KR20080107785A - Method for curing of pile in winter and apparatus thereof - Google Patents

Abstract

A method and an apparatus for curing a cast-in-place pile effectively in the winter time is provided to progress construction work effectively by securing the quality of concrete even if temperature or water temperature is low in the winter time. A method for curing a cast-in-place pile in the winter time comprises the steps of installing a form(100) for forming a cast-in-place pile(10), installing a curing pipe(200) around the form, forming a cast-in-place pile by placing concrete in the form, and blowing the hot air in a space between the curing pipe and the cast-in-place pile.

Description

Field casting pile curing method and device in winter {METHOD FOR CURING OF PILE IN WINTER AND APPARATUS THEREOF}

1 to 5 show an embodiment of the curing apparatus according to the present invention,

1 is a cross sectional view of a first embodiment;

2 is a cross sectional view of a second embodiment;

3 is a longitudinal sectional view of the second embodiment;

4 is a perspective view of an embodiment of a mounting position of a heater;

5 is a cross sectional view of an embodiment of a mounting position of a heater;

6 to 11 is a flow chart related to the step of the curing method according to the present invention.

** Description of the symbols for the main parts of the drawings **

10: cast-in-place pile 100: formwork

200: curing tube 210: thermal insulation cap

211: through-hole for applying hot air 212: hot air outlet for temperature control

220: hot air fan 230: hot air inlet pipe

231 hot air discharge hole 240 temperature sensor

250: heater 260: water level sensor

The present invention relates to the field of construction, and more particularly, to a method and apparatus for efficiently curing it during construction of a site-casting pile in winter.

In winter, when the site-building pile method is formed by concrete casting at the site, the quality of concrete cannot be guaranteed when the temperature drops below zero, so the construction must be stopped unless special curing method is applied. there is a problem.

In particular, in the case of bridges, in-water or seawater should be carried out in-place pile method, if the water temperature falls below 4 ℃ in winter, the same problem occurs.

However, in the past, the curing method has not been developed for the construction of the site in the winter season, it has been pointed out as a problem in that the efficient construction management is difficult because the air is prolonged when the inability to cast concrete is long.

The present invention has been made to solve the above problems, even in winter, even if the temperature or water temperature is low, to provide a site-placement pile curing method and apparatus for winter to ensure the concrete quality to proceed efficiently. For that purpose.

The present invention provides a formwork installation step for installing the formwork 100 for the formation of the cast-in-place pile 10 in order to achieve the object as described above; Curing pipe installation step of installing the curing pipe 200 around the formwork (100); Concrete placing step of placing the concrete in the formwork (100) to form the cast-in-place pile (10); It proposes a site-casting pile curing method of the winter season, including; hot air applying step of applying hot air to the space between the curing pipe 200 and the site-pouring pile (10).

The formwork 100 is preferably a sacrificial tube that does not dismantle after the concrete is poured.

In the hot air applying step, it is preferable to apply hot air downward from an upper opening of the curing tube 200.

After the concrete pouring step, before the hot air application step, the hot air application through-hole 211 is formed in the edge portion, and the heat insulating cap 210 for installing a heat insulating cap 210 for closing the upper opening of the curing tube 200 It further comprises an installation step, wherein the hot air applying step is preferably made through the hot air applying through-holes 211 of the heat insulating cap 210.

The hot air applying step is a hot air fan installation step of installing a hot air fan 220 for applying hot air toward the through-holes 211 for applying the hot air of the heat insulating cap 210; The hot air inlet pipe 230 is installed to extend from the heat cap application through-hole 211 of the heat insulating cap 210 and to install a hot air inlet pipe 230 having a hot air discharge hole 231 formed therein. step; And a hot air discharge step of discharging the hot air applied from the hot air fan 220 through the hot air inlet pipe 230.

A plurality of hot air application through-holes 211 and hot air inlet pipe 230 of the heat cap 210 is formed, and the hot air discharge hole 231 of the hot air inlet pipe 230 is the curing tube 200 and It is preferable that the hot air is discharged only in a predetermined direction among spaces between the cast-in-place piles 10.

The temperature sensor 240 is mounted in an area between the plurality of hot air inlet pipes 230, and the hot air fan 220 is controlled by a value measured by the temperature sensor 240.

It is preferable to form a hot air outlet 212 for temperature control at the core portion of the heat insulating cap 210.

As a space between the curing tube 200 and the cast-in-place pile 10, it is preferable to further include a heater 250 installation step of installing the heater 250 to apply heat to the surrounding water.

It is preferable that a plurality of heaters 250 are provided so as to be positioned at different heights from each other.

As a space between the curing pipe 200 and the cast-in-place pile 10, it is preferable to further include a water level sensor installation step of installing a water level sensor 260 to measure the water level of the surrounding water.

Preferably, the heater 250 is controlled by a value measured by the water level sensor 260 to drive only when the heater 250 is located in the water.

As a space between the curing pipe 200 and the cast-in-place pile 10, further comprising a temperature sensor 240 for installing a temperature sensor 240 to measure the ambient temperature and water temperature, the heater ( 250 is preferably controlled by the value measured by the temperature sensor 240.

The present invention is another means for achieving the above object, that is, the curing device used in the site casting pile curing method of the winter, the curing pipe (200) installed around the formwork (100); Thermal insulation cap 210 is formed to close the upper opening of the curing tube 200 is formed in the through-holes 211 for applying hot air to the edge portion; A hot air fan 220 installed to apply hot air toward the hot air application through-hole 211 of the heat insulating cap 210; The hot air inlet tube 230 is formed extending from the hot air application through-hole 211 of the heat insulating cap 210 to the lower side, the hot air discharge hole 231 is formed in the periphery; Present the cast-in-place curing device.

A plurality of hot air application through-holes 211 and hot air inlet pipe 230 of the heat cap 210 is formed, and the hot air discharge hole 231 of the hot air inlet pipe 230 is the curing tube 200 and It is preferable that the hot air is discharged only in a predetermined direction among spaces between the cast-in-place piles 10.

The temperature sensor 240 is mounted in an area between the plurality of hot air inlet pipes 230, and the hot air fan 220 is controlled by a value measured by the temperature sensor 240.

It is preferable that the hot air outlet 212 for temperature control is formed in the core portion of the heat insulating cap 210.

As a space between the curing tube 200 and the cast-in-place pile 10, it is preferable to further include a heater 250 installed to apply heat to the surrounding water.

It is preferable that a plurality of heaters 250 are provided so as to be positioned at different heights from each other.

As a space between the curing pipe 200 and the cast-in-place pile 10, it is preferable to further include a water level sensor 260 installed to measure the water level of the surrounding water.

Preferably, the heater 250 is controlled by a value measured by the water level sensor 260 to drive only when the heater 250 is located in the water.

As a space between the curing pipe 200 and the cast-in-place pile 10, the temperature sensor 240 is installed to measure the ambient temperature and water temperature, the heater 250 is the temperature sensor 240 It is preferably controlled by the value measured by.

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

As shown in Figure 1, the winter season cast-in-place pile curing method according to the present invention, the formwork installation step for installing the formwork 100 for the formation of the cast-in-place pile (10); Curing pipe installation step of installing the curing pipe 200 around the formwork (100); Concrete placing step of pouring concrete to formwork (100) to form a cast-in-place pile (10); It is configured to include; hot air applying step for applying hot air to the space between the curing pipe 200 and the cast-in-place pile (10).

That is, the curing pipe 200 is installed in the periphery of the formwork 100 for the formation of the cast-in-place 10 in advance, and casts concrete in the formwork 100 to form the cast-in-place stake 10, and then curing By applying hot air to the space between the pipe 200 and the cast-in-place pile 10, the curing of the concrete is made at an appropriate temperature even in winter.

Therefore, even if the temperature or water temperature is low in winter, it is possible to obtain the effect of ensuring the concrete quality to proceed efficiently.

Formwork 100 may take the configuration of dismantling after concrete pouring, or may take a configuration that does not dismantle, if the space between the curing pipe 200 and the site-casting pile 10 is narrow, dismantling of the formwork 100 Since it is difficult, the curing method according to the present invention is more preferably applied to the construction method (sacrifice pipe) that does not dismantle the formwork 100 after pouring the original concrete.

An example of such a method is a reverse circulation drill (RCD) method, which uses a stand pipe (Casing Tube, C / T) in the general soil section of the surface layer. Excavate with Hammer Grab (hereinafter referred to as HG) while stabilizing the wall with natural hydrolysis (fresh water) or hydrostatic pressure of slurry stabilizer (more than 0.2 kg / cm2, water head difference more than 2.0m), but the rock under the stand pile rotates a special bit. Excavate, and in general rotary boring method, contrary to the flow of water, suck up the excavated soil and crushed rock pieces together with the circulating water with the drill rod pipe, discharge it to the ground and settle it in the sedimentation basin. Send it back to the excavation hole (孔) to take the way to proceed.

Since the site casting pile method for forming the foundation of the bridge pier is carried out in water, the above RCD method is widely applied, and the curing method according to the present invention is most suitable to be applied in this case.

The application of hot air may be any method in which hot air can be applied to the space between the stomach curing pipe 200 and the cast-in-place pile 10, but it is common to use a general cylindrical tube as the curing pipe 200. It will be, it is preferable to take the manner of applying hot air from the upper opening of the curing tube 200 to the lower side to suit the structure.

The hot air may be applied in a state where the upper opening of the curing tube 200 is opened, but as shown in FIGS. 1 and 2, after the insulating cap 210 is installed to close the upper opening, the insulating cap ( It is more preferable in terms of efficient temperature management to make it through the through-holes 211 for applying hot air formed at the edge of the 210.

2 and 3 show an embodiment of a curing apparatus for implementing the curing method according to the present invention.

As shown, the curing apparatus according to the present invention, the curing pipe 200 is installed around the formwork 100; A heat insulating cap 210 formed to close the upper opening of the curing tube 200 while the through-hole 211 for applying hot air is formed at an edge portion thereof; A hot air fan 220 installed to apply hot air toward the hot air application through-hole 211 of the heat insulating cap 210; The hot air inlet pipe 230 is formed to extend downward from the hot air application through-hole 211 of the heat insulating cap 210 and the hot air discharge hole 231 is formed in the periphery thereof.

That is, in applying hot air to the inside of the curing tube 200 through the through hole 211 of the heat insulating cap 210 by the hot air fan 200, the hot air inlet pipe extending downward from the through hole 211 ( By allowing hot air to be discharged through the surrounding hot air discharge hole 231, the hot air is evenly introduced into the space between the curing pipe 200 and the cast-in-place pile 10.

Hot air application through-hole 211 and hot air inlet pipe 230 of the heat insulating cap 210 is preferably formed for the application of hot air evenly formed, in this case hot air discharge hole 231 of the hot air inlet pipe 230 As shown in Figure 3, it is more preferably formed so as to emit hot air only in a predetermined direction (clockwise direction of Figure 3) of the space between the curing pipe 200 and the cast-in-place pile (10).

When the temperature inside the curing tube 200 is excessively increased by the application of hot air, it may rather adversely affect the quality of the concrete.

Therefore, in order to prevent this, it is preferable that the temperature sensor 240 is mounted in an area between the plurality of hot air inlet pipes 230 and the hot air fan 220 is controlled by a value measured by the temperature sensor 240. .

In addition, by forming a temperature control hot air outlet 212 in the core of the heat insulating cap 210, it is preferable to allow excess heat to be discharged through the upper outlet 212.

On the other hand, when the curing method and apparatus according to the present invention is applied to the foundation work of underwater structures such as bridge piers, the temperature of the space between the curing pipe 200 and the cast-in-place pile 10 as well as the water temperature can be adjusted It is more preferable to take the configuration.

That is, the curing apparatus according to the present invention is a space between the curing pipe 200 and the cast-in-place pile 10, as shown in Figures 2 to 5, the heater 250 is installed to apply heat to the surrounding water It is desirable to take a structure that further includes.

Since the heater 250 applies heat to the surrounding water in the state submerged in water, as the water temperature is directly increased, the heater 250 serves to maintain the temperature of the submerged part 10 in the water in the proper state. do.

In the case of pier foundation construction of bridges installed in the sea, the surrounding water level of the site-placement pile 10 is changed according to the difference between tides, especially when the difference between tides is large, such as the west coast, it is necessary to consider this.

Therefore, as shown in Figs. 4 and 5, it is preferable that the heater 250 has a structure in which a plurality is installed so as to be located at different heights from each other.

In addition, when the water level sensor 260 is installed as a space between the curing pipe 200 and the cast-in-place pile 10 so as to measure the water level of the surrounding water, the heater 250 is exposed to the water according to the difference between the tides. It is desirable in that it can determine whether it is locked or exposed to the outside air.

Since the heater 250 is implemented as a structure for adjusting the water temperature, it is not efficient in view of the entire curing method in that it operates in the state exposed to the outside air.

Therefore, it is preferable to control the heater 250 to be driven only when located in the water by the value measured by the water level sensor 260.

In addition, as a space between the curing pipe 200 and the cast-in-place pile 10, a temperature sensor 240 is installed to measure the ambient temperature and the water temperature, and the heater 250 is not only the water level sensor 260 It is preferable to control the temperature measured by the temperature sensor 240 in the sense that a more efficient system can be constructed.

Hereinafter, with reference to FIGS. 6-11, the Example regarding the process of the curing method by this invention is described in detail.

6, the embodiment of the present invention relates to a case of performing the formation of the cast-in-place pile 10 in the foundation work of a pier for the construction of an offshore bridge by the above-described RCD method.

The work bench 20 is installed around the formation position of the cast-in-place pile 10, and the sacrificial pipe 100 (die) is embedded by the equipment 30 (FIG. 6).

After the sacrificial tube 100 is moved to a predetermined depth, the head of the sacrificial tube 100 is cut and the equipment 30 and the like are dismantled (FIG. 7).

The curing tube 200 is installed around the sacrificial tube 100, and the spacer 21 secures an interval between the curing tube 200 and the sacrificial tube 100, and the lower end of the curing tube 200 is underground. It enters in (FIG. 8).

After introducing the reinforcing bar 22 into the sacrificial pipe 100 (FIG. 9), the concrete is poured by the separate equipment 40 (FIG. 10).

The upper opening of the curing tube 200 is closed by the heat insulating cap 210, and the concrete poured into the curing tube 200 and the sacrificial tube 100 is cured by the configuration as described above (FIG. 11).

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

The present invention provides a site casting pile curing method and apparatus for winter in order to ensure the concrete quality even when the temperature or water temperature is low in winter, so that the construction can proceed efficiently.

Claims (22)

Formwork installation step of installing the formwork 100 for the formation of the cast-in-place pile (10); Curing pipe installation step of installing the curing pipe 200 around the formwork (100); Concrete placing step of placing the concrete in the formwork (100) to form the cast-in-place pile (10); Hot air applying step of applying hot air to the space between the curing pipe 200 and the cast-in-place pile (10); Winter cast-in-place pile curing method. The method of claim 1, The formwork 100 is a winter season cast-in-place curing method, characterized in that the sacrificial pipe does not dismantle after the concrete pouring. The method of claim 1, The hot air applying step On-site casting pile curing method characterized in that the hot air is applied to the lower side from the upper opening of the curing pipe (200). The method of claim 3, After the concrete pouring step, before the hot air application step, In addition, the through-hole 211 for applying the hot air is formed at the edge portion, and further comprising a heat insulating cap installation step of installing a heat insulating cap 210 for closing the upper opening of the curing tube 200, The hot air applying step On-site casting pile curing method of the winter season characterized in that it is made through the through-holes 211 for applying the hot air of the insulating cap (210). The method of claim 4, wherein The hot air applying step A hot air fan installing step of installing a hot air fan 220 for applying hot air toward the hot air application through-holes 211 of the heat insulating cap 210; The hot air inlet pipe 230 is installed to extend from the heat cap application through-hole 211 of the heat insulating cap 210 and to install a hot air inlet pipe 230 having a hot air discharge hole 231 formed therein. step; Hot air discharging step of discharging the hot air applied from the hot air fan 220 through the hot air inlet pipe 230; On-site casting pile curing method, characterized in that it comprises a winter season. The method of claim 5, A plurality of hot air application through-holes 211 and hot air inlet pipe 230 of the insulating cap 210 is formed, The hot air discharge hole 231 of the hot air inlet pipe 230 is characterized in that it is formed so as to discharge hot air only in a predetermined direction of the space between the curing pipe 200 and the cast-in-place pile (10) Placing pile curing method. The method of claim 6, A temperature sensor 240 is mounted in an area between the plurality of hot air inlet pipes 230, The hot air blower 220 is a site casting pile curing method of the winter season, characterized in that controlled by the value measured by the temperature sensor (240). The method of claim 4, wherein On-site casting pile curing method of the winter season, characterized in that to form a temperature control hot air outlet 212 in the core portion of the insulating cap (210). The method of claim 1, As a space between the curing tube 200 and the cast-in-place pile 10, the heater 250 further comprises the step of installing a heater 250 to apply heat to the surrounding water Cast-in-place curing method. The method of claim 9, The heater 250 is cast in place cast winter season, characterized in that a plurality is installed so as to be located at different heights mutually. The method of claim 10, On-site casting of the winter season, characterized in that it further comprises a water level sensor installation step of installing a water level sensor 260 to measure the water level of the surrounding water as a space between the curing pipe 200 and the site-pouring pile 10 Pile curing method. The method of claim 11, The heater 250 is driven by the value measured by the water level sensor 260 to be driven only when located in the water, the site cast pile curing method in winter. The method of claim 9, As a space between the curing pipe 200 and the cast-in-place pile 10, further comprising a temperature sensor 240 for installing a temperature sensor 240 to measure the ambient temperature and water temperature, The heater 250 is cast in the field cast winter season, characterized in that controlled by the value measured by the temperature sensor 240. A curing device used in the site-casting pile curing method of the winter of claim 1, Curing tube 200 installed around the formwork 100; Thermal insulation cap 210 is formed to close the upper opening of the curing tube 200 is formed in the through-holes 211 for applying hot air to the edge portion; A hot air fan 220 installed to apply hot air toward the hot air application through-hole 211 of the heat insulating cap 210; Hot air inlet pipe 230 is formed extending from the hot air application through hole 211 of the heat insulating cap 210 to the lower side, the hot air discharge hole 231 is formed in the periphery; On-site casting pile curing device, characterized in that it comprises a winter season. The method of claim 14, A plurality of hot air application through-holes 211 and hot air inlet pipe 230 of the insulating cap 210 is formed, The hot air discharge hole 231 of the hot air inlet pipe 230 is characterized in that it is formed so as to discharge hot air only in a predetermined direction of the space between the curing pipe 200 and the cast-in-place pile (10) Pour pile curing device. The method of claim 15, A temperature sensor 240 is mounted in an area between the plurality of hot air inlet pipes 230, The hot air blower 220 is on-site placing pile curing apparatus, characterized in that the control by the value measured by the temperature sensor 240. The method of claim 14, On-site casting pile curing device of the winter season, characterized in that the core portion of the heat insulating cap 210 is formed with a hot air outlet 212 for temperature control. The method of claim 14, On-site casting pile curing apparatus, characterized in that it further comprises a heater (250) installed to apply heat to the surrounding water as a space between the curing pipe 200 and the cast-in-place pile (10). The method of claim 18, The heater 250 is cast in place of the winter season, characterized in that a plurality is installed so as to be located at different heights mutually. The method of claim 19, On-site casting pile curing apparatus, characterized in that it further comprises a water level sensor (260) installed to measure the water level of the surrounding water as a space between the curing pipe 200 and the cast-in-place pile (10). The method of claim 20, The heater 250 is driven by the value measured by the water level sensor 260 to be driven only when located in the water, the site of the winter pouring pile curing apparatus. The method of claim 18, As a space between the curing pipe 200 and the cast-in-place pile 10, further comprising a temperature sensor 240 installed to measure the ambient temperature and water temperature, The heater 250 is cast in place on-site winter season, characterized in that controlled by the value measured by the temperature sensor 240.

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