KR100650444B1 - Cantilever part construction method of bridge - Google Patents

Abstract

A construction method for a cantilever of a bridge is provided to make construction of a cantilever simply and easily and to reduce a period of construction by constructing an outer cantilever without installing a timbering or a form. A construction method for a cantilever of a bridge comprises the steps of: manufacturing a PC panel(14a) using the precasting method to be extended from an inner girder(12e), located on the inside of an outer girder(12d) where a cantilever is installed, to a cantilever(40) by arranging main reinforcement bars(36) and distribution bars to intersect each other and placing a skeleton such a truss angle, etc. and placing concrete; installing the manufactured PC panel to be projected from the inner girder to the outer girder and forming a concrete groove on the PC panel where shear reinforcement bars(32) are arranged on the outer girder; and constructing a slab(16a) by arranging reinforcement bars on the upper part of the girders and the PC panel and placing concrete in the concrete groove, and the curing together with upper concrete.

Description

Cantilever part construction method of bridge

1A and 1B are views showing an example of a cantilever part installed in a bridge;

2 is a front view showing a construction method of the cantilever unit according to the first embodiment of the present invention;

3 is a plan view of FIG.

4 is a front view showing a construction method of the cantilever unit according to the second embodiment of the present invention;

5 is a front view showing a construction method of the cantilever unit according to the third embodiment of the present invention;

6 is a front view showing a construction method of the cantilever unit according to the fourth embodiment of the present invention;

7A and 7B are front views showing the construction method of the cantilever unit according to the fifth embodiment of the present invention;

8 is a front view showing a construction method of the cantilever unit according to the sixth embodiment of the present invention;

9a and 9b is a state in which the support is fastened to the support hardware shown in FIG.

10 is a front view showing a construction method of the cantilever unit according to the seventh embodiment of the present invention;

FIG. 11 is a plan view in a state where a PC panel is installed in the girder in FIG. 10.

<Description of the symbols for the main parts of the drawings>

10: Pier 12: Girder

14: PC panel 16: slab

40, 42: cantilever section

The present invention relates to a method for constructing a cantilever portion of a bridge, and more particularly, to a method for easily constructing a cantilever portion having a beam shape fixed at one end to a protruding portion of a bridge and having a free end at the other end.

In general, in order to construct a structure such as a veranda of an apartment or a slab protrusion of a bridge, a cantilever of a beam type having a fixed end and a free end is required.

In the construction of bridges, in order to construct slabs between girders and girders or to project protrusions (outer cantilever sections) to outer girders, formwork is installed at one end and concrete is laid and cured at the installed formwork. .

As shown in Figure 1a, between both girders (12a, 12b, (12b, 12c)) and put the precast concrete panel (PC panel 14) on top of both girders In order to construct the slab 16, it is easy to construct the concrete by pouring and curing.

However, in order to construct the protrusion (cantilever portion 40) projecting to one side of the outer girders 12a and 12c, first, a cantilever bracket (cutter) made of a crossbar, a longitudinal rod, and a support bar is installed, and a plate such as plywood on the upper portion thereof. Lay the combination of the cantilever bracket and bolts, and then finish each corner to finish the formwork to finish the construction by pouring concrete.

After curing process of pour concrete, bolts are removed from cantilever bracket in the reverse order of construction process, and formwork is dismantled to remove plywood.

However, such a cantilever construction method has a problem that the installation and dismantling work of the cantilever bracket is cumbersome and inconvenient, and the construction period is long.

In addition, as shown in FIG. 1B, when the width of the bridge is wide and the pier 10 is installed adjacently to the left and right, a protrusion (cantilever portion 42) is provided between the inner girders 12c provided in the pier 10, respectively. There was a problem in that the formwork was repeatedly installed and dismantled in each of the inner girders 12c in the above-described manner in order to construct).

The present invention devised to solve the above problems can be installed cantilever portion without installing a copper bar or formwork, the main purpose to provide a cantilever portion construction method of the bridge can be easy and easy construction of the cantilever portion can reduce the construction period There is this.

Another object of the present invention is to install the cantilever part by installing the copper bar and the support hardware only on one side girders when the two piers are installed adjacent to the left and right, the construction is easy and easy, and the construction period can be reduced as well as the material It is to provide a cantilever construction method of the bridge can be reduced.

Method for constructing the cantilever portion of a bridge according to an embodiment of the present invention for achieving the above object, the process of manufacturing a PC panel in a single plate by a precasting method so as to extend from the inner girder to the protrusion of the outer girder, and And installing the PC panel so as to protrude from the inner girder to the protrusion of the outer girder and installing the slab by placing reinforcing bars on the upper part of the inner and outer girder and the upper part of the PC panel.

Hereinafter, the configuration and operation of the present invention will be described with reference to the accompanying drawings.

2 is a front view showing a construction method of the cantilever unit according to the first embodiment of the present invention, Figure 3 is a plan view of FIG.

As shown, the PC panel 14a is plated by precasting so that the cantilever portion 40 can extend from the inner girder 12e inside the outer girder 12d on which the cantilever portion 40 is installed to the cantilever portion 40. Produced by

That is, the reinforcement so as to cross the main reinforcement 36 and the reinforcement reinforcement (not shown) and the concrete is poured and cured in the state in which a skeleton (not shown) such as a truss angle is disposed on the upper portion as necessary.

At this time, the main reinforcing bar 36 is to extend to the outer cantilever portion 40 to support the weight of the upper slab (16a).

In this way, the PC panel 14a manufactured as a single plate by the precasting method is installed to protrude from the inner girder 12e to the protrusion outside the outer girder 12d, but the shear reinforcement 32 is disposed on the outer girder 12d. A concrete groove 34 is formed in the PC panel 14a of the recessed portion.

Reinforce the reinforcing bars in the upper part of the girder (12e, 12d) and the upper part of the PC panel 14a and cast concrete to construct the slab, but also cast concrete together in the concrete groove 34 to cure with the upper concrete slab Construct (16a).

In this way, the PC panel 14a is prefabricated in a single plate so as to extend to the outer cantilever portion 40, and the slab 16a is constructed so that it is not necessary to install the copper bar and formwork at the time of constructing the outer cantilever portion 40.

4 is a front view showing a construction method of the cantilever unit according to the second embodiment of the present invention.

As shown, a nut 37 with a female thread formed in the upper part of the girder 12f is embedded, and a support 33 in which a male thread is formed in the lower part of the nut 37 embedded in the girder 12f is screwed into the girder. A support stand 33 is placed in 12f.

The PC panel 14b manufactured by the precasting method is arranged horizontally to the outside of the girder 12f, and the wire 35 fixed to the girder 12f and connected to the upper part of the support 33 is connected to the PC panel 14b. ) To secure the PC panel 14b so as not to move.

Construction of the slab 16b is completed by reinforcing the reinforcing bars on the upper part of the girder 12f and the upper part of the PC panel 14b, and pouring and curing concrete.

The support 33 is then separated from the girder 12f and the wire 35 from the girder 12f and the PC panel 14b.

In this way, the PC panel 14b is installed by using the support base 33, and the slab 16b is installed on the upper portion thereof, thereby eliminating the need for installing copper bars and formwork.

5 is a front view showing a construction method of the cantilever unit according to the third embodiment of the present invention.

As shown, the two girders (12f, 12g) installed on the upper left and right adjacent piers are installed across the horizontal support beam 38 (horizontal beams) bent at the letter A, the PC produced in a precast method The panel 14c is installed in the upper part of the one side girder 12f and the upper part of the horizontal support beam 38. As shown in FIG.

Construction of the slab 16c on one side girder 12f or both side girders 12f, 12g of the piers by reinforcing the reinforcing bars in the upper part of the one side girder 12f and the upper part of the PC panel 14c, and casting and curing the concrete. Is complete.

Next, the horizontal support 38 is dismantled from both girders 12f and 12g.

In this way, the PC panel 14c is installed using the horizontal support 38, and the slab 16c is installed on the upper portion thereof, thereby eliminating the need for installing the copper bars and the formwork.

6 is a front view showing a construction method of the cantilever unit according to the fourth embodiment of the present invention.

FIG. 6 and FIG. 7 to be described later show that the construction of the PC panel and the slab is completed on one side (left side as seen in the figure) girder according to the first, second and third embodiments of the present invention, and the other side (as seen in the figure) Right) It is a figure which shows the method of constructing a PC panel and a slab in a girder.

As shown in FIG. 6, in the state where the construction of the PC panel 14d and the slab 16d is completed on one side girder 12h among the two girders 12h and 12i provided on the upper and the adjacent piers, the slab is completed. A fixing member 50, such as an anchor, is installed on the side of 16d in advance to fix the L-shaped angle 52, and the pre-casting method is provided on the base of the L-shaped angle 52 and the other side girder 12i. The manufactured PC panel 14e is installed.

Construction of the slab 16e on the other side girder 12i of the piers is completed by reinforcing the reinforcing bars in the upper portion of the other side girder 12i and the upper portion of the PC panel 14e, and pouring and curing concrete.

In this way, by using the cantilever portion and the L-shaped angle 52 provided on one side girder 12h, the PC panel 14e and the slab 16e are installed on the other side girders 12i provided on the left and right adjacent piers. There is no need to install the formwork.

7A and 7B are front views illustrating a construction method of the cantilever unit according to the fifth embodiment of the present invention.

As shown in FIG. 7A, the connection hardware 56 having the hook 56a formed at the end thereof is vertically bent, and the concrete is cast to be bent vertically along the connection hardware 56 to precast. Produce a PC panel (14g), so that the locking ring 56a protrudes to the upper portion of the PC panel (14g).

Anchors, etc., on the upper surface of the slab 16f in a state in which the construction of the PC panel 14f and the slab 16f is completed on one side girders 12j among the two girders 12j and 12k provided on the upper sides of the adjacent piers. The fixing member 50 is installed to fix the angle 54 at which the fixing hole 54a and the connecting hardware hole 54b are formed.

The PC panel 14g is inserted into the connecting hardware hole 54b of the angle 54 by engaging the locking ring 56a formed to protrude from the PC panel 14g while the PC panel 14g is placed on the other girder 12k. Fix it so that it does not move.

Construction of the slab 16g on the other side girder 12k of the piers is completed by reinforcing the reinforcing bars in the upper portion of the other side girder 12k and the upper portion of the PC panel 14g, and pouring and curing concrete.

The upper part of the hook ring 56a protruding from the upper part is cut or used later for the middle squad.

In this way, the PC panel 14g and the slab 16g are mounted on the other side girders 12k provided on the left and right adjacent piers by using the cantilever portion, the angle 54, and the connecting hardware 56 provided on the one side girders 12j. Construction eliminates the need to install clubs and formwork.

FIG. 7B shows that the PC panel 14i is manufactured by placing concrete only on the connecting hardware 56 in the horizontal portion, without placing concrete vertically bent along the connecting hardware in the PC panel manufacturing process of FIG. 7A. Since it is different from 7a and the other process is the same, description is abbreviate | omitted here.

8 is a front view showing a construction method of the cantilever unit according to the sixth embodiment of the present invention.

In the construction method of the cantilever portion 42 according to the embodiment of the present invention, as shown in FIG. 8, one side (in the drawing) of both girders 12n and 12o installed on the upper side of the piers adjacent to the left and right using a trolley first. Left) One end of the copper wheel 22 is installed and fixed to the girder 12n, and the support bar is spaced apart from the left girder 12n at the other end of the copper bar 22 in a state in which the copper bar 22 is inclined toward the outer upper part. Install and fix (20).

At this time, the copper bar 22 is provided with a turnbuckle (23) which is a means for adjusting the length so that the horizontal or inclination of the support hardware 20 can be adjusted.

The support 24 is fastened to the upper portion of the support hardware 20 by fastening the support 24 in the longitudinal direction to the center of the support hardware 20 supported by the copper bar 22.

A PC panel 14h for placing concrete is installed on the upper side between the left girder 12n and the supporting hardware 20.

The PC panel 14h is prefabricated by reinforcing the main reinforcing bars and the reinforcing bars to cross, placing and curing concrete.

After reinforcing the rebar in the upper part of the left girder 12n and the upper part of the PC panel 14h, the concrete is poured and cured to complete the construction of the left slab 16h.

At this time, in order to easily detach the support 24 from the left slab (16h) it is preferable to pour concrete in a state in which the peeling member 28, such as styrofoam.

Fixing L-shaped steel 26 is installed on the support 24 on which the left slab 16h is constructed, and is fixed to the support 24 by the fastening member 27 in a state of being pressed onto the upper side of the left slab 16h. .

As a result, the supporting hardware 20 is firmly supported by the left slab 16h so that the copper bar 22 may be dismantled, so that the copper bar 22 is dismantled from the left girders 12n and the supporting hardware 20.

Next, to install the right slab 16i, a PC panel 14i for placing concrete is installed on the upper part between the right girder 12o and the supporting hardware 20.

Construction of the right slab 16i is completed by reinforcing the reinforcing bars on the upper part of the right girder 12o and the upper part of the PC panel 14i.

In this case, in order to easily detach the support 24 from the right slab 16i, it is preferable to cast concrete in a state where a peeling member 28 such as styrofoam is attached.

When the construction of the right slab 16i is completed, the fastening member 27 is released to separate the fixed L-shaped steel 26 from the support 24.

Finally, the support 24 is separated from the support 20, and the support 20 is separated from the PC panels 14h and 14i.

A string is connected to the support hardware 20 in advance so that the support hardware 20 can be removed from the support 24 and recovered at the same time.

Thus, by installing the copper bar 22 and the support hardware 20 in the left girders (12n), not only the left slab (16h) but also the right slab (16i) can be installed, the construction is easy and the construction period can be shortened. .

9A and 9B are state diagrams in which the support is fastened to the support hardware shown in FIG. 8.

As shown in FIG. 6A, an L-curved fastening ring 25a is formed at the lower portion of the support 24a in the longitudinal direction of the bridge (in the longitudinal direction), and the L-shaped bending is also performed in the longitudinal direction in the supporting steel 20a. Fastening groove 21a is formed.

The support ring 20a is inserted into the fastening groove 21a of the support piece 20a at the upper part of the support piece 20a while the support piece 20a is fixed to the support piece 20a. When the 24a) is pushed in the direction of the bridge, the bent portion of the fastening ring 25a is fastened without being caught by the supporting hardware 20a.

On the contrary, when the support 24a is separated from the support hardware 20a, the support 24a is easily removed from the support hardware 20a by pushing the support 24a in a direction opposite to the progress of the bridge and lifting the upper support 24a.

As shown in Fig. 9B, a fastening ring 25b bent in an L-shape at right angles (in the transverse direction) to the progress of the bridge is formed in the lower portion of the support 24b, and the support steel 20b is formed in the transverse direction L. The fastening groove 21b bent by a ruler is formed.

The support ring 20b is inserted into the fastening groove 21b of the support hardware 20b at the top of the support hardware 20b in the state in which the support hardware 20b is fixed so as not to move. When 24b) is pushed in the direction of the bridge, the bent portion of the fastening ring 25b is fastened without being caught by the supporting hardware 20b.

On the contrary, when the support 24b is separated from the support hardware 20b, the support 24b is easily removed from the support hardware 20b by pushing the support 24b in a direction opposite to the progress of the bridge and lifting the upper support 24b.

FIG. 10 is a front view illustrating a construction method of the cantilever unit according to the seventh embodiment of the present invention, and FIG. 11 is a plan view of a PC panel installed in the girder in FIG. 10.

As shown, the PC panels 14j and 14k of the two girders 12p and 12q installed on the upper and the adjacent side of the piers are manufactured by precasting, respectively, and bolted to each PC panel 14j and 14k. The angle 58 is fastened with the fastening member 30, such as a nut, to connect the PC panels 14j and 14k to each other.

PC panels 14j and 14k connected to each other by angles 58 are installed on the upper portions of both girders 12p and 12q.

Construction of the slabs 16j and 16k is completed on both girders 12p and 12q by placing reinforcing bars on the upper portions of both girders 12p and 12q and the upper part of the PC panels 14j and 14k, and casting and curing the concrete.

Finally, the angle 58 connecting the PC panels 14j and 14k to each other is cut.

In this way, the PC panels 14j and 14k are connected to each other by an angle 58, and the PC panels 14j and 14k are installed in both girders 12p and 12q provided in adjacent piers on the left and right sides so that the slabs 16j and 14k are installed. By constructing at the same time, it is not necessary to install clubs and formwork, and the construction period can be shortened.

Embodiments of the present invention are disclosed in the drawings and the detailed description, and the specific terms used above are used only for the purpose of describing the present invention, and are used to limit the scope of the present invention as defined in the meaning or claims. It is not.

Therefore, those skilled in the art can be various modifications and other equivalent embodiments from this, and the true technical protection scope of the present invention should be determined by the technical spirit of the claims.

As described below, according to the present invention, since the outer cantilever portion can be constructed without installing the copper bar or the formwork, the construction of the cantilever portion is simple, easy, and the construction period can be reduced.

In addition, when both piers are installed to the left and right adjacent to each other, the cantilever part can be installed by installing the copper bar and the supporting hardware only on one side girder, so the construction is simple and easy, and the construction period can be shortened, and the material can be saved. .

Claims (14)

Manufacturing a PC panel in a single plate by a precasting method so as to extend from the inner girder to the protrusion of the outer girder; Installing the PC panel to protrude from the inner girder to the protrusion of the outer girder; And Method of constructing the cantilevered portion of the bridge including the step of laying the slab by reinforcing the reinforcing bar on the upper part of the inner and outer girder and the upper part of the PC panel. The method of claim 1, The method of constructing the cantilever portion of a bridge, characterized in that in the process of manufacturing the PC panel to extend the cast iron reinforcement in the transverse direction to the protrusion of the outer girder to support the load of the upper slab. The method of claim 1, Method for constructing the cantilevered part of the bridge, characterized in that when forming a concrete groove in the PC panel of the part having a shear reinforcement on the outer girder to pour the concrete when placing the slab. Embedding a nut having a female thread on an upper part of the girder, and screwing a support having a male thread on the lower part of the girder to install a support on the girder; Installing a PC panel manufactured by a precasting method to the outside of the girder, and fixing the wires fixed to the girder and connected to the upper part of the support to the end of the PC panel so as not to move the PC panel; Reinforcing the reinforcing bar on the upper part of the girder and the upper part of the PC panel, and pouring the concrete to construct the slab; And The cantilever portion construction method comprising the step of separating the support from the girder and the wire from the PC panel and the slab. Installing both girders on horizontal girders, both ends of which are bent by the letter “a”, on both girders installed on the upper sides of adjacent piers; Installing a PC panel manufactured by a precasting method on an upper portion of one side girder and an upper portion of a horizontal support beam; Reinforcing the reinforcing bar on the upper part of the one side girder and the upper part of the PC panel, and placing the slab on one side girder or both side girders by pouring concrete; And Method of constructing a cantilever portion of a bridge comprising the step of dismantling the horizontal support beams from both girders. Constructing a cantilever part on one side girder by any one of claims 1, 4, and 5; Fixing an L-shaped angle by driving a fixing member such as an anchor on a side surface of the slab constructed on the one side girder; Installing a PC panel manufactured by a precasting method on the base of the L-shaped angle and on the other side of the girder; And Reinforcing the reinforcing bar on the upper part of the other girder and the upper part of the PC panel, and placing the concrete to install the slab on the other girder. Constructing a cantilever part on one side girder by any one of claims 1, 4, and 5; A step of manufacturing a PC panel by a precasting method to install the connection hardware in which the hook is formed at the end so as to be bent vertically and cast concrete to expose the hook; Fixing an angle formed with a fixing hole and a connecting hardware hole by driving a fixing member such as an anchor on an upper surface of the slab constructed on the one side girder; Fixing the PC panel so that the PC panel is not moved by inserting the hook of the PC panel into the connection hardware hole of the angle while the PC panel is placed on the other girder; And Reinforcing the reinforcing bar on the upper part of the other girder and the upper part of the PC panel, and placing the concrete to install the slab on the other girder. The method of claim 7, wherein In the manufacturing process of the PC panel, the cantilever portion construction method of the bridge, characterized in that the concrete is poured to be bent vertically along the connecting hardware. Installing a plurality of clubs on one side of the girders to the upper side by using a trolley and installing a supporting hardware on the top of the clubs; Fastening the support in the longitudinal direction to a central upper portion of the support hardware to place the support on the support hardware; Installing a PC panel manufactured by a precasting method on an upper side between the one side girder and the supporting hardware; Constructing one side slab by placing concrete after placing reinforcing bars on the upper side of the girder and the upper part of the PC panel; Fixing the fixing L-shaped steel to a support in a state of being pressed onto the upper portion of the one side slab; Dismantling the copper barley from the one side girder and the supporting hardware using a trolley; Installing a PC panel fabricated by a precasting method on an upper side between the other side girder and the supporting hardware facing the one side girder; Reinforcing the reinforcing bar on the upper part of the other girder and the upper part of the PC panel, and then placing concrete to construct the other side slab; Separating the fixed L-shaped steel from the support; And The cantilever portion construction method of the bridge comprising the step of separating the support from the support hardware and recovering the support hardware. The method of claim 9, The cantilevered portion construction method of the bridge, characterized in that it comprises a turnbuckle capable of adjusting the length of the copper bar. The method of claim 9, The method of constructing the cantilevered bridge of the bridge, characterized in that the concrete is poured after the styrofoam on the support in the process of installing the slab. The method of claim 9, In the process of fastening the support to the support hardware, L-shaped bent ring in the longitudinal direction is formed in the lower portion of the support and L-shaped bent in the longitudinal direction is formed in the support hardware, the upper portion of the support Method of constructing the cantilevered portion of the bridge, characterized in that the support ring is fastened to the support hardware by inserting the fastening ring of the support bottom into the fastening groove of the support hardware in the longitudinal direction. The method of claim 9, In the process of fastening the support to the support hardware, a fastening ring having an L-shape bent in the transverse direction is formed at the bottom of the support and a fastening groove having a L-shape bent in the transverse direction is formed in the support hardware, Method of constructing the cantilevered portion of the bridge, characterized in that the support ring is fastened to the support hardware by inserting the fastening ring of the support bottom into the fastening groove of the support hardware in the longitudinal direction. Connecting the PC panels to each other by fastening angles with fastening members such as bolts and nuts to each PC panel manufactured by the precasting method; Installing PC panels connected to each other at an angle on top of both girders; Reinforcing the reinforcing bar on the upper part of the girder and the upper part of the PC panel, and placing the slab on both girder at the same time by pouring concrete; Method for constructing a cantilever portion of a bridge comprising a step of cutting an angle connecting the PC panels to each other.

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