KR20100105042A - Device for supporting formwork of cantilever part of bridge and supporting structure using such device - Google Patents

Abstract

PURPOSE: A mold supporting device for a cantilever portion construction of a bridge and a mold supporting structure is provided to install a cantilever portion with a simple method without damage to a concrete girder. CONSTITUTION: A mold supporting device for a cantilever portion construction of a bridge comprises a triangular beam supporting part(10) and a fixing cap member(20). The triangular beam supporting part has a horizontal support beam(11), a perpendicular support beam(12) and a slope supporting beam(13). The triangular beam supporting part is installed in the outside of an outermost concrete girder(100). The triangular beam supporting part supports the lower-part of the mold for a cantilever. The fixing cap member is combined in one side of the triangular beam supporting part. The fixing cap member installs the triangular beam supporting part in the side of the outermost concrete girder.

Description

Device for Supporting Formwork of Cantilever Part of Bridge and Supporting Structure using such Device}

The present invention relates to a formwork supporting device and formwork supporting structure for cantilever portion construction of a bridge, specifically, when constructing the cantilever portion of the bridge bottom plate to the outside of the concrete girder disposed on the outermost side in the girder bridge, The present invention relates to a formwork supporting device and a formwork supporting structure for enabling the formwork to be firmly and easily supported.

In constructing the girder bridge using the concrete girder, the cantilever portion in which the bridge bottom plate protrudes exists outside the concrete girder disposed on the outermost side. Since the cantilever portion protrudes out of the girder, it is very difficult to construct using concrete in the field. Formwork should be installed to install cantilever parts on site concrete, and formwork supporting copper bars should be installed to install such formwork. However, since the lower part of the cantilever part is empty and is located at a high position above the ground, it is not easy to install the dongburi. Will be imported. Therefore, it is preferable to install a cantilever part formwork without using a copper bar, and thus, it is very difficult to construct a cantilever part without a copper bar.

1 and 2 are schematic views showing a conventional structure for constructing the cantilever portion outside the outermost concrete girder, respectively. 1 is a view disclosed in Patent Registration 10-727172 and FIG. 2 is a view disclosed in Utility Model Registration 20-407092.

As shown in the figure, conventionally used a method of suspending the formwork or half-section bottom plate for the construction of the cantilever portion to the concrete girder using a turnbuckle or the like. However, in the prior art of tying a floor formwork or a half-section bottom plate by using a turnbuckle as shown in FIG. 1, it is difficult to constantly adjust the tension of the turnbuckle, as well as formwork or half-section of concrete for construction of the cantilever part. When placing on the floor plate turnbuckle is an obstacle, there is a disadvantage that the construction is difficult. In particular, in the prior art shown in Figure 1, the end of the turnbuckle has a structure that is formed in the concrete girder to be fixed to the synthetic reinforcing bar to be combined with the bottom plate, so as to form the formwork, such as turnbuckles in the composite rebar When the secondary member is connected, an unintended force acts on the synthetic rebar, which causes a structurally adverse effect.

Also in the prior art using a high-information steel member such as shown in Figure 2 also has a structure for connecting the secondary member to the composite rebar.

On the other hand, although not shown in the drawings, there is a conventional technique of fixing a high information steel member to a concrete girder and suspending formwork using this high information steel member. However, in the prior art, in order to fix the high-strength steel member to the concrete girder, it is necessary to inject a bolt or the like into the upper surface of the concrete girder, so that the concrete girder may be damaged in this process as well as very cumbersome work such as bolt penetration work in the field. There is a problem that workability is greatly reduced because it must be additionally performed.

The present invention was developed in order to overcome the limitations of the prior art as described above, and an object of the present invention is to be able to easily install a formwork for constructing the cantilever part in a simple manner without damaging the concrete girder.

In particular, it is possible to install the cantilever construction formwork without installing a copper bar for supporting the formwork, thereby eliminating problems associated with copper bar installation (increasing operation cost and time, encroaching the lower space and ground space encroachment due to the copper bar installation). It aims to solve.

In addition, an object of the present invention, in the process of installing the cantilever unit construction formwork, it is intended to prevent the force acting adversely on the synthetic reinforcing bar is provided in the concrete girder to perform the synthesis action with the bottom plate.

In order to achieve the above object, in the present invention, as a formwork supporting device for supporting the formwork for constructing the cantilever portion outside the outermost concrete girder of the bridge, a horizontal support beam for supporting the lower surface of the formwork, and a vertical support beam, A triangular beam supporter having a structure in which the inclined support beam is triangular and installed outside the outermost concrete girder and supporting the lower surface of the cantilever construction formwork; And a fixed cap member coupled to one side of the triangular beam supporter and installed to cover the upper portion of the outermost concrete girder so that the triangular beam supporter is installed on the side of the outermost concrete girder. Become; The fixing cap member includes an upper surface portion in contact with an upper surface of the concrete girder, an inner side portion in contact with an upper inner side side of the concrete girder, and an outer side portion in contact with an upper outer side side of the concrete girder, the upper surface portion and an inner side And the outer side portion is installed on the top of the concrete girder in the form of surrounding both the upper surface and the upper side of the concrete girder; The inner end of the horizontal support beam of the triangular beam support is coupled to the outer side portion, the outer end of the horizontal support beam is connected to the upper end of the inclined support beam, and the inclined support beam is inclined, An outer end of the horizontal support beam is supported in contact with a lower side of the outermost concrete girder, an upper end of the vertical support beam is coupled to the outer side portion, and a lower end of the vertical support beam is located below the inclined support beam; Provided is a formwork supporting device for cantilever portion construction of a bridge, which has a structure for supporting a downward force applied to the inclined support beam.

In addition, in the present invention, as a structure for supporting the formwork by installing a formwork support in the lower portion of the formwork for the construction of the cantilever portion outside the outermost concrete girder of the bridge, the formwork support device is a horizontal support for supporting the lower surface of the formwork A triangular beam supporter having a structure in which the support beam, the vertical support beam, and the inclined support beam are triangular and installed outside the outermost concrete girder to support the lower surface of the formwork for cantilever construction; And a fixed cap member coupled to one side of the triangular beam supporter and installed in such a manner as to cover the upper portion of the outermost concrete girder so that the triangular beam supporter is installed at the side of the outermost concrete girder. Become; The fixing cap member includes an upper surface portion in contact with an upper surface of the concrete girder, an inner side portion in contact with an upper inner side side of the concrete girder, and an outer side portion in contact with an upper outer side side of the concrete girder, the upper surface portion and an inner side And the outer side portion is installed on the top of the concrete girder in the form of surrounding both the upper surface and the upper side of the concrete girder; The inner end of the horizontal support beam of the triangular beam support is coupled to the outer side portion, the outer end of the horizontal support beam is connected to the upper end of the inclined support beam, and the inclined support beam is inclined, An outer end of the horizontal support beam is supported in contact with a lower side of the outermost concrete girder, an upper end of the vertical support beam is coupled to the outer side portion, and a lower end of the vertical support beam is located below the inclined support beam; There is provided a formwork supporting structure for cantilever portion construction of a bridge, which has a structure for supporting a downward force applied to the inclined support beam.

In the present invention, as an embodiment of the means for achieving the above object, in the above configuration, the inner side portion is formed by bending one end of the upper surface portion; The outer side portion is composed of a bent bracket so that the vertical portion of the bent bracket is in contact with the upper outer side of the concrete girder, the triangular edge formed by the horizontal support beam and the vertical support beam of the triangular beam support is coupled to the vertical portion Become; The horizontal portion of the bent bracket has a structure coupled to the upper surface portion so that the position thereof is variable in the transverse direction of the concrete girder; A through hole is formed in a horizontal portion of the bent bracket, and a long hole is formed at an end portion of the upper surface portion where the horizontal portion is in contact with a lower surface thereof, and a fastening means is fastened to the through hole and the long hole; When the upper width of the girder perpendicular to the girder of the concrete girder is changed, the fastening means is fixed while the angled bending bracket is moved to the upper axial direction of the concrete girder so that the fixing cap member is aligned with the upper width of the concrete girder. There is provided a formwork supporting device and formwork supporting structure for cantilever part construction of a bridge, which has a structure covering and covering the upper portion of the concrete girder.

Also in the present invention, as another embodiment of the means for achieving the above object, in the above configuration, the inner end of the horizontal support beam is rotatably coupled to the bent bracket; An outer end of the horizontal support beam and an upper end of the inclined support beam are rotatably connected to each other; The upper end of the vertical support beam is provided with a formwork supporting device and formwork supporting structure for the cantilever portion construction of the bridge, characterized in that rotatably coupled to the bent bracket.

In another aspect of the present invention, as another embodiment of the means for achieving the above object, in the above configuration, the bent bracket is extended in the axial direction, the upper surface portion is spaced apart from the extended bent bracket Provided is a formwork supporting device and formwork supporting structure for cantilever portion construction of a bridge, characterized by having a structure coupled to a plurality.

In another aspect of the present invention, as a further embodiment of the means for achieving the above object, in the above configuration, the bent bracket is divided and cantilevered construction of the bridge, characterized in that arranged in a plurality of intervals in the axial direction Formwork support devices and formwork support structures are provided.

According to the present invention, in installing the cantilever part construction formwork, there is no need to install a copper bar on the ground for supporting the formwork, increase the work cost and time incurred when installing the copper bar, encroaching the lower space according to the installation and ground Problems such as space erosion can be prevented at the source.

Particularly, according to the present invention, there is an advantage in that damage to the concrete girder, such as by installing a bolt or the like, when installing the formwork support device for supporting the formwork for the cantilever part, is installed by covering the fixing cap member of the formwork support device. If it is enough to support the formwork, the installation is very simple and the workability is improved.

In addition, according to the present invention, since the additional member is not connected to the composite reinforcing bar which performs the composite action of the concrete girder and the bottom plate, the effect that the structurally adverse force acts on the synthetic reinforcing bar can be fundamentally prevented. Is exerted.

In addition, according to the present invention, even if the width of the concrete girder is different, the effect that can be easily installed according to the formwork supporting device is exhibited.

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

3 to 9 are schematic views showing an embodiment of a formwork support device 1 for construction of cantilever portion of a bridge according to the present invention (hereinafter, abbreviated as "formwork support apparatus") and a formwork supporting structure.

Specifically, FIG. 3 is a schematic perspective view showing a state in which the formwork supporting device 1 is installed on the outermost concrete girder 100 of the bridge, and FIG. 4 is a schematic perspective view of the state shown in FIG. Is shown. FIG. 5 shows another embodiment of the formwork supporting device 1 according to the invention in a perspective view as in FIG. 3, and FIG. 6 shows a schematic front view in the axial direction of the state shown in FIG. 3. FIG. 7 is a schematic enlarged view of a coupling portion of the triangular beam support 10 and the fixed cap member 20 in FIG. 3, and FIG. 8 is a triangular beam support 10 and the fixed cap member (FIG. A schematic enlarged view of the engaging portion 20 is shown. FIG. 9 is a schematic front view in the axial direction showing a state in which the cantilever part construction formwork 30 is installed on the formwork support device 1 in FIG. 6.

As shown in the drawings, the formwork supporting apparatus 1 according to the present invention has a structure in which the horizontal support beam 11, the vertical support beam 12, and the inclined support beam 13 form a triangle and the outermost concrete girder ( A triangular beam support unit 10 installed outside the unit 100 and supporting a lower surface of the cantilever construction die; The triangular beam supporter 10 is coupled to one side of the triangular beam supporter 10 so as to cover the upper portion of the outermost concrete girder 100 so as to cover the upper part of the outermost concrete girder 100. It is configured to include a fixed cap member 20 to be installed on the side.

Looking at the configuration of each component in more detail, the fixed cap member 20 is the upper surface portion 21 in contact with the upper surface of the concrete girder 100, and the inner and outer side surface portion (in contact with the upper side of the concrete girder 100) ( It consists of 22a, 22b, the upper surface portion 21 and the side portion (22a, 22b) is covered on the upper portion of the concrete girder 100 in the form surrounding the upper surface and both sides of the upper portion of the concrete girder 100. As shown in the figure, the inner side portion 22a in contact with the inner side of the concrete girder 100 may be formed by bending one end of the upper surface portion 21. The outer side surface portion 22b in contact with the inner side surface of the concrete girder 100 may also be integrally formed by bending the other end of the upper surface portion 21 as described above, but as described below, the upper surface portion may be formed of a separate member ( 21) and may be configured to be assembled.

Even if the upper width of the concrete girder 100 is different, the gap between the inner side portion 22a and the outer side portion 22b may be adjusted so that the fixed cap member 20 covers and covers the upper portion of the concrete girder 100 accordingly. It needs to be variable. For this purpose, the outer side surface portion 22b in contact with the upper outer side surface of the concrete girder 100 preferably has a structure assembled to the other end of the upper surface portion 21. Specifically, the outer side portion 22b is composed of a B-shaped bending bracket such that the vertical portion 221 of the B-shaped bending bracket is in contact with the upper outer side of the concrete girder 100, and the horizontal portion 222 of the B-shaped bending bracket is It may have a structure that is coupled to the upper surface portion 21 so that the position thereof in the transverse direction of the concrete girder 100 is variable. To this end, a through hole 223 is formed in the horizontal portion 222 of the B-shaped bending bracket, and a long hole 210 is formed at the end of the upper surface portion 21 in which the horizontal portion 222 is in contact with the lower surface. The fastening means 224 such as a bolt is fastened to the through hole 223 and the long hole 210. Since the long hole 210 is formed at the end of the upper surface portion 21 as described above, the angled bending bracket forming the outer side surface portion 22b is aligned with the upper width of the girder perpendicular to the girder of the concrete girder 100 in the horizontal direction (orthogonal direction). By fixing the fastening means 224 in the state moved to the fixing cap member 20 can be easily installed to surround the upper portion in accordance with the upper width of the concrete girder 100. Therefore, according to the present invention as described above, even if the width of the concrete girder 100 has an advantage that can be easily installed according to the formwork supporting device (1) accordingly.

Meanwhile, the L-shaped bending bracket constituting the outer side portion 22b may have a shape in which the L-shaped bending bracket is continuously extended in the axial direction as shown in FIG. 3, that is, the L-shaped bending bracket extends in the axial direction. The upper surface portion 21 may be coupled to a plurality of such a bent bracket extending at intervals. However, as illustrated in FIG. 6, the L-shaped bending bracket may be divided and disposed at a plurality of intervals in the axial direction. Thus, when the plurality of bent brackets are arranged in a divided form, the bent brackets may be installed in accordance with the curved sections of the bridge, and thus may be advantageous for the construction of the cantilever portion in the bridge curved sections.

Next, an embodiment configuration of the triangular beam support 10 and the combination configuration of the triangular beam support 10 and the fixed cap member 20 will be described.

The triangular beam support 10 is coupled to the outside of the fixed cap member 20 is installed outside the outermost concrete girder 100 to support the lower surface of the cantilever construction formwork.

Specifically, the triangular beam support 10 has a structure in which the horizontal support beam 11, the vertical support beam 12, and the inclined support beam 13 form a triangle, and an inner end of the horizontal support beam 11 is formed. Is rotatably coupled to the bent bracket forming the outer side portion 22b, the outer end of the horizontal support beam 11 is rotatably connected to the upper end of the inclined support beam (13). The inclined support beam 13 is disposed to be inclined so that the lower end thereof contacts the lower side of the outermost concrete girder 100 to support the outer end of the horizontal support beam 11. An upper end of the vertical support beam 12 is rotatably coupled to the bent bracket, and a lower end is rotatably coupled to a lower portion of the inclined support beam 13 to be applied to the inclined support beam 13. Support downward force.

3 and 7, the outer end of the horizontal support beam 11 and the upper end of the vertical support beam 12 may be rotatably coupled together at the same position of the bent bracket. Specifically, the rotary coupling portion 26 is integrally formed on the vertical portion 221 of the bend bracket, and the upper end of the vertical support beam 12 and the inner end of the horizontal support beam 11 are rotationally coupled. Hinge connection to the part 26 is possible to form a rotatable coupling together in the same position as above. Meanwhile, as shown in FIGS. 6 and 8, the rotary coupling part 26 is integrally attached to the bent piece 261 and the bent piece 261 as shown in FIGS. 6 and 8. ) May be detachably assembled to the bent bracket forming the outer side portion (22b).

As illustrated above, when the end of the horizontal support beam 11 and the end of the vertical support beam 12 are rotatably coupled to the bent bracket, the triangular beam according to the cross-sectional shape of the concrete girder 100 is changed accordingly. The triangular shape of the support 10 is adjusted, so that the support effect of the formwork can be exerted.

In addition, the horizontal support beam 11, the vertical support beam 12, and the inclined support beam 13 may be provided with length adjustment parts 111, 121, and 131 that can adjust their lengths, respectively. The length adjusting parts 111, 121, and 131 may be formed in the form of a known coupler, or may be made of a known cylinder member, and the like. By providing the length adjusting unit 131 as described above, it is possible to easily adjust the length of the inclined support beam 13 to easily install the formwork according to the inclination degree of the cantilever unit. In addition, by adjusting the length of the horizontal support beam (11) can be easily installed to match the increase or decrease in the size of the cantilever portion, it can easily cope with the height of the concrete girder (100) by adjusting the length of the vertical support beam (12). It becomes possible.

Formwork support device 1 according to the present invention having the configuration as described above, the edge portion where the end of the horizontal support beam 11 and the vertical support beam 12 of the triangular beam support 10, the fixed cap member 20 By being rotatably connected to one side (specifically, a bent bracket forming the outer side portion), the fixing cap member 20 is installed to cover the upper surface and the side of the concrete girder 100 to cover, The triangular beam support 10 is installed on the outer side of the outermost concrete girder 100.

As shown in FIG. 7, after the formwork 30 is installed on the horizontal support beam 11 of the triangular beam supporter 10, concrete can be poured to construct the cantilever part in the field. (1) (specifically, the triangular beam support part 10) firmly supports the formwork 30 at the lower part thereof, so that the cantilever part can be easily constructed in a stable state.

Thus, in installing the formwork supporting device 1 to support the formwork 30 for the cantilever part, in the present invention, the fixed cap member 20 is already manufactured without intruding bolts or the like into the concrete girder 100. Since it is enough to install the cover, the installation is very simple and workability is improved, there is an advantage that the damage to the concrete girder 100 itself is not applied.

In particular, since the additional member is not connected to the synthetic reinforcing bar that performs the composite action of the concrete girder and the bottom plate, it is possible to prevent the structurally adverse force acting on the synthetic rebar.

When the field production of the cantilever portion is completed, the fastening means 224 is released to separate the outer side portion 22b (the embodiment of FIG. 3) or the angled bending piece 261 (the embodiment of FIG. 6), or a triangle The beam support 10 is recovered again. That is, when the nut is dismantled from the lower surface of the horizontal portion 222 of the bent bracket forming the outer side portion 22b, the bent bracket itself or the bent piece 261 is separated. The outer side surface portion 22b or the B-shaped bending piece 261 and the triangular beam support portion 10 separated and recovered in this way can be recycled.

1 and 2 are schematic views showing a conventional structure for constructing the cantilever portion outside the outermost concrete girder, respectively.

3 is a schematic perspective view showing a formwork supporting apparatus according to the present invention installed on the outermost concrete girder of the bridge.

FIG. 4 is a schematic perspective view of the state shown in FIG. 3 viewed from below. FIG.

5 is a perspective view showing another embodiment of the formwork supporting apparatus according to the present invention as shown in FIG.

FIG. 6 is a schematic front view in the axial direction of the state shown in FIG. 3. FIG.

FIG. 7 is a schematic enlarged view of a coupling portion of the triangular beam support and the fixed cap member in FIG. 3.

FIG. 8 is a schematic enlarged view of a coupling portion of the triangular beam support and the fixed cap member in FIG. 5.

FIG. 9 is a schematic front view in the axial direction showing a state in which the formwork for cantilever construction is installed on the formwork support apparatus according to the present invention in FIG. 6.

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

1 formwork support 10 triangular beam support

20: fixed cap member 100: concrete girder

Claims (9)

As a formwork supporting device (1) for supporting formwork for constructing the cantilever portion outside the outermost concrete girder (100) of the bridge, The horizontal support beam 11, the vertical support beam 12, and the inclined support beam 13, which support the lower surface of the formwork, have a triangular structure and are installed outside the outermost concrete girder 100, and cantilever part Triangular beam support unit 10 for supporting the lower surface of the construction formwork; The triangular beam supporter 10 is coupled to one side of the triangular beam supporter 10 so as to cover the upper portion of the outermost concrete girder 100 so as to cover the upper part of the outermost concrete girder 100. It comprises a fixed cap member 20 to be installed on the side; The fixed cap member 20 has an upper surface portion 21 in contact with an upper surface of the concrete girder 100, an inner side surface portion 22a in contact with an upper inner side surface of the concrete girder 100, and the concrete girder 100. Consists of the outer side portion 22b which is in contact with the upper outer side of the upper side, the upper surface portion 21 and the inner and outer side portion (22a, 22b) surrounds both sides of the upper surface and the upper portion of the concrete girder 100 Installed on top of 100; The inner end of the horizontal support beam 11 of the triangular beam support 10 is coupled to the outer side portion 22b and the outer end of the horizontal support beam 11 is connected to the upper end of the inclined support beam 13. The inclined support beam 13 is disposed to be inclined, the lower end of which is in contact with the lower side of the outermost concrete girder 100 to support the outer end of the horizontal support beam 11, and the vertical support beam 12. ) Is coupled to the outer side portion 22b and the lower end of the vertical support beam 12 supports a downward force applied to the inclined support beam 13 below the inclined support beam 13. Formwork support device for the cantilever portion construction of the bridge characterized by having a structure. The method of claim 1, The inner side surface portion 22a is formed by bending one end of the upper surface portion 21; The outer side portion 22b is composed of a bent bracket so that the vertical portion 221 of the bent bracket is in contact with the upper outward side of the concrete girder 100, the horizontal support beam 11 of the triangular beam support 10 And a triangular edge formed by the vertical support beam 12 is coupled to the vertical portion 221; The horizontal portion 222 of the bent bracket has a structure coupled to the upper surface portion 21 so that its position is variable in the transverse direction of the concrete girder 100; The through hole 223 is formed in the horizontal portion 222 of the B-shaped bending bracket, and the long hole 210 is formed at the end of the upper surface portion 21 where the horizontal portion 222 is in contact with the lower surface thereof. Fastening means 224 are fastened to the through hole 223 and the long hole 210; When the upper width of the concrete girder 100 in the right angle in the axial direction of the girder is changed, the fastening means 224 is fixed in the state in which the angled bending bracket is moved in the perpendicular direction of the axial axis in accordance with the upper width of the concrete girder 100 to fix the cap. Formwork support device for the cantilever portion construction of the bridge, characterized in that the member 20 has a structure to cover the upper portion of the concrete girder 100 in accordance with the upper width of the concrete girder (100). The method of claim 2, An inner end of the horizontal support beam (11) is rotatably coupled to the bent bracket; An outer end of the horizontal support beam 11 and an upper end of the inclined support beam 13 are rotatably connected to each other; The upper end of the vertical support beam 12 is a formwork supporting device for the cantilever portion construction of the bridge, characterized in that rotatably coupled to the bent bracket. The method according to any one of claims 1 to 3, The B-shaped bending bracket extends long in the axial direction, The upper surface portion 21 is a formwork supporting device for the cantilever portion construction of the bridge, characterized in that it has a structure that is coupled to a plurality at intervals on the elongated bending bracket. The method according to any one of claims 1 to 3, Forming support device for the cantilever portion construction of the bridge, characterized in that the A-shaped bending bracket is divided and arranged at a plurality in intervals in the axial direction. A formwork supporting device is installed at a lower portion of a formwork for constructing a cantilever portion outside the outermost concrete girder 100 of a bridge to support the formwork, and the formwork supporter 1 supports the bottom surface of the formwork. The horizontal support beam 11, the vertical support beam 12, and the inclined support beam 13 have a triangular structure and are installed outside the outermost concrete girder 100 to form a bottom surface of the formwork for cantilever construction. A triangular beam support unit 10 for supporting; The triangular beam supporter 10 is coupled to one side of the triangular beam supporter 10 so as to cover the upper portion of the outermost concrete girder 100 so as to cover the upper part of the outermost concrete girder 100. It comprises a fixed cap member 20 to be installed on the side; The fixed cap member 20 has an upper surface portion 21 in contact with an upper surface of the concrete girder 100, an inner side surface portion 22a in contact with an upper inner side surface of the concrete girder 100, and the concrete girder 100. Consists of the outer side portion 22b which is in contact with the upper outer side of the upper side, the upper surface portion 21 and the inner and outer side portion (22a, 22b) wraps the upper surface of the concrete girder 100 and both sides of the upper form Installed on top of the girder 100; The inner end of the horizontal support beam 11 of the triangular beam support 10 is coupled to the outer side portion 22b and the outer end of the horizontal support beam 11 is connected to the upper end of the inclined support beam 13. The inclined support beam 13 is disposed to be inclined, the lower end of which is in contact with the lower side of the outermost concrete girder 100 to support the outer end of the horizontal support beam 11, and the vertical support beam 12. ) Is coupled to the outer side portion 22b and the lower end of the vertical support beam 12 supports a downward force applied to the inclined support beam 13 below the inclined support beam 13. Formwork supporting structure for the cantilever portion construction of the bridge, characterized by having a structure. The method of claim 6, The inner side surface portion 22a is formed by bending one end of the upper surface portion 21; The outer side portion 22b is composed of a bent bracket so that the vertical portion 221 of the bent bracket is in contact with the upper outward side of the concrete girder 100, the horizontal support beam 11 of the triangular beam support 10 And a triangular edge formed by the vertical support beam 12 is coupled to the vertical portion 221; The horizontal portion 222 of the bent bracket has a structure coupled to the upper surface portion 21 so that its position is variable in the transverse direction of the concrete girder 100; The through hole 223 is formed in the horizontal portion 222 of the B-shaped bending bracket, and the long hole 210 is formed at the end of the upper surface portion 21 where the horizontal portion 222 is in contact with the lower surface thereof. Fastening means 224 are fastened to the through hole 223 and the long hole 210; When the upper width of the concrete girder 100 in the right angle in the axial direction of the girder is changed, the fastening means 224 is fixed in the state in which the angled bending bracket is moved in the perpendicular direction of the axial axis in accordance with the upper width of the concrete girder 100 to fix the cap. Formwork supporting structure for the cantilever portion construction of the bridge, characterized in that the member 20 has a structure to cover the upper portion of the concrete girder 100 in accordance with the upper width of the concrete girder (100). The method of claim 7, wherein An inner end of the horizontal support beam (11) is rotatably coupled to the bent bracket; An outer end of the horizontal support beam 11 and an upper end of the inclined support beam 13 are rotatably connected to each other; The upper end of the vertical support beam 12 is a formwork supporting structure for the cantilever portion construction of the bridge, characterized in that rotatably coupled to the bent bracket. 9. The method according to any one of claims 6 to 8, The B-shaped bending bracket extends long in the axial direction, The upper surface portion 21 is a formwork supporting structure for the cantilever portion construction of the bridge, characterized in that it has a structure that is coupled to a plurality of spaced apart on the e-shaped bending bracket extending.

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