CN112796229A - Swivel construction method for bridge in water-rich area - Google Patents

Abstract

The invention discloses a swivel construction method of a bridge in a water-rich area, which comprises the following steps: firstly, mounting a temporary water stopping structure of a swivel spherical hinge support; secondly, constructing a spherical hinge mounting bearing platform; hoisting the swivel spherical hinge support; fourthly, adjusting the horizontal position of the rotating body spherical hinge support; fifthly, fixing the swivel spherical hinge support; sixthly, constructing a rotating body of the bridge body structure; seventhly, locking the swivel spherical hinge support and installing the permanent water stopping structure of the swivel spherical hinge support. The swivel spherical hinge support is provided with the jack to adjust the horizontal position of the swivel spherical hinge support in three directions, the occupied space is small, the height of the swivel spherical hinge support can be positioned only by one-time hoisting, the positioning and mounting speed of the swivel spherical hinge support is greatly improved, and meanwhile, the mounting of the water-stopping sealing structure is carried out on the swivel spherical hinge support at the front and the rear of a swivel beam swivel, so that the swivel spherical hinge support can be ensured to isolate impurities from entering the swivel spherical hinge support in the process of waiting for swivel, the swivel effect in swivel construction is ensured, and the swivel spherical hinge support is convenient to popularize and use.

Description

Swivel construction method for bridge in water-rich area

Technical Field

The invention belongs to the technical field of bridge construction, and particularly relates to a turning construction method for a bridge in a water-rich area.

Background

Bridge turning construction is a novel bridge construction process developed in the 40 th century in the 20 th century, can fully utilize favorable terrains near piers (platforms) to carry out bridge superstructure construction, can effectively solve the bridge construction problem under special conditions of crossing deep valleys, rivers, existing lines and the like, and has the advantages of no interference to traffic, reduction of construction difficulty and risk and the like. However, most of the swivel spherical hinge supports for swivel bridges are located in foundation pits, the swivel spherical hinge supports are often exposed to the risk of rainwater (flood) backflow in construction, the requirement on the waterproof performance of the swivel device is higher, and meanwhile, cement paste enters the swivel spherical hinge supports due to the reasons of grouting, washing in the concrete pouring process and the like in the construction process, so that the swivel is influenced, and the post-treatment is very troublesome. In addition, when the traditional spherical hinge support of turning is installed, pour earlier lower cushion cap to spherical hinge skeleton bottom, then hoist and mount the skeleton, pour the fixed skeleton of concrete, then install the spherical hinge lower wall in proper order, the tetrafluoro gleitbretter, application grease etc. hoist and mount the hanging wall, try to change and lock, this mode adjusts the adjustment of spherical hinge structure level elevation mainly relies on the bolt between skeleton and the lower wall to adjust, but horizontal position is not convenient for adjust, the required working space of adjustment is big, it is time-consuming and labor-consuming, make the structure location cycle long, make outside impurity get into in the spherical hinge support of turning more easily, the efficiency of construction is low.

Disclosure of Invention

The invention aims to solve the technical problems in the prior art, and provides a swivel construction method for a bridge in a water-rich area, which realizes the accurate positioning of the height of a swivel spherical hinge support by arranging positioning steel bars, adjusts the horizontal position of the swivel spherical hinge support on a bearing platform in three directions by arranging three jacks, has small occupied space of a horizontal position adjusting tool, has small limitation on the installation site of the jacks, can realize the accurate positioning of the height of the swivel spherical hinge support only by one hoisting process, has simpler construction steps, simple and clear horizontal position adjusting mode, greatly improves the positioning and installing speed of the swivel spherical hinge support, simultaneously carries out temporary water sealing on the swivel spherical hinge support before the swivel beam is swiveled, ensures that the swivel spherical hinge support can isolate impurities such as cement slurry generated by grouting, washing in the concrete process and the like in the construction process from entering the swivel spherical hinge support in the process of waiting for swiveling, thereby the effect of turning when guaranteeing to turn the construction guarantees the normal clear of construction, excellent in use effect, convenient to popularize and use.

In order to solve the technical problem, the invention adopts the technical scheme that the method adopts a swivel spherical hinge support arranged at the bottom of a bridge main pier to realize swivel, the swivel spherical hinge support comprises an upper spherical pendulum, a lower spherical pendulum and a rotating shaft arranged between the upper spherical pendulum and the lower spherical pendulum, the upper spherical pendulum and the lower spherical pendulum are vertically connected, an annular top seat is sleeved on the upper spherical pendulum, an annular base is sleeved on the lower spherical pendulum, and a plurality of foundation bolts which are circumferentially distributed are arranged on the annular base, and the method is characterized by comprising the following steps:

step one, mounting a temporary water stopping structure of a swivel spherical hinge support;

step two, construction of the spherical hinge installation bearing platform:

a plurality of positioning steel bars which are vertically arranged and used for supporting the swivel spherical hinge support are pre-embedded in the spherical hinge mounting bearing platform, the tops of the positioning steel bars are flush, and the distance between the tops of the positioning steel bars and the upper surface of the spherical hinge mounting bearing platform is adjusted according to the designed elevation of the swivel spherical hinge support;

a plurality of bolt mounting holes for mounting foundation bolts are reserved in the spherical hinge mounting bearing platform;

step three, hoisting the swivel spherical hinge support:

integrally hoisting the swivel spherical hinge support at the top of a positioning steel bar, so that a foundation bolt extends into a bolt mounting hole, and determining the mounting height of the swivel spherical hinge support;

step four, adjusting the horizontal position of the swivel spherical hinge support:

step 401, determining a positioning point of a swivel spherical hinge support on a spherical hinge mounting bearing platform;

step 402, uniformly arranging three jacks for pushing the swivel spherical hinge support in the circumferential direction on a circle with the positioning point of the swivel spherical hinge support as the center of a circle, wherein the central lines of telescopic rods of the three jacks intersect at a point right above the positioning point of the swivel spherical hinge support; the telescopic rods of the three jacks are abutted against the side wall of the annular base;

step 403, marking a plurality of control points on a spherical hinge installation bearing platform, adjusting the horizontal position of the swivel spherical hinge support through three jacks, simultaneously measuring a real-time coordinate of a center point of the swivel spherical hinge support by using a total station, stopping adjusting the jacks when the distances between the vertical projection of the center point of the swivel spherical hinge support on the upper surface of the spherical hinge installation bearing platform and the plurality of control points are respectively equal to the distances between the swivel spherical hinge support positioning point and the plurality of control points, and determining the horizontal position of the swivel spherical hinge support when the center point of the swivel spherical hinge support is positioned right above the swivel spherical hinge support positioning point;

step five, fixing the swivel spherical hinge support:

step 501, pouring non-shrinkage grouting material into the bolt mounting hole;

502, supporting a frame side template on the upper surface of a spherical hinge mounting bearing platform outside the swivel spherical hinge support, extending a grouting pipe into the center of the bottom of the swivel spherical hinge support for grouting construction, and grouting slurry into the area between the bottom of the swivel spherical hinge support, the upper surface of the bearing platform and the frame side template to form a fixed seat so as to fix the swivel spherical hinge support;

step six, swivel construction of the bridge structure: installing a bridge body structure on the swivel spherical hinge support, removing the temporary water stopping structure in the first step before swivel construction, installing a swivel beam traction device, and then implementing swivel construction of the bridge body structure by using the swivel beam traction device;

step seven, locking of the swivel spherical hinge support and installation of the permanent water stopping structure of the swivel spherical hinge support:

the bridge structure is characterized in that the annular top seat and the annular base are both provided with lug plates, after the bridge structure is rotated for construction, the lug plates penetrate through the lug plates to fixedly connect the upper spherical pendulum and the lower spherical pendulum, and then the permanent water stopping structure is installed.

The turning construction method of the bridge in the water-rich area is characterized by comprising the following steps of: in step 403, the concrete steps of adjusting the horizontal position of the swivel spherical hinge support through the three jacks are as follows:

establishing a plane rectangular coordinate system on the upper surface of a spherical hinge mounting bearing platform by taking the positioning point of the swivel spherical hinge support as a coordinate origin, determining the position of the current vertical projection of the center point of the swivel spherical hinge support in the plane rectangular coordinate system, and adjusting the extension of the telescopic rods of the three jacks according to the current position of the center point of the swivel spherical hinge support;

the three jacks comprise a first jack, a second jack and a third jack which are uniformly distributed in the circumferential direction, the central line of a telescopic rod of the first jack is positioned right above an X axis, the central line of a telescopic rod of the second jack is positioned in a third quadrant, the central line of a telescopic rod of the third jack is positioned in a second quadrant, and the retraction direction of the telescopic rod of the first jack is the positive direction of the X axis of the plane rectangular coordinate system;

the concrete adjustment mode of the swivel spherical hinge support in the Y-axis direction is as follows:

when the vertical projection of the center point of the rotary spherical hinge support on a plane rectangular coordinate system is positioned on a first quadrant, a second quadrant or a Y-axis positive half shaft of the rectangular coordinate system, the second jack retracts, and the third jack pushes the rotary spherical hinge support, so that the vertical projection of the center point of the rotary spherical hinge support on the rectangular coordinate system moves towards the X-axis direction and is positioned right above the X-axis;

when the vertical projection of the center point of the rotary spherical hinge support on a plane rectangular coordinate system is positioned on a third quadrant, a fourth quadrant or a Y-axis negative half shaft of the rectangular coordinate system, the third jack retracts, the second jack pushes the rotary spherical hinge support, and the vertical projection of the center point of the rotary spherical hinge support on the rectangular coordinate system moves towards the X-axis direction to be positioned right above the X-axis;

and then adjusting the position of the swivel spherical hinge support in the X-axis direction, wherein the specific adjustment mode of the swivel spherical hinge support in the X-axis direction is as follows:

when the vertical projection of the center point of the rotating spherical hinge support on a plane rectangular coordinate system is positioned on an X-axis positive half shaft, retracting the second jack and the third jack, pushing the rotating spherical hinge support by the first jack, wherein the pushing length of the first jack is the difference value between the vertical projection of the center point of the rotating spherical hinge support on the plane rectangular coordinate system and the X-axis coordinate of the positioning point of the rotating spherical hinge support on the plane rectangular coordinate system;

when the vertical projection of the center point of the rotating spherical hinge support on a plane rectangular coordinate system is positioned on an X-axis negative half shaft, the first jack retracts, the second jack and the third jack push the rotating spherical hinge support, and the retraction length of the first jack is the difference value between the vertical projection of the center point of the rotating spherical hinge support on the plane rectangular coordinate system and the X-axis coordinate of the positioning point of the rotating spherical hinge support on the plane rectangular coordinate system;

firstly, adjusting the horizontal position of the rotating spherical hinge support in the Y-axis direction, adjusting the central point of the rotating spherical hinge support to be right above the X-axis, then adjusting the horizontal position of the rotating spherical hinge support in the X-axis direction, measuring whether the distance between the vertical projection of the central point of the rotating spherical hinge support on the upper surface of the spherical hinge mounting bearing platform and a plurality of control points is respectively equal to the distance between the positioning point of the rotating spherical hinge support and the plurality of control points after the central point of the rotating spherical hinge support is adjusted in place for one time, if the distances are equal, stopping the adjustment, executing the fifth step, if the distances are not equal, then sequentially adjusting the horizontal position of the rotating spherical hinge support in the Y-axis direction and the horizontal position of the rotating spherical hinge support in the X-axis direction, and circularly reciprocating until the central point.

The turning construction method of the bridge in the water-rich area is characterized by comprising the following steps of: the interim stagnant water structure includes that the sliding gap along last pendulum is the first waterproof bounding wall that circumference was laid, is used for last staple bolt with first waterproof bounding wall upside butt on last pendulum lateral wall, is used for the lower staple bolt with first waterproof bounding wall downside butt on the pendulum lateral wall down to and fill the sealing grease between first waterproof bounding wall, last pendulum and lower pendulum.

The turning construction method of the bridge in the water-rich area is characterized by comprising the following steps of: the permanent water stopping structure comprises a second waterproof enclosing plate, an upper pressing plate and a lower pressing plate, wherein the second waterproof enclosing plate is wrapped outside the annular top seat and the annular base and is circumferentially arranged, the upper pressing plate is used for pressing the upper side of the second waterproof enclosing plate on the side wall of the annular top seat, the lower pressing plate is used for pressing the lower side of the second waterproof enclosing plate on the side wall of the annular base, a cavity is formed among the second waterproof enclosing plate, the upper spherical pendulum, the lower spherical pendulum, the annular top seat and the annular base, and sealing grease is filled in the cavity.

The turning construction method of the bridge in the water-rich area is characterized by comprising the following steps of: the number of the upper pressing plates and the number of the lower pressing plates are multiple, the multiple upper pressing plates are circumferentially arranged along the annular top seat, and the multiple lower pressing plates are circumferentially arranged along the annular base; and the upper pressure plate and the lower pressure plate are fixedly arranged on the rotating spherical hinge support through mounting screws.

The turning construction method of the bridge in the water-rich area is characterized by comprising the following steps of: in the seventh step, the specific steps when the permanent water stopping structure is installed are as follows: firstly, coating sealing grease along the circumferential direction in the cavity, simultaneously installing the upper pressing plate and the lower pressing plate which correspond to the upper and lower spherical hinge supports of the rotating body, extruding the second waterproof enclosing plate into the cavity to enable the sealing grease to overflow the second waterproof enclosing plate, considering that the cavity is filled with the sealing grease without a gap, then fastening the installation screws, completing the installation of a group of upper pressing plates and lower pressing plates, and installing a plurality of groups of upper pressing plates and lower pressing plates along the circumferential direction until the installation of the permanent water stopping structure is completed.

The turning construction method of the bridge in the water-rich area is characterized by comprising the following steps of: the frame side template is a rectangular frame side template, and the minimum distance between the frame side template and the outer side wall of the swivel spherical hinge support is larger than 15 cm.

The turning construction method of the bridge in the water-rich area is characterized by comprising the following steps of: and the three jacks are arranged on the outer side of the frame side template.

The turning construction method of the bridge in the water-rich area is characterized by comprising the following steps of: the pushing point positions of the three jacks for pushing the swivel spherical hinge support are positioned on the same horizontal plane.

The turning construction method of the bridge in the water-rich area is characterized by comprising the following steps of: the aperture of the bolt mounting hole is larger than the maximum outer diameter of the foundation bolt; a plurality of positioning steel bars are arranged outside the area defined by the bolt mounting holes.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, by arranging the positioning steel bars, the swivel spherical hinge support can be accurately positioned in height only by one-time hoisting process, the positioning process of the swivel spherical hinge support is greatly simplified, the positioning accuracy is high, and the popularization and the use are convenient.

2. The horizontal position of the swivel spherical hinge support is adjusted by arranging the three jacks, the included angles of the three jacks and the connecting lines of the positioning points of the swivel spherical hinge support are all 120 degrees, the arrangement mode can replace an adjusting mode of four supporting points, the occupied space of equipment required by adjustment is smaller, the installation position is more flexible, and the swivel spherical hinge support is reliable and stable and has a good use effect.

3. The position of the bolt mounting hole is determined by measuring the paying-off, so that the anchor bolt of the swivel spherical hinge support extends into the bolt mounting hole, the aperture of the bolt mounting hole is larger than the maximum outer diameter of the anchor bolt, a certain adjusting space is provided for adjusting the horizontal position of the swivel spherical hinge support, and meanwhile, the hole wall of the bolt mounting hole also forms a limiting function for the swivel spherical hinge support in the horizontal position adjustment of the swivel spherical hinge support, so that the position deviation of the swivel spherical hinge support is smaller, three jacks can be tightly attached to the outer wall of the swivel spherical hinge support, the pushing effect of the jacks on the swivel spherical hinge support is good, and the popularization and the use are convenient.

4. The swivel spherical hinge support is temporarily sealed by water stopping before the swivel beam is swiveled, so that the swivel spherical hinge support can isolate impurities such as cement paste generated by grouting in the construction process, washing in the concrete pouring process and the like from entering the swivel spherical hinge support in the swivel waiting process, thereby ensuring the swivel effect in the swivel construction, ensuring the normal operation of the construction and having good use effect.

5. The method has simple steps, greatly simplifies the positioning and mounting procedures of the swivel spherical hinge support, has accurate positioning, has good positioning effect on the large-tonnage swivel spherical hinge support, and is convenient for popularization and use.

6. The method has simple steps, and the water-stopping sealing structures are installed on the swivel spherical hinge supports at the front and the rear of the swivel beam swivel, so that the normal operation of swivel construction is ensured.

In summary, the invention realizes the accurate positioning of the height of the swivel spherical hinge support by arranging the positioning steel bars, adjusts the horizontal position of the swivel spherical hinge support on the bearing platform in three directions by arranging three jacks, has small occupied space of a horizontal position adjusting tool, has small limitation on the installation site of the jacks, can realize the accurate positioning of the height of the swivel spherical hinge support only by one hoisting process, has simpler construction steps, simpler and clearer horizontal position adjusting mode, greatly improves the positioning and installation speed of the swivel spherical hinge support, simultaneously carries out temporary water sealing on the swivel spherical hinge support before the swivel beam is swiveled, ensures that the swivel spherical hinge support can isolate impurities such as cement paste and the like generated in the processes of mud pressing and concrete pouring in the construction process from entering the swivel spherical hinge support in the process of waiting for the swivel, thereby ensuring the effect in the swivel construction, the normal operation of construction is guaranteed, the using effect is good, and the popularization and the use are convenient.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

Fig. 1 is a schematic diagram of the position relationship among a swivel spherical hinge support, a spherical hinge mounting bearing platform, positioning steel bars, anchor bolts, bolt mounting holes and a frame side template.

Fig. 2 is a top view of the upper seat plate of fig. 1 with the circular shape removed.

Fig. 3 is a schematic view showing the positional relationship among the ball hinge mounting bearing platform, the positioning reinforcing steel bars and the bolt mounting holes in fig. 1.

Fig. 4 is a schematic structural diagram of a temporary water stopping structure adopted in the present invention.

Fig. 5 is an enlarged view of a portion a in fig. 4.

Fig. 6 is a schematic structural view of fig. 5 with the first waterproof enclosing plate, the upper hoop, the lower hoop and the sealing grease removed.

Fig. 7 is a schematic structural view of a permanent water stopping structure adopted by the present invention.

Fig. 8 is an enlarged view of fig. 7 at B.

Fig. 9 is a schematic structural view of a swivel beam pulling apparatus employed in the present invention.

Fig. 10 is a schematic structural view of the swivel beam employed in the present invention after swiveling.

Fig. 11 is a schematic structural view of a concrete filled steel tube column used in the present invention.

Fig. 12 is a schematic top view of the ground chute of the present invention.

FIG. 13 is a schematic cross-sectional view of a ground chute according to the present invention.

FIG. 14 is a block flow diagram of a method of the present invention.

Description of reference numerals:

1-1-putting a ball pendulum; 1-2-putting down a ball pendulum; 1-3-annular footstock;

1-4-ring base; 1-5-rotation axis; 2, mounting a bearing platform by using a spherical hinge;

3, positioning the steel bars; 4-bolt mounting holes; 5-a first jack;

6-a second jack; 7-a third jack; 8-I-steel;

9-foundation bolts; 10-frame sideform; 11-a first waterproof coaming;

12-installing a hoop; 13-lower anchor ear; 14-sealing grease;

15-upper limiting groove; 16-a lower limiting groove; 17-a second waterproof coaming;

18-an upper platen; 19-a lower press plate; 20-mounting screws;

21-a fixed seat; 22-bridge main pier; 23-a swivel beam;

34-concrete filled steel tube columns; 35-arc-shaped slide way; 36-channel steel;

37-pulling the steel strand; 38-a traction jack; 39-counter-force seat;

40-running steel plates; 51-arc chute beam; 52-a ramp plate holder;

53-slideway steel plate; 54-a polytetrafluoroethylene slide; 55-a steel backing plate;

56-concrete filled steel tube short columns; 62-swivel ball pivot mount.

Detailed Description

As shown in fig. 1 to 14, the swivel construction method for a bridge in a water-rich area of the present invention adopts a swivel spherical hinge support 62 arranged at the bottom of a pier of a main pier 22 of the bridge to implement swivel, wherein the swivel spherical hinge support includes an upper spherical pendulum 1-1, a lower spherical pendulum 1-2, and a rotating shaft 1-5 arranged between the upper spherical pendulum 1-1 and the lower spherical pendulum 1-2, the upper spherical pendulum 1-1 and the lower spherical pendulum 1-2 are vertically connected, an annular top seat 1-3 is sleeved on the upper spherical pendulum 1-1, an annular base 1-4 is sleeved on the lower spherical pendulum 1-2, a plurality of circumferentially arranged foundation bolts 9 are arranged on the annular base 1-4, and the method includes the following steps:

step one, mounting a temporary water stopping structure of a swivel spherical hinge support;

step two, construction of the spherical hinge installation bearing platform:

a plurality of positioning steel bars 3 which are vertically arranged and used for supporting the swivel spherical hinge support are embedded in the spherical hinge mounting bearing platform 2, the tops of the plurality of positioning steel bars 3 are flush, and the distance between the tops of the positioning steel bars 3 and the upper surface of the spherical hinge mounting bearing platform 2 is adjusted according to the designed elevation of the swivel spherical hinge support;

a plurality of bolt mounting holes 4 for mounting foundation bolts 9 are reserved in the spherical hinge mounting bearing platform 2;

step three, hoisting the swivel spherical hinge support:

integrally hoisting the swivel spherical hinge support at the top of the positioning steel bar 3, so that the foundation bolt 9 extends into the bolt mounting hole 4, and determining the mounting height of the swivel spherical hinge support;

step four, adjusting the horizontal position of the swivel spherical hinge support:

step 401, determining a positioning point of a swivel spherical hinge support on a spherical hinge mounting bearing platform 2;

step 402, uniformly arranging three jacks for pushing the swivel spherical hinge support in the circumferential direction on a circle with the positioning point of the swivel spherical hinge support as the center of a circle, wherein the central lines of telescopic rods of the three jacks intersect at a point right above the positioning point of the swivel spherical hinge support; the telescopic rods of the three jacks are abutted against the side walls of the annular bases 1-4;

step 403, marking a plurality of control points on the spherical hinge installation bearing platform 2, adjusting the horizontal position of the swivel spherical hinge support through three jacks, simultaneously measuring a real-time coordinate of a center point of the swivel spherical hinge support by using a total station, stopping adjusting the jacks when the distances between the vertical projection of the center point of the swivel spherical hinge support on the upper surface of the spherical hinge installation bearing platform 2 and the plurality of control points are respectively equal to the distances between the swivel spherical hinge support positioning point and the plurality of control points, and at the moment, positioning the center point of the swivel spherical hinge support right above the swivel spherical hinge support positioning point to complete the determination of the horizontal position of the swivel spherical hinge support;

step five, fixing the swivel spherical hinge support:

step 501, pouring non-shrinkage grouting material into the bolt mounting hole 4;

502, erecting a frame side template 10 on the upper surface of a spherical hinge mounting bearing platform 2 outside the swivel spherical hinge support, extending a grouting pipe into the center of the bottom of the swivel spherical hinge support for grouting construction, and grouting slurry into the area between the bottom of the swivel spherical hinge support, the upper surface of the bearing platform and the frame side template 10 to form a fixed seat 21 so as to fix the swivel spherical hinge support;

step six, swivel construction of the bridge structure: installing a bridge structure on the swivel spherical hinge support, wherein the bridge structure comprises a bridge main pier 22 and a swivel beam 23, removing the temporary water stopping structure in the first step before swivel construction, installing a swivel beam traction device, and then implementing swivel construction of the bridge structure by using the swivel beam traction device;

step seven, locking of the swivel spherical hinge support and installation of the permanent water stopping structure of the swivel spherical hinge support:

the annular footstock 1-3 and the annular base 1-4 are both provided with lug plates, after the bridge body structure is constructed in a rotating mode, the upper spherical pendulum 1-1 and the lower spherical pendulum 1-2 are fixedly connected through the lug plates through bolts, and then the permanent water stopping structure is installed.

Two concrete filled steel tube columns 34 are mounted at the end part, close to the side span, of the swivel beam 23, the concrete filled steel tube columns are transversely arranged along the swivel beam, the concrete filled steel tube columns and the swivel beam are solidified by adopting finish rolling deformed steel bars, and a running plate is arranged at the bottom of each concrete filled steel tube column; in order to ensure the stable structure, the two steel tube concrete columns are connected by channel steel 36; the steel tube concrete upright post is used as a swivel beam supporting leg;

the turning beam traction device comprises an arc-shaped slide way 35 arranged on the ground at the end part of the side span, the arc-shaped slide way comprises an arc-shaped slide way beam 51, a slide way plate bracket 52 is pre-embedded on the arc-shaped slide way beam, a slide way steel plate 53 is connected on the slide way plate bracket through a leveling bolt, a polytetrafluoroethylene slide block 54 is laid on the top of the slide way steel plate, a steel backing plate 55 is laid above the polytetrafluoroethylene slide block, and a walking steel plate 40 at the bottom of the reinforced concrete upright column is arranged on the steel backing plate; the steel backing plate is drawn out when the body rotates; uniformly arranging a plurality of concrete filled steel tube short columns 56 on the inner side of the arc-shaped slideway beam, wherein the concrete filled steel tube short columns are obliquely supported by I-shaped steel, and the concrete filled steel tube short columns are connected by channel steel to ensure the integrity; one end of a traction steel strand 37 is anchored on the concrete filled steel tube stand column, the traction steel strand is attached to the concrete filled steel tube short stand column, the other end of the traction steel strand bypasses the concrete filled steel tube short stand column and is anchored on a traction jack 38, and the traction jack is supported on a counter-force seat 39; during turning construction, the traction jack continuously pulls the concrete-filled steel tube stand column through the traction steel strand, the walking plate slides on the arc-shaped slide way, and the turning beam is driven to rotate around the center of the turning spherical hinge support arranged at the bottom of the bridge main pier 22.

In this embodiment, after the swivel beam swivel construction is completed, the swivel spherical hinge support is used as a permanent support, and does not need to be dismantled.

In this embodiment, the central point of the swivel spherical hinge support is the geometric central point of the lower surface of the lower pendulum 1-2.

And step five, after the grouting material is solidified, removing the frame side template 10 and the three jacks to complete the fixation of the swivel spherical hinge support.

In the embodiment, the weight of the swivel spherical hinge support is 5t, and it is very inconvenient to adjust the height of the swivel spherical hinge support after the hoisting is completed, so that the positioning steel bars 3 are directly embedded in advance, the tops of the positioning steel bars 3 are polished by using a grinder, the top surface elevation of the positioning steel bars 3 meets the requirement of the design elevation, the polishing precision is +/-0.25 mm, the positioning steel bars 3 adopt phi 32 steel bar heads, and the number of the positioning steel bar heads is 5, so that the swivel spherical hinge support is stably supported;

in the embodiment, the horizontal position of the swivel spherical hinge support is adjusted by arranging three jacks, the included angles of the three jacks and the connecting lines of the positioning points of the swivel spherical hinge support are all 120 degrees, the arrangement mode can replace an adjustment mode of four supporting points, the occupied space of equipment required by adjustment is smaller, and the installation position is more flexible;

in this embodiment, the position of the bolt mounting hole 4 is determined by measuring the pay-off line, so that the anchor bolt 9 of the swivel ball joint support extends into the bolt mounting hole 4, the aperture of the bolt mounting hole 4 is larger than the maximum outer diameter of the anchor bolt 9, a certain adjustment space is provided for the horizontal position adjustment of the swivel ball joint support, and meanwhile, the hole wall of the bolt mounting hole 4 is also used for forming a limiting function for the swivel ball joint support in the horizontal position adjustment of the swivel ball joint support, so that the positional deviation of the swivel ball joint support is small, and therefore three jacks can be tightly attached to the outer wall of the swivel ball joint support, and the jacks are good in pushing effect on the swivel ball joint support.

It should be noted that the accurate positioning of the height of the swivel spherical hinge support is realized by arranging the positioning steel bars 3, the horizontal position of the swivel spherical hinge support on the spherical hinge installation bearing platform 2 is adjusted in three directions by arranging three jacks, the horizontal position adjusting tool occupies small space, the installation of the jacks is limited by the field, the accurate positioning of the height of the swivel spherical hinge support can be realized by only one-time hoisting process, the construction steps are simpler, the horizontal position adjusting mode is simple and clear, the positioning and installing speed of the swivel spherical hinge support is greatly improved, and the popularization and the use are convenient.

In this embodiment, in step 403, the specific steps of adjusting the horizontal position of the swivel spherical hinge support by three jacks are as follows:

establishing a plane rectangular coordinate system on the upper surface of the spherical hinge mounting bearing platform 2 by taking the positioning point of the swivel spherical hinge support as a coordinate origin, determining the position of the current vertical projection of the center point of the swivel spherical hinge support in the plane rectangular coordinate system, and adjusting the extension of the telescopic rods of the three jacks according to the current position of the center point of the swivel spherical hinge support;

the three jacks comprise a first jack 5, a second jack 6 and a third jack 7 which are uniformly distributed in the circumferential direction, the central line of a telescopic rod of the first jack 5 is positioned right above an X axis, the central line of a telescopic rod of the second jack 6 is positioned in a third quadrant, the central line of a telescopic rod of the third jack 7 is positioned in a second quadrant, and the retraction direction of the telescopic rod of the first jack 5 is the positive direction of the X axis of the plane rectangular coordinate system;

the concrete adjustment mode of the swivel spherical hinge support in the Y-axis direction is as follows:

when the vertical projection of the center point of the rotary spherical hinge support on a plane rectangular coordinate system is positioned on a first quadrant, a second quadrant or a Y-axis positive half shaft of the rectangular coordinate system, the second jack 6 retracts, the third jack 7 pushes the rotary spherical hinge support, and the vertical projection of the center point of the rotary spherical hinge support on the rectangular coordinate system moves towards the X-axis direction to be positioned right above the X-axis;

when the vertical projection of the center point of the rotary spherical hinge support on a plane rectangular coordinate system is positioned on a third quadrant, a fourth quadrant or a Y-axis negative half shaft of the rectangular coordinate system, the third jack 7 retracts, the second jack 6 pushes the rotary spherical hinge support, and the vertical projection of the center point of the rotary spherical hinge support on the rectangular coordinate system moves towards the X-axis direction to be positioned right above the X-axis;

and then adjusting the position of the swivel spherical hinge support in the X-axis direction, wherein the specific adjustment mode of the swivel spherical hinge support in the X-axis direction is as follows:

when the vertical projection of the center point of the swivel spherical hinge support on a plane rectangular coordinate system is positioned on an X-axis positive half shaft, the second jack 6 and the third jack 7 retract, the first jack 5 pushes the swivel spherical hinge support, and the pushing length of the first jack 5 is the difference value between the vertical projection of the center point of the swivel spherical hinge support on the plane rectangular coordinate system and the X-axis coordinate of the positioning point of the swivel spherical hinge support on the plane rectangular coordinate system;

when the vertical projection of the center point of the swivel spherical hinge support on a plane rectangular coordinate system is positioned on an X-axis negative half shaft, the first jack 5 retracts, the second jack 6 and the third jack 7 push the swivel spherical hinge support, and the retraction length of the first jack 5 is the difference value between the vertical projection of the center point of the swivel spherical hinge support on the plane rectangular coordinate system and the X-axis coordinate of the positioning point of the swivel spherical hinge support on the plane rectangular coordinate system;

firstly, adjusting the horizontal position of the rotating spherical hinge support in the Y-axis direction, adjusting the central point of the rotating spherical hinge support to be right above the X-axis, then adjusting the horizontal position of the rotating spherical hinge support in the X-axis direction, measuring whether the distance between the vertical projection of the central point of the rotating spherical hinge support on the upper surface of the spherical hinge mounting bearing platform 2 and a plurality of control points is respectively equal to the distance between the positioning point of the rotating spherical hinge support and the plurality of control points after the rotating spherical hinge support is adjusted in place for one time, if so, stopping the adjustment, executing the fifth step, if not, then sequentially adjusting the horizontal position of the rotating spherical hinge support in the Y-axis direction and the horizontal position of the rotating spherical hinge support in the X-axis direction, and circularly reciprocating until the central point of the rotating spherical hinge support is adjusted to be right.

In this embodiment, the temporary water stopping structure includes a first waterproof surrounding plate 11 circumferentially arranged along a sliding gap between the upper pendulum 1-1 and the lower pendulum 1-2, an upper hoop 12 for abutting the upper side of the first waterproof surrounding plate 11 against the side wall of the upper pendulum 1-1, a lower hoop 13 for abutting the lower side of the first waterproof surrounding plate 11 against the side wall of the lower pendulum 1-2, and sealing grease 14 filled among the first waterproof surrounding plate 11, the upper pendulum 1-1, and the lower pendulum 1-2.

In this embodiment, the side wall of the upper pendulum 1-1 is provided with an upper limiting groove 15 matched with the first waterproof enclosing plate 11, the side wall of the lower pendulum 1-2 is provided with a lower limiting groove 16 matched with the first waterproof enclosing plate 11, the upper hoop 12 compresses the first waterproof enclosing plate 11 in the upper limiting groove 15, and the lower hoop 13 compresses the first waterproof enclosing plate 11 in the lower limiting groove 16.

In this embodiment, the temporary water stopping structure is processed, assembled and formed in a factory.

In this embodiment, the sealing grease 14 is waterproof sealing grease.

It should be noted that, the outer diameter of the upper pendulum 1-1 is smaller than the outer diameter of the lower pendulum 1-2, and the water-stopping structure of such a spherical hinge support is often not tight because of this reason, in this embodiment, the first waterproof surrounding plate 11 is installed by using the upper anchor ear 12 and the lower anchor ear 13, and the installation positions of the upper anchor ear 12 and the lower anchor ear 13 can be set according to the actual width of the first waterproof surrounding plate 11, which is flexible and reliable.

It should be noted that the sealing grease 14 has plasticity, when the water stop device is installed, the sealing grease 14 is firstly smeared outside the sliding gap between the upper pendulum 1-1 and the lower pendulum 1-2, then the first waterproof surrounding plate 11 is covered on the sealing grease 14, then the upper anchor ear 12 and the lower anchor ear 13 are installed, and the redundant sealing grease 14 is extruded to the outer side of the first waterproof surrounding plate 11, so that excellent sealing and water stop performance is achieved.

The embodiment carries out targeted waterproof structure installation on the sliding gap between the upper spherical pendulum 1-1 and the lower spherical pendulum 1-2, saves materials, has little influence on the appearance of the spherical hinge support and is convenient to observe.

The first waterproof enclosing plate 11 is installed by using the hoop, and the sealing grease 14 is filled among the first waterproof enclosing plate 11, the upper pendulum 1-1 and the lower pendulum 1-2, so that the sealing between the upper pendulum 1-1 and the lower pendulum 1-2 is realized, the installation is firm, the first waterproof enclosing plate 11 can slightly adapt to the rotation between the upper pendulum 1-1 and the lower pendulum 1-2, the waterproof effect is not influenced, meanwhile, the first waterproof enclosing plate 11 can completely isolate impurities such as dust and rainwater under the condition that the first waterproof enclosing plate 11 is not broken, the sealing effect of the spherical hinge support is ensured in long-term installation waiting, and the use is safe and reliable.

In this embodiment, the first waterproof enclosing plate 11 is a rubber waterproof enclosing plate.

In this embodiment, the upper limiting groove 15 and the lower limiting groove 16 are both semicircular grooves.

In this embodiment, the permanent water stopping structure includes a second waterproof surrounding plate 17 which is wrapped outside the annular top seat 1-3 and the annular base 1-4 and is circumferentially arranged, an upper pressing plate 18 for pressing the upper side of the second waterproof surrounding plate 17 on the side wall of the annular top seat 1-3, and a lower pressing plate 19 for pressing the lower side of the second waterproof surrounding plate 17 on the side wall of the annular base 1-4, wherein a cavity is formed among the second waterproof surrounding plate 17, the upper spherical pendulum 1-1, the lower spherical pendulum 1-2, the annular top seat 1-3 and the annular base 1-4, and the cavity is filled with sealing grease 14.

In this embodiment, the number of the upper pressing plates 18 and the number of the lower pressing plates 19 are multiple, the multiple upper pressing plates 18 are circumferentially arranged along the annular footstock 1-3, and the multiple lower pressing plates 19 are circumferentially arranged along the annular footstock 1-4; the upper pressure plate 18 and the lower pressure plate 19 are both fixedly mounted on the swivel spherical hinge support through mounting screws 20.

In this embodiment, the width of the second waterproof enclosing plate 17 is greater than the distance between the upper surface of the annular top seat 1-3 and the lower surface of the annular base seat 1-4.

In this embodiment, the top of the second waterproof enclosing plate 17 is flush with the upper surface of the annular top seat 1-3, and the bottom of the second waterproof enclosing plate 17 is flush with the lower surface of the annular base 1-4.

It should be noted that, by limiting the width of the second waterproof enclosing plate 17, the plate section of the second waterproof enclosing plate 17, which is matched with the cavity, is in a wave shape or a convex shape, so that the second waterproof enclosing plate 17 can press the sealing grease 14, and the cavity is filled with the sealing grease 14 without a gap, thereby achieving an excellent waterproof sealing effect.

In this embodiment, the plurality of positioning steel bars 3 are uniformly arranged in the circumferential direction, and the diameter of a circle formed by the plurality of positioning steel bars 3 is smaller than the maximum outer diameter of the swivel spherical hinge support.

In the second step of this embodiment, an i-steel 8 for installing the jack is also pre-embedded on the spherical hinge installation bearing platform 2, and the i-steel 8 is used for fixing and raising the jack, so that the jack can straightly push the swivel spherical hinge support.

In this embodiment, in the seventh step, the specific steps when the permanent water stopping structure is installed are as follows: firstly, coating sealing grease 14 in the cavity along the circumferential direction, simultaneously installing an upper pressing plate 18 and a lower pressing plate 19 which correspond to the upper and lower spherical hinge supports of the swivel body, extruding a second waterproof enclosing plate 17 into the cavity to enable the sealing grease 14 to overflow the second waterproof enclosing plate 17, considering that the cavity is filled with the sealing grease 14 without a gap, then fastening a mounting screw 20 to complete the mounting of a group of the upper pressing plate 18 and the lower pressing plate 19, and installing a plurality of groups of the upper pressing plate 18 and the lower pressing plate 19 along the circumferential direction until the permanent water stopping structure is mounted.

And in the second step, the bolt mounting holes 4 are reserved by plastic pipes when the spherical hinge mounting bearing platform 2 is bound with the steel bars, and the plastic pipes are pulled out after the spherical hinge mounting bearing platform 2 is subjected to concrete pouring and curing and initial setting to form the bolt mounting holes 4.

In this embodiment, the frame side mold plate 10 is a rectangular frame side mold plate, and the minimum distance between the frame side mold plate 10 and the outer side wall of the swivel spherical hinge support is greater than 15 cm.

In this embodiment, the three jacks are all arranged on the outer side of the frame side formwork 10.

In this embodiment, the pushing point positions at which the three jacks push the swivel spherical hinge support are located on the same horizontal plane.

In this embodiment, the diameter of the bolt mounting hole 4 is larger than the maximum outer diameter of the anchor bolt 9; a plurality of positioning steel bars 3 are arranged outside the area enclosed by the plurality of bolt mounting holes 4.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and all simple modifications, changes and equivalent structural changes made to the above embodiment according to the technical spirit of the present invention still fall within the protection scope of the technical solution of the present invention.

Claims (10)

1. A swivel construction method of a bridge in a water-rich area is characterized by comprising the following steps of realizing swivel by adopting a swivel spherical hinge support (62) arranged at the bottom of a bridge main pier (22), wherein the swivel spherical hinge support comprises an upper spherical pendulum (1-1), a lower spherical pendulum (1-2) and a rotating shaft (1-5) arranged between the upper spherical pendulum (1-1) and the lower spherical pendulum (1-2), the upper spherical pendulum (1-1) and the lower spherical pendulum (1-2) are vertically connected, an annular top seat (1-3) is sleeved on the upper spherical pendulum (1-1), an annular base (1-4) is sleeved on the lower spherical pendulum (1-2), and a plurality of foundation bolts (9) distributed in the circumferential direction are arranged on the annular base (1-4):

step one, mounting a temporary water stopping structure of a swivel spherical hinge support;

step two, construction of the spherical hinge installation bearing platform:

a plurality of positioning steel bars (3) which are vertically arranged and used for supporting the swivel spherical hinge support are pre-buried in the spherical hinge mounting bearing platform (2), the tops of the plurality of positioning steel bars (3) are flush, and the distance between the tops of the positioning steel bars (3) and the upper surface of the spherical hinge mounting bearing platform (2) is adjusted according to the designed elevation of the swivel spherical hinge support;

a plurality of bolt mounting holes (4) for mounting foundation bolts (9) are reserved in the spherical hinge mounting bearing platform (2);

step three, hoisting the swivel spherical hinge support:

integrally hoisting the swivel spherical hinge support at the top of the positioning steel bar (3) to enable the foundation bolt (9) to extend into the bolt mounting hole (4), so that the mounting height of the swivel spherical hinge support is determined;

step four, adjusting the horizontal position of the swivel spherical hinge support:

step 401, determining a positioning point of a swivel spherical hinge support on a spherical hinge mounting bearing platform (2);

step 402, uniformly arranging three jacks for pushing the swivel spherical hinge support in the circumferential direction on a circle with the positioning point of the swivel spherical hinge support as the center of a circle, wherein the central lines of telescopic rods of the three jacks intersect at a point right above the positioning point of the swivel spherical hinge support; the telescopic rods of the three jacks are abutted against the side walls of the annular bases (1-4);

step 403, marking a plurality of control points on the spherical hinge installation bearing platform (2), adjusting the horizontal position of the swivel spherical hinge support through three jacks, simultaneously measuring a real-time coordinate of a center point of the swivel spherical hinge support by using a total station, stopping adjusting the jacks when the distances between the vertical projection of the center point of the swivel spherical hinge support on the upper surface of the spherical hinge installation bearing platform (2) and the plurality of control points are respectively equal to the distances between the swivel spherical hinge support positioning point and the plurality of control points, and determining the horizontal position of the swivel spherical hinge support when the center point of the swivel spherical hinge support is positioned right above the swivel spherical hinge support positioning point;

step five, fixing the swivel spherical hinge support:

step 501, pouring non-shrinkage grouting material into the bolt mounting hole (4);

502, erecting a frame side template (10) on the upper surface of a spherical hinge mounting bearing platform (2) outside the swivel spherical hinge support, extending a grouting pipe into the center of the bottom of the swivel spherical hinge support to perform grouting construction, and grouting slurry into an area between the bottom of the swivel spherical hinge support, the upper surface of the bearing platform and the frame side template (10) so as to form a fixed seat (21) and realize the fixation of the swivel spherical hinge support;

step six, swivel construction of the bridge structure: installing a bridge body structure on the swivel spherical hinge support, removing the temporary water stopping structure in the first step before swivel construction, installing a swivel beam traction device, and then implementing swivel construction of the bridge body structure by using the swivel beam traction device;

step seven, locking of the swivel spherical hinge support and installation of the permanent water stopping structure of the swivel spherical hinge support:

the bridge structure is characterized in that the annular top seat (1-3) and the annular base (1-4) are respectively provided with an ear plate, after the bridge structure is constructed in a rotating mode, the upper spherical pendulum (1-1) and the lower spherical pendulum (1-2) are fixedly connected through the ear plates by bolts, and then the permanent water stopping structure is installed.

2. The swivel construction method of a bridge in a water-rich area according to claim 1, characterized in that: in step 403, the concrete steps of adjusting the horizontal position of the swivel spherical hinge support through the three jacks are as follows:

establishing a plane rectangular coordinate system on the upper surface of a spherical hinge mounting bearing platform (2) by taking the positioning point of the swivel spherical hinge support as a coordinate origin, determining the position of the current vertical projection of the center point of the swivel spherical hinge support in the plane rectangular coordinate system, and adjusting the extension of the telescopic rods of the three jacks according to the current position of the center point of the swivel spherical hinge support;

the three jacks comprise a first jack (5), a second jack (6) and a third jack (7) which are uniformly distributed in the circumferential direction, the central line of a telescopic rod of the first jack (5) is positioned right above an X axis, the central line of a telescopic rod of the second jack (6) is positioned in a third quadrant, the central line of a telescopic rod of the third jack (7) is positioned in the second quadrant, and the retraction direction of the telescopic rod of the first jack (5) is the positive direction of the X axis of the plane rectangular coordinate system;

the concrete adjustment mode of the swivel spherical hinge support in the Y-axis direction is as follows:

when the vertical projection of the central point of the swivel spherical hinge support on a plane rectangular coordinate system is positioned on a first quadrant, a second quadrant or a Y-axis positive half shaft of the rectangular coordinate system, the second jack (6) retracts, and the third jack (7) pushes the swivel spherical hinge support, so that the vertical projection of the central point of the swivel spherical hinge support on the rectangular coordinate system moves towards the X-axis direction and is positioned right above the X-axis;

when the vertical projection of the central point of the swivel spherical hinge support on a plane rectangular coordinate system is positioned on a third quadrant, a fourth quadrant or a Y-axis negative half shaft of the rectangular coordinate system, the third jack (7) retracts, the second jack (6) pushes the swivel spherical hinge support, and the vertical projection of the central point of the swivel spherical hinge support on the rectangular coordinate system moves towards the X-axis direction to be positioned right above the X-axis;

and then adjusting the position of the swivel spherical hinge support in the X-axis direction, wherein the specific adjustment mode of the swivel spherical hinge support in the X-axis direction is as follows:

when the vertical projection of the center point of the rotary spherical hinge support on a plane rectangular coordinate system is positioned on an X-axis positive half shaft, the second jack (6) and the third jack (7) retract, the first jack (5) pushes the rotary spherical hinge support, and the pushing length of the first jack (5) is equal to the difference value of the vertical projection of the center point of the rotary spherical hinge support on the plane rectangular coordinate system and the X-axis coordinate of the positioning point of the rotary spherical hinge support on the plane rectangular coordinate system;

when the vertical projection of the center point of the rotary spherical hinge support on a plane rectangular coordinate system is positioned on an X-axis negative half shaft, the first jack (5) retracts, the second jack (6) and the third jack (7) push the rotary spherical hinge support, and the retraction length of the first jack (5) is the X-axis coordinate difference value of the vertical projection of the center point of the rotary spherical hinge support on the plane rectangular coordinate system and the positioning point of the rotary spherical hinge support on the plane rectangular coordinate system;

firstly, adjusting the horizontal position of the rotating spherical hinge support in the Y-axis direction, adjusting the central point of the rotating spherical hinge support to be right above the X-axis, then adjusting the horizontal position of the rotating spherical hinge support in the X-axis direction, measuring whether the distance between the vertical projection of the central point of the rotating spherical hinge support on the upper surface of the spherical hinge mounting bearing platform (2) and a plurality of control points is respectively equal to the distance between the positioning point of the rotating spherical hinge support and the plurality of control points after the rotating spherical hinge support is adjusted in place for one time, if the distances are equal, stopping the adjustment, executing the fifth step, if the distances are not equal, then sequentially adjusting the horizontal position of the rotating spherical hinge support in the Y-axis direction and the horizontal position of the rotating spherical hinge support in the X-axis direction, and circularly reciprocating until the central point of the rotating spherical.

3. The swivel construction method of a bridge in a water-rich area according to claim 1, characterized in that: the temporary water stopping structure comprises a first waterproof enclosing plate (11) which is circumferentially arranged along a sliding gap between the upper pendulum (1-1) and the lower pendulum (1-2), an upper hoop (12) which is used for abutting the upper side of the first waterproof enclosing plate (11) on the side wall of the upper pendulum (1-1), a lower hoop (13) which is used for abutting the lower side of the first waterproof enclosing plate (11) on the side wall of the lower pendulum (1-2), and sealing grease (14) filled among the first waterproof enclosing plate (11), the upper pendulum (1-1) and the lower pendulum (1-2).

4. The swivel construction method of a bridge in a water-rich area according to claim 1, characterized in that: the permanent water stopping structure comprises a second waterproof enclosing plate (17) which is coated on the outer sides of the annular footstock (1-3) and the annular base (1-4) and is arranged in the circumferential direction, an upper pressing plate (18) which is used for pressing the upper side of the second waterproof enclosing plate (17) on the side wall of the annular footstock (1-3), and a lower pressing plate (19) which is used for pressing the lower side of the second waterproof enclosing plate (17) on the side wall of the annular base (1-4), wherein a cavity is formed among the second waterproof enclosing plate (17), the upper spherical pendulum (1-1), the lower spherical pendulum (1-2), the annular footstock (1-3) and the annular base (1-4), and sealing grease (14) is filled in the cavity.

5. The swivel construction method of a bridge in a water-rich area according to claim 4, characterized in that: the number of the upper pressing plates (18) and the number of the lower pressing plates (19) are multiple, the multiple upper pressing plates (18) are circumferentially arranged along the annular top seat (1-3), and the multiple lower pressing plates (19) are circumferentially arranged along the annular base (1-4); and the upper pressure plate (18) and the lower pressure plate (19) are fixedly arranged on the swivel spherical hinge support through mounting screws (20).

6. The swivel construction method of a bridge in a water-rich area according to claim 5, characterized in that: in the seventh step, the specific steps when the permanent water stopping structure is installed are as follows: firstly, coating sealing grease (14) in the cavity along the circumferential direction, simultaneously installing an upper pressing plate (18) and a lower pressing plate (19) which correspond to the upper spherical hinge support and the lower spherical hinge support of the swivel, extruding a second waterproof enclosing plate (17) in the cavity to enable the sealing grease (14) to overflow the second waterproof enclosing plate (17), and at the moment, considering that the cavity is filled with the sealing grease (14) without a gap, then fastening a mounting screw (20), completing the installation of a group of upper pressing plates (18) and the lower pressing plate (19), and installing a plurality of groups of upper pressing plates (18) and the lower pressing plates (19) along the circumferential direction until the installation of the permanent water stopping structure is completed.

7. The swivel construction method of a bridge in a water-rich area according to claim 1, characterized in that: the frame side formwork (10) is a rectangular frame side formwork, and the minimum distance between the frame side formwork (10) and the outer side wall of the swivel spherical hinge support is larger than 15 cm.

8. The swivel construction method of a bridge in a water-rich area according to claim 1, characterized in that: the three jacks are all arranged on the outer side of the frame side formwork (10).

9. The swivel construction method of a bridge in a water-rich area according to claim 1, characterized in that: the pushing point positions of the three jacks for pushing the swivel spherical hinge support are positioned on the same horizontal plane.

10. The swivel construction method of a bridge in a water-rich area according to claim 1, characterized in that: the aperture of the bolt mounting hole (4) is larger than the maximum outer diameter of the foundation bolt (9); the positioning steel bars (3) are arranged outside the area enclosed by the bolt mounting holes (4).

Images