KR101272001B1 - Body of underground storage container fabricating precast segments and method constructing thereof - Google Patents

Abstract

PURPOSE: A rainwater reservoir assembly unit by precast segment member assembly and a rainwater reservoir construction method using the same are provided to be easily transferred, economically mold a member, and supply structural stability by comprising upper and lower flanges and a web unit. CONSTITUTION: A rainwater reservoir assembly unit by precast segment member is manufactured as the same structure in which a column member(40), a wall column member(20), and a corner member(10) include a cross-shaped web unit. A wall member(30) except for a linear shape web unit includes a same structure. A plurality of steel wire penetration hole(H) is formed on the upper and lower flanges of the corner member, and a steel wire is inserted in order to apply tension. An insert bolt(I) is embedded on the upper and lower flange so that both ends of a girder member and an auxiliary girder member are connected.

Description

Storm storage tank assembly by precast segment member assembly and construction method of storm storage tank using it {Body of underground storage container fabricating precast segments and method constructing}

The present invention relates to a storm storage tank assembly by precast segment member assembly and a storm storage tank construction method using the same, the number of forming molds by uniformizing the shape, structure and size of the pillar member, the wall column member, and the corner member in the same manner In addition to minimizing the number of members, the type of the member is also simplified, thereby making segment member molding more economical and facilitating the handling of the segment member.

In addition, the joining of the pillar member, the wall column member, and the upper flange of the corner member and the girder member (or the auxiliary girder member) is secured by a simple insert bolt (I) as well as an assembly member (corner member) forming a side wall. The steel wire through hole penetrated in the side wall direction in the upper and lower flanges of the wall member and the wall column member, and the long steel wire through hole in the girder member of the longitudinal line, thereby introducing a tension force to the steel wire P. By the tension of the steel wire (P) by the force balance between the upper and lower parts of the side wall (S), and the upper girders member 50 is the invention that makes the overall construction of the storm storage tank more stable structure. .

In addition, the shape of the unified and simplified segment members (pillar member, wall pillar member, corner member) having the same shape and structure and size are formed by the upper and lower flanges having a square shape and a vertical cross-shaped web portion (W +) formed between the upper and lower flanges. Since the end portions of the four girder members are easily assembled and installed at the same level on the top flange of the square, the vertical load transmitted from the girder member is stably supported by the cross web part (W +) so that the excellent storage tank (100) The construction of the structure is a useful invention that has a stable effect on structural mechanics.

Rapid urbanization of river basins is increasing annually due to flooding in urban areas, resulting in more lives and property damage. A countermeasure is needed. Flood damage in urban areas is the main cause of the significant shortage of floating capacity. This is due to the loss of natural penetration due to the increase of road pavement rate and the construction of dense buildings and buildings.

On the contrary, in the dry season, rivers may become dry or groundwater depleted due to a lack of inflow. This is due to the loss of natural penetration.

If the rainwater is stored temporarily during flooding and discharged slowly over a long period of time without being discharged at once, not only can it prevent the flooding, but also prevent the dryness of the river if the water flows through the low water-flowing low season. do. It is a good storage tank developed for this purpose. Rainwater storage tanks are preferably constructed and buried using a wide park, school ground, or a large open ground.

Patents related to rainwater storage tanks are registered in Korean Patent Nos. 10-485742 (hereinafter referred to as "prior art-1") and 10-582121 (hereinafter referred to as "prior art-2") and 10-1013235 (hereinafter " Prior art-3 ').

The prior art-1 in Figs. 1A and 1B relates to an even reservoir, which includes a body block 1, a peripheral block 2 and a slab 3. The block 1 for the main body portion is provided with four pillars 7 at right angles, respectively, at right and left corners of the top plate 5 and the bottom plate 6 at right angles, and the openings at four sides by the pillars 7. The through holes 9 are formed in the upper and lower portions of the pillars 7 and the nut set grooves 10 are formed therein, while the grooves in which the couple guide pins 14 are inserted, respectively. It is formed on the outer surface. Peripheral block 2 has the same configuration as body block 1 except that one or more of the four faces take a closed form.

The slab 3 is coupled to the peripheral block 2 by a screw member extending outward from the peripheral block 2 so as to close the opening of the peripheral block 2 facing outward when assembled.

The construction procedure of the rainwater storage tank of the prior art-1 constructed by the block 1 for a main body part comprised in this way is as follows.

The main body block (1) is located in the center of the rainwater storage tank, and based on this, while connecting the main body block (1) in succession is a construction method that installs the peripheral block (2) at the end.

The prior art-2 of Figs. 2A and 2B relates to an excellent storage tank and includes a storage block 10 and an upper surface block 30. The storage block 10 has pillars 14 formed at each corner of the top plate 11 and the bottom plate 12 so that the openings 13 are formed at the sides of the cube, respectively, and the top and bottom of each pillar 14. A plurality of nut settled grooves 22 are formed in the grooves, a stepped portion 15 is formed on at least one side of the upper surface plate 11, and a coupling portion is formed on the bottom plate 12 so as to be integral with the base surface. . In addition, the upper block 30 has a rectangular plate shape, the end of which is seated on the upper plate stepped portion 15 of the storage block 10 to form the same plane as the upper plate 11 of the storage block 10. Here, the plurality of storage blocks 10 are repeatedly arranged in a straight line, and the upper surface block 30 is configured to combine the plurality of storage blocks 10 in a straight line to form a storage space. At this time, the storage block 10 of the cube is structurally stable structure. The storage block 10, the pillars 14, and the upper block 30 are precast, and the construction is constructed by assembling in the field.

The construction procedure of the excellent storage tank of the prior art-2 constructed by the storage block 10, the pillar 14, and the upper block 30 configured as described above is as follows.

As shown in Figure 2a, the structurally stable hexahedral storage block 10 is first installed on both sides, and then, between the hexahedral storage blocks 10, pillars 14 are installed at regular intervals, and an upper portion of the pillar 14 is provided. And the upper surface block 30 is installed in the stepped portion 15 of the storage block 10 of the hexahedron.

Since the construction method of the storm algae tank of the prior art-1 of FIGS. 1A and 1B and the prior art-2 of FIGS. 2A and 2B is integrally manufactured (precast) in the structure of a hexahedron block, a hexahedral block is manufactured by precast and In case of transportation, the bulky space of the vehicle is limited and it is economically disadvantageous, and the weight of the cube block itself becomes very large, not to mention the loading and unloading, so it is very disadvantageous for the transportation of large algae tanks. have. In addition, because the cube should be manufactured integrally, there is a problem that the concrete takes a long time to harden because the concrete takes a long time to cure. In addition, it is difficult to accurately place the heavy hexahedral block in the construction position, and if the position is shifted, there is a problem that the modification of the hexahedral block by the crane is so difficult.

Patent No. 10-1013235 of the prior art-3 is a technique for solving the problems of the prior art-1 of Figs. 1a and 1b and the prior art-2 of Figs. 2a and 2b.

Unlike the prior art-1 and the prior art-2, the prior art-3 reduces the volume instead of the bulky cube block formed integrally and enables the construction of a large algae tank for convenient transportation. It is the construction method to assemble from.

Prior art-3, unlike the prior art-1 and -2, which is constructed by a block of bulky hexahedron, which is structurally stable, is constructed in a stable assembly structure by assembling each segment, thereby minimizing volume and transporting. While there are advantages such as convenience and large scale construction of storm water storage tank, it is accompanied by an additional disadvantage that the number of manufacturing of the segment increases.

A diagram relating to the prior art-3 is shown in FIG.

According to FIG. 3, the side wall 1, the pillar 2, the girders 3, and the roof slab 5 are constructed to form the storage space R. Referring to FIG.

The side wall 1 includes a corner wall block 11 forming an edge portion of the storage space R, an intermediate wall block 12 disposed between the corner wall block 11, and a corner wall block 11. It is constructed by a column wall block 13 disposed in and supporting the end of the girders 3. In other words, the side wall 1 is arranged between the corner wall block 11 and the corner wall block 11, and the plurality of intermediate wall blocks 12 are closely arranged in succession, and the column wall blocks 13 are arranged at regular intervals therebetween. It is. Since the pillar wall block 13 is a support block for supporting the girder block 31 installed on the pillar block 2, the pillar wall block 13 is positioned in a line in the same direction as the pillar block 2 in which the girder block 31 is installed.

The girder block 31 extends and is installed over the column block 2 to the column wall block 13 of the side wall 1. At this time, the top surface of the pillar block (2) is one-way cross-sectional shape. That is because the girder block 31 is shaped to be installed only in one direction on the top surface of the pillar block (2). Accordingly, the construction of the girder block 31 is the pillar block 2 and the so-called one-way construction method.

Bonding of all segments is a structure firmly fastened by a PC steel bar (P). In particular, the side walls and girders are structured to be integrated with each other by the stranded steel wire applied to the tensile force. In other words,

The side wall 1 has a corner wall block 11 and a corner wall block 11 disposed on both sides, and a plurality of consecutive middle wall blocks 12 are connected between the corner wall blocks 11, and a continuous middle wall block ( Since the column wall blocks 13 are arranged at regular intervals between 12), even if they are joined by the PC steel bar P, the plurality of segments are not completely firm as a whole. In order to compensate for this, the PC strand is placed through the wire in order to integrate all the segments of the sidewall 1 into one, and a tensile force is applied thereto.

In addition, the girder 3 is a member made up of a plurality of segments, that is, a plurality of girder blocks 31 installed on the pillar block 2. Although the girder block 31 and the pillar block 2 are firmly joined by the PC steel bar P, the joint may be insufficient as compared with the girder integrated into one. In order to compensate for this, a PC strand is penetrated and placed in the girder block 31 to apply a recognition force so as to be one girder.

However, the prior art-3 is manufactured by precast, so that it is possible to assemble in the field, so it is possible to build a good rainwater storage tank, and it is an excellent technology that the joint is rigid. However, there are many types of segments and different shape structures, resulting in excessive molding and manufacturing costs. Since the shape structure of the block for the side wall 1 (corner wall block 11, the intermediate wall block 12, the pillar wall block 13), the girder block 31, and the pillar block 2 are all different, This is because the manufacturing cost will increase.

⒜ According to the present invention, the structure of the storm storage tank is formed by assembling various kinds of precast segment members. The purpose is to minimize and simplify the type and to reduce the cost of forming the segment member so that the construction of the storm storage tank can be made economically and efficiently.

기둥 In the structure of the pillar member, wall pillar member, and corner member having the same molding, the upper and lower flanges having a square shape and the cross webs of vertical lines are integrally formed between the upper and lower flanges. The end is assembled and installed at the same level on the upper flange of the square shape, and the four girders on the upper flange form a lattice-like structure, and at the same time, the vertical load transmitted from the girder member is cross-shaped. The structure of the web part is stably supported, so that the excellent storage tank has a stable construction structure in structural dynamics.

(C) the upper and lower flanges of the assembly member forming the side wall while the joint between the pillar member, the wall pillar member, and the upper flange of the corner member and the girder member (or the auxiliary girder member) is secured by a simple insert bolt; In addition, it is another object to make the overall structure of the storm storage tank more stable by inserting and tensioning the steel wire into the girder member of the long direction line.

Referring to the accompanying drawings the configuration of the excellent storage tank assembly by precast segment member assembly of the present invention as follows.

The corner blocks are installed on both sides, and the wall blocks and the side wall blocks are installed side by side between the corner blocks. The wall column blocks are installed at the position line of the girder block, and the column blocks are fixed along the installation line of the girder block. Girder block is installed and supported on the column block and the wall column block of the side wall, the installation line of the girder block and the column block-wall column block is on the same line, and the slab block is assembled and installed on the girder block. In the storm reservoir assembly

OCDA,

OBEA)이며, 상기의 각 부재가 서로 조립ㆍ연결됨을 특징으로 하는 프리캐스트 세그먼트부재 조립에 의한 우수저류조 조립체 구성이다.
The pillar member 40, the wall pillar member 20, and the corner member 10 have the same shape and the same structure with the upper and lower flanges Fu (Fd) having the upper and lower parts symmetrical, and the cross-shaped web part W +. The upper and lower flanges (Fu) (Fd) have a square shape, and the cross-shaped web portions (W +) located between the upper and lower flanges (Fu) (Fd) are parallel to each other at the center of the square and each other. The wall member 30 is orthogonal to each other, and the wall member 30 includes a pillar member 40 and a wall pillar member 20 except for a straight web portion W− positioned between upper and lower flanges Fu and Fd. And, and the shape and size and height of the upper and lower flanges (Fu) (Fd) of the corner member 10, the girder member 50 is between the pillar member 40 and the pillar member 40, and It is installed between the pillar member 40 and the wall pillar member 20, the thickness is uniform rectangular shape and the shape of both ends 52 is the pillar member 40 Right angled isosceles triangle shape (△ OBC, △ OCD, △ ODE, △) surrounded by two diagonal lines and one side at the center point O diagonally connecting the corners of the square upper flange Fu of the wall pillar member 20 diagonally OEB), and the auxiliary girder member 60 installed on the upper flange Fu of the wall pillar member 20 has a rectangular shape of the same thickness as the girder member 50, and the shape of both end portions 62 is the right angle 2 above. Right triangle trapezoid (△ OCD) plus right angle isosceles triangle (△ OAD) that forms point A drawn at right angle to side CD at center point (O)

OCDA,

OBEA), and each of the above-described members is assembled and connected to each other.

In addition, a configuration in which the through-hole and insert bolts of the steel wire or the stranded wire P are embedded is added.

That is, the plurality of steel wire through-holes H are formed in the wall member 30, the wall pillar member 20, and the upper and lower flanges Fu and Fd of the corner member 10. And a plurality of steel wire through-holes H are also penetrated and formed in the direction of the longitudinal line in which the column member 40 is installed, and is formed in the lower flange Fd of the pillar member 40. A plurality of long steel wire through-holes 54 are formed in the girder member 50 provided in the same direction as the longitudinal line direction in which the member 40 is installed. The girder described above is provided in the side wall S direction. A plurality of steel wire through-holes 64 are also formed at both ends 62 and 62 of the auxiliary girder member 60 which are perpendicular to the member 50 and perpendicular to the line direction of the girder member 50. The pillar member 40 on which the member 50 and the auxiliary girder member 60 are installed, the wall member 30 forming the side wall S, and the wall column Both ends 52, 52, 62 and 62 of the girder member 50 and the auxiliary girder member 60 are inserted into the ash 20 and the upper flange Fu of the corner member 10. It is an excellent storage tank assembly by precast segment member assembly characterized in that the insert bolt (I) is embedded in the vertical fastening position corresponding to each other to be fastened by the).

Further, the configuration related to the upper and lower parts, that is, the configuration of the slab member and the auxiliary slab member, and the bottom plate slab member is added. In other words,

Add slab member 70 and auxiliary slab member 80, and bottom slab member 90, but between the girder member 50 and the girder member 50, on both sides of the intermediate body 72, The slab member 70 having a shape in which the 74 is formed, and the auxiliary slab members 82 and 84 of the A-type and B-type immediately above the girder member 50 and the auxiliary girder member 60, is formed. Is installed on the girder member 50, but the auxiliary slab member 82 of the A-type is a rectangular shape of the same length and width of the girder member 50, the thickness of the locking jaw 74 of the slab member 70 The B-type auxiliary slab member 84, which is the same as the thickness of and is installed on the auxiliary girder member 60, has a rectangular shape having the same length and width as the auxiliary girder member 60, and the thickness thereof is the thickness of the slab member 70. The bottom slab member 90 has the same thickness as that of the locking jaw 74, but the yarn has a uniform thickness. Excellent shape by assembling the precast segment member, characterized in that a plurality of longitudinal steel wire through-holes 92 are formed in the bottom slab member 90 which is shaped and installed in the same direction as the line direction in which the pillar member 40 is installed. Storage tank assembly configuration.

OCDA,

OBEA)이며, 상기의 각 부재가 서로 조립ㆍ연결됨을 특징으로 하는 프리캐스트 세그먼트부재 조립에 의한 우수저류조 조립체 구성이다.
In another embodiment, the pillar member 40, the wall pillar member 20, and the corner member 10 have an upper and lower symmetric upper and lower flanges Fu and Fd, and an octagonal shape in which the hollow part Q is formed. The same shape and the same structure having the web portion W, and the same size and the same structure, the upper and lower flanges (Fu) (Fd) is a square shape, the octagonal web portion (W) is located between the upper and lower flanges (Fu) (Fd) The wall member 30 has a linear web portion W- formed between the upper and lower flanges Fu and Fd, and the pillar member 40, the wall pillar member 20, and a corner. The shape and size of the upper and lower flanges (Fu) (Fd) and the height of the member 10 is the same, the girder member 50 is between the pillar member 40 and the pillar member 40, and the pillar member 40 And a rectangular shape having a uniform thickness while being installed between the wall post member 20 and the shape of the both ends 52 are square upper plans of the pillar member 40 and the wall post member 20. A rectangular isosceles triangular shape (△ OBC, △ OCD, △ ODE, △ OEB) surrounded by two diagonal lines and one side at the center point O diagonally connecting the edges of the edges to each other, and the wall pillar member 20 The auxiliary girder member 60 installed on the upper flange Fu has a rectangular shape having the same thickness as that of the girder member 50, and the end portions 62 have a centered point O at the right angled isosceles triangle ΔOCD. ) Is a right-sided trapezoidal shape with a right angled isosceles triangle (△ OAD) formed at point A drawn at right angles to the side CD ().

OCDA,

OBEA), and each of the above-described members is assembled and connected to each other.

In addition, by forming the pillar member 40 formed and manufactured in the same shape and the same structure and the same size, the wall pillar member 20, and the hollow part Q which penetrates the center part of the corner member 10, The weight of the pillar member 40, the wall pillar member 20, and the corner member 10 is reduced. Light weight makes handling easy and easy assembly work.

As described above, the present invention not only minimizes the number of molding dies but also types of members by unifying the shape, structure, and size of the pillar member 40, the wall pillar member 20, and the corner member 10 in the same manner. By simplifying it, there is an advantage in that segment member molding is economical and conveyance handling of the segment member is easy.

In addition, the unified and simplified segment member having the same shape, structure and size has a vertical cross-shaped web portion (W +) between the upper and lower flanges (Fu) and the upper and lower flanges (Fu) and (Fd). Since the end 52 of the four girder members 50 is easy to be assembled and installed at the same level on the upper flange Fu having a square shape, the cross-shaped web portion receives the vertical load transmitted from the girder member 50. By being stably supported by (W +), the structure of the storm storage tank 100 is stable in structural dynamics.

In addition, an insert bolt having a simple joint between the pillar member 40, the wall pillar member 20, and the upper flange Fu of the corner member 10 and the girder member 50 (or the auxiliary girder member 60) ( It is made firm by I). At the same time, the steel wire through-hole H penetrating in the side wall direction to the upper and lower flanges Fu and Fd of the assembly members (corner member 10, wall member 30, wall pillar member 20) forming the side walls, Then, the longitudinal steel wire through hole 54 penetrates and is formed in the girder member 50 of the longitudinal line, and a tension force is introduced into the steel wire P so that the upper and lower portions of the side wall S are separated by the tension force of the steel wire P. FIG. And, since the structure of the force balance between the upper girders 50, there is an advantage that the overall construction of the rainwater storage tank is more stable structure.

The wall member 30 forming the side wall S together with the corner member 10 and the wall pillar member 20 is a corner member 10 except that the cross web portion W + is formed as the straight web portion W-. And, since the wall pillar member 20, and the pillar member 40 is made of the same shape and the same structure and the same size, the assembling construction of the side wall (S) is easy, there is a structurally stable advantage.

⒜ The present invention not only minimizes the number of molds by forming the same shape, structure, and size of the pillar member, the wall column member, and the corner member, but also simplifies the type of the member, thereby making segment member molding economical. There is an effect that the handling and handling of the segment member are facilitated.

뿐 In addition, the shape of the unified and simplified segment members (pillar member, wall pillar member, corner member) having the same shape and structure and size are cross-shaped web portions (W +) of vertical lines between the upper and lower flanges and the upper and lower flanges. Since the end of the four girder members is easy to assemble and install at the same level on the top flange of the square shape, the vertical load transmitted from the girder member is stably supported by the cross web part (W +) so that the excellent storage tank ( The construction of 100 has a stable effect on structural mechanics.

⒞ Also, the joining of the pillar member, the wall column member, and the upper flange of the corner member and the girder member (or the auxiliary girder member) is not only secured by a simple insert bolt (I) but also an assembly member (corner member) forming a side wall. The steel wire through hole penetrated in the side wall direction in the upper and lower flanges of the wall member and the wall column member, and the long steel wire through hole in the girder member of the longitudinal line, thereby introducing a tension force to the steel wire P. As a result, the force is balanced between the upper and lower portions of the side walls S and the upper girders 50 by the tension force of the steel wire P, thereby making the overall construction of the rainwater storage tank more stable. .

벽 The wall member forming the side wall together with the corner member) and the wall pillar member has the same shape as the corner member, the wall pillar member, and the pillar member, except that the cross web portion W + is formed as the straight web portion W-. And since the same structure and the same size is easy to assemble the construction of the side wall (S) is a useful invention having a structurally stable effect.

1A is a perspective view of an excellent storage tank of the prior art-1
FIG. 1B is a detailed perspective view of the block for the main body part of FIG. 1A
2A is a perspective view of the storm water storage tank of the prior art-2;
FIG. 2B is a detailed perspective view of the storage block of FIG. 2A
3 is an excellent storage tank perspective view of the prior art-3
4 is a perspective view of the present invention excellent storage tank assembly
5 is a perspective view of a corner member, a wall pillar member, a pillar member, and a wall member of the present invention;
Fig. 6 is a perspective view of the slab member, the girder member, the auxiliary slab member, the auxiliary girder member, and the bottom plate slab member of the present invention.
Fig. 7 is a plan view for explaining the shape of the end of the corner member, the wall pillar member, and the upper flange of the square member of the column member, and the end of the auxiliary girder member;
Fig. 8 is a cross-sectional view showing a state in which the corner member, the wall column member, the upper flange of the column member, the girder member provided thereon, and the auxiliary girder member are fastened and fixed by insert bolts.
Fig. 9 is a cross-sectional view showing a state in which tensile steel wires are arranged on a corner member constituting an outer wall (outer side), a wall pillar member, upper and lower flanges of the wall member, and a wall pillar member and a column member connected to an inner side thereof. Sectional view showing the tensile steel wire disposed on the wall post member, the lower flange of the column member, and the bottom slab member connected thereto.
10 is a cross-sectional view of the anchorage showing the tensile steel is settled

The storm storage tank construction method using the storm storage tank assembly by precast segment member assembly will be described in detail with reference to the accompanying drawings.

First, the construction method for the construction process starting from the outer side wall toward the inner pillar member is as follows.

상 The upper and lower flanges (Fu) (Fd) (upper flanges (Fu), which arrange the foundation grounds on which rainwater storage tanks are to be installed, and have a plurality of steel wire through holes (H) in the side wall (S) direction, having a square shape of the same size on the foundation grounds. ) Is a cross-shaped web part (W +), which is a vertical insert bolt (I) buried] and two vertical planes located between the upper and lower flanges (Fu) (Fd) and parallel to each other at right angles to the sides of the square. Installing a plurality of corner members 10 consisting of;

측벽 Side wall (S) is continuously installed by the plurality of wall member 30 and the wall column member 20 with respect to the corner member 10, the plurality of steel wire in the side wall (S) direction of the square shape of the same size. The upper and lower flanges (Fu) (Fd) (the upper insert (I) is buried vertically in the upper flange (Fu)) and the upper and lower flanges (Fu) (Fd) formed with the through hole (H) The wall pillar member 20, which is composed of two webs (W +) having two vertical planes parallel to each other and perpendicular to each side at the center thereof, is installed at a point that meets the installation line of the pillar member 40 to be installed in a grid shape. The upper and lower flanges (Fu) (Fd) (upper flange (Fu) has a square shape having the same size and formed a plurality of steel wire through holes (H) in the side wall (S) direction between the member 10 and the wall column member 20. Vertical insert bolt (I) buried] and upper and lower flanges (Fu) (Fd) A side wall (S) continuously installed by a wall member (30) formed of a straight web portion (W-), which is a vertical plane formed in parallel to two parallel sides of the square at the center of the square;

기둥 To install the column member 40 in a lattice form at regular intervals in the line of the wall column member 20, the pillar member 40 is the upper and lower flanges (Fu) (Fd) [upper flange (square) of the same size Fu) has a vertical insert bolt (I) embedded between the buried] and the upper and lower flanges (Fu) (Fd), and two webs (W +) that are perpendicular to each other at right angles and parallel to each side at the center of the square. And a plurality of steel wire through holes (H) penetrating and formed in the lower flange (Fd) of the longitudinal direction, the line of the pillar member 40 and the wall column member 20 to be the same line step;

OCDA,

OBEA)이고, 또 양측 단부(62)(62)에 측벽(S)방향과 직각되게 강선 관통홀(64)이 형성된]보조 대들보 부재(60)를 설치하는 한편, 기둥부재(40)의 상부플랜지(Fu)와 대들보 부재(50)의 양측 단부(52)(52)를, 그리고 벽 부재(30)와, 벽기둥부재(20)와, 코너부재(10)의 상부 플랜지(Fu)와 대들보 부재(50) 및 보조 대들보 부재(60)의 양측 단부(52)(52)(62)(62)를 수직상의 인서트 볼트(I)에 의하여 견고하게 체결하는 단계;
(2) The upper flange (Fu) of the pillar member (40) is a rectangular shape with uniform thickness, and the ends 52 and 52 have a square upper flange of the pillar member (40) and the wall column (20). (Fu) is a right angled isosceles triangle shape (ΔOBC, △ OCD, △ ODE, △ OEB) surrounded by two diagonal lines and one side at the center point O diagonally connected to the corners of each other, and both ends 52 and 52 ) And a girder member 50 having a plurality of longitudinal steel wire through-holes 54 penetrated and formed in the same direction as the longitudinal line in which the pillar member 40 is installed. After installing in a lattice form, the upper flange Fu of the wall member 30 is [a rectangular shape having the same thickness as the girder member 50 and the shapes of both end portions 62 and 62 are the right angled quadrilateral sides. Right triangle isosceles triangle formed by triangle (△ OCD) and point A drawn at right angle to side CD at center point (O) Plus the OAD) right angle trapezoidal shape (

OCDA,

OBEA), and the auxiliary girder member 60 having the steel wire through-hole 64 formed at right angles to the side wall S direction at both ends 62 and 62, while the upper flange of the pillar member 40 is provided. (Fu) and both end portions (52, 52) of the girder member (50), and the wall member (30), the wall column member (20), the upper flange (Fu) and the girder member of the corner member (10). Fastening both ends 52, 52, 62, 62 of the 50 and the auxiliary girder member 60 by means of vertical insert bolts I;

(B) a steel wire in a plurality of steel wire through-holes (H) formed in the wall member (30) forming the side wall (S), the wall column member (20), and the upper and lower flanges (Fu) (Fd) of the corner member (10). Inserting P), straining it, and then fixing it in the fixing unit G of the fixing end;

(2) A steel wire (P) is applied to a plurality of longitudinal steel wire through holes (54) and steel wire through holes (64) formed in the same line girder member (50) and auxiliary girder member (60) installed in the longitudinal direction of the rectangular parallelepiped tank. Inserting and tensioning the same, and then fixing it in the fixing unit G of the fixing end;

⒢ Between the girder member 50 and the girder member 50, the slab member 70 having the locking jaws 74 and 74 formed on both sides of the middle body 72 is successively installed, while the girder member A-type auxiliary slab members 82 and 84 of A-type and B-type are installed directly above the 50 and the auxiliary girder member 60, and are installed on the girder member 50. ) Is a rectangular shape having the same length and width of the girder member 50, and the thickness thereof is the same as that of the locking jaw 74 of the slab member 70, and the B-type auxiliary installed on the auxiliary girder member 60. The slab member 84 is a rectangular shape having the same length and width as the auxiliary girder member 60, the thickness of the auxiliary slab member 80 to install the same as the thickness of the locking jaw 74 of the slab member 70; Excellent by assembly of precast segment member, characterized in that it comprises a It is excellent in storage tank construction method using the tank assembly.

This is a construction method in which a bottom plate slab member is added.

After the pillar-shaped column member 40 is installed in the step ⒞, the thickness between the pillar member 40 and the pillar member 40, and between the pillar member 40 and the side wall (S) wall pillar member 20 Continuously install the bottom plate slab member 90 having a uniform rectangular shape in succession, but between the pillar member 40 and the pillar member 40 in the longitudinal direction of the rectangular parallelepiped tank and forming the same line, and the pillar member 40 and the side wall. (S) A bottom plate slab member 90 is installed between the wall pillar members 20 in a long direction, while the lower flanges Fd of the pillar members 40 and the wall pillar members 20 are provided in the same line. Steel wires P are formed in the plurality of steel wire through holes H penetrated and formed in the longitudinal direction, and the plurality of long steel wire through holes 92 penetrated and formed in the bottom plate slab member 90, which are elongated in the longitudinal direction. Inserting it, tensioning it, and then fixing it in the fixing hole G of the fixing end System; Rainwater storage tank construction method using the rainwater storage tank assembly by precast segment member assembly comprising a.

Next, the construction method for the construction process starting from the inner pillar member toward the outer side wall is as follows.

기초 Arrange the foundation ground on which the storm water storage tank will be installed, and the upper and lower flanges (Fu) (Fd) of the same square shape with the same size on the foundation ground (the upper flange (Fu is embedded with vertical insert bolts (I)), and the upper and lower flanges. Two webs (W +), which are two vertical planes parallel to each other and perpendicular to each side at the center of the square and located between (Fu) (Fd), and a plurality of steel wire through holes (H) in the lower flange (Fd). After installing a plurality of pillar members 40 having a shape formed in a grid at a predetermined interval, between the pillar member 40 and the pillar member 40, and the pillar member 40 and the side wall (S) wall pillar member Continuously install the bottom plate slab member (90) having a rectangular shape with a uniform thickness between the (20)

One bottom plate slab member 90 between the pillar member 40 and the pillar member 40 constituting the same line in the longitudinal direction of the cuboid storage tank, and between the pillar member 40 and the side wall S column wall member 20. ) Is installed long in the longitudinal direction, while a plurality of steel wire through-holes H penetrated and formed in the longitudinal direction in the lower flange Fd of the pillar member 40 and the wall pillar 20 installed on the same line, and Inserting steel wires (P) into a plurality of longitudinal steel wire through holes (92) penetrating and formed in the bottom plate slab member (90) elongated in the longitudinal direction;

상 upper and lower flanges Fu (Fd) (upper flange Fu having vertical insert bolts I) having a square shape having the same size on the foundation ground and having a plurality of steel wire through holes H formed in the side wall S direction. Buried] and a plurality of corner members (10) consisting of a cross-shaped web portion (W +), which is located between the upper and lower flanges (Fu) (Fd) and is perpendicular to each other at right angles to each side at the center of the square. The side wall (S) is continuously installed by the plurality of wall members 30 and the wall pillar member 20 with respect to the corner member 10, but has a square shape having the same size and a plurality of side walls S direction. The upper and lower flanges (Fu) (Fd) (the upper flange (F) has a vertical insert bolt (I) buried) and the upper and lower flanges (Fu) (Fd) formed with the steel wire through hole (H) of the 2 perpendicular to each side and orthogonal to each other at the center of the square The wall pillar member 20 made up of a cross-shaped web portion W +, which is a vertical surface of the corner member 10 and the wall pillar member 20, is installed at a point that meets the installation line of the pillar member 40 to be installed in a lattice form. Upper and lower flanges Fu (Fd) (vertical insert bolts (I) are buried in the upper flanges (Fu)) having a square shape having the same size and having a plurality of steel wire through holes (H) formed in the sidewall (S) direction. And by the wall member 30 consisting of a straight web portion (W-), which is located between the upper and lower flanges (Fu) (Fd) and one vertical plane formed parallel to two parallel sides of the square at the center of the square Continuously installing side walls (S);

(B) a steel wire in a plurality of steel wire through-holes (H) formed in the wall member (30) forming the side wall (S), the wall column member (20), and the upper and lower flanges (Fu) (Fd) of the corner member (10). Inserting P), straining it, and then fixing it in the fixing unit G of the fixing end;

강 state in which the steel wire P is inserted into the longitudinal steel wire through-hole 92 formed in the pillar member 40 installed in the same longitudinal direction line and the bottom plate slab member 90 installed in the longitudinal direction. Insert both ends of the steel wire (P) protruding from the back into the steel wire through hole (H) of the lower flange (Fd) of the wall column member 20 of the side wall (S) located in the same line in the longitudinal direction, and the tension Next, fixing to the fixing unit (G) of the fixing end;

OCDA,

OBEA)이고, 또 양측 단부(62)(62)에 측벽(S)방향과 직각되게 강선 관통홀(64)이 형성된]보조 대들보 부재(60)를 설치하는 한편, 기둥부재(40)의 상부플랜지(Fu)와 대들보 부재(50)의 양측 단부(52)(52)를, 그리고 벽 부재(30)와, 벽기둥부재(20)와, 코너부재(10)의 상부 플랜지(Fu)와 대들보 부재(50) 및 보조 대들보 부재(60)의 양측 단부(52)(52)(62)(62)를 수직상의 인서트 볼트(I)에 의하여 견고하게 체결하는 단계;
(2) The upper flange (Fu) of the pillar member (40) is a rectangular shape with uniform thickness, and the ends 52 and 52 have a square upper flange of the pillar member (40) and the wall column (20). (Fu) is a right angled isosceles triangle shape (ΔOBC, △ OCD, △ ODE, △ OEB) surrounded by two diagonal lines and one side at the center point O diagonally connected to the corners of each other, and both ends 52 and 52 ) And a girder member 50 having a plurality of longitudinal steel wire through-holes 54 penetrated and formed in the same direction as the longitudinal line in which the pillar member 40 is installed. After installing in a lattice form, the upper flange Fu of the wall member 30 is [a rectangular shape having the same thickness as the girder member 50 and the shapes of both end portions 62 and 62 are the right angled quadrilateral sides. Right triangle isosceles triangle formed by triangle (△ OCD) and point A drawn at right angle to side CD at center point (O) Plus the OAD) right angle trapezoidal shape (

OCDA,

OBEA), and the auxiliary girder member 60 having the steel wire through-hole 64 formed at right angles to the side wall S direction at both ends 62 and 62, while the upper flange of the pillar member 40 is provided. (Fu) and both end portions (52, 52) of the girder member (50), and the wall member (30), the wall column member (20), the upper flange (Fu) and the girder member of the corner member (10). Fastening both ends 52, 52, 62, 62 of the 50 and the auxiliary girder member 60 by means of vertical insert bolts I;

(2) A steel wire (P) is applied to a plurality of longitudinal steel wire through holes (54) and steel wire through holes (64) formed in the same line girder member (50) and auxiliary girder member (60) installed in the longitudinal direction of the rectangular parallelepiped tank. Inserting and tensioning the same, and then fixing it in the fixing unit G of the fixing end;

⒢ Between the girder member 50 and the girder member 50, the slab member 70 having the locking jaws 74 and 74 formed on both sides of the middle body 72 is successively installed, while the girder member A-type auxiliary slab members 82 and 84 of A-type and B-type are installed directly above the 50 and the auxiliary girder member 60, and are installed on the girder member 50. ) Is a rectangular shape having the same length and width of the girder member 50, and the thickness thereof is the same as that of the locking jaw 74 of the slab member 70, and the B-type auxiliary installed on the auxiliary girder member 60. The slab member 84 is a rectangular shape having the same length and width as the auxiliary girder member 60, the thickness of the auxiliary slab member 80 to install the same as the thickness of the locking jaw 74 of the slab member 70; Excellent by assembly of precast segment member, characterized in that it comprises a It is excellent in storage tank construction method using the tank assembly.

As described above, the rainwater storage tank construction method using the rainwater storage tank assembly by precast segment member assembly is unified while minimizing the number of assemblies, and thus the rainwater storage tank is easily constructed and the structure of the rainwater storage tank is stable and economical.

100; Storm water reservoir,
S; Sidewall,
10; Corner Member,
20; Wall Column,
30; Wall Member,
40; Pillar member,
50; Girder member, 52; End 54; Longitudinal Steel Wire Through Hole
60; Secondary girder member, 62; End 64; Steel wire through hole
70; Slab member, 72; Middle body, 74; Jaw,
80; Secondary slab member, 82; A-type secondary slab member, 84; B-type secondary slab member

90; Bottom plate slab member, 92; Longitudinal Steel Wire Through Hole
W +; Cross web part, W-; Straight web portion, W; Web Department
Fu; Upper flange, Fd; Bottom flange, H; Liner through hole,
Q;
P; Liner or strand
I; Insert bolt
G; Anchorage

Claims (8)

The corner blocks are installed on both sides, and the wall blocks and the side wall blocks are installed side by side between the corner blocks. The wall column blocks are installed at the position line of the girder block, and the column blocks are fixed along the installation line of the girder block. Girder block is installed and supported on the column block and the wall column block of the side wall, the installation line of the girder block and the column block-wall column block is on the same line, and the slab block is assembled and installed on the girder block. In the storm reservoir assembly

The pillar member 40, the wall pillar member 20, and the corner member 10 have the same shape and the same structure with the upper and lower flanges Fu (Fd) having the upper and lower parts symmetrical, and the cross-shaped web part W +. The upper and lower flanges (Fu) (Fd) have a square shape, and the cross-shaped web portions (W +) located between the upper and lower flanges (Fu) (Fd) are parallel to each other at the center of the square and each other. The wall member 30 is orthogonal to each other, and the wall member 30 includes a pillar member 40 and a wall pillar member 20 except for a straight web portion W− positioned between upper and lower flanges Fu and Fd. And, and the shape and size and height of the upper and lower flanges (Fu) (Fd) of the corner member 10, the girder member 50 is between the pillar member 40 and the pillar member 40, and It is installed between the pillar member 40 and the wall pillar member 20, the thickness is uniform rectangular shape and the shape of both ends 52 is the pillar member 40 Right angled isosceles triangle shape (△ OBC, △ OCD, △ ODE, △) surrounded by two diagonal lines and one side at the center point O diagonally connecting the corners of the square upper flange Fu of the wall pillar member 20 diagonally OEB), and the auxiliary girder member 60 installed on the upper flange Fu of the wall pillar member 20 has a rectangular shape of the same thickness as the girder member 50, and the shape of both end portions 62 is the right angle 2 above. Right triangle trapezoid (△ OCD) plus right angle isosceles triangle (△ OAD) that forms point A drawn at right angle to side CD at center point (O)

OCDA,

OBEA), and the storm reservoir assembly by precast segment member assembly, wherein each member is assembled and connected to each other.
The method of claim 1, wherein
A plurality of steel wire through-holes H are formed in the wall member 30, the wall pillar member 20, and the upper and lower flanges Fu and Fd of the corner member 10. Direction, and a plurality of steel wire through-holes H are also penetrated and formed in the longitudinal line direction in which the column member 40 is installed, and also in the lower flange Fd of the pillar member 40. A plurality of longitudinal steel wire through-holes 54 are also penetrated and formed in the girder member 50 provided in the same direction as the longitudinal line direction in which 40 is installed, and the girder member ( A plurality of steel wire through-holes 64 are also formed at both ends 62 and 62 of the auxiliary girder member 60 that are perpendicular to each other and perpendicular to the line direction of the girder member 50, while the girder member ( 50) and the pillar member 40 on which the auxiliary girder member 60 is installed, and the wall member 30 forming the side wall S, and the wall pillar member. (20), and the upper flange (Fu) of the corner member 10, both ends 52, 52, 62, 62 of the girder member 50 and the auxiliary girder member 60 insert bolt (I) Excellent storage tank assembly by precast segment member assembly, characterized in that the insert bolt (I) is embedded in the vertical fastening position corresponding to each other to be fastened by
The method according to claim 1 or 2
Add slab member 70 and auxiliary slab member 80, and bottom slab member 90, but between the girder member 50 and the girder member 50, on both sides of the intermediate body 72, The slab member 70 having a shape in which the 74 is formed, and the auxiliary slab members 82 and 84 of the A-type and B-type immediately above the girder member 50 and the auxiliary girder member 60, is formed. Is installed on the girder member 50, but the auxiliary slab member 82 of the A-type is a rectangular shape of the same length and width of the girder member 50, the thickness of the locking jaw 74 of the slab member 70 The B-type auxiliary slab member 84, which is the same as the thickness of and is installed on the auxiliary girder member 60, has a rectangular shape having the same length and width as the auxiliary girder member 60, and the thickness thereof is the thickness of the slab member 70. The bottom slab member 90 has the same thickness as that of the locking jaw 74, but the yarn has a uniform thickness. Excellent shape by assembling the precast segment member, characterized in that a plurality of longitudinal steel wire through-holes 92 are formed in the bottom slab member 90 which is shaped and installed in the same direction as the line direction in which the pillar member 40 is installed. Reservoir assembly
The method according to claim 1 or 2
Rainfall storage tank assembly by precast segment member assembly characterized in that the hollow portion (Q) is penetrated through the pillar member 40, the wall column member 20, and the center of the corner member 10.
The pillar member 40, the wall pillar member 20, and the corner member 10 are formed on an upper and lower symmetric upper and lower flanges Fu and Fd, and an octagonal web portion W having a hollow portion Q. The upper and lower flanges (Fu) (Fd) have a square shape, and an octagonal web portion (W) is located between the upper and lower flanges (Fu) (Fd), and the same shape and the same structure and the same size. The member 30 has a columnar web portion W- formed between the upper and lower flanges F and Fd, the pillar member 40, the wall pillar member 20, and the corner member 10. The shape and size and height of the upper and lower flanges (Fu) (Fd) of the girder member 50 is between the pillar member 40 and the pillar member 40, and the pillar member 40 and the wall column member Between the 20, but the rectangular shape of uniform thickness and the shape of both ends 52 is the corner of the upper flange (Fu) of the square of the pillar member 40 and the wall column member 20 It is a right-angled isosceles triangle shape (△ OBC, △ OCD, △ ODE, △ OEB) surrounded by two diagonal lines and one side at a center point O diagonally connected to each other, and on the upper flange Fu of the wall column member 20. The auxiliary girder member 60 to be installed has a rectangular shape having the same thickness as the girder member 50, and the shape of both end portions 62 is in the right angled isosceles triangle (ΔOCD) and is perpendicular to the side CD at the center point O. He adds a right trapezoidal shape, plus a right angled isosceles triangle (△ OAD)

OCDA,

OBEA), and the storm reservoir assembly by precast segment member assembly, wherein each member is assembled and connected to each other.
상 The upper and lower flanges (Fu) (Fd) (upper flanges (Fu), which arrange the foundation grounds on which rainwater storage tanks are to be installed, and have a plurality of steel wire through holes (H) in the side wall (S) direction, having a square shape of the same size on the foundation grounds. ) Is a cross-shaped web part (W +), which is a vertical insert bolt (I) buried] and two vertical planes located between the upper and lower flanges (Fu) (Fd) and parallel to each other at right angles to the sides of the square. Installing a plurality of corner members 10 consisting of;
측벽 Side wall (S) is continuously installed by the plurality of wall member 30 and the wall column member 20 with respect to the corner member 10, the plurality of steel wire in the side wall (S) direction of the square shape of the same size. The upper and lower flanges (Fu) (Fd) (the upper insert (I) is buried vertically in the upper flange (Fu)) and the upper and lower flanges (Fu) (Fd) formed with the through hole (H) The wall pillar member 20, which is composed of two webs (W +) having two vertical planes parallel to each other and perpendicular to each side at the center thereof, is installed at a point that meets the installation line of the pillar member 40 to be installed in a grid shape. The upper and lower flanges (Fu) (Fd) (upper flange (Fu) has a square shape having the same size and formed a plurality of steel wire through holes (H) in the side wall (S) direction between the member 10 and the wall column member 20. Vertical insert bolt (I) buried] and upper and lower flanges (Fu) (Fd) A side wall (S) continuously installed by a wall member (30) formed of a straight web portion (W-), which is a vertical plane formed in parallel to two parallel sides of the square at the center of the square;
기둥 To install the column member 40 in a lattice form at regular intervals in the line of the wall column member 20, the pillar member 40 is the upper and lower flanges (Fu) (Fd) [upper flange (square) of the same size Fu) has a vertical insert bolt (I) embedded between the buried] and the upper and lower flanges (Fu) (Fd), and two webs (W +) that are perpendicular to each other at right angles and parallel to each side at the center of the square. And a plurality of steel wire through holes (H) penetrating and formed in the lower flange (Fd) of the longitudinal direction, the line of the pillar member 40 and the wall column member 20 to be the same line step;
(2) The upper flange (Fu) of the pillar member (40) is a rectangular shape with uniform thickness, and the ends 52 and 52 have a square upper flange of the pillar member (40) and the wall column (20). (Fu) is a right angled isosceles triangle shape (ΔOBC, △ OCD, △ ODE, △ OEB) surrounded by two diagonal lines and one side at the center point O diagonally connected to the corners of each other, and both ends 52 and 52 ) And a girder member 50 having a plurality of longitudinal steel wire through-holes 54 penetrated and formed in the same direction as the longitudinal line in which the pillar member 40 is installed. After installing in a lattice form, the upper flange Fu of the wall member 30 is [a rectangular shape having the same thickness as the girder member 50 and the shapes of both end portions 62 and 62 are the right angled quadrilateral sides. Right triangle isosceles triangle formed by triangle (△ OCD) and point A drawn at right angle to side CD at center point (O) Plus the OAD) right angle trapezoidal shape (

OCDA,

OBEA), and the auxiliary girder member 60 having the steel wire through-hole 64 formed at right angles to the side wall S direction at both ends 62 and 62, while the upper flange of the pillar member 40 is provided. (Fu) and both end portions (52, 52) of the girder member (50), and the wall member (30), the wall column member (20), the upper flange (Fu) and the girder member of the corner member (10). Fastening both ends 52, 52, 62, 62 of the 50 and the auxiliary girder member 60 by means of vertical insert bolts I;
(B) a steel wire in a plurality of steel wire through-holes (H) formed in the wall member (30) forming the side wall (S), the wall column member (20), and the upper and lower flanges (Fu) (Fd) of the corner member (10). Inserting P), straining it, and then fixing it in the fixing unit G of the fixing end;
(2) A steel wire (P) is applied to a plurality of longitudinal steel wire through holes (54) and steel wire through holes (64) formed in the same line girder member (50) and auxiliary girder member (60) installed in the longitudinal direction of the rectangular parallelepiped tank. Inserting and tensioning the same, and then fixing it in the fixing unit G of the fixing end;
⒢ Between the girder member 50 and the girder member 50, the slab member 70 having the locking jaws 74 and 74 formed on both sides of the middle body 72 is successively installed, while the girder member A-type auxiliary slab members 82 and 84 of A-type and B-type are installed directly above the 50 and the auxiliary girder member 60, and are installed on the girder member 50. ) Is a rectangular shape having the same length and width of the girder member 50, and the thickness thereof is the same as that of the locking jaw 74 of the slab member 70, and the B-type auxiliary installed on the auxiliary girder member 60. The slab member 84 is a rectangular shape having the same length and width as the auxiliary girder member 60, the thickness of the auxiliary slab member 80 to install the same as the thickness of the locking jaw 74 of the slab member 70; Excellent by assembly of precast segment member, characterized in that it comprises a Good storage tank construction method using a tank assembly
The method of claim 6, wherein
After the pillar-shaped column member 40 is installed in the step ⒞, the thickness between the pillar member 40 and the pillar member 40, and between the pillar member 40 and the side wall (S) wall pillar member 20 Continuously install the bottom plate slab member 90 having a uniform rectangular shape in succession, but between the pillar member 40 and the pillar member 40 in the longitudinal direction of the rectangular parallelepiped tank and forming the same line, and the pillar member 40 and the side wall. (S) A bottom plate slab member 90 is installed between the wall pillar members 20 in a long direction, while the lower flanges Fd of the pillar members 40 and the wall pillar members 20 are provided in the same line. Steel wires P are formed in the plurality of steel wire through holes H penetrated and formed in the longitudinal direction, and the plurality of long steel wire through holes 92 penetrated and formed in the bottom plate slab member 90, which are elongated in the longitudinal direction. Inserting it, tensioning it, and then fixing it in the fixing hole G of the fixing end System; Storm storage tank construction method using storm storage tank assembly by precast segment member assembly comprising a
기초 Arrange the foundation ground on which the storm water storage tank will be installed, and the upper and lower flanges (Fu) (Fd) of the same square shape with the same size on the foundation ground (the upper flange (Fu is embedded with vertical insert bolts (I)), and the upper and lower flanges. Two webs (W +), which are two vertical planes parallel to each other and perpendicular to each side at the center of the square and located between (Fu) (Fd), and a plurality of steel wire through holes (H) in the lower flange (Fd). After installing a plurality of pillar members 40 having a shape formed in a grid at a predetermined interval, between the pillar member 40 and the pillar member 40, and the pillar member 40 and the side wall (S) wall pillar member Continuously install the bottom plate slab member (90) having a rectangular shape with a uniform thickness between the (20)
One bottom plate slab member 90 between the pillar member 40 and the pillar member 40 constituting the same line in the longitudinal direction of the cuboid storage tank, and between the pillar member 40 and the side wall S column wall member 20. ) Is installed long in the longitudinal direction, while a plurality of steel wire through-holes H penetrated and formed in the longitudinal direction in the lower flange Fd of the pillar member 40 and the wall pillar 20 installed on the same line, and Inserting steel wires (P) into a plurality of longitudinal steel wire through holes (92) penetrating and formed in the bottom plate slab member (90) elongated in the longitudinal direction;
상 upper and lower flanges Fu (Fd) (upper flange Fu having vertical insert bolts I) having a square shape having the same size on the foundation ground and having a plurality of steel wire through holes H formed in the side wall S direction. Buried] and a plurality of corner members (10) consisting of a cross-shaped web portion (W +), which is located between the upper and lower flanges (Fu) (Fd) and is perpendicular to each other at right angles to each side at the center of the square. The side wall (S) is continuously installed by the plurality of wall members 30 and the wall pillar member 20 with respect to the corner member 10, but has a square shape having the same size and a plurality of side walls S direction. The upper and lower flanges (Fu) (Fd) (the upper flange (F) has a vertical insert bolt (I) buried) and the upper and lower flanges (Fu) (Fd) formed with the steel wire through hole (H) of the 2 perpendicular to each side and orthogonal to each other at the center of the square The wall pillar member 20 made up of a cross-shaped web portion W +, which is a vertical surface of the corner member 10 and the wall pillar member 20, is installed at a point that meets the installation line of the pillar member 40 to be installed in a lattice form. Upper and lower flanges Fu (Fd) (vertical insert bolts (I) are buried in the upper flanges (Fu)) having a square shape having the same size and having a plurality of steel wire through holes (H) formed in the sidewall (S) direction. And by the wall member 30 consisting of a straight web portion (W-), which is located between the upper and lower flanges (Fu) (Fd) and one vertical plane formed parallel to two parallel sides of the square at the center of the square Continuously installing side walls (S);
(B) a steel wire in a plurality of steel wire through-holes (H) formed in the wall member (30) forming the side wall (S), the wall column member (20), and the upper and lower flanges (Fu) (Fd) of the corner member (10). Inserting P), straining it, and then fixing it in the fixing unit G of the fixing end;
강 state in which the steel wire P is inserted into the longitudinal steel wire through-hole 92 formed in the pillar member 40 installed in the same longitudinal direction line and the bottom plate slab member 90 installed in the longitudinal direction. Insert both ends of the steel wire (P) protruding from the back into the steel wire through hole (H) of the lower flange (Fd) of the wall column member 20 of the side wall (S) located in the same line in the longitudinal direction, and the tension Next, fixing to the fixing unit (G) of the fixing end;
(2) The upper flange (Fu) of the pillar member (40) is a rectangular shape with uniform thickness, and the ends 52 and 52 have a square upper flange of the pillar member (40) and the wall column (20). (Fu) is a right angled isosceles triangle shape (ΔOBC, △ OCD, △ ODE, △ OEB) surrounded by two diagonal lines and one side at the center point O diagonally connected to the corners of each other, and both ends 52 and 52 ) And a girder member 50 having a plurality of longitudinal steel wire through-holes 54 penetrated and formed in the same direction as the longitudinal line in which the pillar member 40 is installed. After installing in a lattice form, the upper flange Fu of the wall member 30 is [a rectangular shape having the same thickness as the girder member 50 and the shapes of both end portions 62 and 62 are the right angled quadrilateral sides. Right triangle isosceles triangle formed by triangle (△ OCD) and point A drawn at right angle to side CD at center point (O) Plus the OAD) right angle trapezoidal shape (

OCDA,

OBEA), and the auxiliary girder member 60 having the steel wire through-hole 64 formed at right angles to the side wall S direction at both ends 62 and 62, while the upper flange of the pillar member 40 is provided. (Fu) and both end portions (52, 52) of the girder member (50), and the wall member (30), the wall column member (20), the upper flange (Fu) and the girder member of the corner member (10). Fastening both ends 52, 52, 62, 62 of the 50 and the auxiliary girder member 60 by means of vertical insert bolts I;
(2) A steel wire (P) is applied to a plurality of longitudinal steel wire through holes (54) and steel wire through holes (64) formed in the same line girder member (50) and auxiliary girder member (60) installed in the longitudinal direction of the rectangular parallelepiped tank. Inserting and tensioning the same, and then fixing it in the fixing unit G of the fixing end;
⒢ Between the girder member 50 and the girder member 50, the slab member 70 having the locking jaws 74 and 74 formed on both sides of the middle body 72 is successively installed, while the girder member A-type auxiliary slab members 82 and 84 of A-type and B-type are installed directly above the 50 and the auxiliary girder member 60, and are installed on the girder member 50. ) Is a rectangular shape having the same length and width of the girder member 50, and the thickness thereof is the same as that of the locking jaw 74 of the slab member 70, and the B-type auxiliary installed on the auxiliary girder member 60. The slab member 84 is a rectangular shape having the same length and width as the auxiliary girder member 60, and the shape of the end 52 is the same, and the thickness thereof is the same as that of the locking jaw 74 of the slab member 70. Installing the slab member (80); Good storage tank construction method using a solid storage tank assembly of the segment member assembly

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