CN200985490Y - Baseboard cable horizontal arranged prestressed concrete variable cross-section box beam bridge - Google Patents

Abstract

This utility model belongs to a technical field of bridge in civil engineering and relates to a prestressed concrete box girder bridge with a horizontal bottom plate cable and variable cross sections. A horizontal anchoring plate is longitudinally arranged at a position, corresponding to the height of the girder, of the bottom plate of a midspan in a box girder. At the cross section of L/2 to 3L/8 of the midspan, a bottom plate of the box girder and the horizontal anchoring plate which is as thick as the bottom plate of the midspan and is provided with a bottom plate cable inside are integrated. Saw tooth blocks are arranged on the horizontal anchoring plate which is at the position of a tensioning anchorage of the bottom plate cable. The tensioning anchorage of the bottom plate cable is curved into the box at the position of the saw tooth blocks and is tensioned and anchored onto the saw tooth blocks symmetrically along the longitudinal direction of the box girder. The bridge structure of the utility model has a reasonable and economic cable arrangement of the bottom plate cable so that the downward radial force of the bottom plate cable of the positive moment of the span central point is removed and the complicating harm from the force is avoided, which enhances durability and significantly improves the span capacity of the prestressed concrete box girder bridge with variable cross sections.

Description

Baseboard cable horizontal arrangement prestress concrete variable cross-section box girder bridge

Technical field

This utility model belongs to civil engineering bridge technology field, relates in particular to a kind of baseboard cable horizontal arrangement prestress concrete variable cross-section box girder bridge.

Background technology

Much more striding prestress concrete variable cross-section box girder bridge greatly is the bridge type that extensively adopts at present, to see with continuous beam and continuous rigid frame bridge, often adopts the construction of Hanging Basket cast-in-place cantilever method.Be a kind of structural representation of continuous rigid frame bridge as shown in Figure 1, girder and base plate 1 thereof are arch between the bridge pier 6, and the deck-molding height of span centre is less than the fulcrum deck-molding at bridge pier 6 places.

Extremely shown in Figure 4 as Fig. 2, the section form that this variable cross-section box girder bridge is commonly used at present is the single box single chamber cross section, because stressed needs, deck-molding is continued to increase to the fulcrum cross section by span centre L/2 cross section, cause base plate 1 lower edge facade to overarch, to bridge pier 6 place's cantilever root fulcrum directions, case chamber headroom strengthens by span centre, and deck-molding strengthens, base plate 1 is thickening gradually also, web 2 is being thickeied near the fulcrum cross section is local, and base plate 1 facade is an arch, and base plate 1 clean ratio of rise to span is 1/12.7.Sawtooth piece 3 is used for anchoring positive bending moment rope.

Extremely shown in Figure 10 as Fig. 8, because the positive bending moment rope is arranged in the base plate 1, so the positive bending moment rope often is called base plate rope 5, because the facade of base plate 1 is an arch, this structure is arranged and is caused the facade of base plate rope 5 also to overarch, because base plate rope 5 is anchored on the sawtooth piece 3 by stretch-draw and its two ends, is certainly led to downward radial load by the base plate rope 5 of stretch-draw.When bridge span directly increases, prior art is to adopt measures such as increasing deck-molding, thickening base plate 1, thickening web 2, increase arrangement of reinforcement, and increase deck-molding, increase arrangement of reinforcement, the radial load of base plate rope 5 further strengthens, this structure is unreasonable to cause stressed disadvantageous problem, the big more this problem in footpath of striding of bridge is serious more, is restricting the development of such bridge.Specifically, the major defect of prior art base plate rope 5 layouts shows:

(1) arch floor rope 5 downward radial loads produce along bridge in associated floor 1 position to shearing force, because span centre section base plate 1 is thinner, be generally 25～40cm, transverse reinforcement is by the structure configuration, the downward radial load of base plate rope 5 is excessive then easily to cause span centre section base plates 1 to occur along bridge to shear crack, serious causes bridge base plate 1 destruction of bursting apart.

(2) base plate rope 5 downward radial loads also directly cause respective section web 2 tensions, easily cause web 2 the principal tensile stress crack to occur, usually L/4 cross section to L/2 cross section this type of disease of scope is more common, relevant therewith, general L/4 cross section to L/2 cross section scope deck-molding is less, vertical prestressing control difficulty is big, if vertical effective prestress is unreliable, can aggravate disease.

(3) because base plate rope 5 need be anchored at the junction of web 2 and base plate 1 to shorten the power transmission route because of the structure requirement, to long-span bridge beam base plate rope 5 anchorage zones usually by near the span centre along reaching near the L/8 cross section, the positive bending moment district of variable cross-section box girder bridge of striding cast-in-place cantilever method construction greatly is usually between L/4 cross section to span centre L/2 cross section, span centre L/2 section maximum, positive bending moment is generally very little or be hogging moment near the L/8 cross section, need with anchoring structure for guaranteeing that span centre positive bending moment is stressed, the base plate rope 5 that is arranged between L/4 cross section to L/8 cross section is misfitted with this section is stressed, the L/4 cross section cuts section bar tall and big to L/8, eccentric throw is big, and produce downward radial load maximum, so negative interaction is big.

(4) base plate rope 5 downward radial loads directly cause the span centre downwarp.

(5) location of the base plate rope 5 of arch is difficult, and it is wayward to construct, and the loss of prestress of curve rope is big, and is uneconomical.

The utility model content

At the defective and the deficiency of prior art, the purpose of this utility model is to provide a kind of and does not produce that downward radial load, structure are stressed rationally, the baseboard cable horizontal arrangement prestress concrete variable cross-section box girder bridge structure of easy construction.

In order to realize the purpose of this utility model, technical scheme is as follows: a kind of baseboard cable horizontal is arranged strides prestress concrete variable cross-section box girder bridge greatly, comprise bridge pier 6, the base plate 1 of case beam, web 2 and base plate rope 5, it is characterized in that: span centre base plate 1 respective beam high position in described case beam, horizontal anchor plate 4 longitudinally is set, combine together at described horizontal anchor plate 4 of span centre L/2 cross section to 3L/8 cross section section and case beam base plate 1, separate with base plate 1 all the other positions, described base plate rope 5 is arranged in the horizontal anchor plate 4, on the horizontal anchor plate 4 of base plate rope 5 stretch-draw anchor positions, sawtooth piece 3 is set, described base plate rope 5 stretch-draw anchor ends bend up in the case at sawtooth piece 3 places, and longitudinally symmetrically stretch-draw anchor on described sawtooth piece 3.

Described horizontal anchor plate 4 can extend to bridge pier 6 places and pass pier top diaphragm 7 and be connected as a single entity with adjacent horizontal anchor plate 4 of striding, and also can stop near last sawtooth piece 3 place of bridge pier 6 sides and in horizontal anchor plate 4 rear ends safety barrier is being set.

Compare with existing structure of striding prestress concrete variable cross-section box girder bridge greatly, the main beneficial effect of the utility model is:

(1) owing to is provided with horizontal anchor plate, and the base plate rope is arranged in the horizontal anchor plate, make that the utility model span centre positive bending moment base plate rope is a horizontal arrangement, eliminated the downward radial load of prior art span centre positive bending moment rope, solved and striden the downward radial load of footpath variable cross-section box girder bridge span centre positive bending moment rope greatly with striding the difficult problem that the footpath continues to increase, can effectively solve the downwarp that suitable bridge that the variable cross-section box girder bridge span centre base plate that caused by radial load is prone to generally occurs to crack, span centre, the principal tensile stress crack problem that web is prone to.

(2) the utility model base plate rope is arranged in the horizontal anchor plate, coincide with the moment of flexure envelope diagram of striding prestress concrete variable cross-section box girder bridge greatly that adopts cantilever-construction, stressed reasonable, can overcome the bigger positive bending moment in span centre L/2 cross section to 3L/8 cross section, near all less L/4 cross section of positive hogging moment,, near the L/8 cross section, can resist the part hogging moment near central compression.

(3) the utility model bridge base plate rope is arranged in the horizontal anchor plate, has simplified the structure design and the construction of prior art base plate, has improved bottom slab stress.

(4) the utility model bridge baseboard cable horizontal is arranged in the anchor plate, and loss of prestress is little, and construction is easy to control, good economy performance.

(5) the utility model bridge can adopt the construction of prior art cast-in-place cantilever method, horizontal anchor plate can be cast-in-place with box girder segment cantilever together during construction, for alleviating Hanging Basket cantilever pouring weight, it is cast-in-place on support or suspension bracket that horizontal anchor plate also can be postponed a construction stage.

Description of drawings

Fig. 1 is for striding prestress concrete variable cross-section box girder bridge facade arrangement diagram greatly.

Figure 2 shows that prior art strides the prestress concrete variable cross-section box girder bridge constructional drawing greatly.

Fig. 3 is the A-A sectional view of Fig. 2.

Fig. 4 is the B-B sectional view of Fig. 2.

Fig. 5 strides the prestress concrete variable cross-section box girder bridge constructional drawing greatly for what the utility model baseboard cable horizontal was arranged.

Fig. 6 is the A-A sectional view of Fig. 5.

Fig. 7 is the B-B sectional view of Fig. 5.

Fig. 8 strides the vertical arrangement diagram of prestress concrete variable cross-section box girder bridge cable wire greatly for prior art.

Fig. 9 is the A-A sectional view of Fig. 8.

Figure 10 is the B-B sectional view of Fig. 8.

Figure 11 strides the vertical arrangement diagram of prestress concrete variable cross-section box girder bridge cable wire greatly for what the utility model baseboard cable horizontal was arranged.

Figure 12 is the A-A sectional view of Figure 11.

Figure 13 is the B-B sectional view of Figure 11.

Among the figure: 1, base plate, 2, web, 3, the sawtooth piece, 4, horizontal anchor plate, 5, the base plate rope, 6, bridge pier, 7, pier top diaphragm.

The specific embodiment

The utility model is described in further detail below in conjunction with drawings and the specific embodiments.

Baseboard cable horizontal of the present utility model is arranged strides the prestress concrete variable cross-section box girder bridge structure greatly, extremely shown in Figure 7 as Fig. 5, comprise bridge pier 6 and the case beam that constitutes by top board, base plate 1 and web 2, it is span centre base plate 1 respective beam high position in the case beam, horizontal anchor plate 4 longitudinally is set, horizontal anchor plate 4 of section and case beam base plate 1 combine together near span centre L/2 cross section to the 3L/8 cross section, separate with base plate 1 all the other positions, the thickness of horizontal anchor plate 4 is consistent with span centre base plate 1, is generally 25～40cm.Extremely shown in Figure 13 as Figure 11, base plate rope 5 is arranged in the horizontal anchor plate 4, on the horizontal anchor plate 4 of base plate rope 5 stretch-draw anchor positions, sawtooth piece 3 is set, base plate rope 5 stretch-draw anchor ends bend up in the case at sawtooth piece 3 places, after the case beam closed up, symmetrical stretch-draw base plate rope 5 also was anchored on the respective saw teeth piece 3 its two ends symmetrically.

Horizontal anchor plate 4 can extend to bridge pier 6 places as shown in Figure 5 and pass pier top diaphragm 7 and be connected as a single entity with adjacent horizontal anchor plate 4 of striding, and also can stop near last sawtooth piece 3 place of bridge pier 6 sides and in horizontal anchor plate 4 rear ends safety barrier is being set.

Base plate rope 5 is generally planar flat to be bent to case endosternum 2 and stretch-draw and anchoring operation are carried out in base plate 1 junction.With reference to shown in Figure 6, combine together along the vertical and web 2 of bridge in horizontal anchor plate 4 left and right sides, and its transverse structure reinforcing bar bends up at web 2 places and and web 2 vertical reinforcement firm welding.Bigger in span centre L/2 cross section to the radial load in the 3L/8 section horizontal plane, the transverse structure reinforcing bar of the horizontal anchor plate 4 of this section will be strengthened especially, on horizontal anchor plate 4, horizontal ribs is set in case of necessity, is laterally applying transverse prestress on the ribs in case of necessity.

Its job practices is: bridge adopts the construction of Hanging Basket cast-in-place cantilever method, horizontal anchor plate 4 can be cast-in-place with box girder segment cantilever together during construction, for alleviating Hanging Basket cantilever pouring weight, horizontal anchor plate 4 also can be postponed a construction stage, cast-in-place construction on support or suspension bracket.

As shown in figure 11, along whole box girder bridge vertically, base plate rope 5 is except that the part of sawtooth piece is passed at two ends, the part that is positioned at horizontal anchor plate 4 is a horizontal arrangement, downward radial load is 0, has therefore overcome the deficiency of the base plate strap of arch in the prior art.

Claims (6)

1, a kind of baseboard cable horizontal arrangement prestress concrete variable cross-section box girder bridge, comprise bridge pier, the base plate of case beam, web and base plate rope, it is characterized in that: the position of the corresponding deck-molding of span centre base plate (1) in described case beam, along the case beam horizontal anchor plate (4) is set vertically, at span centre L/2 cross section to 3L/8 cross section section, described horizontal anchor plate (4) and case beam base plate (1) combine together, separate with base plate (1) all the other positions, the thickness of horizontal anchor plate (4) is consistent with the span centre base plate, described base plate rope (5) is arranged in the horizontal anchor plate (4), on the horizontal anchor plate (4) of base plate rope (5) stretch-draw anchor position, sawtooth piece (3) is set, base plate rope (5) stretch-draw anchor end is located to bend up in the case at sawtooth piece (3), and along the case beam vertically symmetrically stretch-draw anchor on described sawtooth piece (3).

2, baseboard cable horizontal arrangement prestress concrete variable cross-section box girder bridge according to claim 1 is characterized in that: described horizontal anchor plate (4) extends to bridge pier (6) and locates and pass pier top diaphragm (7) and adjacent horizontal anchor plate (4) of striding and be connected as a single entity.

3, baseboard cable horizontal arrangement prestress concrete variable cross-section box girder bridge according to claim 1 is characterized in that: described horizontal anchor plate (4) is being located termination and in horizontal anchor plate (4) rear end safety barrier is being set near last sawtooth piece (3) of bridge pier (6) side.

4, according to described baseboard cable horizontal arrangement prestress concrete variable cross-section box girder bridge one of in the claim 1 to 3, it is characterized in that: the transverse structure reinforcing bar of described horizontal anchor plate (4) is located to bend up and and the vertical reinforcement firm welding of described web (2) at web (2).

5, baseboard cable horizontal arrangement prestress concrete variable cross-section box girder bridge according to claim 4 is characterized in that: the L/2 cross section is provided with horizontal ribs to the horizontal anchor plate (4) of 3L/8 section in the case girder span.

6, baseboard cable horizontal arrangement prestress concrete variable cross-section box girder bridge according to claim 5 is characterized in that: apply transverse prestress on described horizontal ribs.

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