KR20180031258A - Framework structure for cleanroom building and construction method thereof - Google Patents

Abstract

The present invention relates to a framework structure of a clean room building of a semiconductor factory, and a construction method thereof. The framework structure of a clean room building of a semiconductor factory according to an embodiment of the present invention includes a main pillar, a PC stud installed between the main pillars, a PC grid beam support beam, and a PC unit grid beam. The method for constructing a framework of a clean room building of a semiconductor factory according to an embodiment of the present invention includes a main pillar construction step, a stud construction step, a PC grid beam support beam assembly step, a PC grid beam support beam bonding part construction step, a PC unit grid beam assembly step, and a PC unit grid beam bonding part construction step. Therefore, the present invention can greatly improve resistance performance against vibration.

Description

TECHNICAL FIELD The present invention relates to a frame structure of a clean room structure of a semiconductor factory,

The present invention relates to a structure of a frame of a clean room of a semiconductor factory and a construction method thereof,

Especially, the structure of the frame structure of the clean room building, which is constructed by prefabrication, and the construction method thereof are efficiently improved,

Precast Concrete (PC) Unit As a whole, the clean room structure that is constructed by joining the lattice beams greatly improves the structural integrity of the building to improve rigidity and improve resistance to vibration. To a frame structure and a construction method thereof.

Generally, since a clean room of a semiconductor factory is very vulnerable to vibration,

The structures forming the clean room are required to have high resistance to vibration.

The structure of the clean room of the semiconductor factory has been built up by the prefabricated construction method which is mainly made by PC and assembled in the field,

As shown in Figs. 1 to 3,

In the state where the four corners of the adjacent PC unit lattice beams are placed on top of the PC lattice columns, only the reinforcing bars protruding from the four corners of the PC unit lattice beam are connected through the coupler, and the joints of these four PC lattice columns are filled with mortar And the adjacent PC unit grid beams are coupled to each other,

The structural integrity of the coupling between the PC unit grid beams is not sufficient and there has been a limitation in increasing the resistance to vibration in a clean room.

Document 1. Domestic Patent Registration No. 10-0392188 (issued on July 22, 2003) Document 2. Patent Registration No. 10-0633471 (published on October 13, 2006) Document 3. Patent Registration No. 10-0855547 (Announced on September 1, 2008)

The present invention has been made in view of the problem that the rigidity of the structure of the frame structure and the construction method of the conventional semiconductor factory clean room structure is decreased and the resistance to vibration is lowered when the integrity of the structure is decreased.

SUMMARY OF THE INVENTION It is an object of the present invention to efficiently improve the frame structure and the construction method of a semiconductor factory clean room structure,

By combining the PC unit lattice beams, it is possible to greatly improve the structural integrity of the clean room building to build rigidity,

And to provide a frame structure of a clean room structure of a semiconductor factory and a construction method thereof, which have improved resistance to vibration in a clean room.

To this end,

The present invention improves the frame structure and construction method of a clean room building of a semiconductor factory,

A main column installed on the bottom surface of the building by PC or laying on the floor,

A PC column extending between the main column and the main column,

A sleeve is installed on the body so that a protruded reinforcing bar can be inserted into the upper part of the PC septum. The reinforcing bars are grouted with a non-shrinking mortar in a state where the reinforcing bars are inserted and are integrated with the PC seam, A PC grid beam supporting beam connected with the coupler, the PC grid beam being integrally assembled with the concrete members or the mortar filled members,

In order to integrate the PC grid girder support beams, the reinforcing bars protruded from both sides of the opposite side of the PC grid girder support ribs and the ribs of the support ribs of the PC grid support ribs The reinforcing bars are inserted between the reinforcing bars protruding from both sides and the supports of the PC grid beam support beams, and the PC grid beam support beams are sandwiched between the side surfaces and the side surfaces of the PC grid beam support beams, The concrete structure of the PC unit lattice beam and the construction method thereof are such that the concrete is poured and filled in the space where the shrinkage mortar is formed, and the shrinkage mortar is grouted on the shear key installed on the front and rear sides of the adjacent members.

A frame part of a clean room structure in which PC grid lattices are combined and constructed,

By enhancing the bonding between the PC unit lattice beams, the structural integrity of the clean room building is greatly improved,

The structure of the frame structure of the clean room structure of the semiconductor factory and the construction method thereof can be provided by improving the rigidity of the semiconductor room to improve the resistance to vibration in the clean room.

A frame structure of a clean room structure of a semiconductor factory of the present invention and a construction method thereof are a frame part of a clean room structure in which a PC unit lattice beam is combined,

By enhancing the bonding between the PC unit lattice beams, the structural integrity of the clean room building is greatly improved,

There is an effect of greatly improving the resistance to vibration in a clean room.

1 is a perspective view showing a construction state of a frame part of a conventional clean room building,
FIGS. 2 and 3 are photographs of construction of a frame part of a conventional clean room structure,
FIG. 4 to FIG. 16 are perspective views showing the construction of the frame part of the cleanroom building according to the present invention step by step,
17 is a process flow diagram of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a frame structure and a construction method of a semiconductor factory clean room structure according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 4 to FIG. 16 are perspective views showing the construction of the frame part of the cleanroom building according to the present invention step by step,

17 is a process flow chart of the present invention,

The frame of the clean room structure of the semiconductor factory of the present invention,

A main column 1 constructed by placing a PC or a field on the floor of a building,

A PC beam column 7 erected between the main column 1 and the main column 1,

A sleeve 11 is installed on the body so that the protruded reinforcing bars 5 can be inserted into the upper part of the PC sheathing column 7. The reinforcing bars 5 are inserted into the sleeve 11 and grouted with no shrinking mortar The molds 21 are integrated with the PC columns 7 and the reinforcing bars 15 and 15 'protruded from both ends are connected to each other by the coupler 19, and then the concrete or mortar- A PC grid beam supporting beam 9,

The PC grid beam supporting beam 9 is provided on the lower surface of the upper side of the PC grid beam supporting beam 9 with a plurality of through holes 24 formed on the lower side of both sides thereof. The reinforcing bars 25 and 25 protruding from both sides of the reinforcing bars 25 and 25 of the PC grating support beam 9 and the reinforcing bars 25 and 25 of the PC grating support beam 9, The reinforcing bars 27 are inserted between the PC grid beam supporting beams 9 and 17 and the space between the side and side surfaces of the facing members and the upper part of the PC grid beam supporting beam 9, And the PC unit grid beam 23 is formed by grooving the non-shrinkage mortar on the shear keys 29 and 29 'provided on the front and rear sides of the adjacent members.

In the frame structure of the semiconductor factory clean room structure of the present invention,

During construction, it is done through the following process.

Main column construction process

The main column (1) is placed on the bottom surface of the building by PC or laying in place with the reinforcing bars (3) protruding upward.

PCSat column assembly process

A PC column (7) having reinforcing bars (5) protruded upward is assembled at a predetermined interval between the main column (1) and the main column (1).

PC grid beam support beam assembly process

A PC grid beam supporting beam (9) is assembled on the upper part of the PC beam (7).

The PC grid bracket supporting beam 9 is provided with several sleeves 11 on its body and reinforcing bars 15 and 15 'and a ridge 17 protrude horizontally and vertically from both ends and upper portions thereof,

The hollow space of the sleeve 11 is grouted with no shrinkage mortar in a state where the reinforcing bar 5 of the PC shank 7 is inserted into the sleeve 11. [

PC Grating Beam Support Beam Connection Construction

The mold 21 is installed in a state where the reinforcing bars 15 and 15 'of the PC grid beam supporting beam 9 and the PC grid beam supporting beam 9 are connected by the coupler 19 and the concrete or mortar Charge.

PC unit grid beam assembly process

As shown in FIG. 9, the upper end of the PC grid support beam 9 is assembled in a state in which the lower end of each side of the PC unit grid beam 23 is laid over the upper closure 24.

PC unit lattice beam joint construction process

The reinforcing bars 25 and 25 'projected from both sides of the PC unit grid beam 23 facing the PC grid beam supporting beam 9 and the rib 17 of the PC grid beam supporting beam 9 10 to 14, a reinforcing bar 27 is sandwiched between the protruding reinforcing bars 25 and 25 'and the reinforcing bar 17 in a state of being engaged with each other, Concrete is poured and filled in the space between the side and side of the PC grid lattice beam 23 and the upper part of the PC lattice beam supporting beam 9,

As shown in Fig. 15, the shrink-free mortar is grouted in the front and rear surface shear keys 29 and 29 'of the adjacent PC unit lattice beam 23 in the front and rear, thereby forming the PC unit lattice beam 23, And the construction of the frame of the clean room building is completed.

The structure of the frame structure of the semiconductor factory clean room structure and the method of construction thereof according to the present invention,

The PC grid beam supporting beam 9 is placed on the upper part of the PC beam column 7 constructed between the main column 1 and the main column 1 and the reinforcing bars 5 on the upper part of the PC beam are connected to the PC grid beam supporting beams 9 The sleeve 11 is grouted into a non-shrinking mortar in a state where the sleeve 11 is inserted into the sleeve 11,

The molds 21 are installed in the state where the reinforcing bars 15 and 15 'are connected to each other by the PC grid supporting beams 9 which are butted against each other and are filled with mortar or concrete,

The PC grid beam support beam 9 is mounted on the upper end surface of the PC grid beam support beam 9 in a state in which the gate grid beam 24 formed on the lower ends of both side surfaces of the PC unit grid beam 23 is laid over the PC grid beam support beam 9 The reinforcing bars 25 and 25 'protruding from both sides of the opposing PC unit grid beam 23 and the reinforcing bars 25 and 25' of the PC grid beam supporting beam 9, And the PC grid beam support beam 9 is inserted between the side and side surfaces of the PC unit grid beam 23 facing the PC grid beam support beam 9, The concrete is poured and filled in the space formed by the upper part of the upper part,

Since the shrink-free mortar is grouted on the front and rear surface shear keys 29 and 29 'of the adjacent PC unit grid beam 23 in the front and rear,

By strengthening the bonding of the PC unit lattice beams in the frame part of the clean room building where the PC unit lattice beams are combined, the structural integrity of the clean room building is greatly improved,

It is effective to greatly improve resistance to vibration in a clean room by increasing rigidity.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, the PC grid beam support beam 9 and the PC unit grid beam 23 can be modified into various other shapes for the same purpose, and the technical scope of the present invention is not limited to the embodiments.

1: Main column
3, 5, 15, 15 ', 25, 25', 27:
7: PC shat column
9: PC grid support beam
11: Sleeve
17: Retaining
19: Coupler
21: Form
23: PC unit grid
24: Girls sleep
29, 29 ': Shekel

Claims (2)

A main column 1 installed on the bottom surface of the building by PC or laying the floor,
A PC beam column 7 erected between the main column 1 and the main column 1,
The reinforcing bars 5 protruding from the upper portion of the PC sheath post 7 are inserted into the sleeve 11 provided on the body and are grooved by the non-contraction mortar to be integrated with the PC sheath post 7, A PC grid beam supporting beam 9 in which reinforcing bars 15 and 15 'are connected to a coupler 19 and the formers 21 are installed and filled with mortar or concrete,
The PC grid beam support beam 9 is mounted on the upper end face of the PC grid beam supporting beam 9 in a state in which the through hole 24 formed at the lower ends of both side faces of the PC unit grid beam 23 is laid over the PC grid beam supporting beam 9, The reinforcing bars 25 and 25 'protruding from both sides of the PC unit grid beam 23 and the rib 17 of the PC grid beam supporting beam 9 are connected to each other with the reinforcing bars 25 and 25' The reinforcing bars 27 are inserted between the racks 17 and between the side and side surfaces of the PC unit lattice beam 23 opposed to each other with the PC lattice beam supporting beam 9 interposed therebetween, The concrete is poured and filled in the upper space and the shrinkage mortar is grouted on the front and rear surface shear keys 29 and 29 'of the front and rear adjacent PC unit lattice beams 23 to form the entire PC unit lattice beam 23, Wherein the frame structure of the clean room structure of the semiconductor factory is integrated. A main column construction step of constructing a main column 1 on the bottom surface of the building by PC or laying in place,
A step of assembling the columnar column 7 between the main column 1 and the main column 1,
The PC grid beam supporting beam 9 is inserted into the sleeve 11 provided on the body and the reinforcing bars 5 protruded on the upper part of the PC beam column 7 are placed on the upper part of the PC beam column 7, A PC grid beam supporting beam assembly process for grouting,
A PC grating for installing a mold 21 in a state where the reinforcing bars 15 and 15 protruded from both ends of the butted PC grid support beam 9 are connected by a coupler 19, A supporting beam joining step,
A PC unit grid beam assembling step of assembling the PC grid beam supporting beam 9 in a state in which the upper and lower surfaces of the PC grid beam support beams 9 are laid over the lower end portions of both side surfaces of the PC unit grid beam 23,
The reinforcing bars 25 and 25 'projected from both sides of the PC unit grid beam 23 facing the PC grid beam supporting beam 9 and the rib 17 of the PC grid beam supporting beam 9 A reinforcing bar 27 is sandwiched between the reinforcing bars 25 and 25 and the reinforcing bars 27 and the reinforcing bars 27 and 27 of the PC unit grid bar 23 facing each other with the PC grid supporting beam 9 interposed therebetween The space between the side surface and the side surface and the upper part of the PC grid beam supporting beam 9 is filled with mortar or concrete and the front and rear surface shear keys 29 and 29 'of the front and rear adjacent PC grid gratings 23 And a PC unit lattice beam jointing step of integrating all of the PC unit lattice beams 23 by grouting the non-shrinkage mortar.

Images