KR101219459B1 - The water-storage tank of assembly type and method for constructing thereof - Google Patents

Abstract

PURPOSE: A PC structure for a storage tank with improved construction performance and productivity is provided to remarkably reduce construction time by easily and rapidly assembling a PC block and a column using a coupler and a steel plate. CONSTITUTION: A PC structure for a storage tank with improved construction performance and productivity comprises a lower PC foundation wall(100) and an upper PC wall(200) for composition. The lower PC foundation wall comprises a bottom plate, a support plate, connections, and binding bars. The support plate is vertically positioned at the top surface of the bottom plate and a filling groove in which cast-in-place concrete is placed. The connections are formed on both ends of the filling groove, and couplers are buried therein. The binding bars are formed in the lower fastening portions of the couplers and are extended from the inside the support plate. The upper PC wall is integrally coupled to the top of the support plate of the lower PC foundation wall and comprises multiple PC walls and main reinforcing bars. The PC panels are vertically positioned at the top surfaces of the connections of the support plates. The main reinforcing bars are coupled to the upper fastening portions of the couplers. [Reference numerals] (AA) Column wall block; (BB) Intermediate wall block; (CC) Corner wall block

Description

The water-storage tank of assembly type and method for constructing alphabet}

In the present invention, when constructing a storage tank, the bottom PC base wall is formed on the outer portion, and the bottom concrete is formed on the inner bottom of the bottom PC, and a plurality of PC panels are standing on the top of the bottom PC base wall. After the site concrete is poured into the interior space between them, the PC wall is integrated with the ceiling and the bottom part, and the PC block for reinforcing the structural rigidity according to the connection section of the PC girder, especially inside the storage tank and The PC pillar is formed, the PC block and the pillar is formed to be easily and quickly assembled by the coupling coupler and the steel plate to facilitate the work and construction as well as to significantly shorten the air significantly improved productivity It relates to a PC structure characterized by.

In general, as buildings increase and land surface pavement rate increases, rainwater does not flood into the basement during heavy rains, but flows into sewers or rivers at once.

As such, when rainwater flows in at one time and exceeds the inflow allowance, flooding may occur.

On the contrary, if less rainwater flows into the river, the water quality of the groundwater is deteriorated and the groundwater is also depleted.

In order to improve this, in recent years, rainwater is stored in an excellent storage tank and discharged into a river to control the flow rate of rainwater.

As an example of the technique of the storm storage tank, the conventional patent No. 485742 relates to the storm storage tank and includes a main block, a peripheral block, and a slab.

In this case, the main block for the body portion is provided with four pillars at right angles to each of the front and rear, left and right corners of the top plate and the bottom plate, the openings are formed on four sides by the pillars, a plurality of nuts on the top and bottom of the pillars Through-holes are formed in the inner settled groove, respectively, while a plurality of grooves in which the couple guide pin is inserted is formed on the outer surface.

Thus, the peripheral block has the same configuration as the block for the main body except that at least one of the four surfaces has a closed shape.

At this time, the slab is coupled to the peripheral block by a screw member extending outward from the peripheral block so as to close the opening of the peripheral block facing outward when assembled.

Next, Patent No. 582121, which is a conventional storage tank technology, relates to an excellent storage tank and includes a storage block and an upper block.

At this time, the storage block is formed in each corner of the top plate and the bottom plate so that the opening is formed on each side of the cube, a plurality of nut set grooves are formed on the top and bottom of each column, at least one of the top plate The stepped portion is formed on the side of the bottom plate, the coupling portion is formed to be integral with the base surface.

In addition, the upper block has a rectangular plate shape and the end thereof is seated on the upper plate stepped portion of the storage block to be coplanar with the upper plate of the storage block.

Here, the plurality of storage blocks are repeatedly arranged in a straight line, and the upper surface block is configured such that a plurality of the storage blocks are coupled between the storage blocks in a straight line to form a storage space.

This conventional storage tank, despite the other technical advantages such as easy construction, the shape of the main block of the excellent storage tank of Patent No. 485742, and the storage block of the excellent storage tank of Patent No. 582121 is integrated by the upper plate and the lower plate pillar. Due to the structure of the cube formed by the block, the weight of the block itself is very large, which is very disadvantageous for transportation, and when the block is manufactured in advance and transported by the vehicle, the loading space of the vehicle is limited, and the size of the block is restricted. You can't increase the size as you want.

In addition, when the main block and the storage block is manufactured in the form of a cube formed by the upper plate and the lower plate integrally formed by the pillar, the formwork must be manufactured in the form of a cube in order to form the block into concrete, and concrete is formed inside the formwork. The production is very cumbersome and inconvenient, as it takes a long time to cure.

In addition, when the volume of the body block and the storage block having a hexahedron shape increases and the weight thereof increases, it is very cumbersome and inconvenient to assemble the rainwater storage tank.

 For example, if the heavy body block and the storage block are not correctly positioned at the construction position, the crane must be repeatedly modified to position the body block and the storage block with the hexahedral structure correctly.

In addition, the main body block and the peripheral block each include a pillar, and when arranging them, the pillars of the blocks overlap to provide an unnecessarily thick pillar structure, and when the pillars overlap, the internal space of the storage tank is narrowed to clean before and after construction. And internal management becomes difficult.

In addition, such a conventional PC pillar is simply installed on the floor concrete (foundation), there is a situation that a lot of difficulties have been generated in the absence of a separate adjustment mechanism to uniformly match the ceiling height.

The present invention is to solve the above-described problems, the technical gist of the construction of the storage tank, the lower PC base wall to the outer portion of the inner bottom to form a concrete slab by placing the base slab, the bottom slab, By placing a plurality of PC panels at the top of the PC foundation wall and placing concrete on the interior space between them, the PC wall is integrated with the ceiling and the bottom part, and the inside of the storage tank The PC block and the PC column are formed to reinforce the structural rigidity according to the connection section, and the PC block and the column are formed to be easily and quickly assembled by the coupler and the steel plate for fastening, so that the work and the construction are made simple, as well as the air. Significantly shortened, productivity is greatly improved To provide a precast concrete structures it is an object.

In order to achieve the above object, the storage tank PC structure of the present invention is formed so that the support plate 120 stands on one side of the bottom plate 110 having a flat rectangular parallelepiped, and the bottom plate 110 has a base concrete at one end. Synthesis groove 111 is formed to be poured with the 10, the support plate 120 is a filling groove 121 is formed so that the on-site concrete 20 is synthesized on the upper side, based on the filling groove 121 The connecting portion 130 is formed on both ends of the coupler 131 is embedded, the lower fastening portion of the two screw fastening portion of the coupler 131 is formed to fasten the binding reinforcing bars 140 extending from the inside of the support plate 120 A lower PC base wall 100; It is formed to be combined and integrated on the upper support plate 120 of the lower PC base wall, a plurality of PC panels 210 are each formed to stand on the upper surface of the connecting portion 130 of the support plate, the inside of the PC panel 210 When the main reinforcing bar 220 inserted into the coupling hole 211 penetrating in the vertical direction is formed to be coupled to the upper fastening part of the screw fastening part of the coupler 131, the plurality of PC panels 210 standing up and the filling groove are formed. The upper concrete wall 200 for synthesis is formed so that the site concrete 20 is poured into the curing (121); .

At this time, the lower PC base wall 100 is formed with a base buried root 112 in the interior of the bottom plate 110, the base buried root 112 is branched from the surface on the side of the synthetic groove 111 base concrete It is formed so as to be embedded and cured in the (10), synthetic concave 151 so that the site concrete 20 is poured on the left and right both ends 150 faces of the neighboring lower PC base wall 100 to form the outer of the storage tank, respectively. ) Is preferably formed.

Accordingly, the plurality of PC panels 210 are formed on the inner surface facing each other symmetrical wavy concave surface 212 is formed so that the composite cross-sectional area of the site concrete 20 is expanded, the concave and convex surface 212 The convex convex surface is preferably formed such that the coupling hole 211 is formed so that the main reinforcing bar 220 is inserted.

In addition, it is preferable that the box-shaped frame reinforcing reinforcement structure 300 which is manufactured from the outside and inserted into the barrel is embedded between the plurality of PC panels 210 and then cast and cured by the site concrete 20.

In this case, the PC panel 210 includes a central space portion in which the site concrete 20 is filled, and a plurality of tie bolts 230 are formed to penetrate the inside and the outside, and the tie bolts 230 are fastening nuts 231 and After forming to be combined with the waterproofing material 232, it is preferable to allow the field concrete 20 to be poured and cured between the plurality of PC panels 210.

In addition, the PC panel 210 is cured by the site concrete 20 after the super deck plate 250 is equipped with the PC girder 240 and the truss is mounted on the top of the inner wall side of the PC panel of the plurality of PC panels It is preferable that the ceiling and the walls of the storage tank are integrally synthesized.

Accordingly, the pillar PC block 400 is provided on the inner wall surface of the storage tank including the lower PC base wall 100 and the upper PC wall 200 for synthesis to reinforce the structure at each end where the PC girder 240 passes. Is formed, it is preferable that the main root 410 is formed in the PC block 400.

At this time, the main root 410 is embedded in the state along the longitudinal direction of the PC block 400, the upper branch end is coupled by the coupler 420 and the connection root 241 of the PC girder 240 It is preferable to allow the coupler 113 formed at the bottom plate 110 of the lower PC base wall to be connected to the joint root 114.

In addition, in the interior space of the storage tank consisting of the lower PC base wall 100 and the upper PC wall 200 for synthesis, the PC pillar 500 is formed to stand and assemble in each connection section of the PC girder 240, the PC The pillar 500 is formed to stand in the center support groove 511 of the steel plate 510, the steel plate 510 is formed so that a plurality of reinforcing ribs 512 to support the support groove 511 from the outside. In addition, a through hole 513 is formed between the reinforcing ribs 512 so that the anchor bolt 514 protrudes after being embedded from the foundation concrete 10 to be assembled by the fixing nut 515. .

In addition, the PC girder 240 has a connecting reinforcement 241 is formed therein, the connecting reinforcement 241 is bent into the site concrete 20 of the bent top of the ceiling, the lower end of the assembly root (PC) ( 520 and the coupler 530 are preferably formed to be fastened.

As described above, the present invention constitutes a lower PC base wall at the outer portion of the storage tank, but forms a bottom slab by placing the foundation concrete on the inner bottom thereof, and a plurality of PC panels at the top of the lower PC base wall. After standing, the site concrete is placed in the interior space between them, so that the PC wall is integrated with the ceiling and the bottom part. In particular, the interior of the storage tank is reinforced with structural rigidity according to the connection section of the PC girder. And the PC pillar is formed, the PC block and the pillar is formed to be easily and quickly assembled by the fastening coupler and the steel plate to facilitate the work and construction as well as to significantly shorten the air is significantly improved productivity It works.

In addition, the ceiling portion of the present invention has the effect of allowing the construction of the super deck plate in place of the conventional slab slab, inexpensive and quick construction.

1 is an exemplary plan view showing an assembled state of a storage tank according to the present invention;
Figure 2 is an exemplary side view showing a state in which the basal bottom and the wall and ceiling of the storage tank according to the present invention is constructed,
3 to 4 are enlarged views illustrating main parts of the wall part of FIG. 1;
5 to 7 is a cross-sectional view showing the assembled state of the lower PC base wall and the upper PC wall,
8 to 10 is an exemplary view showing a state in which the PC block of the present invention is coupled to the PC girder and the PC wall,
11 to 12 is a side and plan view showing a state coupled to the PC pillar PC girder of the present invention,
Figure 13 is an exemplary view showing that the PC post is assembled to the base by a steel plate in the present invention.

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

First, as shown in Figures 1 to 13, the storage tank PC structure of the present invention is largely the lower PC base wall 100, the upper PC wall 200 for synthesis, the reinforced structure 300, the PC block 400 and It consists largely of the pillars 500.

At this time, the lower PC base wall 100 is formed so that the support plate 120 stands on one side of the upper surface of the bottom plate 110 of a flat rectangular parallelepiped, the bottom plate 110 is the base concrete 10 at one end Synthesis groove 111 is formed so as to pour, and the support plate 120 is formed on the top one side filling groove 121 so that the field concrete 20 is synthesized.

Thus, the connecting portion 130 having the coupler 131 embedded therein is formed at both ends of the filling groove 121, and the lower coupling portion extending from the bottom plate and the support plate in the lower screw coupling portion of the coupler 131. It is formed to be combined with the binding reinforcing bar 140.

That is, the lower PC base wall is formed in an inverse 'T' shape is formed so that one side of the synthesis groove side is coupled with the base, the support plate standing up to the upper is formed to be combined with the upper PC wall for synthesis described below.

At this time, the lower PC base wall 100 is formed in the base plate 112 is connected to the reinforcing bar 140 in the interior of the bottom plate 110, the foundation landfill 112 is a synthetic groove 111 Branched from the surface of the) side is formed to be embedded and cured in the base concrete (10).

At this time, it is preferable that the synthesis grooves 151 are formed on the left and right both ends 150 of the neighboring lower PC base walls 100 to form the outer side of the storage tank so that the site concrete 20 is poured and cured.

Accordingly, the synthesis upper PC wall 200 is formed to be combined and integrated on the upper support plate 120 of the lower PC base wall, a plurality of PC panels 210 are respectively standing on the upper surface of the connecting portion 130 of the support plate Is formed.

At this time, the inside of the PC panel 210 is formed when the coupling hole 211 penetrated in the vertical direction is formed so that the inserted reinforcing bar 220 is coupled to the upper fastening portion of the screw fastening portion of the coupler 131, On-site concrete 20 is formed in the plurality of standing up panel 210 and the filling groove 121 is formed to cure.

That is, the composite upper PC wall is a kind of sandwich panel, and is formed so that the field concrete is synthesized between two PC panels to form an integrated body.

In addition, the plurality of PC panels 210 are formed on the inner surface facing each other symmetrical wavy concave surface 212 is formed so that the composite cross-sectional area of the site concrete 20, the concave and convex surface 212 The convex convex surface is preferably formed such that the coupling hole 211 is formed so that the main reinforcing bar 220 is inserted.

Thus, the box-shaped frame reinforcing reinforcing bar structure 300 is manufactured between the plurality of PC panels 210 to be inserted from the outside to be poured into the barrel and then placed and cured by the site concrete 20.

That is, the reinforcing structure is a box-shaped frame connected by steel wires, and has a frame tip forming a rectangular parallelepiped between the PC panels, and is formed to form a kind of network by connecting a plurality of reinforcing steel wires in the vertical direction.

Thus, the reinforcing structure is formed to be more firmly promoted to bond with the neighboring PC panel by inserting the center portion in accordance with the connection joint portion that the PC panel abuts.

At this time, the PC panel 210 includes a central space in which the site concrete 20 is filled, and a plurality of tie bolts 230 are formed to penetrate the inside and the outside.

The tie bolt 230 is formed to be coupled to the fastening nut 231 and the waterproofing material 232, it is preferable to allow the field concrete 20 to be cast and cured between the plurality of PC panels 210.

In addition, the PC panel 210 is cured by the site concrete 20 after the super deck plate 250 is equipped with the PC girder 240 and the truss is mounted on the top of the inner wall side of the PC panel of the plurality of PC panels It is preferable that the ceiling and the walls of the storage tank are integrally synthesized.

Thus, the PC block 400 for the column to reinforce the structure at each end of the PC girder 240 passing through the interior of the storage tank consisting of the lower PC base wall 100 and the synthetic upper PC wall 200. Is formed, it is preferable that the main root 410 is formed in the PC block 400.

At this time, the main root 410 is formed in the state embedded in the longitudinal direction of the PC block 400, the upper branch end is formed to be coupled to the PC girder 240, the lower branch end lower PC It is preferable to allow the coupler 113 formed on the bottom plate 110 of the base wall to be connected with the joint root 114.

That is, the PC block 400 is preferably formed to be coupled by a coupler after being seated on the top surface of the bottom plate 110 when coupled to the bottom plate 110 of the lower PC base wall.

Thus, in the interior space of the storage tank consisting of the lower PC base wall 100 and the upper PC wall 200 for synthesis, the PC pillar 500 is formed to stand and assemble in each connection section of the PC girder 240, the PC The pillar 500 is formed to stand in the center support groove 511 of the steel plate 510.

Thereafter, the steel plate 510 is formed so that a plurality of reinforcing ribs 512 support the support grooves 511 from the outside, and through holes 513 are formed between the reinforcing ribs 512 to form the foundation concrete 10. It is preferable to allow the anchor bolt 514 protruding after embedding from the through) to be assembled by the fixing nut 515.

That is, the steel plate is a kind of bracket fixed in advance by the anchor bolt of the foundation concrete, and the PC pillar is formed such that the assembly is completed just by standing in the support groove.

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.

10 ... foundation concrete 20 ... on-site concrete
100 ... lower PC foundation wall 110 ... bottom plate
111 ... Composite groove 112 ... Foundation landfill
113 ... Couplers 114 ... Joints
120 ... support plate
121 ... Filling groove 130 ... Connections
131 ... coupler 140 ... binding bars
150 ... Both ends 151 ... Synthetic groove
200 ... upper PC wall for synthesis
210 ... PCC panel 211 ... Joiner
212 ... uneven surface 220 ... cast steel
230 ... binding muscle 231 ... tightening nut
232 ... waterproof 240 ... girder
250 ... super deck plate 300 ... reinforced structure
400 ... PC Block 410 ... Freckle
500 ... PC post 510 ... Steel plate
511 ... support groove 512 ... reinforcement rib
513 ... through hole 514 ... anchor bolt
515 ... fixing nut

Claims (10)

The support plate 120 is formed to stand on the upper surface of one side of the bottom plate 110 of the flat rectangular flat body, the bottom plate 110 is formed with a synthetic groove 111 is formed at one end with the foundation concrete 10 The support plate 120 is formed with a filling groove 121 so that the site concrete 20 is synthesized on one side of the upper plate, and the connecting portion 130 having the coupler 131 embedded therein at both ends based on the filling groove 121 is formed. A lower PC base wall 100 formed to fasten the binding reinforcing rods 140 extending from the inside of the support plate 120 to the lower fastening portion of both screw fastening portions of the coupler 131;
It is formed to be combined and integrated on the upper support plate 120 of the lower PC base wall, a plurality of PC panels 210 are each formed to stand on the upper surface of the connecting portion 130 of the support plate, the inside of the PC panel 210 When the main reinforcing bar 220 inserted into the coupling hole 211 penetrating in the vertical direction is formed to be coupled to the upper fastening part of the screw fastening part of the coupler 131, the plurality of PC panels 210 standing up and the filling groove are formed. The upper concrete wall 200 for synthesis is formed so that the site concrete 20 is poured into the curing (121);
Constructing a PC structure for improved storage and productivity, characterized in that consisting of. According to claim 1, wherein the lower PC base wall 100 is formed with a base buried root 112 in the interior of the bottom plate 110, the base buried root 112 is from the surface of the compound groove 111 side Branches are formed to be embedded and cured in the foundation concrete 10, and on the left and right both ends 150 of the neighboring lower PC foundation wall 100 to form an outer space of the storage tank, each of the field concrete 20 is poured and cured. Construction grooves and the storage tank for improved productivity, characterized in that the groove 151 is formed. According to claim 2, The plurality of PC panel 210 is formed on the inner surface facing each other symmetrical wavy concave surface 212 is formed so that the composite cross-sectional area of the site concrete 20 to be expanded, Convex convex surface of the surface 212 is formed with a coupling hole 211 cast iron reinforcement 220, characterized in that the construction and improved productivity of the storage tank structure. According to claim 3, Between the plurality of PC panels 210, the box-shaped frame reinforcing reinforcement structure 300 is manufactured from the outside and inserted into the barrel after being embedded to be cast and cured by the on-site concrete 20 The storage tank PC structure has improved construction and productivity. The method of claim 4, wherein the PC panel 210 includes a central space in which the site concrete 20 is filled and a plurality of tie bolts 230 are formed so as to pass through the inside and outside, the tie bolt 230 is fastening nut 231 and the waterproof material 232 is formed, and the construction concrete and the productivity of the improved storage tank, characterized in that the site concrete 20 is placed and cured between the plurality of PC panels 210. According to claim 5, The PC panel 210 is mounted on the site concrete 20 after the super deck plate 250 is equipped with a PC girder 240 and the truss on the top of the inner wall side of the plurality of PC panels By the curing by the, the storage tank and the improved PC structure, characterized in that the ceiling and the wall of the storage tank is integrally synthesized. 7. The pillar block of claim 6, wherein the inner wall surface of the storage tank including the lower PC base wall 100 and the upper PC wall 200 for synthesis is configured to reinforce the structure at each end through which the PC girder 240 passes. 400 is formed, the construction of the PC block for improved construction and productivity, characterized in that the main root 410 is formed inside the PC block 400. The method of claim 7, wherein the main root 410 is embedded in the longitudinal direction of the PC block 400, the upper branch end is connected to the connection root 241 and the coupler 420 of the PC girder 240 It is formed to be coupled by), and the lower branched end to the coupler 113 formed in the bottom plate 110 of the lower PC base wall is connected to the joint root 114, the workability and productivity is improved Reservoir structures for storage. According to claim 8, The lower PC base wall 100 and the synthesis of the upper PC wall 200 composed of the storage tank is formed so that the PC pillar 500 is standing and assembled for each connection section of the PC girder 240. In addition, the PC pillar 500 is formed to stand in the center support groove 511 of the steel plate 510, the steel plate 510 is a plurality of reinforcing ribs 512 is the support groove 511 outside the Is formed to support in, but each through the reinforcing ribs 512 through holes 513 are formed to be assembled by the fixing nut 515 after passing through the anchor bolt 514 protruding from the base concrete 10 Storage structure PC structure improved in the workability and productivity, characterized in that. 10. The method of claim 9, wherein the PC girder 240 is a connection reinforcement 241 is formed therein, the connection reinforcement 241 is bent into the site concrete 20 of the bent top of the ceiling, the bottom of the PC pillar Construction structure and improved productivity of the storage tank, characterized in that formed by being fastened by the assembly root 520 and the coupler 530.

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