KR101056395B1 - The water-storage tank of assembly type and method for constructing thereof - Google Patents

Abstract

PURPOSE: A prefabricated storage-tank structure and a method of constructing a storage-tank structure are provided to ensure construction safety due to overturn prevention in construction since one or more detachable reinforcing members are assembled to one side of the outer circumferential surface of a PC wall before or after construction. CONSTITUTION: A prefabricated storage-tank structure comprises PC slabs(100), PC girders(200), a PC post(300) and a PC wall. The PC slabs are formed to make the same pitch to a support rib in a width direction. Each cross section of the PC girders has a square beam form so that the PC slabs are mounted. The PC post is formed to cure a space with shrinkage compensation mortar or cast-in-place-concrete . The PC wall enables a right-angled triangular reinforcing member to be detachably coupled to a wall body by bolt coupling.

Description

Prefabricated storage tank structure and construction method of the storage tank structure

The present invention is to be constructed by combining the PC slab, PC girder, PC pillar, PC wall for the construction of the storage tank structure, in particular a plurality of PC slab is mounted in one direction and the other direction (length direction and In addition to ensuring structural continuity in the width direction), support ribs and reinforcement ribs protruding downward are designed with the same pitch interval to fundamentally block cracks generated at the connection point (butting part) in the width direction of the conventional slab. It is formed to improve the stability, and the PC column is formed so that the height adjustment adjustment bolt is installed at the bottom to improve the workability in construction, In addition, the PC wall is installed on one side of the outer peripheral surface detachable one or more reinforcing materials are installed Assembling ensures construction safety by preventing falling during construction Ease of stripping (dissolution) assembled reservoir structure, characterized in that for improving the operation convenience of the operator by the operation and to a construction method of the reservoir structure.

In general, as rainwater is not submerged into the basement during heavy rains due to the increase of buildings and the increase of the pavement rate of the surface, the phenomenon of frequent inflow into the sewer or river occurs frequently during the rainy season.

This is because, due to the recent urban development, various structures such as buildings, asphalt, concrete pavement, parking lot facilities, etc. are rapidly increased, and the rainwater is directly discharged to the river through rainwater pipes, and a large amount of rainwater is concentrated at once.

Thus, if the rainy season exceeds the allowable inflow of rainwater, flooding leads to flooding of roads or houses and buildings by rainwater. On the contrary, when the inflow of rainwater decreases, the water quality of the stream deteriorates. In addition, there is a problem that the ground water is also depleted, and a storage tank has been developed that can adjust the outflow to the river by temporarily storing the rainwater in the basement.

Recently, construction methods using PC slabs, which require a long span (long span) for construction due to the enlarged facilities of underground structures such as storage tanks, have been implemented.

In recent years, the double tee slab method has been implemented. That is, as shown in Figure 9, also known as DTS method Double T slab is formed to form a integral member after installing a deep reinforcing rib on the bottom plate and applying a tensile force by inserting a strand in the lower portion of the reinforcing rib, The double tee slab is formed so that the center of the body plate of the double tee slab is slightly raised due to the tensile force of the strand and is mainly applied to the ground layer structure with a long span of about 10 m or more.

However, the above-mentioned double tee slab method is difficult to form a continuous slab form (both height information) because it is settled in a simple beam form when it is placed on a PC beam, which is weak in structure due to a decrease in resistance to vertical forces such as bending and shearing forces. In order to improve this problem, the reinforcing ribs are additionally laid or formed to increase the height of the protruding height, which in turn increases the manufacturing cost such as the use of a large number of PC pillars. This occurred.

Accordingly, as shown in FIG. 10, in order to improve resistance to the vertical direction between floors of underground parking lots and to ensure structural continuity, multi-slabs have been constructed, and the multi-slab has four reinforcing ribs at the bottom of the panel. By forming evenly at the intervals, it is induced to encourage the same vertical resistivity (sharing ratio).

However, the above-described double tee slab or multi slab is fixed to the connecting rod or reinforcing bar at both ends contacted with the neighboring slab, and then the site concrete is added to cure the layer, the conventional slabs are structurally Not only does the lateral continuity of the panel not be secured, but also the additional reinforcement of the connecting or reinforcing bars may cause cost increase and workability deterioration. It is lowered and there are not many problems in construction.

In addition, conventional PC columns should be provided with excessive hardware when joining to the ground, or after forming the mortar filling grooves by chamfering, etc. in the bottom edge of the PC pillars, if the connecting muscles protruding from the foundation is inserted into the mortar filling grooves It was formed to be a solid support fixing by filling the.

However, this conventional PC pillar is simply installed on the floor concrete, the situation has been generated a lot of difficulties in the absence of a separate control mechanism to uniformly match the ceiling height.

The present invention is to solve the above-mentioned problems, the technical gist of the slab for the construction of the storage tank structure, the PC girder, the PC column, the PC wall is to be assembled to be assembled to be assembled, in particular a number of PC slabs In order to ensure structural continuity in one direction and the other direction (length direction and width direction) when it is seated on the girder, as well as supporting ribs and reinforcing ribs projecting downward are designed with the same pitch interval, the connection point of the conventional slab in the width direction (butting part) It is formed to improve the durability and stability of the building by blocking the crack generated in the original source, and the PC column is formed to be installed to improve the workability in construction by laying a height adjustment adjustment bolt at the bottom, and the PC wall One or more reinforcing materials are attached to one side of the outer circumferential surface before and after installation. The purpose of the present invention is to provide a prefabricated storage tank structure and a construction method of the storage tank structure, which ensures construction safety by preventing falling during construction, and improves a worker's convenience by easy removal (dismantling) after construction. have.

In order to achieve this object, the prefabricated storage tank structure of the present invention has a plurality of support ribs 110 formed at a lower portion of the slab panel, and a support rib having an L-shaped locking jaw 121 at one end in the width direction of the slab panel. 120 is formed, and the other end of the slab panel corresponding to the support ribs 120 is formed with a-shaped free end 130 so that one-way continuity when assembling with the neighboring PC slab (100-1) Of course, the longitudinal end of the slab panel reinforcement to each support rib 110 and each support rib 120 so as to ensure the continuity of the other slab panel and other continuity at the same time across the upper surface of the PC girder 200 After the 140 is buried and formed to branch to the outside, it is poured by the site concrete (C1), and the support ribs 110 and the support ribs 120 are support ribs of neighboring PC slabs 100-1. 110-1) and coasters Precast concrete slab 100 which is formed to the same pitch intervals (P) in the ribs 120-1 and the width direction; A plurality of PC girder (200) formed in the shape of a rectangular cross section so that the plurality of PC slabs (100) are seated; The plurality of PC girder 200 is formed so that the column body (PC Column) is standing in the lower portion of the connection portion adjacent to each other in the longitudinal direction, the main reinforcement 310 is buried in the bottom direction of the bottom body of the pillar body is formed, A joint root 320 is formed at the lower end portion extending from the main reinforcing rod 310 so as to be inserted into the bottom concrete C2, and then inserted into the insert groove I of the bottom concrete. It is formed so as to be fixedly coupled, between the bottom surface and the bottom concrete (C2) of the pillar body is combined with a leveling simple rate 330 and the height adjustment adjustment bolt 340 is no space between the excitement after the height adjustment setting of the pillar body PC pillar 300 formed to cure with shrink mortar or in-situ concrete (C1); The wall body (PC Wall) is formed to stand on the foundation with the PC pillar 300 to form the outer wall of the various underground structures including the storage tank, the bottom connection portion 410 is formed on the lower portion of the wall body corresponding to the foundation The plane extending upwardly perpendicular to the bottom connection part 410 is formed of a wall plate 420 having a plurality of reinforcing rims 421, and a width direction of the wall body including the floor connection part 410 and the wall plate 420. Both ends are formed with a joint (J) is coupled to the index member 430 and the U-shaped connecting root 440 to ensure waterproof and structural continuity when combined with the neighboring wall body (400-1), the wall plate 420 On the outer circumferential surface of), a right triangle-shaped reinforcement 450 which prevents the wall body from falling (falling) in one direction when standing on the foundation is detachably coupled to the wall body by bolt assembly. PC Wall 400 Lee; It is characterized by being constructed.

At this time, the reinforcing material 450 of the PC wall 100 is formed so that the coupling plate 451 abuts against the wall plate 420, the support plate 452 is formed to be supported corresponding to the foundation, the coupling plate ( 451 and the reinforcing plate 453 is formed to connect the spaced ends of the support plate 452 to form a right triangle, but the lower surface of the support plate 452 is coupled to the height adjustment adjustment bolt 454 pillar body After the height adjustment setting of the excitation space is formed to cure with non-shrink mortar or field concrete (C1), the wall plate 420 of the PC wall pre-embedded fastening bolt 456 and fastening nut 455 is assembled and Is formed to be removed is preferably formed to be detachable before and after the construction of the reinforcement member 450.

On the other hand, the construction method of the prefabricated storage tank structure of the present invention is a wall body (PC Wall) is formed so as to stand on the chopped foundation to form the outer wall of the various underground structures including the storage tank, the bottom of the wall main body corresponding to the base ( 410 is formed, the surface extending perpendicular to the bottom connection portion 410 is formed of a wall plate 420 having a plurality of reinforcing rim 421, including the bottom connection portion 410 and the wall plate 420 At both ends of the wall body in the width direction, a joint part (J) is formed to which the index member 430 and the U-shaped connecting root 440 are coupled so as to ensure waterproofness and structural continuity when the wall body 400-1 is adjacent to the wall body. On the outer circumferential surface of the wall plate 420, a right-angled triangular reinforcement member 450 which prevents the wall body from falling (falling down) in one direction when standing on the foundation is detachably formed by bolt assembly to the wall body. So that the step in which the assembling PC May 400; The floor concrete is poured into the interior space of the underground structure partitioned by the PC wall, so that the bottom connection part of the PC wall is cured integrally. Allowing the insert groove to be formed by the mortar or the coupling chemical; A pillar main body (PC Column) is formed to stand on the surface of the bottom concrete in which the insert groove is formed, and the bottom of the pillar main body is formed with a cast iron reinforcement 310 which is embedded in the direct downward direction, the lower end extending from the cast iron 310 The joint root 320 is formed to be inserted into the inner side of the bottom concrete (C2) is inserted into the insert groove (I) of the bottom concrete and is formed to be fixed by the non-shrink mortar or coupling chemicals (M), the The leveling simple rate 330 and the height adjustment bolt 340 are coupled between the bottom of the pillar body and the bottom concrete (C2), so that the space between the pillars after the height adjustment setting of the pillar body is contracted to mortar or site concrete (C1). Assembling the PC pillar 300 to cure; Step to be seated on the upper surface of the PC pillar, the plurality of PC girder (200) formed in the shape of a rectangular cross-section adjacent to each other in the longitudinal direction and to the PC pillar; To be seated on the upper surface of the PC girder, a plurality of support ribs 110 are formed in the lower portion of the slab panel, the support ribs 120 having an L-shaped locking jaw 121 at one end in the width direction of the slab panel. ) Is formed, and at the other end of the slab panel corresponding to the support ribs 120, a? -Shaped free end 130 is formed to ensure one-way continuity when assembled with the neighboring PC slab 100-1. Of course, at the longitudinal end of the slab panel, the reinforcing bar 140 is formed at each support rib 110 and each support rib 120 so as to ensure the continuity of the neighboring slab panel and the other direction at the same time when the upper surface of the PC girder 200 is applied. ) Is embedded to form a branch to the outside and is cast by the site concrete (C1), the support ribs 110 and the support ribs 120 are support ribs (110-) of the neighboring PC slab (100-1) 1) and with ribs for support 120-1 Achieve the same pitch intervals (P) in the step of assembling the precast concrete slab (100); Placing concrete on the upper surface of the PC slab seated on the PC girder to cure the upper ceiling unity; It is configured to be constructed.

As described above, the present invention allows a plurality of PC slabs to ensure structural continuity in one direction and the other direction (length and width directions) when seated on an upper surface of the PC girder as well as supporting ribs and reinforcing ribs protruding downward at the same pitch interval. It is designed to block the cracks generated at the connection point (butting part) of the conventional slab at the source to improve the durability and stability of the building, and the PC column is provided with a height adjustment adjustment bolt on the lower part for construction work. It is formed to improve the performance, In addition, the PC wall is installed on one side of the outer circumference detachable reinforcement reinforcement before and after installation to ensure the construction safety according to the fall prevention during construction, by easy removal (dismantling) work after construction There is an effect of improving the work convenience of the worker.

1 is a side cross-sectional view showing a construction state of the prefabricated storage tank structure according to the present invention,
Figure 2 is a plan view showing that the PCB slab according to the present invention is mounted on the PCB girder,
3 is a side view of the PC slab according to FIG. 2;
Figure 4 is a perspective view of the PC slab according to Figure 3,
Figure 5 is a construction example showing that the PC pillar is standing on the floor concrete according to the present invention,
Figure 6 is a planar illustration showing a state where the PC wall according to the present invention is assembled,
7 is a longitudinal cross-sectional view of FIG. 6;
8 is a perspective view showing a state in which the reinforcement of the PC wall according to FIG.
9 to 10 is an exemplary longitudinal cross-sectional view showing that a crack occurs in the connection portion when the conventional slab construction.

Next, the present invention will be described in more detail with reference to the accompanying drawings.

First, the prefabricated storage tank structure of the present invention is composed of a PC slab, a PC girder, a PC pillar, and a PC wall as shown in FIGS. 1 to 8.

Thus, the PC slab 100, as shown in Figures 2 to 4, a plurality of support ribs 110 are formed in the lower portion of the slab panel, the L-shaped locking jaw ( A support rib 120 having a 121 is formed, and at the other end of the slab panel corresponding to the support rib 120, a? -Shaped free end 130 is formed to be adjacent to the neighboring PC slab 100-1. In order to ensure one-way continuity when assembling, each support rib 110 and support for longitudinal support of the slab panel to ensure the continuity of the neighboring slab panel and other continuity at the same time to the top surface of the PC girder 200 The reinforcing bar 140 is embedded in each rib 120 and branched outwardly, and then cast by the site concrete C1, and the support rib 110 and the support rib 120 are adjacent to the PC slab 100. -1) support ribs (110-1) and support It is formed to the same pitch intervals (P) in the ribs 120-1 and the transverse direction.

At this time, the supporting ribs are formed so that the locking jaw is formed so that the free ends of the neighboring PC slabs are applied to ensure continuous continuity in the width direction.

In addition, since the support ribs and the support ribs are arranged side by side at the same pitch interval, the aesthetics are improved when the ceiling is viewed from the room, as well as by applying the same sharing width between the ribs (support ribs and support ribs). Ribs are designed to prevent overdesign. As a result, it is formed to reduce the cost generated during the slab production due to the prevention of rib overdesign.

In addition, the PC slab of the present invention is more than 15% compared to the conventional double T slab and multi-slab resistance capacity is improved by more than 15% compared to the conventional structure is solid weight, the improved resistance capacity compared to the existing long span construction area The use of PC pillars, other structural members and construction costs are reduced, as well as the construction period is shortened, resulting in improved economics, work productivity and structural resistance.

In other words, the PC slab of the present invention greatly improves the construction stability according to the structural continuity, the shear reinforcement is increased, the slab is raised up when drying the concrete in the field to suppress the occurrence of cracks, Space utilization is increased.

At this time, the PC girder 200 is formed in the shape of a rectangular cross section so that the plurality of PC slab 100 is seated.

Thus, the PC pillar 300 is formed such that the pillar body (PC Column) is standing up in the lower portion of the connection portion adjacent to each other in the longitudinal direction, as shown in Figure 5, the pillar The bottom of the main body is formed with a cast iron reinforcement 310 is buried in the direct direction, the lower end portion extending from the cast iron 310 is formed with a joint root 320 is inserted into the bottom of the concrete (C2) insert groove of the bottom concrete (I) is formed to be fixedly coupled by non-shrink mortar or coupling chemicals (M), between the bottom of the pillar body and the bottom concrete (C2) leveling simple rate (330) and height adjustment adjustment bolt ( 340 is combined is formed to cure the space between the extruded mortar or on-site concrete (C1) after the height adjustment setting of the pillar body.

That is, the leveling seal plate and the adjusting bolt are formed to match the horizontal or the height of the neighboring PC pillar.

At this time, the adjustment bolt is formed on the bottom of the bottom concrete, the support plate is formed to turn the adjustment nut on the basis of the buried in the bottom surface of the pillar body is formed so as to adjust the height while loosening the tightening bolt and branched.

At this time, the PC wall 400, as shown in Figure 6 to 8, the wall body (PC Wall) is formed so as to stand on the base with the PC pillar 300 to form the outer wall of various underground structures including the storage tank. The bottom connection part 410 is formed at a lower portion of the wall body corresponding to the foundation, and a plane extending upwardly perpendicular to the bottom connection part 410 is formed of a wall plate 420 having a plurality of reinforcing rims 421. The width direction both ends of the wall body including the bottom connection portion 410 and the wall plate 420, the U-shaped connection with the water supply material 430 to ensure waterproof and structural continuity when combined with the neighboring wall body 400-1 A joint portion J to which the root 440 is coupled is formed, and a right triangular reinforcement member 450 is formed on an outer circumferential surface of the wall plate 420 to prevent the wall body from falling (falling) in one direction when standing up on a foundation. ) Bolts against the wall body It is formed so as to be coupled detachable by.

Accordingly, the reinforcing member 450 of the PC wall 100 is formed such that the coupling plate 451 abuts against the wall plate 420, and the support plate 452 is supported to correspond to the foundation, and the coupling plate ( 451 and the reinforcing plate 453 is formed to connect the spaced ends of the support plate 452 to form a right triangle, but the lower surface of the support plate 452 is coupled to the height adjustment adjustment bolt 454 pillar body After the height adjustment setting of the excitation space is formed to cure with non-shrink mortar or field concrete (C1), the wall plate 420 of the PC wall pre-embedded fastening bolt 456 and fastening nut 455 is assembled and Is formed to be removed is preferably formed to be detachable before and after the construction of the reinforcement member 450.

On the other hand, the construction method of the prefabricated storage tank structure according to the present invention, the PC wall is erected on the ground, and the bottom of the concrete is placed on the bottom surface of the structure made from the PC wall, and then the PC pillar to erect the PC girder It is seated, and then the PC slab is formed on the top surface of the PC girder is formed to be poured into the site concrete.

Looking at this in more detail, the wall body (PC Wall) is formed to form the outer wall of the various underground structures including the storage tank while standing on the ground first, the bottom connection portion 410 is formed in the lower portion of the wall body corresponding to the foundation The plane extending upwardly perpendicular to the bottom connection part 410 is formed of a wall plate 420 having a plurality of reinforcing rims 421, and a width direction of the wall body including the floor connection part 410 and the wall plate 420. Both ends are formed with a joint (J) is coupled to the index member 430 and the U-shaped connecting root 440 to ensure waterproof and structural continuity when combined with the neighboring wall body (400-1), the wall plate 420 ) is conductive in one direction October unit is standing on the base of the outer peripheral surface (fall: PC month (400 stiffener 450 having a right triangle to prevent sseureojim) is to be coupled to removable by a bolt assembly for a month body ) Is assembled.

Subsequently, the floor concrete is poured into the interior space of the underground structure partitioned by the PC wall so that the bottom connection portion of the PC wall is integrally cured. The insert groove is formed to achieve a firm fixing by non-shrink mortar or bonding chemicals.

Subsequently, a pillar body (PC Column) is formed to stand on the surface of the bottom concrete in which the insert groove is formed, and a cast iron reinforcement 310 embedded in the bottom direction is formed on the bottom of the pillar body, and extends from the cast reinforcement 310. The lower end has a joint root 320 is formed to be inserted into the inside of the bottom concrete (C2) is inserted into the insert groove (I) of the bottom concrete and is formed to be fixed by the non-shrink mortar or coupling chemical (M) A leveling simple rate 330 and a height adjusting adjustment bolt 340 are coupled between the bottom surface of the pillar body and the bottom concrete C2 to increase the space between the column body after the height adjustment setting of the pillar body without contraction mortar or site concrete (C1). Step is made to assemble the PC pillar 300 to cure.

Thereafter, the PC pillar is to be seated on the upper surface of the PC pillar, and the plurality of PC girder 200 formed in the shape of a rectangular cross section is adjacent to each other in the longitudinal direction and hangs on the PC pillar.

Subsequently, the supporter 110 is to be seated on the upper surface of the PC girder, and a plurality of support ribs 110 are formed at the bottom of the slab panel, and a support rib having an L-shaped locking jaw 121 at one end in the width direction of the slab panel. 120 is formed, and the other end of the slab panel corresponding to the support ribs 120 is formed with a-shaped free end 130 so that one-way continuity when assembling with the neighboring PC slab (100-1) Of course, the longitudinal end of the slab panel reinforcement to each support rib 110 and each support rib 120 so as to ensure the continuity of the other slab panel and other continuity at the same time across the upper surface of the PC girder 200 After the 140 is buried and formed to branch to the outside, it is poured by the site concrete (C1), and the support ribs 110 and the support ribs 120 are support ribs of neighboring PC slabs 100-1. 110-1) and support ribs 120-1 The step of assembling the PC slab 100 is made to achieve the same pitch interval (P) in the width direction.

Subsequently, the site concrete is placed on the PC slab upper surface seated on the PC girder to cure the upper ceiling as an integral unit, so that the above-described prefabricated storage tank structure is constructed.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

100 ... PC slab 110 ... Support rib
121 ... Jam Jaw 120 ... Support Rib
130 ... free end 140 ... rebar
200 ... PC girder 300 ... PC pillar
310 ... Cast steel 320 ... Joint steel
330 ... Simple rate 340 ... Adjustment bolt
400 ... PC Wall 410 ... Floor Connection
420 ... wallboard 430 ... index material
440 ... U-shaped connector 450 ... Reinforcement

Claims (3)

A plurality of support ribs 110 are formed at the lower portion of the slab panel, and a support rib 120 having an L-shaped locking jaw 121 is formed at one end of the slab panel in the width direction, and the support rib 120 is formed. At the other end of the slab panel corresponding to the?-Shaped free end 130 is formed to ensure one-way continuity when assembling with the neighboring PC slab 100-1, as well as the PC girder at the longitudinal end of the slab panel Reinforcing bar 140 is embedded in each support rib 110 and support ribs 120 so as to branch outwardly so that adjacent slab panels and other direction continuity are secured at the same time when the upper surface of the 200 is secured. It is to be cast by the concrete (C1), the support ribs 110 and the support ribs 120 are support ribs (110-1) and the support ribs (120-1) of the neighboring PC slab (100-1). And to form the same pitch interval (P) in the width direction And precast concrete slab (100);
A plurality of PC girder (200) formed in the shape of a rectangular cross section so that the plurality of PC slabs (100) are seated;
The plurality of PC girder 200 is formed so that the column body (PC Column) is standing in the lower portion of the connection portion adjacent to each other in the longitudinal direction, the main reinforcement 310 is buried in the bottom direction of the bottom body of the pillar body is formed, A joint root 320 is formed at the lower end portion extending from the main reinforcing rod 310 so as to be inserted into the bottom concrete C2, and then inserted into the insert groove I of the bottom concrete. It is formed so as to be fixedly coupled, between the bottom surface and the bottom concrete (C2) of the pillar body is combined with a leveling simple rate 330 and the height adjustment adjustment bolt 340 is no space between the excitement after the height adjustment setting of the pillar body PC pillar 300 formed to cure with shrink mortar or in-situ concrete (C1);
The wall body (PC Wall) is formed to stand on the foundation with the PC pillar 300 to form the outer wall of the various underground structures including the storage tank, the bottom connection portion 410 is formed on the lower portion of the wall body corresponding to the foundation The plane extending upwardly perpendicular to the bottom connection part 410 is formed of a wall plate 420 having a plurality of reinforcing rims 421, and a width direction of the wall body including the floor connection part 410 and the wall plate 420. Both ends are formed with a joint (J) is coupled to the index member 430 and the U-shaped connecting root 440 to ensure waterproof and structural continuity when combined with the neighboring wall body (400-1), the wall plate 420 On the outer circumferential surface of), a right triangle-shaped reinforcement 450 which prevents the wall body from falling (falling) in one direction when standing on the foundation is detachably coupled to the wall body by bolt assembly. PC Wall 400 Lee;
Prefabricated storage tank structure characterized in that the construction is constructed. The method of claim 1, wherein the reinforcing material 450 of the PC wall 100 is
The coupling plate 451 is formed to abut against the wall plate 420, and the support plate 452 is formed to be supported to correspond to the foundation, and connects the spaced ends of the coupling plate 451 and the support plate 452. The reinforcement plate 453 is formed to form a right triangle, but the bottom of the support plate 452 is coupled to the height adjustment adjustment bolt 454 is the space between the contraction mortar or the mortar after the height adjustment setting of the column body It is formed to cure in concrete (C1), the wall plate 420 of the PC wall is formed so that the pre-embedded fastening bolt 456 and the fastening nut 455 is assembled and removed to remove the reinforcement 450 before and after construction of the structure. Prefabricated storage tank structure characterized in that it is formed to be. The wall body (PC Wall) is formed to stand on the ground to form the outer wall of the various underground structures including the storage tank, the bottom connection portion 410 is formed on the bottom of the wall body corresponding to the foundation, the bottom connection portion 410 The plane extending upwardly orthogonally to the wall is made of a wall plate 420 having a plurality of reinforcing rims 421, and adjacent wall bodies are formed at both ends in the width direction of the wall body including the bottom connection part 410 and the wall plate 420. 400-1) is formed when the joint portion (J) is coupled to the index member 430 and the U-shaped connecting root 440 to ensure waterproof and structural continuity, the wall body 420 is formed on the outer peripheral surface of the wall body Assembling the PC wall 400 such that the right triangle-shaped reinforcement 450 which prevents the base from falling in one direction when standing on the foundation is detachably coupled to the wall body by bolt assembly;
The floor concrete is poured into the interior space of the underground structure partitioned by the PC wall, so that the bottom connection part of the PC wall is cured integrally. Allowing the insert groove to be formed by the mortar or the coupling chemical;
A pillar main body (PC Column) is formed to stand on the surface of the bottom concrete in which the insert groove is formed, and the bottom of the pillar main body is formed with a cast iron reinforcement 310 which is embedded in the direct downward direction, the lower end extending from the cast iron 310 The joint root 320 is formed to be inserted into the inner side of the bottom concrete (C2) is inserted into the insert groove (I) of the bottom concrete and is formed to be fixed by the non-shrink mortar or coupling chemicals (M), the The leveling simple rate 330 and the height adjustment bolt 340 are coupled between the bottom of the pillar body and the bottom concrete (C2), so that the space between the pillars after the height adjustment setting of the pillar body is contracted to mortar or site concrete (C1). Assembling the PC pillar 300 to cure;
Step to be seated on the upper surface of the PC pillar, the plurality of PC girder (200) formed in the shape of a rectangular cross-section adjacent to each other in the longitudinal direction and to the PC pillar;
To be seated on the upper surface of the PC girder, a plurality of support ribs 110 are formed in the lower portion of the slab panel, the support ribs 120 having an L-shaped locking jaw 121 at one end in the width direction of the slab panel. ) Is formed, and at the other end of the slab panel corresponding to the support ribs 120, a? -Shaped free end 130 is formed to ensure one-way continuity when assembled with the neighboring PC slab 100-1. Of course, at the longitudinal end of the slab panel, the reinforcing bar 140 is formed at each support rib 110 and each support rib 120 so as to ensure the continuity of the neighboring slab panel and the other direction at the same time when the upper surface of the PC girder 200 is applied. ) Is embedded to form a branch to the outside and is cast by the site concrete (C1), the support ribs 110 and the support ribs 120 are support ribs (110-) of the neighboring PC slab (100-1) 1) and with ribs for support 120-1 Achieve the same pitch intervals (P) in the step of assembling the precast concrete slab (100);
Placing concrete on the upper surface of the PC slab seated on the PC girder to cure the upper ceiling unity;
Construction method of prefabricated storage tank structure, characterized in that configured to be constructed.

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