KR101216389B1 - Method for connecting precast concrete column in place - Google Patents

Abstract

The present invention relates to a field joining construction method of precast concrete columns (hereinafter referred to as PC columns) used when constructing a building structure such as a large stadium, a performance hall, a large store, or a parking lot. After forming the fixed plate of the exposed state with respect to the PC column produced in the factory and the column joint to be cast in the field, and after pouring the concrete over the gaps between the PC pillar and the assembled state of the column joint, the PC pillar The PC pillar and the pillar joint portion can be firmly and stably tensioned in all directions through the first fixing means and the second fixing means mounted on the fixing plate of the pillar joining portion and the tensile shaft connecting them to each other. By tensioning the column joints directly to each other, the narrow surrounding space and obstacles or interferences In this case, reasonable and efficient construction can be achieved, and it is free to pass and move equipment or manpower because it does not interfere with the surrounding work space, and winds, impacts and Even if vibration is applied, various factors from the outside are not concentrated between the PC pillar and the column joint, so that the quality of construction can be further improved and the construction quality can be further improved without causing cracks or poor bonding of the coated concrete. There is an unnecessary effect of extending the life and repairing defects.

Description

Method for connecting precast concrete column in place}

The present invention relates to a field joining construction method of precast concrete columns (hereinafter referred to as PC columns) used when constructing a building structure such as a large stadium, a performance hall, a large store, or a parking lot. In the state in which the fixed plate is buried and cured for the PC column and the site-jointed column joint, which are produced at the factory, the PC column is assembled and bonded to the column joint through the concrete, and the fixed plate of the PC column and the column joint in the bonded state is By using the first fixing means and the second fixing means are tensioned with each other in all directions so that the PC pillar can be firmly and stably bonded.

In general, the PC method for constructing a large-space building requiring a long span such as a large stadium, a performance hall, a large store, or a parking lot, uses a double tee slab, a hollow core slab, or HCS. There is a Precast Reinforced Concrete Layer Construction Method, which is applied to a medium-sized building with heavy loads such as an underground car park, using a Half PC Slab. There is a compounding method.

This PRC compounding method is a method of precasting reinforced concrete ramen (PCR) buildings, and transports PC members such as PC columns, PC beams, and half slabs manufactured at the factory, and then assembles them by lifting them. It is a method of integrating the structure by pouring concrete over the joint between the members and the upper surface of the half slab in a state.

Particularly, in the case of the PC pillar as described above, the PC pillar of the factory made state in the state in which the pillar joints are cured in advance with respect to the position where the PC pillar is installed is lifted and lowered using a crane or the like, and then the lower part of these PC pillars. The gaps between the top of the column and the top of the column joints are filled with concrete so that they can maintain a firm and stable joint state.

At this time, the PC pillar in the bonded state as described above should be able to maintain a stable coupling state from the tilt deviation and wind or vibration acting on the vertical PC pillar until the overlaid concrete is fully cured. As the curing support means for the joint, it is common to apply a cable means for fixing and supporting the PC column in all directions as shown in FIG.

That is, as described above, the PC pillar 100 is assembled with respect to the column joint portion 110, and in the state where the laying concrete is laid on the mutual joint portion, the cable 200 is bound to the lower end of the PC pillar 100 in all directions. The lower end of these cables 200 is firmly fixed to the ground to prevent the inclination, impact and shaking, etc. acting on the PC pillar 100 from the cable 200 is fixed fixed in all directions to prevent the PC pillar It is to make a solid and stable joint construction for (100).

In particular, the cable 200 is typically equipped with a turnbuckle 300, by applying a high tension to the cable 200 through the rotation of the turnbuckle 300, the PC pillar 100 is stable in all directions. By being able to be supported and fixed so that the PC pillar and the column joint 110 by the overlay concrete is to be firmly and fixed to each other.

However, the construction method as described above has a disadvantage in that a fixed cable is disposed all around the PC pillar to be bonded in all directions for a certain period of time, but does not maintain structurally stable support.

In other words, the support cable as described above is fixed to all directions using the ground, so the available space around the support cable must be required, and in the case of other obstacles or interferences in the vicinity, the support cable It is impossible to install or move to a fixed position so that the stable support for all directions to the PC pillar is not made.

In addition, the support cable in the state of being stretched and fixed in all directions as described above causes a significant invasion of the work space, which hinders the movement and passage of various equipment and personnel, and firmly fixes the support cable to the ground. Since a separate fixing means that can be fixed must be installed, the work is very cumbersome and requires a lot of time.

In particular, in the above-described method of joining the cable support method, since the support cable is fixedly installed only in the PC pillar, when the strong wind blows or the vibration and the impact are applied, the column joint is connected due to the shock or vibration and the tilt transmitted to the PC pillar. It will affect the overlaid concrete laid between and, so the overlaid concrete is hardened to harden the joints of these PC pillars and columns and is cured with cracks. The construction of the furnace is inevitably made, so there are many structural problems.

The present invention has been made to solve the problems as described above, and to form a fixed plate of the exposed state with respect to the factory-produced PC column and the site-jointed column joint, respectively, and the gap between each other in the assembled state for these PC columns and column joints After pouring the concrete over the part, the PC pillar and the pillar joint are firmly in all directions through the first fixing means and the second fixing means mounted on the fixing plate of the PC pillar and the pillar joint and the tension axis connecting them to each other. As a result of stable tensile bonding,

It is possible to make a strong and stable joint between PC pillar and pillar joint with only minimal working space, and it is possible to maintain a stable fixed state without flow from wind or shock because PC pillar and pillar joint are directly fixed and fixed. It is an object of the present invention to provide a field joining construction method of a precast concrete column having characteristics that reasonably overcome the problems of the construction method.

The present invention for achieving the object as described above, the base molding step of curing each buried so that the fixing plate having a screw hole on the outer surface of the lower side of the PC column and the upper outer surface of the column joined portion exposed; A mutual assembly step of transporting and mounting the PC column so that the lower side of the PC column and the upper side of the column joint portion correspond; A formwork installation process for installing formwork on the lower side of the PC column and the upper outer surface of the column joint; A joint injection step of pouring the overlay concrete into the gap between the PC column and the column joint; A mounting fastening step of mounting the first fixing means on the fixing plate of the PC pillar and mounting the second fixing means on the fixing plate of the column joint; A tension fixing step of connecting the first fixing means and the second fixing means by a tensile axis, and applying a tensile force to the tensile axis; When the curing for the over-concrete concrete is finished, the mounting means removal step of separating and removing the first fixing means and the second fixing means; is performed by sequentially.

According to the present invention, since the PC pillar and the column joint are directly fixed to each other, even if there are narrow surrounding spaces and obstacles or interferences, reasonable and efficient construction can be achieved, and the equipment does not interfere with the surrounding work space. B. It is free to pass and move the manpower. Since the PC pillar and the column joint are directly fixed to each other, various factors from the outside are not concentrated between the PC column and the pillar joint even if wind is blown or the impact and vibration are applied. In addition, the construction quality can be further improved by not causing cracking or poor bonding of the concrete, as well as extending the service life of the structure and repairing defects.

1 is a schematic view showing a bonding construction example for a conventional PC column
Figure 2 is an overall view showing a bonding construction example of the PC column according to the present invention
Figure 3 is an assembly view of the PC column and the column joint by the construction method according to the present invention
Figure 4 is a process of joining the PC column and the column joint by the construction method according to the present invention
Figure 5 is a process of connecting the PC column and the column joint by the construction method according to the present invention
Figure 6 is a state of separation of the fixing means of the PC column and the column joint by the construction method according to the present invention
7 is an embodiment of a fixing means applied to the construction method according to the present invention
8 is another embodiment of the fixing means applied to the construction method according to the present invention

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

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

Figure 2 is an overall view showing a bonding example of the PC pillar according to the present invention.

Joining construction method of the PC pillar according to the present invention, as shown in the figure is made by joining and joining the PC column 10, which is a pre-fabricated state in the factory and the column joint portion 20 formed by direct casting in the field In the case of the most commonly applied rectangular cross-section PC pillar, each of the first fixing means 40 and the second fixing means 50 between the PC pillar 10 and the column joint 20 for each surface exposed After mounting, the first fixing means 40 and the second fixing means 50 are connected and fixed in a tensioned state by separate tension shafts 60 to obtain a high tensile force acting on the tension shafts 60. As the PC pillar 10 and the pillar junction 20 are firmly press-supported to each other, a solid joint construction between these PC pillars 10 and the pillar junction 20 is made.

Accordingly, the bonding construction process as described above in detail as follows.

First, the PC pillar 10 is to be produced according to a predetermined standard in the factory, to produce a PC column 10 of the designed value using formwork of various shapes and structures, but the lower side of the PC pillar 10 That is, a separate fixing plate 30 is buried in the lower outer surface of the joint, and the fixing plate 30 is provided with a screw hole 31 and the surface of the fixing plate 30 is formed from the PC pillar 10. It will have an exposed state. At this time, the fixing plate 30 may be exposed only the screw hole 31, if necessary, may further adopt an anchor bolt embedded into the PC pillar 10 for structural stability, It is also possible to repeat the arrangement of the fixing plate 30 of the individual fastener concept with each threaded hole 31.

In addition, the pillar joint portion 20 that is directly cast in the field also forms a separate fixed plate 30 'on the outer surface of the upper joint end like the PC pillar 10, but the entire fixed plate 30' surface is exposed or It is to be molded directly in the field so that only the screw hole 31 formed in the fixed plate (30 ') is exposed.

When the basic molding process for the PC pillar 10 and the pillar joint 20 is completed, the PC pillar 10 moved to the site as shown in FIG. 3 is transported and vertically mounted through heavy equipment such as a crane. The lower end of the PC column 10 is to be placed on the top of the column joint 20, the bottom of the PC column 10 is formed with a plurality of coupling grooves and the coupling bar is formed on the top of the column joint 20 Since a plurality of protrusions adopt a reinforcing coupling structure in which these reinforcing bars are inserted into the inside of the coupling groove, the PC pillar 10 having the basic structure as described above and the column joint 20 may be mutually assembled. At this time, the PC column 10 is to be supported by using a crane or the like because it is impossible or unstable state.

In such a state, it is necessary to perform a process of injecting the overlay concrete between the joints, that is, the lower end of the PC pillar 10 and the column joint 20, and joining them to each other. The process of installing and fixing the formwork 32 for placing 33 is first performed as shown in FIG. 4.

Subsequently, the addition concrete 33 is poured into the gap between the PC pillar 10 and the column joint portion 20 generated inside the formwork 32 as described above, and the PC pillar 10 and the concrete by the addition concrete 33. The pillar joints 20 are to be fixed to each other, the overlaid concrete 33, even if fast curing concrete is required for a certain curing time, such equipment, such as cranes for a long time to continue to leave the equipment As shown in FIG. 5, the first fixing means 40 and the second fixing means 50 are respectively attached to the fixing plate 30 of the PC pillar 10 and the fixing plate 30 ′ of the column joint 20. After the mounting, these first fixing means 40 and the second fixing means 50 is coupled by the tension shaft 60, the first fixing means 40 and the second fixing means 50 is The crane which was supporting the said PC pillar 10 after having the thing connected by the tension shaft 60 arrange | positioned in all directions. Removing the equipment PC pole 10 will have rigid support fixed from the tensile force of the high acting on the tension shaft 60 from the first fastening means 40 and the second fastening means 50 can be maintained.

At this time, the tension with respect to the tension axis 60 should be applied evenly to the entire tension axis 60 located in all directions, to prevent the PC column 10 in the vertical state to be inclined due to the deviation of the tensile force. something to do.

Accordingly, the PC pillar 10 in a state in which the first fixing means 40 and the second fixing means 50 are firmly coupled with the rigid fixing force from the column joint 20 by the above-described concrete 33 is completely cured. Until it is to be mounted as it is, if the curing for the overlaid concrete 33 is completely made and the mutual bonding to the PC pillar 10 and the column joint 20 is completely formed, as shown in Figure 6 ( 32 and the first fixing means 40 and the second fixing means 50 are separated and removed from the fixing plate 30 of the PC pillar 10 and the fixing plate 30 'of the column joint 20, respectively. According to the construction of the joint of the PC column is completed.

As described above, the fixing means applied to join the PC pillar 10 may be formed by correspondingly connecting the same objects to each other, as shown in FIG. 7, and the first fixing means 40 and the second fixing means. The first fixing means 40 and the second fixing means 50 are applied from the bottom plates 42 and 52 in which a plurality of fixing holes 41 and 51 are drilled. The support plates 44 and 54 are installed in an orthogonal direction, and the coupling plates 43 and 53 penetrate through the support plates 44 and 54, and these bottom plates 42 and 52 and the support plate 44 are installed. The reinforcement plates 45 and 55 in a state of being connected in various ways are joined between the (54).

Here, the bottom plate 42, 52 is a fixing hole formed in the bottom plate 42, 52 while being in close contact with the fixing plate 30, 30 'buried in the PC pillar 10 or the column joint portion 20 (41) (51) through the bottom plate (42) (52) to match the screw holes 31 formed in the fixing plate (30) (30 ') is coupled to a separate fastening bolt to the screw hole (31) As such, the first fixing means 40 and the second fixing means 50 may be firmly installed on the outer surfaces of the PC pillar 10 and the pillar joint 20.

In addition, the coupling holes 43 and 53 formed in the support plates 44 and 54 are for inserting the tensile shaft 60, and the tensile shaft exposed through the coupling holes 43 and 53 is exposed ( By assembling a separate fixing nut 62 to the threaded portion 61 of the 61 will be a solid assembly between each other. In addition, the reinforcement plates 45 and 55 are used to prevent the tension from weakening due to the bending of the support plates 44 and 54 from the high tensile force acting on the support plates 44 and 54. will be.

Accordingly, the fixing nut 62 is coupled to the tension shaft 60 while the first fixing means 40 and the second fixing means 50 are connected to each other by the tension shaft 60, and then the fixing nut ( Rotating 62), as well as firmly fixed to each other as a high tension is applied to the tension axis 60 is the PC column 10 will be able to maintain a solid fixed state without flowing from the column joint 20.

In addition, the second fixing means 50 can be applied to the object of a more simplified configuration, as shown in Figure 8, wherein the second fixing means 50 has a fixing hole 51 The bottom plate 52 is formed, and one side of the bottom plate 52 is formed by joining the hinge piece 56 in the orthogonal direction. At this time, one end of the tension shaft 60 coupled to the second fixing means 50 is formed with a fastening piece 63 corresponding to the hinge piece 56.

Accordingly, the first fixing means 40 and the tension shaft 60 are coupled by fastening the fixing nut 62 to the threaded portion 61 of the tension shaft 60, and the second fixing means 50 and the tension shaft 60. The shaft 60 is coupled to each other by pinning the hinge piece 56 and the fastening piece 63 to each other. Accordingly, the tension shaft 60 is a tension is generated from the forced tightening of the fixing nut 62 located in the first fixing means 40, this tension is the PC pillar 10 and the column joint 20 ) To be firmly fixed to each other.

Accordingly, by using the first fixing means 40 and the second fixing means 50 as described above, substantially direct tension fixing to the PC pillar 10 and the column joint 20 is made, thus occupying a minimized work space. Yet the most efficient joint construction can be achieved.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the present invention as defined by the appended claims. Examples should be understood.

10: PC pillar
20: column joint
30,30 ': Fixing plate 31: screw hole
32: formwork 33: overlay concrete
40: first fixing means 41: fixing hole
42: bottom plate 43: bonding holes
44: support plate 45: reinforcement plate
50: second fixing means 51: fixing hole
52: bottom plate 53: bonding hole
54 support plate 55 reinforcement plate
56: hinge
60: tension axis 61: threaded portion
62: fixing nut 63: fastening piece

Claims (3)

A basic molding process of curing each of the buried parts so that the fixing plates 30 and 30 'having the screw holes 31 are exposed on the lower outer surface of the PC pillar 10 and the upper outer surface of the column joint 20; A mutual assembly step of carrying and mounting the PC pillar 10 so that the lower side of the PC pillar 10 and the upper side of the column joint 20 correspond to each other; A formwork installation step of installing the formwork 32 with respect to the lower side of the PC column 10 and the upper outer surface of the column joint portion 20; A joint injection step of pouring the overlaid concrete 33 into a gap between the PC pillar 10 and the column joint portion 20; A mounting fastening step of mounting the first fixing means 40 on the fixing plate 30 of the PC pillar 10 and mounting the second fixing means 50 on the fixing plate 30 'of the column joining portion 20; A tension fixing step of connecting the first fixing means (40) and the second fixing means (50) by means of a tension shaft (60) and applying a tensile force to the tension shaft (60); When the curing for the overlaid concrete 33 is terminated, the mounting means removing step of separating and removing the first fixing means 40 and the second fixing means 50; precast concrete pillars characterized in that performed by sequentially Field joint construction method.
The method of claim 1,
The first fixing means 40 and the second fixing means 50 may include support plates having coupling holes 43 and 53 at one side of the bottom plates 42 and 52 having fixing holes 41 and 51. 44 and 54 are fixedly formed, and the reinforcing plates 45 and 55 are fixedly formed between the bottom plates 42 and 52 and the support plates 44 and 54, so that the first fixing means ( A coupling shaft 43 formed at both ends of the coupling hole 43 of the coupling hole 43 and the coupling hole 53 of the second fixing means 50 is inserted thereinto, and the support plate 44 or 54 is formed. Precast characterized in that the mutual tension is fixed to the PC pillar 10 and the column joint portion 20 by fastening the fixing nut 62 to the threaded portion 61 of the tension shaft 60 protruding with Field joint construction method of concrete column.
The method of claim 1,
The first fixing means 40 is a support plate 44 having a coupling hole 43 is fixed to one side of the bottom plate 42 having a fixing hole 41 and the bottom plate 42 and the support plate 44 The reinforcing plate 45 is fixed between the second fixing means 50, the hinge piece 56 protrudes to one side of the bottom plate 52 having a fixing hole 51, the tension axis 60 forms a screw portion 61 at one end and the fastening piece 63 is fixedly formed at the other end,
The threaded portion 61 of the tension shaft 60 is fitted into the coupling hole 43 of the first fixing means 40 to form the fixing nut 62, and the fastening piece 63 of the tension shaft 60 is formed. It is characterized in that the PC column 10 and the column joint portion 20 is fixed to each other by rotating the fixing nut 62 by pin coupling to the hinge piece 56 of the fixing means 50, Field bonding construction of precast concrete columns.

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