KR20060006166A - Method for constructing a concrete structure as slip-form system - Google Patents

Abstract

The present invention relates to a construction method of a concrete structure by the slip foam method, the construction method is the process of placing concrete in a slidable mold, the process of measuring the penetration resistance at a predetermined location of the poured concrete, and the measured penetration When the resistance is within a predetermined allowable range is characterized in that it comprises the step of pouring concrete after sliding the mold to the top. Accordingly, by measuring the penetration resistance according to the degree of curing of the concrete with a simple structure, it is possible to perform a quick and efficient construction of the concrete structure by judging the proper ascending time of the mold at the construction site according to the slip foam method. It is possible to improve the safety of the structure by increasing the quality and the durability thereof.

Description

Method for constructing a concrete structure as slip-form system

1 is an exploded perspective view of an apparatus for measuring the degree of cure of a concrete structure according to an embodiment of the present invention;

2 is a schematic view showing the measurement of the degree of curing of the concrete structure according to the embodiment of the present invention,

3 is a flow chart showing a construction process according to the slip foam method of a concrete structure according to an embodiment of the present invention.

          <Description of the symbols for the main parts of the drawings>

10: penetration resistor 11: penetration rod main body

13: conical tip 15: flat tip

17: load cell 20: connection cable

30: indicator 40: mold

42: mold jig 50: concrete

51 ~ 54: Intrusion point

The present invention relates to a method of constructing a concrete structure continuously using the slip foam method. More specifically, the present invention relates to a construction method capable of constructing a concrete structure quickly and efficiently by accurately measuring the degree of hardening of a concrete structure cast in a site using a slidable mold.

In general, when constructing a structure such as a bridge or high pier using the slip foam method, it is constructed while continuously placing unhardened concrete while moving the concrete casting mold upward. Accordingly, it is possible to drastically shorten the construction period as well as the number of workers due to the reduction in the amount of work or time due to the installation and dismantling of the mold.

In order to smoothly move the mold when constructing the concrete structure according to the slip foam method, it is necessary to pour the cast concrete to an appropriate hardness. It is known that when the mold is raised, the strength of the cast concrete surface is 0.5 to 1.0 kg / cm 2. In reality, however, it is difficult to accurately measure the strength, and it depends on the experience of the field technicians. Generally, the timing of the rise of the mold is judged by the sense of directly injecting the penetration rod made of rebar with diameter 13 mm and length 180 cm directly into concrete. Reinforcing bar penetration method is mainly used.

Therefore, not only the skilled rebar penetration workers are limited, but the construction of concrete structures according to the slip foam method that relies on rebar penetration due to day-to-day shifts or individual errors between technicians causes obstacles in ensuring uniform quality. Doing. Accordingly, there is a concern that the appearance or durability of the constructed concrete structure may be degraded.

The present invention has been made in order to solve the above problems, by determining the appropriate rise time of the mold in the construction site of the concrete structure according to the slip-form method to more accurately measure the degree of cure of the poured concrete to provide a quick and efficient construction Do it. In addition, the construction method is intended to improve the safety of the structure by increasing the quality of the concrete structure and increase its durability.

The object of the present invention is to cast concrete in a slidable mold, to measure penetration resistance at a predetermined location of the poured concrete, and to slide the mold upward when the measured penetration resistance is within a predetermined allowable range. It is achieved by the construction method of the concrete structure using the slip foam method including the process of pouring the concrete after.

Here, the process of determining the curing degree of the concrete according to the measured penetration resistance, and the process of determining the allowable range of the penetration resistance corresponding to the case where the curing degree of the concrete is suitable for sliding the mold to the top can do.

In addition, the measuring of the penetration resistance may be performed by calculating a mean value measured by injecting a penetration resistor having a conical end portion perpendicularly to the concrete surface.

Here, the allowable range of the penetration resistance is preferably 19.5 kgf to 21.5 kgf.

In addition, the process of measuring the penetration resistance may be performed by a process of calculating the penetration resistance to the compressive strength value by injecting the penetration resistance having a planar end perpendicular to the concrete surface.

On the other hand, the apparatus for measuring the degree of cure of the concrete structure according to the present invention is a penetration rod body portion to be inserted from the surface of the poured concrete, a head portion detachably mounted to one end of the penetration rod body portion, and the penetration rod body portion It is achieved by including a load cell portion detachably mounted at the other end, and an indicator portion electrically connected to the load cell portion to display a detection value according to the penetration of the head portion.

Here, the head portion is any one of a conical tip having a conical tip to measure the penetration resistance is inserted into the concrete or a flat tip having a flat tip to measure the compressive strength of the concrete; The detection value is displayed as a penetration resistance value when the cone tip is mounted, and is preferably converted into a compressive strength value when the plane tip is mounted.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail with reference to an accompanying drawing.

1 is an exploded perspective view of a component of the measuring device for curing the concrete structure according to an embodiment of the present invention. As shown, the apparatus for measuring the degree of hardening of a concrete structure according to an embodiment of the present invention is a device for measuring penetration resistance by injecting a predetermined portion of poured concrete, and a penetration resistor introduced into a concrete surface in which stainless steel is poured. 10, an indicator unit 30 for displaying a penetration resistance value according to penetration of the penetration resistor 10, and a connection cable 20 for electrically connecting the penetration resistor 10 and the indicator portion 30 to each other. do.

 Here, the penetration resistor 10 includes a rod main body portion 11 having a predetermined diameter and length, and having connecting portions at both ends, a head portion 13 detachably mounted at one end of the rod main body portion 11, and a rod. And a load cell unit 17 detachably mounted at the other end of the main body unit 11. In the present embodiment, the head portion 13 and the load cell unit 17 are shown at both ends of the rod body portion 11 by screwing, but the connection method is not limited thereto.

The penetration rod main body 11 constituting the penetration resistance measuring apparatus according to the present embodiment is a stainless steel rod 8 mm in diameter, 1200 mm in length, but the material and dimensions are not limited thereto.

The head portion 13 mounted at one end of the rod body portion 11 is a conical tip having a conical tip, which is inserted into concrete at the construction site and used to measure penetration resistance. When the flat tip head portion 15 having a flat tip is mounted at one end of the rod body 11, it can be used to measure the compressive strength of the poured concrete, and the diameter of the flat tip is 10 mm. As an example.

The load cell unit 17 mounted at the other end of the rod body unit 11 detects the penetration resistance value according to the penetration of the head unit 13. The detected penetration resistance is displayed on the indicator unit 30 through the connection cable 20 so that the contractor can check the penetration resistance value. In this case, when the flat tip head 15 is mounted, the indicator 30 may be converted into a compressive strength value and displayed.

Penetration resistance measuring device of the concrete structure according to the present embodiment uses a 220V commercial AC power supply and the maximum measured penetration resistance is 200N (20.4 kgf), compared to the large-scale irradiating equipment of the complex structure used in the conventional ground survey It has a simple structure.

2 shows an example of measuring the penetration resistance of the concrete structure poured by the slip foam method using the penetration resistance measuring apparatus as described above.

In FIG. 2, the concrete 50 is poured into the mold 40 according to the slip-form method, and the penetration resistor 10 is introduced into the predetermined measurement points 51 to 54 through a curing process for a predetermined time. At this time, it is preferable that the penetration resistor 10 is inserted perpendicularly to the surface of the concrete 50. Accordingly, in this embodiment, the penetration resistance value for the poured concrete is calculated as the average value of the penetration resistance values detected at four measurement points. And it is preferable that the separation distance 'a' with respect to the edge at each measurement point and the separation distance 'b'; b = a / 2) with respect to the periphery are substantially the same at four places. Reference numeral 42 is a mold jig that connects the inner and outer mold 40 to be slidable at the same time as part of the device according to the slip foam method.

Using the penetration resistance measuring apparatus according to an embodiment of the present invention as described above, the construction process of the concrete structure according to the slip-form method will be described with reference to FIG.

First, the concrete 50 is poured into the slidable mold 40 (S100), and after the predetermined curing process, determine the measuring points (51 to 54) for measuring the penetration resistance. Accordingly, the penetration resistance 10 is inserted perpendicularly to the concrete 50 at each measurement point 51 to 54 to measure the penetration resistance (S102).

In this case, the penetration resistance value may be measured by displaying the penetration resistance 10 having the conical head portion 13 as a value calculated by averaging the penetration resistance values measured by injecting the penetration resistance perpendicularly to each measurement point with respect to the concrete surface. .

In addition, it is possible to obtain a plurality of test data for determining whether the degree of curing of the concrete according to the penetration resistance measured at each measurement point is insufficient, good or excessive. Accordingly, when the degree of curing of the concrete is suitable for sliding the mold 40 to the upper part, it is possible to determine the allowable range of penetration resistance corresponding to the test data.

In contrast to the case of using the existing rebar penetration bar, the test data of the hardening state according to the penetration resistance and the degree of concrete curing obtained using the penetration resistance measuring apparatus according to the present embodiment shows the numerical values as shown in Table 1 below. This was measured at the time of construction of the bridge structure for the bridge as shown in Figure 2 'a' in each measurement location was set to 20cm, 'b' to 10cm, showing the average value measured in eight places for each measurement frequency.

<Table 1> Penetration resistance test data

division Primary Secondary 3rd 4th 5th Rebar insertion rod Rebar depth (cm) 34.4 44.3 36.1 37.6 32.1 Penetration resistance measuring device Depth (cm) 36.0 46.3 40.6 38.6 33.6 Resistance value (kgf) 16.4 19.2 16.8 19.9 15.5 Concrete condition after 1 day curing Darkness (overdose) Partial flow (lack of curing) Darkness (overdose) Status Somewhat thick (overdose)

division 6th 7th 8th 9th 10th Rebar insertion rod Rebar depth (cm) 35.8 46.5 45.5 39.3 34.6 Penetration resistance measuring device Depth (cm) 37.0 48.8 47.3 41.1 36.0 Resistance value (kgf) 17.2 20.8 20.4 20.5 20.0 Concrete condition after 1 day curing Darkness (overdose) Partial flow (lack of curing) Darkness (overdose) Status Somewhat thick (overdose)

According to the test data obtained above, the determination of the timing of the sliding sliding of the slip foam method by the reinforcing bar has caused excessive error, especially during the day and night shift.

Accordingly, based on the test data secured using the penetration resistance measuring apparatus according to an embodiment of the present invention, when the penetration resistance value is 19.5 ~ 21.5kgf, the penetration depth is 38 ~ 41cm form the mold by the slip foam method It is showing the best concrete condition for sliding up.

Based on the penetration resistance value secured in this way, it is determined whether the penetration resistance measured at each measurement point is within a predetermined allowable range (S104), and when the average value of the measured penetration resistance is within the allowable range, the mold 40 After sliding to the top) continues the process of pouring concrete (S106). After repositioning the concrete, the positive resistance process is carried out, and the penetration resistance is measured, and the sliding rise of the mold and the casting of concrete are repeatedly performed until the completion of construction.

On the other hand, in the above embodiment has been exemplified by measuring the penetration resistance value of the penetration resistor to be inverted perpendicular to the concrete surface by the penetration resistance measurement device, it is, of course, to measure the penetration depth of the penetration resistor at the same time. In addition, by mounting the head portion of the penetration resistor with a flat tip can be measured in terms of compressive strength value of course.

While preferred embodiments of the present invention and other alternative embodiments have been described as described above, changes and modifications can be made without departing from the scope of the present invention. Accordingly, such changes, modifications and alternative embodiments employed in the present invention fall within the spirit and scope of the appended claims.

As described above, based on the penetration resistance value of the concrete poured by the construction method of the concrete structure using the slip-form method of the present invention to determine the proper rise time of the mold in the site to be constructed in accordance with the slip-form method to quickly increase the structure of the concrete And efficient construction. Accordingly, the safety of the structure can be improved by increasing the quality of the concrete structure and increasing its durability. In addition, it is possible to measure the penetration resistance according to the degree of curing of concrete with a simple structure.

Claims (4)

In the construction method of the concrete structure using the slip foam method, Placing concrete in a slidable formwork, Measuring penetration resistance at a predetermined point of the poured concrete, If the measured penetration resistance is within a predetermined allowable range of the concrete structure construction method using the slip-form method comprising the step of pouring concrete after sliding the mold to the top. The method of claim 1, Judging the degree of curing of concrete according to the measured penetration resistance; A method of constructing a concrete structure using a slip-form method further comprising the step of determining the allowable range of the penetration resistance corresponding to the case where the curing degree of the concrete is suitable for sliding the mold to the top. The method according to claim 1 or 2, The process of measuring the penetration resistance, the construction method of the concrete structure using the slip-form method is performed in the process of calculating the average value measured by intruding the penetration resistance having a cone-shaped end perpendicular to the concrete surface. The method according to claim 1 or 2, The permissible range of penetration resistance is 19.5 kgf ~ 21.5 kgf concrete construction method using the slip foam method.

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