KR101212578B1 - The connection method and segment to construct in vertical vent - Google Patents

Abstract

PURPOSE: An installation method for a dome of a vertical shaft and a dome segment thereof are provided to accurately place concrete using the power of a hydraulic cylinder and to stabilize a work under a dome by enabling the installation of an additional work vehicle. CONSTITUTION: An installation method for a dome of a vertical shaft is as follows. A dome vertical portion(42) for constructing a tunnel(41) is installed by expanding the top end portion of a vertical shaft(10) with a climbing tower(12). A semicircular dome(50) with multiple segments is installed on the top end of the vertical shaft. Concrete is placed on the dome. A binding frame(20) and a form for constructing the tunnel are installed in the dome vertical portion. The form is coupled to the binding frame using a jack bolt, and concrete is placed to easily control the gap between the binding frame and a reinforcing bar(11). Hydraulic cylinders(33) are formed on the top and bottom ends of the binding frame to vertically move the binding frame using hydraulic pressure.

Description

The connection method and segment to construct in vertical vent}

The present invention relates to a dome installation method and a dome segment of a vertical sphere covering a dome-shaped roof on top of the vertical sphere.

In particular, after the upper part of the vertical sphere is enlarged compared to the vertical sphere, the foam is installed on the inner circumferential surface of the vertical sphere, and the semicircular dome is connected to the top of the foam frame to connect the segments. The dome installation method and the dome segment of the vertical sphere, characterized in that the concrete is formed in the vertical portion in the horizontal direction in which the concrete is poured into the outer portion, and the truck or transport means can enter and exit.

Furthermore, the present invention provides a method of installing a dome of a vertical sphere and its dome so that the mounting of foam or frame for all such concrete placing can be done accurately without requiring excessive force to the operator by using the force of the hydraulic cylinder operated by the hydraulic system. It's about the segment.

In general, vertical spheres have various uses. In the construction of tunnels, there are also vertical holes that penetrate vertically from the ground to input equipment for the construction of tunnels, as well as vertical holes that have a dome installed at the top to reduce the damage of the private house to the inside of the waste disposal plant.

In the construction method for forming such a variety of vertical spheres there are many problems in the prior art. When digging a vertical sphere and forming a foam, collapse of the inner circumferential surface is generated, and talents generated during the installation of the dome structure after forming the vertical sphere are particularly frequent.

All of these problems arise in the difficult process of raising the dome of the curved surface when the dome is formed in the upper part of the vertical sphere in the basement, the present invention solved all these problems. This is because the hydraulic pressure of the hydraulic cylinders operating through the hydraulic system causes the workers to put no force and install the dome and foam. In fact, the present invention has been devised to solve various problems of the conventional construction methods.

The present invention is to provide a dome installation method and a dome segment of the vertical sphere covering the dome-shaped roof on the top of the vertical sphere.

In particular, the present invention is to expand the upper portion of the vertical sphere compared to the vertical sphere, and then to install the foam in order to pour concrete on the inner peripheral surface, the semi-circular dome is installed by connecting a plurality of segments to the top of the foam frame of the foam It is to provide a dome installation method and the dome segment of the vertical sphere, characterized in that the concrete is poured into the outer part in the state, and a separate operating tunnel is formed in the vertical direction in the horizontal direction so that trucks or transport means can enter and exit. .

Furthermore, the present invention provides a method of installing a dome of a vertical sphere and its dome so that the mounting of foam or frame for all such concrete placing can be done accurately without requiring excessive force to the operator by using the force of the hydraulic cylinder operated by the hydraulic system. We want to provide a segment.

According to the present invention, the installation method of the dome covering the upper part of the vertical sphere, by expanding the upper end portion of the vertical sphere 10 in which the climbing tower 12 is built, the dome vertical portion 42 for the construction of the operating tunnel (41) ), And install a semi-circular dome 50 in which a plurality of segments 60 are coupled to the upper end of the vertical sphere 10, and then the concrete is poured over the dome 50.

In addition, according to the dome installation method of the vertical sphere of the present invention, the dome vertical portion 42 has a binding frame 20 and the form 5 to the outside of the tunnel penetrated in the horizontal direction for the construction of the operating tunnel 41 in the horizontal direction. After installation, the binding frame 20 is fastened with a hydraulic bolt and a screw bolt that can be interlocked with a screw length so that the gap with the reinforcing bar 11 can be easily adjusted. The hydraulic cylinder 33 is operated at the top and bottom of the frame 20 to operate hydraulically, so that the binding frame 20 can be interlocked up and down on the climbing tower 12 by hydraulic pressure: the dome 50. The installation method of the plurality of cross-panel 50A in the form of a fan-shaped circular center segment (A) in the central portion of the ceiling and connected to the form (5) forming the dome 50 from the center segment (A) ) Through the respective segments 60, and then The horizontal panel 50B connecting the cross panel 50A in the horizontal direction is mounted through each segment.

In addition, according to the dome installation method of the vertical sphere of the present invention, the segment 60 forms the entire dome 50 in 16 rows and 7 columns, but the cross panel 50A is coupled to 4 rows or 8 rows at regular intervals: The top center segment (A) combines four segments: when mounting the cross panel 50A and the transverse panel 50B, the hydraulic pressure extending from the top of the binding frame 20 and the climbing tower 12 is applied. After supporting the segment (60) with a stroke bolt that can be interlocked with a cylinder or screw, the concrete is poured.

In addition, according to the dome installation method of the vertical sphere of the present invention, the segment 60 is one of the components of the 16 rows and 7 columns, the outer shape according to the shape of the dome, each skin forming the outer surface of the dome 50 Plate 51; A diaphragm line 53 separating the flange line 52 and the flange line 52 of the outer portion coupled to the skin plate 51 in a direction perpendicular to the skin plate 51; A coupling hole 54 formed at regular intervals in the flange line 52; is formed.

Unlike the embodiment described above, the segment 60 forming the dome of the vertical sphere of the present invention as another characteristic part of the present invention is one of the components of the 16 rows and 7 columns, and has an outer shape according to the shape of the dome, A skin plate 51 forming an outer surface of the dome 50, respectively; A diaphragm line 53 separating the flange line 52 and the flange line 52 of the outer portion coupled to the skin plate 51 in a direction perpendicular to the skin plate 51; A coupling hole 54 formed at regular intervals in the flange line 52; is formed.

According to the present invention, there is an advantage that can be installed in a variety of vertical spheres can be installed dome for easy transportation of material and disposal of waste.

In addition, according to the present invention, there is an advantage that can easily fasten the foam and the segment of a heavy weight by a simple structure of the coupling method.

In addition, according to the present invention, it is possible to easily mount the dome of the present invention while carrying out the known vertical sphere construction method has the advantage of high availability.

In addition, according to the present invention, the perforated plate is installed at the lower end of the dome, it is possible to install a separate work cart for allowing the lifting and lowering, there is an advantage that it is easier to work under the dome and more stable.

1 is an embodiment showing a state in which the dome is installed on the top of the vertical sphere of the present invention,
2 is a plan view cut a portion of the portion A of Figure 1 of the present invention,
3 is a view showing a state in which a frame that can be supported through a hydraulic cylinder or a lift on the top of the climbing tower of the present invention,
4 is a view illustrating a state in which a frame capable of supporting a dome through a check bolt is connected to an upper portion of the climbing tower of the present invention;
5 is a view showing a sequence in which concrete is poured on the periphery of the dome vertical portion and the dome of the present invention;
6 is a view showing a state in which the dome of the present invention is installed,
7 is a view showing a state in which a hydraulic cylinder or a check bolt is mounted to the outside of the binding frame to install the dome of the present invention,
8 is a view showing a state in which the cross-panel is mounted in the dome of the present invention,
9 is a view showing a state for pouring concrete on the top of the dome of the present invention,
10 shows a one-row segment to be connected to one row of the dome of the present invention;
11 is a view showing a state in which four cross panels are mounted using the segment of the present invention;
12 is a perspective view showing one segment of the present invention;
Figure 13 is an enlarged view showing the operation of the linkage means used in the prior art or the present invention,
14 is a view showing another operation of the linkage means used in the prior art or the present invention.

The present invention relates to a method of installing a dome covering an upper portion of a vertical sphere.

Vertical sphere (10) is usually a variety of machines or equipment to go underground to drill underground tunnels, and is constructed to take out the waste and waste generated in the tunnel drilling process to the ground. In addition, when this operation must be performed in the city center, a vertical sphere 10 covered with a dome 50 in the form of a roof is constructed so as not to damage surrounding residents. Further, in the place where the waste treatment facility is located in the deep underground, vertical holes are formed to form a vertical hole for landfilling or disposal of the waste and cover the dome 50 at the top thereof.

The present invention relates to a dome construction method or a dome installation method for placing a dome 50 on top of the vertical sphere 10 used in various forms and placing concrete.

This invention will be described in detail with reference to FIGS. 1 to 14. As shown, the present invention expands the upper portion of the vertical sphere 10 in which the climbing tower 12 is installed, installs the dome 50 for the construction of the operating tunnel 41, and After installing a semi-circular dome 50 in which a plurality of segments 60 are coupled to the top, concrete is poured into the upper portion of the dome 50.

In order to realize the present invention, a vertical sphere 10 is formed, and a climbing tower 12 for forming the vertical sphere 10 must be erected. For this construction method, refer to Patent Application No. 10-2012-0029720 already filed by the present applicant.

When the vertical sphere 10 and the climbing tower 12 are erected in this way, the vertical sphere 10 is broadly formed in a form in which the upper end portion of the vertical sphere 10 is further expanded. The outer circumferential surface of the vertical sphere 10 is widened to advantageously settle the dome 50, and the truck is easy to enter and exit, and to facilitate the transport of waste or materials. The upper portion of the vertical sphere 10 is provided with a dome 50 for the construction of the operating tunnel 41, as shown in Figure 1 shown, the dome vertical portion 42 is a diameter larger than the upper portion of the vertical sphere 10 This is an enlarged hole. In the same way as in the conventional method of concrete pouring of the vertical sphere 10, but to have a somewhat wide diameter. Thereafter, a dome 50 having a semi-circular shape is placed on the dome vertical portion 42. The dome 50 has a plurality of segments 60 coupled to form one dome 50. After the dome 50 is formed, concrete is poured out of the dome 50 to function as a perfect underground facility. For reference, look at the use of the vertical sphere 10 in which the dome 50 is formed.

When the dome 50 is installed at the upper end of the vertical sphere 10 as shown in FIG. 1, work is performed in the work tunnel 71 formed at the bottom of the basement, that is, the lower portion of the climbing tower 12. Construction materials or waste generated by this work is raised to the bottom of the dome 50 through the vertical sphere (10). Then, when the wastes are raised to the perforated plate 72 at the top of the vertical sphere 10 and the bottom of the dome 50, the wastes are carried out of the dome 50 by using a vehicle. At this time, the operating tunnel 41 formed in the dome vertical portion 42 is used. On the contrary, if the waste disposal facility is installed underground, when the waste is loaded into the vehicle through the operating tunnel 42 into the dome 50, the waste goes down to the bottom of the working tower 12 through the climbing tower 12. Transported to the underground waste disposal facility via (71). The conveyed waste is treated in a separate treatment process.

In this way the vertical sphere 10 of the present invention is utilized.

Then look at the installation method of the vertical sphere dome 50 of the present invention in more detail.

As shown in Figures 1 to 4, the dome vertical portion 42 is provided with a binding frame 20 and the foam (5) to the outside of the tunnel penetrated in the horizontal direction for the construction of the operating tunnel 41 in the horizontal direction, The binding frame 20 is fastened with a hydraulic cylinder or a screw bolt which is capable of interlocking with a screw (5; shown in FIG. 1) so that the gap with the reinforcing bar 11 can be easily adjusted. . That is, the formation of the dome vertical portion 42 is the same as or similar to the construction method of the vertical sphere 10 at its lower end. The only difference is that the diameter is larger. Mounting the perforated plate 72 on the top of the dome vertical portion 42, the horizontal tunnel in the form of an egg-shaped semi-ellipse in order to form a horizontal operating tunnel 41 at the same level or similar to the level of the perforated plate 72. Implement The other part is a hydraulic cylinder, the jack bolt 73 fastened to the binding frame 20 and the binding frame 20 to move up and down in the climbing tower 12 in the same manner as the conventional vertical sphere 10 formation method. To form (5). The hydraulic cylinder and the check bolt 73 are selectively used in some cases. The foam 5 may be adjusted to a distance from the reinforcing bar 11 on the outside according to the linkage of the rod of the hydraulic cylinder or the extension shaft of the check bolt 73. For example, when the hydraulic cylinder extends the rod, the distance from the reinforcing bar 11 is narrowed, and when the hydraulic cylinder is reduced, the distance from the reinforcing bar 11 is widened. The concrete is poured between the reinforcing bars 11 and the foam 5 arranged thereon. And the operating tunnel 41 of the present invention is installed in the form of a semi-elliptic outer portion using the foam (5), the concrete is poured into the outer portion.

The method of connecting the foam 5 also combines the plurality of foams 5 to each other to mount the shape in the form of a semi-ellipse. As described above, the reinforcing bar 11 is arranged on the outer portion of the foam 5 and the concrete is poured into the inner side so as to be a solid operating tunnel 41.

For reference, the operation of the binding frame 20 will be described with reference to FIGS. 13 and 14. This is described briefly because it is described in detail in the foregoing earlier application (priorly filed) of the present invention. The climbing tower 12 combines a plurality of beams to build a tower in the vertical direction. The binding frame 20 of the present invention rides on the beam 6 of the tower and interlocks in the vertical direction. That is, the upper and lower ends of the binding frame 20 are formed with a hydraulic cylinder 33 that operates hydraulically, so that the binding frame 20 can be interlocked up and down by riding the climbing tower 12 through hydraulic pressure.

The binding frame 20 extending the length of the climbing tower 12 to the outer portion is in fact disengaged from the climbing tower 12. It is only a state through which the rotation roll 31 and the clamp 40 (shown in FIGS. 13 and 14), which are the interlocking means filed by the applicant of the present invention. When the hydraulic cylinder 33 extends the rod 32, the binding frame 20 ascends the climbing tower 12 by the extended length. After the lift, the rod 32 is folded, and the clamp 40 catches the beam 6 of the climbing tower 121 and the wings 7 to prevent the binding frame 20 from falling down. The binding frame 20 is moved through the rod linkage of the hydraulic cylinder. In the present invention, an interlocking means having the same structure is used.

An important point in the present invention is the dome 50 installed on the top of the dome vertical portion 42. The method of constructing this dome 50 is work of high latitude compared with the general method of construction. When installing the dome 50, the present invention follows the following manner. That is, in the installation method of the dome 50 of the present invention, the circular center segment A is attached to the central portion of the ceiling, and the foam segment 5 forms the dome vertical portion 42 in the center segment A. After installing a plurality of cross-shaped panel 50A having a fan shape connected through each segment 60, a horizontal panel 50B connecting the cross panel 50A in a horizontal direction to each segment 60. Mount it.

Referring to FIGS. 8, 11, and 12, the center segment 60 (A) is installed at the highest point, which is the central center portion of the dome 50. This center segment 60 (A) is installed in the state supported by the support means (D) from the top of the climbing tower (12). The center segment 60 (A), which is a circular frame, is mounted at the center of the foam at its highest point. Thereafter, a cross panel 50A rounded in the form of a dome 50 is installed to extend from the outer portion of the center segment 60 (A). This cross panel 50A is shown in detail in FIGS. 8 and 11 shown. The cross panel 50A is a term that refers to a form in which a plurality of segments 60 are combined. In the case of a circle or a dome 50, the center point is narrow, but divided more widely toward the outside, the present invention uses this principle. The cross panel 50A is mounted at an angle to the form 5 of the dome vertical portion 42 extending from the center segment 60 (A) to be the starting point of the dome 50. A plurality of cross panels 50A are mounted at regular intervals. Of course, the space between the cross-panel 50A formed at regular intervals as shown in Figures 8 and 11 shown.

The cross panels 50A mounted as described above are connected to each other by horizontal panels 50B, which are connected to a plurality of segments 60 connected in the horizontal direction again. When both the cross panel 50A and the transverse panel 50B are connected, the dome 50 of the present invention is completed. That is, the cross panel 50A described in the present invention is symmetrical in the left and right direction with respect to the center segment 60 (A). According to the symmetrical installation it was named cross-panel (50A). In addition, the transverse panel 50B extending between the cross panels 50A is not based on the center segment 60 (A), but is a segment 60 that is sequentially mounted in the transverse direction to the top of the foam 5. The term refers to the combined group of

This detailed method of mounting is then described in detail. To this end, the segment 60 of the present invention should be clearly distinguished. This is illustrated in detail in Figure 8 of the invention. That is, the segment 60 of the present invention forms the entire dome 50 in 16 rows and 7 columns, but the cross panels 50A are preferably arranged in four rows or eight rows at regular intervals. The overall dome 50 may be manufactured by connecting the segments 60 in various ways, but the form of 16 rows and 7 columns is most preferable.

Each segment 60 constituting the dome 50 is divided into matrices in a total of 16 rows and 7 columns. The semicircular dome 50 was cut into rows at a predetermined angle with respect to the center segment 60 (A), and divided into 16 rows, which are the most effective number of divisions in the embodiment of the present invention. On the contrary, in the case of a row, when a certain concentric circle is extended around the center segment 60 (A), the concentric circle of the outermost part of the dome 50 is taken as one row. In this manner, the present invention is divided into 16 rows and 7 columns, and the center segment 60 (A) is first mounted in the construction of the dome 50, and then the cross panel 50A is formed. As described above, the cross-panel 50A means that each segment 60 is radially connected to each other with respect to the center segments 60 and A, that is, center segments 60 (A; center segments are 7 rows). It refers to a symmetrical panel in the horizontal direction. It extends from the center segment 60 (A; column 7) to mount the segments 60 in selected rows of six columns. Next extend segment 6 in column 6 and segment 60 in selected row of column 5. Thereafter, up to one row of segments are continuously mounted to form one cross panel 50A.

At this time, it is important that the applicant of the present invention tried to connect the segments 60 by connecting them in various ways. The rows were formed in 16 rows and the columns were formed in 7 columns. In the case of the cross panel 50A, The embodiment with eight cross-panel 50A rows as in FIG. 8 shown and the embodiment with four cross-panel 50A rows as in FIG. 11 were most preferred.

Of course, after the formation of the cluster panel 50A, each segment 60 is fastened in the horizontal direction (= horizontal panel). One row of horizontal panels is mounted by first mounting the segments 60 in the selected row in one column. Finish 50B, and mount two rows in the same order to finish the transverse panel 50B. The dome 50 is completed by mounting the segments 60 from the first row to the sixth row except the center segment A in the lateral direction.

The uppermost center segment A is preferably finished by combining four segments 60. The top center segment 60 (A) is too small to connect the twelve segments 60 because it is a narrow concentric circle. These are preferably divided into four pieces so that the four are connected to each other to close one center segment 60 (A).

As described above, when the segment 60 of the present invention is composed of 16 rows and 7 columns, 112 segments 60 are combined to form one dome 50. Of course, the segments 60 finishing the top center segment 60 (A) are formed in four for ease of installation, and precisely 100 segments 60 are used in the embodiment of the present invention. However, as described above, the present invention is a vertical sphere dome 50. The scale is enormous.

The size of one segment 60 and its weight are also calculated in tons. As a result, the present invention uses the following scheme to support the segment 60. That is, when the cross panel 50A and the transverse panel 50B are mounted, the hydraulic bolts extending from the binding frame 20 and the top of the climbing tower 12 and the screw bolt 73 can be interlocked with screws . After supporting the segment 60, concrete is poured. In other words, in the above-described binding frame 20, the hydraulic cylinder (including the lift) , or the screw bolt 73 that can be interlocked with the length to interlock. Both are coupled to the binding frame 20 and the climbing tower 12 in such a way that the length can be interlocked. This is to adjust the spacing of the concrete layer to be poured to the outer portion of the dome 50.

8 (b) is an embodiment in which the beam 6 is fastened to the upper end of the climbing tower 12 by the support means D, and the bolt bolt 73 is fastened thereon. And a separate lift extending from the binding frame 20 was used. On the contrary, the other known support means D may be mounted. In the case of concrete pouring, the heavy weight concrete is firmly supported so that it does not collapse even if its own weight is acted upon.

5 shows the order in which concrete is poured after installation of the dome vertical portion 42 and the dome 50 of the present invention. In the present invention, in forming the dome vertical portion 42 (shown in FIG. 1), the casting was performed in one stage and divided into a primary concrete pouring layer 81 and a secondary concrete pouring layer 82. Thereafter, a third concrete pour layer 83 is formed to cover up to about three or four rows of segments 60 to be an outer portion of the dome 50, and then the fourth pour layer 84 to close the ceiling portion. To complete. This is the most advantageous.

More specifically, in the illustrated drawing, the foam 5 is constructed at the lower end of the dome vertical portion 42 for the primary pour layer 81, and the primary pour is performed outward. Of course, the foam 5 in the secondary placing position may be already mounted before the primary pouring. However, it is natural that the dome 50 should be set and connected before the 3rd and 4th casting.

The configuration of the segment 60 used in the present invention will now be described in detail. The segment 60 of the present invention has a skin plate 51 having an outer shape according to the shape of the dome with one of the components of the 16 rows and 7 columns, respectively forming the outer surface of the dome 50, There is a flange line 52 of the outer portion coupled to the skin plate 51 in a vertical direction and a diaphragm line 53 that divides the flange line 52. The coupling holes are formed at regular intervals on the flange line 52. There is 54.

In forming the semi-circular dome 50, the semi-circular is divided into a predetermined area in a row and partitioned each. And the flange line 52 is formed in order to connect them.

11 and 12 illustrate the flange line 52 and the diaphragm line 53. The skin plate 51 is fastened to the flange line 52 and the diaphragm line 53. The part to be in close contact with the concrete to be poured. In order to harden the concrete layer in the form of the dome 50 is produced in a smooth rounded form according to each position. The flange plate 52 and the diaphragm line 53 are fastened to the rear of the skin plate 51 in a lattice shape, and the skin plate 51 can be firmly supported to be fastened in the form of a metal piece in a vertical direction with the skin plate 51. The flange lines 52 may be connected to each other because they are interviewed with the flange lines 52 of the other segments 60. Fastening the bolt to the coupling hole 54 formed in the flange line 52 or by inserting a separate fastening means and a metal bar so as not to fall from each other unintentionally.

When each segment 60 is joined to each other through the flange line 52, it forms a form of dome 50 difficult to dismantle. This tight coupling is then placing concrete on top.

All of the above has been described the construction method of the vertical hole dome 50 of the present invention. The present invention is not satisfactory to this, but also has a great feature in the segment 60 which enables such a construction method.

That is, in the dome segment forming the dome of the vertical sphere of the present invention, the segment 60 is one of the components of the 16 rows and 7 columns, and has an outer shape according to the shape of the dome, and each of the outer surfaces of the dome 50. There is a skin plate 51 forming a, there is a flange line 52 of the outer portion coupled to the direction perpendicular to the skin plate 51 and the diaphragm line 53 that divides the flange line 52, the flange line ( 52 has a coupling hole 54 formed at regular intervals. Since these are all described in the above-described construction method, a separate description is omitted.

5; Foam 11; rebar
10; Vertical sphere 12; Climbing Power
20; Binding frame 41; Operation tunnel
42; Dome vertical 50; Dome
60; Segment A; Center Segment

Claims (7)

In the installation method of the dome covering the upper part of the vertical sphere,
The upper portion of the vertical sphere 10 on which the climbing tower 12 is built is expanded, and a dome vertical portion 42 for the construction of the operating tunnel 41 is installed, and a plurality of segments are provided at the top of the vertical sphere 10. After installing the semi-circular dome 50 combined with 60, concrete is poured into the upper part of the dome 50, and the dome vertical portion 42 is installed in the horizontal direction for the construction of the operating tunnel 41 in the horizontal direction. Install the binding frame 20 and the foam (5) to the outer periphery of the tunnel through, the binding frame 20 is fastened to the reinforcing bar (11) by fastening the foam (5) with a hydraulic bolt and a screw bolt that can be interlocked with a screw length After making it easy to adjust the spacing and, concrete placing, the upper and lower ends of the binding frame 20, by forming a hydraulic cylinder 33 to operate hydraulically, the binding frame 20 through hydraulic pressure Take this Climbing Tower (12) to be linked up and down,
The installation method of the dome 50,
The circular center segment A is mounted at the center of the ceiling, and the plurality of cross panels 50A in the shape of a fan connected from the center segment A to the form 5 forming the dome vertical portion 42 are respectively formed. After installing through the segment 60 of the horizontal panel 50B for connecting the cross-panel 50A in the horizontal direction is mounted through each segment,
The segment 60 forms the entire dome 50 in 16 rows and 7 columns, but the cross panel 50A is coupled to four rows or eight rows at regular intervals.
delete delete delete The method of claim 1,
The top center segment (A) is finished by combining four segments,
When mounting the cross panel 50A and the transverse panel 50B, a segment bolt 60 is connected to the hydraulic bolts extending from the upper end of the binding frame 20 and the climbing tower 12 and a screw bolt capable of interlocking with screws. Dome installation method of a vertical sphere characterized in that the concrete pouring after supporting.
The method of claim 1,
Segment 60 is composed of one of the components of the 16 rows 7 columns, the outer shape according to the shape of the dome,
A skin plate 51 forming an outer surface of the dome 50, respectively;
A diaphragm line 53 separating the flange line 52 and the flange line 52 of the outer portion coupled to the skin plate 51 in a direction perpendicular to the skin plate 51;
Doping installation method of the vertical sphere, characterized in that the coupling hole (54) formed at regular intervals in the flange line (52).
delete

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