KR102420970B1 - Method for over turv protection device for dome concrete structure - Google Patents

Abstract

Disclosed is a fall prevention method for a dome-shaped concrete structure, which can prevent a dome-shaped concrete structure from falling in the process of sequentially cutting and disassembling a dome-shaped concrete structure, especially, a nuclear power plant containment structure from a lower end by using a hydraulic jack and a wire saw cutting device.

Description

Fall prevention method for domed concrete structure {METHOD FOR OVER TURV PROTECTION DEVICE FOR DOME CONCRETE STRUCTURE}

The present invention relates to a fall prevention method for a dome-type concrete structure, and more specifically, a dome-type concrete structure, in particular, a nuclear power plant containment structure, which is sequentially cut and dismantled from the lower end using a hydraulic jack and a wire saw cutting device. It relates to a fall prevention method for a dome-type concrete structure capable of preventing the fall of a concrete structure.

A nuclear reactor containment structure (a nuclear power plant structure) is an enclosed building in which a nuclear reactor and a steam generator, which are the main equipment of a nuclear power plant, are disposed in a nuclear power plant.

1A is an exemplary view of a cutting system using a dry wire saw for dismantling a nuclear power plant structure according to the prior art.

That is, the diamond wire saw 21 for winding the wire rope around the cut target portion of the nuclear power plant structure 23, and driving the wire rope to cut the nuclear power plant structure 23;

a self-propelled driving device 22 for driving the diamond wire saw 21;

a dust collecting cover fixedly installed to seal the cut portion of the nuclear power plant structure 23 on which the wire is wound, and having a semicircular shape as a whole, and having horizontal wings formed at both ends; As a whole, it is made of a hexahedral shape, and the lower part is formed in the shape of a cross-section of the upper and lower valleys; a self-propelled dust collector 25 for transferring and storing the dust collected in the dust container; and a negative pressure device 26 disposed at a predetermined position of the nuclear power plant structure 23 .

Therefore, in the case of a cutting system using a dry wire saw for dismantling a nuclear power plant structure according to the prior art, it is cut into a block shape or a block shape for the purpose of dismantling a concrete wall such as a cylindrical shield wall or other statue of a nuclear power plant structure. it can be seen that

However, in the case of a cutting system using a dry wire saw for dismantling a nuclear power plant structure according to the prior art, there was a problem that it cannot be applied to dismantle the outer wall of a dome-type concrete structure formed by pouring concrete.

1b, 1c and 1d are exemplary views of an external wall dismantling method of a conventional domed concrete structure.

That is, as shown in Figure 1b, first a) calculating the preload of the domed concrete structure 11, and determining the cutting position and size of the lower portion of the domed concrete structure 11; b) calculating the capacity and quantity of the hydraulic jack to be installed in the lower part of the dome-shaped concrete structure 11, and forming the perforated core 31 of the corresponding part.

Next, as shown in FIG. 1c , c) forming a concrete wall cut part 32 for installing a plurality of hydraulic jacks by pre-cutting the perforated core 31 after forming the perforated core 31 ; d) inserting the hydraulic jack 12 into the concrete wall cutting part 32 for installing the hydraulic jack, and connecting the hydraulic pump 13 and the control panel 14; e) cutting the side dismantled concrete wall 33 between the concrete wall cutting portions 32 for installing the hydraulic jack;

Next, as shown in FIG. 1d, f) lowering the piston of the hydraulic jack 12 to lower the domed concrete structure 11, but returning to step a), the domed concrete structure 11 is lower It can be seen that the dome-type concrete structure is being dismantled while descending step by step.

However, when the jack is lowered after cutting the side dismantled concrete wall 33 in steps e) and f), the upper domed concrete structure 11 may fall due to malfunction of the jack or various other conditions. There was a problem.

To this, other fall prevention devices can be installed, but when installing using the concrete wall cutting part 32 for installing the hydraulic jack, there are too many restrictions, so that the operation is very difficult.

Republic of Korea Patent No. 10-1662588 (registration date: September 28, 2016), title of invention: "Cutting system using dry wire saw for dismantling nuclear power plant and cutting and dismantling method thereof" Republic of Korea Patent Publication No. 2020-2308 (published date: January 8, 2020), title of invention: "Nuclear structure dismantling device" Republic of Korea Patent No. 10-2144080 (published on August 13, 2020), title of invention: "Dismantling method of dome-shaped concrete structure"

In order to solve the above problems, the present invention sequentially cuts and disassembles the domed concrete structure from the lower end using a hydraulic jack and a wire saw cutting device. It is a technical problem to be solved by providing a prevention method.

As a means for achieving the above-mentioned technical problem, the fall prevention method for a domed concrete structure according to the present invention is (a) forming a perforated core in the domed concrete structure and then pre-cutting the perforated core to form a concrete wall cut part for installing a plurality of hydraulic jacks to do; (b) inserting and installing a fall prevention device for a dome-type concrete structure into a concrete wall cut for installing a hydraulic jack; (c) cutting the side dismantled concrete wall between the concrete wall cuts for installing the hydraulic jack to form a cut upper domed concrete structure; (d) lowering the cut upper dome-type concrete structure using the fall prevention device for the dome-type concrete structure; By forming an intermediate box between the lower supports, the support state of the cut upper dome-type concrete structure can be maintained as it is regardless of the operation of the hydraulic jack. After the hydraulic cylinder is extended downward and supported by the lowering support supports arranged in the upper and lower grids, the process of lowering the jack housing downward while removing the lowering support supports one step at a time is repeated, It allows the fall prevention device for the dome-type concrete structure to be lowered to the desired lowering height.
The step of lowering the cut upper dome-type concrete structure using the fall prevention device for the dome-type concrete structure in step (d) is, Make sure that the cut upper domed concrete structure is supported by the jack housing set on the upper support supports for both lowering, d-2) Remove one stage of the support supports for both upper lowering supported by the lower supports for lowering the jack housing It is set to be supported by the lower both lowering support supports by this hydraulic jack, and d-3) The jack housing is placed on the upper surface of the lower both lowering support supports while the jack housing is lowered in such a way that the hydraulic cylinder is restored to its original position. Lowering the cut upper domed concrete structure in the process of supporting it, removing both lower support supports for lowering, and removing the jack housing together with the cut upper domed concrete structure supported on the ground. The respective ends of the lowering support supports arranged in the upper and lower grids are set to each other in the horizontal and vertical directions, but the upper support supports for both lowering support the jack housing in the horizontal direction, and the lower support supports for both lowering are set at the bottom is set to support the upper two lowering support supports in the vertical direction, and the upper two lowering support supports are divided into a lateral upper two lowering support supports and a central upper two lowering support supports, and the lower two lowering support supports are set. is to be used separately as a support support for both lowering at the lower side of the side and a support for lowering at the lower end of the center.

According to the present invention, the dome-type concrete structure that cannot be dismantled by blasting or crushing, in particular, the nuclear power plant containment concrete structure is sequentially cut and dismantled from the lower end using a hydraulic jack and wire saw cutting device, thereby stably dismantling the dome-type concrete structure. In the process of cutting and dismantling, it is possible to prevent the upper dome-type concrete structure from falling, and it is possible to solve this with a simple device, so that it is possible to provide a quick, safe and economical method for preventing the dome-type concrete structure from falling.

1a is an exemplary view of a cutting system using a dry wire saw for dismantling a nuclear power plant structure according to the prior art;
1b, 1c and 1d are exemplary views of a conventional domed concrete structure dismantling method;
Figures 2a and 2b is an exemplary view of the fall prevention device during the dismantling of the domed concrete structure of the present invention,
3A, 3B, 3C and 3D are flowcharts of a method for preventing a fall during dismantling of a domed concrete structure of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement them. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components, unless otherwise stated. In addition, terms such as "...unit" described in the specification mean a unit for processing at least one function or operation, which may be implemented as hardware or software or a combination of hardware and software.

[The fall prevention device 200 for a domed concrete structure of the present invention]

Figures 2a and 2b shows an exemplary view of the fall prevention device 200 for a domed concrete structure of the present invention.

When the dome-type concrete structure fall prevention device 200 is dismantled while lowering the dome-type concrete structure 11, the lower part of which is cut step by step, with reference to FIG. 1D, the cut dome-type concrete structure 11 is stably descended. It can be said that this is to prevent conduction.

To this end, the fall prevention device 200 for the dome-type concrete structure of the present invention is inserted into the space by the concrete wall cutting part 32 for installing the hydraulic jack formed in advance in the cut upper dome-type concrete structure 110 as shown in FIG. It has an action to be lowered and seated, and in particular, by using a hydraulic jack 220 built-in, more economical operation is possible.

Accordingly, the fall prevention device 200 for the dome-shaped concrete structure is to include a jack housing 210, a hydraulic jack 220, and a support pedestal 230 for lowering as shown in FIGS. 2A and 2B.

Referring to FIG. 2b, the jack housing 210 is a box-shaped housing and is inserted into a space by a plurality of concrete wall cutting parts 32 for installing hydraulic jacks so as to support the cut upper domed concrete structure 110 (FIG. 2a). There are two shown).

That is, in the prior art, referring to FIGS. 1C and 1D , because the hydraulic jack was installed to support the cut upper domed concrete structure 110, there was a risk of overturning when descending,

Referring to Figure 2b, the present invention installs the hydraulic jack 220 inside the jack housing 210, and the jack housing 210 surrounds the hydraulic jack 220, between the upper support 211 and the lower support 212. By forming the intermediate box body 213 , the support state of the cut upper dome-shaped concrete structure 110 can be maintained as it is regardless of the operation of the hydraulic jack 220 .

Accordingly, as shown in Fig. 2b, the jack housing 210 in the form of a hollow box body has a hydraulic jack 220 mounted inside the intermediate box body 213, and a hydraulic cylinder 221 is extended downward to the lower support 212. The jackhole 214 is formed so as to be possible.

Accordingly, referring to FIG. 2B, after the hydraulic cylinder 221 is extended downward to be supported by the lower support supports 230: 230a, 230b arranged in an upper and lower grid shape,

By repeating the process of lowering the jack housing 210 downward while removing the lowering support supports (230a, 230b) one step at a time,

It is possible to gradually lower the fall prevention device 200 for a domed concrete structure to a desired lowering height.

That is, since a larger support area can be secured by the upper support 211 and the lower support 212 of the fall prevention device 200 for dome-type concrete structures, the risk of overturning is reduced by expanding the support area for prevention of fall. can be reduced,

Since it operates based on the hydraulic jack 220, it is easy to control, and thus precise operation is possible.

2a and 2b, the hydraulic jack 220 is installed exposed so as to be inserted and detached at the approximate center of the intermediate box body 213 of the jack housing 210, and a hydraulic line is connected to the exposed body, The control panel, compressor, etc. enable hydraulic operation.

Accordingly, the hydraulic cylinder 221 is extended and restored downward and serves to change the support height of the jack housing 210. Accordingly, the upper support 211 and the lower portion of the fall prevention device 200 for a dome-type concrete structure It is possible to descend while stably supporting the cut upper dome-shaped concrete structure 110 supported by the pedestal 212 .

That is, the worker initially installs the jack housing 210 on the concrete wall cut-out 32 for installing a plurality of hydraulic jacks formed in the cut upper dome-type concrete structure 110 on the support pedestal for descent (230: 230a, 230b),

The hydraulic cylinder 221 of the hydraulic jack 220 is extended downward so as to be supported by the lower center support supports 232b for both lowering,

When the jack housing 210 is lowered based on the hydraulic cylinder 221 while removing the side upper support supports 231a for lowering one by one from the top,

The cut upper dome-shaped concrete structure 110 supported by the jack housing 210 is also able to descend without a risk of overturning.

Accordingly, it can be seen that this can be made possible only by installing a plurality of the fall prevention device 200 for the domed concrete structure of the present invention in the concrete wall cutting part 32 for installing a plurality of hydraulic jacks.

Next, as shown in FIGS. 2a and 2b, the lowering support pedestal 230 is removed one step at a time while the hydraulic jack 220 supporting the cut upper dome-shaped concrete structure 110 supports the jack housing 210 from the lower part. As a pedestal for lowering the fall prevention device 200 for a dome-type concrete structure,

If the first stage is in the horizontal direction, it is a pedestal that is stacked in a grid and disassembled one by one, such that the upper one is extended in the vertical direction.

Accordingly, according to FIG. 2b, it can be seen that two stages of the lowering support supports 230:230a and 230b are installed, and the stages are set to be set in the horizontal and vertical directions with respect to each other.

Accordingly, the upper both lowering support supports 230a support the jack housing 210 in the horizontal direction, for example, and the center lower both lowering support supports 232b are vertical to the floor in the upper both lowering support supports 230a. It can be seen that it is set to support

At this time, the upper support support for both lowering (230a) is divided into the upper side support support for both lowering (231a) and the center upper support support for both lowering (232a),

The lower both lower support supports 230b are divided into lateral lower support supports 231b and lower center support supports 232b for both lowering.

A method of lowering the jack housing 210 to a desired position using the upper support supports 230a for both lowering and the lower support supports 230b for both lowering will be described later.

[The fall prevention method for the domed concrete structure of the present invention]

3a, 3b, 3c and 3d show a flow chart of the method for preventing the fall during the dismantling of the domed concrete structure of the present invention.

The fall prevention method for the domed concrete structure can be said to be a method of lowering the cut upper domed concrete structure 110 using the fall prevention device 200 for the domed concrete structure while not falling.

That is, (a) forming a concrete wall cut portion 32 for installing a plurality of hydraulic jacks by pre-cutting the perforated core 31 after forming the perforated core 31 in the domed concrete structure 100; (b) inserting and installing a fall prevention device 200 for a dome-type concrete structure in the concrete wall cutting part 32 for installing a hydraulic jack; (c) cutting the side dismantled concrete wall 33 between the concrete wall cutting portions 32 for installing the hydraulic jack to form the cut upper domed concrete structure 110; (d) lowering the cut upper dome-shaped concrete structure 110 using the fall prevention device 200 for the domed concrete structure;

After the hydraulic cylinder 221 is extended downward to be supported by the support supports for descending (230: 230a, 230b) arranged in an upper and lower grid shape, the lowering support supports (230a, 230b) are removed one step at a time while the jack By repeating the process of lowering the housing 210 downward, the fall prevention device 200 for the dome-shaped concrete structure is gradually lowered to the desired lowering height,

Accordingly, a method of lowering the jack housing 210 to a desired position using the upper support supports 230a for both lowering and the lower support supports 230b for both lowering constituting the lowering support base 230 will be described in detail below. same as

First, as shown in Fig. 3a, using the space by the concrete wall cutting part 32 for installing a plurality of hydraulic jacks, the jack housing 210 set on the support supports 230a for both lowering of the upper ends of the support support for descending 230 is cut. It can be seen that the upper domed concrete structure 110 is supported.

That is, in a state in which the hydraulic jack 220 is provided with the built-in jack housing 210, the jack housing 210 in which the hydraulic jack 220 provided in the lowering support pedestal 230 is built-in is set,

It can be seen that the upper support supports 230a for both lowering of the lower support supports 230 are supported by the lower support supports 230b for both lowering.

In addition, the lower support 212 of the jack housing 210 is supported on the upper surface of the side upper support support 231a for both lowering of the upper end constituting the support support for lowering 230a,

It can be seen that the cut upper dome-shaped concrete structure 110 is supported on the upper surface of the jack housing 210 .

At this time, the height of the upper surface of both lowering support supports (231a) at the upper side of the side is higher than the upper surface of both lowering support supports (232a) at the upper center of the center. to facilitate its removal.

Next, as shown in FIGS. 3b and 3c, the jack housing 210 is lowered by the hydraulic jack 220 while removing one stage of the upper support supports 230a for both lowering supported by the lower support supports 230b for both lowering. It is set to be supported by both the lowering support pedestals (230b).

That is, as shown in FIG. 3b, after removing the support supports 232a for both lowering of the center upper part horizontally in a state in which the jackhow middle 210 is supported by the upper support supports 230a for both lowering,

In a state in which the hydraulic cylinder 221 of the hydraulic jack 220 built into the jack housing 210 is extended so that the jack housing 210 is supported on the upper surface of the support pedestal 230b for both lower ends, The support pedestal 231a is also removed.

As a result, the upper support supports 230a for both lowering are removed by one stage, and the jack housing 210 can be stably maintained in a supported state.

In this case, the lower both lower support supports 230b are in a state in which the lower center support supports 232b for both lowering are set between the side lower support supports 231b for both lowering,

At this time, again, the upper surface height of both lower lateral lower support supports (231b) is formed higher than the upper surface height of the lower center support supports (232b) for both lowering,

It can be seen that the extended hydraulic cylinder 221 is supported on the upper surface of the lower center support supports 232b for both lowering.

Next, as shown in FIG. 3c, the jack housing 210 is supported on the upper surface of the lower side both lower support supports 231b while the jack housing 210 is lowered in such a way that the hydraulic cylinder 221 is restored to its original position. In a state in which the cut upper domed concrete structure 110 is stably lowered in the process of making it possible, and the lower both lower support supports 230b are removed, and the cut upper domed concrete structure 110 is supported on the ground. The jack housing 210 is removed together.

That is, as shown in FIG. 3c, in a state in which the jack housing 210 is supported on the upper surface of the lower side support supports 231b for both lowering, the cut upper dome-shaped concrete structure 110 is supported on the ground,

After removing the support supports (232b) for both lowering in the center, and allowing the hydraulic cylinder 221 of the hydraulic jack 220 to be supported by the horizontal support on the ground,

While removing the support supports 231b for both lower sides of the lower side, the jack housing 210 is also removed while restoring the hydraulic cylinder 221 of the hydraulic jack 220 .

As a result, it can be seen that the upper dome-shaped concrete structure 110 cut by the descent of the jack housing 210 can be lowered while removing the upper support supports 230a for both lowering and the lower support supports 230b for both lowering. there is,

It can be seen that the descent of the jack housing 210 is performed in stages as much as the first-stage setting height of the upper support supports 230a for both lowering and the lower support supports 230b for both lowering.

Accordingly, it can be seen that the jack housing 210 can be finally removed to enable reuse as shown in FIG. 3D .

The above description of the present invention is for illustration, and those of ordinary skill in the art to which the present invention pertains can understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a dispersed form, and likewise components described as distributed may be implemented in a combined form.

The scope of the present invention is indicated by the following claims rather than the above detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be interpreted as being included in the scope of the present invention. do.

100: domed concrete structure
110: cut upper domed concrete structure
200: fall prevention device for dome-type concrete structures
210: jack housing
211: upper support 212: lower support
213: middle box body 214: jack hole
220: hydraulic jack 221: hydraulic cylinder
230: support pedestal for descending
230a: support pedestal for both upper lowering
231a: lateral upper support support for both lowering
232a: support support for both lowering at the top of the center
230b: support support for lowering both lower sides
231b: support support for both lower sides of the lower side
232b: support pedestal for both lowering of the center lower part

Claims (6)

(a) pre-cutting the perforated core 31 after forming the perforated core 31 in the domed concrete structure 100 to form a concrete wall cut portion 32 for installing a plurality of hydraulic jacks; (b) inserting and installing a fall prevention device 200 for a dome-type concrete structure in the concrete wall cutting part 32 for installing a hydraulic jack; (c) forming a cut upper domed concrete structure 110 by cutting the side dismantled concrete wall 33 between the concrete wall cutting portions 32 for installing the hydraulic jack; (d) lowering the cut upper dome-shaped concrete structure 110 using the dome-type concrete structure fall prevention device 200;
The upper domed concrete structure cut regardless of the operation of the hydraulic jack 220 by wrapping the hydraulic jack 220 mounted therein and forming an intermediate box body 213 between the upper support 211 and the lower support 212 . To maintain the support state of 110 as it is, the lower support 212 includes a jack housing 210 formed by a jack hole 214 so that the hydraulic cylinder 221 extends downward,
After the hydraulic cylinder 221 is extended downward to be supported by the support supports for descending (230: 230a, 230b) arranged in an upper and lower grid shape, the lowering support supports (230a, 230b) are removed one step at a time while the jack By repeating the process of lowering the housing 210 downward, the fall prevention device 200 for a dome-shaped concrete structure can be lowered to a desired lowering height,
The step of lowering the cut upper dome-type concrete structure 110 using the fall prevention device 200 for the dome-type concrete structure of step (d) is, d-1) by the concrete wall cutting part 32 for installing a plurality of hydraulic jacks. Using the space, the upper dome-shaped concrete structure 110 cut in the jack housing 210 set on the lower support support 230a is supported on both upper ends of the lower support support 230, d-2) the lower amount Set so that the jack housing 210 is supported by the hydraulic jack 220 by the hydraulic jack 220 while removing one stage of the upper both lowering support supports 230a supported by the lowering support supports 230b. and d-3) so that the jack housing 210 is supported on the upper surface of the supporting supports 231b for both lower sides of the lower side while the jack housing 210 is lowered in such a way that the hydraulic cylinder 221 is restored to its original position. After lowering the cut upper domed concrete structure 110 in the process, and removing the lower support supports 230b for both lowering, the cut upper domed concrete structure 110 is supported on the ground. 210) to be removed together,
The respective ends of the lowering support supports 230: 230a, 230b disposed in the upper and lower grids are set to each other in the horizontal and vertical directions, but the upper support supports 230a for both lowering are horizontally connected to the jack housing 210 ), and the lower both lowering support supports (230b) are set to support the upper two lowering support supports (230a) in the vertical direction on the floor,
The upper both lowering support supports (230a) are divided into a side upper both lowering support supports (231a) and a central upper both lowering support supports (232a), and the lower both lowering support supports (230b) are side lower sides A fall prevention method for a dome-type concrete structure that is divided into a support support for descending (231b) and a support support for lowering both sides of the center (232b). delete The method of claim 1,
After step d-3), the jack housing 210 is finally removed so that it can be reused. delete delete The method of claim 1,
The upper surface height of both lower side support supports 231a is higher than the upper surface height of the center upper both lower support supports 232a. A fall prevention method for domed concrete structures that enables the removal of

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