KR101325580B1 - Prestressed precast segment stone rainbow bridge and construction method - Google Patents

Abstract

The present invention relates to a construction method of an arched bridge using prestressed precast segments. The construction method of the arched bridge is as follows. Multiple stone standard blocks for forming a semicircular arched rib are processed in a trapezoidal section to engage with each other. Longitudinal PC wires are installed on neutral axis positions. Segments are manufactured by assembling the stone standard blocks on the concrete on an assembling place in an arched shape, tensing PC wires installed on the neutral axis, and integrating the assembled stone standard blocks with the tensed PC wires. The manufactured stone arched rib segments are vertically positioned using a crane. The arched rib is completed by successively hoisting and placing the stone arched rib segments on a primary concrete placing portion on a pier. Conditions for restricting the horizontal displacement of both sides of the arched bridge are formed by placing secondary concrete on the pier. The PC wires for controlling displacement are removed. The stone block wall is formed by successively piling up the stone blocks on the edges of the top and bottom sides of the stone arched rib segments to fill the top ends of the stone arched rib segments. The inner side of the stone block wall is filled with concrete. Bottom stone blocks, railing foundation stones, railing columns, railing bars, and newel posts are installed in the stone block wall. Accordingly, an antique and beautiful bridge, such as a traditional stone arched bridge, can be created.

Description

Prestressed Precast Segment Stone Rainbow Bridge and Construction Method

The present invention relates to a construction method of the Hong Yeo Bridge in which a prestressed precast segment (PPS) is installed where a horizontal displacement of both branches is constrained, and more specifically, several stone standard blocks constituting a semicircular arch rib are described. Machining into trapezoidal cross section to be engaged, install longitudinal PC steel wire hole at neutral axis position, and install the stone standard block on the concrete floor of the assembly site side by side to make a predetermined arch shape. After making the segment by integrating the direction PC steel wire and tensioning it, change the direction of the stone arch rib segment into a erected form with a crane, and place the primary concrete in place of the primary part of the shift so that the foundation of the stone arch rib segment can be placed. The stone arch rib segments are wound and mounted sequentially Complete the width of the arch ribs, cast secondary concrete in both eyes, form the condition to restrain the horizontal displacement of the Hongye Bridge, and then remove the PC steel wire for the displacement suppression during the hoisting and mounting. In order to fill the upper part of the segment, stone blocks are sequentially stacked on the upper and lower edges of the stone arch rib segment to form a wall stone block, and then the inside is filled with concrete, and the bottom part is provided with a bottom stone block. It is invented to create an antique and beautiful bridge like the traditional stone Hongye Bridge after completion by installing a stone railing base stone, railing pillars and railing rods, and installing a stone bridge column.

In general, the traditional stone Hongye Bridge is made of a pile of soil or temporary support structure at the bottom of the arch rib, and piled trapezoidal stone blocks sequentially at both points to be interlocked thereon, and then temporarily supported the soil pile or sand support. By removing the structure, the compressive force due to its own weight is introduced into the arch ribs to form a stable arch rib structure.The upper part of the arch ribs is filled with stones to form a smooth gradient bottom. To form a stable structure.

At this time, the arch structure has a horizontal reaction force in the point part even if only the vertical force acts on its characteristics, so the point condition must be made to receive this horizontal reaction force.

This traditional method of stone Hong Ye-kyo's hypothesis is to be able to prevent local cracking or cracking due to stress concentration phenomenon, and to have skilled masons during assembly and installation, but these masons cannot be found. The reality is that construction costs are very expensive and the design technology is not systematic.

In other words, the traditional stone Hongye Bridge is generally divided into Yangji Branch, Arch Rib, Chungbok, Bottom, and Railing. Among these, the first Yangji portion is the rise ratio of Arch Rib (H / L = 1/2 ~ 1/5). The size and shape of the horizontal reaction according to the length and span length are determined. When the horizontal reaction is large, both eyes may have to be rock to restrain the horizontal displacement of both points. A large stone block is required to support the reaction force. Thus, if there is a natural rock at both points or it is practically difficult to install a large stone block, the traditional stone Hongye Bridge may be impossible to hypothesize.

Secondly, the arch ribs are formed in a traditional manner by first installing a temporary pile or temporary supporting structure in a predetermined arch shape, and stacking pre-processed stone blocks on the temporary facility to form an interlocking operation. After assembling the ribs, the removal of the temporary facility allows the compressive force to be introduced by the weight of the arch rib stone block so that it becomes a complete structure.In this way, the mutually facing surfaces of the stone blocks forming the arch rib in forming the arch ribs In case of unevenness, stress concentration may occur due to the compressive force on the protruding portion, which may cause local cracking or cracking, and there is no practical problem in that there is no skilled mason who can perform such construction. There is this.

Third, the upper part of the arch rib has a purpose to form a gentle gradient for the passage of live load, but the purpose is to form a more complete structure by introducing a compressive stress by increasing its own dead load in the vertical direction to the arch rib. To this end, the rectangular surface stones corresponding to the wall are sequentially stacked on the upper and downstream arch rib edges, and the inside of the arch arch rib segment is stacked in this manner. It is true that there is a poor workability in forming, there is no problem of skilled masons, there is also a concern for the repair of defects, and above all, there is a problem in the structural stability when the filling section is high.

Fourth, the floor portion is to improve the running performance by placing a wide slab, the rainwater penetrating through the joint between the flagstone penetrates to the bottom, there is a problem that the wall and stains occur in the arch rib.

Fifth, one of the most important parts of the aesthetics of the stone Hong Ye-gyo is the handrail, and various types of stone railings are constructed, but there is a problem that the structural safety conditions of the railing are not satisfied.

Sixth, there is a problem that the traditional stone Hongye Bridge is structurally unsafe to be used only as a footbridge and to be used as a carriageway of a heavy vehicle.

Seventh, if the stone Hongye Bridge to be installed as a stone block of Tongdol construction costs are inevitably expensive.

On the other hand, natural stone bridges are natural and environmentally friendly, so there is a lot of demand for temporary construction in traditional temples and landscape areas, and the present applicants have identified "PPS stone arch bridge and its construction method (Patent No. 10-0935096)" and "Stone exterior concrete." Arched slab bridges (Patent No. 10-1196343).

However, they are arched slab bridges with an arch rib rise ratio (H / L) of about 1/20 to 1/50, and both bridges have a simple beam type consisting of hinges and rollers. Since the shape is arched but the compressive force is not introduced in the arch, large tension force by PC steel wire must be introduced to withstand bending stress, and PC steel wire is eccentric in the part where tensile stress is large to minimize tension force. Should be placed as.

However, because of this, there is a problem in that the steel frame is made in order to avoid this, so that the tension is generated when the tension is introduced, and the tension must be in the state in which the self-weight of the stone block is applied.

Also, we could not suggest the minimization of the cross section of arch ribs through the stepwise horizontal displacement restraint, and the method of treatment of the cladding part in which the rise ratio (H / L) of the arch ribs appeared in arch bridges of about 1/2 to 1/5 It is not presented.

1. Republic of Korea Patent Publication No. 10-0935096 (December 24, 2009) 2. Republic of Korea Patent Publication No. 10-1196343 (October 25, 2012)

The present invention has been devised to solve such a conventional problem, it is possible to succeed in the development of traditional stone Hongye Bridge, structurally stable, excellent durability, excellent aesthetics, environmentally friendly, vehicle traffic and construction workability The purpose of this invention is to provide a construction method of Hongye Bridge, which adopts this excellent and economical prestress precast segment.

In order to achieve the above object, the present invention, in the construction method of the Hong Yegyo incorporating the prestress precast segment (PPS) is installed in a place having a condition that the horizontal displacement of the two points portion is constrained, the primary portion of the alternating portion in the both points portion Pouring; Processing a plurality of stone standard blocks constituting a semi-circular arch rib into a trapezoidal cross section so as to be engaged, and installing a longitudinal PC steel wire hole at a neutral shaft position; After assembling and installing the stone standard block on the concrete floor of the assembly site to have a predetermined arch shape, tensioning and integrating the longitudinal PC steel wire installed on the neutral shaft to manufacture the stone arch rib segments, the stone arch rib segments of the Installing a displacement inhibiting PC steel wire between bottom surfaces of both ends; Turn the stone archrib segments into a erected form with a crane, and roll and mount the stone archrib segments sequentially on the primary concrete pour, where only the primary part of the alternating part is placed so that the stone archrib segment foundation can be placed. Completing the ribs; Placing secondary concrete on alternating portions of both eyes to form a condition for restraining horizontal displacement of both points of Hongye Bridge; Removing the PC wire for preventing displacement during hoisting and mounting; Forming a wall stone block by sequentially stacking stone blocks at edges on the upstream side and the downstream side of the stone arch rib segment to fill the upper end of the full width stone arch rib segment; Forming a filling part with concrete in the space formed by the wall stone block; Installing a bottom stone block on the bottom; Installing stone base railings, handrail posts and railing rods; Steps to install stone bridge column; characterized in that consisting of.

At this time, if the topographic conditions with binocular rock at both ends, only horizontal work is performed, and then the stone arch rib segments are sequentially hoisted and mounted, and the space between the start point block of the arch rib segments and the natural rock is filled with concrete. Characterized in that.

In addition, if the terrain conditions are not binocular rock formation, the alternating resistance is made by using structurally safe concrete, but the primary arches are placed after the first concrete is placed to the height where the starting point blocks of the stone arch rib segments are placed. They are sequentially wound and mounted, after which secondary concrete is poured so that horizontal reaction force can be exerted.

At this time, the exposed surface of the alternating part concrete installs natural stone blocks as a formwork substitute and forms the alternating parts having the stone appearance which is eco-friendly and harmonizes with the surrounding landscape by reinforcing concrete, and strengthens the settlement of the surface stone blocks and concrete inside It is characterized in that the anchor bolt further installed.

On the other hand, the stone arch rib segment is processed to a predetermined number of concentric trapezoidal standard blocks of the same size, after processing the starting point block is transported to the assembly site, the longitudinal direction of the processed stone block in the neutral axis in the longitudinal axis PC Steel wire hole, transverse PC steel wire hole, longitudinal shear key groove and transverse shear key groove are formed, and the surface of the stone arch rib segment, which is exposed surface, is subjected to the surface of the dodlock, and the stone arch rib segment side is hump It is characterized in that the surface is placed.

In addition, when a large compressive force is introduced to the stone arch rib segment, it is characterized in that the carbon fiber sheet is further attached to the mutually abutting surface of the stone blocks constituting the stone arch rib segment to strengthen the brittleness and tensile strength.

In addition, the stone block transported to the assembly site is precisely assembled using turnbuckles installed in four places so as to have a predetermined arch shape lying sideways on the concrete floor of the assembly site, but the contact surface of the stone block is 2-3 mm. After the gap is artificially assembled, the assembly is completed with the stone archrib segment to fill the gap with high-strength epoxy resin to prevent local cracking or cracking due to the large compressive force to be introduced in the future, and to ensure the role of the longitudinal shear key. It is done.

 Insert the longitudinal PC steel wire into the PC steel wire hole formed on the neutral axis of the stone arch rib segment and tension it, and install the displacement inhibiting PC steel wire in the longitudinal direction between the starting point blocks, and then set up the stone arch rib segment with a crane. Turn and place the stone archrib segments sequentially on the primary concrete pour where only the alternating primary part is placed so that the stone archrib segment foundation can be placed. It is characterized in that the tension is integrated in the transverse direction.

At this time, the joints formed at the longitudinal joints of the stone arch rib segments are backed up to the longitudinal joints in order to prevent the appearance of deterioration due to leakage and wall formation through the joints and to ensure the role of the transverse shear key. It is characterized in that it is filled with epoxy resin utilizing the agent.

In addition, the step of forming the filling portion on the top of the stone arch rib segment, the wall stone block to be processed in a predetermined shape to a predetermined number so as to be placed on the upper, downstream upper end of the stone arch rib segment, the surface of the exposed surface rough processing The anchor bolt is installed as much as the fixed point for fixing with concrete, and the anchor bolt for fastening the opposing wall stone block with turnbuckle and wire rope to resist lateral pressure when placing concrete After stacking the wall stone blocks sequentially, the opposite wall stone blocks are fastened with turnbuckles and wire ropes, and the joints are sealed for concrete placement inside, and then the concrete is filled to fill the inside. do.

In addition, the filling of the wall stone blocks and concrete is made up to a height leaving about 30 ~ 40 cm for the bottom stone block installation, and after cleaning the surface after installing the floor stone blocks at a predetermined interval, The joints are filled with adhesive such as epoxy resin so that the bottom stone block can be bonded and waterproofed at the same time. After the epoxy resin is hardened, the bottom is surface-treated with a dodlock to prevent slipping, and at the same time the uneven portion is flattened. It is characterized by performing.

In addition, the step of installing the handrail base stone, handrail pillars and railing rods to satisfy the structural safety conditions of the stone Hongye Bridge, after drilling a hole of a predetermined diameter in the junction of the handrail base stone and the floor stone block on both sides, Place it upside down, insert the pre-processed connecting rod, insert epoxy and integrate it, and insert the protrusion of the connecting rod attached to the railing basestone while adhering a certain amount of epoxy resin to the perforation of the bottom stone block. Next, after drilling a hole at a predetermined diameter in the railing foundation stone of the part where the railing foundation stone and the handrail pillar are joined, insert the lower protrusion of the railing column while adhering a certain amount of epoxy resin, and then apply the first and second stages. The railing rods are installed sequentially to characterize the railing.

As described above, according to the construction method of Hongye Bridge incorporating the prestressed precast segment of the present invention, the traditional stone Hongye Bridge can be successively developed, structurally stable, excellent in durability, excellent in appearance, environmentally friendly, and a vehicle. It is a very useful invention, such as being able to pass but also excellent in constructability and excellent economic feasibility.

1A to 1C are a plan view, a front view, and a cross-sectional view of a PPS stone Hongye Bridge constructed by the present invention.
Figures 2a to 2c is a plan view, front view and side view of the stone arch rib segment used in the construction method of the present invention.
Figure 3 is a perspective view of a standard block used in the stone arch rib segment of the present invention.
Figure 4 is a perspective view of the starting point block used in the stone arch rib segment of the present invention.
Figure 5 is an enlarged view of the installation and partial block of the stone wall of PPS stone Hongyegyo according to the present invention.
(A) and (b) of FIG. 6 are perspective views of the wall wall block and the bottom stone block of the filling part.
(A)-(i) is a flowchart for demonstrating the construction method of this invention.
8 is a front view of a state in which the present invention is applied to a two-span PPS stone Hongye Bridge.
9 is a front view of the concrete and stone arch rib segment used in the construction method of the present invention.
Figure 10 (a) (b) and Figure 11 (a) (b) is a perspective view and a longitudinal cross-sectional view of the natural flagstone-mounted concrete standard block and the starting point block used in the concrete and stone arch rib segment of the present invention.
12 is a front view of the natural flagstone surface-attached concrete and stone arch rib segment used in the construction method of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1a to 1c is a plan view, a front view and a cross-sectional view of a PPS stone hongye school constructed by the present invention, Figure 2 (a)-(c) is a plan view of the stone arch rib segment used in the construction method of the present invention 3 is a perspective view of a standard block used in the stone arch rib segment of the present invention, and FIG. 4 is a perspective view of a starting point block used in the stone arch rib segment of the present invention. will be.

In addition, Figure 5 shows the installation and partial enlarged view of the packed stone block of PPS stone Hongyegyo according to the present invention, Figure 6 (a) (b) shows a perspective view of the wall stone block and the bottom stone block of the filling section FIG. 7 is a flowchart illustrating the construction method of the present invention, and FIG. 8 is a front view of a state in which the present invention is applied to a two-span PPS stone Hongye Bridge.

9 is a front view of the concrete and stone arch rib segment used in the construction method of the present invention, Figure 10 (a) (b) and Figure 11 (a) (b) of the concrete and stone of the present invention It is a perspective view and a longitudinal sectional view of the natural plate-mounted concrete standard block and the starting point block used in the arch rib segment, Figure 12 is a front view of the natural slab surface-attached concrete and stone arch rib segment used in the construction method of the present invention. It is shown.

According to this, the construction method of the Hong Ye-kyo incorporating the pre-stressed precast segment of the present invention will be described in detail with reference to FIGS. 7 (a)-(i) as follows.

First, in the case of the Hongye Bridge in which the prestressed precast segment (PPS) is installed where the horizontal displacement of the two-point portion is constrained, the alternating portion 1 is concreted at the two-point portion as shown in FIG. To form a primary pour (ie, primary concrete pour portion 1a).

Further, several stone standard blocks 21 constituting the semi-circular arch ribs are processed into trapezoidal cross sections so as to be engaged, and the longitudinal PC steel wire holes 21a are installed at the neutral axis positions, and the concrete floor of FIG. As shown in Fig. 7a, the stone standard block 21 is laid side by side so as to have a predetermined arch shape and assembled with Fig. 7 (b), and the longitudinal PC steel wire 23 installed on the neutral shaft is tensioned and integrated with Fig. 7 As shown in (c) of the stone arch rib segments (2) are manufactured, between the bottom surface of both ends of the stone arch rib segments (2) to install a displacement-restricting PC steel wire 24 as shown in (d) of FIG. .

Subsequently, the stone archrib segment 2 lying on the floor in a horizontal state with a crane is turned upright in a vertical state, and the direction is changed, so that the stone archrib segment base part can be placed. The stone arch rib segment is sequentially wound and mounted on the primary concrete pouring portion 1a as shown in FIG. 7 (f) to complete the full width arch rib.

Subsequently, the secondary concrete pouring portion 1b is formed in the alternating portions 1 of both eyes as shown in FIG. 7G to form a condition for restraining the horizontal displacement of the Hongye Bridge both points, and suppressing displacement during hoisting and mounting. The PC steel wire 24 is removed.

Subsequently, in order to fill the upper end of the full width stone arch rib segment, stone blocks are sequentially stacked as shown in (h) of the upstream and downstream sides of the stone arch rib segments 2 to form the wall stone blocks 3. And the filling part 4 is formed of concrete in the space formed by the wall stone block.

Subsequently, the bottom stone block 5 is installed on the upper surface of the concrete filling part 4 as shown in FIG. 7 (i), and the railing base stone 6, the railing column 7 and the railing rod 8 are installed. Of course, if the stone bridge (9) is installed, the stone Hongye Bridge is completed.

In addition, in the present invention, as a means for satisfying the two-point portion condition that the horizontal displacement can be constrained, if the topological condition with the binocular rock at the two-point portion, the arch rib segment base portion is thin so that no local stress occurs when placed on the rock After flattening the concrete with a thick thickness, the stone arch rib segments 2 are sequentially wound and mounted, and the space between the starting point block 22 of the stone arch rib segments and the natural rock is filled with concrete.

However, in the case of topographical conditions other than binocular rocks, the alternating parts 1 are separately made of structurally safe concrete to resist, but the height of the starting point block 22 of the stone arch rib segments 2 is placed. After pouring the primary concrete pouring portion 1a, the stone arch rib segments 2 may be sequentially wound and mounted, and thereafter, the secondary concrete pouring portion 1b may be poured so that the horizontal reaction force can be exerted. .

At this time, the concrete exposed surface of the alternating portion (1) is preferably installed as a substitute for natural stone blocks, and cast concrete to form an alternating portion having a stone appearance that is environmentally friendly and harmonizes with the surrounding landscape. It is more preferable to further install anchor bolts to reinforce mutual settlement between the secondary stone blocks and the internal concrete.

On the other hand, in the present invention as a method for producing a structurally safe and constructive stone arch rib segment (2), first processing the trapezoidal standard block 21 of the same size of concentric circles in the form as shown in Figure 3, After processing the starting point block 22 in the form as shown in FIG. 4 and transported to the assembly site, the standard block 21 and the starting point block 22 processed as described above are longitudinal PC steel wire holes in the neutral axis in the longitudinal direction (21a, 22a), transverse PC steel wire holes (21b, 22b), longitudinal shear key grooves (21c, 22c) and transverse shear key grooves (21d) are formed, and (a)-(c) of FIG. After the completion, the surface of the stone arch rib segment (2), which is exposed surface, is subjected to a dodlock surface processing, and the surface of the stone arch rib segment (2) is roughened.

In addition, when a large compressive force is introduced into the stone arch rib segment 2, the carbon fiber sheet 10 may be attached to the mutually abutting surfaces of the stone blocks constituting the stone arch rib segment 2 to reinforce brittleness and tensile strength. .

In addition, the stone block transported to the assembly site is precisely assembled using turnbuckles installed in four places so as to have a predetermined arch shape lying sideways on the concrete floor of the assembly site, but the contact surface of the stone block is 2-3 mm. After artificially leaving the gap, assembling is completed with the stone arch rib segment 2 as shown in FIG. 7 (b), the gap is filled with high-strength epoxy resin to prevent local cracking or cracking caused by a large compressive force to be introduced in the future. And to ensure the role of the longitudinal shear key.

 The longitudinal PC steel wire 23 is inserted into the PC steel wire holes 21a and 22a formed in the neutral shaft of the stone arch rib segment 2 as shown in FIG. 7C and is tensioned, as shown in FIG. 7D. After installing the displacement-restricting PC steel wire 24 in the longitudinal direction between the starting point blocks 22, the stone arch rib segment is oriented in a erected form as shown in FIG. 7 (d) by a crane, and the stone arch rib segment The full width arch ribs are completed by winding / positioning the stone arch rib segments 2 sequentially on the primary concrete placing portion 1a on which only the primary portion of the alternating portion 1 is placed so that the foundation portion can be placed. The steel wire 25 is tensioned and integrated in the lateral direction.

The method of manufacturing the stone arch rib segment (2) described above is that the steel frame for making the stone arch rib segment is unnecessary as compared with the conventional arch-type slab bridge bridge (Rise ratio H / L = 1/20 ~ 1/50). This is not a large tension that is introduced to cope with a large tensile stress when the design load is applied, but a minimal form that does not need to act on its own because it introduces the minimum tension required to maintain the shape only during lifting and mounting. This is because it can tension the neutral axis.

At this time, the joints formed in the longitudinal joints of the stone arch rib segments 2 are prevented from appearance deterioration due to leakage and wall formation through the joints, and to guarantee the role of the transverse shear key. It is preferable to fill with epoxy resin by using the backup agent 11 in the eyes.

On the other hand, in the present invention in order to form a structurally stable and durable to the filling portion (4) on the upper end of the stone arch rib segment (2), it is placed on the upper, downstream upper end of the stone arch rib segment (2) Fork wall stone block (3) is processed in a predetermined shape as required number, the surface is exposed to the surface roughening, the back surface is fixed anchor bolt 12 as shown in Figure 5 and 6 for fixing with concrete 2 anchor bolts 12 are installed to connect the wall stone blocks with turnbuckles 13 and wire ropes 14 so that they can be installed as many places (for example, 4 places) and resist lateral pressure when placing concrete. Install.

Then, the wall stone blocks 3 are sequentially stacked on the upper surface of the stone arch rib segment 2 installed at the front and rear of the Hong Ye Bridge, and then the opposite wall stone blocks 3 are turned with the turnbuckles 13. The wire rope 14 is fastened, and the joint part is sealed for concrete placement therein, and then the concrete is poured to fill the inside.

In addition, in the present invention, the wall stone block (3) and the concrete filling up to the height of leaving about 30 ~ 40 cm, which is the height for installing the bottom stone block (5) as a measure for improving the running and usability of the bottom and waterproof After performing, clean the surface and install the bottom stone block (5) at a predetermined interval, and then filling the joint with an adhesive such as epoxy resin to the bottom stone block to be bonded and waterproof at the same time, epoxy resin After hardening, the bottom part is surface-treated with a slip lock to prevent slipping, and at the same time, the uneven part is flattened.

In addition, in the present invention as a method for installing a railing to satisfy the structural safety conditions of the stone Hongyegyo, after drilling a hole of a predetermined diameter to the junction of the handrail base stone 6 and the floor stone block 5 on both sides, the handrail foundation stone Place it in the upside down, insert the pre-processed connecting ring stone (61), and then integrally filled with epoxy, and bonded to the railing base stone (6) while filling a certain amount of epoxy resin in the perforated portion of the bottom stone block (5) The protrusions of the connected connection barb 61 are inserted and bonded.

Subsequently, a hole is drilled in the railing foundation stone 6 at the portion where the railing foundation stone 6 and the railing pillar 7 are joined to a predetermined diameter, and then the lower end of the railing pillar 7 is filled with a certain amount of epoxy resin. Insert the protrusion (7a), and then adhere, and then the first and second stage handrail rod 8 is installed sequentially to complete the handrail.

On the other hand, in the present invention as a way to make the PPS stone Hongye Bridge also possible for the driveway, the stone arch rib segment (2), which is the main structural member made of stone blocks of the required thickness or more, and a large compressive force due to the vehicle load of the upper end When introduced into the stone arch rib segment, cracking or cracking may occur due to local stress concentration even if the stress of the entire cross section is within the allowable stress. To prevent this, a carbon fiber sheet is attached to the contact surface to reinforce brittleness and tensile strength.

In addition, the filling part of the upper part of the stone arch rib segments is filled with concrete, and the anchor bolt 12 is embedded to remove the cause of the wall stone block 3 collapsing by lateral pressure and to prevent the wall stone block from falling. To be settled by pouring concrete.

In addition, by controlling the tension of the longitudinal PC steel wire introduced into the stone arch rib segment, it is possible to prevent the tensile stress from occurring in any part of the cross section even when the design load is applied. If introduced, it could introduce greater tension, so the PPS Stone Hongye Bridge, which has a long principal, could be designed to allow vehicle traffic.

On the other hand, as described above, the PPS stone Hongye Bridge according to the present invention can not only be installed at one point between two points, but can also be applied to the two-span PPS stone Hongye Bridge as shown in FIG. 8 as necessary.

In addition, in the present invention, the stone arch rib segment, the filling wall stone block, and the bottom stone block may use natural stone such as granite as a whole, and in order to pursue economical efficiency, FIGS. 9 to 11 (a) (b) and Similarly, concrete and stone arch rib segments (2 ') are formed by using concrete and stone standard blocks and continuous contact blocks, and at the same time, the concrete wall and concrete blocks and floor concrete and stone blocks, which are not shown, are exposed. It may also be a stone surface-attached concrete block that is covered with a natural flagstone 15 only a certain thickness portion of the surface.

At this time, the method of covering the natural flagstone on the concrete, first, the exposed surface of the flagstone is processed by the dodlock and hump, etc., and then drilled holes of a certain depth / required diameter in four places on the back, and then a certain amount of epoxy resin After filling the hole in the hole and inserting the anchor to integrate, and then cast concrete in accordance with the formwork, the production of stone surface-attached concrete block is completed.

Further, if the entire arch rib segment is made of concrete with Fig. 12 and the surface of the stone surface-attached concrete segment, which is attached to the exposed natural flagstone 15 only on its exposed surface, it can be produced more economically.

As described above, when the PPS stone Hongye Bridge is constructed through the construction method of the present invention, the traditional stone Hongye Bridge can be inherited and developed, as well as structurally stable and excellent in durability, excellent aesthetics, eco-friendly, and vehicle traffic. It is excellent in workability and can provide economic stone Hongye school.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. Which will be apparent to those skilled in the art.

1: shift
1a: 1st concrete pouring part 1b: 2nd concrete pouring part
2: stone arch rib segment
2 ': Concrete and stone arch rib segment
21: stone standard block 22: starting point block
21a, 22a: longitudinal PC steel wire hole 21b, 22b: transverse PC steel wire hole
21c, 22c: Longitudinal shear key groove 21d: Lateral shear key groove
23: longitudinal PC steel wire 24: displacement inhibiting PC steel wire
25: transverse PC steel wire
3: wall stone block 3 ': wall concrete and stone block
4: abdominal cavity
5: Floor Stone Block 5 ': Concrete Concrete Stone Block
6: railing base stone 61: connecting round stone
7: handrail column 7a: lower protrusion
8: railing rod
9: stone bridge
10: carbon fiber sheet
11: backup
12: Anchor bolt
13: turnbuckle
14: wire rope
15: natural flagstone

Claims (12)

In the construction method of Hong Ye-kyo which adopted prestress precast segment (PPS),
Checking the topographic conditions of both points and placing the alternating parts in concrete at the both points in the case of the two points having the condition that the horizontal displacement is restricted;
Processing a plurality of stone standard blocks constituting a semi-circular arch rib into a trapezoidal cross section so as to be engaged, and installing a longitudinal PC steel wire hole at a neutral shaft position;
Assemble and install the stone standard block on the concrete floor of the assembly site to have a predetermined arch shape, and then tension and unify the PC steel wire installed on the neutral shaft to manufacture the stone arch rib segments, but the bottom of both ends of the stone arch rib segments Installing a PC steel wire for displacement suppression therebetween;
Turn the stone archrib segments into a erected form with a crane, and roll and mount the stone archrib segments sequentially on the primary concrete pour, where only the primary part of the alternating part is placed so that the stone archrib segment foundation can be placed. Completing the ribs;
Placing secondary concrete on alternating portions of both eyes to form a condition for restraining horizontal displacement of both points of Hongye Bridge;
Removing the PC wire for preventing displacement during hoisting and mounting;
Forming a wall stone block by sequentially stacking stone blocks at edges on the upstream side and the downstream side of the stone arch rib segment to fill the upper end of the full width stone arch rib segment;
Forming a filling part with concrete in the space formed by the wall stone block;
Installing a bottom stone block on the bottom;
Installing railing foundation stones, railing columns and railing rods;
Step of installing a stone bridge column; Construction method of Hong Yegyo introduced pre-stressed precast segment, characterized in that consisting of.
In the construction method of Hong Ye-kyo which adopted prestress precast segment (PPS),
Checking the topographical conditions of the two-point portion and performing the flat work after placing concrete to a thin thickness so that local stress does not occur when the arch rib segment foundation is placed on the rock when the two-eye rock is placed on the two-point portion;
Processing a plurality of stone standard blocks constituting a semi-circular arch rib into a trapezoidal cross section so as to be engaged, and installing a longitudinal PC steel wire hole at a neutral shaft position;
Assemble and install the stone standard block on the concrete floor of the assembly site to have a predetermined arch shape, and then tension and unify the PC steel wire installed on the neutral shaft to manufacture the stone arch rib segments, but the bottom of both ends of the stone arch rib segments Installing a PC steel wire for displacement suppression therebetween;
Converting the stone arch rib segments into a erect shape with a crane, and placing the stone arch rib segments sequentially on the concrete which has been flattened after being cast to a thin thickness on the rock to complete the full width arch ribs;
Forming a condition for confining the horizontal displacement of the Hongye Bridge by filling concrete in the space between the starting point block of the arch rib segments and the natural rock;
Removing the PC wire for preventing displacement during hoisting and mounting;
Forming a wall stone block by sequentially stacking stone blocks at edges on the upstream side and the downstream side of the stone arch rib segment to fill the upper end of the full width stone arch rib segment;
Forming a filling part with concrete in the space formed by the wall stone block;
Installing a bottom stone block on the bottom;
Installing railing foundation stones, railing columns and railing rods;
Step of installing a stone bridge column; Construction method of Hong Yegyo introduced pre-stressed precast segment, characterized in that consisting of.
In the construction method of Hong Ye-kyo which adopted prestress precast segment (PPS),
As a result of confirming the topographical conditions of both sites, in the case of the topographical conditions that are not binocular rocks, the alternating resistance is made by using structurally safe concrete, but the primary concrete is placed to the height where the starting block of the stone arch rib segments is placed. Steps;
Processing a plurality of stone standard blocks constituting a semi-circular arch rib into a trapezoidal cross section so as to be engaged, and installing a longitudinal PC steel wire hole at a neutral shaft position;
Assemble and install the stone standard block on the concrete floor of the assembly site to have a predetermined arch shape, and then tension and unify the PC steel wire installed on the neutral shaft to manufacture the stone arch rib segments, but the bottom of both ends of the stone arch rib segments Installing a PC steel wire for displacement suppression therebetween;
Turning the stone arch rib segment into a standing shape with a crane, and sequentially winding and mounting the stone arch rib segments on the primary concrete pour portion so as to place the stone arch rib segment foundation portion to complete the full width arch rib;
Forming a condition for confining the horizontal displacement of the Hongye Bridge by filling concrete in the space between the starting point block of the arch rib segments and the natural rock;
Placing secondary concrete on the alternating portions of both eyes so that horizontal reaction force can be exerted at both points of Hongye Bridge;
Removing the PC wire for preventing displacement during hoisting and mounting;
Forming a wall stone block by sequentially stacking stone blocks at edges on the upstream side and the downstream side of the stone arch rib segment to fill the upper end of the full width stone arch rib segment;
Forming a filling part with concrete in the space formed by the wall stone block;
Installing a bottom stone block on the bottom;
Installing railing foundation stones, railing columns and railing rods;
Step of installing a stone bridge column; Construction method of Hong Yegyo introduced pre-stressed precast segment, characterized in that consisting of.
The method according to claim 3,
The exposed surface of the alternating part concrete installs natural stone blocks as a formwork substitute and forms the alternating parts with the stone appearance which is environmentally friendly and harmonizes with the surrounding landscape by installing concrete, and to strengthen the settlement of the surface stone blocks and the concrete inside Hong Ye-kyo's construction method using pre-stressed precast segment, characterized in that the anchor bolt further installed.
The method according to any one of claims 1 to 3,
The stone arch rib segment,
The same size of trapezoidal standard blocks of concentric circles is processed by a predetermined quantity, and the starting point blocks are processed and transported to the assembly site, wherein the processed stone blocks have longitudinal PC steel wire holes on the neutral axis in the longitudinal direction, and horizontal PC steel wire Holes, grooves for longitudinal shear keys and grooves for transverse shear keys are formed, and the bottom surface of the stone arch rib segment, which is the exposed surface, is subjected to the surface treatment of the dodlock, and the side surface of the stone arch rib segment is roughened. Hong Ye-kyo's construction method using pre-stressed precast segment.
The method according to any one of claims 1 to 3,
If a large compressive force is introduced into the stone arch rib segment,
The construction method of Hongyegyo, which introduced prestressed precast segment, further comprising a carbon fiber sheet installed on the mutually facing surfaces of the stone blocks constituting the stone arch rib segment to reinforce brittleness and tensile strength.
The method according to any one of claims 1 to 3,
The stone blocks carried to the assembly site are assembled precisely using turnbuckles installed in four places so as to have a predetermined arch shape lying on the concrete floor of the assembly site, but the contact surface of the stone blocks has a gap of 2-3 mm. After artificially placed, when the assembly is completed with stone arch rib segment, the gap is filled with high-strength epoxy resin to prevent local cracking or cracking caused by large compressive force to be introduced in the future, and to ensure the role of longitudinal shear key. Hong Ye-kyo's construction method using pre-stressed precast segment.
The method according to claim 5,
Insert the PC steel wire into the PC steel wire hole formed on the neutral axis of the stone arch rib segment and tension it, and install the displacement inhibiting PC steel wire between the starting point blocks in the longitudinal direction, and then change the direction of the stone arch rib segment to the erected form with a crane. In addition, the pre-stressed precast segment is introduced, characterized in that the stone arch rib segments are sequentially hoisted / located on the alternating concrete pouring sections to complete the full width arch rib, and then the transverse PC steel wire is tensioned to integrate in the transverse direction. Construction method of Hong Ye-kyo.
The method according to any one of claims 1 to 3,
Joints formed in the longitudinal joints of the stone arch rib segments are provided with a backup agent in the longitudinal joints in order to prevent the appearance of deterioration due to the leakage of the joints and the occurrence of the wall condition and to ensure the role of the transverse shear key. Hong Ye-kyo's construction method using prestressed precast segment characterized in that it is filled with epoxy resin.
The method according to any one of claims 1 to 3,
Forming the filling portion on the top of the stone arch rib segment,
The wall stone blocks are processed in a predetermined shape to be placed on the upper and downstream upper end portions of the stone arch rib segments, and the exposed surface is roughly processed by the rough surface, and the anchor bolts are fixed at the back to fix the concrete. Install the anchor bolts for fastening the opposing wall stone blocks with turnbuckles and wire ropes in order to resist lateral pressure when placing concrete, and then pile up the wall stone blocks sequentially and then face the opposite wall stone blocks. The construction method of the Hong Ye Bridge, which introduced the pre-stressed precast segment, characterized in that the fastener is fastened with a turnbuckle and a wire rope, and the joint is sealed for concrete in the interior, and then the concrete is filled.
The method of claim 10,
Filling of the wall stone block and concrete,
It is made up to a height that leaves about 30 ~ 40㎝ for the bottom stone block installation.Then, after cleaning the surface cleanly and installing the bottom stone block at a predetermined interval, the joint is filled with an adhesive such as epoxy resin. Pre-stressed precast segment characterized in that the bottom stone block is bonded and waterproofed at the same time, and the epoxy resin is hardened, the bottom portion is treated with a dodlock for preventing slipping, and the uneven portion is flattened. Hong Ye-kyo construction method introduced. The method according to any one of claims 1 to 3,
Installing the railing foundation stone, railing pillars and railing rods,
After drilling the holes of the predetermined diameter on both sides of the base of the handrail base stone and the bottom stone block, put the handrail base stone upside down, insert the pre-processed connecting rod, insert epoxy and integrate it, and then drill the bottom part of the stone block. After filling with a certain amount of epoxy resin, the protrusions of the connecting rods bonded to the railing base stone are inserted and bonded, and then a hole of a predetermined diameter is drilled into the railing base stone of the part where the railing base stone and the handrail pillar are joined. Hong Ye-kyo's construction method using prestressed precast segment, characterized in that by inserting and bonding the lower projection of the handrail pillar while filling the resin, and then installing the first and second handrail rods sequentially.

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