CN212077604U - Upper limiting movable spherical support of bridge - Google Patents

Upper limiting movable spherical support of bridge Download PDF

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Publication number
CN212077604U
CN212077604U CN202020245111.XU CN202020245111U CN212077604U CN 212077604 U CN212077604 U CN 212077604U CN 202020245111 U CN202020245111 U CN 202020245111U CN 212077604 U CN212077604 U CN 212077604U
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China
Prior art keywords
limiting
plate
seat plate
adjusting
bridge
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CN202020245111.XU
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Chinese (zh)
Inventor
严爱国
文望青
王德志
杨得旺
宋建平
顾海龙
韩家山
朱海
王新国
崔苗苗
章开东
曾甲华
段鈜
杨卫锋
张永兆
夏正春
胡方杰
沈哲亮
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China Railway Siyuan Survey and Design Group Co Ltd
Luoyang Sunrui Special Equipment Co Ltd
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China Railway Siyuan Survey and Design Group Co Ltd
Luoyang Sunrui Special Equipment Co Ltd
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Priority to CN202020245111.XU priority Critical patent/CN212077604U/en
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Abstract

The embodiment of the application provides an upper limit activity ball-type support of bridge, includes: the upper seat plate, the lower seat plate, the spherical crown and the two limit adjusting devices; the spherical crown is arranged between the upper seat plate and the lower seat plate and is connected with the upper seat plate and the lower seat plate in a sliding way; the two limiting adjusting devices are arranged on the upper seat plate and are positioned on two sides of the spherical crown along the longitudinal direction of the upper limiting movable spherical support; the limiting adjusting devices can longitudinally adjust the distance between the two limiting adjusting devices along the upper limiting movable spherical support so as to limit the maximum sliding distance of the upper seat plate relative to the lower seat plate along the longitudinal direction of the upper limiting movable spherical support. After the upper limiting movable spherical support is arranged on the bridge, the steel rail telescopic regulator can be reduced, so that the adverse effect of the steel rail telescopic regulator on the construction of the high-speed railway bridge can be reduced, the construction cost of the bridge is reduced, and the design and construction difficulty of the bridge is also reduced.

Description

Upper limiting movable spherical support of bridge
Technical Field
The utility model relates to a bridge beam supports technical field, in particular to last spacing activity ball-type support of bridge.
Background
Along with the construction of high-speed railway engineering in China, more and more bridges cross rivers, rivers and various roads, particularly in southern areas in China, roads and water systems are developed, and more medium-span and large-span continuous beam bridges are provided. For some high-speed railway long-span bridges, because the temperature span is large, after the common longitudinal constraint system is adopted, a large number of steel rail expansion adjusters are also required to be arranged at the beam ends so as to reduce the relative displacement between the steel rails and the bridge.
However, the more steel rail telescopic adjusters are arranged, so that the smoothness of the track structure and the travelling comfort are affected, and the maintenance workload is large. Meanwhile, the rail expansion adjuster is usually required to be arranged on a straight line section, which not only brings great difficulty to route selection and bridge design of the high-speed railway, but also severely limits the span of the high-speed railway bridge.
SUMMERY OF THE UTILITY MODEL
In view of this, an upper limiting movable spherical support of a bridge is provided to solve the problem that the construction of a high-speed railway bridge is adversely affected by the arrangement of a large number of rail expansion adjusters in the related art.
In order to achieve the above purpose, the technical solution of the embodiment of the present application is implemented as follows:
the embodiment of the application provides an upper limit activity ball-type support of bridge, includes:
an upper seat plate;
a lower seat plate;
the spherical crown is arranged between the upper seat plate and the lower seat plate, one side of the spherical crown is in sliding connection with the upper seat plate, and one side of the spherical crown, which is far away from the upper seat plate, is in sliding connection with the lower seat plate;
the two limiting adjusting devices are arranged on the upper seat plate, and are positioned on two sides of the spherical crown along the longitudinal direction of the upper limiting movable spherical support; the limiting adjusting devices can longitudinally adjust the distance between the two limiting adjusting devices along the upper limiting movable spherical support so as to limit the maximum sliding distance of the upper seat plate relative to the lower seat plate along the longitudinal direction of the upper limiting movable spherical support.
Further, the limit adjusting device comprises a first limit plate, a force transmission plate and an adjusting gasket;
the first limiting plate is fixedly connected with the upper seat plate;
the force transmission plate is arranged on one side, close to the spherical crown, of the first limiting plate and can move relative to the first limiting plate along the longitudinal direction of the upper limiting movable spherical support;
the adjusting gasket is selectively clamped between the first limiting plate and the force transmission plate.
Furthermore, the limiting and adjusting device further comprises a first adjusting bolt and an adjusting nut, a first through hole is formed in the force transmission plate, and a second through hole is formed in the first limiting plate;
the first adjusting bolt comprises a first rod part and a first head part arranged at one end of the first rod part, the first rod part penetrates through the first through hole and the second through hole, and the first head part is abutted to the dowel plate;
the adjusting gasket clamped between the first limiting plate and the dowel plate penetrates through the first rod part;
the adjusting nut is arranged on one side, far away from the dowel plate, of the first limiting plate and is in threaded connection with the first rod part.
Further, a locking groove is formed in the adjusting gasket, and one end of the locking groove extends to the edge of the adjusting gasket to form an opening at the edge of the adjusting gasket;
the first rod part is clamped into the locking groove through the opening, so that the adjusting gasket is arranged on the first rod part in a penetrating mode.
Further, spacing adjusting device still includes the apron, the apron lid is established the adjusting shim is kept away from the one end of going up the bedplate, and with first limiting plate detachably connects.
Furthermore, the number of the adjusting gaskets is multiple, and the thicknesses of at least two of the adjusting gaskets are different.
Further, one end of the lower seat plate, which is in sliding connection with the spherical crown, is positioned between the two force transmission plates;
when the upper seat plate slides to the limit position relative to the lower seat plate along the longitudinal direction of the upper limit movable spherical support, the lower seat plate is abutted to the corresponding force transmission plate.
Further, the limiting and adjusting device comprises a first limiting plate, a second adjusting bolt and a plurality of adjusting blocks with different thicknesses;
the first limiting plate is fixedly connected with the upper seat plate;
the second adjusting bolt comprises a second rod part and a second head part arranged at one end of the second rod part, the second rod part penetrates through the first limiting plate and is in threaded connection with the first limiting plate, and the second head part is positioned on one side, far away from the spherical crown, of the first limiting plate;
one end of the second rod part far away from the second head part is selectively connected with one of the adjusting blocks in a threaded mode.
Furthermore, the upper limiting movable spherical support also comprises two second limiting plates arranged on the upper seat plate;
and the two second limiting plates are arranged on two sides of the spherical crown along the transverse direction of the upper limiting movable spherical support so as to prevent the upper seat plate from sliding transversely along the upper limiting movable spherical support.
Furthermore, the lower seat plate and one end of the spherical crown in sliding connection are located between the two second limiting plates and are in clearance fit with the two second limiting plates.
The embodiment of the application provides an upper limit movable spherical support, and through setting up two limit adjusting devices on the bedplate, both can maintain the stability of bridge restraint system, can guarantee again that the girder can be under the temperature effect free deformation, make this upper limit movable spherical support can satisfy the slip and the spacing requirement of bridge structures under the different temperature shrink creep circumstances from this. After the upper limiting movable spherical support is arranged on the bridge, the number of the steel rail telescopic regulators can be reduced, so that the adverse effect of the steel rail telescopic regulators on the construction of the high-speed railway bridge can be reduced, the construction cost of the bridge is reduced, the design and construction difficulty of the bridge is also reduced, and the upper limiting movable spherical support can meet the construction requirements of the high-speed railway bridge, particularly the large-span bridge of the high-speed railway and can also meet the construction requirements of a curved bridge.
Drawings
FIG. 1 is a half sectional view of an upper limit movable ball-type support according to an embodiment of the present disclosure;
FIG. 2 is a half sectional view of another perspective of the upper restraining live ball mount of FIG. 1;
FIG. 3 is a schematic view of the adjusting shim shown in FIG. 1;
FIG. 4 is a half sectional view of an upper restraint ball-type seat according to another embodiment of the present application;
fig. 5 is a half sectional view of an upper-limit movable ball-type seat according to still another embodiment of the present application.
Reference numerals:
an upper seat plate 10; a lower seat plate 20; a spherical cap 30; a limit adjusting device 40; a first limit plate 41; a force transmission plate 42; an adjusting shim 43; the lock groove 43 a; an opening 43 b; a first adjusting bolt 44; a first head 441; the first rod portion 442; an adjusting nut 45; a cover plate 46; a second adjusting bolt 47; a second head 471; the second lever portion 472; an adjustment block 48; a second limiting plate 50; sliding friction pair 60.
Detailed Description
It should be noted that, in the present application, technical features in examples and embodiments may be combined with each other without conflict, and the detailed description in the specific embodiment should be understood as an explanation of the gist of the present application and should not be construed as an improper limitation to the present application.
In the description of the present application, the "longitudinal" orientation or positional relationship is based on FIG. 1, and the "lateral" orientation or positional relationship is based on the orientation or positional relationship shown in FIG. 2, it being understood that these orientation terms are merely for convenience in describing the present application and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be considered as limiting the present application.
An embodiment of the present application provides an upper-limiting movable spherical support for a bridge, please refer to fig. 1, which includes: the upper seat plate 10, the lower seat plate 20, the spherical cap 30 and two limit adjusting devices 40. The spherical cap 30 is arranged on the spherical cap 30 between the upper seat plate 10 and the lower seat plate 20, one side of the spherical cap 30 is connected with the upper seat plate 10 in a sliding way, and one side of the spherical cap 30 far away from the upper seat plate 10 is connected with the lower seat plate 20 in a sliding way. The two limiting adjusting devices 40 are arranged on the upper seat plate 10 along the longitudinal direction of the upper limiting movable spherical support, and the two limiting adjusting devices 40 are positioned at two sides of the spherical crown 3O. The spacing adjusting devices 40 can adjust the distance between the two spacing adjusting devices 40 along the longitudinal direction of the upper spacing movable ball-shaped support to limit the maximum sliding distance of the upper seat plate 1O relative to the lower seat plate 20 along the longitudinal direction of the upper spacing movable ball-shaped support.
Specifically, the upper limiting movable spherical bearing of the present embodiment is mainly disposed between a main girder and a pier of a bridge, wherein the lower seat plate 20 is fixedly connected to the pier, and the upper seat plate 10 is fixedly connected to the main girder. In practical application, the upper limiting movable spherical support of the embodiment can be arranged between the main beam and the main pier, a conventional movable support is arranged between the main beam and other piers except the main pier, or the upper limiting movable spherical support of the embodiment can be arranged between the main beam and all piers.
Referring to fig. 1, in the present embodiment, one side of the spherical cap 30 slidably connected to the upper seat plate 10 is a plane, one side of the spherical cap 30 slidably connected to the lower seat plate 20 is a spherical surface, that is, the upper seat plate 10 and the spherical cap 30 slide in a plane, and the spherical cap 30 and the lower seat plate 20 slide in a spherical surface, in order to reduce friction loss during sliding, sliding friction pairs 60 are disposed between the lower seat plate 20 and the spherical cap 30 and between the spherical cap 30 and the upper seat plate 10, the sliding friction pairs 60 may be a combination of a wear-resistant plate and a steel plate, the wear-resistant plate may be a polyethylene plate, a polytetrafluoroethylene plate, or the steel plate may be a stainless steel plate.
It is understood that, in other embodiments, the side of the spherical cap 30 slidably connected to the lower seat plate 20 may be a flat surface, and the side of the spherical cap 30 slidably connected to the upper seat plate 1O may be a spherical surface. The upper limit movable spherical support can also be provided with a middle seat plate between the spherical crown 30 and the lower seat plate 20, and the middle seat plate is connected with the spherical crown 30 and the lower seat plate 20 in a sliding way.
In this embodiment, the longitudinal direction of the upper limiting movable spherical bearing corresponds to the bridge direction of the bridge, the transverse direction of the upper limiting movable spherical bearing corresponds to the transverse direction of the bridge, that is, the longitudinal direction of the upper limiting movable spherical bearing installed between the girder and the pier is parallel to the bridge direction of the bridge, the transverse direction of the upper limiting movable spherical bearing is parallel to the transverse direction of the bridge, and the limiting adjusting devices 40 actually adjust the distance between the two limiting adjusting devices 40 along the bridge direction of the bridge.
The limiting adjustment device 40 of the embodiment is disposed on the upper seat plate 1O, that is, the limiting adjustment device 40 is located at the upper portion of the upper limiting movable spherical support, and in practical applications, the limiting adjustment device 40 can determine the specific adjustment amount of the limiting adjustment device 40 according to the slippage and limiting requirements of the bridge under different temperature shrinkage creep.
In the related technology, when the temperature span of the high-speed railway concrete beam is greater than 200m and the temperature span of the steel beam is greater than 1OOm, a large number of steel rail telescopic regulators are needed according to the requirement of the stress of the rail, so that the displacement difference between the long and large bridge beam end telescopic displacement and the long steel rail telescopic displacement caused by the temperature is coordinated through the steel rail telescopic regulators, the temperature force of the long steel rail on the bridge can be automatically adjusted, and the load borne by the rail and the bridge is reduced. However, the rail expansion adjuster is high in cost and difficult to design and construct, and generally needs to be arranged in a straight section of a track, so that the arrangement of a large number of rail expansion adjusters not only increases the construction cost of a bridge and brings great difficulty to line selection and bridge design of a high-speed railway, but also severely limits the span of the high-speed railway bridge. In addition, the rail telescopic regulator is arranged on the rail, so that the problem of unsmooth structure between the switch rail and the stock rail is solved, and when a train runs to the switch rail at a high speed, large impact force is generated, and the running quality of the train is further influenced.
The spacing adjusting device 40 on the upper spacing movable spherical bearing of the embodiment can adjust the distance between the two spacing adjusting devices 40 according to the slippage and spacing requirements of the bridge under different temperature shrinkage creep so as to limit the maximum distance of the upper seat plate 1O sliding relative to the lower seat plate 20 along the bridge direction, therefore, under the normal operation working condition of the bridge, the upper spacing movable spherical bearing can utilize the self friction resistance to bear the braking force of the high-speed railway, the acting force of the long rail and the wind power so as to resist the main beam movement under the actions of the braking force of the high-speed railway, the acting force of the long rail and the wind power, so as to maintain the stability of the bridge restraint system, and can ensure that the main beam can freely deform under the action of the temperature, so that the upper spacing movable spherical bearing can meet the slippage and spacing requirements of the bridge structure under different temperature shrinkage creep conditions, after the upper spacing movable spherical bearing of the embodiment is installed on the main pier of the bridge, the fixed support does not need to be installed on the bridge, namely, after the original fixed support is replaced by the upper limiting movable spherical support of the embodiment, the original common longitudinal constraint system is changed into a new cooperative constraint system, the cooperative constraint system can meet the sliding and limiting requirements of a bridge structure under the creep condition of different temperature shrinkage, and further the bridge provided with the upper limiting movable spherical support of the embodiment can reduce the use of a steel rail telescopic regulator, the construction cost of the bridge is reduced, the bridge design and the construction difficulty are reduced, the construction requirements of high-speed railway bridges, particularly large-span bridges of the high-speed railway can be met, and the construction requirements of curved bridges can be met. In addition, after the number of the steel rail telescopic regulators is reduced, the problem of structural irregularity between the switch rail and the stock rail can be eliminated to a certain extent, and therefore the train can be guaranteed to run more stably.
The upper limiting movable spherical support of the embodiment changes the situation that a large number of steel rail telescopic regulators are required to be arranged in the conventional continuous system beam bridge, and can be popularized and applied to continuous system beam bridges such as concrete continuous beams, partial cable-stayed bridges, continuous beam arch bridges and the like.
Referring to fig. 1, the limiting adjustment device 40 of the present embodiment includes a first limiting plate 41, a force transmission plate 42 and an adjusting washer 43. The first limit plate 41 is fixedly connected with the upper seat plate 10. The force transmission plate 42 is arranged on one side of the first limit plate 41 close to the spherical crown 30 and can move relative to the first limit plate 41 along the longitudinal direction of the upper limit movable spherical support. The adjuster shim 43 is selectively interposed between the first stopper plate 41 and the force transmission plate 42.
Specifically, the upper seat plate 1O can move in two opposite directions along the longitudinal direction of the upper limiting movable ball-type seat, and one end of the lower seat plate 20 of the present embodiment, which is slidably connected to the ball crown 30, is located between the two force transmission plates 42, and when the upper seat plate 10 slides to an extreme position relative to the lower seat plate 20 along the longitudinal direction of the upper limiting movable ball-type seat, the lower seat plate 20 abuts against the corresponding force transmission plate 42. That is, when the upper seat plate 1O moves to the limit position in one direction along the longitudinal direction of the upper limit movable ball-type mount, the lower seat plate 20 abuts against the force transmission plate 42 on one limit adjustment device 40, and when the upper seat plate 10 moves to the limit position in the other direction along the longitudinal direction of the upper limit movable ball-type mount, the lower seat plate 20 abuts against the force transmission plate 42 on the other limit adjustment device 40, thereby enabling the two limit adjustment devices 40 to limit the maximum distance that the upper seat plate 10 slides relative to the lower seat plate 20 along the longitudinal direction of the upper limit movable ball-type mount. The force transmission plate 42 of this embodiment is a flat plate structure, that is, the end surface of the side of the force transmission plate 42 facing the lower seat plate 20 is a plane, the end surface of the side of the lower seat plate 20 facing the force transmission plate 42 is also a plane, and in order to determine the adjustment amount of the limiting adjustment device, as shown in fig. 1, in practical application, the gap size L between the lower seat plate 20 and the force transmission plate 42 can be determined according to the slippage and limiting requirements of the bridge under different temperature shrinkage creep, and the distance between the two limiting adjustment devices 40 can be ensured to meet the requirements by adjusting the gap size L between the lower seat plate 20 and the force transmission plate 42.
It will be appreciated that in other embodiments, the spherical cap 30 may also abut the corresponding force transfer plate 42 when the upper seat plate 10 slides to an extreme position relative to the lower seat plate 20 in the longitudinal direction of the upper limiting movable spherical bearing. Alternatively, when the upper limit movable ball-type seat is provided with the middle seat plate, the middle seat plate may abut against the corresponding force transmission plate 42 when the upper seat plate 10 slides to the limit position relative to the lower seat plate 20 along the longitudinal direction of the upper limit movable ball-type seat.
Further, in the present embodiment, the number of the adjusting shims 43 is plural, and at least two of the adjusting shims 43 have different thicknesses, and in practical applications, after the required gap size L between the lower seat plate 20 and the force transmission plate 42 is determined according to the slippage and limiting requirements of the bridge under different temperature shrinkage creep, the gap size L can be made to meet the requirements by combining the adjusting shims 43 with different numbers and/or different thicknesses.
The selective interposition of the adjustment shim 43 between the first stopper plate 41 and the force transmission plate 42 means that one or more adjustment shims 43 may be interposed between the first stopper plate 41 and the force transmission plate 42, or the adjustment shims 43 may not be interposed, depending on the adjustment amount actually required, and in other embodiments, only one adjustment shim 43 of one thickness may be provided.
Referring to fig. 1, the limiting adjustment device 40 of the present embodiment further includes a first adjustment bolt 44 and an adjustment nut 45, wherein a first through hole is disposed on the force transmission plate 42, and a second through hole is disposed on the first limiting plate 41. The first adjusting bolt 44 includes a first rod portion 442 and a first head portion 441 provided at one end of the first rod portion 442, the first rod portion 442 passes through the first through hole and the second through hole, and the first head portion 441 abuts against the force transmission plate 42. The adjustment washer 43 interposed between the first stopper plate 41 and the force transmission plate 42 is inserted into the first rod 442. The adjusting nut 45 is disposed on a side of the first stopper plate 41 away from the force transmission plate 42, and is screwed with the first rod 442. When the gap size L between the middle seat plate and the force transmission plate 42 needs to be adjusted, the adjusting nut 45 only needs to be unscrewed, then the corresponding adjusting gasket 43 is detached or mounted according to the actual required adjustment amount, and then the adjusting nut 45 is screwed.
Further, referring to fig. 1 and 3, the adjusting shim 43 of the present embodiment is provided with a locking groove 43a, and one end of the locking groove 43a extends to an edge of the adjusting shim 43 to form an opening 43b at the edge of the adjusting shim 43. When the adjusting shim 43 is installed, the first rod portion 442 can be clamped into the locking groove 43a through the opening 43b, so that the adjusting shim 43 is arranged on the first rod portion 442 in a penetrating mode, when the adjusting shim 43 needs to be detached, the adjusting shim 43 can be moved, the first rod portion 442 can be moved out of the locking groove 43a from the opening 43b, and therefore the adjusting shim 43 can be conveniently detached. In addition, the limit adjusting device 40 of the present embodiment further includes a cover plate 46, the cover plate 46 covers an end of the adjusting shim 43 far away from the upper seat plate 10, and is detachably connected to the first limit plate 41 to prevent the adjusting shim 43 inserted in the first rod 442 from sliding out from between the first limit plate 41 and the force transmission plate 42.
It should be noted that the engagement manner of the first retainer plate 41, the force transmission plate 42 and the adjusting washer 43 is not limited to the above, for example, in other embodiments, a guide groove may be provided on the upper seat plate 1O along the longitudinal direction of the upper retainer ball type seat, and one end of the force transmission plate 42 near the upper seat plate 1O is provided in the guide groove, so that the force transmission plate 42 can slide in the guide groove. The adjusting shim 43 is directly clamped between the first limiting plate 41 and the force transmission plate 42, and the cover plate 46 covers one end of the adjusting shim 43 far away from the upper seat plate 10.
Similarly, the limit adjusting device 40 is not limited to the combination of the first limit plate 41, the force transmission plate 42 and the adjusting washer 43, for example, referring to fig. 5, in another embodiment, the limit adjusting device 40 may include: a first stopper plate 41, a second adjusting bolt 47, and a plurality of adjusting blocks 48 different in thickness from each other. The first limit plate 41 is fixedly connected with the upper seat plate 10. The second adjusting bolt 47 includes a second rod 472 and a second head 471 arranged at one end of the second rod 472, the second rod 472 penetrates the first limiting plate 41 and is in threaded connection with the first limiting plate 41, and the second head 471 is located on one side of the first limiting plate 41 away from the spherical cap 30. An end of the second shaft 472 remote from the second head 471 is selectively threadably coupled to one of the plurality of adjustment blocks 48. When the distance between the two limiting and adjusting devices 40 needs to be adjusted, the second adjusting bolt 47 only needs to be loosened, and then the adjusting block 48 corresponding to the thickness is replaced according to the actual required adjustment amount.
Referring to fig. 2, the upper limiting movable ball-shaped support of the present embodiment further includes two second limiting plates 50 disposed on the upper seat plate 1O. Two second limiting plates 50 are disposed at both sides of the spherical cap 30 in the transverse direction of the upper limiting movable spherical bearing to prevent the upper seat plate 10 from sliding in the transverse direction of the upper limiting movable spherical bearing.
Specifically, one end of the lower seat plate 20 of the present embodiment, which is slidably connected to the spherical cap 30, is located between the two second limiting plates 50, and is in clearance fit with the two second limiting plates 50. That is, only a small rotation gap is provided between the two second position-limiting plates 50 and the lower seat plate 20 of the upper position-limiting movable ball bearing of the present embodiment, when the upper position-limiting movable ball bearing is installed on a bridge, the upper seat plate 10 can slide along the bridge direction, but cannot slide along the transverse bridge direction, that is, the anti-seismic upper position-limiting movable ball bearing of the present embodiment is a one-way anti-seismic upper position-limiting movable ball bearing which can only slide along the bridge direction.
Referring to fig. 4, in another embodiment, the second position-limiting plate 50 may not be disposed on the upper seat plate 1O, that is, the upper seat plate 1O may slide along the forward bridge direction or along the transverse bridge direction, that is, the anti-seismic upper-position-limiting movable spherical bearing is a bidirectional anti-seismic upper-position-limiting movable spherical bearing capable of sliding along the forward bridge direction and the transverse bridge direction. It should be noted that, in practical application, two upper limiting movable spherical bearings may be arranged on each pier along the transverse bridge direction, one is a unidirectional upper limiting movable spherical bearing, and the other is a bidirectional upper limiting movable spherical bearing.
It is understood that in other embodiments, the second limiting plate 50 may be disposed on the lower seat plate 20, and the second limiting plate 50 disposed on the lower seat plate 20 may be in clearance fit with the upper seat plate 10. When the upper limiting movable spherical support is provided with the middle seat plate, the second limiting plate 50 arranged on the upper seat plate 1O or the lower seat plate 20 can be in clearance fit with the middle seat plate.
The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. The utility model provides an upper limit activity ball-type support of bridge which characterized in that includes:
an upper seat plate;
a lower seat plate;
the spherical crown is arranged between the upper seat plate and the lower seat plate, one side of the spherical crown is in sliding connection with the upper seat plate, and one side of the spherical crown, which is far away from the upper seat plate, is in sliding connection with the lower seat plate;
the two limiting adjusting devices are arranged on the upper seat plate, and are positioned on two sides of the spherical crown along the longitudinal direction of the upper limiting movable spherical support; the limiting adjusting devices can longitudinally adjust the distance between the two limiting adjusting devices along the upper limiting movable spherical support so as to limit the maximum sliding distance of the upper seat plate relative to the lower seat plate along the longitudinal direction of the upper limiting movable spherical support.
2. The upper-limiting movable spherical support according to claim 1, wherein the limiting adjustment device comprises a first limiting plate, a force transmission plate and an adjusting gasket;
the first limiting plate is fixedly connected with the upper seat plate;
the force transmission plate is arranged on one side, close to the spherical crown, of the first limiting plate and can move relative to the first limiting plate along the longitudinal direction of the upper limiting movable spherical support;
the adjusting gasket is selectively clamped between the first limiting plate and the force transmission plate.
3. The upper-limiting movable spherical support according to claim 2, wherein the limiting adjustment device further comprises a first adjustment bolt and an adjustment nut, the force transmission plate is provided with a first through hole, and the first limiting plate is provided with a second through hole;
the first adjusting bolt comprises a first rod part and a first head part arranged at one end of the first rod part, the first rod part penetrates through the first through hole and the second through hole, and the first head part is abutted to the dowel plate;
the adjusting gasket clamped between the first limiting plate and the dowel plate penetrates through the first rod part;
the adjusting nut is arranged on one side, far away from the dowel plate, of the first limiting plate and is in threaded connection with the first rod part.
4. The upper limit movable ball-type support according to claim 3, wherein the adjusting shim is provided with a locking groove, one end of the locking groove extends to the edge of the adjusting shim to form an opening at the edge of the adjusting shim;
the first rod part is clamped into the locking groove through the opening, so that the adjusting gasket is arranged on the first rod part in a penetrating mode.
5. The upper limit movable ball-type support according to claim 4, wherein the limit adjusting device further comprises a cover plate, and the cover plate covers an end of the adjusting gasket far away from the upper seat plate and is detachably connected to the first limit plate.
6. The upper limit movable ball-type seat according to any one of claims 2 to 5, wherein the number of the adjusting washers is plural, and at least two of the adjusting washers have different thicknesses.
7. The upper limit movable ball-type support according to any one of claims 2 to 5, wherein one end of the lower seat plate, which is slidably connected with the ball crown, is positioned between the two force transmission plates;
when the upper seat plate slides to the limit position relative to the lower seat plate along the longitudinal direction of the upper limit movable spherical support, the lower seat plate is abutted to the corresponding force transmission plate.
8. The upper limiting movable spherical support according to claim 1, wherein the limiting adjustment device comprises a first limiting plate, a second adjusting bolt, and a plurality of adjusting blocks with different thicknesses;
the first limiting plate is fixedly connected with the upper seat plate;
the second adjusting bolt comprises a second rod part and a second head part arranged at one end of the second rod part, the second rod part penetrates through the first limiting plate and is in threaded connection with the first limiting plate, and the second head part is positioned on one side, far away from the spherical crown, of the first limiting plate;
one end of the second rod part far away from the second head part is selectively connected with one of the adjusting blocks in a threaded mode.
9. The upper limiting movable ball-type support according to any one of claims 1 to 5 or 8, further comprising two second limiting plates disposed on the upper seat plate;
and the two second limiting plates are arranged on two sides of the spherical crown along the transverse direction of the upper limiting movable spherical support so as to prevent the upper seat plate from sliding transversely along the upper limiting movable spherical support.
10. The upper-limiting movable ball-type support according to claim 9, wherein one end of the lower seat plate slidably connected to the spherical cap is located between the two second limiting plates and is in clearance fit with the two second limiting plates.
CN202020245111.XU 2020-03-03 2020-03-03 Upper limiting movable spherical support of bridge Active CN212077604U (en)

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CN202020245111.XU CN212077604U (en) 2020-03-03 2020-03-03 Upper limiting movable spherical support of bridge

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111236054A (en) * 2020-03-03 2020-06-05 中铁第四勘察设计院集团有限公司 Upper limiting movable spherical support of bridge

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111236054A (en) * 2020-03-03 2020-06-05 中铁第四勘察设计院集团有限公司 Upper limiting movable spherical support of bridge

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