KR102416806B1 - PC Structure of wide beam and colum - Google Patents

Abstract

The present invention relates to a story height reduction type wide haunch PC structure system, which can ensure structural performance even in a long span in accordance with a change in span by configuring a permanent bracket larger than the cross-sectional size of a column at a predetermined height of the column, ensure structural performance of a beam having a haunch by forming a connection type capable of securing integrity with a beam end portion by forming a haunch portion on a lower surface of a permanent bracket to form a tapered section, maintain rigidity by widening the width of the beam and reducing the height of the beam, reduce the volume of earthwork and the quantities of slabs, walls, and columns by reducing a story height and a slab span, shorten a construction period, and reduce construction expenses. In the PC structure system using PC columns according to a desirable embodiment of the present invention, the column comprises: a column body of a predetermined size; a permanent bracket formed in a plate shape with a predetermined thickness of which the cross-sectional size is expanded to be larger than the cross-sectional size of the column body at a predetermined height of the column, and having a haunch portion which has an upper surface, which is a flat surface, and a lower surface of which the thickness of an outer surface is thinner than the thickness of a central cross section by a predetermined thickness; and a main reinforced bar embedded in the column body in a vertical direction to protrude upward from the permanent bracket to a predetermined length. A wide beam is configured such that an end portion of the wide beam is mounted on the permanent bracket of the column.

Description

High floor reduction wide haunch PC structure system {PC Structure of wide beam and colum}

The present invention relates to a floor-height reduction wide haunch PC structure system, and more particularly, by configuring a permanent bracket larger than the cross-sectional size of the column at a certain height of the column, it is possible to secure structural performance even in a long span according to the span change. By forming a haunchi part on the lower surface of the bracket to form a side cross-section and form a joint shape that can secure unity with the end of the beam, the structural performance of the beam with haunchi can be secured, and the width of the beam is widened and the dance is reduced. It relates to a floor-height-saving wide haunch PC structure system that can reduce the amount of excavated soil, reduce the amount of slabs, walls and columns, and reduce the construction period and cost by reducing the height of the floor and the slab span while maintaining rigidity.

In the general precast concrete (PC) method, the PC beam manufactured in the factory is mounted on a column, and after placing a Half PC or a deck slab, the concrete is integrally poured on the upper part. However, in this case, since the PC beam is simply supported, it must resist both the cast-in-place concrete and the working load with a positive moment. There was a problem that a separate temporary construction was required.

As the background technology of the present invention, there is Patent Publication No. 2018-0070097 "Prestress hybrid wide flange beam structure system capable of continuous construction method in the construction stage" (Patent Document 1). In the background art, 'a wide lower flange composed of prestressed concrete to have a cross section having a width wider than height and a constant length and into which prestress is introduced; The lower end consists of a pair of steel plates having through-holes formed at regular intervals in the longitudinal direction, and spaced parallel to each other at regular intervals so that the lower end is embedded in the wide lower flange so that the through-holes are exposed to the upper part of the wide lower flange. ; An upper flange for cross-section enlargement for reinforcing the compression zone, each having a thickness greater than that of the buried steel web at the upper end of the embedded steel web; and a space maintaining member formed at regular intervals in the longitudinal direction to connect the upper flanges for expanding the cross-section of both sides; A prestressed hybrid wide flange beam constructed between a column and a column composed of a lower plate of a certain size coupled to the upper surface of the upper flange on both ends of the wide lower flange in the longitudinal direction, and formed with a certain length and parallel It consists of a pair of square bars formed to be spaced apart from each other by a certain distance, and upper plates coupled to the lower portions of both ends in the longitudinal direction of the pair of bars, and the upper plates on both sides are adjacent to each other on both sides of the prestressed hybrid wide flange beam. We propose a 'prestressed hybrid wide flange beam structure system capable of continuous construction in the construction stage, characterized in that it consists of a continuous hardware that is bolted to the upper lower plate.

However, the above background technology also simply supported the PC beam and made it serialized, but this also had a complicated continuation method and had a limit in reducing the dancing of the beam.

Patent Laid-Open No. 2018-0070097 "Prestress Hybrid Wide Flange Beam Structure System with Continuous Construction Method in the Construction Stage"

The present invention is to solve the above problems, and it is possible to secure structural performance even in a long span according to the change in span, and it is possible to maintain rigidity by widening the stride and reducing the dance, and to reduce the floor height, so the amount of slabs, walls and columns The purpose of this is to provide a floor-height-saving wide haunch PC structure system that can reduce the amount of excavated soil, construction period, and construction cost.

In the present invention, in a PC structure system using a PC column, the column is made in a plate shape of a certain thickness so that the cross-sectional size is expanded to have a larger cross-section than the column body at a certain height of the column body and the column body, and the upper part The surface is flat and the bottom surface is a permanent bracket in which a haunchi part is formed, the thickness of the outer surface being a certain thickness thinner than the thickness of the central section, and the main reinforcing bars embedded in the vertical direction to the column body so as to protrude for a certain length to the upper part of the permanent bracket. The wide beam is configured to mount the end on the permanent bracket of the column, the bracket shear reinforcement serving as the shear reinforcement of the wide beam is continuously reinforced on the upper part of the permanent bracket, and the wide beam is mounted on the upper part of the permanent bracket. A double stirrup structure at the column-beam junction is formed by winding the main reinforcing bars in the main reinforcing bars embedded in the vertical direction to the main reinforcing bars embedded in the vertical direction. To provide a floor-to-floor reduction wide haunch PC structure system, characterized in that it has

delete

In addition, the permanent bracket of the column protrudes vertically upward to match the outer end of the wide beam on both sides of the upper surface where the wide beam is not mounted, and the finished side wall is formed. would like to provide

delete

In addition, at both ends of the wide beam in the longitudinal direction, a pocket portion formed by blocking out from the end to the inner side is formed, and the height reduction type wide haunchi PC structure, characterized in that the bracket reinforcing bar is configured to protrude vertically from the pocket portion We want to provide a system.

In addition, to provide a floor-height-saving wide haunch PC structure system, characterized in that a separate joint reinforcing bar is reinforced on the upper part of the permanent bracket so that a certain section of both ends and the main reinforcing bar of the wide beam mounted on both sides of the upper part of the permanent bracket overlap, respectively. do.

In addition, it is intended to provide a floor height reduction type wide haunch PC structure system, characterized in that a mounting jaw is formed at the end of the wide beam and the end of the joint reinforcing bar is mounted on the mounting jaw.

In addition, the permanent bracket is manufactured separately from the column body to provide a floor height reduction wide haunch PC structure system, characterized in that it is assembled on the column body.

The height reduction type wide haunchi PC structure system of the present invention forms a joint shape that can secure the unity with the beam by configuring a permanent bracket larger than the cross-sectional size of the column at a certain height of the column, so that the structural performance of the beam having a haunchi , and forming a haunch on the lower surface of the permanent bracket to form a side section, widening the stride and reducing the dance to maintain rigidity, reducing the slab span and reducing the floor height. , it has a very useful effect to reduce the construction period and construction cost.

The following drawings attached to this specification illustrate preferred embodiments of the present invention, and serve to further understand the technical spirit of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings It should not be construed as being limited.
Figure 1 is a perspective view of the floor height reduction wide heonchi PC structure system of the present invention.
FIG. 2 is a side view of FIG. 1 .
Figure 3 is an exploded perspective view showing the junction structure of the column and the wide beam of the present invention.
Figure 4 is a perspective view showing the junction structure of the column and the wide beam of the present invention.
5 is a plan view of FIG. 4 .
6 is a side cross-sectional view showing another embodiment of the structure of the column and the wide beam joint of the present invention.
7 is a diagram comparing the moment distribution by the bending stiffness of the conventional one-way PC beam system and the floor height reduction type wide haunch PC structure system of the present invention.
8A is a diagram illustrating the size of a parking lot module.
Figure 8b is a view showing a comparison of the floor height reduction of the conventional one-way PC beam system and the floor height reduction type wide haunch PC structure system of the present invention.

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

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

Figure 1 is a perspective view of a high-reduction wide haunchi PC structure system of the present invention, Figure 2 is a side view of Figure 1 above.

The floor height reduction type wide haunchi PC structure system of the present invention is, as in FIGS. 1 and 2, a permanent bracket 12 having an enlarged cross-section than the cross-section of the column 10 on a column 10 made of a PC member integrally It is constructed or manufactured separately from the column body 11 to be assembled on the column body 11, and the wide beam 20 is mounted on the permanent bracket 12, and between the wide beam 20 and the wide beam 20 Deck 30, half PC slab, etc. are mounted and topping concrete 40 is poured on the upper part, and the permanent bracket 12 is used to widen the stride width and reduce the dance so that rigidity can be maintained and the floor height can be reduced, It is to make it easy to implement a long span as much as the increased width and to shorten the air.

Figure 3 is an exploded perspective view showing the junction structure of the column and the wide beam of the present invention, Figure 4 is a perspective view showing the junction structure of the column and the wide beam of the present invention, Figure 5 is a plan view of Figure 4 above.

The column 10 is a plate shape of a certain thickness so that the cross-sectional size is expanded so that the column body 11 of a certain size and the upper end or the upper end of the column body 11 have a larger cross section than the column body 11 at a certain height. It is made of a permanent bracket 12 made of, the permanent bracket 12 is made of a PC member integral with the column body 11, or can be manufactured separately to be coupled to the upper portion of the column body (11). When the permanent bracket 12 is separately manufactured, a separate through hole for penetrating the main reinforcing bar 13 may be formed in the central portion of the permanent bracket 12 .

Such a permanent bracket 12 is formed in a plate shape having a cross section larger than that of the column body 11 , and the lower surface of the part protruding to the outside of the column body 11 of the permanent bracket 12 . The haunchi portion 19 is configured so that the upper surface of the permanent bracket 12 is flat and the lower surface is configured such that the thickness becomes gradually thinner toward the outer end than the thickness of the central section.

At this time, the permanent bracket 12 has a cross-section enlarged in all four directions from the center of the cross-section of the column body 11 to facilitate the mounting of the beam and to use a lowered wide beam.

In particular, in the upper part of the permanent bracket 12, the shear reinforcement 223 of the wide beam 20 and the shear reinforcement 123 protruding to the upper part of the wide beam 20 are vertically secured so that continuity is secured. It can be protruded and placed continuously.

By pre-fabricating both the pillars 10 and the wide beams 20 with PC members, the construction period can be shortened and the workability can be improved, and the permanent bracket 12 having a cross section larger than that of the column body 11 is constructed. It is possible to reduce the span of the beam and reduce the amount of beam, and by lowering the dance of the beam, it is possible to prevent overturning and to easily mount it, thereby increasing stability and safety. It has the effect of reducing the quantity.

The main reinforcing bars 13 are formed in the column body 11 in the vertical direction to the column body 11 so as to protrude a certain length to the upper part of the permanent bracket 12, and the main reinforcing bars 13 are wound around the main reinforcing bar 13. By forming the stirrup muscle 131 to be used, it is also possible to improve the seismic performance at the column-beam joint by having a double stirrup structure at the column-beam joint.

In particular, in the permanent bracket 12 of the pillar 10, the wide beam 20 and the wide beam 20 on both sides are perpendicular to both sides of the upper surface on which the wide beam 20 is not mounted so as to close the side of the space between the wide beam 20, respectively. Concrete pouring can be facilitated between the wide beam 20 and the wide beam 20 by protruding upward to form the finished side wall 18 .

At this time, the finished side wall 18 has an outer surface that coincides with the width direction outer end of the wide beam 20, and the height of the finished side wall 18 can be formed to be the same as the dance of the wide beam 20, and the length to be formed equal to the distance between the ends of the wide beams 20 on both sides.

The wide beam 20 is configured to mount the end on the permanent bracket 12 of the column 10, and the main reinforcing bar 23 is embedded in the wide beam 20 in the longitudinal direction at both ends of the wide beam 20 in the longitudinal direction. When the end of the wide beam 20 is mounted on the upper part of the permanent bracket 12 of the column 10 so that each of the main reinforcing bars 23 protrude by a certain length, the end of the main reinforcing bars 23 is located on the upper part of the column 10 to do it

In particular, the upper part of the permanent bracket 12 protrudes vertically from the part on which the wide beam 20 is mounted, so that the bracket reinforcing bar 121 is configured to ensure continuity and structural integrity.

At this time, the wide beam 20 has pockets 24 formed by blocking out from the ends to the inside at both ends in the longitudinal direction to form pockets 24, and the bracket reinforcing bars 121 are perpendicular to the pockets 24. It may be configured to protrude to increase the mounting length of the wide beam 20 .

6 is a side cross-sectional view showing another embodiment of the structure of the column and the wide beam joint of the present invention.

In addition, as in FIG. 6 , a separate joint reinforcing bar on the upper part of the permanent bracket 12 so that a certain section of both ends and the main reinforcing bar of the wide beam 20 on both sides mounted on both sides of the upper part of the permanent bracket 12 overlap, respectively. (122) may be arranged to have seismic details by securing the length of the inner tension joint of the column.

In particular, the joint reinforcing bar 122 may have a mounting jaw 27 formed at the end of the wide beam 20, and the end of the joint reinforcing bar 122 may be mounted on the mounting jaw 27, and the wide beam 20 The mounting jaw 27 formed on the ridge may be formed by cutting a portion of the upper surface of the wide beam 20 or may be formed by protruding an end of the wide beam 20 .

7 is a diagram comparing the moment distribution by the bending stiffness of the conventional one-way PC beam system and the floor height reduction type wide haunch PC structure system of the present invention.

As shown in FIG. 7, as a result of comparing the moment distribution by bending stiffness, the height-saving wide haunch PC structure system of the present invention reduced the central moment by about 17% compared to the conventional one-way PC beam system, and the end moment was about 13% It can be seen that the increase in cross-section is possible compared to the existing technology.

Figure 8a is a diagram showing the size of the parking lot module, Figure 8b is a diagram showing a comparison of the floor height reduction of the conventional one-way PC beam system and the floor height reduction wide haunch PC structure system of the present invention.

As shown, the conventional one-way PC beam system required a total basement height of 7.3m based on the roof and two basement floors, but in the floor height-saving wide haunch PC structure system of the present invention, the It can be seen that the width of the basement beam can be reduced by about 200mm, and it can be seen that there is an effect of reducing the floor height of 400mm compared to the existing one-way PC beam system.

The height-saving wide haunchi PC structure system of the present invention as described above forms a junction form that can secure the unity with the board portion by configuring a permanent bracket larger than the cross-sectional size of the column at a certain height of the column to form a beam having a haunchi. Structural performance is secured, and a haunchi part is formed on the lower surface of the permanent bracket to form a side section, and it is possible to increase the stride width and reduce the dance to maintain rigidity, reduce the slab span and reduce the floor height, so the amount of slabs, walls and columns , it has a very useful effect to reduce the amount of excavated soil, construction period and construction cost.

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

10 : pillar
11: pillar body
12: permanent bracket
121: bracket reinforcing bar
122: joint reinforcing bar
13: cast rebar
20 : wide beam
23: cast rebar
30 : deck
40: topping concrete

Claims (8)

In a PC structure system using a PC column,
The column 10 is formed in a plate shape of a certain thickness so that the cross-sectional size is expanded to have a larger cross section than the column body 11 at a certain height of the column body 11 and the column body 11 of a certain size, and the upper surface is flat and the lower surface is a permanent bracket 12 having a haunchi portion 19 configured to have a predetermined thickness thinner than the thickness of the central section, and a permanent bracket 12 to protrude a certain length to the upper portion of the permanent bracket 12. (11) is made including the main reinforcing bar (13) embedded in the vertical direction,
It is configured to mount the end of the wide beam 20 to the permanent bracket 12 of the column 10,
On the upper part of the permanent bracket 12, the bracket shear reinforcement 123, which serves as the shear reinforcement of the wide beam 20, is continuously reinforced,
In the upper part of the permanent bracket 12, the bracket reinforcing bar 121 protrudes vertically from the part on which the wide beam 20 is mounted to ensure unity, and the main reinforcing bar is embedded in the column body 11 in the vertical direction. In (13), a stirrup muscle 131 formed by winding the main reinforcing bars 13 is formed to have a double stirrup structure at the column-beam junction. delete The method according to claim 1,
The permanent brackets 12 of the pillar 10 protrude vertically upwards on both sides of the upper surface on which the wide beam 20 is not mounted and coincide with the outer end of the wide beam 20 in the width direction, so that the finished side wall 18 is High floor reduction wide haunch PC structure system, characterized in that it is formed. delete The method according to claim 1,
The wide beam 20 is formed with a pocket portion 24 formed by blocking out from the end to a predetermined section from the inside at both ends in the longitudinal direction,
Reinforcement bracket 121 is a floor height reduction type wide haunch PC structure system, characterized in that it is configured to protrude vertically from the pocket portion (24). The method according to claim 1,
Floor height, characterized in that a separate joint reinforcement 122 is reinforced on the upper part of the permanent bracket 12 so that a predetermined section of both ends and the main reinforcement of the wide beam 20 mounted on both sides of the upper part of the permanent bracket 12 overlap, respectively. Low cost wide haunch PC structure system. 7. The method of claim 6,
At the end of the wide beam 20, a mounting jaw 27 is formed, and the end of the joint reinforcing bar 122 is mounted on the mounting jaw 27. The method according to claim 1,
The permanent bracket 12 is manufactured separately from the column body 11, and the floor height reduction type wide haunch PC structure system, characterized in that it is assembled to the column body 11.

Images