KR101289934B1 - Connection of compressed joint using post-tension between pc-column and pc beam and it's construction method - Google Patents

Abstract

PURPOSE: A post-tension force press type connection structure of a precast concrete (PC) column and a PC beam and a construction method thereof are provided to improve an internal force of a connection part by pressing a horizontal structure of a beam and a slab towards a column and reinforcing integrity. CONSTITUTION: A post-tension force press type connection structure (100) of a PC column and a PC beam comprises a PC column (10), a PC beam (20), and a post-tension unit (31). A bracket is formed on one side of the outer surface of the PC column, and a column penetration hole penetrating a side surface is formed on the PC column. The PC beam is installed on the side of the bracket of the PC column and forms a hollow unit and a beam penetration hole. The post-tension unit is tensed and is anchored by being arranged in order to simultaneously pass through the column penetration hole and the beam penetration hole. One or more anchorage units are included on one side surface of the hollow unit. One or more anchorage pockets are included on one side of the bottom surface of the hollow unit.

Description

Connection of compressed joint using post-tension between PC-column and PC beam and it's construction method}

The present invention relates to a post-tension pressurized bonded structure of a PC column and a PC beam and a construction method of the bonded structure. More specifically, by introducing post-tension at the joint between the PC column and the PC beam, the horizontal structure of the beam and the slab can be squeezed to the column side to enhance the unity of the joint, and the hollow part is formed in the PC beam to be manufactured before construction. , Post-loading compression type of PC pillar and PC beam that can reduce construction overhead and construction load, and secure the stability of construction as it is structured to fit the bracket to ensure independence during construction and the lower part can be matched after mounting It relates to a joint structure.

Reinforced concrete structure (RC) is disadvantageous in workability, air, economics, construction quality, etc. because most of the work is done on site, the improvement is the precast concrete (PC) structure. The PC structure is a structure in which the main components of the building, beams and columns, etc. are prepared in advance and brought into the site to be completed by simple assembly at the construction location, and has the advantage of minimizing the field work.

However, since the PC structure is constructed in a prefabricated manner by combining prefabricated unit units, it is not easy to process the joints between the respective members. In particular, when the joint is inadequately treated, the integrity between the members is not secured, resulting in structural safety problems. Furthermore, defects such as failure to withstand stress, cracks, or leaks due to gaps in joints occur.

Conventionally, the joint of the PC column and the PC beam is generally solved by using a wet material. First, the PC column is manufactured to a height of one section of the PC column. In the second method, the PC column is made of one-layered multi-layered height, and when the PC beam is bonded to the side of the PC column, it is directly bonded as an adhesive such as anhydrous mortar or epoxy resin.

However, in the solution of the joints, the first method is more likely to cause cracks due to the dry shrinkage of the concrete, and the second method is less secured from the structural stability in dependence on the adhesive force of the adhesive material. It can be said to be difficult to guarantee.

Accordingly, the present inventors have developed a method for compressing and bonding the joints as a method for reinforcing the integrity of the PC members at the joint of the PC pillar and the PC beam.

Republic of Korea Patent No. 0704870

The present invention was derived to solve the above problems, in accordance with an embodiment of the present invention, by introducing a post-tension to the junction of the PC pillar and PC beams by pressing the horizontal structure of the beam and the slab toward the pillar unity The purpose of the present invention is to provide a crimped joint structure of the PC pillar and the PC beam reinforced with the structure and the method thereof.

In addition, since the lower surface is aligned in parallel with the bracket formed on the PC pillar, the bracket does not protrude so that the aesthetics are excellent after completion, and independence during construction ensures stability in construction. It is an object of the present invention to provide a compression joint structure of a PC column and a PC beam and a method thereof that can reduce crack leakage and increase seismic performance of a joint.

In addition, by forming the hollow part in the PC beam, the weight is reduced, the overhead cost of field transportation and the direct assembly of the site, and the post tension tension fixing unit for compressing the PC beam and the PC column to the hollow part to reduce the length of the tension material. The purpose of the present invention is to provide a crimped joining structure of a PC column and a PC beam, and a method thereof, which facilitates the insertion of a tension member and the workability of the tension.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments with reference to the accompanying drawings.

The first object of the present invention is a PC structure and a PC beam bonded structure, which is installed at the column position, the PC column is formed through the side of the column through hole; PC beam is mounted on one side of the PC pillar, the hollow portion is formed on one side of the middle portion, the PC beam manufactured to form a storage hole penetrating from the side end surface to the hollow side one side; And it is arranged to pass through the column through hole and the storage hole at the same time, it can be achieved as a post-tension compression bonding structure of the PC column and PC beam, characterized in that it comprises a post-tension settled after tension.

The side of one side of the hollow portion may be characterized in that it comprises at least one fixing unit for mounting the one end of the tension material.

One side of the lower surface of the hollow portion may be characterized in that it comprises at least one fixing pocket for mounting the one end of the tension material.

The PC beam may be characterized in that it is a pretension PC beam having a tension member installed through the longitudinal direction therein in the manufacturing process.

The second object of the present invention is a PC pillar and a PC beam bonded structure, which is installed at the column position, the bracket is formed on one side of the outer surface, the column formed through the pillar through the pillar pillar; PC beam is mounted on the bracket of the PC pillar, the hollow portion is formed on one side of the middle portion, the storage beam hole penetrating from the side end surface to the hollow portion one side is formed; And it is arranged to pass through the through-hole and the storage hole at the same time, it can be achieved as a post-tension compression bonding structure of the PC column and the PC beam, characterized in that it comprises a tension member that is fixed after the tension.

The second object may be characterized in that the lower part of the bracket and the lower part of the PC beam in the state in which the PC beam is bonded to the PC pillar.

The bracket has a U-shaped side cross section protruding on one side of the PC column, and the side of the PC beam mounted on the bracket and joined to the bracket may have a locking jaw that is shaped to fit the bracket.

At least one fixing unit for mounting one end of the tension member on one side of the hollow portion and at least one fixing pocket for mounting one end of the tension member on one side of the hollow portion may be characterized in that it further comprises have.

The length of the hollow portion may be characterized in that 1/2 to 1/3 of the length of the PC beam.

The PC column has a reinforcing hole through which the reinforcing bar passes through the side of the PC beam, and the PC beam is formed with a fixing pocket to expose the bottom reinforcing bar at the end where the PC beam is in contact with the PC beam. The bottom of the reinforcing bar and the bottom of the reinforcement of the PC beam to pass through the reinforcing hole of the PC pillar in the pocket may be characterized in that it is made.

It may be characterized in that it further comprises a slab which is constructed so that post tension is introduced onto the PC beam.

The PC beam may be characterized in that the prestressed PC beam disposed in the pre-tension tension material penetrating the longitudinal direction therein in the manufacturing process.

In another category, an object of the present invention is a method of constructing a post-tension press-bonded structure of a PC column and a PC beam, comprising: installing a PC column at a column position; Mounting a PC beam on a bracket formed on one side of the PC column; Arranging post tension in the column through hole formed in the PC column and the storage hole formed in the PC beam to generate tension; And placing concrete in the hollow portion of the PC beam. It can be achieved as a construction method of a post-tension press-bonded joint structure of a PC pillar and a PC beam, characterized in that it comprises a.

The generating of the post tension may further include fixing one end of the tension member to at least one fixing unit provided at one side of the hollow part side.

The generating of the post tension may further include fixing one end of the tension member to at least one fixing pocket provided at one side of the bottom of the hollow part.

In the step of mounting, the PC beam may be characterized in that the prestress PC beam arranged in the pretension tension material penetrating the longitudinal direction therein in the manufacturing process.

In the step of mounting, the bracket has a ruled side surface protruding on one side of the PC pillar, the side of the PC beam mounted on the bracket is formed with a locking jaw is formed to fit the bracket, the bracket in the state where the PC beam is mounted on the bracket The lower part and the lower part of the PC beam may be characterized in that it is matched.

In the step of mounting, the reinforcing bar is formed to pass through the lower reinforcing bar to the side of the PC column is in contact with the PC beam, the PC beam is formed in the depth to expose the lower reinforcing bar at the end of the PC beam contact, PC Reinforcing the bottom of the reinforcing bar so as to pass through the reinforcing hole of the PC column in the joining groove of the beam may be characterized in that it further comprises.

After the step of placing the concrete in the hollow portion, it may be characterized in that it further comprises the step of constructing the slab so that post tension is introduced onto the PC beam.

Therefore, according to the embodiment of the present invention as described, by introducing a post-tension at the junction of the PC column and PC beam, it is possible to compress the horizontal structure of the beam and the slab toward the column, as a result of the integrity of the PC column and PC beam This strengthens the strength of the joint is improved, it is possible to build a structure with excellent structural performance.

In addition, when the prestress introduced to the joint of the PC beam and PC pillar is introduced by the post-tension method, the compressive force is improved to absorb the cracks caused by the dry shrinkage accompanying the construction of the site, and as a result, the watertightness and durability of the joint are improved. do.

In addition, each structural member as well as the joint portion may introduce prestress, thereby making it possible to construct an economical structure by reducing the cross-sectional size and lengthening of the entire structure.

In addition, the bottom surface is parallel to the bracket formed on the PC pillar, so the bracket does not protrude so the aesthetics are excellent after completion, and the stability can be ensured by securing the independence during construction. It can be reduced to have an effect that can increase the seismic performance of the joint.

In addition, by forming the hollow part in the PC beam, it reduces the weight to reduce the field overhead and site assembly direct cost, and to install the post-tension tension fixing unit for crimping the PC beam and PC pillar in the hollow to reduce the length of the tension material It has the advantage of easy insertion of tension material and ease of work of tension.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be appreciated by those skilled in the art that various other modifications and variations can be made without departing from the spirit and scope of the invention, All fall within the scope of the appended claims.

1 is a partial perspective view of a post-tension compression bonding structure of a PC column and a PC beam according to an embodiment of the present invention,
Figure 2 is a front view of the post-tension compression bonding structure of the PC column and PC beam according to an embodiment of the present invention,
Figure 3 is a partial front view of the post-tension compression bonding structure of the PC pillar and PC beam according to an embodiment of the present invention,
4 is a partial perspective view of a PC pillar according to an embodiment of the present invention,
5a is a perspective view of a PC beam according to an embodiment of the present invention,
5b is a front view of a PC beam according to an embodiment of the present invention;
Figure 6a is a partial front view of the junction portion of the conventional PC beam and PC pillar,
Figure 6b is a partial front view of the joint portion of the PC beam and PC pillar according to an embodiment of the present invention,
7 is a perspective view of a state in which a post-introduced slab is poured, according to an embodiment of the present invention;
Figure 8 shows a flow chart of the construction method of the post-tension compression bonding structure of the PC column and PC beam according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the detailed description of known functions and configurations incorporated herein will be omitted when it may unnecessarily obscure the subject matter of the present invention.

The same reference numerals are used for portions having similar functions and functions throughout the drawings. Throughout the specification, when a part is connected to another part, this includes not only the case where it is directly connected, but also the case where it is indirectly connected with another element in between. In addition, the inclusion of an element does not exclude other elements, but may include other elements, unless specifically stated otherwise.

Hereinafter will be described the configuration and function of the post-tension compression bonding structure 100 of the PC pillar 10 and the PC beam 20 according to an embodiment of the present invention. First, Figure 1 shows a partial perspective view of the post-tension compression bonding structure 100 of the PC column 10 and the PC beam 20 according to an embodiment of the present invention. And, Figure 2 shows a front view of the post-tension compression bonding structure 100 of the PC column 10 and the PC beam 20 according to an embodiment of the present invention. In addition, Figure 3 shows a partial front view of the post-tension compression bonding structure 100 of the PC column 10 and the PC beam 20 according to an embodiment of the present invention.

As shown in Figure 1, Figure 2 and Figure 3, the post-tension compression bonding structure 100 of the PC pillar 10 and the PC beam 20 according to an embodiment of the present invention is installed in the column position, Bracket 12 is formed on one side of the outer surface, the PC pillar 10 formed with a column through hole 11 penetrating the side is mounted on the bracket 12 side of the PC pillar 10, the hollow portion on one side of the middle portion A 21 is formed, and a storage hole 26 penetrating from one side surface to a hollow portion 21 is formed, and a prestressed PC beam 20 and a pillar through hole 11 manufactured by introducing pretension. And it is disposed to pass through the storage hole 26 at the same time, it can be seen that includes a post-tension 31 is settled after the tension.

The present invention is characterized in that the construction of the compression joint structure to compress the PC beam 20 to the PC pillar 10 by tensioning the joint portion of the PC column 10 and the PC beam 20 by the post tension 31. To provide a compression bonding method of the PC column 10 and the PC beam 20.

That is, there is a technical feature to reinforce the integrity of the joint by pressing the PC beam 20 toward the PC pillar 10 by the tension with the post tension 31.

In the embodiment described below, in addition to arranging the post tension 31 at the joint to improve the cross-sectional performance, the pre-tension is introduced at the lower end of the PC beam 20, and the post tension is also introduced at the slab 40. In other words, it is implemented as a precast prestressed structure as a whole. Such a prestressed structure has the advantage that it is possible to implement an economical and safe structure at the same or less structure height without being greatly affected by the upper conditions, especially underground parking lot where the vibration of the vehicle continuously affects, It can be usefully applied to buildings requiring long spans.

In addition, in one embodiment of the present invention, because the lower surface is parallel to the state in which the PC beam 20 is mounted on the bracket 12 formed on the PC pillar 10, the bracket 12 does not protrude so that the aesthetic appearance after completion is completed. It is excellent, and can secure the stability during construction by ensuring the independence during construction, can reduce the crack leakage of the joint and has the technical characteristics that can increase the seismic performance of the joint. And, by forming the hollow portion 21 in the PC beam 20, by reducing the weight to reduce the field transport overhead and field assembly direct costs, for the post-tension tension for pressing the PC beam 20 and the PC column 10 It is possible to reduce the post-tension 31 length by installing the fixing unit in the hollow portion, which has the technical characteristics of ease of insertion and tension work of the tension member 30.

Hereinafter, the configuration of each of the post-tension compression bonding structure 100 of the PC pillar 10 and the PC beam 20 according to an embodiment of the present invention will be described in more detail. First, Figure 4 shows a partial perspective view of the PC column 10 according to an embodiment of the present invention.

As shown in Figure 4, the PC column 10 is manufactured in a conventional manner, it is preferable to be made in consideration of the joints of the column reinforcement, in one embodiment, the PC column 10 is embedded column reinforcement It can be seen that the case is made to protrude the top surface of the PC pillar (10). And, as shown in Figure 4, the side of the PC pillar 10, it can be seen that the bracket 12 having a side cross-section protruding outward is formed. PC bracket 20 described later is mounted to the bracket 12, it is preferable to be formed to have a suitable protruding length to withstand the load at the time of mounting.

In addition, the PC column 10 according to the embodiment of the present invention is formed with a column through hole 11 so that the PC beam 20 is mounted thereon so that the post tension 31 can be installed. The number of the column through holes 11 is not limited to the drawings and the embodiments, and it is apparent that the pillars can be freely deformed in consideration of the construction situation and the size of the beam.

5A illustrates a perspective view of a PC beam 20 according to an embodiment of the present invention. And, Figure 5b shows a front view of the PC beam 20 according to an embodiment of the present invention. 5A and 5B, the PC beam 20 according to an embodiment of the present invention may adopt that the PC beam 20 has a pretension 30 installed so that prestress is introduced to improve cross-sectional performance. Can be. Introduction of the prestress in the PC beam 20 takes place at its production stage, and the introduction method applies pretension.

In addition, as shown in Figure 5a and 5b, the PC beam 20 according to an embodiment of the present invention can be seen that the hollow portion 21 is formed in the upper side of the interruption. Therefore, since the hollow portion 21 is formed, the process of transporting the PC beam 20 to the construction site can be facilitated, the field work can be reduced, and the construction load can be reduced (for example, 700 mm). * PC beam 20 having a cross section of 1000 mm and having a length of 12 m has a weight of about 20 tons, but when the hollow portion 21 is formed in such PC beam 20, it has a weight of about 13 tons Can reduce weight by%). After the hollow portion 21, the PC beam 20 and the PC pillar 10 is poured into the concrete after the compression bonding by post-tensioning. The length of the hollow portion 21 is to be about 1/2 to 1/3 of the length of the entire PC beam 20.

In addition, as shown in Figures 5a and 5b, it can be seen that at least one storage hole 26 is formed in the PC beam 20 according to an embodiment of the present invention. The storage hole 26 is formed to install a post tension 31 for pressing the PC beam 20 and the PC column 10. In addition, as shown in Figure 5a and 5b, a fixing unit 23 for fixing one end of the post-tension 31 on one side side 22 of the hollow portion 21 is provided, the hollow portion 21 A fixing pocket 25 may be provided at one side of the lower surface 24 to fix one end of the post tension 31.

FIG. 6A shows a partial front view of a portion of the junction 1 of the conventional PC beam 20 and the PC column 10. And, Figure 6b shows a partial front view of the junction portion of the PC beam 20 and PC pillar 10 according to an embodiment of the present invention. As shown in FIG. 6A, the conventional joint part is not beautiful in appearance because the conventional bracket 2 protrudes outwards, and structurally the deformation is concentrated on the joint by the elastic rotational behavior of the joint, thereby damaging the member general part. There are problems of breakage, sagging, cracking and breaking.

However, in one embodiment of the present invention, as shown in Figure 6b, the PC column 10 has a protruding bracket 12 having a magnetic side cross-section, the PC beam 20 is a locking jaw 27 of the magnetic side cross-section It can be seen that the shape is formed when the PC beam 20 is mounted on the bracket 12 of the PC pillar 10 to have structural stability at the construction stage and after construction.

Then, the post tension 31 used for crimping the PC beam 20 and the PC pillar 10 passes through the storage cylinder hole 26 of the PC beam 20 while the pillar through hole 11 of the PC pillar 10 is formed. Arranged so as to pass through and is a member that is fixed after the tension, the post-tension 31 is the result of the tension PC beam 20 is pressed toward the PC pillar (10). As a result, the joint formed of the PC column 10 and the PC beam 20 is strengthened. In addition, as described above, the post tension 31 is fixed by the fixing unit 23 and the fixing pocket 25 installed in the hollow part 21 to store the storage hole 26 and the PC column of the PC beam 20. It is arranged to pass through the column through hole (11) formed in the (10) is fixed to generate a tension force by pressing the PC beam 20 and the PC column (10).

On the other hand, in order to secure additional integrity of the PC beam 20 and the PC pillar 10, in one embodiment of the present invention is complemented through the joint of the lower reinforcement. In other words, the reinforcing bar through which the reinforcing bar reinforces is formed on the side where the PC beam 20 is in contact with the PC pillar 10, and the bottom part is provided at the end where the PC column 10 is in contact with the PC beam 20. After preparing the joint groove is formed to a depth that exposes the reinforcing bar, the end portion is embedded in the lower reinforcing bar and the PC beam 20 is reinforced to pass through the reinforcing bar through the PC pillar 10 in the joining groove of the PC beam 20 Is to make the joint of the exposed reinforcement bar. The joining groove is filled with non-shrink mortar and finished.

In addition, the slab 40 may be further constructed on the PC beam 20, and the slab 40 may be made of a cast in place or a PC slab.

Figure 7 shows a perspective view of a state in which the post-introduced slab 40 is poured in accordance with an embodiment of the present invention. In addition, in order to improve the structural performance of the entire structure, the pre-stress is introduced by arranging post tension in the slab 40, so that deflection, crack control, and long span are realized.

Hereinafter will be described the construction method of the post-tension compression bonding structure 100 of the PC column 10 and the PC beam 20 according to an embodiment of the present invention. Figure 8 shows a flow chart of the construction method of the post-tension compression bonding structure 100 of the PC column 10 and the PC beam 20 according to an embodiment of the present invention.

First, a bracket 12 is formed at one side of the side surface, and a PC pillar 10 having at least one column through hole 11 penetrating the side surface is produced, and a tension force is applied to the pretension 30, and at least one It is to produce a PC beam 20 in which the storage hole 26 and the hollow portion 21 is formed (S1).

Then, the manufactured PC column 10 and the PC beam 20 is moved to the construction site, and the PC column 10 is installed at the column position (S2). Then, the PC beam 20 is mounted on the bracket 12 formed on one side of the PC column 10 (S3). As shown in FIG. 6B, the PC pillar 10 has a protruding bracket 12 having a magnetic side cross section, and the PC beam 20 has a PC beam ( It can be seen that the shape 20 is fitted to the bracket 12 of the PC pillar 10 to have structural stability at the construction stage and after construction.

Then, the post tension 31 is installed in the column through hole 11 formed in the PC column 10 and the storage hole 26 formed in the PC beam 20 to tension and settle to generate tension force (S4). In this step, one end of the post-tension 31 is mounted on at least one fixing unit 23 provided at one side of the hollow portion 21 so that the post-tension 31 is placed in the storage hole 26 and the column through-hole 11. It is installed and tensioned and fixed, and one end of the post-tension 31 is mounted on at least one fixing pocket 25 provided on one side of the hollow part 21, and the storage hole 26 and the column through hole 11 are installed. Post tension 31 is tensioned and fixed.

In addition, the hollow portion 21 formed in the PC beam 20 is to be placed in concrete (S5), and after the concrete portion of the hollow portion 21 is poured, the slab 40 is introduced so that post tension is introduced onto the PC beam 20. Will be constructed (S6).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. It is to be understood that such modified embodiments are within the scope of protection of the present invention as defined by the appended claims.

1: Conventional joint
2: conventional bracket
10: PC pillar
11: Column through hole
12: Bracket
20: PC show
21: Hollow department
22: side of the hollow part
23: anchorage
24: If you learn
It is a pocket for the settlement 25
26: storage hole
It is a jam jaw
30: pretension
31: Post tension
40: slab
100: Post-tension crimping structure of PC pillar and PC beam

Claims (20)

delete delete delete delete In the joint structure of the PC column and the PC beam,
PC pillar is installed at the pole position, the bracket is formed on one side of the outer surface, the column through hole penetrating the side;
A PC beam mounted on the bracket of the PC pillar, having a hollow portion formed at one side of the middle portion, and having a storage hole penetrating from one side surface to the one side surface of the hollow portion; And
Post tension is disposed so as to pass through the pillar through hole and the storage hole at the same time, the tension is settled;
At least one fixing unit capable of mounting one end of the post-tension on one side of the hollow part;
At least one fixing pocket for mounting one end of the post-tension on one side of the lower surface of the hollow portion,
In the state where the PC beam is bonded to the PC pillar, the lower part of the bracket and the lower part of the PC beam are coincident with each other, and the bracket has a c-shaped side cross section protruding to one side of the PC pillar, and is mounted on the bracket to be bonded. The side surface of the PC beam being formed is a locking jaw to be shaped to the bracket,
The length of the hollow portion is 1/2 to 1/3 of the length of the PC beam,
The PC pillar has a reinforcing bar through hole for the bottom of the reinforcing bar to pass through the side of the PC beam, the PC beam is formed at the depth to expose the bottom of the reinforcing bar at the end of the PC beam is formed, the groove A post-tension compression bonding structure of a PC column and a PC beam, characterized in that the bottom of the bottom beam reinforced to pass through the reinforcing hole of the PC beam and the PC beam in the joining groove of the PC beam.
delete delete delete delete delete 6. The method of claim 5,
The post-tension press-bonded structure of the PC pillar and the PC beam, characterized in that it further comprises a slab which is constructed so that the post tension is introduced onto the PC beam.
6. The method of claim 5,
The PC beam is a pre-stressed pre-tension PC beam, characterized in that the pre-stressed pre-tension PC beam disposed in the longitudinal direction penetrating the longitudinal direction in the manufacturing process of the PC beam and PC beam.
In the construction method of post-tension press-bonded structure of PC column and PC beam,
Installing a PC column at a pillar position;
Mounting a PC beam on a bracket formed on one side of the PC pillar;
Installing a post tension in the column through hole formed in the PC column and the storage hole formed in the PC beam to generate tension and tension; And
Including concrete pouring to the hollow portion of the PC beam, including,
Fixing the post tension,
Fixing one end of the post-tension to at least one fixing unit provided at one side of the hollow part and mounting the one end of the post-tension to at least one fixing pocket provided at one side of the bottom of the hollow part; ,
In the step of mounting,
The bracket has a U-shaped side cross section protruding on one side of the PC pillar, and the side surface of the PC beam mounted on the bracket is formed with a locking jaw to fit the bracket,
When the PC beam is mounted on the bracket, the lower part of the bracket and the lower part of the PC beam are coincident with each other.
The mounting step,
The PC pillar has a reinforcing bar through hole for the bottom of the reinforcing bar to pass through the side of the PC beam, the PC beam is formed with a fixing pocket to the depth to expose the bottom of the reinforcing bar at the end of the PC pillar, A method of constructing a post-tension press-bonded joint structure of a PC pillar and a PC beam comprising the step of placing the bottom of the reinforcing bar to pass through the reinforcing hole of the PC pillar in the fixing pocket of the PC beam.
delete delete The method of claim 13,
In the step of mounting
The PC beam is a prestressed pretension PC, which is a pre-stressed pre-tension PC arranged in the longitudinal direction penetrating the longitudinal direction in the manufacturing process of the PC pillar and PC beam post-tension crimping bonded structure.
delete delete The method of claim 13,
After the step of concrete pouring into the hollow part,
And constructing a slab such that post tension is introduced onto the PC beam.
delete

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