KR101187168B1 - Small river pc bridge and construction method thereof - Google Patents

Abstract

PURPOSE: A PC bridge for a small river and a construction method thereof are provided to reduce construction time because a concrete placing work in a construction site is not required. CONSTITUTION: A PC bridge for a small river comprises a bottom base plate for scour prevention, a precast deck(21), precast abutments(22), and a precast slab(23). The bottom base plate is arranged on the bottom of a small river. The precast deck is formed on the top of the bottom base plate and has sheath pipes(211) and tendons(212). The precast abutments are formed on both ends of the precast deck and are connected to the precast deck and the precast slab. Both ends of the precast slab are supported to the top ends of the precast abutments.

Description

Small river PC Bridge and construction method

The present invention relates to a bridge that can be applied to small rivers, and more particularly to a PC bridge for small rivers and its construction method that can be constructed without concrete pouring in the field to shorten the air and prevent scouring the bottom of the river.

In general, bridges installed in small streams such as streams, valleys, and real streams are small bridges of shorter diameters, and a girder is installed at the upper part of a box-shaped ramen bridge or bridges erected at predetermined intervals. Girder bridges are constructed by providing bridge top plates. In the case of the Ramen Bridge, the process of formwork, concrete placement and curing is performed in the field, and the air is long and the workforce and subsidiary materials are consumed due to the installation of the club, and the scour phenomenon due to the flow velocity is generated downstream from the lower side of the bridge. there is a problem. In the case of girder bridge, maintenance of the girder is necessary, and sufficient curing time of concrete is required due to the site casting of the pier and the upper slab, and there is a problem of inferior economic feasibility.

As a background technology of the present invention, Korean Patent Registration No. 10-0742234, a corrugated composite top plate and a bridge construction method of a small river using the same are presented. It cleans up the bottom ground of the shift installation location where the bridges of the small rivers are to be installed and reinforces them, and then cures concrete and constructs foundations and shifts, and embeds a plurality of fixing members having a plurality of fixing bolts arranged at the top of the shift. Assemble the corrugated composite top plate assembled by placing the joining pieces of the corrugated composite top plate in contact with each other at the top of the shift, and fasten the nut to the plurality of fixing bolts which are already protruded at the top of the bridge. It is fixed to the top, and it is constructed by the process of curing concrete on the corrugated composite top plate fixed on the top of the shift, and it is possible to increase the height of the bridge and lengthen the length of the bridge to secure the flow of rivers.

However, the background art has a long air due to the construction of the foundation and the alternating concrete, there is no proposal to prevent the scour.

Korea Patent Registration No. 10-1107724 Korean Laid-Open Patent Publication No. 10-2009-0045826

It is an object of the present invention to provide a PC bridge for small rivers and a construction method that allows construction to be made without placing concrete in the field to shorten the air and prevent scrubbing of the bottom of the river.

According to a suitable embodiment of the small river PC bridge of the present invention,

Scour prevention base base plate is disposed on the small river bottom than the width of the bridge;

A precast bottom plate having a predetermined width and seated on an upper surface of the base plate for scour prevention and having a tension force introduced by a tension member inserted into the embedded sheath tube;

A precast shift having a width smaller than that of the precast deck and connected to the precast deck and the precast deck through steel bars or high-strength bars into the sheath pipes which are respectively installed and embedded at both ends of the precast deck;

It includes the precast top plate having the same width as the precast bottom plate and is fixed to the upper end of the precast shift by the steel rod or high-strength reinforcement, both ends are fixed and supported,
The base plate for preventing scour,
Two types of plates having the same thickness and the same width and different lengths from each other are joined by using the upper and lower chucks formed on the circumferential surface thereof, and then the steel wires disposed in the width direction of the small river are tensioned and integrally bound. It is done.

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In addition, each of the precast bottom plate, precast alternating, precast top plate is characterized in that the construction is bound by receiving the tensile force of the steel wire laid in its width direction.

In addition, when the width of the small river is long, a plurality of the precast top plate and the precast bottom plate are installed in the same longitudinal direction, and the precast top plate and the precast bottom plate are precast through steel bars or high-strength reinforcing bars inserted into the sheath pipe. The precast piers connected to the bottom plate and the precast top plate are further constructed.

In addition, the steel bar or high-strength reinforcing rod is fastened to the steel rod fastening insert embedded in the precast bottom plate is characterized in that it is fastened to the lock nut located on the non-shrink mortar inlet formed on the precast top plate.

In addition, the precast shift is characterized in that the key is coupled to the precast bottom plate and the precast top plate through the upper and lower shear keys.

In addition, the precast pier is characterized in that the key is coupled to the precast bottom plate and the precast top plate through the upper, lower shear keys.

In addition, the precast bottom plate and the precast top plate is characterized in that the foam is further installed inside each prepared in preparation for the weight excess.

In addition, the precast bottom plate and the precast top plate are characterized in that the adjacent reinforcement is inserted into a plurality of binding reinforcement bars in a U-shape is filled with non-shrink mortar and integrally constructed.

In addition, the precast upper plate located on the outermost side in the width direction is characterized in that each has an extended portion to extend the area of the corner.

In addition, the precast upper plate located on the outermost side in the width direction is characterized in that each having an extended end of each end to expand the area of the corner.

In addition, the precast upper plate located on the outermost side in the width direction is characterized in that each side has an extended portion for extending the area of the corner.

On the other hand, the construction method of the small bridge PC bridge according to the present invention,

Assembling unit plates wider than the width of the bridge on the small river bottom and binding the plurality of steel wires to install a base plate for preventing scrubbing;

Placing a plurality of precast bottom plates side by side on the upper surface of the base plate for scour prevention and tensioning the tension member;

Placing precast shifts at both ends of the precast deck and connecting the lower ends of the steel bars or high-strength bars to the precast deck plate steel fastening inserts through the precast shift;

The upper end of the steel bar is exposed to the non-shrink mortar inlet of the precast top plate to support the precast top plate at the top of the precast shift, and then the steel bar is tightened with a nut, and then the tension material installed on the precast top plate is tensioned. It is characterized in that the construction, including.

In addition, each of the plurality of precast bottom plate, precast alternating and precast top plate is characterized in that the construction further comprises the step of pulling the steel wire in the width direction at least two places, respectively.

In addition, when the width of the small river is long, the precast bottom plate and the precast top plate are arranged in two rows, and the precast piers are additionally positioned in the middle, and the precast bottom plate and the precast top plate are bound to each other through steel bars or high-strength bars. Characterized in that the construction is further included.

In addition, the precast bottom plate and the precast top plate are constructed by further including a step of integrally being filled with non-shrink mortar after shear reinforcement is inserted into a plurality of binding reinforcing bars that are adjacent to each other in a U-shape. It is characterized by.

According to the small river PC bridge of the present invention and the construction method thereof, the base plate for preventing scour is widely installed downstream of the bridge at the lower side to effectively prevent scour. In addition, the bottom plate, the top plate and the shift and the piers are made of precast concrete, and then assembled and constructed, which eliminates a separate curing process in the field, thereby shortening air. In addition, a plurality of steel rods in the transverse and the piers are arranged in the transverse and longitudinal direction, thereby improving vertical stability and binding force with the precast top plate. In addition, the tension member is tensioned in the precast deck and the top plate, thereby improving the allowable load stress.

The following drawings, which are attached in this specification, illustrate the preferred embodiments of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
1 is an enlarged front view and main portion of a small bridge PC bridge according to the present invention.
2 is a plan view of Fig.
3A is a side view of FIG. 1;
Figure 3b is a view showing the scour prevention phenomenon seen from the side of the small bridge PC bridge in accordance with the present invention.
Figure 4 is a perspective view of the base plate for scour prevention to be applied to the present invention.
Figures 5a and 5b is a plan view and one side view of a unit plate body showing one form applied to the base plate for scrubbing prevention base applied to the present invention.
Figure 6a is a view showing the width of the bridge seated on the base plate for scrubbing prevention applied to the present invention.
Figure 6b is a layout view of the base plate and the precast top plate for scour prevention applied to the present invention.
7A-7C illustrate various forms of bridges in accordance with the present invention.
8a and 8b are a front view and a plan view of a bridge that can be applied when the width of the small river according to the present invention is long.
9 is a view illustrating a construction sequence of a small bridge PC bridge according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

As shown in FIGS. 1 to 3, the small bridge PC bridge 1 according to the present invention is provided with a base plate 10 for scour prevention at the bottom of a river (see FIG. 9A). Before installing the scour prevention base plate 10 is made to flatten the river bottom. The flow rate through the stream can be bypassed for flattening. Flattening may use rubble, sand or discarded concrete.

Scour prevention bottom base plate 10 to prevent the scour phenomenon occurs to the downstream side of the bridge is constructed in small rivers. The base plate 10 for scour prevention is disposed at a width H wider than the width h of the bridge 1 as shown in FIG. 6A. Scour prevention bottom base plate 10 is configured by assembling a plurality of plate bodies as shown in FIG. In the present embodiment, two types of unit plates 11 and 12 having a constant thickness, the same width, and different lengths are arranged to alternately alternate in two rows, and are bound by a tension force introduced into the plurality of steel wires 13. have. At this time, the steel wire 13 is inserted through the steel wire hole (11c) formed in the unit plate (11, 12), as shown in Figure 5a and 5b and is tensioned and then both ends are fixed to the known fixing device (wedge, fixture). The unit plates 11 and 12 are coupled to each other by the upper and lower gripping jaws 11a and 11b formed on the circumferential surface of neighboring ones in the width direction.

Therefore, the single plate bodies 11 and 12 are easily arranged on the same plane by the combination of the upper and lower bite jaws 11a and 11b. In addition, the plate bodies 11 and 12 are bound together by the tensile force of the plurality of steel wires 13 disposed in the width direction thereof to form an integrated body. The arrangement of the plates 11 and 12 shown in FIG. 6 is one example and is not limited thereto. At this time, the plate (11, 12) is made of precast concrete in the factory can be reinforced.

The scrubbing prevention base base plate 10 has a precast base plate 21, a precast alternating plate 22, 22 and a precast top plate 23 as shown in FIGS. 1 and 9 (a), (b) and (c). Are installed in order. The precast bottom plate 21, the precast alternators 22 and 22, and the precast top plate 23 are assembled and constructed in a rectangular box structure.

First, the precast bottom plate 21 is fixed to the upper surface of the base plate 10 for scour prevention. The precast bottom plate 21 has a square cross section in the longitudinal direction. The precast bottom plate 21 is formed with a taper 21a at both ends so that a predetermined section of the upper surface is gradually expanded in cross section. The precast deck 21 is made of precast concrete and rebar at the factory. The sheath tube 211 is embedded in the precast bottom plate 21 along the longitudinal direction, and a tension force is introduced by the tension member 212 inserted into the sheath tube 211. Both ends of the tension member 212 are fixed by a known fixing device after being tensioned. Due to such a structure, the tension members 212 are provided in two rows on the end face of the precast bottom plate 21. The precast bottom plate 21 may be manufactured by further installing a foam 215 such as EPS in each case in preparation for overweight.

The precast shifts 22 and 22 are respectively placed on both ends of the precast bottom plate 21. The precast shifts 22 and 22 are made of rebar and concrete by the precast method in the factory. The precast shifts 22 and 22 are made to have a relatively larger width than the precast bottom plate 21. In the present embodiment, the widths of the precast shifts 22 and 22 have twice the width of the precast bottom plate 21. Therefore, precast shifts 22 are provided at both ends of the two precast bottom plates 21, respectively. The precast shifts 22 and 22 have a sheath tube 221 embedded in both ends in a vertical direction, and the precast bottom plate (or high-strength reinforcing bars) is inserted into the sheath tube 221. 21 and the precast top plate 23. At this time, the lower end of the steel bar 222 is connected to the steel rod fastening insert 213 embedded in the precast bottom plate 21 by screwing, the upper end of the steel bar 222 is the non-shrink mortar of the precast upper plate 23 It is fixed by the nut 223 located in the injection port 23a side.

The precast top plate 23 is made of rebar and concrete by a precast method at the factory. The precast top plate 23 is produced with the same width as the precast bottom plate 21 described above. Thus, in this embodiment, two precast top plates 23 are supported on one shift 22. Both ends of the precast upper plate 23 are fixed to the precast alterations 22 and 22 via the steel bar 222 (or high-strength rebar). In addition, the precast upper plate 23 is provided with a tension member 231. The tension member 231 is inserted into the sheath tube in the precast upper plate 23 and fixed by a known fixing device.

The precast top plate 23 may be constructed in which a foam 232 such as EPS is further installed therein in preparation for excess weight. The foam 232 is provided with its thickness, width, and length determined within a range that does not lower the strength of the bridge to be precast. A plurality of lifting rings 234 are provided on the precast upper plate 23 and partially exposed to the upper surface. In the present embodiment, the precast upper plate 23 may be extended by 1 m in the width direction as shown in FIG. 2.

Here, the precast shifts 22 and 22 are key-coupled with the precast bottom plate 21 and the precast top plate 23 through the upper and lower shear keys 27a and 27b. Therefore, the upper and lower shear keys 27a and 27b serve as keys, and at the same time, they are positioned at the same positions.

In addition, the precast bottom plates 21 and 21 and the precast top plate 23 are not inserted into the shear key hole after the linear shear bars 219 and 239 are inserted into the plurality of binding bars 217 and 237 which are adjacent to each other in a U-shape. It is desirable to be integrally constructed by filling with shrinkage mortar.

Meanwhile, the plurality of precast bottom plates 21, the precast shifts 22, 22, and the precast upper plate 23 are each subjected to a tensile force of the plurality of steel wires 25a, 25b, 25c laid in the width direction of the bridge. It is bound.

First, the four connected precast bottom plates 21 are bound using the lower plate side steel wire 25a, and the two connected precast shifts 22 are bound using the alternating side steel wire 25b. The four joined precast upper plates 23 are bound together using the side steel wire 25c. In the present embodiment, two steel wires were used for the precast bottom plate 21, the precast shift 22, and the precast top plate 23, respectively. However, the present invention is not limited to the number of installations, and any additional expansion is necessary. This is possible.

As described above, the small bridge PC bridge is constructed in the order of the scour prevention base plate 10, the precast bottom plate 21, the precast shifts 22 and 22, and the precast top plate 23. The grooves used to hold the steel wires 25a, 25b and 25c respectively during construction are later closed with non-shrink mortar. Of course, non-shrink mortar is also injected into the inlet to which the nut is fastened to tighten the steel bar 22 is closed. The sealant is injected into the neighboring joining surfaces of the precast bottom plate 21, the precast alternators 22 and 22, and the precast upper plate 23, respectively.

On the other hand, the PC bridge for small rivers according to the present invention can be extended in various forms the corners of the precast upper plate 23 located on the outermost side according to the connection structure with the road. That is, as shown in Fig. 2, the basic type without an additional extension part in the precast upper plate 23, and the partial partial extension type having one end of the precast upper plate 23 as shown in FIG. It may be configured as a double-sided expansion type having each of both ends extended portion (23b, 23b) as shown in 7b, and a single-sided expansion type having each one side extension (23c, 23c) as shown in Figure 7c.

On the other hand, when the length of the bridge installed in the small river is long, as shown in Figs. 8a and 8b, the precast top plate 23 and the precast bottom plate 21 are provided in a plurality of the same in the longitudinal direction, and are embedded in the joint end The precast pier 24 connected to the precast bottom plate 21 and the precast top plate 23 may be further installed and installed through the steel bar 222 (or high-strength reinforcing bar) inserted into the sheath tube. At this time, the steel bar 222 is installed in the same structure as the method applied to the precast shift 22.

In addition, the precast pier 24 is key-coupled with the precast bottom plate 21 and the precast top plate 23 through the upper and lower shear keys 28a and 28b. Therefore, the upper and lower shear keys 28a and 28b serve as keys, and at the same time, they are positioned at the same positions.

Since the PC bridge for small rivers according to the present invention constructed and constructed as described above has the base plate 10 for preventing scour, the scour phenomenon can be prevented. In addition, the base plate 10 for scour prevention is coupled to a plurality of plate body by engaging the upper and lower jaw is easy to be assembled into a plate-like binding. In addition, it is possible to shorten the air by prefabricating the lower plate, the upper plate, the alternation and the piers in the precast concrete construction site. In addition, a plurality of steel rods in the transverse and the piers are arranged in the transverse and longitudinal direction, thereby improving vertical stability and binding force with the precast top plate. In addition, the tension member is tensioned in the precast deck and the top plate, thereby improving the allowable load stress.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: base plate for scour prevention
11,12: plate
13,25a, 25b, 25c: steel wire
11a, 11b: upper and lower bite
21: precast sole plate
212: tension
22: precast shift
222: steel bar
223 lock nut
23: Precast Tops
24: precast piers
27a, 28a: upper shear key
27b, 28b: lower shear key
215,232: foam
217,237: bound bars
219,239: cutting rebar

Claims (16)

Scour prevention base base plate 10 is disposed wider than the width of the bridge in the small river bottom;
A precast bottom plate 21 having a predetermined width and seated on the upper surface of the base plate 10 for scour prevention and having a tension force introduced by the tension member 212 inserted into the sheath tube 211 embedded therein;
The precast bottom plate 21 has a width smaller than that of the precast bottom plate 21 and is inserted into both ends of the precast bottom plate 21 through a steel rod 222 or a high-strength reinforcing bar. And precast shifts 22 and 22 connected to the precast top plate 23;
It includes the precast top plate 23 having the same width as the precast bottom plate 21 and the upper end of the precast alternating 22, 22 is bound with the steel bar or high-strength reinforcement, both ends are fixed and supported,
The base plate 10 for scour prevention,
Two types of plate bodies 11 and 12 having the same width and the same length and having different lengths are joined in the width direction of the small river after being joined by using the upper and lower bite bumps 11a and 11b formed on the circumferential surface. A PC bridge for small rivers, characterized in that the steel wire 13 is tensioned and integrally bound. delete The method of claim 1,
Each of the precast bottom plate 21, the precast shifts 22 and 22, and the precast top plate 23 are bonded and constructed by receiving the tensile force of the steel wires 25a, 25b and 25c laid in the width direction thereof. Small bridge PC bridge. The method of claim 1,
When the width of the small river is long, the precast top plate 23 and the precast bottom plate 21 are provided in the longitudinal direction in the same direction, and a plurality more are connected to each other, and steel bars or high strength reinforcing bars inserted into the sheath pipe embedded at the joint ends thereof. Precast pier 24 connected to the precast bottom plate 21 and the precast top plate 23 through the small stream PC bridge, characterized in that the construction. The method according to claim 1 or 4,
The steel bar or high-strength reinforcing bar is fastened to the steel bar fastening insert 213 embedded in the precast bottom plate, and then fastened to the lock nut 223 positioned on the non-shrink mortar inlet 23a formed on the precast upper plate 23. Small bridge PC bridge characterized in that there is. The method of claim 1,
Precast shifts (22, 22) is a small bridge PC bridge, characterized in that the key is coupled through the precast bottom plate 21 and the precast top plate 23 through the upper and lower shear keys (27a, 27b). The method of claim 1,
Precast pier 24 is a small bridge PC bridge, characterized in that the key is coupled to the precast bottom plate 21 and the precast top plate through the upper and lower shear keys (28a, 28b). The method of claim 1,
Precast bottom plate 21 and the precast top plate 23 is a PC bridge for small rivers, characterized in that the foam (232, 215) is further installed in each case in preparation for overweight. The method of claim 1,
The precast bottom plates 21 and 21 and the precast top plate 23 are filled with non-shrink mortar after shear bars 219 and 239 are inserted into a plurality of binding bars 217 and 237 that are adjacent to each other in a U-shape. PC bridge for small rivers, characterized in that the construction integrally. The method of claim 1,
Precast upper plate 23 located on the outermost side in the width direction has a small PC bridge for small rivers, characterized in that each has an extended portion (23a) for extending the area of the corner. The method of claim 1,
Precast upper plate 23 located on the outermost side in the width direction has a PC bridge for small rivers, characterized in that each having an extended end 23b to extend the area of the corner. The method of claim 1,
Precast upper plate 23 located on the outermost side in the width direction has a PC bridge for small rivers, characterized in that each having an extended side portion 23c for expanding the area of the corner. Assembling the unit plates 11 and 12 wider than the width of the bridge on the bottom of the small river and binding the plurality of steel wires 13 to install the base plate 10 for scour prevention;
Placing the plurality of precast bottom plates 21 side by side on the upper surface of the scrubbing bottom base plate 10 and tensioning the tension member 212;
Precast shifts 22 and 22 are placed on both ends of the precast bottom plate 21, and the lower ends of the steel rods or high-strength bars are inserted through the precast shifts 22 and 22 to fasten the steel bars on the precast bottom plate 21 side. Connecting to the dragon insert 213;
The upper end of the steel bar 222 is exposed to the non-shrink mortar inlet of the precast upper plate 23 to support the precast upper plate 23 on the upper ends of the precast shifts 22 and 22, and then the steel bar 222 to the nut. Fastening to (223), and then the construction method of the small bridge PC bridge, characterized in that the construction comprising the step of tensioning the tension member 231 installed on the precast top plate (23). The method of claim 13,
At least two steel wires 25a, 25b, and 25c are drawn into the plurality of precast bottom plates 21, the precast shifts 22, 22, and the precast upper plate 23 in the width direction, respectively, and then tensioned. Construction method of the small bridge PC bridge, characterized in that the construction is further included. The method of claim 13,
When the width of the small river is long, the precast bottom plate 21 and the precast top plate 23 are arranged in two rows, and the precast pier 24 is additionally placed in the middle, and the precast bottom is formed through steel bars or high-strength steel bars. The construction method of the small bridge PC bridge, characterized in that the construction further comprises the step of binding to the plate 21 and the precast upper plate (23). The method of claim 13,
The precast bottom plates 21 and 21 and the precast top plate 23 are filled with non-shrink mortar after shear bars 219 and 239 are inserted into a plurality of binding bars 217 and 237 that are adjacent to each other in a U-shape. The construction method of the small bridge PC bridge, characterized in that the construction is further included in the construction step.

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