KR102072043B1 - Connection of compressed joint by post-tensioning between PC-column and PC beam and construction method thereof - Google Patents

Abstract

The present invention relates to a post-tension compression structure system using a PC column and a segmented PC beam, and a construction method thereof. More specifically, to overcome the limitations of lifting weight and workability, the beam is segmented and produced in the longitudinal direction of the cross section. The present invention relates to a post-tension compression structure system using a PC pillar and a segmented PC beam to be integrated with a PC pillar in the construction, and a construction method thereof.
One preferred embodiment of the post-tension crimping structure system using a PC column and a segmented PC beam of the present invention is a PC pillar is formed with a protruding jaw so as to protrude outward at a predetermined height and PC pillars on the upper and lower portions of the protruding jaw respectively. An upper through hole and a lower through hole formed therethrough are formed, and the PC beam is formed with a hollow portion having an upper portion opened in a predetermined section of the central portion in the longitudinal direction. The upper through hole is formed by penetrating from the upper end of the cross section of both ends of the PC beam to the hollow portion, and the lower through hole is formed by penetrating in the longitudinal direction below the cross section of the PC beam, and the center portion in the width direction of the PC beam is cut out to form the first member. And a second member, wherein the first member and the second member penetrate the upper end face of both ends of the longitudinal direction and the lower end face of the cross section at predetermined intervals in the longitudinal direction. It is formed by fitting the bearing plate to each end of the steel bar by fixing with a nut, the upper mounting hole and the lower through hole, the upper through hole and the lower through hole so that the lower mounting jaw of the PC beam is projected by the PC pillar Post-tension is introduced by inserting a tension member so as to insert the upper through hole and the lower through hole of the PC column and the upper through hole and the lower through hole of the PC beam at the same time, respectively, and the lower through hole of the PC column and the PC on both sides. It is formed by introducing a post tension by inserting a tension member to insert the upper through hole of the beam.

Description

Connection of compressed joint by post-tensioning between PC-column and PC beam and construction method according to PC column and segmented PC beam

The present invention relates to a post-tension compression structure system using a PC column and a segmented PC beam, and a construction method thereof. More specifically, to overcome the limitations of lifting weight and workability, the beam is segmented and produced in the longitudinal direction of the cross section. The present invention relates to a post-tension compression structure system using a PC pillar and a segmented PC beam to be integrated with a PC pillar in the construction, and a construction method thereof.

Recently, large-scale building structures that require long spans have been increasing, and the existing reinforced concrete (RC) wet method was used when constructing these building structures, but this increased the air and had disadvantages in terms of securing economic feasibility.

Accordingly, the precast concrete (PC) structure, which manufactures beams and columns, which are the main components of buildings, in advance in the factory and assembles them in the field, is preferred. However, the application of PC to large structures has problems such as span length limitation due to design load, weight of operation equipment, constraints due to field conditions, and difficulty in joint handling.

As a background technology of the present invention, Korean Patent Registration No. 1289934, "Post-tension compression bonding structure of PC pillar and PC beam, and a construction method of the bonding structure" (Patent Document 1). In the background art, 'PC pillar and PC beam bonded structure, 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; A PC beam mounted on the bracket side of the PC pillar and having a hollow portion formed at one side of a middle portion thereof, and having a storage hole penetrating from one side surface to the one side surface of the hollow portion; And it is arranged to pass through the column through-hole and the beam through-hole at the same time, and proposes a crimping bonded structure of the PC column and the PC beam, characterized in that it comprises a post-tension settled after the tension.

However, the background art also has problems such as span length constraint due to design load, weight of operation equipment, constraints due to field conditions, and difficulty in joint treatment.

Republic of Korea Patent Registration No. 1289934 "Post-tension crimp joint structure of PC pillar and PC beam and construction method of the joint structure"

The present invention is to solve the above problems, to produce a PC beam in the longitudinal direction of the cross section within the acceptable weight in the field and to assemble it in the field to overcome the weight and construction constraints in the field to implement the long It is possible to mount the PC beam to the PC pillar, and then combine the PC beam segmented using bolts, and to use the tension material to integrate the PC beam and PC pillar, so that the construction is very easy, especially the bearing on the side of the PC beam It is an object of the present invention to provide a post-tension compression structure system using a PC column and a segmented PC beam and a construction method thereof that can easily install a small beam in the longitudinal direction using a plate.

In the present invention, in the bonding system of the PC column and the PC beam, the PC column is formed with a protruding mounting jaw is formed so as to protrude outward at a predetermined height and the upper through hole formed through the PC pillar respectively on the upper and lower portions of the protruding mounting jaw And a lower through hole, the PC beam is formed with a hollow portion having an upper opening at a predetermined section of the central portion in the longitudinal direction, and the lower portions of both ends of the longitudinal direction are formed with lower mounting jaws corresponding to the projecting mounting jaws, and both ends of the PC beam are formed. An upper through hole is formed by penetrating from the upper end of the cross section, and a lower through hole is formed by penetrating in the longitudinal direction under the cross section of the PC beam, and the center portion in the width direction of the PC beam is cut to be formed of the first member and the second member. The first member and the second member are formed in the steel bar through the upper end of the cross-section of both ends of the longitudinal direction and the lower end of the cross section at a predetermined interval in the longitudinal direction, respectively bearing the both ends of the steel bar It is formed by fitting the rate by fitting with a nut, and the lower mounting jaw of the PC beam is mounted on the protruding mounting jaw of the PC pillar so that the upper through hole, the lower through hole, the upper through hole and the lower through hole coincide with each other. The tension member is inserted to insert the through hole, the lower through hole, and the upper through hole and the lower through hole of the PC beam at the same time to introduce post tension, and the tension member is inserted to insert the lower through hole of the PC column and the upper through hole of the PC beam on both sides. It is intended to provide a post-tension compression structure system using a PC pillar and a segmented PC beam, which is formed by inserting a post tension.

In addition, the PC beam is a post using a PC pillar and a segmented PC beam, characterized in that a plurality of shear keys and key grooves of the form protruded and recessed on the surface in contact with the first member and the second member is formed to engage with each other at the time of joining. To provide a tension compression structure system.

In addition, the PC column has a certain range in the center portion in the width direction of the upper surface of the protruding jaw protrudes upward to form an upper protrusion key, and a corresponding recess groove is formed at the end of the PC beam, and the complementary protrusion key is recessed groove. It is to provide a post-tension crimping structure system using a PC pillar and a segmented PC beam, characterized in that it is mounted to be fitted in.

In addition, a through hole is formed through the upper part of the bearing plate of the PC beam in the width direction, and a small beam is mounted inside the upper part of the bearing plate. It is intended to provide a post-tension crimping structure system using a PC column and a segmented PC beam characterized in that it is to be fixed at the end through.

In addition, (a) the step of installing a PC pillar which is formed to protrude outwardly to a predetermined height to protrude out and through and through the upper through hole and the lower through hole respectively in the upper and lower portions of the protruding jaw; (b) A hollow portion having an upper portion formed in a predetermined section of the central portion in the longitudinal direction is formed, and a lower portion of the both ends of the longitudinal portion is formed with a lower portion of the jaw corresponding to the protruding portion, and penetrates into the hollow portion from the upper end of the cross section of the longitudinal direction An upper through hole is formed, and a lower through hole is formed by penetrating in the longitudinal direction under the cross section, and a PC beam including the first member and the second member is cut by cutting the width center in the width direction of the PC beam. The lower mounting jaw of the PC beam is mounted on the protruding mounting jaw of the PC pillar so that the ball and the lower through hole coincide with each other. Inserting a steel bar, and fixing the bearing plates to both ends of the steel bar with nuts to couple the first member and the second member; (c) inserting a tension member so as to insert the upper through hole and the lower through hole of the PC column and the upper through hole and the lower through hole of the PC beam at the same time, thereby introducing and integrating post-tension. The purpose of this study is to provide a method of constructing post-tension compression structure system using column and segmented PC beam.

Further, in step (b), the PC beam is formed with a plurality of shear keys and key grooves protruding and recessed on the surface in contact with the first member and the second member, so that the PC beam is formed to be engaged with each other when bonding; The purpose of the present invention is to provide a construction method of a post-tension crimping structure system using a segmented PC beam.

In addition, in step (a), the PC pillar has a predetermined range of the central portion in the width direction of the upper surface of the protruding jaw protrudes upward to form an upper protruding key, and in step (b), the PC beam also corresponds to the end of the PC beam. It is intended to provide a construction of a post-tension compression structure system using a PC pillar and a segmented PC beam, characterized in that the recessed groove is formed so that the complementary protrusion key is fitted into the recessed groove.

Further, in step (b), a through hole is formed through the upper part of the bearing plate 31 of the PC beam in the width direction, and after step (c), a small beam is mounted inside the upper part of the bearing plate. To provide a construction method of a post-tension crimping structure system using a PC column and a segmented PC beam, the tension member is to pass through the through holes of the small beams and PC beams on both sides in the width direction.

Post-tension compression structure system and construction method using PC column and segmented PC beam of the present invention, the PC beam is segmented in the longitudinal direction of the cross section to produce within the weight acceptable in the field and to assemble it in the field weight and construction constraints It can be realized by overcoming the matter, and it is very easy to install by mounting the PC beam on the PC pillar and then using the bolt to combine the segmented PC beam and using the tension material to integrate the PC beam and PC pillar. In particular, there is a very useful effect to be able to easily install a small beam in the direction perpendicular to the length by using a bearing plate on the side of the PC beam.

The following drawings attached in this specification are illustrative of the preferred embodiments of the present invention, and together with the detailed description of the invention serves to further understand the technical spirit of the present invention, the present invention is only to the matter described in the accompanying drawings It should not be construed as limited.
1 is a view schematically showing a post-tension crimping structure system using a PC column and a segmented PC beam of the present invention.
2 is a side view of FIG. 1.
3 is an exploded perspective view of a part of FIG. 1.
4 is a cross-sectional view taken along line AA of FIG. 2.
5 is a cross-sectional view taken along line BB of FIG. 2.
6 is a perspective view and a plan view showing another embodiment of the PC beam of the present invention.
7 is a view showing another embodiment of the junction of the PC column and the segmented PC beam of the present invention.

In the following the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments presented are exemplary for a clear understanding of the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention according to a preferred embodiment in detail.

1 is a schematic view showing a post-tension crimping structure system using a PC column and a segmented PC beam of the present invention, FIG. 2 is a side view of FIG. 1, and FIG. 3 is a partially exploded perspective view of FIG. 1.

Post-tension compression structure system using a PC column and a segmented PC beam of the present invention is formed by segmenting in the longitudinal direction of the cross section on the top of the PC pillar 10, the protrusion mounting jaw 14 is formed, as shown in Figs. Being mounted on the PC beam 20 and tensioned by the tension member 40 will be to integrate the PC column 10 and the PC beam 20.

The PC column 10 in the present invention is such that the protruding mounting jaw 14 is formed so as to protrude outward at a predetermined height on which the PC beam 20 is mounted.

Protruding mounting jaw 14 may be formed in a variety of lengths or shapes protruding to the portion where the PC beam is to be mounted.

In addition, the upper through hole 12 and the lower through hole 13 are formed in the upper and lower portions of the protruding mounting jaw 14 so as to penetrate the PC pillar 10, respectively. The upper through hole 12 and the lower through hole 13 are intended to integrate the PC pillar 10 and the PC beam 20 by inserting the tension member 40 to introduce post tension.

PC beam 20 of the present invention is made of a combination of the first member 20a and the second member 20b, as shown in Figure 3, in this way, the PC beam 20 and the first member (20a) Produced separately as a second member (20b) mounted on a PC pillar (10) and assembled to form a PC beam (20) to produce within the acceptable weight on site and to assemble it in the field to lift the weight and construction constraints Overcoming this can be achieved.

The PC beam 20 can reduce the weight of the PC beam 20 by forming a hollow portion 21 having an upper opening in a predetermined section of the central portion in the longitudinal direction, and the PC column 10 and It is possible to provide a mating surface to enable the integration of.

Lower portions of both ends of the PC beam 20 in the longitudinal direction are formed so that the lower mounting jaw 24 is formed to block out so as to correspond to the protruding mounting jaw 14, so that the PC beam 20 protrudes from the PC pillar 10. The mounting jaw 14 to facilitate the mounting.

In particular, the upper through hole 22 is formed by penetrating into the hollow portion 21 from the upper end of both ends of the PC beam 20, the lower through hole 23 penetrates in the longitudinal direction below the cross section of the PC beam 20. ) To form.

PC beam 20 of the above-described form is formed by dividing the first member 20a and the second member 20b so that both sides of the cross section is symmetrical, the upper through hole 22 and the lower through hole 23 Plural can be formed to be symmetrical.

The upper through hole 22 and the lower through hole 23 are used to integrate the PC column 10 and the PC beam 20 by inserting the tension member 40 to introduce post tension.

In order to combine the first member 20a and the second member 20b to form the PC beam 20, the steel bar 30 is penetrated through the upper end of the cross-section of both ends of the longitudinal direction and the lower end of the cross-section at predetermined lengthwise sections. Both ends of the steel bar 30 are inserted so as to protrude a predetermined length, and after inserting the bearing plate 31 having a certain size plate shape in order to increase the acupressure area at each end of the steel bar 30, the nut 32 is fixed to the PC beam 20 ) To form.

In this case, a separate coupling hole for inserting the steel bar 30 should be formed in the first member 20a and the second member 20b.

The PC beam 20 is the PC beam 20 such that the upper through hole 12 and the lower through hole 13 and the upper through hole 22 and the lower through hole 23 coincide with each other, as shown in FIG. 3. The lower mounting jaw of the 24 is mounted to the protruding mounting jaw 14 of the PC pillar 10, the upper end of the cross section of the PC beam 20 is the upper through hole 12 and the lower through hole ( 13) and the tension member 40 is inserted to insert the upper through hole 22 and the lower through hole 23 of the PC beam 20 at the same time to introduce post tension.

The lower end of the cross section of the PC beam 20 inserts the tension member 40 so as to insert the lower through hole 13 of the PC pillar 10 and the upper through hole 22 of the PC beam 20 on both sides to introduce post tension. Do it. At this time, the position where the tension member 40 is to be fixed so as to be fixed at the outermost end after passing through a plurality of PC columns and a plurality of PC beams 20 collectively.

4 is a cross-sectional view taken along line A-A of FIG. 2, and FIG. 5 is a cross-sectional view taken along line B-B of FIG. 2.

Conventionally, in the crimping method using post-tensioning, it is impossible to install a small beam, so that the thickness of the slab is increased, but this causes the increase in construction cost.

In the present invention, the through-holes 28 are formed in the upper portion of the bearing plate 31 of the PC beam 20 so as to penetrate in the width direction, and the small beam 50 is formed inside the upper portion of the bearing plate 31. It is mounted so that the tension member 60 passes through the small beams 50 on both sides in the width direction and the through holes 28 of the PC beams 20 so as to settle at the ends, thereby mounting the small beams 50 and the PC beams. (20) can be integrated.

6 is a perspective view and a plan view showing another embodiment of the PC beam of the present invention.

In particular, as shown in FIG. 6A, the PC beam 20 has a plurality of shear keys 27 and key grooves 27a formed in a protruding and recessed shape in the first member 20a, and also in the second member 20b. A plurality of shear keys 27 and key grooves 27a corresponding thereto are formed, and as shown in FIG. 6B, the shear keys are engaged with each other when the first member 20a and the second member 20b are engaged. Can play a role.

7 is a view showing another embodiment of the junction of the PC column and the segmented PC beam of the present invention.

As shown in FIG. 7A, the protruding mounting jaw 14 of the PC pillar 10 has a predetermined range in the width direction center portion of the upper surface to protrude upward to form the upper protruding key 141 so as to be formed into a U-shape. A corresponding recessed groove 29 is also formed at the end of the PC beam 20 so that the complementary protrusion key 141 is mounted so as to be fitted into the recessed groove 29 so that it can be easily mounted at the correct position and the shear key is provided. Can play a role.

In particular, as shown in FIG. 7B, the steel bar 30 may pass through the upper protrusion key 141 when the first member 20a and the second member 20b are coupled to each other.

The construction method of the post-tension compression structure system using the PC column and the segmented PC beam of the present invention will be described in order.

First, the PC pillar 10 is installed (a).

Since the PC pillar 10 and the PC beam 20 are the same as the above-described contents, they will be omitted.

Thereafter, the PC beam 20 is mounted on the PC pillar 10, and the first member 20a and the second member 20b are separately lifted and mounted on the PC pillar 10 and the steel bar 30. To penetrate in the width direction of the first member 20a and the second member 20b, respectively, and fit the bearing plate 31 to fix the nut 32 to produce the PC beam 20.

Thereafter, the tension member 40 inserts the upper through hole 12 and the lower through hole 13 of the PC pillar 10 and the upper through hole 22 and the lower through hole 23 of the PC beam 20 at the same time. (C) to insert a post-tension to integrate.

In the case of constructing the small beam 50, after the step (c), the small beam 50 is mounted inside the upper portion of the bearing plate 31, and the tension member 60 is mounted on the small beam 50 on both sides in the width direction. And to penetrate through the through hole 28 of the PC beam 20 to be fixed at the end to install a small beam (50).

Post-tension compression structure system and construction method using the PC column and the segmented PC beam of the present invention as described above, the PC beam is segmented in the longitudinal direction of the cross-section to produce within the acceptable weight in the field and to assemble it in the field by weight and weight The construction can be realized by overcoming the limitations of construction, and the PC beam is mounted on the PC pillar, and the PC beam and PC pillar are integrated by using bolts, and the PC beam and PC pillar are integrated by using tension material. It is easy and, in particular, there is a very useful effect to be able to easily install a small beam in the direction perpendicular to the length by using a bearing plate on the side of the PC beam.

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art may make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The invention is not limited by the invention as such variations and modifications but only by the claims appended below.

10: PC pillar
12: upper through hole
13: lower through hole
14: protruding mounting jaw
20: PC report
20a: first member
20b: second member
21: hollow part
22: upper through hole
23: lower through hole
24: the lower mounting jaw 24 is formed,
30: steel bar
31: bearing plate
32: Nut
40, 60: tension material
50: little boy

Claims (8)

In joining system of PC pillar and PC beam,
The PC pillar 10 has a protruding mounting jaw 14 formed to protrude outward at a predetermined height, and the upper through hole 12 formed by penetrating the PC pillar 10 at the upper and lower portions of the protruding mounting jaw 14, respectively. ) And the lower through hole 13 is formed,
The PC beam 20 has a hollow portion 21 having an upper portion opened at a predetermined section of the central portion in the longitudinal direction, and the lower portion of the both ends of the longitudinal direction is formed with a lower mounting jaw 24 corresponding to the protruding mounting jaw 14. Become,
The upper through hole 22 is formed by penetrating into the hollow portion 21 from the upper end of both ends of the PC beam 20, and the lower through hole 23 penetrates in the longitudinal direction to the lower end of the PC beam 20. Formed,
The widthwise center portion of the PC beam 20 is cut and made of a first member 20a and a second member 20b,
The first member 20a and the second member 20b each have a steel bar 30 penetrating the upper end surface of both end portions of the longitudinal direction and the lower end surface of the predetermined section in the longitudinal direction. Plate 31 is formed by fitting and fixing with a nut 32,
The lower mounting jaw 24 of the PC beam 20 is formed in the PC column 10 so that the upper through hole 12 and the lower through hole 13 and the upper through hole 22 and the lower through hole 23 coincide with each other. Mounted on the protruding mounting jaw 14,
The tension member 40 is inserted to simultaneously insert the upper through hole 12 and the lower through hole 13 of the PC pillar 10 and the upper through hole 22 and the lower through hole 23 of the PC beam 20, respectively. To introduce post-tension,
Post tension is introduced by inserting the tension member 40 to insert the lower through hole 13 of the PC column 10 and the upper through hole 22 of the PC beam 20 on both sides.
A through hole 28 is formed in the upper portion of the bearing plate 31 of the PC beam 20 in the width direction, and a small beam 50 is mounted inside the upper portion of the bearing plate 31, and the tension member 60. ) Is a post-tension compression structure system using a PC column and a segmented PC beam, characterized in that through the through-hole 28 of the small beam 50 and the PC beam 20 on both sides in the width direction. The method according to claim 1,
The PC beam 20 has a plurality of shear keys 27 and key grooves 27a in the form of protrusions and recesses formed on the surface contacting the first member 20a and the second member 20b, so as to be engaged with each other when bonding. Post-tension compression structure system using a PC column and segmented PC beam, characterized in that formed. The method according to claim 1,
PC column 10 is a predetermined range of the central portion in the width direction of the upper surface of the protrusion mounting jaw 14 protrudes upwards to form an upper protrusion key 141,
Corresponding recess 29 is also formed at the end of the PC beam 20,
Post-tension compression system using a PC pillar and segmented PC beam, characterized in that the complementary projection key (141) is mounted so as to fit in the recess groove (29). delete (a) The protruding mounting jaw 14 is formed to protrude outward at a predetermined height, and the upper through hole 12 and the lower through hole 13 penetrate through the upper and lower portions of the protruding mounting jaw 14, respectively. Installing the PC column 10;
(b) A hollow portion 21 having an upper opening at a predetermined section of the central portion in the longitudinal direction is formed, and lower portions of both ends of the longitudinal direction are formed with a lower mounting jaw 24 corresponding to the protruding mounting jaw 14. The upper through hole 22 is formed by penetrating into the hollow portion 21 from the upper end of both ends in the direction, and the lower through hole 23 is formed by penetrating in the longitudinal direction in the lower end of the cross section, and the width direction of the PC beam 20 is formed. The PC beam 20 which consists of the 1st member 20a and the 2nd member 20b by cutting the center part,
The lower mounting jaw 24 of the PC beam 20 is formed in the PC column 10 so that the upper through hole 12 and the lower through hole 13 and the upper through hole 22 and the lower through hole 23 coincide with each other. The steel bar 30 is inserted into the protruding mounting jaw 14 and penetrates the first member 20a and the second member 20b through the upper end face of both ends of the longitudinal direction and the lower end face of the predetermined section in the longitudinal direction. Each bearing plate 31 is fitted to both ends of the steel bar 30 to be fixed by a nut 32 to couple the first member 20a and the second member 20b,
Comprising the through-hole 28 is formed in the upper portion of the bearing plate 31 of the PC beam 20 to penetrate in the width direction;
(c) the tension member 40 to simultaneously insert the upper through hole 12 and the lower through hole 13 of the PC column 10 and the upper through hole 22 and the lower through hole 23 of the PC beam 20, respectively. Inserting and introducing post-tension to integrate; And
(d) The small beam 50 is mounted inside the bearing plate 31, and the tension member 60 passes through the small beam 50 on both sides in the width direction and the through hole 28 of the PC beam 20. A method of constructing a post-tension crimping structure system using a PC pillar and a segmented PC beam, characterized in that it comprises a; The method according to claim 5,
In the step (b), the PC beam 20 is formed with a plurality of shear keys 27 and key grooves 27a protruded and recessed in a surface contacting the first member 20a and the second member 20b. Construction method of the post-tension crimping structure system using a PC column and segmented PC beam, characterized in that it is formed to interlock with each other when bonding. The method according to claim 5,
In the step (a), the PC pillar 10 has a predetermined range of the central portion in the width direction of the upper surface of the protrusion mounting jaw 14 protrudes upwards to form an upper protrusion key 141,
In the step (b), the recess groove 29 corresponding to the end of the PC beam 20 is formed,
Complementary projection key (141) is a method of construction of the post-tension crimping structure system using a PC column and segmented PC beam, characterized in that is mounted so as to fit into the recess groove (29). delete

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