KR0153719B1 - A precast post structure and working method of underground structure using precast post - Google Patents

Abstract

The present invention relates to a construction method of a ready-made concrete column and an underground construction using the intermediate plate that allows two-layer pillars to be installed at the same time. The technical configuration of the lower plate 10 and the lower plate are briefly described below. A vertical support 20 integrally attached to an upper surface and vertically extending upward, and a ready-made concrete column formed of an upper plate 30 at an upper end of the vertical support, the middle portion of the vertical support 20 A ready-made concrete column formed with an intermediate plate for supporting the lower layer beams on the upper surface of the intermediate plate 40 integrally formed on the outer circumferential surface thereof;

In the state in which the outer wall portion 50 forming the bearing wall on the upper concrete edge is poured, the ready-made concrete pillars 1 having the intermediate plate 40 are formed at regular positions on the upper surface of the bottom concrete, and the ready-made concrete The lower layer beams 60 made of ready-made concrete are supported on the upper surface of the middle plate 40 of the pillars, but the fitting nibs 42 are formed on the upper surface of the middle plate 40 so as to be formed on the lower surface of the lower layer beam 60. The lower layer slab 70 made of ready-made concrete is installed on the upper part of the bottom layer beam, and is supported by being supported by the top plate 30 of the ready-made concrete pillars. It is to connect the upper layer beam (60a) to be made, and the underground building construction method is completed by installing the upper layer slab (70a) made of ready-made concrete on the upper layer beam.

Description

Ready-made concrete pillar with intermediate plate and construction method of underground construction using the same

1 is a perspective view showing a conventional ready-made concrete pillar.

2 is a side view of FIG.

3 is an exemplary view of the construction of underground buildings using conventional ready-made concrete pillars.

Figure 4 is a perspective view of a ready-made concrete pillar formed with an intermediate plate of the present invention.

5 is a partially cut away side view of FIG.

Figure 6 (a) ~ (d) is an exemplary view showing a process for the construction of the underground building using the ready-made concrete pillar on which the intermediate plate of the present invention is formed.

Figure 7 is a side cross-sectional view of the construction of the underground building of the present invention.

8 is an enlarged part of the incision.

* Explanation of symbols for main parts of the drawings

1: Ready-made concrete column with intermediate plate 10: Lower plate

20: vertical support 30: top plate

40: middle plate 42: fitting

50: outer wall 60: lower floor beam

62: fitting groove 60a: upper floor beam

70: lower layer slab 70a: upper layer slab

The present invention relates to a ready-made concrete column formed with an intermediate plate that allows two-layer pillars to be constructed at the same time and a construction method of underground buildings using the same.

Conventional ready-made concrete column (1a) is shown in Figure 1 and 2, the lower plate 10 for transmitting the load to the bottom concrete upper surface, and integrally formed on the upper surface of the lower plate vertically upward Extends and consists of a vertical support 20 for transmitting the load to the lower plate, and an upper plate 30 integrally formed at the upper end of the vertical support to transfer the load transmitted from the beams to the vertical support 20. It became.

In the construction method of the underground construction using the conventional ready-made concrete pillars configured as described above, as shown in FIG. 3, the outer wall portion 50 forming the bearing wall is divided by partitioning the space with the outside on the upper edge of the bottom concrete 54. And, ready-made concrete pillars (1a) erected at regular positions on the upper surface of the bottom concrete, the ready-made concrete beams (60b) are supported on the top plate 30 of the ready-made concrete pillars, and ready-made concrete on the top of the ready-made concrete beams By installing the slab 70b made of uncured concrete was integrally placed on the upper surface was to complete the underground structure.

In the conventional underground construction thus constructed, the beams 60b are supported on the upper surface of the top plate 30 of the ready-made concrete pillar, so there is no difficulty in constructing a single layer, but since there is no structural part that can connect the beam to the middle of the column There was a problem that the air is long because the lower layer and the upper layer can not be installed together. That is, the conventional one has a problem in that the air is long because the upper layer must be constructed by standing the upper layer pillar separately after the lower layer construction is completely completed.

It is an object of the present invention to provide a ready-made concrete column and an underground construction method using the intermediate plate is formed so that the two-layer column can be installed at the same time.

Hereinafter, the technical configuration of the present invention in detail.

The ready-made concrete column 1 having the intermediate plate of the present invention also has a lower plate 10 supported on the bottom surface, a vertical support 20 integrally attached to the upper surface of the lower plate and extending vertically upward, and the vertical support In the upper end portion formed with the upper plate 30 is not much different from the conventional one.

However, the present invention, as shown in Figures 4 and 5, the intermediate plate 40 is formed integrally protruding to the outer peripheral surface of the middle portion of the vertical support 20 is further made to make a lower layer beam on the upper surface (60) to be supported is a basic feature of the technical configuration.

Here, the intermediate plate 40 protrudes from the outer circumferential surface of the middle portion of the vertical support to shorten the air by allowing the beam to be supported and constructing the two-layer column at the same time. That is, as shown in FIGS. 6 and 7, the intermediate plate 40 is supported by the lower stratified beam 60 and the upper plate 30 is supported by the upper stratified beam 60a. The pillars are to be erected at the same time. At this time, the lower plate 10 to the middle plate 40 is the height of the lower layer and the middle plate 40 to the upper plate 30 is the height of the upper layer.

As described above, the present invention has not been formed in the middle part of the pillar, so that the structure is not formed, the upper layer after the lower layer is completed, the upper layer by completing the upper layer, unlike the conventional air, which is long, the outer peripheral surface of the middle portion of the vertical support 20 The intermediate plate 40 which is integrally formed on the upper plate 30 is additionally made so that the lower layer beams 60 are supported on the upper surface thereof, and the upper plate 30 is supported by the upper layer beams 60a. Because it can be installed, it has the effect of shortening the air.

The intermediate plate 40, as shown in FIGS. 5 and 8, the intermediate wire mesh 41 connected to the main root 21 of the vertical support 20, the lower portion is connected to the inside of the intermediate wire mesh The upper portion is a structural portion that is fitted to the support groove 62 formed on the lower surface of the lower layer beam 60 so that the fitting tip 42 protruding on the upper surface of the intermediate plate 40 is disposed.

The fitting tip 42 protruding from the intermediate plate as described above transfers the concentrated load received from the lower layer beam 60 to the intermediate wire mesh 41, and distributes the intermediate wire mesh to the vertical support 20, thereby efficiently transferring the load. To do. And the load distributed on the vertical support 20 is transmitted to the bottom concrete 54 through the lower plate (10).

Accordingly, the intermediate plate 40 effectively distributes the concentrated load transmitted from the lower layer beam 60 to the vertical support via the intermediate wire mesh 41, thereby preventing local destruction of the intermediate plate. The lower layer beam is tightly supported to prevent movement and detachment.

On the other hand, the fitting tip 42 is preferably to use a steel bar having a sufficient structural strength, when manufacturing the lower part of the bar can be produced by pouring uncured concrete by binding to the intermediate wire mesh 41 by binding lines, etc. .

As shown in FIGS. 6 and 7, a method of constructing an underground structure using a ready-made concrete column formed with an intermediate plate of the present invention configured as described above is, first, an outer wall portion forming a bearing wall on the top edge of the bottom concrete 54. (50) in the state of pouring the construction of the concrete concrete pillars (1) on which the intermediate plate 40 is formed at a predetermined position on the top surface of the bottom concrete, and second, with the ready-made concrete on the upper surface of the intermediate plate 40 of the ready-made concrete pillars The lower layer beams 60 are made to be supported, but the fitting tip 42 is formed to protrude from the upper surface of the intermediate plate 40 so as to be supported by being fitted in the fitting groove 62 formed on the lower surface of the lower layer beam 60. Third, the lower layer slab 70 is made of ready-made concrete on the top of the bottom layer beam, and fourth, is supported by the top plate 30 of the ready-made concrete pillars and only made of ready-made concrete Eojineun to and connected to the top layer information, and fifth, to install the upper slab (70a) made of a ready-made concrete on top of the upper beam.

Such an underground construction structure of the present invention is the bottom layer beam 60 is supported on the upper surface of one ready-made concrete pillar intermediate plate 40, the intermediate plate 40 is formed and the upper layer beam 60a on the upper surface of the upper plate 30 ) Can support the role of two-tiered pillar at the same time has the effect of bringing shortening of the air, unlike the prior art that the pillars of the lower layer and the upper layer were constructed separately.

Here, the fitting groove 62 is a structure that allows the metal sleeve 63, which is open at one side, is buried, but is connected to the prosthetic net 61, as shown in FIG.

As shown in FIG. 8, the fitting groove 62 configured as described above is fitted with the fitting tip 42 fitted inside the metal sleeve 63 having one side open. That is, the load transmitted from the slab 70 to the prosthetic net 61 is transmitted to the fitting tip 42 through the metal sleeve 63. As described above, the fitting tip 42 transmits the load to the intermediate wire mesh 41 and the intermediate wire mesh distributes the concentrated load to the vertical support 20 to be delivered to the floor concrete.

Therefore, the fitting groove 62 has the effect of preventing the local breakage of the lower layer beam 60 because the metal sleeve 63 smoothly transfers the concentrated load to the fitting tip 42. It has the effect of preventing movement and detachment.

On the other hand, the metal sleeve 63 can be manufactured by pouring uncured concrete by binding to the prosthetic net 61 with a binding line or the like in the same manner as the fitting nib 42.

The outer wall portion 50 is a structural portion that partitions a space with the outside on the top surface of the bottom concrete 54 and forms a bearing wall, and is a structural portion that is poured in the field together with the floor concrete.

Here, as shown in FIGS. 6 and 7, the outer wall portion is provided with a lower layer auxiliary pillar 51 and an upper layer auxiliary pillar 51a protruding integrally at regular intervals therein, and a lower layer beam 60 on the upper end thereof, respectively. ) And the upper floor beam 60a will be supported. The upper layer auxiliary pillar (51a) is preferably made to be made after the lower layer beam (60) is installed.

The lower layer beams 60 and the upper layer beams 60a are structural parts for transferring loads transmitted from the lower layer slab 70 and the upper layer slab 70a to the pillars, respectively, which are supported by the intermediate plate 40 and the upper plate 30, respectively. will be. At this time, as shown in Figure 7, the upper layer beam (60a) is connected to extend close to the center of the upper plate, but the lower layer beam (60) is fitted to the intermediate plate 40 by fitting grooves 62 are formed on the lower surface of the connection portion (42) is inserted and connected.

In addition, as shown in Figure 6 and 8 in the embodiment of the present invention, the upper and lower layer beams (60a, 60) and the upper and lower layer slabs (70a, 70) are made of a half beam and a half slab, respectively To lose. This is to reinforce the reinforcing bar on the upper surface of the members and to install the unhardened concrete integrally in the field so that the pillars 1, the beams 60, 60a and the slabs 70, 70a have a unity with each other.

Therefore, it is possible to smoothly carry the load by constructing the vulnerable parts that are not easily transferred to the connection part of the building, which is constructed of ready-made concrete, with unhardened concrete.

As described above, the present invention allows the intermediate plate to be integrally formed on the outer peripheral surface of the middle portion of the vertical support to be additionally made so that the lower layer beams are supported on the upper surface and the upper layer beams 60a are supported on the upper plate. Since the pillars can be installed at the same time, it is very useful for shortening the air.

Claims (5)

The lower plate 10 supported on the bottom surface, the vertical support 20 is integrally attached to the upper surface of the lower plate extending vertically to the top, and the top plate 30 formed on the upper end of the vertical support In the concrete column, the intermediate plate is formed of an intermediate plate, characterized in that the intermediate plate 40 is formed integrally protruding to the outer peripheral surface of the vertical support 20 so that the lower layer beams are supported on the upper surface Pillar According to claim 1, wherein the intermediate plate 40 is the intermediate wire mesh 41 connected to the main root of the vertical support 20, the lower portion is connected to the inside of the intermediate wire mesh and the upper portion of the intermediate plate 40 An intermediate plate-shaped concrete pillar having an intermediate plate, characterized in that the fitting tip 42 is formed to protrude above the upper surface is inserted and supported by the fitting groove 62 formed in the lower surface of the connection portion of the beam. In the state in which the outer wall portion 50 forming the bearing wall on the upper concrete edge is poured, the ready-made concrete pillars 1 having the intermediate plate 40 are formed at regular positions on the upper surface of the bottom concrete, and the ready-made concrete pillar While the lower layer beams 60 made of ready-made concrete are supported on the upper surface of the middle plate 40 of the fittings, a fitting tip 42 is formed on the upper surface of the middle plate 40 so as to be formed on the lower surface of the lower layer beam 60. The lower layer slab 70 made of ready-made concrete is installed on the lower layer beam and supported by the top plate 30 of the ready-made concrete pillars, and is supported and made of ready-made concrete. To connect the upper layer beam (60a) and to install the upper layer slab (70a) made of ready-made concrete on the upper layer beam to allow the two-layer column to be installed at the same time Construction method of the underground structure with ready-made concrete columns formed intermediate plate, characterized in that to shorten. The method of claim 3, wherein the fitting groove 62 is a metal sleeve (63) is embedded to connect to the prosthetic net (61). According to claim 3, wherein the upper and lower layer beams (60a, 60) and the upper and lower layer slabs (70a, 70) are made of a half-layer and half slab, respectively, the basement with a ready-made concrete pillar formed with an intermediate plate Construction method of building.