KR102451807B1 - Cantilever frame unit for concrete pouring and expansion and repair method using of the same - Google Patents

Abstract

The present invention provides a cantilever frame unit for concrete deposition, which is installed on a structure on which supporting post work cannot be performed in a cantilever manner to deposit concrete in an expansion area without installing supporting posts and quickly perform expansion and repair construction, and an expansion and repair construction method of a structure using the same. According to a proper embodiment of the present invention, the cantilever frame unit for concrete deposition comprises: a horizontal frame installed in an upper portion of the structure and considering expansion to be positioned such that a prescribed section thereof protrudes from the structure; a plurality of vertical frames rotatably hinge-coupled to a lower portion of the front end of the horizontal frame to be arranged outside an expansion area; a plurality of working hydraulic cylinders wherein one end thereof is connected to an upper portion of the front end of the horizontal frame and the other end thereof is connected to the upper end of the vertical frames to rotate the vertical frames in accordance with a stretching operation; a lower steel form supported by and installed in a lower portion of the vertical frames to be positioned on the bottom side of the expansion area to form a concrete expansion part constructed in the expansion area; a lower workbench supported by and installed in a lower portion of the vertical frames to be positioned outside the expansion area; and an upper workbench arranged in an upper portion of the lower workbench to be supported by the vertical frames.

Description

Cantilever frame unit for concrete pouring and expansion and repair construction method of a structure using the same

The present invention relates to a cantilever frame unit for pouring concrete used for expansion and repair of structures. In particular, it is installed in a cantilever method in a structure that cannot be moved, so that concrete pouring is possible in the expansion area, and expansion and repair construction are possible. It relates to a cantilever frame unit for pouring concrete that allows for rapid progress, and a method for expanding and repairing a structure using the same.

In general, when constructing a concrete structure, the concrete is poured after the formwork is installed. At this time, the work of moving the formwork is added as needed. The copper bar is installed to support the fixed load and the construction load until the poured concrete acquires a predetermined strength. In this way, the copper bar is installed as a temporary member to support the load of the structure. However, when the expansion and repair of the quay wall structure is required among the port facilities, the lower part of the expanded part becomes the seawater part, making it impossible to carry out the work, which makes it difficult to expand and repair the structure. Of course, this situation also applies to the expansion and repair of bridge structures. Therefore, there is a need for equipment for pouring concrete that can be applied to the expansion and repair of quay wall structures, the expansion and repair of bridge structures, and cantilever structures that cannot be operated in port facilities.

As the background technology of the present invention, as Korean Patent Registration No. 10-0931758 (Patent Document 1), 'replacement/extension structure of a bridge superstructure using an existing pier and a method of constructing it' are proposed. . This is to secure space for the upper structure and improve the space utilization by using the existing substructure, and to smoothly guide the traffic flow even during the construction of the upper structure. However, in the background art, many auxiliary materials such as temporary girder, upper chord, saber, bracing, lower chord, vertical member, and support member for fixing the pier must be fixed to the pier to support the pier, so it is necessary to construct the temporary construction with the need of many subsidiary materials. And there is a problem that takes a lot of time for demolition.

Korean Patent Registration No. 10-0931758

The present invention is a cantilever frame unit for concrete pouring that is installed in a cantilever-type structure in a structure that cannot work on a bridge, so that concrete can be poured in an extended area without installation of a bridge, and can expedite expansion and repair construction, and expansion of a structure using the same And it aims to provide a repair construction method.

A cantilever frame unit for pouring concrete according to a preferred embodiment of the present invention comprises: a horizontal frame installed on the upper part of the structure and positioned so that a certain section protrudes from the structure in consideration of expansion; a plurality of vertical frames rotatably hinged to the lower portion of the front end of the horizontal frame and disposed outside the expansion area; a plurality of working hydraulic cylinders having one end connected to the upper end of the front end of the horizontal frame and the other end connected to the upper end of the vertical frame to rotate the vertical frame according to the expansion and contraction operation; a lower steel form for forming a concrete extension part which is installed in the lower part of the vertical frame and is located on the bottom side of the extension area to be built in the extension area; a lower workbench supported by the lower portion of the vertical frame and positioned outside the extension area; and an upper workbench disposed on the lower workbench and supported by the vertical frame;
The horizontal frame is an assembly in which a plurality of cantilever frame modules are installed side by side, and the cantilever frame module includes: a pair of lower steel beams fixed to the structure in parallel with anchor bolts; a pair of cantilever supports installed on the upper surface of the lower steel beam and having a hinge coupling bracket at the lower front end portion and a hydraulic cylinder connection bracket at the front end upper portion; a pair of upper steel beams installed on the upper surface of the pair of cantilever supports and arranged in parallel with the lower steel beams;
The vertical frame is connected to the hydraulic cylinder for the work, and a vertical stand rotatable about the hinge axis of the horizontal frame; a lower pedestal connected to the lower part of the vertical stand in a horizontal state; an auxiliary vertical beam for handrails arranged in parallel with the vertical beam and vertically connected to the lower support; In order to reinforce the lower support, one end is connected to the lower end of the vertical bar and the other end is a lower reinforcing yarn each connected to both ends of the lower support.

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In addition, the auxiliary vertical stand for the handrail is characterized in that a fall arrester is further installed to prevent the worker from falling.

On the other hand, the method for expanding and repairing a structure using the cantilever frame unit for pouring concrete according to the present invention comprises the steps of fixing and installing a horizontal frame on the top of the structure on the side of the cantilever frame unit for pouring concrete through an anchor bolt; ; By extending the hydraulic cylinder for work, the vertical frame hinged to the horizontal frame is placed in the vertical direction so that the lower steel form is located at the bottom of the extension area, and at the same time, the lower workbench is located at the front of the lower side of the extension area and the upper workbench is in the front of the extension area. to be positioned on the upper side; performing reinforcement work necessary for the expansion area on the lower steel form; Constructing a concrete extension by pouring and curing concrete in the upper extension area of the lower steel foam; The step of retracting the hydraulic cylinder for work to rotate the vertical frame hinged to the horizontal frame upward so that the lower steel form is separated from the lower part of the expanded area, and then dismantling the cantilever frame unit for pouring concrete; characterized in that it includes; .

According to the cantilever frame unit for concrete pouring of the present invention and the method for expanding and repairing a structure using the same, after the horizontal frame is fixed to the structure and installed, the hydraulic cylinder for work is operated so that the vertical frame has a vertical posture, so that the worker's work path and lower steel foam are provided, so it can shorten the construction period for expansion and repair through rapid reinforcement and pouring concrete. In addition, since the lower steel foam is supported on the horizontal frame, there is no need for a separate moving work. In addition, the members of the cantilever frame unit for pouring concrete are not assembled on site, but are already assembled and installed in the form of a cantilever, so that they can be expanded and repaired immediately.

Therefore, it can be usefully applied to the expansion and repair of quay wall structures among port facilities, the expansion and repair of bridge structures, and cantilever structures that cannot be moved.

The following drawings attached to this specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings It should not be construed as being limited.
1 is a perspective view of a cantilever frame unit for pouring concrete according to an embodiment of the present invention;
Figure 2 is a perspective view of the horizontal frame shown in Figure 1;
FIG. 3A is a state diagram of the cantilever frame unit for pouring concrete shown in FIG. 1 in use; FIG.
Figure 3b is an upward rotation state of the vertical frame in the cantilever frame unit for pouring concrete of Figure 3a.
Figure 4 is an exemplary view showing a part of the quay wall structure in the port facility.
5 is a perspective view of the cantilever frame unit for pouring concrete of this embodiment installed on the quay wall structure of FIG. 4;
FIG. 6 is a state diagram of demolding the vertical frame after installing the cantilever frame unit for pouring concrete of FIG. 5 and constructing a concrete extension part; FIG.
7 is a view showing a state in which the concrete extension part is constructed on the quay wall structure after the cantilever frame unit for pouring concrete of FIG. 6 is removed.

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

The cantilever frame unit 10 according to the present invention is installed for expansion and repair of the structure 100 as shown in FIGS. 1 to 3 . In particular, the cantilever frame unit 10 is used for the expansion and repair of the quay wall structure among the port facilities illustrated in FIG. 4, or can be used to install a cantilever structure in which the expansion and repair of the bridge structure and the operation of the bridge are impossible. .

1 to 3, the cantilever frame unit 10 includes a horizontal frame 12 installed on the upper portion of the structure 100, and a vertical frame 14 rotatably hinged to the front end of the horizontal frame 12. ), a hydraulic cylinder 16 for work for demolding of the lower steel form 18 along with induction of the vertical posture of the vertical frame 14, the lower steel form 18 installed in the vertical frame 14 to receive the poured concrete, It includes a lower workbench 20 and an upper workbench 22 that are installed on the vertical frame 14 to be used for the operator's passage and transport of auxiliary materials.

The horizontal frame 12 is located on the upper part of the structure 100 and is installed so that a certain section S protrudes from the structure 100 in consideration of the expansion construction. The horizontal frame 12 may be constructed as an assembly in which a plurality of cantilever frame modules 120 are installed side by side.

The cantilever frame module 120 is a pair of lower steel beams 121 fixed and installed side by side with an anchor bolt 102 to the structure 100, as shown in FIG. A pair of cantilever supports 122 having a hinge coupling bracket 122a at the lower part of the front end and a hydraulic cylinder connection bracket 122b at the upper front end part, and a pair of cantilever supports 122 on the upper surface of the It is installed and consists of a pair of upper steel beams 123 arranged in parallel with the lower steel beams 121.

The vertical frame 14 is rotatably hinged to the lower portion of the front end of the horizontal frame 12 to be disposed outside the extension area, and a plurality of or more are installed as shown in FIG. 1 .

The vertical frame 14 is connected to the hydraulic cylinder 16 for work and is in a horizontal state at the lower portion of the vertical stand 141 and the vertical stand 141 that is connected to the horizontal frame 12 and rotates around the hinge axis 12a of the horizontal frame 12 . The lower pedestal 142 that is connected, and the auxiliary vertical pole 143 for handrails that are arranged in parallel with the vertical pole 141 and are connected vertically to the lower pedestal, and one end to reinforce the lower pedestal 142 It includes a lower reinforcing yarn material 144 connected to the lower end of the vertical stand 141 and the other end is connected to both ends of the lower support 142, respectively.

Here, the auxiliary vertical stand 143 for the handrail may be provided with a fall arrester 145 to prevent a worker from falling. The fall arrester 145 is horizontally disposed on the auxiliary vertical stand 143 for the handrail and may be installed in the height direction. At this time, as shown in FIG. 3b , the fall arrester 145 is preferably installed to a higher position than the upper workbench 22 to prevent a fall of a worker working on the upper workbench 22 . Therefore, the operator can safely move without falling from the lower workbench 20 and the upper workbench 22 by the fall arrester 145 .

The hydraulic cylinder 16 for work is installed with one end connected to the upper end of the front end of the horizontal frame 12 and the other end connected to the upper end of the vertical frame 14 . Therefore, the vertical frame 14 is rotated upward or downward according to the operation direction of the hydraulic cylinder 16 for work. That is, when the hydraulic cylinder 16 for work in FIG. 3 moves forward, the lower steel form 18 is located in the lower part of the expansion area E by rotating the vertical frame 14 downward and standing vertically. At the same time, the lower workbench 20 is positioned at the lower front of the extended area E, and the upper workbench 22 is positioned at the front upper side of the extended area E. Therefore, it is possible to secure the movement of the worker and the work path by using the lower workbench 20 and the upper workbench 22 .

The lower steel foam 18 is for forming the concrete expansion 110 to be built in the expansion area (E). The lower steel form 18 is supported and installed on the lower part of the vertical frame 14 and is located on the bottom side of the expansion area (E). The lower steel form 18 serves as a lower formwork necessary for constructing the concrete expansion part 110 , thereby eliminating the need for a separate lower formwork installation. In addition, the lower steel foam 18 is supported on the lower support 142 of the vertical frame 14, so that a separate installation of the copper bar is unnecessary.

The lower workbench 20 is supported and installed on the lower portion of the vertical frame 14 and is located on the lower front side of the extended area E. The upper workbench 22 is installed on the upper workbench 20 and supported by the vertical frame 14 . Therefore, the upper worktable 22 is located on the front upper side of the extended area (E). Here, the lower workbench 20 and the upper workbench 22 are used not only as a worker's work movement path but also as a transport path for various materials.

Unexplained code '101' is a 'pile' supporting the 'structure 100'.

A method of additionally constructing the concrete expansion unit 110 during expansion and repair of the quay wall structure 100 among port facilities by using the cantilever frame unit 10 for pouring concrete configured as described above will be described.

First, as shown in FIG. 4 , the horizontal frame 12 on the side of the cantilever frame unit 10 for pouring concrete of FIG. 5 is fixedly installed on the upper part of the structure 100 . The horizontal frame 12 is fixedly installed on the top of the structure 100 through the anchor bolt 102 .

Then, as shown in Fig. 3a, by operating the hydraulic cylinder 16 for work, the vertical frame 14 hinged to the horizontal frame 12 is rotated and positioned so as to be vertical. Therefore, the vertical frame 14 is located in front of the extension area (E), the lower steel form 18 is located in the lower part of the extension area (E), and the lower workbench 20 is located in front of the extension area (E). Located at the lower side, the upper worktable 22 is located at the front upper side of the extended area (E).

Then, the reinforcement work necessary for the extension area (E) over the lower steel form 18 is performed. Of course, a connection operation for integrating the concrete extension 110 into the structure 100 is also performed. This operation is made not only on the lower steel form 18 , but also on the lower workbench 20 and the upper workbench 22 .

Next, after installing additional front and side formwork (not shown) around the lower steel form 18, concrete expansion 110 in FIG. 7 by pouring and curing concrete in the expansion area E as shown in FIG. 6 construction will be carried out.

Thereafter, after removing the front and side formwork, the hydraulic cylinder 16 for work is operated to rotate the vertical frame 14 hinged to the horizontal frame 12 upward so that the lower steel form 18 is the lower part of the expansion area (E). After the separation of the cantilever frame unit 10 for concrete pouring by loosening the anchor fixing of the horizontal frame 12, it is easy to remove.

As described above, when the cantilever frame unit 10 for pouring concrete is used, the lower steel form 18 is installed, so that not only the quay wall structure but also the bridge structure and other cantilever structures in the port facility are not able to work on the cantilever without the installation of the supporting bar. can be easily constructed. In addition, since the vertical frame 14 can change its posture with a hydraulic cylinder, it is possible to easily perform demolding in the expansion process. In addition, it is possible to secure the worker's work and movement path by using the lower workbench 20 and the upper workbench 22 , and the safe work of removing the risk of a fall is secured by the fall arrester 145 .

So far, the present invention has been described in detail with reference to the presented embodiment, but those skilled in the art can make various modifications and variations of the invention without departing from the technical spirit of the present invention with reference to the presented embodiment. will be. The present invention is not limited by such variations and modifications, but only by the claims appended hereto.

10: cantilever frame unit
12: horizontal frame
14: vertical frame
16: hydraulic cylinder for work
18: lower steel form
20: lower workbench
22: upper workbench
120: cantilever frame module
145: fall prevention means

Claims (5)

In the cantilever frame unit 10 installed for expansion and repair of the structure 100,
a horizontal frame (12) installed on the upper part of the structure (100) and positioned so that a certain section (S) protrudes from the structure (100) in consideration of expansion; a plurality of vertical frames 14 rotatably hinged to the lower portion of the front end of the horizontal frame 12 and disposed outside the expansion area; A plurality of working hydraulic cylinders 16 having one end connected to the upper end of the front end of the horizontal frame 12 and the other end connected to the upper end of the vertical frame 14 to rotate the vertical frame 14 according to the expansion and contraction operation; A lower steel form 18 for forming a concrete extension 110 that is installed in the lower portion of the vertical frame 14 and is located on the bottom side of the extension area E and is built in the extension area; a lower workbench 20 supported and installed on the lower portion of the vertical frame 14 and positioned outside the extension area E; and an upper workbench 22 disposed on the lower workbench 20 and supported on the vertical frame 14;
The horizontal frame 12 is an assembly in which a plurality of cantilever frame modules 120 are installed side by side, and the cantilever frame module 120 includes:
A pair of lower steel beams 121 fixed to the structure 100 in parallel with an anchor bolt 102; A pair of cantilever supports 122 that are erected on the upper surface of the lower steel beam 121 and have a hinge coupling bracket 122a at the lower front end portion and a hydraulic cylinder connection bracket 122b at the front end upper portion; A pair of upper steel beams 123 installed on the upper surface of the pair of cantilever supports 122 and arranged in parallel with the lower steel beams 121;
The vertical frame 14,
a vertical stand 141 which is connected to the hydraulic cylinder 16 for the work and rotates about the hinge axis of the horizontal frame 12; a lower support 142 horizontally connected to the lower portion of the vertical stand 141; The auxiliary vertical stand 143 for handrails arranged in parallel with the vertical stand 141 and vertically connected to the lower pedestal; In order to reinforce the lower support 142, one end is connected to the lower end of the vertical stand 141 and the other end is a lower reinforcement yarn 144 connected to both ends of the lower support 142, respectively; Concrete comprising a; Cantilever frame unit for pouring. delete delete The method of claim 1,
A cantilever frame unit for pouring concrete, characterized in that the auxiliary vertical stand (143) for the handrail is further provided with a fall arrester (145) to prevent a worker from falling. In the method of expanding and repairing a structure 100 using the cantilever frame unit 10 for pouring concrete according to claim 1,
a step of fixing and installing a horizontal frame 12 on the side of the cantilever frame unit 10 for concrete pouring on the upper part of the structure 100 through an anchor bolt 102;
By extending the hydraulic cylinder 16 for work, the vertical frame 14 hinged to the horizontal frame 12 is placed in the vertical direction so that the lower steel form 18 is located in the lower portion of the expansion area E and at the same time the lower The work table 20 is located at the front lower side of the extended area (E) and the upper work table 22 is located at the front upper side of the extended area (E);
performing the reinforcement work necessary for the extension area (E) over the lower steel form (18);
Constructing the concrete expansion part 110 by pouring and curing concrete in the upper expansion area (E) of the lower steel foam 18;
After contracting the hydraulic cylinder 16 for work and rotating the vertical frame 14 hinged to the horizontal frame 12 upward so that the lower steel form 18 is separated from the lower part of the expansion area E, for concrete pouring Demolition of the cantilever frame unit (10); Expansion and repair construction method of a structure using a cantilever frame unit for concrete pouring, characterized in that it includes.

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