KR19980080404A - Method of construction of plant buildings and modular structures used in the construction thereof - Google Patents

Abstract

An object of the present invention is to shorten the construction process by easy mounting of the modular structure at the time of construction of the plant building using the modular structure.

In order to achieve the purpose, the steel frame (1) of the room in the plant building and the steel frame of the ceiling beam (3) and lighting fixtures (6) or ducts (7), the piping (5) and the steel plate (2) as a wall member After the body of the plant building is constructed up to the floor of the room, the module structure 10 is suspended in the construction position of the room to combine the steel column (1) and the body of the plant building After that, concrete is cast using the iron plate 2 as a template.

Description

Method of construction of plant buildings and modular structures used in the construction thereof

The present invention belongs to the technical field related to the construction of plant buildings such as nuclear power plants and thermal power plants.

Nuclear and thermal power plant plants generally have a reinforced concrete structure.In the construction of building walls, concrete is poured after a large amount of reinforcing bars and molds, and then the molds are removed to finish the concrete. Doing.

In addition, equipment, piping, etc. disposed in the building are brought in separately after waiting for the completion of the building body construction, delivered from a building site, and then set up a construction hypothesis base and the like.

As a method of avoiding the prolongation of the construction process by the carrying-in operation of such a unit, the entire room as disclosed in Japanese Patent Application Laid-open No. Hei 4-293864 is modularized in a state in which the internal facilities are excluded except the concrete part. Then, there is a construction method in which the room module is suspended in the mounting position of the room. However, the construction method by this room module causes a large weight of a room module, and also makes it difficult to couple to the lower floor of a room module as a room becomes large, and there exists a possibility of causing difficulty in mounting.

For this reason, examples in which only the ceiling portion of the room is modularized to facilitate mounting are disclosed in Japanese Patent Application Laid-Open Nos. 57-5289 and 8-86037. According to those well-known examples, the module of the ceiling part is made of reinforced concrete of the room in advance by preparing a modular structure in which beams or reinforcing ceilings and auxiliary structures such as pipes and ducts attached to the ceiling, in addition to the deck plate, are made in advance. After the concrete of the side wall solidifies and the strength is sufficient, the ceiling module structure is suspended and mounted by crane to the support projecting from the side wall surface to the inside of the room, and the concrete is placed on the deck plate to build the room in the plant building. have.

In the construction of the body of a plant building, the reinforced concrete structure requires massive reinforcing bars and molds, and also requires much effort and processes for mounting and dismantling or dismantling the molds, or finishing painting.

In addition, it is difficult to secure the safety of working at a high place and to improve the environment due to dust generation in the surface finishing work of concrete.

On the other hand, in the construction of equipment, plumbing, etc., the building construction is waited for completion of the above-mentioned construction, and thus it is mounted in an irregular state for each unit. Therefore, it is not a proper method in terms of efficiency, and it requires a lot of effort and process to digest the work.

On the other hand, the mounting work becomes difficult in the method of employing the room module.

In view of this, in the case where only the ceiling is modularized, the difficulty of the mounting work can be eliminated, but the ceiling module cannot be mounted unless the side wall surface of the room has been completed to the strength of the installation strength evaluation degree. It was necessary to make a high strength bearing to support the. This delays the time to mount the ceiling module and shortens the construction process.

Accordingly, an object of the present invention is to simultaneously achieve the difficulty of the mounting work and the shortening of the construction process.

1 is a perspective view of a module structure according to an embodiment of the present invention.

Figure 2 is a schematic diagram showing the suspension operation situation of the module structure according to the embodiment of the present invention.

Figure 3 is a cross-sectional view of the side wall surface after mounting of the module structure according to an embodiment of the present invention.

Figure 4 is a cross-sectional view after the mounting and sidewall concrete pouring of the corridor module structure according to an embodiment of the present invention.

Figure 5 is a cross-sectional view after the concrete wall concrete pouring of Figure 4;

Explanation of symbols for the main parts of the drawings

1: steel column

2: iron plate

3: ceiling beam

4: deck plate

5: piping

6: lighting fixtures

7: duct

8: back muscle

9: bulkhead

9 ': Slow Dig

10: modular structure

11: crane

12: Support

According to the present invention, a modular structure is constructed by integrating a steel column and a ceiling beam installed at a construction site of a plant building, a device device equipped at the construction site, and a wall member constituting the side wall of the construction site. After the members constituting the body of the plant building are constructed up to the floor of the building, the module structure is suspended in the construction area to join the lower end of the pillar and the member, and then concrete is cast using the wall member as a mold. Then, thereafter, the construction method of the plant building in which the wall member is left on the side wall as a constituent member of the side wall is adopted, and in order to establish the construction, the present invention uses a steel column and a pillar of the construction site of the plant building. Ceiling beams, equipment equipment mounted on the construction site, and wall members serving as sidewalls of the construction site. It provides a modular structure used for the construction of a plant building incorporating the system.

EMBODIMENT OF THE INVENTION Below, the Example of this invention is described based on drawing.

1 shows an example of a modular structure 10 for building a room in a plant of a nuclear power plant.

The module structure 10 uses a steel column 1 made of steel frame made of H-type steel as shown in FIG. 1, and the side wall surface member is composed of two steel plates inside and outside of the steel frame column 1.

Each steel pillar 1 and the steel plate 2 use what was set by calculation based on this installation strength evaluation.

When the wall thickness of the side wall of the room is equal to the width of the H-shaped steel adopted as the steel column 1, the steel plate 2 can be directly welded to the H-shaped steel and attached integrally, but is larger than the width of the H-shaped steel. Is connected between the iron plate (2) by the I beam, or between the iron plate (2) or the iron plate (2) and H-shaped steel by the partition (9).

Instead of the partition 9, a swim divel 9 ′ that improves adhesion to concrete may be used for the same portion as the partition 9.

The steel column 1 and the ceiling beam 3 of the H-type steel are integrated with each other by welding or the like.

As shown in Fig. 1, the steel member constituting the room is connected by connecting the ceiling beam 3 designed by the present installation strength evaluation between the steel pillars 1 or connecting the steel beams 2 with the ceiling beam 3. Configure to be independent.

The deck plate 4 is mounted on the ceiling beam 3, and the reinforcement 8 is performed on it to set the pipe 5 embedded in the concrete wall of the ceiling.

Alternatively, the ducts of the lighting equipment, the piping and the air conditioning equipment attached to the ceiling are installed to be supported by the ceiling beam 3.

Taking the corridor of the plant room as an example, if there is piping mounted below the ceiling, for example, after the setting of the deck plate 4 as shown in Fig. 4, the support 12 is attached to the side wall member, the ceiling beam 3, or the like. It connects and sets, and the support 12 mounts the piping 25, the cable tray 26, and the duct 7. As shown in FIG.

Above the deck plate 4 is set the reinforcement 8 which is a component part of the reinforced concrete of the ceiling.

In addition, before setting the ceiling deck plate 4, it is possible to mount pipes and the like.

In the concrete structure, the ceiling wall was required to set the embedded steel to concrete when mounting the pipe. Thus, in the present embodiment, the pipe is mounted after the embedded steel is set. It can be set at the module stage before pouring concrete, and can be modularized as above.

In this way, the modular structure 10 is achieved.

While the modular structure 10 is being manufactured, the construction of the plant building is in progress, and the ceiling of the room immediately below the room to be constructed using the modular structure 10, i.e., using the modular structure 10 is constructed. A portion corresponding to the floor of the room is constructed, and this embodiment shows an example in which the lower-level ceiling concrete is already poured as shown in FIG. 3 before the module 10 is suspended.

In the lower floor, of course, steel pillars exist as members constituting the body of the plant building.

2 to 5 show a construction method using the module structure 10.

2 shows the suspension of the module structure 10 by the crane 11.

The module structure 10 is assembled into a yard at a manufacturing or assembly plant or a nuclear power plant construction site, and the crane structure 11 is suspended by a crane 11 at a predetermined position of a room position for plant construction.

If necessary, by performing a washing or a pressure test on the pipe which is a constituent member of the module structure 10 before the suspension of the module structure 10, the effort corresponding to performing the washing or the pressure test at a high place after the suspension is added. To alleviate dangerous work.

Before the suspension is put in, the beams 15 made of steel frame through the steel plate 2 between the steel pillars 1 so as not to be narrowed or widened beyond the design interval when suspended or laid down. Is connected.

In order to be able to suspend with the crane 11, the module structure 10 is attached with the suspension clasp etc. which a hanging wire hangs from a crane.

Further, in order to secure the strength at the time of suspension, it is reinforced with a temporary member, the beam 15, etc. as needed.

The module structure 10 suspended at the construction position of the room by the crane 11 is a lower part of the steel column 1 of the lower-level building already completed by the lower end of the steel column 1 of the module structure 10 by mechanical welding or bolting. Connected and mounted by joining. By mounting in this way, the lower steel column and the upper steel column are coupled in series to function as a series of through columns.

At this time, when the necessary space for welding the pillars or fastening the bolts between the steel plates 2 constituting the side wall surface is not secured, the steel plates 2 near the steel pillars 1 are cut in advance by the required area. Repair it so as to close the cutout immediately after welding and bolting is completed.

In addition, when there is a pillar other than the corner of the modular structure 10, it is necessary to cut the iron plate 2 in advance as well.

Next, as shown in Fig. 4, concrete is poured between the side walls of the module structure 10, that is, between the iron plates 2, respectively.

At this time of pouring, the iron plate 2 functions as a template for concrete pouring work.

In the manufacture of reinforced concrete, which is a conventional construction method, when pouring concrete on the side wall, the work involves enclosing the frame at the position of the side wall surface by bringing in a mold and at this time, Construction cannot be performed.

However, when the module structure 10 is used, the side wall member is pre-assembled and brought into the module structure 10 so as to serve as a mold. Therefore, the base of the floor is not required at this time without separately removing the mold and placing and placing the mold. The manufacturer's work, such as setting, carrying in of an apparatus, and setting can be performed.

Next, or in parallel with the concrete placing work of the side walls, concrete is placed in the wall area of the guarding unit.

5 illustrates a situation where the ceiling of the module structure 10 is poured into the wall.

In the deck plate method, the support ceiling beam 3 of the deck plate 4 is set at the time of the wall construction of the ceiling, and the deck plate 4 is constructed on the support ceiling beam 3, but the modular structure 10 Since the deck plate 4 is already set at the time of carrying in in the building, it is possible to pour the ceiling of the ceiling together with the concrete pouring of the side wall.

In addition, since the deck plate method, it is possible to put the equipment to be installed on the floor first before placing concrete, and if it is put first, the adverse effect of the concrete plate on the equipment that the deck plate is already brought to the floor To stop.

According to the above embodiment, the following benefits can be obtained.

By removing the floor from the constituent members of the modular structure, it is not difficult to carry out the mounting work such as concrete pouring into the floor or checking the existence of the cavity after the injection. As the assembly and disassembly work is lost, the steel frame and the steel plate are integrated in advance and brought into the mounting position in a room unit, which contributes to drastically reducing the number of mounting processes, shortening the construction process, and securing stability.

In the body construction, steel frame, deck plate, reinforcing bar, or buried pipe are integrated into the mounting position by uniting the room, which can contribute to drastically reducing the number of mounting processes, shortening the construction process, and securing safety. Construction of body construction can be carried out.

By fixing supporting structures, such as equipment and piping, to steel frames and steel plates, it is possible to eliminate the need for embedded steel into concrete, which is required for equipment and piping installation, and thus significantly reduce the number of mounting processes, shorten the construction process, and ensure safety. Can contribute to

No cleaning of pipes or pressure tests need to be performed at high places in unstable buildings, contributing to the safety of the work.

According to the invention, the bottom of the cause with the difficulty of mounting is removed from the module member, and the module itself can be supported by the strength of the assembly structure of steel and steel plate, and the wall member of the side wall also serves as a concrete mold The construction process can be shortened.

According to the second aspect of the present invention, in addition to the effect according to the first aspect of the present invention, it is possible to safely and easily carry out the cleaning or the pressure resistance test of the device constituting the module structure, which makes it possible to further shorten the construction process.

According to the third aspect of the present invention, in addition to the effects according to the first or second aspect of the present invention, a wall member of an area adjacent to the area currently being constructed can be simultaneously brought in to further shorten the construction process.

According to the fourth aspect of the present invention, in addition to the effect according to the third aspect of the present invention, the concrete placing portion can be surrounded by inner and outer wall members to perform concrete pouring work. do.

According to the fifth aspect of the present invention, in addition to the effect of the invention according to any one of claims 1 to 4 can be combined with the lower layer can be performed by the pillars between the work to reduce the work to perform the reinforcement to the joining site is facilitated, The construction process can be further shortened.

According to the sixth aspect of the present invention, since the module structure is reinforced so that deformation or collapse does not occur when the module structure is suspended or suspended or laid down, the deformation or collapse is performed. Suspension work can be performed quickly without worry, which shortens the construction process of the floor.

According to the seventh aspect of the present invention, in addition to the effect according to any one of claims 1 to 6, the equipment is mounted on a support, and the support is attached to the wall member of the side wall regardless of the position of the pillar and brought into the mounting position at once. Since the construction process can be shortened, the support position can be arbitrarily set irrespective of the position of the column.

According to the eighth aspect of the present invention, it is possible to provide a modular structure which is easy to be mounted on a plant building and which can shorten the construction process.

According to the invention of claim 9, the effect of the invention according to the invention of claim 8 can be brought in at the same time as the wall member of the area adjacent to the area under construction, and the wall members on both sides function as a frame of both sides of the side wall when pouring the sidewall concrete. Therefore, the construction process can be shortened.

According to the present invention, since the reinforcing member increases the strength of the module structure in addition to the effects according to the invention of claim 8 or claim 9, the module structure is suspended at the construction target position to prevent the deformation or collapse of the module structure when mounted, You can make progress.

According to the eleventh aspect of the present invention, in addition to the effects according to the eighth or ninth or tenth aspect of the invention, it is possible to provide a module structure capable of arbitrarily setting the support position irrespective of the column position within the range of the side wall wall member.

Claims (11)

A modular structure is formed by integrating steel pillars and ceiling beams installed in the construction site of the plant building, the device equipment mounted on the construction site, and wall members serving as sidewalls of the construction site, and forming the module structure. After the members constituting the body of the plant building are constructed, the module structure is suspended in the construction area to join the lower end of the column and the member, and then the concrete is poured into the wall member as a mold, and then And the wall member is left on the side wall as a component of the side wall. The method for constructing a plant building according to claim 1, wherein the cleaning or pressure test of the apparatus constituting the modular structure is carried out before the suspension is introduced. The plant building according to claim 1 or 2, wherein as a constituent member of the module structure, the steel column is sandwiched to have wall members on the inner side and the outer side, and the outer wall member is a wall member of an adjacent construction site. Method of construction. The method for constructing a plant building according to claim 3, wherein concrete is poured between each of the inner and outer wall members. The plant building according to any one of claims 1 to 4, having a steel column as a constituent member of a modular structure, and combining the column in series with a steel column constituting a lower body in a position for mounting the module structure. Construction method of a plant building, characterized in that the coupling of the body and the steel column of the modular structure. The method for constructing a plant building according to any one of claims 1 to 5, wherein the modular structure is suspended in such a manner as to reinforce the module structure so as not to collapse. The method for constructing a plant building according to any one of claims 1 to 6, wherein a modular structure is constructed by connecting a support to the wall member of the side wall and mounting the equipment installed on the construction site to the support. . A modular structure for use in the construction of a plant building, characterized by integrating a steel column and a ceiling beam of a construction site of a plant building, a device facility equipped to the construction site, and a wall member serving as a sidewall of the construction site. The modular structure according to claim 8, wherein the wall member is provided at both sides by sandwiching the pillar. 10. The modular structure according to claim 8 or 9, wherein a reinforcing member is attached between the plurality of structural members constituting the modular structure. The modular structure according to any one of claims 8 to 10, wherein a support is connected to the wall member of the side wall, and the support is equipped with an equipment installed on a construction site.