JP7276599B2 - Method of erecting segment steel girders on pier top short slide girders (Pier-Top Short Slideway Girder) - Google Patents

Description

The present invention relates to the technical field of bridge erection construction, and more particularly to a method for erecting segmental steel girders on pier-top short slideway girders.

Traditionally, in the erection and construction of multiple segment steel girders on top of piers on water or land, the structure of brackets beside the piers and pressure-bearing girders above the tops of the piers is adapted to the overall length of the steel girder erection. The steel girders above the brackets and the structure of the pressure bearing girder on top of the pier rely on the steel girder itself to maintain stability after the girder has been lowered. However, the scope of the foundation is limited. For example, when static girder erection construction methods are adopted for underwater bearing platforms due to limitations in the design range of brackets on foundations, bracket column inclinations often increase or Submarine columns are added to design long slide girders on top of the piers, where steel girders are erected on the long slide girders. When the slope of the bracket is often increased or the submarine column is added, on the one hand more consumables are not economical, and on the other hand the construction becomes less safe.

Therefore, it is the focus of the present application to provide an economical, safe and reliable girder erection method.

SUMMARY OF THE INVENTION In view of the shortcomings existing in the prior art, it is an object of the present invention to provide a method for erecting segmented steel girders on pier top short slide girders, wherein the steel girders on pier top short slide girders are counterweights and counterweights. After the overall anti-tipping stable state is achieved by the slide, the steel girders are continuously erected on both sides of the integrated steel girder with overall anti-tipping ability, and the construction process is safe and It is highly reliable and construction equipment is more economical than long sliding girders.

To achieve the above objects, in a first aspect, an embodiment of the present invention is a method for erecting a segmented steel girder on a pier top short slide girder comprising the following steps:
S1, providing a counterweight with adjustable weight on the first segment steel girder;
S2, lowering the first segment steel girder to a preset first position on the pier top short slide girder, wherein the length of the pier top short slide girder is equal to the length of the first segment steel girder; a step shorter than the sum of its length and the length of the two segment steel girders on either side of it;
S3, lifting the second segment steel girder and abutting said second segment steel girder with said first segment steel girder to form an erected first integrated steel girder;
S4, when the first integral steel girder moves along the pier top short slide girder over a preset amount of displacement, pre-calculate the target load of the counterweight, and adjusting the counterweight so that the steel girder is adjusted to the target load, and then moving the first integrated steel girder to the preset displacement;
S5, S3 and S4 are repeated until all the segment steel girders mated with the first integrated steel girder have total anti-tipping capability on the pier top short slide girder. , successively abutting a plurality of segmented steel girders with said first integrated steel girders;
S6, erecting the remaining segment steel girders on each side of all said erected segment steel girders on each side of each of said erected segment steel girders.

Based on the above technical solutions, when the second segment steel girder, the first segment steel girder and the third segment steel girder are continuously arranged on the pier top short slide girder, the pier top short slide girder The length of the slide girder is shorter than the center-of-gravity distance between the second segment steel girder and the third segment steel girder.

Based on the above technical solutions, said S2 specifically includes the following steps:
lifting the first segment steel girder to a preset height and then using the counterweight to adjust the first segment steel girder to a horizontal position;
lowering said first segment steel girder to said first position on said pier top short slide girder.

Based on the above technical solution, the pier top short slide girder is placed on the top of the pier and the bracket beside the pier, and the pier top short slide girder is:
a stringer positioned on each side of said pier, said stringer positioned horizontally above the top of said bracket;
a fixed slide seat positioned on an outer end of said stringer and configured to support said segment steel girder;
a smooth steel plate fixedly positioned on top of said pier to act as a short slide surface;
a slide assembly comprising a fixed portion fixedly connected to the stringer and a movable portion configured to move the segmented steel girder over the smooth steel plate.

Based on the above technical solution, the fixed part is:
an anchoring girder positioned on an inner end of said stringer, said anchoring girder commanding height being less than the commanding height of said fixed slide seat;
A longitudinal traction device, which is arranged on the fixed girder, wherein the movable part
A movable slide seat, which is arranged on the smooth steel plate and connected with the longitudinal traction device via a traction line.

Based on the above technical solutions, the method includes the following steps before S2:
placing a temporary pad at a preset position on said stringer and moving said movable slide seat to said preset position.

Based on the above technical solutions, the longitudinal traction device is a jack, and the traction line is a steel strand.

Based on the above technical solution, the movable slide seat is spot welded with the first segment steel girder.

Based on the above technical solution, the counterweight is a plurality of water storage containers freely arranged on the first segment steel girder, the weight of the water storage container is adjusted according to the water storage capacity, and all The center of gravity of the water storage container is coplanar with the center of gravity of the first segment steel girder.

Based on the above technical solution, a water discharge valve is installed at the bottom of the water storage container, and the specific method for adjusting the weight of the water storage container according to the water storage capacity is as follows:
using the water pump to pump water into the water storage container to increase the water storage capacity; and using the water discharge valve to release water to reduce the water storage capacity.

Compared with the prior art, the present invention has the following advantages.
(1) The present invention provides a method for erecting segment steel girders on pier top short slide girders, after the steel girders on pier top short slide girders reach overall anti-toppling capability by means of counterweights and slides. , In the process of girder erection and steel girder segment erection, the utilization rate of pier lateral brackets and short slide girders is significantly improved, the construction process is safe and reliable, and the construction equipment is equipped with long slide girders. more economical than
(2) When the length of the pier top short slide girder is significantly shorter than the total length of the multiple segment steel girders, especially the length of the pier top short slide girder is the center of gravity of the two segment steel girders on both sides of the first segment steel girder. If less than the distance, the method of counterweight and slide adopted in the present invention allows the erected steel girder to achieve overall anti-tipping ability, thus ensuring safety and reliability in the process of girder erection. On the contrary, the anti-toppling ability of steel girders that are statically erected in the initial stage cannot meet the design requirements if the traditional segment girder erection method is adopted.

FIG. 4 is a schematic diagram of erection of a first segment steel girder on a pier top short slide girder in an embodiment of the present invention; FIG. 4 is a structural diagram of a pier top short slide girder in an embodiment of the present invention; FIG. 4 is a schematic diagram of erection of a second segment steel girder on a pier top short slide girder in an embodiment of the present invention; It is a schematic diagram of erection of the third segment steel girder on the pier top short slide girder in the embodiment of the present invention. FIG. 4 is a structural diagram of the first three segment steel girders erected on the pier top short slide girder in an embodiment of the present invention; FIG. 4 is a schematic diagram of static erection of remaining steel girders on pier top short slide girders in an embodiment of the present invention;

21 - 1st segment steel girder; 22 - 2nd segment steel girder; 23 - 3rd segment steel girder; 3 - pier top short slide girder; 33 - smooth steel plate; 34 - fixed girder; 35 - longitudinal traction device; 36 - movable slide seat; 37 - traction line;

The invention is explained in more detail below with reference to the drawings in combination with the embodiments.

Embodiments As shown in FIGS. 1 and 3-6, embodiments of the present invention provide a method of erecting segmented steel girders on pier top short slide girders. The method comprises the following steps.

S1, the counterweight 1 configured to adjust the weight is placed on the first segment steel girder 21;

S2, the first segment steel girder 21 is lowered to the preset first position on the pier top short slide girder 3, the length of the pier top short slide girder 3 is equal to the length of the first segment steel girder 21; shorter than the sum of the lengths of the two segment steel girders on either side of it.

S3, the second segment steel girder 22 is lifted, and the second segment steel girder 22 is butted with the first segment steel girder 21 to form the erected first integrated steel girder.

S4, the target load of the counterweight 1 is pre-calculated when the first integral steel girder moves along the pier top short slide girder 3 over a preset amount of displacement. The counterweight 1 is adjusted such that the first integrated steel girder is adjusted to the target load, then the first integrated steel girder is moved to the preset displacement.

S4 specifically has the following steps.

The displacement _S1 of the first integral steel girder moving along the pier top short slide girder 3 is pre-calculated, the target displacement _D1 and the target weight _V1 of the counterweight 1 are calculated from the preset first position , the displacement _S1 and the calculation according to the fall prevention calculation method.

The counterweight 1 is moved to position _D1 on the first segment steel girder 21 and the weight of the counterweight 1 is adjusted to _V1 . Next, the first integral steel girder and the counterweight after the counterweight are moved along the pier top short slide girder 3 to displacement _S1 .

S5, the above S3 and S4 are repeated until all segment steel girders mated with the first integrated steel girder have overall anti-tipping capability on the pier top short slide girder 3; A plurality of segmented steel girders are continuously abutted with the first integrated steel girders.

S6, the remaining segment steel girders are erected on each side of all erected segment steel girders, i.e. all segment steel girders remain stationary with overall anti-tipping ability, and all segments Both sides of the steel girder are continuously abutted with the steel girder.

The present invention provides a method for erecting segmented steel girders on pier top short slide girders, and after the steel girders on pier top short slide girders reach their overall anti-tipping capacity by means of counterweights and slides, the girders are , are erected in the usual way. During the process of segment erection of the segment steel girder, the utilization rate of the pier top short slide girder 3 and the side bracket 42 of the pier 41 is significantly improved, and the erected segment steel girder has anti-overturn ability before the static girder erection. has reached Therefore, the construction process is safe and reliable, the construction equipment does not need to increase the structural composition supporting the segment steel girder compared to the long slide girder, and the bracket has a small oblique inclination, so that The compression capacity of the piers and brackets under the pier top short slide girders is fully demonstrated.

When the segment steel girder is erected on the pier top short slide girder 3, the length of the pier top short slide girder 3 is the sum of the length of the first segment steel girder 21 and the length of the two segment steel girders on both sides. When the segment steel girder next to the second segment steel girder 22 is erected, the second segment steel girder 22 is partially suspended on the pier top short slide girder 3 and the second The segment steel girder next to the segment steel girder 22 is lifted and butted together. Therefore, through movement of the first integral steel girder of the erected segment steel girder and adjustment of the counterweight 1 for reasonable counterweight, it is possible to increase the stability of lifting and butting of the next segment steel girder. It can ensure the stability of the girders erected on the pier top short slide girders when the erected segmental steel girders have not reached their overall anti-tipping capacity.

Specifically, the displacement S _M of the M integral steel girder moving along the pier top short slide girder is pre-calculated, and the target displacement D _M and the target weight V _M of the counterweight 1 are calculated as follows: Obtained by calculation according to 1) integral steel girder displacement, displacement S _M and overturn prevention calculation method.

S5 specifically has the following stages.

The third segment steel girder 23 is lifted from the first segment steel girder 21 on the side opposite to the second segment steel girder 22, and the third segment steel girder 23 is butted against the first segment steel girder 21 to erect. A second integral steel girder is formed.

The counterweight 1 is moved to the target displacement _D2 on the first segment steel girder 21 and the weight of the counterweight 1 is adjusted to _V2 . Next, the first integral steel girder and the counterweight after the counterweight are moved along the pier top short slide girder 3 to displacement _S2 .

The Nth segment steel girder is lifted and the Nth segment steel girder is butted with the (N-2)th segment steel girder to form the erected (N-1)th integral steel girder.

The counterweight 1 is moved to the target displacement D _N-1 on the first segment steel girder 21 and the weight of the counterweight 1 is adjusted to V _N-1 . Next, the Nth integral steel girder and the counterweight after the counterweight are moved along the pier top short slide girder 3 to displacement SN _-1 .

The (N+1)th segment steel girder is lifted, the (N+1)th segment steel girder is butted with the (N−1)th segment steel girder to form the erected Nth integral steel girder, and the Nth integral steel girder reaches full anti-tipping capability on the pier top short slide girder 3. According to engineering requirements and anti-tipping capability calculations, it is determined that the Nth integral steel girder reaches the overall anti-tipping capability and satisfies the assumptions of conventional butt girder erection.

Specifically, when the second segment steel girder 22, the first segment steel girder 21 and the third segment steel girder 23 are continuously arranged on the pier top short slide girder 3, the length of the pier top short slide girder 3 is The height is shorter than the center-of-gravity distance between the second segment steel girder 22 and the third segment steel girder 23 . When the length of the pier top short slide girder is significantly shorter than the total length of the multiple segment steel girders, especially the length of the pier top short slide girder is shorter than the center-of-gravity distance of the two segment steel girders on both sides of the first segment steel girder. Given the short and limited layout range of the pier lateral bracket and slide girder system, embodiments of the present invention provide a counterweight and slide method in which the erected steel girder achieves overall anti-tipping capability. is adopted, and as a result, the utilization rate of the pier top short slide girder 3 can be significantly improved.

Specifically, S2 has the following stages.

S201, the first segment steel girder 21 is lifted to a preset height, then the counterweight 1 is adopted to adjust the first segment steel girder 21 to a horizontal state.

S202, the first segment steel girder 21 is lowered to the first position on the pier top short slide girder 3;

In the embodiment of the present invention, the counterweight 1 is adopted to level the first segment steel girder 21 so that the first segment steel girder 21 can be quickly placed on the pier top short slide girder 3. and there is no need to adjust the first segment steel girder 21.

Specifically, as shown in FIG. 2 , the pier top short slide girder 3 is arranged on the top of the pier 41 and the bracket 42 beside the pier 41 . The pier top short slide girder 3 comprises a stringer 31, a fixed slide seat 32, a smooth steel plate 33 and a slide assembly. The stringers 31 are arranged on both sides of the piers 41 and the stringers 31 are arranged horizontally on top of the brackets 42 . Fixed slide seats 32 are arranged on the outer ends of stringers 31 and are configured to support segmental steel girders. A smooth steel plate 33 is fixedly placed on top of the pier 41 to act as a short slide surface. The slide assembly comprises a fixed part fixedly connected to the stringers 31 and a movable part configured to move the segmental steel girders on the smooth steel plates 33 .

More specifically, the fixed section includes a fixed girder 34 and a longitudinal traction device 35 . An anchoring beam 34 is located on the inner end of the stringer 31 and the viewing height of the anchoring beam 34 is lower than the viewing height of the fixed slide seat 32 . A longitudinal traction device 35 is arranged on the fixed girder 34 . The movable part comprises a movable slide seat 36, which is arranged on a smooth steel plate 33 and abutted with a longitudinal traction device 35 via a traction line 37, and the movable slide seat 36 is located on the first It is spot-welded with the segment steel girder 21 so that movement of the movable slide seat 36 ensures that the first segment steel girder 21 moves. Specifically, the longitudinal traction device 35 is a jack and the traction line 37 is a stranded steel wire.

Embodiments of the present invention provide a specific structure for the pier top short slide girder 3, and the pier top short slide girder 3 provided by the embodiments of the present invention effectively utilizes segmented steel girders thereon. can be moved.

Furthermore, before S2, the following steps are further included.

A temporary pad 38 is placed at a preset position on the stringer 31 and the movable slide seat 36 moves to the preset position. The temporary pad 38 is configured to support the first segment steel girder 21 when the first segment steel girder 21 is placed on the pier top short slide girder 3 .

In addition, the counterweight 1 is a plurality of water storage containers freely placed on the first segment steel girder 21, the weight of the water storage containers is adjusted according to the water storage capacity, and the center of gravity of all water storage containers is the first segment It is on the same plane as the center of gravity of the steel girder 21 .

In addition, a water discharge valve is placed at the bottom of the water storage container, and a specific method for adjusting the weight of the water storage container according to the water storage capacity is to use a water pump to pump water into the water storage container to increase the water storage capacity. and the use of a drain valve to release water to reduce the water storage volume.

In embodiments of the present invention, the method of adjusting the target weight via the water storage container is simple and easy to operate, and it can be seen that the weight of the water in the water storage container can be adjusted continuously. .

An embodiment of the present invention provides a method for erecting segmented steel girders on short sliding pier top girders, after the steel girders on short sliding pier top girders have reached their overall anti-tipping capability by means of counterweights and slides. , In the process of girder erection and steel girder segment erection, the utilization rate of pier lateral brackets and short slide girders is significantly improved, the construction process is safe and reliable, and the construction equipment is equipped with long slide girders. more economical than

The invention is not limited to the embodiments described above. Persons skilled in the art may make some improvements and modifications without departing from the principle of the present invention, and these improvements and modifications are also deemed to fall within the protection scope of the present invention. Subject matter not described in detail herein belongs to prior art well known to those skilled in the art.

Claims (10)

A method of erecting a segmented steel girder on a pier top short slide girder comprising the steps of:
S1, providing a counterweight with adjustable weight on the first segment steel girder;
S2, lowering the first segment steel girder to a preset first position on the pier top short slide girder, wherein the length of the pier top short slide girder is equal to the length of the first segment steel girder; a step shorter than the sum of its length and the length of the two segment steel girders on either side of it;
S3, lifting the second segment steel girder and abutting said second segment steel girder with said first segment steel girder to form an erected first integrated steel girder;
S4, pre-calculating the target load of the counterweight when the first integrated steel girder moves along the pier top short slide girder over a preset amount of displacement; adjusting the counterweight so that the integrated steel girder is adjusted to the target load, and then moving the first integrated steel girder to the preset displacement;
S5, S3 and S4 are repeated until all the segment steel girders mated with the first integrated steel girder have overall anti-tipping capability on the pier top short slide girder. , successively abutting a plurality of segmented steel girders with said first integrated steel girders;
S6. A method of erecting segment steel girders on pier top short slide girders, comprising the step of: erecting the remaining segment steel girders on each side of all said erected segment steel girders. When the second segment steel girder, the first segment steel girder and the third segment steel girder are arranged continuously on the pier top short slide girder, the length of the pier top short slide girder is equal to the length of the pier top short slide girder. The method of erecting a segment steel girder on a pier top short slide girder according to claim 1, wherein the distance between the center of gravity between the two-segment steel girder and the third segment steel girder is shorter than the center-of-gravity distance. Specifically, the S2 includes the following steps:
lifting the first segment steel girder to a preset height and then using the counterweight to adjust the first segment steel girder to a horizontal position;
lowering the first segment steel girder to the first position on the pier top short slide girder according to claim 1 or 2. Method. The pier top short slide girder is located on the top of the pier and on the bracket beside the pier, the pier top short slide girder comprising:
a stringer positioned on each side of said pier, said stringer positioned horizontally above the top of said bracket;
a fixed slide seat positioned on an outer end of said stringer and configured to support said segment steel girder;
a smooth steel plate fixedly positioned on top of said pier to act as a short slide surface;
a slide assembly comprising a fixed portion fixedly connected to the stringer and a movable portion configured to move the segmented steel girder over the smooth steel plate; Item 4. A method for constructing a segment steel girder on the bridge pier top short slide girder according to any one of Items 1 to 3. The fixed part is
an anchoring girder positioned on an inner end of said stringer, said anchoring girder having a viewing height less than a viewing height of said fixed slide seat;
A longitudinal traction device, which is arranged on the fixed girder, wherein the movable part
5. The pier top short slide girder according to claim 4, comprising a movable slide seat arranged on said smooth steel plate and connected with said longitudinal traction device via a traction line. How to erect segment steel girders. Prior to said S2, the following steps:
6. The pier top short slide girder of claim 5, further comprising placing a temporary pad at a preset location on said stringer and moving said movable slide seat to said preset location. A method of erecting segment steel girders on top. A method for erecting a segmented steel girder on a pier top short slide girder according to claim 5 or 6, wherein said longitudinal traction device is a jack and said traction line (37) is a stranded steel wire. 8. The method of erecting a segment steel girder on a pier top short slide girder according to any one of claims 5 to 7, wherein said movable slide seat is spot welded with said first segment steel girder. The counterweight is a plurality of water storage containers freely placed on the first segment steel girder, the weight of the water storage containers is adjusted according to the water storage capacity, and the center of gravity of all the water storage containers is aligned with the first A method for erecting a segment steel girder on a pier top short slide girder according to any one of claims 1 to 8, which is on the same plane as the center of gravity of the segment steel girder. A water discharge valve is installed at the bottom of the water storage container, and the specific method for adjusting the weight of the water storage container according to the water storage capacity is as follows:
using a water pump to pump water into said water storage container to increase water storage capacity; and using said water discharge valve to release water to decrease water storage capacity. 9. A method of constructing a segment steel girder on the pier top short slide girder according to 9.

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