KR20230112447A - Segment formwork system for carbonation curing of concrete structure and carbonation curing method using the same - Google Patents

Abstract

The present invention relates to a form system for carbonation and curing of a concrete structure, which is capable of carbonating and curing concrete instantly without moving the concrete to a separate carbonation and curing chamber, and a carbonation and curing method for concrete using the same. The form system for carbonation and curing of a concrete structure according to the present invention comprises: a plurality of form panels which are installed to be horizontally slidable on a bottom surface and define a predetermined space into which concrete is poured; a form moving unit which moves at least one of the plurality of form panels horizontally by a predetermined distance with respect to the bottom surface after concrete is poured into the space defined by the plurality of form panels and a certain period of time has elapsed so that the form panel is spaced apart from a surface of the concrete; a form sealing unit which seals the concrete against the form panel when the form panel is moved by the form moving unit and the form panel is coupled to the form sealing unit; and a gas supply unit which supplies carbon dioxide gas for carbonation and curing of concrete into the space sealed by the form panel and the form sealing unit.

Description

Segment formwork system for carbonation curing of concrete structure and carbonation curing method using the same}

The present invention relates to a formwork for concrete pouring and carbonation curing, and more particularly, to a formwork system for carbonation curing of concrete capable of performing carbonation curing by placing concrete in a space inside the formwork, performing primary curing, moving the formwork to form a space between the formwork and concrete, sealing the space between the formwork and concrete, and then supplying carbon dioxide to perform carbonation curing, and a carbonation curing method of concrete using the same.

As global warming accelerates, research on carbon fixation in which carbon dioxide, a representative greenhouse gas, is fixed in construction materials is being actively conducted.

Carbon dioxide reacts with calcium in cement to form hydrates such as calcite, aragonite, and vaterite. It is known that the formed hydrates fill the pores of the concrete, consequently increase the specific gravity of the concrete and reduce the water absorption rate to increase the compressive strength and durability.

Previously, after pouring concrete in the space inside the formwork, carbonation curing was carried out in a separate curing chamber after demolding the concrete.

However, this conventional carbonation curing method is very difficult to apply to large concrete structures, and has a problem of damaging less hardened concrete during the movement of concrete.

Republic of Korea Patent No. 10-0692055 Republic of Korea Patent No. 10-0463032 Republic of Korea Patent No. 10-1619320

The present invention is intended to solve the above problems, and an object of the present invention is to provide a formwork system for carbonation curing of concrete capable of immediately carbonation curing of concrete without the need to move the concrete to a separate carbonation curing chamber and a carbonation curing method of concrete using the same.

The formwork system for carbonation curing of concrete according to the present invention for achieving the above object is installed to be slidable horizontally with respect to the floor surface, a plurality of formwork panels partitioning a predetermined space for pouring concrete; A formwork movement unit that horizontally moves at least one of the plurality of formwork panels by a predetermined distance from the floor surface after concrete is poured into the space partitioned by the plurality of formwork panels and a certain time elapses to separate them from the surface of the concrete; a formwork sealing unit that seals the concrete against the formwork panel while being coupled to the formwork panel after the formwork panel is moved by the formwork moving unit; and a gas supply unit supplying carbon dioxide gas for carbonation and curing of concrete into the space sealed by the formwork panel and the formwork sealing unit.

The formwork moving unit may include a rack gear installed on a bottom surface, a pinion gear installed at a lower end of the formwork panel to engage with the rack gear, and a driving member installed to rotate by a person or a motor on the formwork panel.

The drive member includes a drive shaft rotatably installed on the outer surface of the formwork panel and rotated by a person or a motor, a bevel gear coupled to one end of the drive shaft, a power transmission shaft extending vertically from the formwork panel and having an upper end connected to the bevel gear and rotating, a worm installed at the lower end of the power transmission shaft and rotating together with the power transmission shaft, and a worm coupled coaxially to one side of the pinion gear and engaged with the worm to rotate May contain gears.

A gasket made of an elastic material may be attached to the lower end of the formwork panel to prevent leakage of carbon dioxide gas while in close contact with the bottom surface and the rack gear.

The formwork sealing unit may include an upper cover member for shielding an upper end portion between a plurality of formwork panels in a state in which the formwork panel moves in a direction away from concrete, and a side sealing member for shielding a space between both ends of the plurality of formwork panels.

The side sealing member is made of a flexible film and can be sized according to the distance between both ends of the plurality of formwork panels, and the edge of the side sealing member can be airtightly attached to the surface of the formwork panel and the upper cover member by a bonding material.

The gas supply unit includes a gas supply pipe having one end connected to the formwork sealing unit and the other end connected to the carbon dioxide storage container, a control valve controlling the supply of carbon dioxide gas from the carbon dioxide storage container to the gas supply pipe, a concentration sensor measuring the concentration of carbon dioxide gas inside the space sealed by the formwork panel and the formwork sealing unit, and air inside the space sealed by the formwork panel and the formwork sealing unit when carbon dioxide gas is supplied through the gas supply pipe. It may include an exhaust control member for controlling air discharge through an exhaust port formed to be in communication with the outside of the formwork sealing unit so that it can be discharged to the outside.

The carbonation curing method of concrete using the formwork system for carbonation curing of concrete according to the present invention described above,

(S1) pouring concrete into the space partitioned by the plurality of formwork panels in a state where both ends of the plurality of formwork panels are connected to each other;

(S2) when the concrete is cured for the first time after a certain time has elapsed, horizontally moving at least one of the plurality of formwork panels by a certain distance to the floor surface to separate them from the surface of the concrete;

(S3) installing a formwork sealing unit to the formwork panel to seal the concrete against the formwork panel; and,

(S4) supplying carbon dioxide gas into the space sealed by the formwork panel and the formwork sealing unit; and,

(S5) dismantling the formwork sealing unit when the carbonation curing of the concrete is completed after a certain period of time;

can include

According to the present invention, after primary curing by pouring concrete into the space partitioned by the formwork panel, the formwork panel is moved to provide a space between the concrete and the formwork panel, and carbonation curing can be performed by injecting carbon dioxide in a state where the concrete is completely sealed with respect to the formwork panel using a formwork sealing unit.

Therefore, there is an effect of performing carbonation curing of concrete with a simple configuration and construction process without the need to move the concrete to a separate carbonation curing chamber.

1 is a perspective view showing a formwork system for carbonation curing according to an embodiment of the present invention.
2a and 2b are perspective views illustrating the configuration and operation of a formwork panel constituting a formwork system for carbonation curing according to an embodiment of the present invention.
3A and 3B are plan views showing the configuration and operation of the formwork panel shown in FIGS. 2A and 2B.
4a and 4b are side views and front views showing the configuration of a formwork moving unit constituting a formwork system for carbonation curing according to an embodiment of the present invention.
5A and 5B are a plan view and a bottom view showing the configuration of a formwork sealing unit constituting a formwork system for carbonation curing according to an embodiment of the present invention.
6A to 6C are perspective views sequentially illustrating a method of carbonation curing concrete using a formwork system for carbonation curing according to an embodiment of the present invention.

The embodiments described in this specification and the configurations shown in the drawings are only one preferred example of the disclosed invention, and there may be various modifications that can replace the embodiments and drawings in this specification at the time of filing of the present application.

Hereinafter, with reference to the accompanying drawings, a formwork system for carbonation curing of a concrete structure and a carbonation curing method of concrete using the same will be described in detail according to the following embodiments. Like symbols in the drawings indicate like components.

1 to 5B show a formwork system for carbonation curing of a concrete structure according to an embodiment of the present invention. The formwork system includes a plurality of formwork panels 10, a formwork moving unit that moves the plurality of formwork panels 10, a formwork sealing unit that seals the formwork panels 10 and the formwork C, and carbonation of concrete C into a space sealed by the formwork panels 10 and the formwork sealing unit. and a gas supply unit supplying carbon dioxide gas for curing.

A plurality of formwork panels 10 are installed generally vertically on the floor surface and slidably installed horizontally with respect to the floor surface. A plurality of formwork panels 10 are disposed on the floor of a construction site or a factory for manufacturing a precast concrete structure to partition a space corresponding to the shape of a concrete structure to be constructed. The formwork panel 10 may be made of a rectangular flat plate as in this embodiment, but may be made of a curved plate or a polygonal plate.

A gasket 12 made of an elastic and flexible material such as rubber or silicone may be attached to the lower end of the formwork panel 10 to prevent leakage of carbon dioxide gas while being in close contact with the bottom surface and the rack gear 21 of the formwork moving unit.

The formwork panel 10 may be configured to be movable with respect to the floor surface by a formwork moving unit. The formwork moving unit functions to separate the formwork panel 10 from the surface of the concrete C by horizontally moving at least one of the plurality of formwork panels 10 by a certain distance with respect to the floor surface after concrete is poured in the space partitioned by the plurality of formwork panels 10 and cured for the first time after a certain period of time has elapsed.

The formwork movement unit can be configured using various known linear movement devices. As shown in FIGS. 4A and 4B, in this embodiment, the formwork movement unit includes a rack gear 21 installed horizontally on the floor, a pinion gear 22 rotatably installed at the lower end of the formwork panel 10 and engaged with the rack gear 21, and a drive installed to rotate the formwork panel 10 by a person or a motor. include the absence

The drive member includes a drive shaft 24 rotatably installed on the outer surface of the formwork panel 10 and rotated by a person, a bevel gear 25 coupled to one end of the drive shaft 24, a power transmission shaft 26 installed to extend vertically on the formwork panel 10 and having an upper end connected to the bevel gear 25 and rotating, and a power transmission shaft 26 installed at the lower end of the power transmission shaft 26, It includes a worm 27 that rotates together and a worm gear 28 that is coaxially coupled to one side of the pinion gear 22 and rotates together and meshes with the worm 27 to rotate.

A circular handle 23 is provided on the driving shaft 24 so that a person can easily hold and turn it by hand.

Therefore, when the operator grabs the handle 23 connected to the drive shaft 24 and turns it in one direction, the power transmission shaft 26 is rotated by the bevel gear 25, and the rotational force of the power transmission shaft 26 is transmitted to the worm gear 28 through the worm 27 to rotate the pinion gear 22. Therefore, the pinion gear 22 rolls along the rack gear 21 so that the formwork panel 10 can move horizontally along the bottom surface.

The formwork sealing unit seals the concrete (C) with respect to the formwork panel (10) while being coupled to the formwork panel (10) after the formwork panel (10) is moved by the formwork moving unit and separated from the concrete (C).

As shown in FIGS. 4A and 4B, the formwork sealing unit includes an upper cover member 31 for shielding the upper end between the plurality of formwork panels 10 in a state in which the formwork panel 10 moves in a direction away from the concrete C, and a side sealing member 32 for shielding the space between both ends of the plurality of formwork panels 10.

The upper cover member 31 is in the form of a flat plate and is seated on the upper end of the formwork panel 10 to shield the upper end of the formwork panel 10. A packing material 34 may be provided on the periphery of the lower surface of the upper cover member 31 to prevent gas from leaking while elastically adhering to the upper end of the formwork panel 10 .

The side sealing member 32 is coupled to the corner of the upper cover member 31, and then the side sealing member 32 can be installed immediately after installing the upper cover member 31 on the top of the formwork panel 10.

It is preferable that the size of the side sealing member 32 is made of a film made of a flexible material such as fabric or resin that does not allow gas to pass through and can be adjusted in size while being unfolded or folded according to the distance between both ends of the plurality of formwork panels 10. Of course, it may not be made of a flexible membrane, but may be made in a form capable of stretching and contraction in the form of a wrinkled bellows. The edge of the side sealing member 32 may be airtightly attached to the surface of the formwork panel 10, the upper cover member 31, and the bottom surface by a bonding material 33 such as silicone tape, waterproof tape, or adhesive.

Referring to FIG. 1 , the gas supply unit is configured to supply carbon dioxide gas for carbonation and curing of concrete into a space sealed by a plurality of formwork panels 10 and a formwork sealing unit.

In this embodiment, the gas supply unit includes a gas supply pipe 42 having one end connected to the inlet 44 of the upper cover member 31 and the other end connected to the carbon dioxide storage container 41, a control valve 43 for controlling the supply of carbon dioxide gas from the carbon dioxide storage container 41 to the gas supply pipe 42, and the formwork panel 10 and the formwork sealing unit. A concentration sensor 46 (see FIG. 5B) for measuring, and an exhaust control member (not shown) for controlling air discharge through an exhaust port 45 formed in the upper cover member 31 to communicate with the outside so that when carbon dioxide gas is supplied through the gas supply pipe 42, the air inside the space sealed by the formwork panel 10 and the formwork sealing unit is discharged to the outside. The exhaust control member may be a stopper provided so that a person can open and close the exhaust port 45 by hand and/or a check valve or packing material that allows air to flow in only one direction.

The concentration sensor 46 may be installed on the upper cover member 31, and in addition to the concentration sensor 46, a temperature sensor (not shown) and a humidity sensor (not shown) may be installed to measure the temperature and humidity of the space between the concrete (C) and the formwork. In addition, on the outside of the upper cover member 31, the concentration sensor 46, the temperature sensor (not shown) and the humidity sensor (not shown) of the carbon dioxide gas measured by the concentration, temperature, and humidity information are visually displayed. A display unit 50 may be provided.

Hereinafter, a method of manufacturing a concrete structure by carbonation curing concrete using the formwork system for carbonation curing having the same configuration as described above will be described.

First, as shown in FIG. 6A, concrete is poured into the space partitioned by the plurality of formwork panels 10 in a state where both ends of the plurality of formwork panels 10 are connected to each other.

When the concrete is sufficiently hardened and cured for the first time after a certain time (about 24 hours) has elapsed, the plurality of formwork panels 10 are horizontally moved by a certain distance to the floor surface by turning the handle 23 of the formwork moving unit as shown in FIG. 6B to separate them from the surface of the concrete (C).

Then, as shown in FIG. 6C, the upper cover member 31 of the formwork sealing unit is seated on and coupled to the upper end of the formwork panel 10, and the side closure member 32 installed at the corner of the upper cover member 31. Both side edge portions of the formwork panel 10 are attached to the side surfaces of the formwork panel 10 with bonding material 33 to seal the space between both ends of the formwork panel 10. At this time, the lower end of the side sealing member 32 is also airtightly attached to the floor to completely seal the space between the formwork panel 10 and the concrete (C).

In addition, the gas supply pipe 42 is connected to the inlet 44 of the upper cover member 31, and the space sealed by the plurality of formwork panels 10, the upper cover member 31, and the side sealing member 32 Carbon dioxide gas is supplied into the inside.

When the carbonation curing of the concrete (C) is completed after a certain period of time, the upper cover member 31 and the side sealing member 32 are separated from the formwork panel 10, and the formwork panel 10 is dismantled and demolded to complete the concrete structure.

As described above, in the formwork system for carbonation curing of a concrete structure of the present invention, after the concrete (C) is poured into the space partitioned by the formwork panel 10 for primary curing, the formwork panel 10 is moved to provide a space between the concrete (C) and the formwork panel 10, and carbonation curing can be performed by injecting carbon dioxide in a state in which the concrete is completely sealed with respect to the formwork panel 10 using a formwork sealing unit.

Therefore, carbonation curing of concrete can be performed with a simple configuration and construction process.

Although the present invention has been described in detail with reference to the examples above, it is natural that those skilled in the art can make various substitutions, additions, and modifications within the range of not departing from the technical spirit described above.

C: Concrete 10: Formwork Panel
12: gasket 21: rack gear
22: pinion gear 23: handle
24: drive shaft 25: bevel gear
26: power transmission shaft 27: worm
28: worm gear 31: upper cover member
32: side sealing member 33: bonding material
34: packing material 41: carbon dioxide storage container
42: gas supply pipe 43: control valve
44: inlet 45: exhaust port
46: concentration sensor 50: display unit

Claims (8)

A plurality of formwork panels installed slidably horizontally with respect to the floor surface and partitioning a predetermined space for pouring concrete;
A formwork movement unit that horizontally moves at least one of the plurality of formwork panels by a predetermined distance from the floor surface after concrete is poured into the space partitioned by the plurality of formwork panels and a certain time elapses to separate them from the surface of the concrete;
a formwork sealing unit that seals the concrete against the formwork panel while being coupled to the formwork panel after the formwork panel is moved by the formwork moving unit; and,
a gas supply unit supplying carbon dioxide gas for carbonation and curing of concrete into the space sealed by the formwork panel and the formwork sealing unit;
A formwork system for carbonation curing of concrete comprising a. The formwork system for carbonation curing of concrete according to claim 1, wherein the formwork movement unit includes a rack gear installed on a bottom surface, a pinion gear installed to engage with the rack gear at a lower end of the formwork panel, and a driving member installed to rotate by a person or a motor on the formwork panel. The drive member of claim 2, wherein the drive member comprises a drive shaft rotatably installed on the outer surface of the formwork panel and rotated by a person or a motor, a bevel gear coupled to one end of the drive shaft, a power transmission shaft extending vertically from the formwork panel and having an upper end connected to the bevel gear and rotating, a worm installed at the lower end of the power transmission shaft and rotating together with the power transmission shaft, and coupled coaxially to one side of the pinion gear and engaged with the worm A formwork system for carbonation curing of concrete including a worm gear that rotates. The formwork system for carbonation curing of concrete according to claim 2, wherein a gasket made of an elastic material that prevents leakage of carbon dioxide gas while in close contact with the bottom surface and the rack gear is attached to the lower end of the formwork panel. The formwork system for carbonation curing of concrete according to claim 1, wherein the formwork sealing unit includes an upper cover member for shielding an upper end portion between the plurality of formwork panels in a state in which the formwork panels are moved in a direction away from the concrete, and a side sealing member for shielding a space between both ends of the plurality of formwork panels. The formwork system for carbonation curing of concrete according to claim 5, wherein the side sealing member is made of a flexible film and can be sized according to the distance between both ends of the plurality of formwork panels, and the edge of the side sealing member is airtightly attached to the surface of the formwork panel and the upper cover member by a bonding material. The gas supply unit according to claim 1, wherein the gas supply unit is sealed by a gas supply pipe having one end connected to the formwork sealing unit and the other end connected to the carbon dioxide storage container, a control valve controlling the supply of carbon dioxide gas from the carbon dioxide storage container to the gas supply pipe, a concentration sensor measuring the concentration of carbon dioxide gas inside the space sealed by the formwork panel and the formwork sealing unit, and the formwork panel and the formwork sealing unit when carbon dioxide gas is supplied through the gas supply pipe. A formwork system for carbonation curing of concrete including an exhaust control member that controls air discharge through an exhaust port formed in the formwork sealing unit to communicate with the outside so that the air inside the space can be discharged to the outside. A carbonation curing method for concrete using the formwork system for carbonation curing of concrete according to any one of claims 1 to 7,
(S1) pouring concrete into the space partitioned by the plurality of formwork panels in a state where both ends of the plurality of formwork panels are connected to each other;
(S2) when the concrete is cured for the first time after a certain time has elapsed, horizontally moving at least one of the plurality of formwork panels by a certain distance to the floor surface to separate them from the surface of the concrete;
(S3) installing a formwork sealing unit to the formwork panel to seal the concrete against the formwork panel; and,
(S4) supplying carbon dioxide gas into the space sealed by the formwork panel and the formwork sealing unit; and,
(S5) dismantling the formwork sealing unit when the carbonation curing of the concrete is completed after a certain period of time;
Carbonation curing method of concrete comprising a.