KR100402436B1 - The method for carrying out of underground structure object using a fiberglass reinforced plastics and a hydraulic jack - Google Patents

Abstract

The present invention relates to a construction method for underground structures using a composite member special panel and a hydraulic jack, and more particularly, to provide a construction method using a composite member panel and a hydraulic jack so that workers can conveniently and safely use the underground structure. Therefore, it is easy to install and dismantle the underground structure, and there is no rust. Also, it uses the formwork using the composite member panel, and the composite member panel and the hydraulic jack have the structure that can reduce the construction cost and minimize the defect work. It is about underground construction method.

The present invention, in the construction method of the underground structure is installed in the basement used in the cavity, electric wire and sewer, the foundation concrete is installed and the formwork adjusting device is installed on the upper part, the formwork adjusting device is a lower height adjustment hydraulic jack In close contact with the foundation concrete, the formwork adjusting device operates the adjusting panel to fix the horizontal hydraulic jack, the vertical hydraulic jack and the diagonal hydraulic jack to the inner width and height of the underground structure, and is integrated with the formwork adjusting device. The vertical inner stiffener, the composite member square stiffener and the inner composite panel, which are joined together, are brought into close contact with the ends of the horizontal hydraulic jack, the vertical hydraulic jack and the diagonal hydraulic jack. The lower support fixing frame is installed directly below to support the vertical inner reinforcement and the inner composite member panel. Reinforce the reinforcing bar on the side of the inner composite member panel and install the outer composite member panel as the thickness of the underground structure and install the underground structure by placing concrete and demoulding automatically. Provide underground construction method using

Description

The method for carrying out of underground structure object using a fiberglass reinforced plastics and a hydraulic jack}

The present invention relates to a construction method for underground structures using a composite member special panel and a hydraulic jack, and more particularly, to provide a construction method using a composite member panel and a hydraulic jack so that workers can conveniently and safely use the underground structure. Therefore, it is easy to install and dismantle the underground structure, and there is no rust. Also, it uses the formwork using the composite member panel, and the composite member panel and the hydraulic jack have the structure that can reduce the construction cost and minimize the defect work. It is about underground construction method.

In general, the construction method of underground structures is to work by installing or dismantling in the interior of underground structures using wood or steel.

1 is a view schematically showing a construction method for manufacturing a general underground structure, after the foundation concrete 20 is placed, the plywood formwork 22 is installed on the upper portion of the foundation concrete 20.

The plywood formwork 22 is formed in a structure that is installed in the inner and outer sides, respectively, the top is open, the inner side of the plywood formwork 22 is installed by the support bar 24 and the outside is also a support structure (general It is supported by the technical matters (not shown in the drawings).

That is, when the installation of the inner plywood formwork 22 is completed, the steel bars are processed and assembled thereafter, the outer plywood formwork is installed, and the concrete is poured to construct the underground structure 26.

In the case of constructing the underground structure with the above-described structure, there was the trouble of installing and dismantling the copper bar and the inner and outer plywood formwork, and the labor cost was excessively put into practice to perform the above work.

In addition, since the demolition work for the copper bar and the inner and outer plywood formwork is cumbersome, the construction takes a long time, in particular, when using wood to manufacture the underground structure had a problem that a lot of consumable materials are generated.

In addition, the finished underground structure has a problem that the concrete surface that is in close contact with the inner and outer plywood formwork is formed rough, the quality of the finished product of the underground structure is degraded.

The present invention has been made in order to solve the above problems, the present invention, when manufacturing the underground structure to form a system using a composite member panel and a hydraulic jack so that workers can use conveniently and safely installed on the underground structure And it is an object of the present invention to provide a method of constructing the underground structure using a composite member panel and a hydraulic jack constituting the formwork adjusting device to facilitate the dismantling operation, the height adjustment and the width adjustment for the above-mentioned underground structure.

The present invention has been made in order to achieve the above object, the present invention, in the construction method of the underground structure installed in the basement is used in the cavity, electric wire and sewer, the base concrete is poured and the formwork adjusting device is installed thereon However, the formwork adjuster is in close contact with the lower height-adjusting hydraulic jack to the foundation concrete, the formwork adjuster operates the adjustment panel to move the horizontal hydraulic jack, vertical hydraulic jack and oblique hydraulic jack to the inside of the underground structure Fixed in width and height, and the formwork adjusting device includes a vertical internal reinforcement, a composite member square reinforcement, and an inner composite member panel integrated at the ends of the horizontal hydraulic jack, the vertical hydraulic jack and the diagonal hydraulic jack. In close contact with the vertical internal reinforcement and the inner composite member panel, Supports the inner inner reinforcement and the inner composite panel, reinforces the side of the inner composite member panel, installs the outer composite member panel as the thickness of the underground structure and installs the underground structure by pouring concrete. It provides a method of underground structure construction using a composite member panel and a hydraulic jack characterized in that the demoulding automatically.

1 is a view schematically showing a construction method for manufacturing a general underground structure.

2 is a view schematically showing a construction method for manufacturing the underground structure of the present invention.

3 is an assembly conceptual view of the construction method for manufacturing the underground structure of the present invention.

Figure 4 is an exploded state diagram of the construction method for manufacturing the underground structure of the present invention.

5 is a construction flowchart of manufacturing the underground structure of the present invention.

<Brief description of symbols for the main parts of the drawings>

50: foundation concrete 52: formwork adjusting device

54 body 56 steel pipe adjustment frame

58: movable wheel 60: lower height adjustment hydraulic jack

62: horizontal hydraulic jack 64: jack fixing plate

66: vertical hydraulic jack 68: adjustment bearing support plate

70: diagonal hydraulic jack 72: the port portion support plate

74: vertical internal reinforcement 76: composite member square reinforcement

78: inner composite member panel 80: outer composite member panel

82: lower support fixing frame 84: reinforcing bars

86: underground structure

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

2 is a view schematically showing a construction method for manufacturing the underground structure of the present invention.

As can be seen in Figure 2, after pouring the foundation concrete 50, the formwork adjusting device 52 is installed in the upper part of the base concrete 50, the formwork adjusting device 52, the inner composite When the member panel 78 is coupled and the installation of the inner composite member panel 78 is completed, processing and assembling rebar on one side thereof, and then installing the outer composite member panel and the inner composite member panel 78 and the outer side Concrete is poured between the composite member panels to construct the underground structure 86.

At this time, in the formwork adjusting device 52, the underground structure 86 can be manufactured in a state in which the hydraulic jack is formed in the horizontal, vertical and oblique directions while supporting the inner composite member panel 78.

3 is an assembly conceptual view of a construction method for manufacturing the underground structure of the present invention.

As can be seen in Figure 3, the formwork adjusting device 52 is installed on top of the base concrete 50 is poured, wherein the formwork adjusting device 52 is the end of the horizontal and vertical hydraulic jack The vertical inner stiffener 74 is coupled to.

The inner composite member panel 78 is in close contact with the vertical inner reinforcement 74, the concrete is poured into the inner composite member panel 78 to produce the underground structure 86. The outer composite member panel in the drawings has been described a state of manufacturing the underground structure 86 in the omitted state.

4 is an exploded state view of the construction method for manufacturing the underground structure of the present invention, the formwork adjusting device 52 is large, the body 54, the adjustment panel (not shown in the figure), steel pipe pipe adjusting frame 56 , Movable wheel 58, lower height adjustable hydraulic jack 60, horizontal hydraulic jack 62, vertical hydraulic jack 66, diagonal hydraulic jack 70, vertical internal reinforcement 74, composite member square The reinforcing member 76, the inner composite member panel 78 and the lower support fixing frame 82 is integrally formed, the outer composite member panel 78 and the outer which is installed on the outside while maintaining a constant distance as the thickness of the concrete wall It consists of a composite member panel (80).

The formwork adjusting device 52 is an adjustment panel (control box for operating the formwork adjusting device 52 described above) and a steel pipe adjusting frame 56 are formed on the body 54, The body 54 of the lower height adjustment hydraulic jack 60 is formed in the lower portion is supported in close contact with the foundation concrete, the steel pipe pipe adjustment frame 56 is provided with a movable wheel 58 in the lower portion.

In the formwork adjusting device 52, the horizontal hydraulic jack 62 is coupled to both horizontal surfaces of the steel pipe adjusting frame 56, and the vertical hydraulic jack 66 is located at the center of the steel pipe adjusting frame 56. It is coupled, the formwork adjusting device 52 is a diagonal hydraulic jack 70 is coupled to the body 54 in an oblique direction.

The horizontal hydraulic jack 62 is provided with a jack fixing plate 64 at its end to be in close contact with the vertical internal reinforcement, and the diagonal hydraulic jack 70 is provided with a support base plate 72 at its end. It is in close contact with the winding (winding part) of the vertical internal reinforcement, the vertical hydraulic jack 66 is provided with an adjustment bearing support plate 68 at its end is in close contact with the vertical internal reinforcement.

That is, the vertical internal reinforcement 74 is in close contact with each member provided at each end of the horizontal hydraulic jack 62, the vertical hydraulic jack 66, and the diagonal hydraulic jack 70.

The vertical inner stiffener 74 has a 90 ° angle with the vertical inner stiffener on its outer side, and the composite member square stiffener 76 is in close contact, and the composite member square stiffener 76 has an inner composite member on its outer side. The panel 78 is in close contact.

The vertical inner reinforcement 74, the composite member square reinforcement 76 and the inner composite member panel 78 is fixed in a structure that is bolted or riveted, wherein a groove is formed in the inner composite member panel 78 There is also a riveting operation to the inner composite member panel 78 and the riveting surface is configured to form a plane.

The vertical inner stiffener 74 and the composite member square stiffener 76 is made of a fiber-reinforced plastic (FRP) as a composite material, while the vertical inner stiffener 74 and the composite member square stiffener 76 Uses a pipe formed in a rectangular cross-sectional structure.

The inner composite member panel 78 is used in a pair of two, the inner composite member panel 78 is formed in a substantially "b" shape and the material is made of fiber-reinforced plastic. .

That is, the vertical inner stiffener 74 and the inner composite member panel 78 are installed in the same shape, the composite member square stiffener 76 in close contact with the vertical inner stiffener 74 is a vertical inner stiffener (74) It is fixed at a 90 ° angle to the outer surface.

The formwork adjusting device 52 secures both ends of the vertical inner reinforcement 74 and the inner composite member panel 78 with the lower support fixing frame 82, wherein the inner composite member panel 78 and the lower portion thereof. The supporting frame 82 is fastened with fixing bolts.

The formwork adjusting device 52 maintains a constant interval in the state in which the inner composite member panel 78 is fixed and the outer composite member special frame 80 is installed, and the inner composite member panel 78 and the outer composite The member panel 80 is installed between the reinforcing bars and placing concrete.

The inner composite member panel 78 and the outer composite member panel 80 is difficult to manufacture, but the construction is simple and easy to install and dismantle, it is possible to shorten the air required to manufacture the underground structure 86.

5 is a construction flowchart of manufacturing the underground structure of the present invention.

First, in order to manufacture the underground structure, the foundation concrete 50 is poured and the formwork adjusting device 52 is installed on the upper portion of the foundation concrete 50.

That is, the formwork adjusting device 52 is installed on the base concrete 50 directly above the formwork adjusting device 52, the formwork adjusting device 52 is the foundation concrete 50 by using the lower height adjustment hydraulic jack 60 After fixing the upper portion of the horizontal hydraulic jack 62, vertical hydraulic jack 66 and oblique hydraulic jack 70 to adjust the size of the underground structure to be made, the horizontal hydraulic jack 62, The vertical hydraulic jack 66 and the diagonal hydraulic jack 70 integrally fix the vertical internal reinforcement 74, the composite member square reinforcement 76, and the inner composite member panel 78 to each member installed at the ends thereof. do.

Second, the vertical inner reinforcement 74 and the inner composite member panel 78 is installed and fixed to the lower support fixing frame 82 directly below it, and maintain a constant distance from the inner composite member panel 78 The outer composite member panel 80 is installed on the top of the base concrete 50 so as to.

That is, the inner composite member panel 78 and the outer composite member panel 80 is to maintain a certain distance by the thickness of the concrete so that the concrete can be placed therebetween.

Third, the inner composite member panel 78 and the outer composite member panel (80) is cured after reinforcing the reinforcement between them and poured concrete.

That is, the underground structure, which is the concrete structure, performs steam curing or general curing.

Fourth, when the curing of the underground structure is completed, the outer composite member panel 80 is dismantled and the horizontal hydraulic jack 62, vertical hydraulic jack 66 of the formwork adjusting device 52 And the diagonal hydraulic jack 70 is reduced inward to separate the underground structure 86 and the inner composite member panel 78, and immediately after the above operation, lifts the lower height-adjusting hydraulic jack 60 to the upper part of the base concrete. Spaced apart from (50).

Fifth, the formwork adjusting device 52 is moved from the inside of the underground structure 50 to demould completely.

Sixth, when the mold adjusting device is demoulded from the underground structure, construction of the underground structure 50 is completed.

The manufacturing state and construction procedure for the underground structure 50 and the formwork adjusting device 52 according to the above-described configuration will be described.

Referring to the construction procedure of the above-described underground structure 50, after the foundation concrete 50 is poured, the formwork adjusting device 52 is installed on the upper part, wherein the formwork adjusting device 52 is the lower height adjustment hydraulic pressure The jack 60 is fixed in close contact with the foundation concrete 50, and the control panel of the formwork adjusting device 52 is operated to the inner width of the underground structure to produce the length of the horizontal hydraulic jack 62. Fixing and fixing the vertical hydraulic jack 66 and the oblique hydraulic jack 70 of the formwork adjusting device 52 to the inner height of the underground structure to be manufactured, whereby the formwork adjusting device 52 is The vertical inner reinforcement 74, the composite member square reinforcement 76 and the inner composite member panel 78 can be supported integrally, wherein the vertical inner reinforcement 74 and the inner composite panel (78) ) Is directly below the lower support frame (82 ) To support the vertical inner reinforcement 74 and the inner composite panel (78).

In addition, when the above operation is completed, the reinforcing bar 84 is disposed on the side of the inner composite member panel 78 and the concrete is poured after installing the outer composite member panel 80 spaced apart by the thickness of the underground structure 50. To fabricate the underground structure (50).

When curing the concrete, the steam curing is not dismantled formwork for 7 days, the general curing does not dismantle the form for 15 days, when curing of concrete is completed dismantle the outer composite member panel 80 and the lower height adjustment hydraulic The jack 60 is lifted upward from the foundation concrete 50, and the horizontal hydraulic jack 62, the vertical hydraulic jack 66, and the diagonal hydraulic jack 70 of the formwork adjusting device 52 are the body. The inner composite member panel 78 is demolished with the underground structure 50 by moving in the direction of 54, and after moving the formwork adjusting device 52 from the inside of the underground structure 50 after the above operation, the underground structure ( Construction for 50) is completed.

In order to manufacture the formwork adjusting device 52, first, the body 54 and the steel pipe adjustment frame 56 is manufactured, and the movable wheel 58 is manufactured, and also coupled to the lower portion of the body 54. The lower height adjustment hydraulic jack 60 is produced, the horizontal hydraulic jack 62 and the jack fixing plate 64 are horizontally coupled to the steel pipe pipe adjusting frame 56, and the steel pipe pipe adjustment described above. The vertical hydraulic jack 66 and the adjusting bearing support plate 68 are vertically coupled to the frame 56, and the diagonal hydraulic jack 70 is diagonally coupled to the steel pipe adjusting frame 56. Vertical internal reinforcement which manufactures the suspension support frame 72 and is in close contact with the members respectively coupled to the ends of the horizontal hydraulic jack 62, the vertical hydraulic jack 66 and the oblique hydraulic jack 70. (74) composite member square close to the vertical internal reinforcement (74) at a 90 ° angle The lower support fixing frame for manufacturing the steel material 76, and also to produce the inner composite member panel 78 in close contact with the outer side of the composite member square reinforcement 76 and to support the lower portion of the inner composite member panel 78 ( 82), and finally, the outer composite panel 80 is manufactured.

That is, the basement structure 50 is able to construct a safe underground structure 50 by the formwork fixing device (52).

Effects of the configuration and operation of the present invention described above will be described.

Underground structure construction method using the composite member panel and the hydraulic jack of the present invention, unlike the prior art fabrication of the composite member made of fiber-reinforced plastic (FRP) as a material is light in weight, easy to install and dismantle, and also It is easy to adjust the formwork adjusting device by adjusting the formwork adjusting device automatically when constructing the underground structure, and it is easy to move the formwork adjusting device after construction to get the efficiency and automation of work.

In addition, the above-mentioned underground structure construction method is easy to automatically install and dismantle because the formwork is made of a device using a hydraulic jack, and at the same time it can reduce the construction cost required to manufacture the underground structure to the maximum, and the completed underground The structure can be manufactured as a defect-free product.

In addition, the underground structure manufactured by the above construction method has no rust generation, and is easy to manage after use, because it uses a composite member, and it is easy to manage after use. Has an effect.

In addition, the construction method of the underground structure has an effect that can be used without applying a release agent to the composite member panel since the demoulding is clean after pouring concrete compared to the case of using steel formwork and wood formwork.

Claims (2)

In the construction method of the underground structure installed in the basement used in the cavity, electric wire and sewer, the foundation concrete 50 is poured and the formwork adjusting device 52 is installed on the upper part, but the formwork adjusting device 52 is the lower part. The height adjusting hydraulic jack 60 is brought into close contact with the foundation concrete 50, and the formwork adjusting device 52 operates the adjusting panel to operate the horizontal hydraulic jack 62, the vertical hydraulic jack 66 and the diagonal hydraulic. The jack 70 is fixed to the inner width and height of the underground structure, the formwork adjusting device 52 of the vertical internal reinforcement 74, composite member square reinforcement 76 and the inner composite panel ( 78) in close contact with the ends of the horizontal hydraulic jack 62, vertical hydraulic jack 66 and oblique hydraulic jack 70, the vertical inner reinforcement 74 and the inner composite member panel (78). Vertical internal reinforcement by installing lower support fixing frame 82 directly under Supporting the 74 and the inner composite panel (78), the reinforcing bars 84 to the side of the inner composite panel (78) and then the outer composite panel (80) by the thickness of the underground structure 50 After installing the spaced apart concrete to construct the underground structure 50, and underground structure construction method using a composite member panel and a hydraulic jack characterized in that the demoulding automatically. According to claim 1, wherein the formwork adjusting device 52, the adjustment panel and the steel pipe adjusting frame 56 is formed in the body 54, the lower height adjustment hydraulic jack (below) in the body 54 60 is formed, the steel pipe pipe adjusting frame 56 is provided with a movable wheel 58 at the bottom, the horizontal hydraulic jack 62 is coupled to both horizontal surfaces of the steel pipe pipe adjusting frame 56 above. , Vertical hydraulic jack 66 is coupled to the central portion of the steel pipe adjustment frame 56, the die adjusting device 52 is a diagonal hydraulic jack 70 is coupled to the body 54 in an oblique direction. The horizontal hydraulic jack 62 is provided with a jack fixing plate 64 at its end and the oblique hydraulic jack 70 is provided with a support base plate 72 at its end, and the vertical portion. The hydraulic jack 66 is provided with an adjustment bearing support plate 68 at the end thereof, and the horizontal hydraulic jack 62 and the vertical hydraulic jack 66 are provided. And a vertical internal reinforcement 74 is in close contact with each member installed at each end of the diagonal hydraulic jack 70, and the vertical internal reinforcement 74 forms a 90 ° angle with the vertical internal reinforcement at its outer surface. Square reinforcing member 76 is in close contact, the composite member rectangular reinforcing member 76 is in close contact with the inner composite member panel 78 on its outer surface, the vertical inner reinforcing member 74, the composite member rectangular reinforcing member 76 And the inner composite member panel 78 is riveted, the inner composite member panel 78 is formed of a pair of two formed in the "b" shape, the vertical inner stiffener 74 and the inner composite member panel 78 is fixed to both ends of the lower support frame 82, the inner composite member panel 78 and the lower support frame 82 is fastened with a fixing bolt, the inner composite member panel 78 Spaced by the thickness of the underground structure, the outer composite member special frame ( 80) is an underground structure construction method using a composite member panel and a hydraulic jack, characterized in that the configuration is installed.