CN207109556U - A kind of bridge superstructure of power consumption - Google Patents

A kind of bridge superstructure of power consumption Download PDF

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Publication number
CN207109556U
CN207109556U CN201721137106.1U CN201721137106U CN207109556U CN 207109556 U CN207109556 U CN 207109556U CN 201721137106 U CN201721137106 U CN 201721137106U CN 207109556 U CN207109556 U CN 207109556U
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China
Prior art keywords
girder
abutment
anchor block
concrete anchor
mrow
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Expired - Fee Related
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CN201721137106.1U
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Chinese (zh)
Inventor
张威
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Leon Lai Bo Intelligent Technology (kunshan) Co Ltd
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Leon Lai Bo Intelligent Technology (kunshan) Co Ltd
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Abstract

The utility model discloses a kind of bridge superstructure of power consumption, including bearing, abutment and bent cap, bearing is located at the top of abutment and bent cap, bearing is provided with girder, abutment includes the first abutment and the second abutment, girder includes at least two sections of girders, rubber cushion blocks are provided between adjacent two sections of girders, the two sides of girder are respectively equipped with least two groups of fastening structures, each fastening structure all includes the deformed bar of two concrete anchor blocks of two concrete anchor blocks and a branch of connection, each concrete anchor block is all provided with the hole passed through for the deformed bar, deformed bar is anchored in concrete anchor block after passing through the hole of concrete anchor block and tensioning.The utility model economy, can damping, and construction method is quick.

Description

A kind of bridge superstructure of power consumption
Technical field
Science of bridge building technology and technical field of construction are the utility model is related to, more particularly to a kind of bridge top of power consumption Structure and its construction method.
Background technology
After multi-span girder bridge puts into effect, under geological process, in fact it could happen that girder collision, fall the harm such as beam.
For above-mentioned disease, bridge earthquake resistance specification and correlative theses document, patent propose some measures solved, such as beam Increase rubber cushion blocks, or increase bent cap size restrainer etc. between body.But above-mentioned measure has the following disadvantages:
(1) when earthquake occurs, rubber cushion blocks between girder fail because girder gap is excessive between girder rubber cushion blocks It is brought into close contact, it is difficult to effectively play energy-absorbing function;
(2) it is passive girder falling mode to increase bent cap size, without damping effect.
In order to overcome drawbacks described above, the positive innovation research of those skilled in the art, to create a kind of new power consumption Bridge superstructure and construction method.
Utility model content
The problem of existing for prior art, the utility model provide a kind of economy, quick construction, the bridge top of power consumption Structure.
In order to solve the above technical problems, the technical scheme that the utility model uses is:A kind of bridge of power consumption is provided Superstructure, including bearing, abutment and bent cap, the bearing are located at the top of the abutment and the bent cap, on the bearing Provided with girder, the abutment includes the first abutment and the second abutment, and the girder includes at least two sections of girders, adjacent two sections of girders Between be provided with rubber cushion blocks, the two sides of girder are respectively equipped with least two groups of fastening structures, and each fastening structure all includes The deformed bar of the two concrete anchor blocks of two concrete anchor blocks and a branch of connection, each concrete anchor block is all Provided with the hole passed through for the deformed bar, hole and tensioning of the deformed bar through the concrete anchor block After be anchored in the concrete anchor block.
Further say, two concrete anchor blocks of same fastening structure, which include the first of a side for being formed at abutment, to be mixed Coagulate native anchor block and one be formed at girder side the second concrete anchor block, and the second concrete anchor block is formed at distance That section of farthest girder of first concrete anchor block.
Further say, a branch of deformed bar is made up of n root steel strand wires, and the quantity n of steel strand wires presses following public affairs Formula calculates:
Wherein:N is the radical of a branch of prestress wire,
Any real number that roundup [number, Num_digits], number are rounded up to for needs, Num_digits For the digital decimal digits after rounding-off,
fpdFor the tension design strength of steel strand wires, units MPa,
AP1For the area of section of single steel strand, unit mm2,
mLFor the gross mass of all sections of girder, units/kg,
A be power consumption bridge superstructure residing for place basic seismic design acceleration, unit m/s2, inquiry can be passed through 《Seismic design provision in building code》Table 3.2.2 in (GB 50011-2010) is obtained.
Further say, the length direction for taking bridge is left and right directions, positioned at the left surface of the girder of high order end and first At least one both are provided with marmem between abutment and between the right flank and the second abutment of the girder of low order end Spring.
Further say, two groups of fastening structures positioned at the same side of the girder, respectively left fastening structure and the right side Fastening structure, and the first concrete anchor block of left fastening structure is located at the first abutment, the first coagulation of the right fastening structure Native anchor block is located at the second abutment.
Further say, the rubber cushion blocks are 5-10cm in the thickness of the length direction of the girder.
The beneficial effects of the utility model are:
1st, it may be such that girder is brought into close contact with rubber cushion blocks due to the effect of deformed bar in the utility model, work as hair When the dried rhizome of rehmannia shakes, it is to indulge bridge under conditions of in seismic wave, energy can be effectively absorbed by rubber cushion blocks, forms cushioning effect;Together When in the girder and the first abutment of high order end, between the girder of low order end and the second abutment install shape memory alloy spring, can Further enhance damping effect;
2nd, the radical n and prestress steel of a branch of deformed bar steel strand wires limited according to technical solutions of the utility model Muscle is 0.5f by tension stress sizepdCarry out tensioning, can effectively ensure that when earthquake occurs, seismic wave for indulge bridge to condition Under, deformed bar tension stress can offset the seismic force of girder in active force caused by beam body just;
3rd, it is to indulge bridge under conditions of in seismic wave, deformed bar will produce one and seismic force when earthquake occurs Opposite restoring force, because the restoring force of rubber cushion blocks, the cushioning effect of shape memory alloy spring and deformed bar acts on, Geological process can effectively be offset;
4th, the utility model forms complete set, arrangement and method for construction effectively, unique, can effectively prevent multispan simply supported beam After bridge puts into effect, under geological process, there is girder collision, fall the harm such as beam.
Described above is only the general introduction of technical solutions of the utility model, in order to better understand skill of the present utility model Art means, and being practiced according to the content of specification, with preferred embodiment of the present utility model and coordinate accompanying drawing detailed below Describe in detail bright as after.
Brief description of the drawings
Fig. 1 is front view of the present utility model (exemplified by provided with three sections of girders);
Fig. 2 is top view of the present utility model (exemplified by provided with three sections of girders);
Each several part mark is as follows in accompanying drawing:
1- girders, the girders of 1a- first, the girders of 1b- second, the girders of 1c- the 3rd, the abutments of 2a- first, the abutments of 2b- second, 3- Shape memory alloy spring, 4- bearings, 5- rubber cushion blocks, 6- deformed bars, 71- the first concrete anchor blocks, 72 second is mixed Coagulate native anchor block and 8 bent caps.
Embodiment
Illustrate specific embodiment of the present utility model below by way of particular specific embodiment, those skilled in the art can The advantages of the utility model is understood by content disclosed in the present specification easily and effect.The utility model can also it is other not Same mode is practiced, i.e. under the scope of without departing substantially from disclosed in the utility model, can give different modification and change.
As shown in Fig. 1 to 2, a kind of bridge superstructure of power consumption, including bearing 4, abutment and bent cap 8, the bearing 4 In the top of the abutment and the bent cap 8, the bearing is provided with girder, and the abutment includes the first abutment 2a and the second bridge Platform 2b, the girder include at least two sections of girders, and rubber cushion blocks 5, the two sides difference of girder are provided between adjacent two sections of girders Provided with least two groups of fastening structures, each fastening structure all includes two coagulations of two concrete anchor blocks and a branch of connection The deformed bar of native anchor block, each concrete anchor block are all provided with the hole passed through for the deformed bar, institute State deformed bar through the concrete anchor block hole and tensioning after be anchored in the concrete anchor block.
Two concrete anchor blocks of same fastening structure include the first concrete anchor block of a side for being formed at abutment 71 and one be formed at girder side the second concrete anchor block 72, and to be formed at distance first mixed for the second concrete anchor block Coagulate that section of farthest girder of native anchor block.
A branch of deformed bar is made up of n root steel strand wires, and the quantity n of steel strand wires is calculated by following equation:
Wherein:N is the radical of a branch of prestress wire,
Any real number that roundup [number, Num_digits], number are rounded up to for needs, Num_digits For the digital decimal digits after rounding-off,
fpdFor the tension design strength of steel strand wires, units MPa,
AP1For the area of section of single steel strand, unit mm2,
mLFor the gross mass of all sections of girder, units/kg,
A be power consumption bridge superstructure residing for place basic seismic design acceleration, unit m/s2, inquiry can be passed through 《Seismic design provision in building code》Table 3.2.2 in (GB 50011-2010) is obtained.
The length direction for taking bridge is left and right directions, between the left surface and the first abutment of the girder of high order end and position At least one both are provided with shape memory alloy spring between the right flank and the second abutment of the girder of low order end.
Length direction of the shape memory alloy spring parallel to bridge.
Two groups of fastening structures positioned at the same side of the girder, respectively left fastening structure and right fastening structure, and First concrete anchor block of left fastening structure is located at the first abutment, and the first concrete anchor block of the right fastening structure is located at Second abutment.
The rubber cushion blocks are 5-10cm in the thickness of the length direction of the girder.
The utility model additionally provides a kind of a kind of construction method of the bridge superstructure of described power consumption, according to following Step is carried out:
S1. coagulation is poured respectively in two sides of the first abutment, the second abutment, the girder of high order end and low order end girder Soil, formed with the concrete anchor block for wearing the hole for sending deformed bar;
S2. rubber cushion blocks are set between adjacent girder;
S3., deformed bar is passed through to the first concrete anchor block of same fastening structure and the hole of the second concrete, Tensioning is carried out to deformed bar, is anchored in after the completion of tensioning on the concrete anchor block, you can completes construction;
S4. the right flank and second of the girder between the left surface of the girder of high order end and the first abutment and positioned at low order end Shape memory alloy spring is installed between abutment.
Further say, described construction method, tensioning, of use are carried out to deformed bar described in step S3 Tension size is 0.5fpd
Embodiment:A kind of bridge superstructure of power consumption, as shown in Fig. 1 to 2, including it is arranged at the first of the top of bearing 4 Girder 1a, the second girder 1b, the 3rd girder 1c, the first girder 1a, the second girder 1b and the 3rd girder 1c gross mass mL= 265000kg, pass through inquiry《Seismic design provision in building code》(GB50011-2010) the table 3.2.2 in can be obtained, place residing for the bridge Basic seismic design acceleration a=1.962m/s2
Aseismatic Design is carried out to the bridge according to the present embodiment.
Marmem bullet is provided between the first girder 1a and the first abutment 2a, the 3rd girder 1c and the second abutment 2b Spring 3;
Thick 8cm rubber cushion blocks 5 are provided between the first girder 1a, the second girder 1b and the 3rd girder 1c;
Band diameter is correspondingly provided with the first girder 1a and the second abutment 2b and the 3rd girder 1c and the first abutment 2a side For the C50 concrete anchor blocks of 10cm hole;
Concrete is anchored in after being respectively equipped with two sides of girder 1 through the hole in concrete anchor block, tensioning The deformed bar 6 of anchor block;
A branch of deformed bar 6 is made up of n root steel strand wires, the tension design strength fpd=1260MPa of steel strand wires, single The area of section AP1=140mm of steel strand wires2, a branch of deformed bar 6 is calculated as follows with the radical n of steel strand wires:
The construction method of the bridge superstructure of the power consumption of the present embodiment, comprises the following steps:
Step 1:Poured respectively in the first abutment 2a, the second abutment 2b, the first girder 1a, the 3rd girder 1c two sides C50 concrete is built, forms the concrete anchor block with hole;
Step 2:Rubber cushion blocks 5 are set between the first girder 1a, the second girder 1b, the 3rd girder 1c;
Step 3:Deformed bar 6 is passed through into the first girder 1a and the second abutment 2b, the 3rd girder 1c and the first abutment 2a Between corresponding concrete anchor block hole after, according to tension stress size be 0.5fpd=630MPa to deformed bar 6 Tensioning is carried out, is anchored in after the completion of tensioning on the concrete anchor block;
Step 4:Shape note is installed between the first girder 1a and the first abutment 2a, the 3rd girder 1c and the second abutment 2b Recall alloy spring 3, complete construction.
Due to the effect of deformed bar in the utility model, it may be such that girder is brought into close contact with rubber cushion blocks, work as generation During earthquake, it is to indulge bridge under conditions of in seismic wave, energy can be effectively absorbed by rubber cushion blocks, forms cushioning effect;Simultaneously Girder and the first abutment in high order end, shape memory alloy spring is installed between the girder of low order end and the second abutment, can enter One step strengthens damping effect.
Embodiment of the present utility model is the foregoing is only, not thereby the foregoing is only implementation of the present utility model Example, not thereby limit the scope of the claims of the present utility model, every to be made using the utility model specification and accompanying drawing content Equivalent structure, or other related technical areas are directly or indirectly used in, similarly it is included in patent of the present utility model and protects Protect scope.

Claims (6)

1. a kind of bridge superstructure of power consumption, including bearing, abutment and bent cap, the bearing is located at the abutment and the lid The top of beam, the bearing are provided with girder, and the abutment includes the first abutment and the second abutment, it is characterised in that:The master Beam includes at least two sections of girders, is provided with rubber cushion blocks between adjacent two sections of girders, the two sides of girder are respectively equipped with least two groups Fastening structure, each fastening structure all include the pre- of the two concrete anchor blocks of two concrete anchor blocks and a branch of connection Stress reinforcing bar, each concrete anchor block are all provided with the hole passed through for the deformed bar, the deformed bar The concrete anchor block is anchored in after through the hole of the concrete anchor block and tensioning.
A kind of 2. bridge superstructure of power consumption according to claim 1, it is characterised in that:The two of same fastening structure are mixed Coagulate first concrete anchor block and one of the native anchor block including a side for being formed at abutment are formed at the side of girder second Concrete anchor block, and the second concrete anchor block is formed at that section of farthest girder of the first concrete of distance anchor block.
A kind of 3. bridge superstructure of power consumption according to claim 1, it is characterised in that:A branch of deformed bar It is made up of n root steel strand wires, and the quantity n of steel strand wires is calculated by following equation:
<mrow> <mi>n</mi> <mo>=</mo> <mi>r</mi> <mi>o</mi> <mi>u</mi> <mi>n</mi> <mi>d</mi> <mi>u</mi> <mi>p</mi> <mo>&amp;lsqb;</mo> <mfrac> <mrow> <msub> <mi>m</mi> <mi>L</mi> </msub> <mi>a</mi> </mrow> <mrow> <msub> <mi>f</mi> <mrow> <mi>p</mi> <mi>d</mi> </mrow> </msub> <msub> <mi>A</mi> <mrow> <mi>p</mi> <mn>1</mn> </mrow> </msub> </mrow> </mfrac> <mo>,</mo> <mn>0</mn> <mo>&amp;rsqb;</mo> </mrow>
Wherein:N is the radical of a branch of prestress wire,
Roundup [number, Num_digits], number are any real number for needing to be rounded up to, and Num_digits is house Digital decimal digits after entering,
fpdFor the tension design strength of steel strand wires, units MPa,
AP1For the area of section of single steel strand, unit mm2,
mLFor the gross mass of all sections of girder, units/kg,
A be power consumption bridge superstructure residing for place basic seismic design acceleration, unit m/s2, inquiry can be passed through《Building Earthquake resistant design code》Table 3.2.2 in (GB 50011-2010) is obtained.
A kind of 4. bridge superstructure of power consumption according to claim 1, it is characterised in that:The length direction for taking bridge is Left and right directions, the right flank and of the girder between the left surface and the first abutment of the girder of high order end and positioned at low order end At least one both are provided with shape memory alloy spring between two abutments.
A kind of 5. bridge superstructure of power consumption according to claim 1, it is characterised in that:Positioned at the same of the girder Two groups of fastening structures of side, respectively left fastening structure and right fastening structure, and the first concrete anchoring of left fastening structure Block is located at the first abutment, and the first concrete anchor block of the right fastening structure is located at the second abutment.
A kind of 6. bridge superstructure of power consumption according to claim 1, it is characterised in that:The rubber cushion blocks are described The thickness of the length direction of girder is 5-10cm.
CN201721137106.1U 2017-09-06 2017-09-06 A kind of bridge superstructure of power consumption Expired - Fee Related CN207109556U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107558357A (en) * 2017-09-06 2018-01-09 昂徕博智能科技(昆山)有限公司 The bridge superstructure and construction method of a kind of power consumption

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107558357A (en) * 2017-09-06 2018-01-09 昂徕博智能科技(昆山)有限公司 The bridge superstructure and construction method of a kind of power consumption

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Inventor after: Huo Linsheng

Inventor before: Zhang Wei

CF01 Termination of patent right due to non-payment of annual fee
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Granted publication date: 20180316