 4. In addition, in the erection apparatus 1 of this embodiment, pulleys 18 are pivotally supported at both longitudinal ends of the erection girder 4 and generally correspond to the weight of one bridge girder member 7 at both sides in the width direction of the erection girder 4. The counterweight unit 19 is supported by a guide rail (not shown) so as to be movable in the longitudinal direction of the erection girder 4, and the counterweight unit 19 is located at both ends of the erection girder 4. It is connected to the construction work vehicle 3 by a wire rope 20 stretched between 18 and interlocked with the movement of the construction work vehicle 3 so as to move in the direction opposite to the movement direction of the construction work vehicle 3. . In this embodiment, jacks 16 are provided on the lower surfaces of both ends in the longitudinal direction of the erection girder 4 instead of the connecting member 17 in the previous embodiment.
[0054]
In the above-described embodiment of the erection method according to the third aspect of the present invention, the erection girder 4 can be obtained by using the erection device 1 having such a configuration in the same manner as in the previous embodiment shown in FIGS. When the erection work vehicle 3 is moved in the reach direction, the counterweight unit 19 is moved in the opposite direction to the erection work vehicle 3 to balance the erection girder 4 of the erection device 1.
[0055]
Therefore, according to the method of this embodiment, it is possible to eliminate the time-consuming lifting work of manually connecting the connecting member 17 to the bridge girder portion 6 by an operator, further shortening the work period, and the bridge girder. It is also possible to fully automate the construction work on the part 6.
[0056]
As mentioned above, although demonstrated based on the example of illustration, this invention is not limited to the above-mentioned example, For example, the mounting number of the wire clamp jack 12 can also be increased / decreased. In addition, as a method of moving the moving base of the construction work device, a skate that slides along the rail on the erection girder is provided on the moving base, and a winch, a hydraulic cylinder, and a strand jack provided on the moving pedestal or the erection girder are provided. It may be possible to slide the moving table by applying grease or other lubricant on the surface of the rail or skate or special processing to reduce the friction between the rail and skate. Alternatively, a linear ball bearing may be configured by inserting a number of steel balls between the rail and the skate. This method using skate is not suitable for long-distance movement because it cannot move at high speed, but if it is moved on the erection girder as in the present invention, the movement distance is short, and escape prevention etc. Since it is not necessary to move the moving platform at high speed from the safety aspect, this method is suitable, and this skate is a method that requires a relatively fine position adjustment of the bridge girder member when joining the bridge girder member to the tip of the bridge girder part. Therefore, the fine position adjustment can be easily performed.
[0057]
Moreover, the bridge girder member erection device of the present invention may be configured to fix and support the lower surface of the erection girder on the side opposite to the reach side of the erection girder when it is erected in only one direction. The bridge girder erection device of the present invention can also be applied to a direct suspension method when the bridge girder member can be transported by a trolley or the like on the sea or on a river and stopped just below the erection position.
[0058]
As described above, the present invention includes various forms that can be modified from the above examples by those skilled in the art within the scope of the claims. The bridges to which the erection method of the present invention can be applied are classified as follows.
(1) Classification according to bearing conditions and bridge girder support conditions during erection
Cantilever construction of T-type rigid frame bridge, cantilever construction of multi-span continuous rigid frame bridge, and cantilever construction of multi-span continuous girder bridge.
(2) Classification by bridge material
Concrete bridges, steel bridges and concrete / steel composite bridges.
(3) Classification by main digit format
Box girder bridge, I girder bridge, T girder bridge, truss bridge, etc.
[Brief description of the drawings]
FIG. 1 is an explanatory view showing the first half of a bridge girder erection procedure in one embodiment of the erection method of the present invention.
FIG. 2 is an explanatory diagram showing the latter half of the bridge girder erection procedure in one embodiment of the erection method of the present invention.
FIGS. 3A and 3B are a side view and a plan view showing an embodiment of the erection device of the present invention used in the erection method of the embodiment.
FIG. 4 is an enlarged front view showing the erection apparatus according to the embodiment.
FIG. 5 is an explanatory diagram illustrating a bridge to which the erection method of the above embodiment can be applied.
FIG. 6 is an explanatory diagram further illustrating a bridge to which the erection method of the above embodiment can be applied.
FIG. 7 is an explanatory view showing the first half of a bridge girder erection procedure in another embodiment of the erection method of the present invention.
FIG. 8 is an explanatory view showing the second half of the bridge girder erection procedure in the other embodiment of the erection method of the present invention.
FIG. 9 shows a construction apparatus according to the present invention used in the construction method of the other embodiment.Reference exampleIt is the side view and top view which show.
FIG. 10 is a perspective view of a construction apparatus according to the present invention used in still another embodiment of the construction method of the present invention.otherIt is a side view which shows one Example.
[Explanation of symbols]
  1 Construction equipment
  2 Traveling girder
  3 Construction work vehicle
  4 Erection girder
  5 carts
  6 Bridge girder already installed
  7 Bridge girder members
  8 Lifting machine
  9 carts
  10 frames
  11 wire
  12 Wire clamp jack
  13 palettes
  14 Bridge girder
  15 Pier
  16 Jack
  17 Connecting member
  18 pulley
  19 Counterweight unit
  20 wire rope

Claims (10)

A traveling girder having an erection girder and a carriage that runs on the bridge girder by supporting the erection girder so that the supporting position of the erection girder can be changed is disposed on the bridge girder already overhanging. A construction work device that has a lifting machine for lifting a member and moves on the traveling girder of the traveling girder is mounted on the electoric girder,
First, the support position of the erection girder by the traveling girder carriage is a part of the erection girder on the side opposite to the handrail direction side for erection of the bridge girder member, and the erection work device is placed on the erection girder. Then, with the erection girder sandwiched between them, the traveling girder is vertically aligned with the cart of the traveling girder, and the traveling girder is arranged at a position near the pier on the bridge girder part that has already been overhanging,
Next, in the vicinity of the bridge pier, the bridge girder member is lifted below the bridge girder portion that has already been overhanged by the lifting machine of the erection work device, and the traveling girder equipped with the erection work device is mounted on the carriage. Transporting the bridge girder member in a state lifted by the lifting machine of the erection work device along the bridge girder part below the bridge girder part already overhanging to the tip of the bridge girder part, and , The hand side direction part of the erection girder is handed forward from the tip of the bridge girder part already overhanging,
Next, the traveling girder is connected to the already extended overhanging bridge girder part and stopped from lifting, and then the construction work device is moved onto the handrail direction side part of the erection girder,
Next, by lifting the bridge girder member in the suspended state to a predetermined height by the lifting machine of the erection work device, the bridge girder member is erected to the tip of the bridge girder part that has already been erected,
Next, after the connection between the traveling girder and the bridge girder already overhanging is released, the support position of the erection girder by the traveling girder carriage is changed to the center of the erection girder and the erection girder Move the working device on the erection girder so that it is vertically aligned with the traveling girder carriage with the erection girder in between,
Thereafter, the traveling girder on which the erection work device is mounted is moved by the carriage and returned to a position near the pier on the bridge girder already overhanging, and the bridge girder member erection method is characterized. A lifting machine that arranges a traveling girder including a carriage traveling on the bridge girder part and an erection girder fixed on the bridge girder part, and lifting the bridge girder member to be constructed. The construction work device that moves on the traveling girder of the traveling girder is mounted on the electoric girder,
First, the construction work device is placed on the erection girder so as to be vertically aligned with the carriage girder carriage with the erection girder interposed therebetween, and the traveling girder is overlaid on the bridge girder part that has already been erected. Placed near the pier,
Next, in the vicinity of the bridge pier, the bridge girder member is lifted below the bridge girder portion that has already been overhanged by the lifting machine of the erection work device, and the traveling girder equipped with the erection work device is mounted on the carriage. Transporting the bridge girder member in a state lifted by the lifting machine of the erection work device along the bridge girder part below the bridge girder part already overhanging to the tip of the bridge girder part, and , The hand side direction part of the erection girder is handed forward from the tip of the bridge girder part already overhanging,
Next, the traveling girder is connected to the already extended overhanging bridge girder part and stopped from lifting, and then the construction work device is moved onto the handrail direction side part of the erection girder,
Next, by lifting the bridge girder member in the suspended state to a predetermined height by the lifting machine of the erection work device, the bridge girder member is erected to the tip of the bridge girder part that has already been erected,
Next, after the connection between the traveling girder and the bridge girder already overhanging is released, the erection work device is placed on the erection girder with the erection girder in between, Move it to a state that aligns with
Thereafter, the traveling girder on which the erection work device is mounted is moved by the carriage and returned to a position near the pier on the bridge girder already overhanging, and the bridge girder member erection method is characterized. On a bridge girder part that is already overhanging, a carriage traveling on the bridge girder part, an erection girder fixed on the trolley, and a counterweight movable along the extending direction of the erection girder are provided. A traveling girder that has a lifting machine for lifting a bridge girder member to be installed and moves on the traveling girder of the traveling girder is mounted on the erection girder.
First, the construction work device is placed on the erection girder so as to be vertically aligned with the traveling girder carriage with the erection girder sandwiched therebetween, and the counterweight is vertically aligned with the traveling girder carriage. In the state, the traveling girder is arranged at a position near the pier on the already overhanging bridge girder part,
Next, in the vicinity of the bridge pier, the bridge girder member is lifted below the bridge girder portion that has already been overhanged by the lifting machine of the erection work device, and the traveling girder equipped with the erection work device is mounted on the carriage. Transporting the bridge girder member in a state lifted by the lifting machine of the erection work device along the bridge girder part below the bridge girder part already overhanging to the tip of the bridge girder part, and , The hand side direction part of the erection girder is handed forward from the tip of the bridge girder part already overhanging,
Next, while moving the counterweight to the portion of the erection girder on the side of the handrail direction, the erection work device is moved onto the portion of the erection girder on the handwheel direction side,
Next, by lifting the bridge girder member in the suspended state to a predetermined height by the lifting machine of the erection work device, the bridge girder member is erected to the tip of the bridge girder part that has already been erected,
Next, the counterweight is moved to a state in which the counterweight is vertically aligned with the cart, and the construction work device is vertically aligned with the cart of the traveling girder on the erection girder with the erection girder interposed therebetween. Move
Thereafter, the traveling girder on which the erection work device is mounted is moved by the carriage and returned to a position near the pier on the bridge girder already overhanging, and the bridge girder member erection method is characterized. A traveling girder comprising an erection girder and a carriage that supports the erection girder so that the support position can be changed.
A construction work apparatus comprising: a lifting machine for lifting a bridge girder member to be installed; and a moving base that supports the lifting machine and moves on the erection girder; and mounted on the erection girder of the traveling girder;
A combination of
The traveling girder cart supports the erection girder in a state where the moving platform of the erection work device is vertically aligned with the trolley and the lifting machine lifts the bridge girder member to be erected. A bridge girder member erection device characterized in that, while balancing the girder, the erection girder travels from the tip of a bridge girder portion that has already been overhanging to a position where it can be pushed forward in a cantilevered state. A traveling girder comprising an erection girder, a carriage that supports and supports the erection girder, and a counterweight movable along the extending direction of the erection girder ,
A construction work apparatus comprising: a lifting machine for lifting a bridge girder member to be installed; and a moving base that supports the lifting machine and moves on the erection girder; and mounted on the erection girder of the traveling girder;
A combination of
The traveling girder cart supports the erection girder in a state where the moving platform of the erection work device and the counterweight are vertically aligned with the trolley and the lifting machine lifts the bridge girder member to be erected. And while balancing the erection girder, run from the tip of the bridge girder already overhanging to the position where the erection girder cantilevered forward ,
The Traveling girder counterweight, characterized in Rukoto preparative balance of its erection girders by moving the moving base to mobile direction opposite to the direction of the erection work device on the erection girder, erection of the bridge girder members apparatus. The lifting machine of the construction work device has a frame that protrudes horizontally beyond both ends of the erection girder in the width direction, and lifts both ends of the bridge girder member from both ends of the frame. The bridge girder member erection device according to claim 4 or 5 . The lifting machine of the construction work device is characterized in that it comprises a wire clamp jack to raise continuously clamp the wire rope, the bridge beam member according to any one of claims 4 to claim 6 Construction device. The lifting machine of the construction work device is characterized in that it comprises a strand jack to raise continuously clamping the strands consisting of PC steel wire, according to any of claims 4 to claim 6 Bridge girder erection device. The bridge girder member erection device according to any one of claims 4 to 6 , wherein the hoisting machine of the erection work device comprises a winch for winding a wire rope or a chain block for winding a chain. . The Traveling girder carriage with at least one of the moving base of the erection work apparatus is characterized in that it is intended to self-propelled and equipped with a power source, according to any one of claims 4 to claim 6 Bridge girder erection device.

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