KR101143254B1 - Mold for restoration and relocation of building site remained, and method for restoration and relocation of building site remained using the same - Google Patents

Abstract

PURPOSE: A mold for the restoration and relocation of a building site remained and a method for the restoration and relocation of a building site remained using the same are provided to prevent the form of a building site remained from becoming changed when the building site is relocated. CONSTITUTION: A mold for the restoration and relocation of a building site remained comprises a bottom beam(120), multiple first column beams(150), a lower pedestal(130), a support plate, an upper pedestal(160), multiple timbers(170), second column beams, a partition steel plate, a hardening agent, and a reinforcing agent. The bottom beam is installed on the bottom of a building site. The first column beams are vertically installed on the bottom beam. The lower pedestal is installed on the bottom beam. The support plate is installed on the lower pedestal. The upper pedestal is installed on the first column beams. The timbers are installed between the first column beams and the upper pedestal. The second column beams are vertically installed at divided positions of the building site. The partition steel plate is inserted into a cut surface between the second column beams.

Description

Mold for restoration and relocation of building site remained, and Method for restoration and relocation of building site remained using the same}

The present invention relates to a permanent relocation restoration template and a method for reconstructing a permanent stay using the same, and more particularly, hardening the soil at the bottom including the surface of the eternal quarter to maintain the archaeological properties of the same residence without modifying the shape of the eternal quarter. The present invention relates to a permanent transfer restoration template that can be transferred entirely, and a method for restoring a permanent stay using the same.

National land development projects for the rich future of our life include road construction to expand road facilities, land readjustment for industrial facilities, housing site construction, and national infrastructure construction. Archaeological investigations are conducted before such land development projects are implemented, and all data identified through excavation surveys are preserved as records, and these data are meaningful for academic and educational use. According to the results of the excavation survey, it is divided into the processes of preservation of the development area, transfer and restoration of important needs, and progress of the development project.

In this process, the relocation and restoration of important estuaries is valuable for understanding the nature of the eternity as well as educational data for the general public as well as educational data for the general public by restoring archaeological data that has been destroyed due to development projects. It is used as data.

Conventional relocation restoration method uses a method of moving the bone to the mold using a FRP (Fiber Reinforced Plastics, fiber reinforced plastic), and a method of restoring the internal shape by using a release urethane foam.

However, such a method of restoring the old quarters has a problem in that the soil and the shape of the long quarters are damaged in restoring the old quarters. That is, the loss of the cutting surface is too large (for example, a loss width of 30 cm or more) in the process of cutting the yugu, there is a problem that the cutting surface of the yugu is lost even during the transfer and restoration of the yugu.

The technical problem to be solved by the present invention in order to solve the above-mentioned problems, including the surface of the yugu to maintain the archaeological properties of the same residence without changing the shape of the yugu, the yugu can be completely transferred to the bottom of the soil It is to present the restoration restoration template and the method of restoration of the eternal quarter using the same.

In addition, another technical problem to be achieved by the present invention is to propose a permanent relocation restoration template and a permanent relocation restoration method using the same, which can display the surface used as it is without damaging the soil or form of the surface at all.

In addition, another technical problem to be achieved by the present invention is to propose a permanent restoration restoration template and a method for restoring a permanent stay using the same, which can greatly reduce the loss width (10 cm or less) of the eternal partition when dividing the eternal quarter. There is.

In addition, another technical problem to be achieved by the present invention is to harden the excavation surface of the eternal quarters with a hardening agent to first reinforcement, and to completely enclose the inner space between the eternal quarter and the eternal protection frame with urethane foam, secondary reinforcement, The present invention aims to provide a structure for restoring the structure of the permanent quarters, and to provide a method for restoring the eternal quarters.

The problem of the present invention is not limited to those mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

As a means for solving the above-described technical problem, the method for restoring the eternal ball according to the present invention comprises the steps of (a) preliminary examination of the ball to be transferred and restored, (b) excavating the side surface of the ball; c) first reinforcing the side surface of the excavated yugu with a curing agent, and (d) installing the bottom beam 120 and the column beam 150 on the side of the yugu and the timber between the pillar beam 150. (Timber; 170) to install, (e) filling the reinforcing agent 140 in the space between the side surface of the yugu and the timber 170, and (b) the second reinforcement; After drilling the lower part of the mouthpiece, the lower pedestal 130 is inserted and fixed to the bottom beam 120, and the supporting plate 200 is installed on the lower pedestal 130. Reinforcing the space by filling the reinforcing agent, and (g) installing the upper pedestal 160 on the pillar beam 150. Installing the timber 170 on the upper pedestal 160 to produce a box-shaped yugeru protection frame 100, and (h) dividing the yugu in the state fixed to the yugu protection frame 100 Installing two pillar beams 150 vertically side by side at the position, and cutting between the two pillar beams 150 using a cutter; and (i) inserting a partition iron plate into the cutting surface of the yugu to insert the pillars. Dividing the yugu after fixing to the beam 150, (j) separating and dividing the divided yugu, and (k) fine-tuning and connecting the transferred divided yugu in order Installing and assembling the beams of the retaining protection frame 100 by using the plate 180 and the connecting bolts, and installing and assembling the beams, and (l) removing the partition steel plate installed on the cutting surface between the split yugu and the split yugu. (M) between the split quarters After filling the reinforcement in the gap space and restoring by covering the same material on the upper portion of the reinforcement, and (n) removing the timber 170 of the moth protection frame 100 after removing the reinforcement of step (e) Removing and dismantling the beams of the permanent protection frame 100, (o) stabilizing the shape of the surface to be displayed by performing a hardening operation with a hardening agent on the side of the eternal mouth; Restoring the side and the part lost during the excavation to the soil of the same material as the yugu, and (q) installing the mold 240 to leave the space in front, rear, left and right of the yugu to complete the exhibition hall.
Here, the yugu protection frame 100, the bottom beam 120 is provided on the side bottom of the yugu, a plurality of pillar beam 150 is installed perpendicular to the bottom beam 120, and the lower portion of the yugu A lower pedestal 130 installed on the bottom beam 120, a support plate 200 installed on the lower pedestal 130, an upper pedestal 160 installed on the pillar beam 150, and In addition, a plurality of timbers 170 are provided between the pillar beams 150 and on the upper pedestal 160.
The bottom beam 120, the column beam 150, and the lower pedestal 130 use H beams, and the upper pedestal 160 uses 'A' shaped beams or H beams, and the support plate 200. ) Is preferably an iron plate, and the reinforcing agent is preferably urethane.
The method for restoring the former quarters is preferably to produce a mold modeled after the preliminary examination of the size and shape of the quarters.
In addition, as another means for solving the above-described technical problem, the yugu rehabilitation template according to the present invention, the bottom beam 120 is installed on the side bottom of the yugu and a plurality of vertically installed on the bottom beam 120 The pillar beam 150, the lower pedestal 130 is installed by drilling the lower portion of the yugu, the bottom beam 130 is installed on the bottom beam 120, the support plate 200 is installed on the lower pedestal 130, and the pillar An upper pedestal 160 installed on the beam 150, a plurality of timbers 170 provided between the pillar beam 150 and on the upper pedestal 160, and perpendicular to the divided position of the yugu. Two pillar beams 150 installed in the first and second partition beams between the two beams 150 is inserted into the cutting plane and then fixed to the pillar beam partition plate for dividing the yugu, and filling the side of the yugu primary Hardening agent to reinforce and said yugu and said team And a reinforcing agent filling the space between the burrs 170 and the space between the lower portion of the yugu and the support plate 200 to the secondary reinforcement, wherein the division of the yugu is fixed by the yugu protection frame 100. Cutting between the two pillar beams 150 using a cutter in the restoration, the restoration of the yugu is towed and transported the divided yugu after installing the yugu in order and then the partition installed on the cutting surface between the divided yugu The iron plate is removed, the reinforcing agent is filled in the gap space between the split grooves from which the partition plate is removed, and then the same material as the yugu is covered on the reinforcing agent and restored.
Here, it is preferable to use urethane for the reinforcing agent.

delete

delete

delete

delete

delete

According to the present invention, the soil of the lower part including the surface of the moth can be hardened so as to maintain the archaeological properties of the same dwelling without changing the shape of the moth. Therefore, the soil quality or form of the surface is not damaged at all, there is an advantage that can display the surface used at that time as it is.

In addition, when dividing the yugu there is an effect that can greatly reduce the loss width (10cm or less) of the yugu divided surface as compared to the conventional.

In addition, by hardening the excavation surface of the eternal quarter with a hardening agent, the internal space between the eternal quarter and the eternal protection frame is completely sealed with urethane foam, etc., to reinforce the secondary form, thereby changing the shape of the eternal quarter during the transfer and storage of the eternal quarter. Prevention and durability and moisture proof treatment effect.

The effects of the present invention are not limited to those mentioned above, and other effects that are not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a yugu picture showing an example of a kiln found in Korea
FIG. 2 is a cross-sectional view of the kiln mower shown in FIG. 1
Figure 3 is a site photo of the relocation construction (a) and restoration (b) by the method for restoring the permanent relocation of the present invention
4 is a flowchart showing a method of relocating a ball according to a preferred embodiment of the present invention.
5 is a preliminary investigation step of the pre-perpetual work, a photograph of the foreground (a) and the pre-treatment aerial view (b)
Figure 6 is a production step of the FRP mold of the pre-gut work, a picture of the mold production process (a) and the mold production state (b)
Figure 7 is the excavation step of the side of the kiln of the pre-gut work, a photograph of the excavation surface setting (a) and excavation operation (b)
8 is a photoreinforcement step of the preliminary reinforcement operation, a photo of the primary reinforcement (a), secondary reinforcement (b), urethane filling (c), primary and secondary reinforcement (d)
9 is a lower perforation and pedestal manufacturing step of the pre-gut operation, the lower perforation (a), the drilling state (b), the insertion and fixing of the pedestal (c), urethane filling process (d), pedestal installation state (e), pedestal Photograph of production state (f)
FIG. 10 is a step of manufacturing a protector for the preliminary work of the former, the side view of the protector 100
Figure 11 is a photograph of the H-beam frame installation (a) and the production of the eternal protection frame (b) for the production of the eternal protection frame (100)
12 is a yugu dividing step of the yugu transfer operation, the yugu division plan of the yugu protection frame 100
Figure 13 is a photograph showing the plane (a) and side (b) appearance of the yugu division
Figure 14 is a photograph of the yugu separation (a), yugu traction (b), yugu loading (c), yugu packing and moving (d) of the pre-gut work
15 is a flowchart illustrating a method for restoring a permanently resident according to a preferred embodiment of the present invention.
16 is a yugu installation and assembly step of the yugu restoration work, side view of the yugu installation and assembly
Figure 17 is a photograph showing the kiln installation process in the installation and assembly stage
18 is a photograph of the state of fine-tuning (a) and the split-gut assembly (b) in the installation and assembling stages
19 is a part restoration step of the restoration process, a photo of the urethane filling (a) and the restoration process (b)
20 is a protective frame dismantling step of the permanent restoring operation, a photograph of the removal of the permanent reinforcement (a) and the dismantling of the upper protective frame (b).
21 is an FRP template installation step of the permanent ball restoration work, the installation plan of the FRP mold
22 is a photograph showing a state of restoration

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In order to clearly explain the present invention in the drawings, parts not related to the description are omitted, and similar parts are denoted by similar reference numerals throughout the specification.

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

Example of Garter Yugu

1 is a yugu picture showing an example of a kiln found in the country, Figure 2 is a cross-sectional view of the kiln mogu shown in FIG.

1 and 2 are found in Seongnam-Janghowon Expressway Section 3 near Sindae-ri, Silchon-eup, Gwangju-si, Gyeonggi-do.

The kiln is a ring-shaped elongated path consisting of talc-containing yellowish brown clay layer and a kiln made of clay, and the flat form is a 15m-long forging chamber leading to a constant width and reaching the chimney. Iii). The kiln has a single thread structure with a total length of 21.8m, a width of 1.4 ~ 1.7m between the walls of both chambers, and a total inclination of the kiln is about 20 °.

The mythology is elliptical in shape that expands from bottom to top, and its size is 330 × 170㎝ (length × maximum width). Talc is found on the left and right walls, and it is believed that it was created using talc. Except for the part that leads to the spatula from the head of the tree, the width is about 140cm and the shape is constant. Five fire pillars are identified in the counter chamber at 3m intervals, and it is determined that the fire pillars partition the inside of the counter chamber. In addition, the back of the pillar of fire was steep incline, it is believed that there was an entrance facility. In the middle of the chamber (2nd through 4th column), a large amount of columnar dojimi was identified, and some discoid dojimi were also exposed. The bottom of the kiln has been mostly destroyed and can only be seen behind the pillar of fire. The wall of the kiln is severely damaged on the left side, and the place where the columnar dojimi is attached to the wall of the kiln is also found. The chimney was destroyed and unknown, and only small traces of soil were identified.

In accordance with the present invention, the method for restoring the eternal quarter of the present invention hardens the entire soil by hardening the soil at the bottom including the surface of the eternal quarter so as to maintain the archaeological properties of the same settlement without changing the shape of the eternal quarter. This method is fundamentally different from the method of moving the bone into the mold using FRP (Fiber Reinforced Plastics), which has been commonly practiced in the past, or the method of restoring the inner mold by using a release urethane foam. As a result, the soil and form of the surface are not damaged at all, and there is an advantage that the surface used at the time can be displayed as it is.

Example of the Restoration Method

Figure 3 is a site photograph of the relocation work (a) and the restoration work (b) by the method for restoring the permanent relocation of the invention.

As shown in FIG. 3, the method of restoring the permanently relocated structure of the present invention is largely divided into the permanently relocated work (a) and the permanently reconstructed work (b). The yugu relocation work (a) is made of preliminary investigation, FRP mold making, side excavation, reinforcement of the yugu, reinforcement of the lower perforation and pedestal, making the yugu protection frame, dividing the yugu, like the yugu relocation work sequence of Figure 4 The yugu restoration construction (b) is made of yugu installation and assembly, partition restoration, protection frame dismantling, FRP mold installation and the like as the yugu restoration work sequence of FIG.

Example of the method of relocation

4 is a flowchart illustrating a method of transferring a permanent ball according to a preferred embodiment of the present invention.

The yugu transfer method, as shown in Figure 4, preliminary irradiation step (S100), FRP mold making step (S110), side portion excavation step (S120), yugu reinforcement step (S130), lower perforation and pedestal manufacturing step (S140), yugu The protective frame manufacturing step (S150), the yugu division step (S160), the yugu traction step (S170) and so on. Next, the method for transferring the ball will be described in detail with reference to FIGS. 4 to 14.

First, a preliminary investigation is carried out on the ball to be transferred and restored (step S100). At this time, the preliminary survey investigates the type, age, preservation state of the yugu, the size of the yugu, the form and characteristics of the yugu, and plans and establishes the restoration location, construction period, construction scale, construction scope, and the like. Figure 5 is a photograph showing the foreground (a) before the treatment before the mogu and the aerial view before the treatment (b) in the preliminary investigation step.

Subsequently, an FRP mold is obtained in which the size and shape of the yugu are illustrated (step S110). Figure 6 is a picture showing the mold manufacturing process (a) and the mold manufacturing appearance (b). The FRP template is not necessarily a process and may be omitted.

Then, after setting the size of the mouthpiece to be moved and restored, the side surface of the mouthpiece is excavated (step S120). At this time, the excavation is preferably set to the excavation surface using an excavator or the like with a sufficient free space from the mouth, then excavated with a fork-lane, excavator, and the like. 7 is a photograph showing the excavation surface setting (a) and excavation operation (b).

After that, it is preferable to install a workshop in a plastic house, etc. in order to minimize the influence of the climate and the external environment after the installation of the drainage and the surrounding cleanup work in order to prevent damage to the permanent quarters due to moisture.

Thereafter, in order to prevent the surface dropping phenomenon before and during the preservation, the entire surface of the excavation surface of the perpetual curing using a curing agent (primary reinforcing operation) (step S130).

Subsequently, in order to transfer the ball after the curing is completed, a box to be a frame of the ball is manufactured. That is, a bottom beam (see 120 in FIG. 10) and a pillar beam (see 150 in FIG. 10) are installed on the side surface (lower cutting surface) of the ball, and a timber (170 in FIG. 10) is provided between the pillar beams 150. To make a permanent protection frame (see 100 in FIG. 10). Here, the bottom beam 120 and the pillar beam 150 preferably uses an H beam.

Thereafter, the space between the side surface of the ball and the timber 170 is filled with a reinforcing agent (see 140 and 8c of FIG. 10) to completely seal the space inside (second reinforcement work) (step S130). ). At this time, the reinforcing agent 140 is preferably sealed in the space using a urethane foam or the like. The urethane foam has the advantage of easy installation and easy removal upon restoration of the mouth.

Here, the reason for reinforcing the side surface of the yugu through the primary and secondary reinforcement work is because it prevents the deformation of the yugu form when transferring and storing the yugu, and also advantageous in durability and moisture proof treatment.

For reference, Figure 8 is a photograph showing the primary reinforcement operation (a), secondary reinforcement operation (b), urethane filling appearance (c), primary and secondary reinforcement state (d).

Then, the lower part of the yugu is drilled using an excavator, etc., and then the lower pedestal (see 130 of FIG. 10) is inserted through the punched hole and fixed to the bottom beam 120 installed on both sides of the yugu. . Subsequently, after installing a support plate (see 200 in FIG. 12) on the lower pedestal 130, a space between the yugu and the support plate 200 is filled with a reinforcing agent such as urethane to seal the internal space (step S140). ). Here, the lower pedestal 130 preferably uses an H beam, and the support plate 200 preferably uses an iron plate.

For reference, Figure 9 shows the lower drilling (a), the drilling (b), pedestal insertion and fixing (c), urethane filling process (d), pedestal installation state (e), pedestal manufacturing state (f) It is a photograph.

Subsequently, an upper pedestal (see 160 of FIG. 10) is installed on the pillar beam 150, and a timber 170 is installed on the upper pedestal 160 to manufacture a box-shaped eternal protection frame 100. To complete. Here, the upper pedestal 160 is preferably installed using an H beam or a 'b' shaped beam.

As such, after the internal sealing is completed to the yugu protection frame 100, the yugu is reinforcing the lower end and the pillar with a material (H beam) capable of supporting the weight of the yugu on the lower end of the yugu.

On the other hand, FIG. 10 is a side view of the retaining guard frame 100, and FIG. 12 is a splitting plan view of the retaining guard frame 100. FIG.

The eternal protection frame (also referred to as a 'premature restoration template') 100 is vertical to the bottom beam 120 and the bottom beam 120 installed at the bottom of the side of the moth, as shown in FIGS. 10 and 12. A plurality of pillar beams 150 to be installed, the lower pedestal 130 is installed by drilling the lower portion of the yugu and the bottom beam 120, the support plate 200 is installed on the lower pedestal 130 ), And an upper pedestal 160 installed on the pillar beam 150, and a plurality of timbers 170 respectively installed between the pillar beam 150 and on the upper pedestal 160.

In order to divide and transfer at least two or more of the yugu, the yugu protection frame 100 has two pillar beams 150 attached to each other at the divided position of the yugu, and the pillar beam 150 and the pillar beam 150. Partition plate (190) is inserted into the cutting surface of the yugu cut through each of the) is provided on the pillar beam 150, respectively. Here, the partition slab 190 is composed of a lower partition iron plate is installed on the lower cutting surface of the yugu, and the upper partition iron plate is installed on the upper cutting surface of the yugu, and only the upper partition iron plate is removed when restoring the yugu. It is supposed to.

The yugu protection frame 100 is filled with a reinforcing agent 140 such as urethane in the space between the yugu and the timber 170 and the space between the lower portion of the yugu and the support plate 200, respectively, to seal the space inside. It is configured to.

For reference, FIG. 11 is a photograph showing an H beam frame installation state (a) and a permanent protection frame manufacturing state (b) for manufacturing the eternal protection frame 100.

Next, after the production of the yugu protection frame 100 is completed, the yugu is divided into at least two or more to transfer the yugu to the exhibition place (step S160). 13, the pillar protection frame 100 has two pillar beams 150 side by side attached to the divided position of the yugu as shown in FIG. For reference, FIG. 13 is a photograph showing a plane (a) and a side (b) of the yugu division.

Between the pillar beam 150 and the pillar beam 150 using a cutter to cut the yugu perpendicular to the longitudinal direction. Subsequently, partition slats (see 190 in FIG. 12) are respectively inserted into the cut surfaces and installed on the pillar beams 150, respectively. In this case, as described above, the partition slab 190 includes a lower partition iron plate provided below the cut surface of the yugu, and an upper partition iron plate installed above the cut plane of the yugu. The divided yugu is formed in a box shape in which the partition iron plate 190 attached to the cut surface is fixed to the yugu protection frame 100.

As described above, when cutting between the two pillar beams 150 facing the split position in the state in which the fixture is fixed with the yugu protection frame 100, the loss width of the divided surface can be greatly reduced to 10 cm or less. . For reference, there is a problem in that the loss width of the divided surface is more than 30 cm when cutting the yugu divided surface without fixing and supporting frame as before.

The divided yugu respectively packed with the yugu protection frame 100 is towed by a crane and carried to the trailer. In this case, the crane and the trailer are preferably determined in consideration of the load of the yugu, and the divided yugu is also preferably divided in consideration of the maximum load of the crane, the trailer, the road and the bridge.

Figure 14 is a photograph showing the yugu separation state (a), yugu traction state (b), yugu loading state (c), yugu packing and moving state (d) of the pre-gut work.

Embodiment of the eternal restoration method

15 is a flowchart illustrating a method for restoring a permanently resident according to a preferred embodiment of the present invention.

The yugu restoration method includes a yugu installation and assembly step (S200), a partition restoration step (S210), a protective frame dismantling step (S220), FRP mold installation step (S230) as shown in FIG. Hereinafter, the method of restoring the ball will be described with reference to FIGS. 15 to 22.

First, install and assemble the transferred box-shaped split yugu in the exhibition space (step S200). At this time, finely adjust the position after the shape of the transfer ball, and using the connecting plate 180 and the connecting bolt to connect and fix the beam of the protector frame 100 with each other.

For reference, FIG. 17 is a photograph showing the kiln installation process, and FIG. 18 is a photograph showing the state of fine tuning (a) and the assembly of split tuyere (b).

Subsequently, the upper partition iron plate attached to the cut surface of the split quarters is removed, and a reinforcing agent such as urethane is filled in the gap space between the split quarters, and then, the soil is made of the same material as that of the split quarters and restored (step S210).

For reference, Figure 19 is a photograph showing the urethane filling appearance (a) and the restoration process (b).

Then, after removing the timber 170 of the eternal protection frame 100 to remove all the reinforcement of the urethane foam used in the previous operation. Subsequently, the beams of the permanent protection frame 100 are dismantled (step S220).

For reference, Figure 20 is a photograph showing a state of removing the retainer reinforcement (a) and dismantling the upper protective frame (b).

Thereafter, the secondary hardening treatment is performed on the side surface of the yugu for the shape stability of the yugu surface to be exhibited, and then the side of the yugu and the part lost during the excavation are restored to the soil of the same material as the yugu. .

Finally, the space is installed in the front, rear, left and right of the yugu to install the FRP mold 240 to complete the exhibition hall (step S230).

For reference, FIG. 21 is a plan view of the installation of the FRP mold 240, Figure 22 is a photograph showing the state of restoration (a) (b).

16 is a side view of the yugu installation and assembly. As a side surface of the exhibition hall having spaces in front, rear, left, and right sides of the yugu, and having a mold (see 240 of FIG. 21), a kiln display surface 230 is provided on the yugu, and the iron plate 220 and the H beam 210 ) Is supporting the lower part of the mouth.

The eternal mooring restoration template of the present invention configured as described above and the eternal mooring restoration method using the same by hardening the whole soil by hardening the soil at the bottom including the surface of the moth to maintain the archaeological properties of the same dwelling without modifying the shape of the moth, The technical problem of this invention can be solved.

Preferred embodiments of the present invention described above are disclosed to solve the technical problem, and those skilled in the art to which the present invention pertains (man skilled in the art) various modifications, changes, additions, etc. within the spirit and scope of the present invention. It will be possible to, and such modifications, changes, etc. will be considered to be within the scope of the following claims.

100: eternal protection frame 110: eternal surface
120: floor beam (H beam)
130: lower pedestal or posterior support beam (H beam)
131: Connecting bolt
140: reinforcing agent or urethane 150: pillar beam (H beam)
160: upper pedestal or 'ㄱ' shaped beam
170: Timber 180: connecting plate
190: partition iron plate 200: support plate
210: H beam 220: iron plate
230: kiln display surface 240: FRP mold

Claims (14)

delete (a) preliminary examination of the torrents to be transferred and restored;
(b) excavating a side surface of the yugu;
(c) primary reinforcing the side surface of the excavated yugu with a curing agent;
(d) installing a bottom beam (120) and a pillar beam (150) on the side of the ball and installing a timber (170) between the pillar beams (150);
(e) filling the space between the side surface of the ball and the timber 170 with the reinforcing agent 140 to reinforce the secondary;
(f) after drilling the lower part of the mouthpiece, a lower pedestal 130 is inserted and fixed to the bottom beam 120, and a support plate 200 is installed on the lower pedestal 130. Reinforcing by filling the reinforcing agent in the space between the 200);
(g) installing an upper pedestal (160) on the pillar beam (150) and installing a timber (170) on the upper pedestal (160) to manufacture a box-shaped eternal protection frame (100);
(h) the two pillar beams 150 are installed side by side in a vertical position at the position of dividing the quarters in the state in which the eternal quarters are fixed with the eternal protection frame 100, and then between the two pillars beams 150 using a cutter. Cutting;
(i) dividing the yugu after inserting a partition iron plate on the cut surface of the yugu and fixing it to the pillar beam 150;
(j) separating and dividing the divided yugu;
(k) finely adjusting the transferred split yugu in order and installing and assembling the beams of the yugu protection frame 100 by using the connecting plate 180 and the connecting bolt to fix each other;
(l) removing the partition griddle provided on the cut surface between the split quarters and the split quarters;
(m) filling the gap between the split quarters and reinforcing the reinforcing agent;
(n) removing the timber 170 of the eternal protection frame 100, removing the reinforcing agent of step (e), and then dismantling the beams of the eternal protection frame 100;
(o) stabilizing the shape of the spherical surface to be exhibited by performing a hardening treatment with a hardening agent on the side of the spheron;
(p) restoring the sides of the yugu and parts lost during the excavation to soil of the same material as the yugu; And
(q) completing the exhibition hall by installing a mold 240 with spaces in front, rear, left, and right sides of the yugu;
Eternal transfer restoration method comprising a.
delete According to claim 2, wherein the eternal protection frame 100 is:
A bottom beam 120 installed at the bottom of the side surface of the yugu;
A plurality of pillar beams 150 installed perpendicular to the floor beams 120;
A lower pedestal 130 installed at the lower portion of the yugu and installed at the bottom beam 120;
A support plate 200 installed on the lower pedestal 130;
An upper pedestal (160) installed on the pillar beam (150); And
A plurality of timbers 170 installed between the pillar beams 150 and on the upper pedestal 160;
Eternal transfer restoration method comprising a.
The method of claim 2,
The bottom beam 120, the column beam 150, and the lower pedestal 130 use H beams, and the upper pedestal 160 uses 'A' shaped beams or H beams, and the support plate 200. ) Is a method of restoring forever using the iron plate.
delete The method of claim 2,
The reinforcing agent is a method for restoring the former ball using urethane.
The method of claim 2, wherein the method for restoring the permanent quarter:
After the preliminary investigation, the method for restoring the former moss to produce a mold modeled after the size and shape of the moss.
delete delete delete A bottom beam 120 installed on the side bottom of the mouth;
A plurality of pillar beams 150 installed perpendicular to the floor beams 120;
A lower pedestal 130 installed by drilling a lower portion of the yugu and installed in the bottom beam 120;
A support plate 200 installed on the lower pedestal 130;
An upper pedestal (160) installed on the pillar beam (150);
A plurality of timbers 170 installed between the pillar beams 150 and on the upper pedestal 160;
Two pillar beams 150 installed vertically in parallel to the divided positions of the yugu;
A partition iron plate inserted into a cutting plane cut between the two pillar beams 150 and fixed to the pillar beams to divide the yugu;
A hardening treatment to fill the side surface of the yugu first reinforcement; And
And a reinforcing agent filling the space between the yugu and the timber 170 and the space between the lower part of the yugu and the support plate 200 to secondary reinforcement.
The division of the yugu is cut between the two pillar beams 150 using a cutter in a state in which the yugu is fixed by the yugu protection frame 100,
Restoration of the quarters is carried out by towing and transporting the divided quarters and then installing the quarters in order, and then removing the partition griddles installed on the cutting surfaces between the split quarters, and removing the partition griddles in the gap space between the divided quarters. After refilling the reinforcement for restoring the former moss before restoring the same material on the upper part of the reinforcement.
The method of claim 12,
The reinforcing agent is a former restoration form using urethane.
delete

Images