KR101048639B1 - How to install underground vertical structure of ring segment connection method using tee bolt - Google Patents

Abstract

The present invention manufactures ring segments of high-strength concrete and transports them to the site, and then installs vertical vertical sphere structures of the ring segment connection method using a tee bolt to easily assemble and install the ring segments using a tee bolt. It is about. According to the present invention, a plurality of ring segments are prepared in a factory and then loaded into the ground to connect a plurality of ring segments laterally adjacent to each other with a plurality of inclined bolts to form a first segment ring, and the first segment ring. The second segment ring is formed by using the tee bolt and the inclined bolts on the upper portion of the second segment, and the same process is repeated to the upper side of the second segment ring to construct the multi-segment segment rings and form vertical spheres in the ground.

According to the present invention, no tee bolt holes or pockets are formed on the inner surface of the segment, which is structurally strong, prevents corrosion of the fastening part, and can reduce construction costs due to fast assembly speed, and equalize fastening parts on both sides of the segment. This results in an excellent effect of increasing the tensile strength and ensuring complete waterproofing.

Ring Segment, Tee Bolt, Vertical Ground Ball, Slope Bolt, Pocket

Description

Underground vertical sphere structure installation method using tee bolt connection method {UNDERGROUND VERTICAL SEGMENTAL LINING METHOD BY USING T-BOLTS TO CONNECT RING SEGMENTS}

The present invention relates to a construction method for building the vertical structure of the vertical sphere and the storage tank, such as electric power sphere, communication sphere, and the like to manufacture the ring segments of high-strength concrete (Segment) of the factory and transported to the site, then the tee bolt By assembling and installing using tee bolt holes or pockets on the inner surface of the segment, it is structurally strong, and since the tee bolt is mounted inside the segment, it prevents corrosion of the fastening part and reduces the construction cost by fast assembly speed. And it is related to the installation method of underground vertical sphere structure of the ring segment connection method using a tee bolt to equalize the fastening parts on both sides of the segment to increase the tensile strength and ensure complete waterproof.

In general, the ground lining (1) as shown in Figure 1 (shaft lining) 1 as a construction method in the prior art when assembling a plurality of arc-shaped ring segments 10, a plurality of bolts (Spear Bolt) (20) By using them to connect to each other on the inner surface of the ring segment 10.

Such a conventional inclination bolt 20 fastening method is a method used when fastening segments for underground tunnel excavation, using underground tunnel drilling machine TBM (Tunnel boring Machine).

That is, after excavating the ground 30, as shown in Figure 2, the EPDM gasket 35 is mounted between the plurality of ring segments 10, ring segment 10 in the inner surface of the vertical sphere (1) ) Is installed in the socket 40 of the adjacent ring segment 10 by obliquely passing through the oblique bolt 20 is coupled to a plurality of ring segments 10.

However, such a conventional method used both curved bolts or straight spear bolts 20 to connect the ring segment 10. The structure is such that the bolts have ring segments 10 respectively. Exposed to the outside causes corrosion and water leakage, there was a problem that can cause concrete breakage during fastening.

In addition, in the conventional method, when assembling the ring segment 10, the assembly time is long because the fastening is sequentially performed in one direction. In addition, when transporting and assembling the ring segment 10, there is a fear of breakage and deformation of the ring segment 10 made of concrete because there is no traction ring. In addition, the conventional method is weak in tensile force because it has to arrange the inclined bolts 20 in a single row, there was a problem that the leakage in the bolt box and the joint.

The present invention is to solve the conventional problems as described above, its purpose is to prevent the corrosion of the bolt and nut, and to increase the tensile strength by equalizing the tensile stress by double-sided bolt fastening when constructing a large cross-section vertical structure In addition, the present invention provides a method for installing underground vertical sphere structures using a ring segment connection method using a tee bolt to ensure complete waterproof, which is a weak point of a connection part.

And another object of the present invention is to assemble the entire ring segment at a time can greatly reduce the construction cost by shortening the air, and easy to transport and assembly during transportation of the ring segment, improved tee bolt to ensure construction stability and accuracy To provide a method of installing underground vertical sphere structure of the ring segment connection method using.

In order to achieve the above object, the present invention provides a method for constructing a vertical sphere by connecting a plurality of ring segments in the ground,

A plurality of ring segments each having a plurality of tee bolt holes vertically penetrating the upper and lower edges, adjacent to the tee bolt holes, respectively forming a tee box, and a slope bolt hole and a socket formed at both edges, respectively. Prepare to listen; Bringing it into the ground and connecting a plurality of ring segments laterally adjacent to each other with a plurality of inclined bolts to form a first segment ring; Insert the head of the tee bolt into the tee box by rotating it in the upper part of the first segment ring, and then fix the second row of ring segments by inserting the tee bolt into the tee bolt. Securing a second row of ring segments on top of the ring, and connecting the second row of segment rings with a plurality of inclined bolts to form a second segment ring; And by repeating the above process to build a vertical sphere in the ground by constructing a multi-stage segment ring to the upper side of the second segment ring.

Therefore, the present invention can not only increase the tensile strength by equalizing the tensile stress by double-sided bolt fastening when constructing a large cross-section vertical sphere segment structure, but also can assemble the entire ring segment at a time, greatly reducing construction cost by shortening the air. It is easy to transport and assemble during transport of the ring segment, so construction stability and accuracy can be ensured.

In addition, in order to achieve the above object, the present invention, by connecting a plurality of ring segments in the ground to build a vertical sphere,

A plurality of ring segments each having a plurality of tee bolt holes vertically penetrating the upper and lower edges, adjacent to the tee bolt holes, respectively forming a tee box, and a slope bolt hole and a socket formed at both edges, respectively. Prepare to listen; Connecting a plurality of ring segments laterally adjacent to each other with a plurality of inclined bolts to form a first segment ring; Insert the head of the tee bolt into the tee box by rotating it in the upper part of the first segment ring, and then fix it by inserting the second row of ring segments into the tee bolt, respectively, by fastening a nut to the thread of the tee bolt to the first segment. Securing a second row of ring segments on top of the ring, and connecting the second row of segment rings with a plurality of inclined bolts to form a second segment ring; And by repeating the above process to form a vertical sphere to build a multi-segment segment ring to the upper side of the second segment ring, and to carry it into the ground to install.

And the present invention is preferably the ring segment is formed in the left and right by forming a plurality of tee bolt holes in pairs to penetrate the upper and lower edges of the curved concrete body, respectively, the diameter of each of the tee bolt holes is enlarged In the upper and lower corners adjacent to the tee bolt holes, tee boxes are formed side by side in pairs to accommodate the heads of the tee bolts, while both corners each have vertical edges. Therefore, the present invention can prevent the corrosion and improve the durability by embedding the tee bolt and nut in the ring segment, it is assembled in the segment ring is connected laterally using vertical edges.

In addition, the present invention is preferably the ring segment is formed on the inner side of the arc of the inclined bolt holes for mounting the inclined bolt in the transverse direction, respectively formed in the lateral corners in the transverse direction, the edges of the body from each of the adjacent ring segments An extended inclined bolt is formed to be inserted into the socket. Through this structure can be connected laterally and assembled into a segment ring, it is possible to ensure a complete waterproof which is a weak point of the connection.

In the present invention, the ring segment is preferably formed with one edge of the body as a vertical edge with respect to the upper and lower edges, the other edge is formed with an oblique inclined edge with respect to the upper and lower edges. Therefore, the installation of the final segment is facilitated through this inclined edge structure.

In addition, the present invention is preferably the ring segment is a structure in which the inclined bolt hole and the socket is arranged vertically with respect to the side edges, respectively, the inclined bolt is installed perpendicular to the side edges.

And in the present invention preferably the tee box is formed with a hole in which the tee bolt is inserted, the end of the hole is formed a swing space in which the head of the tee bolt is rotatable, the connection portion of the swing space and the hole There is formed a step in which the head of the tee bolt is caught in the interior so that the tee bolt enters the interior of the tee box along the hole, and then rotates 90 ° in the swing space to be caught in the step, and does not fall in the opposite direction. Therefore, the tee bolt structure can be easily fixed through the tee box structure, and the connection between the upper and lower ring segments is easily performed.

In addition, in the present invention, preferably, the stepped jaw has an arc-shaped concave surface that matches the shape of the head of the tee bolt. Through such a structure, when the head of the tee bolt is seated on the concave surface of the step, it is possible to fix it in a stable state.

And the present invention preferably the ring segment is installed in the longitudinal joint connected to the adjacent ring segment is moved to the left and right with respect to each longitudinal joint formed by the ring segments of the upper side or the lower side is laterally connected Thus, a plurality of longitudinal joints arranged up and down are formed in a zigzag array with each other. Therefore, it can be structurally strengthened at the joint of the vertical sphere to build a more stable structure.

According to the present invention, since the tee bolt is fixed inside the segment, there is no fear of corrosion of the tee bolt and the nut, and a plurality of ring segments can be assembled at a time, so that the assembling time is fast and thus construction cost can be reduced.

In addition, according to the present invention, when lifting and assembling the ring segment by using a lifting finger by using a lifting box, the assembly can be safely assembled and transported to ensure safety and accuracy of construction.

In addition, according to the present invention by mounting the tee bolt on the upper and lower sides of the ring segment, the tensile force of the vertical sphere is greatly reinforced, and the tee bolt is built in the structure to ensure complete waterproof at the joint portion of the ring segment.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

Underground vertical sphere structure installation method 100 of the ring segment connection method using a tee bolt according to the present invention, as shown in Figure 3, after the production of a plurality of ring segments 110 in the factory, to be assembled in the field There is no need for additional provision, and the upper and lower ring segments 110 can be easily fastened with the tee bolt 120 during the installation of the ring segment 110.

First, the present invention first excavates the ground 130 to install the vertical sphere 105, and then transport each ring segment 110 to the ground in turn laminated connection, and install the vertical sphere 105 in the ground Alternatively, each ring segment 110 may be assembled in the form of a vertical sphere 105 on the ground, and then the ground 130 may be excavated and installed in the ground as a whole.

Underground vertical sphere structure installation method 100 of the ring segment connection method using a tee bolt according to the present invention, first, a plurality of ring segments 110 are manufactured in a factory.

Such ring segments 110 respectively form a plurality of tee bolt holes 142 vertically penetrating the upper and lower edges 112a and 112b, respectively, as shown in FIGS. 3 and 4b, and the tee bolt holes. The tee boxes 145 are formed at the upper and lower edges 112a and 112b, respectively, adjacent to the 142, and the inclined bolt holes 147 are formed at both inner corners of the inner surface.

That is, the ring segment 110 is formed in the left and right sides of the four tee bolt holes 142 in pairs so as to pass through the upper and lower edges 112a and 112b of the curved concrete body 110a.

At each end of each of the tee bolt holes 142, pockets 142a having enlarged diameters are formed, respectively, as shown in detail in FIG. 6, and in these pockets 142a, nuts as described later. 150 is positioned and screwed to the tee bolt (120).

And the inner side of the upper and lower edges 112a and 112b adjacent to the tee bolt hole 142 is formed in a pair side by side tee box 145 to accommodate the head 122 of the tee bolt 120. .

As shown in FIGS. 7A and 7B, the tee box 145 is made of a material having a predetermined strength as a PVC product, and is mounted on a mold for molding the ring segment 110 to pour concrete. As a result, the ring segment 110 is installed inside the ring segment 110.

Four tee boxes 145 are formed at the upper and lower edges 112a and 112b of the ring segment 110, respectively, and a hole 147a into which the tee bolt 120 can be inserted is formed. A swing space 147b in which the head 122 of the tee bolt 120 is rotatable is formed at the end of the 147a, and the tee bolt 120 is connected to the swing space 147b and the hole 147a. The stepped portion 147c of the head 122 is formed therein.

Accordingly, the tee bolt 120 enters the interior of the tee box 145 along the hole 147a and then rotates 90 ° in the swing space 147b. As shown in FIG. It is caught by the step 147c and does not fall in the opposite direction. Such step 147c is preferably fixed in a stable state when the tee bolt 120 is positioned by forming an arc-shaped concave surface matching the shape of the head 122 of the tee bolt 120.

In addition, the ring segment 110, as shown in Figure 5 and 6, the inclined bolt hole 147 for mounting the inclined bolt 160 in the transverse direction on the inner surface of the arc-shaped body (110a), respectively, the side It is formed transversely at the corners, the opposite side edges of the body (110a) has a structure in which the socket 162 is inserted into the inclined bolt 160 extending from the adjacent ring segment 110, respectively.

Such a ring segment 110 has a structure in which both side edges of the body 110a are formed identical to each other, and the vertical edges 112c are provided on both sides, or differently, both side edges of the body 110a are formed differently.

That is, as shown in Figure 5, one corner is formed of a vertical edge (112c) perpendicular to the upper and lower edges (112a, 112b) of the body (110a), the other edge is the upper and lower edges (112a, 112b). It is formed with a slanted edge (112d) to form an oblique angle to.

Therefore, the ring segments 110 having the same vertical edges 112c formed on both sides are connected to each other adjacently through the respective vertical edges 112c in the transverse direction, and the ring segments 110 having both sides of the other structure have one side. Is connected through the vertical edge (112c), the other side is connected through the inclined edge (112d).

As such, in the structure of the ring segment 110 having both edges of the other structure, when one vertical edge 112c is connected to the vertical edge 112c of the adjacent ring segment 110, the other inclined edge 112d is adjacent to the other. It fits exactly in line with the inclined edge 112d of the ring segment 110. Accordingly, the vertical edges 112c connected to each other form a straight longitudinal joint, and the inclined edges 112d are disposed to be in contact with each other to form an inclined longitudinal joint S. Through this inclined edge 112d is easily coupled to the final segment.

In addition, the ring segment 110 has a structure in which the inclined bolt hole 147 and the socket 162 are arranged vertically with respect to the side edges, respectively, and the inclined bolt 160 is installed perpendicular to the side edges.

That is, as shown in FIG. 5, the inclined bolts 160 connecting the vertical edges 112c are horizontally disposed horizontally, but the inclined bolts 160 connecting the inclined edges 112d are disposed at the inclined edges 112d. The inclination angle θ is formed with respect to the horizontal line P so as to form a right angle with respect to the horizontal line P.

As such, the inclined bolt holes 147 and the sockets 162 are arranged vertically with respect to the side edges, respectively, so that the inclined bolts 160 are vertically installed with respect to the side edges, thereby firmly connecting the adjacent ring segments 110 to each other. Can be.

Such ring segments 110 are manufactured in a factory, and when brought into the ground, a lifting finger (not shown) is used by a tee box 145 to be carried by a crane by a hook and then lifted and assembled. Transport is possible. Therefore, safety and accuracy can be secured during assembly and transportation.

As such, the plurality of ring segments 110 carried into the ground 130 connect the laterally adjacent ones with the plurality of inclined bolts 160 to form the first segment ring A1 as shown in FIG. 4A. do.

Then, the head 122 of the tee bolt 120 is inserted into the tee box 145 of the lower ring segment 110 at the upper portion of the first segment ring A1, and then rotated to fix each of the second segments. A row of ring segments 110 are fitted to the tee bolts 120, and the nuts 150 are fastened to the threaded portions 124 of the tee bolts 120 so that the second row of rings is arranged on the upper part of the first segment ring A1. The segments 110 are fixed, and the ring segments 110 of the second row are connected to each other by a plurality of inclined bolts 160 to form a second segment ring A2.

In this process, the ring segments 110 of the second row are mounted on the upper part of the first segment ring A1 by cranes (not shown), and the ring segments 110 of the second row of the upper side are respectively The tee bolts 120 may be conveyed through the tee bolt holes 142.

As such, the tee bolt 120 inserted into the tee bolt hole 142 of the ring segment 110 of the second row has its head 122 connected to the upper edge of the ring segment 110 of the lower first segment ring A1. After inserting into the tee box 145 formed in FIG. 7, it is completely pushed into the tee box 145 as shown in FIG. 7, and then rotated to fix it to the step 147c.

Then, when the nut 150 is fastened to the threaded portion 124 of the tee bolt 120 in the pocket 142a of the ring segment 110 of the second row, the first segment ring A1 is formed on the upper portion of the first segment ring A1. Two rows of ring segments 110 may be fixed. In addition, the second segment ring A2 is formed by connecting the plurality of ring segments 110 mounted in the second row at the upper portion of the first segment ring A1 with a plurality of inclined bolts 160 in the lateral direction.

In addition, the ring segments 110 of the third row are constructed on the upper portion of the second segment ring A2, and the upper and lower edges 112a and 112b of the respective ring segments 110 are illustrated in FIG. 4B. The plurality of tee bolt holes 142 and the tee boxes 145 are arranged symmetrically. Therefore, the ring segments 110 of the third row that are constructed on the upper portion of the second segment ring A2 are installed to move from side to side in the vertical joint S, as shown in FIG. 5, as shown in FIG. zigzag).

That is, when the construction of the second segment ring A2 is completed, a plurality of third row ring segments 110 are mounted on the second segment ring A2 and connected to the tee bolt 120, and then the inclined bolt. By connecting them through the (160) to form a third segment ring (A3), as shown in Figure 5 in this process, the ring segment 110 is a longitudinal direction connected to the adjacent ring segment 110 Joints (S) of the plurality of longitudinal direction arranged up and down by moving left and right relative to each of the longitudinal joints (S) formed by ring segments 110 of the upper side or the lower side is connected laterally The joints S are formed in a zigzag array with each other.

In addition, the above-described process is repeated on the upper portion of the third segment ring A3 to construct the multi-segment segment rings toward the upper side of the third segment ring A3 and to form a vertical sphere 105 in the ground.

On the other hand, the present invention, unlike the above, by connecting a plurality of ring segments 110 on the ground to build a vertical sphere 105, and then excavating the ground 130 with a crane, it may be buried underground.

That is, first, a plurality of ring segments 110 as described above are prepared in a factory, and then they are arranged in a ring shape, and the plurality of ring segments 110 which are laterally adjacent to each other are connected by a plurality of inclined bolts 160. One segment ring A1 is formed.

Then, the head 122 of the tee bolt 120 is inserted into the tee box 145 of the lower ring segment 110 at the upper portion of the first segment ring A1, and then rotated and fixed, respectively. The ring segments 110 are fitted to the tee bolts 120, and the nut 150 is fastened to the threaded portion 124 of the tee bolts 120 so that the ring segments of the second row are formed on the upper part of the first segment ring A1. Secure (110).

In addition, the second row of ring segments 110 are laterally connected to each other by a plurality of inclined bolts 160 to form a second segment ring A2 on top of the first segment ring A1.

The above process is repeated to construct the third segment ring A3 toward the upper side of the second segment ring A2, and to form the vertical sphere 105 having the desired length by constructing the multi-segment segment rings thereon. Then excavation of the ground 130, and to carry it into the ground 130 is to install the vertical sphere 105.

As described above, the vertical vertical sphere structure installation method 100 of the ring segment connection method using the tee bolt according to the present invention has a corrosion because the tee bolt 120 and the nut 150 are embedded in the ring segment 110. When the large diameter vertical sphere 105 is constructed, the plurality of ring segments 110 may be simultaneously fastened at a time, thereby shortening the construction period.

In addition, the underground vertical sphere structure installation method 100 of the present invention can increase the tensile strength of the vertical sphere 105 and is structurally stable because the two rows of fastening of the tee bolt 120 is made as compared with the conventional.

In addition, according to the present invention, when lifting and assembling the ring segment 110, a lifting finger (not shown) is used to hang a lifting finger (not shown) using the tee box 145 to safely assemble and transport the construction. Safety and accuracy can be ensured. In addition, by mounting the tee bolts 120 on the upper and lower surfaces of each ring segment 110, the tensile force of the vertical sphere 105 is greatly strengthened, and the tee bolts 120 are built in the structure of the ring segment 110 Full seams can be achieved at the joint.

An embodiment of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Therefore, the simple improvements and modifications of the embodiments fall within the protection scope of the present invention as long as it is obvious to those skilled in the art.

1 is an explanatory diagram showing a method of installing underground vertical spheres according to the prior art.

Figure 2 is an explanatory view showing in detail the connection structure of the ring segment in the construction method for installing the underground vertical sphere according to the prior art.

Figure 3 is an explanatory view showing a method of installing underground vertical sphere structure of the ring segment connection method using a tee bolt according to the present invention.

Figure 4a is a cross-sectional view showing a segment ring constructed in the method of installing the underground vertical sphere structure of the ring segment connection method using a tee bolt according to the present invention.

Figure 4b is a plan view of the ring segment provided in the underground vertical sphere structure installation method of the ring segment connection method using a tee bolt according to the present invention.

Figure 5 is a side view of connecting the multi-segment of the segment ring in the vertical direction in the vertical vertical sphere structure installation method of the ring segment connection method using a tee bolt according to the present invention.

FIG. 6 is a structural diagram in which a plurality of ring segments adjacent to each other are horizontally connected to each other in a method of installing underground vertical sphere structures using a ring segment connection method using a tee bolt according to the present invention.

7A and 7B are explanatory views illustrating a process of coupling a tee bolt in a tee box provided in a method for installing underground vertical sphere structures using a ring segment connection method using a tee bolt according to the present invention.

Description of the Related Art

1 ..... conventional shaft lining 10 .... ring segment

20 .... Spear Bolt (20) 30,130 ...

35 .... EPDM Gasket 40 .... Socket

100. Method for installing the underground vertical sphere structure of the present invention

105 ... vertical sphere 110 ... ring segment

112a, 112b .... top and bottom corners 112c ... vertical corners

112d .... inclined edge 120 .... tee bolt

122 ... head 124 threads

142 .... tee bolt hole 142a .... pocket

145 .... Tee box 147 .... Inclined bolt hole 147a .... Hole 147b ... Swing space

147c .... step 150 .... nut

160 .... Slant bolt 162 .... Socket

A1 .... first segment ring A2 .... second segment ring

A3 .... Third Segment Ring P ..... Horizontal Line

S ..... longitudinal joint θ .... tilt angle

Claims (9)

In the method of building a vertical sphere by connecting a plurality of ring segments in the ground, A plurality of tee bolt holes 142 vertically penetrating the upper and lower edges 112a and 112b are formed, respectively, and the tee boxes 145 are disposed at the upper and lower corners 112a and 112b adjacent to the tee bolt holes 142, respectively. ) And prepare a plurality of ring segments 110 having inclined bolt holes 147 and sockets 162 formed at both edges thereof; Bringing it into the ground 130 to connect the plurality of ring segments 110 laterally adjacent to each other with a plurality of inclined bolts 160 to form a first segment ring A1; The head 122 of the tee bolt 120 is inserted into the tee box 145 of the lower side ring segment 110 on the upper portion of the first segment ring A1, and then rotated and fixed. The segments 110 are fitted into the tee bolts 120, and the nut 150 is fastened to the threaded portion 124 of the tee bolts 120 so that the ring segments of the second row are arranged on the first segment ring A1. Fixing 110 and connecting the second row of ring segments 110 with a plurality of inclined bolts 160 to form a second segment ring A2; And Repeating the above process to build a vertical sphere 105 in the ground by constructing a multi-stage segment rings to the upper side of the second segment ring (A2) underground vertical sphere of the ring segment connection method using a tee bolt How to install the structure. In the method of building a vertical sphere by connecting a plurality of ring segments in the ground, A plurality of tee bolt holes 142 vertically penetrating the upper and lower edges 112a and 112b are formed, respectively, and the tee boxes 145 are disposed at the upper and lower corners 112a and 112b adjacent to the tee bolt holes 142, respectively. ) And prepare a plurality of ring segments 110 having inclined bolt holes 147 and sockets 162 formed at both edges thereof; Connecting the plurality of ring segments 110 laterally adjacent to each other with a plurality of inclined bolts 160 to form a first segment ring A1; The head 122 of the tee bolt 120 is inserted into the tee box 145 of the lower side ring segment 110 on the upper portion of the first segment ring A1, and then rotated and fixed. The segments 110 are fitted into the tee bolts 120, and the nut 150 is fastened to the threaded portion 124 of the tee bolts 120 so that the ring segments of the second row are arranged on the first segment ring A1. Fixing 110 and connecting the second row of ring segments 110 with a plurality of inclined bolts 160 to form a second segment ring A2; And By repeating the above process to form a vertical sphere 105 by constructing a multi-stage segment rings to the upper side of the second segment ring (A2), the tee bolt, characterized in that the installation is carried in the ground 130 Underground vertical sphere structure installation method using ring segment connection method. According to claim 1 or claim 2, The ring segment 110 is a plurality of tee bolt holes 142 are each paired to pass through the upper and lower edges (112a, 112b) of the arcuately curved concrete body (110a) And a pocket 142a having an enlarged diameter is formed at an end of each of the tee bolt holes 142, and is formed inside the upper and lower edges 112a and 112b adjacent to the tee bolt holes 142. The tee bolts 145 are configured to receive the head 122 of the tee bolt 120 in pairs and are formed side by side, while the two corners each have vertical edges 112c. Underground vertical sphere structure installation method using ring segment connection method. According to claim 3, The ring segment 110 is inclined bolt holes 147 for mounting the inclined bolt 160 in the transverse direction on the inner surface of the arc-shaped body (110a), each formed laterally on the side edges, Underground water of the ring segment connection method using a tee bolt, characterized in that formed on each side edge of the body (110a) socket 162 is inserted into the inclined bolt 160 extending from the adjacent ring segment 110, respectively How to install fastball structure. According to claim 3, wherein the ring segment 110 is formed at one side edge of the body (110a) is a vertical edge (112c) with respect to the upper and lower edges (112a, 112b), the other edge is the upper and lower edges (112a) (112b). Method for installing the underground vertical sphere structure of the ring segment connection method using a tee bolt, characterized in that formed in the oblique inclined edge (112d). According to claim 4, wherein the ring segment 110 is that the inclined bolt hole 147 and the socket 162 are arranged perpendicular to the side edges, respectively, so that the inclined bolt 160 is installed perpendicular to the side edges. Method for installing underground vertical sphere structure using ring segment connection method using tee bolt. According to claim 1 or 2, The tee box 145 has a hole 147a is formed therein for inserting the tee bolt 120, the end of the hole 147a of the tee bolt 120 A swing space 147b in which the head 122 is rotatable is formed, and the stepped portion 147c in which the head 122 of the tee bolt 120 is caught is connected to the swing space 147b and the hole 147a. Formed therein, the tee bolt 120 enters the inside of the tee box 145 along the hole 147a, and then rotates 90 ° in the swing space 147b to be caught by the step 147c, and falls in the opposite direction. Underground vertical sphere structure installation method of the ring segment connection method using a tee bolt, characterized in that configured to not. 8. The underground vertical sphere of the ring segment connection method using the tee bolt according to claim 7, wherein the step 147c has an arc-shaped concave surface corresponding to the shape of the head 122 of the tee bolt 120. How to install the structure. According to claim 1 or claim 2, The ring segment 110 is a longitudinal joint (S) connected to the adjacent ring segment 110, the ring segments 110 of the upper side or the lower side is connected laterally Rings using a tee bolt, characterized in that the plurality of longitudinal joints (S) arranged up and down by being moved left and right with respect to each longitudinal joint (S) to be formed are formed in a zigzag array with each other Installation method of underground vertical structure with segment connection method.

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