KR100876355B1 - The lifting apparatus with a guide form and the lifting method of bridge therewith - Google Patents

Abstract

A lifting apparatus of a bridge including a lifting guide and a lifting method of a bridge using the lifting device of a bridge is provided to prevent the horizontal movement, inversion and distortion of a column while lifting up a bridge. A lifting apparatus of a bridge including a lifting guide comprises a lower support formed in the appointed height, an upper support supporting the lower part of a coping part(102) of a bridge, a hydraulic jack installed to the lower support to lift up the upper support, and a lifting guide(50) covering a column(101) of a bridge and having many working parts(51) penetrated along the side and many fixing holes(52) penetrated the top or the bottom.

Description

Bridge lifting device with impression guide and bridge raising method using the bridge lifting device {the lifting apparatus with a guide form and the lifting method of bridge therewith}

The present invention relates to a bridge lifting device including a lifting guide and a bridge lifting method using the bridge lifting device, the lower support consisting of concrete; An upper support for supporting the coping portion of the bridge; Hydraulic jack; A bridge raising device constituted by an impression guide surrounding the pillar of the bridge; Chipping reinforcement of the edge of the bridge pillar, installing a lower support around the pillar of the bridge, an upper support to support the coping portion of the bridge, install a plurality of hydraulic jacks on the lower support, and cut the pillar After installing the provided impression guide to the pillar, the bridge is raised by using the hydraulic jack, the space generated further while raising the pillar, that is, the space between the support and the upper support, the cutting of the pillar Whenever it is raised to a certain height, the auxiliary base is inserted to raise it to a certain height while raising the safety, and the reinforcing bar is reinforced and connected to the raised space of the column, and the formwork for wrapping the cut pillar in close contact with Surface after installing, curing and curing concrete inside, removing the installed formwork and bridge raising device By a bridge method for impression finish to finish, to prevent the horizontal movement, and twisting of the conductive pillars in the pulling process of the bridge.

In general, bridges are high-rise structures made to cross rivers, lakes, straits, bays, canals, lowlands, or other traffic routes or structures, and there are various types of bridges. It consists of an upper structure consisting of a mold (girder, girder) for supporting the slab, and a lower structure for supporting the upper structure (for reference, the seating device is located at the contact point of the upper structure and the lower structure of the bridge, the chairman To transfer the load from the superstructure to the substructure and to safely adapt it to earthquakes, wind and temperature changes, and also to adapt to bridge loads and absorb expansion and contraction, so that the displacement of the bridge is not transmitted directly to the piers or shifts. Is a device having a shock absorbing function), and the substructure is formed of a shift of the base structure on both sides of the superstructure and a portion other than the shift. Made up of a support pier, conventional foundation slab positioned nose pingbu, the ground which is located in the lower superstructure (or foundation), made up of columns between the nose pingbu and foundation slabs.

On the other hand, after the bridge is completed through construction, the height of the bridge installed due to unexpected reasons, for example, to prevent the flooding of the bridge while increasing the height of the bank embankment ( And a method and apparatus for raising the slab, the stabilizing device and the pillar part while maintaining the superstructure as it is for this purpose.

In a conventional method of pulling up a bridge, a coping portion is further formed by raising the upper plate (slab) of the bridge (that is, a portion generated by the coping portion is processed by the coping portion, that is, formed into a cross section of the coping portion by the raised height). ) Is mainly used.

In addition, as a method of raising a bridge by cutting a portion of a bridge column of a conventional bridge, the bridge upper structure support lifting device that can vertically extend the bridge pillar portion of the Korean Patent Registration No. 0580225 and the upper portion using the same In the method of elevating the structure, 'the pier supporting lift lower hypothesis that the vertical member, the horizontal member and the inclined member are crossed horizontally and assembled into a box shape; A plurality of hydraulic jacks installed at regular intervals on the horizontal member of the lower support tent for lifting the pier, and supporting and lifting the pier; A pier supporting pulling upper temporary vent which is horizontally and vertically intersected vertically on the upper portion of the hydraulic jack and assembled into a box shape; The bridge upper structure support lifting device configured of a fixed steel bar for vertically fixed connection between the horizontal member of the pier supporting lift lower temporary vent and the horizontal member of the pier supporting lift upper temporary vent.

In addition, in the 'Korean Patent Registration No. 0580225,' A bridge upper structure support lifting device capable of vertically extending a bridge pillar portion of a bridge and an upper structure lifting method using the same ', the pillars cut using the support lifting device There is disclosed a method of raising the bridge to a target height by repeatedly raising the upper portion several times by a certain height, but repeatedly repeating the process of pulling through the hydraulic jack, reinforcing the steel, placing concrete and curing.

However, in the pulling method of the bridge which raises the said coping part and forms a coping part by the height which raises, since the load generated by the said additional coping part transmits more to a pillar, the load capacity of the whole pulling bridge reduces significantly, and is usually Because the coping portion has a wider width and length than the column, the coping portion is increased in height and the aesthetic element is dropped, and the existing bridge device must be removed and reinstalled during the process, thereby causing damage and deformation of the existing bridge. .

In addition, the Korean Patent Registration No. 0580225, 'A bridge upper structure support lifting device capable of vertically extending the pier pillar portion of the bridge, the bridge support lift lower construction vents and pier support lift upper construction vents, vertical members , Horizontal members, inclined members, etc. are squeezed vertically and horizontally to respond to bending and shearing forces. However, the manufacturing process leads to welding or bolted joints. There was a high possibility that breakage of a defective part would occur.

In addition, after cutting the pillars, the upper and lower reinforcing bars are coupled and concrete is poured. Although the concrete takes time during curing, the height of the bridge is raised several times, so that the air becomes long. Each of the upper and lower temporary vents must support the coping portion and the superstructure of the bridge, but there is a risk of causing fatigue failure of the upper and lower temporary vents due to the static load supporting the upper and lower temporary vents.

In addition, when the bending of the lower temporary vent occurs due to the load of the bridge, the bridge is not vertically raised during the bridge raising process, and thus a problem in that the reinforcing bar of the cut portion cannot be vertically coupled occurs. As a result, there was a possibility that the superstructure of the bridge could not be leveled.

Therefore, the present invention, in order to solve the above problems, the lower support consisting of concrete; An upper support for supporting the coping portion of the bridge; Hydraulic jack; A bridge raising device constituted by an impression guide surrounding the pillar of the bridge; Chipping the reinforcement of the pillar edge of the bridge to be exposed, install a lower support around the pillar of the bridge, install an upper support to support the coping portion of the bridge, install a plurality of hydraulic jacks on the lower support, and cut the pillar And, after installing the provided impression guide to the pillar, using the hydraulic jack to raise the bridge, reinforce the bar in the raised space of the column, joint, and install the formwork to wrap close to the cut pillar After the concrete is placed and cured, and the installed formwork and the bridge raising device are removed and the surface is finished by the bridge raising method to prevent the horizontal movement, fall and twist of the column during the raising of the bridge. .

In addition, the auxiliary support is inserted into the space additionally generated while raising the pillar, and the power is increased by the set height while dispersing the force. After raising the stroke of the hydraulic jack, after removing the hydraulic jack, the auxiliary support is returned to the place where the original hydraulic jack is installed. Install hydraulic jacks in order so that they can be raised to the desired height.

In addition, by forming a plurality of penetrating working portion on the side of the impression support, while raising the pillar, the auxiliary support is inserted through the working portion to increase safety.

In addition, in the case where the bridge to be applied is a simple bridge, the method is applied to the bridge piers contained in the mold of one unit to facilitate the impression of the simple bridge, and when the bridge to be applied is a continuous bridge, all the bridges are included in the bridge. The above method is applied to the piers to simultaneously raise the continuous bridges.

Therefore, the present invention, in order to solve the above problems, the lower support consisting of concrete; An upper support for supporting the coping portion of the bridge; Hydraulic jack; A bridge raising device constituted by an impression guide surrounding the pillar of the bridge; Chipping the reinforcement of the pillar edge of the bridge to be exposed, install a lower support around the pillar of the bridge, install an upper support to support the coping portion of the bridge, install a plurality of hydraulic jacks on the lower support, and cut the pillar And, after installing the provided impression guide to the pillar, using the hydraulic jack to raise the bridge, reinforce the bar in the raised space of the column, joint, and install the formwork to wrap close to the cut pillar In order to prevent horizontal movement, fall and torsion of the column during the lifting process of the bridge, by the bridge raising method of placing and curing concrete inside, curing and removing the installed formwork and the bridge raising device, and then finishing the surface. It works.

In addition, the auxiliary support is inserted into the space additionally generated while raising the pillar, and the power is increased by the set height while dispersing the force. After raising the stroke of the hydraulic jack, after removing the hydraulic jack, the auxiliary support is returned to the place where the original hydraulic jack is installed. And hydraulic jacks can be installed one by one, raising the desired height.

In addition, by forming a plurality of penetrating working portion on the side of the lifting support, while inserting the auxiliary support through the working portion while raising the pillar, there is a high safety effect.

In addition, in the case where the bridge to be applied is a simple bridge, the method is applied to the bridge piers contained in the mold of one unit to facilitate the impression of the simple bridge, and when the bridge to be applied is a continuous bridge, all the bridges are included in the bridge. By applying the above method to the pier, the continuous bridge can be raised at the same time.

The present invention relates to a bridge lifting device including a lifting guide and a bridge lifting method using the bridge lifting device, the lower support (10) made of concrete; An upper support 30 for supporting the coping portion of the bridge; Hydraulic jack 20; A bridge pulling apparatus constituted by an impression guide 50 surrounding the pillar of the bridge; Chipping so that the reinforcement 103 of the edge of the bridge pillar to be cut 101 is exposed, the lower support 10 is installed around the pillar 101 of the bridge, and the upper support so that the coping portion 102 of the bridge is supported. 30 is installed, a plurality of hydraulic jacks 20 are installed in the fine seating portion 11 of the upper portion of the lower support 10, the pillars 101 are cut off, and the provided impression guide 50 is provided. After installation on the pillar 101, the bridge is raised by using the hydraulic jack 20, the reinforcing bar 80 is reinforced and jointed inside the cut pillar 101, and the cut pillar 101 is in close contact. By installing a bridge (60) to wrap, pour concrete 70 into the interior, curing, remove the installed formwork 60 and the bridge raising device, and then finish the surface by the bridge raising method, It is to prevent the horizontal movement and torsion of the pillar 101 at the time of pulling up.

First, the bridge lifting device is composed of a lower support 10, the upper support 30, the hydraulic jack 20, the impression guide 50, which will be described in turn as follows.

First, as shown in Figure 4, the lower support 10 is composed of a concrete of a square shape, the overall height is the height that can support the lower portion of the coping portion 102 with the upper support 30 to be placed behind Consists of, the upper support of the lower support (10) forms a fine seating portion 11, the seating portion (11) for fixing the fall prevention mechanism (40) to be sewn, a plurality of grooves of a predetermined depth The lower support 10 is formed of a plate-shaped lower support 10a and a rectangular pedestal 10b thereon for safety.

For reference, looking at the manufacturing method of the lower support 10, reinforcing the reinforcing bar inside the formwork, cast concrete 70 containing aggregates in the formwork 60, after compaction by vibration, etc., sufficiently cured , After the concrete 70 is sufficiently cured, the formwork 60 is removed and the surface is trimmed. The lower support 10 is completed, and the lower support 10a and the pedestal 10b may be manufactured and assembled, respectively. In this way, there is a method of constructing a block form prepared in advance in the factory in the factory, or by customizing the site according to the conditions of the bridge in the field.

Next, as shown in FIGS. 5 and 6, the upper support 30 is fixed to the pillar 101 to support the coping part 102 of the piers 100, and the upper support 30 While maintaining the bottom of the horizontal surface, the inner portion of the support portion 31 for supporting the bottom of the coping portion 102 in a horizontal form; It consists of a bracket 32 for fixing the support portion 31, the support portion 31, since the bottom surface of the coping portion 102 usually has a variety of shapes, corresponding to the shape of the bottom surface of the coping portion 102 Comprising a support portion 31a for maintaining the bottom surface in a horizontal form, and a plate-shaped cardboard portion 31b supporting the corresponding support portion 31a, while assembling the cardboard portion 31b and the corresponding support portion 31a 31).

On the other hand, since the bottom surface of the coping portion 102 usually has an inclination, as shown in FIG. 6, the corresponding support portion 31a has a wedge shape, and the corresponding support portion 31a has a shape steel, a frame, The upper part of the corresponding support part 31a is made of a plate material 31a '(mainly a steel plate), and when the corresponding support part 31a is installed, the plate material 31a' is a coping part 102. Match the bottom of the head with the slope so that the force can be transmitted evenly.

In addition, the bracket 32 is to allow the support portion 31 to be fixed to the pier 100, the bending of the form of wrapping the column 101 in the lower portion of the plate-shaped support plate 32b and the support plate 32b. The unit 32a is integrally formed, and the bending portion 32a is formed with a plurality of through holes 32a ', and fixing members such as anchor bolts are provided in the column 101 through the holes 32a'. The bracket 32 is fixed to the furnace pillar 101, and a reinforcement plate is applied between the support plate 32b and the bending portion 32a to reinforce the strength of the bracket 32.

In addition, since the present invention is constructed without dismantling the existing bridge, the upper support 30, that is, the support 31 and the bracket 32, respectively, so as to be easy to assemble on the column 101 side, Configure to be separated into at least two.

In addition, a fixing frame 33 for easily fixing the upper support 30 on the pier 100 is further provided, as shown in Figures 15 and 16, parallel to the vertical member (33a) It is formed in a plurality, the structure consisting of a plurality of horizontal members (33b) perpendicular to the vertical direction (horizontal direction) between the vertical member (33a) integrally, at least one end of the top or bottom of the vertical member (33a) is bent To facilitate the restraint of the upper support 30, the lower end of the vertical member (33a) vertically, or the upper end of the vertical member (33a) to the cross-sectional shape of both handrails (301) of the slab (300). By using the fixing frame 33, the upper support 30 is more firmly assembled and restrained to the handrail 301 of the slab 300.

And the hydraulic jack 20, as shown in Figures 4 and 9, is installed between the lower support 10 and the upper support 30, the hydraulic pressure is supplied to the upper support 30 up the hydraulic pressure It serves to raise, the hydraulic cylinder applied to the hydraulic jack 20 as usual uses a log nut cylinder.

In addition, it further comprises a fall prevention tool 40 for preventing the fall (falling) of the hydraulic jack 20, the fall prevention tool 40 will be described with reference to Figure 4, the plate-shaped fixing plate 41 Receiving portion 42 having a cylinder-shaped space on the upper portion is formed integrally, the opening portion 42a is formed in the opening part 42a with a predetermined width, a plurality of sides in the receiving portion 42 side The reinforcing plate is installed to reinforce the strength, and the fixing plate 41 is provided with a plurality of penetrating fixing holes 41a.

The fall prevention tool 40 as described above is recessed in the upper portion of the lower support 10 It is installed in the seating part 11, the fixing hole 41a of the fixing plate 41 of the fall prevention tool 40 coincides with the groove of the seating part 11, and in the fixing hole 41a such as a bolt or a clamp Inserting the locking member to install the fall prevention tool 40, the hydraulic jack 20 to be installed is located inside the receiving portion 42 of the fall prevention tool 40, the hydraulic hose inlet, outlet of the hydraulic jack 20 Is installed to face the trim portion (42a), and prevents the lateral movement and fall of the hydraulic jack 20 by the fall prevention tool (40).

And the impression guide 50, as shown in Figure 7, is formed in the form surrounding the pillar 101 cross section, the impression guide 50 side of the plurality of work portions 51 penetrated to a certain area And a plurality of fixing holes 52 penetrated along the lower portion or the upper portion of the impression guide 50, and the fixing holes 52 may be formed only at a fixed portion of the column 101 (bottom). Or forming a fixing hole only at one of the upper ends), and the impression guide 50 is fixed to the pillar 101 through the fixing hole 52, and the side of the working part 51 of the impression guide 50 A height meter is attached to facilitate the height measurement.

On the other hand, the impression guide 50 is configured to be separated into at least two, in order to facilitate the assembly on the side of the pillar 101, formed on the separated side edge a plurality of protruding assembly plate 53, respectively, The assembly plate 53 forms a penetrating fixing hole 53a.

Thus, the process of Figure 2 with respect to the method of raising the bridge by using the bridge lifting device comprises a bridge support device consisting of the lower support 10, the upper support 30, the hydraulic jack 20, the impression guide 50 According to the sequential order as follows.

First, as shown in FIG. 3, the chipping step S1 is a step of exposing the reinforcement 103 by cutting at a predetermined height (constant upper and lower width) along the circumference of the pillar 101 of the pier 100 for raising the bridge. By marking the baseline and the height to be cut along the circumference of the pillar 101 of the portion to be cut, and chipping (pecking) the concrete to have a certain height along the marked portion, embedded in the edge of the pillar 101. It is desirable that the rebar 103 is chipped to a depth that is fully exposed, and the rebar 103 exposed by chipping is secured to a certain height, which is why the reinforcement of the reinforcing bars 80 and 103 is performed in a post process. (Although there are various ways of joining, for example, securing a minimum length for assembly when connecting with a rebar coupler).

And the support process S2 is a process of providing the lower support 10, the hydraulic jack 20, and the upper support 30 to the said piers 100, as shown to FIG. 4 and FIG. As shown in Fig. 4, the lower support 10 is installed along the circumference of the pier 100, at least two lower support 10 is provided around the pillar 101, and each lower support 10 is provided. ) Is preferably installed at equal intervals around the column 101, and, in addition, the hydraulic jack 20 to the fall prevention hole 40 installed in the recessed recessed portion 11 of the upper portion of the lower support (10). To install, the hydraulic jack 20 is installed a plurality in consideration of the load.

And the upper support 30 is installed at the boundary between the coping part 102 and the pillar 101, as shown in Figures 5 and 6, first install the bracket 32 to the pillar 101 as a fixing member The support plate 31 is installed above the plate-shaped support plate 32b of the installed bracket 32, but the paperboard unit 31b of the support unit 31 is installed above the installed support plate 32b, and the paperboard unit 31b. And a corresponding support part 31a is provided between the slope of the coping part 102 and the non-flat bottom of the coping part 102 is supported by the corresponding support part 31a, and the coping part 102 and the corresponding support part 31a are provided. Is horizontally supported by the cardboard portion 31b, the cardboard portion 31b is supported and fixed by the bracket (32).

On the other hand, the fixing of the upper support 30, since each of the support portion 31 and the bracket 32 is composed of at least two, it is not fitted to the pillar 101, but is assembled on the side of the piers 100 The bracket 32 and the support part 31 are fixed by welding or bolting or bending each other, and the support part 31 is fixed to the coping part 102 by using a fixing member from the support part 31 to the coping part 102. In addition, the bracket 32 is also preferably fixed to the pillars 101 with a fixing member such as an anchor bolt.

In addition, after the fixing of the upper support 30, as shown in Figure 15 and Figure 16, while fixing the fixing frame 33 to be positioned from the lower portion of the upper support 30 to the upper slab 300, the fixed frame Along with (33) is fixed with a fixing member such as an anchor bolt, so as to be caught in the position of the end of the end of the fixed frame 33, for example, as shown in the enlarged portion of Figure 15, the slab 300 While fixing the handrail 301, the part is fixed with a fixing member, the other end is fixed with a fixing member in the lower portion of the upper support 30, the fixing member in a number of places of the fixing frame 33 for safety Fixed to, to increase the constraint force of the upper support (30).

’ 형태를 가진다.Next, as shown in FIG. 6, the pillar cutting step S3 is a step of cutting the pillars 101 of the piers 100 along the center of the portion chipped in the chipping step S1. All of the 103 is cut at the same height, and according to the cut height of the central portion, the concrete of the central portion of the pillar 101 is also cut to completely cut the pillar 101, whereby the upper load of the bridge is supported by the upper support 30. And the lower support 10 are supported, the cut side cross-section of the pillar 101 is'

Has a form.

In addition, as shown in Figs. 7 and 8, the impression guide installation step S4 is a step of fixing the prepared impression guide 50 to the surface of the cut pillar 101, and the impression guide 50 is cut. While assembling on the surface, while holding the divided impression guide 50 in close contact with the surface of the pillar 101, through the fixing hole (53a) of the butting assembly plate 53 by fixing with a fixing member such as a conventional fixing bolt, the impression guide ( 50 is installed on the column 101, and fixed by fastening a fixing member such as an anchor bolt to the fixing hole 53a of the impression guide 50, so that one end of the lower or upper end of the impression guide 50 is fixed, The fixed opposite side is free to move without restraint.

On the other hand, from the chipping step (S1) to the impression guide installation step (S4), is carried out to the bridge 100 corresponding to the section of the bridge to be lifted, the type of bridge to be applied, that is, simple bridge and continuous bridge According to the construction method is different.

First, as shown in Figs. 13 and 14, in the case of a simple bridge in which the molds between the spans are separated, the chipping step (S1) to the impression guide installation step (S4) is performed on the piers 100 of one mold. To raise the bridge corresponding to the one mold.

As shown in FIG. 1, in the case of the continuous bridge showing the continuous form of the mold, the chipping step S1 to the impression guide installation step S4 are simultaneously performed on all the bridges 100 in the continuous bridge section. Thus, the bridges are simultaneously pulled up.

In addition, the fluid is set to be supplied to the installed hydraulic jack 20, it is preferable to supply the hydraulic pressure simultaneously to the installed hydraulic jack 20, as mentioned earlier in the impression guide 50, the work of the impression guide 50 Part 51 is provided with a ruler or height measuring instrument (not shown separately in the drawing), so that the height can be measured.

Next, as shown in FIG. 8, the bridge raising step S5 is a step of raising a bridge by simultaneously supplying a fluid to the hydraulic jacks 20 provided in the respective piers 100, and lifting the bridge by hydraulic pressure. The 30 is raised so that the upper structure of the bridge (slab, mold), the coping part 102, and the cut upper part of the column 101 are simultaneously pulled up, and in this process the bridge is pulled up as desired, and the bridge In the pulling process, by the impression guide 50 installed on the pillar 101, the fall (falling), twisting, horizontal movement, etc. of the pillar 101 is completely prevented.

In addition, in the bridge pulling step (S5), as shown in Figs. 7 and 8, the auxiliary support 70 such as steel plate, steel (mainly H beam), screw jack 71 in the space generated by the pulling up ) To increase the safety, the space generated during the pulling process, there is a space between the upper support 30 and the lower support 10, and the cut space of the column 101, the height of the If not, insert the steel sheet to increase the safety, and if the lifting space is secured to a height enough to support the steel, the prepared steel is inserted and supported to maintain the stability of the raised state, the cutting of the column 101 When the auxiliary support 70 is inserted into one space, the auxiliary support 70 is further installed through the working part 51 of the impression guide 50.

In addition, when the pulling height is an appropriate height, the screw jack 71 is applied as the auxiliary support 70, the screw jack 71 is installed first, the screw jack 71 (usually 30 cm) After securing a space by raising the height of about 5 cm more than), the screw jack 71 is installed, and the hydraulic jack 20 is lowered back to its original height, thereby increasing the safety, the impression height is raised It can be checked through a ruler or height meter installed in the guide (50).

9 and 10, when the pulling height is higher than the stroke (stroke) of the hydraulic jack 20 (if large), the hydraulic jack 20 already installed after the screw jack 71 is installed. After removing the fall prevention tool 40, the auxiliary support 70 (mainly shaped steel) is installed in the place where the hydraulic jack 20 is installed, and the hydraulic jack 20 and the fall prevention tool 40 are installed on the upper part thereof. Like the grooves formed in the seating portion 11 of the lower support 10, the formed steel is installed in the lower portion of the hydraulic jack 20 to be installed again, a hole (hole) is formed by using the hole to prevent the fall prevention hole 40 ) To be installed, and then to match the fixing hole and the hole of the fall prevention tool 40, fastening the locking member to install the fall prevention tool 40 safely.

And the reinforcing bar and formwork installation step (S6), as shown in Figure 9 and Figure 11, to remove the impression guide 50 in the raised state, reinforcement between the reinforcement 103 in the vertical direction facing each other Reinforcing bars 80, and reinforce the strip reinforcement 81 in the horizontal direction, for reference, the reinforcement (80) (103) joint is reinforced according to the strength design, the reinforcement (80) (103) , Butt welded, molten joint, joint line joint, weld joint joint, rebar coupler joint, etc., the reinforcing bars (80) and (103) joints in the vertical direction use the rebar coupler (90) joint method. It is preferable to apply the general ties line joining method (81).

And after the joints and reinforcement of the reinforcing rods 80 and 103, the prepared form 60 is wrapped around the pillar 101 to be installed in close contact with the cut portion of the pillar 101, and further, the bottom portion of the form 60 is additionally provided. Fix it with a pin to install the formwork 60 stably.

The formwork 60 is for placing and curing concrete 70 in a space in which the pillars 101 are cut and raised as shown in FIG. 11. Referring to the structure of the formwork 60, the formwork 60 is easy to work with. ) Is configured to surround the cross section of the pillar 101, the formwork 60 is also preferably configured to be separated into two or so in order to facilitate the assembly, the upper end of the formwork 60 through (through) Forming a plurality of 61, the outlet 61 is composed of a main outlet (61a) and a secondary outlet (61b) of a smaller diameter than the main outlet (61a) protruding by a pipe, formwork (60) A plurality of main outlets 61a and auxiliary outlets 61b are formed at regular intervals along the upper outer circumferential surface of the upper side), and a hopper 62 is formed at the upper end of the formwork 60.

The formwork 60 having the above structure is installed to cover all the cut spaces of the pillars 101, but as shown in FIG. 11, the formwork on the pillars 101 is positioned so that the portion of the hopper 62 is upward. It is preferable to install 60 so that the position of the outlet 61 is located at the cut boundary of the upper pillar 101.

And concrete pouring and curing step (S7) is a step of pouring the concrete 70 into the cut space of the pillar 101, the concrete 70 (through the hopper 62 of the installed formwork 60 ( Mortar and aggregate) to fill the interior space of the cut column 101, while filling the space through the internal air through each outlet 61 to completely fill the interior of the space with concrete (70) To fill all of the cut and raised portions of the pillars 101 of each pier 100, if necessary, by placing the concrete (70) while giving a vibration from the outside to compact the concrete (70), After the concrete 70 is poured, it is sufficiently cured over time.

For reference, the concrete 70 to be poured in the concrete pouring and curing step S7 preferably includes a fluidizing agent, and before the concrete 70 is poured, the cut inner end surface of the column 101 is usually used. It is preferable to apply the old and new concrete adhesives, and the concrete 70 is poured using the hopper 62, but when the concrete is filled or overflowed near the auxiliary discharge port 61b by pouring concrete 70, the auxiliary discharge port 61b. If the concrete 70 is continually poured by pouring the concrete 70 back to the main outlet 61a, the pouring of the concrete 70 ends, and the concrete 70 is poured through the above process. As a result, bubble collection and an air bag are prevented, and since the air inside is easily discharged, generation of voids in the poured concrete 70 is prevented.

Finally, the demolding and finishing process (S8), after the concrete 70 is cured, removes the formwork 60 and the bridge lifting device, and after cutting the surface of the pillar 101 on which the concrete 70 is poured Is a process of arranging the surface so as to smoothly connect with the surface of the existing pillar 101, and as shown in FIG. 12, by the above-described process, the concrete that has been cast and cured in the cut and raised space of the existing pillar 101 (70) It shows the pillar 101 raised by).

In addition, if a crack occurs in the bridge pillars 101, repairs are made. When the surface of the pillars 101 of each bridge is cleaned in this way, the lifting construction for the bridge piers 100 that are constructed at once is completed.

For reference, both of the alternating bridges 200 are not applied to the above method, and as shown in FIG. 14, the space generated by the pulling of the bridge 100, that is, the lower portion of the slab 300, the alternate 200. Further reinforcement between the tops.

In the bridge lifting construction method, the bridge is drawn up safely and vertically by the bridge lifting device, during the bridge lifting process, the load applied from the top by the lower support 10 is uniformly distributed, and the lower support ( Since 10) is made of concrete, since deformation such as bending does not occur, there is a feature of safely supporting the bridge during lifting and curing of concrete 70.

In addition, the upper support 30 is securely supported on the bottom and side of the coping portion 102 of the bridge, even if raised by the hydraulic jack 20, vertically raising the coping portion 102 and the bridge upper structure, In addition, while the impression guide 50 is fixed to the cut end of the column 101, the lifting column 101 moves along the inside of the impression guide 50, so that an eccentric pressure is applied to the pulling process. Even though the vertical lifting of the column 101 is induced during the pulling process, the horizontal movement and the fall and torsion of the positions of the reinforcing bars 80 and 103 are completely prevented even after the lifting. High coupling is easy, and there is a feature that the inclination of the reinforcing bars 80 and 103 is not generated.

In addition, since the air inside the formwork 60 is discharged by the discharge port 61 while pouring the concrete 70, there is a feature to prevent the generation of voids in the concrete 70 after pouring.

1 is a front view showing a state in which the bridge lifting method of the present invention is applied to a continuous bridge.

2 is a process chart of the bridge raising method according to the present invention.

Figure 3 is a front view showing the chipping process according to the bridge lifting method of the present invention.

Figure 4 is a perspective view showing the installation of the lower support and the hydraulic jack in accordance with the present invention.

Figure 5 is a bottom perspective view showing a state in which the upper support is installed in accordance with the present invention.

Figure 6 is a front view showing a state in which the lower support, the hydraulic jack, the upper support is installed in accordance with the present invention.

7 is an assembled perspective view of the impression guide according to the present invention.

8 is a front view showing a state in which the bridge is raised in accordance with the present invention.

Figure 9 is a front view showing a state in which the reinforcing bars are reinforced, according to the present invention.

10 is a front view showing a state in which the formwork is installed in accordance with the present invention.

FIG. 11 is an enlarged view of portion A of FIG. 10; FIG.

12 is a front view showing a state of finishing the surface according to the present invention.

13 is a front view and a partially enlarged view showing a state for applying the bridge lifting method of the present invention to a simple bridge.

14 is a front view and a partially enlarged view showing a state in which the bridge raising method of the present invention is applied to a simple bridge.

15 is a front view and a partially enlarged view showing a state in which the fixing frame of the present invention is installed.

Figure 16 is a side view showing the installation state of the fixed frame of the present invention.

[Description of Code for Major Parts of Drawing]

10: lower support 20: hydraulic jack 30: upper support

40: fall prevention device 50: impression guide 60: formwork

100: pier 101: pillar 102: coping part

200: shift 300: slab

Claims (11)

A lower support 10 configured to a predetermined height; An upper support 30 for supporting a lower portion of the coping portion 102 of the bridge; In the bridge lifting device for installing the hydraulic jack 20 is installed on the lower support 10 to raise the upper support 30, The impression guide 50 is formed to enclose the pillar 101 of the bridge, and forms a plurality of working parts 51 penetrated along the side, and a plurality of fixing holes 52 penetrated at the top or the bottom thereof. Bridge lifting device including an impression guide, characterized in that provided. The method of claim 1, The lower support 10 is made of concrete, Fine seating portion 11 is formed on the upper portion of the lower support 10, Bridge lifting device comprising an impression guide, characterized in that the installation of the hydraulic jack is easy to the mounting portion. The method according to claim 1 or 2, The upper support 30 is configured to be separated into at least two, so as to be assembled on the side of the piers 100, the upper support 30, the coping part 102 to support in a horizontal form corresponding to the bottom shape It consists of a support part 31 and the bracket 32 which supports and fixes the said support part 31, The said bracket 32 is the bending part 32a wrapped around and fixed by the plate-shaped support plate 32b and the column 101. ), The impression guide 50 is configured to be separated into at least two, so as to be assembled on the side of the piers 100, a plurality of protruding assembly plate 53 is formed integrally on the opposite side, the assembly plate In the 53, a plurality of penetrating fixing holes 53a are formed, Bridge lifting device comprising an impression guide characterized in that the assembly of the impression guide and the upper support is easy. delete A bridge pulling apparatus according to claim 1 is provided; Chipping process (S1) to pry so that the reinforcement 103 is exposed to a predetermined height along the circumference of the bridge pillar 101; The lower support 10 is installed around the pillar 101 of the bridge, and the upper support 30 is installed so that the coping portion 102 is supported between the coping portion 102 and the pillar 101 of the bridge. A support step (S2) of installing a hydraulic jack (20) between the (10) and the upper support (30); A pillar cutting process (S3) for cutting the pillars 101 along the chipped center of the pillars 101; An impression guide installation step of installing the impression guide 50 to the cut pillar 101, and fixing only one of the lower end and the upper end of the impression guide 50 to the pillar 101; A bridge raising step (S5) of simultaneously supplying hydraulic pressure to the installed hydraulic jack 20 to raise the cut upper portion of the bridge; Connecting the reinforcing bars 80 and 103 of the cut portion of the pillar 101, horizontally reinforcing the strip reinforcing bars 81, and installing the formwork 60 covering the cut and raised space of the pillar 101. Reinforcing bar and formwork installation process (S6); Placing the concrete 70 into the formwork 60 and curing the concrete placing and curing process (S7); Complete with the demolding and finishing process (S8) to remove the installed formwork 60 and the device, to polish and finish the surface, Bridge raising method using a bridge lifting device, characterized in that to induce vertical lifting of the bridge. The method of claim 5, In the bridge raising step (S5), In the space generated in the process of raising the bridge is installed an auxiliary support 70 of steel plate, section steel, or screw jack, After the lifting according to the stroke of the hydraulic jack 20, the hydraulic jack 20 is removed, the auxiliary support 70 is installed in the position of the original hydraulic jack 20, and the hydraulic jack again on top of the installed auxiliary support 70 By the installation of 20, through the way to raise the bridge further, Bridge raising method using a bridge raising device, characterized in that to raise the bridge to the desired height. The method of claim 5, Fine seating portion 11 is formed on the upper portion of the lower support 10 made of concrete, In the support step (S2), the lower support 10 is provided around the pillar 101 of the bridge, and the upper support (so that the coping portion 102 is supported between the coping portion 102 and the pillar 101 of the bridge ( 30), The hydraulic jack 20 is installed between the lower support 10 and the upper support 30, but the hydraulic jack 20 in the fall prevention portion 40 fixed to the fine seating portion 11 of the upper upper support 10. The support process is installed (S2); Bridge lifting method using the bridge lifting device, characterized in that the hydraulic jack fall prevention and installation is easy. The method of claim 7, wherein The lower support 10 is further provided with a fall prevention hole 40, The fall prevention tool 40 is integrally formed with an accommodating portion 42 having a cylinder-shaped space therein above the fixing plate 41, and a trimmed portion having a predetermined width at the side of the accommodating portion 42. 42a), and the fixing plate 41 has a structure in which a plurality of penetrating fixing holes 41a are formed, In the supporting process (S2) is installed on the seating portion 11 by using the locking member, the fall prevention tool 40, the hydraulic jack 20 is installed in the fall prevention tool 40, Bridge lifting method using a bridge lifting device, characterized in that for preventing the horizontal movement and fall of the hydraulic jack by the fall prevention tool. The method according to any one of claims 5 to 7, The upper support 30 is configured to be separated into at least two, so as to be assembled on the side of the piers 100, The upper support 30 is composed of a support portion 31 for supporting in a horizontal form corresponding to the bottom shape of the coping portion 102 and a bracket 32 for supporting and fixing the support portion 31, the bracket ( 32, the plate-like support plate 32b and the bending portion 32a which is fixed to the pillar 101 at the bottom of the support plate 32b is integrally configured, The impression guide 50 is configured to be separated into at least two, so as to be assembled on the side of the piers 100, a plurality of protruding assembly plate 53 is formed integrally on the opposite side, the assembly plate In the 53, a plurality of penetrating fixing holes 53a are formed, In the supporting process (S2), the upper support 30 is assembled to the support portion 31 on the side of the pillar 101, the pillar 101, to fix the bracket 32 to the pillar 101 with a fixing member, the bracket (32) Assemble and install the support part 31 on the upper part, In the impression guide installation step (S4), the impression guide 50 is assembled at the side of the pillar 101 of the piers 100, each butt is fixed to the fixing hole (53a) of the mounting plate 53 with a fixing member Installed by Bridge lifting method using the bridge lifting device characterized in that the installation of the impression guide and the upper support is easy. The method according to any one of claims 5 to 7, Formwork 60 to be installed in the reinforcement and formwork installation step (S6), The pillar 101 of the bridge is in close contact with each other, and a plurality of main outlets 61a protruding from the pipes and a plurality of auxiliary outlets 61b penetrated along the upper portion thereof, and a hopper 62 on the top of the formwork 60. ), In the reinforcing bar and formwork installation step (S6), when the formwork 60 is installed, the outlet 61 of the formwork 60 is installed so that the position of the cut portion of the upper column 101, In the concrete pouring and curing process (S7), the concrete 70 is poured through the hopper 62, the poured concrete 70 through the auxiliary outlet (61b) A bridge raising method using a bridge raising device including an impression guide, characterized in that the auxiliary outlet (61b) is blocked when discharged, and the concrete is poured until the concrete is discharged to the main outlet (61a). delete

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