KR100487729B1 - Form for underwater structure and the construction method for the same - Google Patents

Abstract

The present invention relates to a formwork panel for an underwater structure and its construction method, the object of which is to install a plurality of steel wires, aramid bar, high tensile bar, etc. in the longitudinal direction of a sheet of a composite material of a predetermined width to light weight It is possible to obtain a high-strength formwork panel, and the formwork panel is molded by drawing, so that it is easy to ship to a length suitable for the construction site, and continuous construction in the width direction is possible.

Formwork panel for aquatic structures of the present invention, the sheet is provided with a composite material that can be bent to some extent, a plurality of inner wires are provided in the longitudinal direction of the steel wire, aramid bar, high tensile bar, etc., extending from both ends of the sheet A binding mounting member for binding the inner wires together is provided. In addition, the present invention is to secure the reinforcing members such as grids or reinforcing bar on the slopes or aging of the coastal structure, such as coasts, rivers, dams, reservoirs, etc. to construct the underwater structure, and the top of the slope to repair After the fixed pile is processed at the bottom, the formwork panel is installed in the fixed pile to be arranged in the depth direction of the slope in a wide and continuous manner to install the formwork panel as much as the area to be repaired, and the bottom and left and right ends of the formwork panel. After sealing to prevent the leakage of mortar, etc., by inserting a pumping hose into the space between the underwater structure and the formwork panel, it is characterized in that the mortar is poured and cured.

Description

Form for Underwater structure and the construction method for the same

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to formwork for underwater structures installed in water, such as shores, rivers, dams, reservoirs, and construction methods thereof. More specifically, a plurality of steel wires and aramids are formed in a sheet of a composite material having a predetermined width in the longitudinal direction thereof. Light and high strength formwork panels can be obtained by embedding internal wires such as bars and high tensile bars. Since these formwork panels are molded by drawing, they can be easily shipped at a suitable length for the construction site and continuous construction in the width direction. The present invention relates to a formwork panel for an underwater structure and a construction method thereof.

In general, an underwater structure refers to a structure that is installed from the bottom of the coast, river, dam, reservoir, and the like to the ground, that is, a shoreline construction or a port docking facility. In the case of clavicle or aging of the existing underwater structures, reinforcement of the strength of the underwater structures through the renovation work and to extend the life of them, and also to build the necessary underwater structures, such as shore or river.

Briefly describing the process of repairing or establishing an underwater structure as described above, prior to the construction of a water barrier, such as a dam, and then incubated all the water in the lake by using a pump and water pump, etc. After installation in the shape to be repaired reinforcement to the shape to be newly installed, the cement mortar is poured to cure. After curing the cement mortar as described above, the form panel was separated and dismantled, and the dam, which was constructed by the water barrier construction, was removed, thereby completing the repair and reinforcement work of the underwater structure.

However, when repairing or reinforcing the existing underwater structures as described above, the construction is too large and the reinforcement is too large, such as dam prior to the construction of the water, and after the completion of the repair reinforcement work, the facilities that were installed by the construction of the water must be removed again. The construction period is also long, which causes a problem of excessive use of construction costs.

In addition, there is a problem in that the construction period is delayed according to the time of incubating the water in the lakeside part by the water barrier construction with a water pump or a pump, and the equipment and cost for purchasing the water pump and the pump are increased.

In addition, since a regular standard formwork panel is used, it is difficult to construct the formwork panel in the shape of the underwater structure, and it is difficult to repair and reinforce the construction only in a straight or angular shape. There was a problem that formwork panels were required.

An object of the present invention has been researched and developed in order to solve the above-mentioned conventional problems, the inner wire of a plurality of steel wires, aramid bar, high tensile bar, etc. in the longitudinal direction to prepare a sheet of a composite material that can be bent to some extent It provides a formwork panel for underwater structures and its construction method that is lighter and higher strength than the existing formwork, and can be easily installed by providing a formwork panel having a buried installation.

In addition, another object of the present invention, by overlapping both ends of the formwork panel or using the H-shaped connection member connection construction is made easier construction work and the underwater construction formwork panel to enable a continuous construction easily regardless of the construction length And to provide a construction method thereof.

In addition, another object of the present invention, by providing a sheet in the length of the slope, such as coasts, rivers, dams and the like installed in a continuous manner in a fixed pile, by pouring a general mortar or underwater mortar into the interior space between the slope and the sheet In addition, the construction of the underwater structure is easily achieved, and thus, to provide a formwork panel for the underwater structure and its construction method to shorten the construction period and save the construction cost than the conventional method using the conventional formwork.

And another object of the present invention, by binding the inner wire extending from both ends of the sheet with the binding fixing member, the number of basic fixing piles for the tension construction of the sheet is reduced, thereby reducing the construction period and saving more construction cost The present invention provides a formwork panel for an underwater structure and its construction method.

Formwork panel for aquatic structures of the present invention for achieving the object as described above, the sheet is provided with a composite material that can be bent to some extent and a plurality of inner wires are installed in the longitudinal direction of the steel wire, aramid bar, high tensile bar, etc. And a binding mounting member for binding the inner wires extending from both ends of the sheet into one.

The sheet has a rectangular cross-sectional shape, and if a separate H type connection member is provided, the sheet may be easily fitted in a continuous manner by fitting both ends of the sheet.

The sheet may have a sinusoidal cross-sectional shape and an inner wire may be buried along the furrow portion thereof. In the case of the sinusoidal sheet as described above, one end may be provided as a sinusoidal wave type starting from the furrow and the other end ending in the ridge. The reason for this provision is that the end portions of the sheets can be superimposed and thus can be constructed without additional joint members.

The sheet may be provided with an optical cable continuously along the longitudinal direction of the sheet so that the damage state of the sheet in the control room or the like.

In addition, the construction method using the formwork panel for the water tank structure of the present invention, the reinforcement member such as lattice mesh or reinforcement on the slope or aging part of the shore or the water structure, such as shore, river, dam, reservoir, etc. Fixing the; Process the fixed pile on the top and bottom of the slope to be repaired; Installing a formwork panel as much as a region to be repaired and reinforced by continuously connecting a plurality of formwork panel ends to be arranged in the depth direction of the slope to the fixing pile of the step; Sealing at the bottom and left and right ends of the form panel to prevent leakage such as mortar; And drilling a mortar for placing the mortar in the upper portion of the formwork panel and inserting a pumping hose into the hole to pump and mortar while pumping.

After installing the formwork panel as much as the area to be repaired and reinforced, it is characterized in that the step of installing the wire rod in the horizontal direction of the formwork panel for each part where the phenomenon of the batching of the formwork panel is likely to be added.

The mortar casting hole is drilled only in the upper part of the mold panel when the length of the mold panel is relatively short, 3 to 6 m, and the length of the mold panel is 6 to 12 m. I can punch two places.

In the case of newly establishing an underwater structure, the step of fixing the reinforcing member such as a grid or reinforcing bar may be a process of installing the reinforcing member such as the lattice net on the entire slope after arranging the slope flat.

Hereinafter, the formwork for the underwater structure of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing the formwork for underwater structures according to an embodiment of the present invention, Figure 2 is a perspective view schematically showing a state in which the formwork for the underwater structure of Figure 1 continuous construction, Figure 3 is a line AA of Figure 2 Detailed cross section for.

As shown in the figure, in the formwork panel 10 for aquatic structures of the present invention, a long sheet 12 of a rectangular cross section is drawn out by a composite material, and the sheet 12 is arranged at equal intervals in the longitudinal direction thereof. The plurality of internal wires 14 are embedded. The seat 12 is provided with a binding mounting member 16 for binding the inner wires 14 to both ends in the longitudinal direction thereof, and the binding mounting member 16 has an upper end of a slope 20 for constructing an underwater structure. Or a wire 24 for connection with the fixed pile 22 is placed on the bottom is provided.

The composite material may be any material as long as it is highly corrosive and abrasion resistant. For example, carbon fiber, glass fiber, aramid fiber, polyethylene or nylon may be used alone or in combination of two or more kinds. The sheet 12 is formed by impregnating or applying a curable resin such as an epoxy resin, a phenol resin, a urethane resin, an unsaturated polyester, a polyester resin, a polyamide, or a vinyl ester resin to a composite material.

The inner wire 14 is sufficient strength, toughness and good elongation than the composite material is sufficient, for example, is provided with a steel wire, aramid bar, high tensile bar and the like.

In addition, the sheet 12 is provided with a separate H type connecting member 26 to easily perform continuous construction in the width direction thereof. Although the connection member 26 is illustrated and described as being provided separately from the sheet 12, the coupling member 26 may directly provide a pair of coupling structures that can be inserted into both ends of the sheet 12.

The process of constructing the underwater structure using the formwork panel for the underwater structure of the present invention configured as described above, as shown in Figure 4, the slope, such as a coast, river, dam, reservoir, etc. to construct the underwater structure 20 ) Or reinforcing members (not shown), such as high grid grids or rust-treated rebars, are secured to anchor bolts or the like in the clavicle or aging part of the underwater structure.

Subsequently, a plurality of fixings are fixed at regular intervals in consideration of the width of the sheet 12 at the top and bottom of the slope 20 to be constructed or the wire 24 of the binding mounting member 16 provided at the upper and lower ends of the sheet 12. The pile 22 is screwed in and fixedly installed.

In this manner, after the wires 24 provided on one of the binding mounting members 16, which are wound in a roll form on the fixing pile 22 on the upper surface of the slope 20, are hooked, 12) rolled down along the slope (20) while being unrolled in a rolled form. In this way, the wire 24 provided on the binding mounting member 16 at the end of the sheet 12 loosened to the lower end of the slope 20 is bound to the fixed pile 22 at the bottom of the slope 20, but is bound at the fixed pile 22. The wire 24 of the mounting member 16 is bound so as not to separate.

The formwork panel 10 to be bonded as described above, a plurality of formwork panels as long as the area to be repaired reinforcement by repeatedly contacting or close to one end in the direction of continuous construction, that is, the width direction of the formwork panel 10 ( 10) Install continuously. At this time, when the formwork panel 10 is continuously installed, the formwork panel 10 should be connected to each other without a step by inserting an H type connection member 26 in a portion where the sheet 12 of the formwork panel 10 is in contact with each other. do. The reason is that the cement mortar which is poured after construction of the formwork panel 10 should not leak.

As described above, after installing the formwork panel 10 as much as the area to be repaired and reinforcement, the wire rod 28 in the horizontal direction of the formwork panel is formed for each portion or curved portion where the phenomenon of batching of the formwork panel 10 is likely to occur. It prevents overloading and induces cement mortar to be cast with uniform thickness.

In this state, the bottom and left and right ends of the formwork panel 10 are blocked or finished with a sealing material to prevent leakage of cement mortar which is poured into the space between the surface of the underwater structure and the formwork panel 10. At this time, the formwork panel 10 can also be sealed by checking the parts connected to each other by the connecting member 26.

At least one mortar casting hole 13 is drilled in the upper portion of the formwork panel 10 selected as the mortar pouring position among the plurality of formwork panels 10 installed as described above. Through 13), general mortar or underwater mortar is poured and cured.

The mortar casting hole 13 has been described as being perforated in the upper portion of the formwork panel 10, which is a case where the length of the formwork panel 10 is 3 to 6 m relatively short, that is, longer than that, that is, the formwork panel If the length of (10) is 6 ~ 12m can be perforated in the middle as well as the upper portion of the formwork panel (10).

The reason for drilling in the upper part and the middle part of the formwork panel 10 is to facilitate the casting of cement mortar or liquidity of cement mortar, and also to form the mold panel 10 within a short time if the area of the formwork panel 10 is large. 10) It is to solve the problems caused by the inability to place cement mortar on the whole.

In addition, the formwork panel 10 installed for placing cement mortar is preferably to be demolished, but since it is corrosive and abrasive as a composite material, it does not cause environmental pollution problems, so it can be left as it is without demolition for improving durability and reinforcement of underwater structures. have.

5 to 7 is a cross-sectional view showing a formwork panel for underwater structures according to another embodiment of the present invention, the cross-sectional shape of the sheet (12a) is provided in a sinusoidal wave shape, the inner wire 14 is embedded along the furrow portion It is. The sheet 12a may be provided in a sinusoidal wave shape in which one end starts from the furrow and the other end ends in a ridge, or both ends have a furrow-shaped sinusoidal wave shape.

Since the construction method for the formwork panel for underwater structures of another embodiment configured as described above is the same as the construction method described in the above embodiment, a detailed description thereof will be omitted. However, when the formwork panel 10 is continuously installed in its width direction, the end portion of the sheet 12a is overlapped without using a connecting member, and thus the work of the formwork panel 10 is easy. It can shorten the construction period and save the construction cost.

Figure 8 is a cross-sectional view showing another embodiment of the formwork panel for underwater structures according to the present invention is the same as the configuration of the present invention, except that at least one optical cable 30 is built into the sheet 12.

According to the formwork panel for underwater structures according to another embodiment as described above, after the construction to repair and reinforce the surface of the underwater structure after casting cement mortar between the underwater structure and the formwork panel, the formwork panel for durability and reinforcement It can be left without dismantling. In this case, the position of the optical cable 30 in the sheet 12 may be initially confirmed in the central control room, as well as whether the optical cable 30 is tensioned or damaged, thereby actively dealing with a condition such as an underwater structure or a form panel or repair. It can be done.

As described above, the formwork panel for the underwater structure and the construction method according to the present invention, by providing a sheet of a composite material that can be bent to some extent and the inner wire of a plurality of steel wires, aramid bar, tension bar in the longitudinal direction thereof By providing a formwork panel installed in the buried, it is lightweight and high strength compared to the existing formwork, as well as can be easily installed installation.

In addition, the present invention, by overlapping the both ends of the formwork panel or using the H-shaped connecting member, the construction work is made easily, regardless of the construction length can be easily continuous construction.

In addition, the present invention, by providing a sheet in the length of the slope, such as coasts, rivers, dams and the like installed in a continuous manner in a fixed pile, by placing a general mortar or underwater mortar into the internal space between the slope and the sheet, the underwater structure New construction or reinforcement of construction can be done easily, which can shorten the construction period and save construction cost than the existing general formwork.

In addition, the present invention, by binding the inner wire extending from both ends of the sheet with the fastening fixing member, the number of foundation fixing piles for the tensile construction of the formwork panel is reduced, thereby reducing the construction period and saving the construction cost more innovative It is a useful invention.

1 is a perspective view showing the formwork for underwater structures of one embodiment according to the present invention,

Figure 2 is a perspective view schematically showing a state in which the continuous construction formwork for the underwater structure of Figure 1;

3 is a detailed cross-sectional view taken along the line A-A of FIG.

4 is a structural diagram showing a state in which the formwork for underwater structures according to the present invention constructed in the port docking facility,

5 is a perspective view showing another embodiment of the formwork for underwater constructions according to the present invention;

Figure 6 is a perspective view when the continuous construction formwork for the underwater structure of Figure 5,

7 is a cross-sectional view showing the joint portion of each sheet in FIG.

8 is a perspective view showing another embodiment of the formwork for underwater structures according to the present invention.

<Explanation of symbols for main parts of drawing>

10: formwork panel 12, 12a: sheet

14: inner wire 16: fastening member

22: fixed pile 26: connecting member

Claims (9)

delete delete The sheet 12 is provided with a composite material that can be bent to some extent, and a plurality of inner wires 14 are installed in the longitudinal direction thereof, and a binding uniting the inner wires 14 extending from both ends of the sheet 12 into one. In the formwork panel for an underwater structure provided with a mounting member 16, The sheet 12 is a formwork panel for underwater structures, characterized in that the cross-sectional shape is provided as a sinusoidal sheet (12a) and the inner wire 14 is embedded along the furrow portion. 4. The formwork panel according to claim 3, wherein the sheet (12a) is provided in a sinusoidal shape in which one end starts from the furrow and the other end ends in a ridge. 5. The formwork panel for underwater construction according to claim 3 or 4, wherein the mortar casting hole (13) is formed at the top, middle and top of the sheets (12, 12a). delete delete Fixing reinforcing members such as grids or reinforcing bars on slopes of coasts, rivers, dams, reservoirs, etc., where the underwater structures are to be constructed; Processing a fixed file on the top and bottom of the slope; Installing the formwork panel as much as an area to be constructed by connecting a plurality of formwork panel ends to be continuously arranged in the depth direction of the slope to the fixing pile of the step; Sealing at the bottom and left and right ends of the form panel to prevent leakage such as mortar; In the construction method of the underwater panel formwork panel comprising the step of drilling the mortar casting hole in the formwork panel and then pouring mortar through the hole, Method of constructing the formwork panel for underwater structures, characterized in that the step of installing the wire panel in the horizontal direction of the formwork panel is added to each site where the phenomenon of forming the panel is likely to occur after installing the formwork panel as much as the area to be repaired and reinforced. . 10. The method of claim 8, wherein the mortar is poured through the hole after drilling the mortar casting hole in the upper part, the upper part and the middle part of the formwork panel.