KR101087645B1 - The water-storage tank of assembly type and method for constructing thereof - Google Patents

Abstract

PURPOSE: A post structure for a water tank with an integral structure is provided to ensure more improved durability and structural rigidity when the post of a water tank is constructed since a PC post is integrated with a PC girder. CONSTITUTION: A post structure for a water tank with an integral structure comprises a PC post, and a PC girder. The PC post comprises a body(110), a protrusion(120), an upper post(130), a through hole(140), and a plurality of couplers. The protrusion is more externally protruded than the outer circumferential surface of the body to be extended to the leading end of the vertical direction of the body. The upper post is formed on the upper part of the protrusion. The through hole is formed on the outer circumferential surface of the upper post in a manner that one and other inner and outer parts pass through each other.

Description

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

According to the present invention, in constructing the pillar portion of the storage tank, after forming a stepped jaw integrally formed with the pillar main body at one end of the pillar, the stepped jaw is to be seated, the seated girder is the upper pillar By allowing the through-holes and the injection grooves corresponding to the through-holes to be filled and cured at the same time, the pillars and the girder are integrally constructed to ensure improved durability and structural rigidity when constructing the pillar of the storage tank. The lower bottom surface of the PC pillar may be molded integrally with the foundation concrete, but a space portion is formed inside the bottom of the PC pillar and assembled with the foundation concrete by a standing muscle having an outer reinforcing reinforcement after being filled with a separate filling concrete. By reducing the cost of manufacturing the pillars, the basic concrete and the The reservoir having an integral structure, characterized in that the coupling structure of the round castle to improve still relates to a pillar structure unit structures.

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, the end of which is seated on the upper plate stepped portion of the storage block to form the same plane as 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.

The present invention is to solve the above-mentioned problems, the technical gist of the construction of the pillar of the storage tank, after forming a stepped bump formed integrally with the pillar body on one side of the pillar, the stepped girder The seated girder is to be seated, the through-hole and the injection groove corresponding to the through-hole of the upper column is to be filled with the curing of the concrete at the same time, the PC pillar and the PC girder is constructed as a unit when constructing the pillar of the storage tank In addition to ensuring more durability and structural rigidity, the bottom surface of the PC pillar may be molded integrally with the foundation concrete, but a space is formed inside the bottom of the PC pillar to fill a separate filled concrete. After being assembled, it is made to be assembled with the foundation concrete by the standing muscles having the outer reinforcement. During the production of round it costs it is an object to provide a storage structure coupled castle quiet post portion construct a structure having an integral structure, characterized in that to improve the foundation with concrete and whereas the reduction column PC.

In order to achieve the above object, the present invention has a stepped protrusion 120 which protrudes outward from an outer circumferential surface of the pole body and is formed at one side of the vertical longitudinal end of the pillar body 110 having a rectangular cross section. An upper pillar 130 having a rectangular cross section is formed on the upper side, and a through hole 140 formed inside and outside one direction and the other direction (X-axis, Y-axis) is formed on the outer circumferential surface of the upper pillar, On the upper surface of the 120, the lower side is embedded, and the PC pillar 100 is provided with a plurality of coupling holes 150 protruding upwards outward; A coupling groove 220 is formed at one side of the lower portion of the girder body 210 seated on the stepping rod 120 of the PC pillar to be cured by the site concrete M, and an upper portion of the girder body is formed. An injection groove 230 cut in a rectangular shape is formed on the surface to fill the site concrete C, and the opening is formed so as to correspond to the through hole 140 of the PC pillar at an end side of the girder body while being perpendicular to the injection groove. PC girder 200 is a ball 240 is formed; .

In this case, a plurality of coupling roots 160 intersected with each other in one direction and the other direction (X-axis, Y-axis) are inserted into the through-hole 140 of the PC pillar, and the coupling root 160 is injected into the PC girder. It is preferable to cross-arrange without interfering with the extension root 250 branched in the groove 230 and then embedded by the field concrete to improve the structural rigidity of the joint portion J.

In addition, the PC pillar 100 is formed in the lower portion of the pillar body is filled with a concrete portion 170 that can accommodate the filled concrete (C-1), the space portion 170 is the injection hole through the inside and outside through the central side wall 171 is formed, and the outlet side 172 is formed on the upper side wall to determine whether the filling concrete (C-1) is filled, and a plurality of standing roots ( 180 is wound around the outer reinforcing reinforcement 190 is formed to support from the base concrete (C-2), the lower end of the standing root 180 is coupled to the fitting groove 10 previously formed in the base concrete (C-2) After curing by the non-shrink mortar (M) it is preferable that the PC pillar 100 is molded integrally with the base concrete (C-2).

Thus, the space portion 170 of the PC pillar is formed in a trapezoidal shape of the ordinary light beams so that the center of gravity of the filling concrete (C-1) is directed to the bottom surface to ensure a stable filling of the filling concrete (C-1) It is desirable to.

In addition, the PC pillar 100 is to maintain the height of the upper column 130 is the same as the height of the PC girder 200 to form a monolayer structure pillar, or the height of the upper column 130 is based on the step It is preferable that the PC slab 300 is coupled with the main body after being formed of any one of which extends to form a multilayer structure pillar.

As described above, in the present invention, in constructing the pillar portion of the storage tank, after forming a stepped bump formed integrally with the pillar main body at one end of the pillar, the stepped bump is allowed to be seated on the stepped girder. The through-holes and the injection grooves corresponding to the through-holes of the upper pillars allow the concrete to be filled and cured at the same time, so that the pillars and the girder are integrally constructed to ensure improved durability and structural rigidity when constructing the pillar of the storage tank. Of course, the bottom bottom surface of the PC pillar is to be molded integrally with the foundation concrete, but the lower inner portion of the PC pillar is formed by a space portion is formed by a standing muscle having a reinforcement of the outer reinforcement after filling the filled concrete By assembling with concrete, the cost of manufacturing PC pillars can be reduced while the basic concrete Structural coupling between the T and the PC column has the effect of improving.

1 is a perspective view illustrating an example of a storage cylinder for a storage tank according to the present invention;
Figure 2 is a side view showing a coupling state of the PC pillar and PC girder according to the present invention,
3 is a plan view of FIG.
Figure 4 is a side view showing a state where the pillar and the foundation concrete is coupled according to the present invention,
5 is an exemplary view showing that the PC pillar is applied in a single layer structure according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the accompanying drawings.

First, the present invention, as shown in Figures 1 to 5, in constructing the pillar portion of the storage tank, the PC pillar 100 is easy with the PC girder 200, the foundation concrete (C-2) and the PC slab 300 It is characterized in that the construction to be integrated.

Accordingly, the PC pillar 100 has a stepped protrusion 120 extending from the outer circumferential surface of the pillar body to extend outwardly on one side of the vertical longitudinal direction of the pillar body 110 having a rectangular cross section.

That is, the stepped jaw is, when viewed from the top, the shape is based on a square, it is preferably formed of a polygon of various shapes including a circle.

In this case, an upper pillar 130 having a rectangular cross section is formed on an upper side of the stepping jaw, and a through hole 140 having inner and outer portions penetrating one another and the other direction (X-axis, Y-axis) on an outer circumferential surface of the upper pillar. It is formed, the lower side is embedded on the upper surface of the stepping jaw 120, the upper side is made up of a plurality of coupling holes 150 protruding outward.

That is, the through hole is a through-hole that is previously penetrated for coupling with the PC girder, which will be described later, so that the PC pillar is formed integrally by the site concrete together with the PC girder facing each other.

At this time, the coupler is corresponding to the coupling groove of the PC girder to be described later, the PC girder is easily squeezed in the PC pillar, it is formed so as to assemble the assembly of the joint.

On the other hand, the PC girder 200 is coupled to the coupling groove 150 to be cured by the field concrete (M) is fitted with a coupling hole 150 on the lower side of the girder body 210 seated on the stepping wall 120 of the PC pillar ) Is formed, and the injection groove 230 cut in a square shape is formed on the upper surface of the girder body so that the field concrete (C) can be filled. The opening 240 is formed to correspond to the through hole 140.

In other words, the PC girder is formed so as to be integrally formed with the above-described PC pillar, and the injection hole and the opening hole are provided in the factory in advance so that the opening holes face the through holes of the PC pillar when the PC girder is seated on the step. After seeing, filling the filling concrete through the injection groove is formed so that the PC pillar and PC girder are integrally molded.

In this case, a plurality of coupling roots 160 intersected with each other in one direction and the other direction (X-axis, Y-axis) are inserted into the through-hole 140 of the PC pillar, and the coupling root 160 is injected into the PC girder. It is preferable to cross-arrange without interfering with the extension root 250 branched in the groove 230 and then embedded by the field concrete to improve the structural rigidity of the joint portion J.

In addition, the PC pillar 100 is formed in the lower portion of the pillar body is filled with a concrete portion 170 that can accommodate the filled concrete (C-1), the space portion 170 is the injection hole through the inside and outside through the central side wall 171 is formed, and the outlet side 172 is formed on the upper side wall to determine whether the filling concrete (C-1) is filled, and a plurality of standing roots ( 180 is wound around the outer reinforcing reinforcement 190 is formed to support from the base concrete (C-2), the lower end of the standing root 180 is coupled to the fitting groove 10 previously formed in the base concrete (C-2) After curing by the non-shrink mortar (M) it is preferable that the PC pillar 100 is molded integrally with the base concrete (C-2).

Thus, the space portion 170 of the PC pillar is formed in a trapezoidal shape of the ordinary light beams so that the center of gravity of the filling concrete (C-1) is directed to the bottom surface to ensure a stable filling of the filling concrete (C-1) It is desirable to.

In addition, the PC pillar 100 is to maintain the height of the upper column 130 is the same as the height of the PC girder 200 to form a monolayer structure pillar, or the height of the upper column 130 is based on the step It is preferable that the PC slab 300 is coupled with the main body after being formed of any one of which extends to form a multilayer structure pillar.

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 present invention as defined by the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

100 ... PC pillar 110 ... pillar body
120 ... step 130 ... upper pillar
140 ... through-hole 150 ... splice
160 ... Coupling Muscle 170 ... Space
171 ... Inlet 172 ... Outlet
180 ... standing muscles 180 ...
200 ... PC girder 210 ... girder body
220 ... engaging groove 230 ... injection groove
240 ... aperture 250 ... extension
300 ... PC Slab

Claims (5)

On the upper and lower longitudinal ends of one side of the pillar body 110 having a rectangular cross section, a bumping jaw 120 is formed to extend further outward than an outer circumferential surface of the pillar body, and an upper pillar having a rectangular cross section is formed on the upper side of the hanging bump. 130 is formed, the through hole 140 is formed on the outer circumferential surface of the upper column through and outside the one direction and the other direction (X-axis, Y-axis), the lower side on the upper surface of the straddle 120 PC pillar 100 is buried, the upper side is provided with a plurality of coupling holes 150 protruding outward;
A coupling groove 220 is formed at one side of the lower portion of the girder body 210 seated on the stepping rod 120 of the PC pillar to be cured by the site concrete M, and an upper portion of the girder body is formed. An injection groove 230 cut in a rectangular shape is formed on the surface to fill the site concrete C, and the opening is formed so as to correspond to the through hole 140 of the PC pillar at an end side of the girder body while being perpendicular to the injection groove. PC girder 200 is a ball 240 is formed;
Storage tank columnar structure structure having an integrated structure, characterized in that consisting of. According to claim 1, The through hole 140 of the PC pillar is inserted into a plurality of coupling muscles 160 arranged in a cross direction in one direction and the other direction (X axis, Y axis), the coupling root 160 is It has an integrated structure characterized in that it is intersected without interfering with the extension root 250 branched in the injection groove 230 of the PC girder and then embedded by the field concrete to improve the structural rigidity of the joint (J) Storage column structure. According to claim 2, The PC pillar 100 is formed in the lower portion of the pillar body is filled with a concrete portion 170 that can accommodate the filled concrete (C-1), the space portion 170 is in and around the central side wall Is formed through the injection hole 171, the outlet side 172 is formed in the upper side wall through which is formed so as to determine whether the filling concrete (C-1) is filled, in the space portion 170 A plurality of standing muscles 180 are wound around the outer reinforcing reinforcement 190 and formed to be supported from the foundation concrete (C-2), and the lower end of the standing muscles 180 is pre-formed in the foundation concrete (C-2) (10) ) Coupled to the non-shrink mortar (M) to be cured by the pillar pillar (100) is a storage unit columnar structure having an integrated structure, characterized in that to be molded integrally with the base concrete (C-2). According to claim 3, The space portion 170 of the PC pillar is formed in a trapezoidal shape of the ordinary light beam narrow so that the center of gravity of the filling concrete (C-1) toward the bottom surface is stable of the filling concrete (C-1) Storage column pillar structure having an integrated structure characterized in that the filling is induced. According to claim 4, The PC pillar 100 is the height of the upper column 130 is maintained to be the same as the height of the PC girder 200 to form a single-layered column, or the height of the upper column 130 Storage pillar structure having a unitary structure having an integrated structure, characterized in that the PC slab (300) is formed after being formed to any one of extending to form a multi-layered pillar portion with the pillar body based on.

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