KR20150119570A - Prefab double wall using truss deck and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a prefabricated hollow wall using a truss deck and a method for manufacturing the same. According to the present invention, a prefabricated hollow wall is manufactured in advance, wherein the lower part is formed of concrete and the upper part is formed of a truss deck to be spaced apart from each other around a hollow in the center in a parallel manner. Therefore, concrete is poured into the hollow of a prefabricated hollow wall in the field to form a wall. According to an embodiment of the present invention, the prefabricated hollow wall using a truss deck comprises: a bottom plate formed of concrete to have predetermined area and thickness; and a truss deck which includes a deck plate shaped into a plate having a predetermined thickness and a truss girder fixed to and installed on the upper surface of the deck plate in a longitudinal direction and allows the bottom plate and the deck plate to be spaced apart from each other in parallel around the hollow by burying the upper part of the truss girder in the bottom plate at a predetermined length.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a prefab hollow wall using a truss deck,

The present invention relates to a prefabricated hollow wall utilizing a truss deck, and more particularly, to a prefabricated hollow wall having hollow at its center and spaced apart in parallel, one side being made of concrete and the other side being made of truss deck The present invention relates to a prefabricated hollow wall using a truss deck which can be used to form a wall by pouring concrete into a hollow of a prefab hollow wall in the field and a method of making the same.

In general, as shown in FIG. 7A, the PC hollow wall has a hollow 8 formed at a central portion thereof and has an upper plate 6 and a lower plate 7 formed of precast concrete parallel to each other, It is installed vertically and is used as a wall by pouring concrete into the hollow.

As shown in FIG. 7 (b), a horizontal reinforcing bar 61 and a vertical reinforcing bar 62 are disposed inside a mold for manufacturing the top plate 6 , And the lattice root (63).

Thereafter, as shown in Fig. 7B (b), concrete is poured and cured in the formwork to complete the top plate 6.

Thereafter, as shown in Fig. 7 (c), the top plate 6 is rotated 180 degrees by using a mechanical device so that the lattice muscle 63 faces downward.

7 (d), a horizontal reinforcing bar 71 and a vertical reinforcing bar 72 for constructing the lower plate 7 are disposed in the formwork, concrete is laid, and the unfrozen bottom plate 7 And the lower plate 7 is formed by curing the lattice root 63 by placing the lattice root 63 of the upper plate 6 at a predetermined depth.

Finally, it lifts vertically through the lifting machine and constructs it as a wall.

However, according to the conventional manufacturing method as described above, since the concrete must be poured over the upper and lower plates twice, there is a problem that the manufacturing time is long, and a separate molding system is required for rotation after forming the top plate . In addition, since both the upper plate and the lower plate are formed of precast concrete and are heavy in weight, they are difficult to be conveyed. If the joining portions with the transverse members such as slabs or beams are not processed and fabricated, There is a problem that the strength of the horizontal member is insufficient and a construction error with the horizontal member occurs even after the linear processing.

As a background of the present invention, there is a patent registration No. 0704342 entitled "Hollow concrete structure and multi-layered structure using the same" (patent document 1). 8, a rectangular parallelepiped having a top plate 12, a bottom plate 14 and four side plates 16 is formed with a hollow portion 20 therein. The top plate 12 and the bottom plate The lower end of the truss girder 30 is embedded in the lower plate 14 and the lower end of the truss girder 30 is connected to the upper plate 12. [ 12 is provided with a buffer pad 12b on the bottom surface of the concrete structure.

However, the background art uses a concrete structure having a closed-end face structure having a rectangular parallelepiped to have excellent soundproofing and vibration proofing properties by the hollow portion, and has a closed end face structure in a rectangular parallelepiped shape It is difficult to fabricate the joint between the slab and the beam by using the concrete as a lightweight wall and cast concrete into the hollow or by placing the concrete at the same time with the slab or beam. There is a problem that post-processing of the wall is difficult.

Patent No. 0704342 entitled "Hollow concrete structure and multi-layered structure using the same"

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a truss deck which is constructed by placing a concrete deck on a floor and a parallel upper deck, The deck plate of the truss deck is cut when the transverse members such as the slab and the beam are coupled and the transverse member such as the beam or the slab is pulled into the cut portion to join the truss deck to the truss deck. A prefabricated hollow wall is provided utilizing a truss deck to ensure the integrity of the joint between the hollow wall and the transverse member beam or slab by placing the concrete so as to have a strength similar to that of the existing RC structure, There is a purpose.

In addition, since the hollow wall can be manufactured only by the installation of the bottom plate 1, the manufacturing method is very easy, and the production period is greatly shortened. In addition, the prefab hollow wall And a manufacturing method thereof.

The present invention relates to a floor panel comprising a bottom plate formed of concrete so as to have a predetermined area and a predetermined thickness; A deck plate having a predetermined thickness and a truss girder fixedly mounted on the upper surface of the deck plate in the longitudinal direction, wherein the upper portion of the truss girder is embedded in the bottom plate at a predetermined depth, And a truss deck formed to be spaced apart from the deck plate.

Further, the deck plate may be formed of a steel plate or plywood.

The deck plate may be configured to cover the upper surface of the bottom plate, and the deck plate may be formed between the upper and lower surfaces of the deck plate. The deck plate may have a predetermined height So that a connector having a predetermined thickness in the transverse direction can be formed.

(A) installing a mold on the floor and placing reinforcing bars in the mold; (b) forming a bottom plate by pouring concrete into the formwork; (c) Before the bottom plate is hardened, the deck plate of the truss deck goes up and the truss girder is turned upside down. (d) The bottom of the truss deck of the truss deck is inserted into the deck at a certain depth To a predetermined height; and (e) after the curing of the bottom plate is completed, removing the bottom plate from the mold to complete the curing process. The present invention also provides a method of manufacturing a pre-fabricated hollow wall using the deck plate.

The prefab hollow wall utilizing the truss deck of the present invention is formed by using a truss deck to form a top plate in which concrete is laid on the bottom of the bottom plate and parallel to the top in a parallel manner, And the truss deck can be used in place of the mold.

In addition, the pre-fabric hollow wall utilizing the truss deck of the present invention can be manufactured by cutting a deck plate of a truss deck when a transverse member such as a slab or a beam is engaged to draw a transverse member such as a beam or a slab into an incised portion It is possible to secure the unity of the joint between the hollow wall and the transverse member, or the slab, so that it has a very useful effect of having strength similar to that of the joint of the existing RC structure.

In addition, since the hollow wall can be manufactured only by inserting the bottom plate 1, the manufacturing method is very easy, and the manufacturing time is greatly shortened.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
1 is a perspective view of a first embodiment of a pre-fabric hollow wall utilizing a truss deck of the present invention.
2 is a cross-sectional view taken along line AA of FIG.
3 is an exploded perspective view of a second embodiment of the pre-fabric hollow wall utilizing the truss deck of the present invention.
4 is a cross-sectional view along the BB line in the coupled state of FIG.
5 is a perspective view of an embodiment in which a connection hole 211 of a prefabricated hollow wall utilizing a truss deck of the present invention is formed, and a cross-sectional view of a construction embodiment using the same.
FIG. 6 is a view showing steps of a method for manufacturing a prefabricated hollow wall utilizing a truss deck according to the present invention.
7 is a perspective view of a conventional pre-fabric hollow wall and a method of manufacturing a conventional pre-fabric hollow wall.
8 is a perspective view of a conventional concrete structure.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

 Hereinafter, the technical structure of the present invention will be described in detail with reference to the preferred embodiments.

1 is a perspective view of a prefabricated hollow wall utilizing a truss deck of the present invention.

As shown in FIG. 1, the prefab hollow wall 1 utilizing the truss deck of the present invention comprises a bottom plate 10 formed of precast concrete, And a hollow 30 is formed between the bottom plate 10 and the truss deck 20. As shown in FIG.

The prefabricated hollow wall 1 utilizing the truss deck of the present invention is vertically erected at the time of field use and is used as a wall by placing concrete in the hollow 30.

2 is a sectional view taken along the line A-A in Fig.

Since the bottom plate 10 is formed of concrete so as to have a predetermined area and a predetermined thickness and is manufactured in the factory in advance, the area and the thickness can be variously formed according to the site to be installed.

The deck plate 21 of the truss deck 20 is directed upward and the truss girder 22 is positioned downward so that the truss girder 22 is positioned downward, (22) is formed to be embedded at a certain depth on the upper surface of the bottom plate (10).

Therefore, the bottom plate 10 and the deck plate 21 are formed parallel to each other at a predetermined interval, and a space, that is, a hollow 30 is formed between the bottom plate 10 and the deck plate 21.

FIG. 3 is a perspective view of a second embodiment of a pre-fabric hollow wall utilizing the truss deck of the present invention, and FIG. 4 is a sectional view taken along line B-B of FIG.

As shown in FIGS. 3 and 4, the bottom plate 10 can be formed with the edge portions 11 and 11, the upper surfaces of which oppose each other at a predetermined height.

That is, the truss deck 20 is formed to have a hollow U-shaped cross section and the upper part thereof is formed to cover the truss deck 20 like a lid, so that the fore and aft hollow walls 1) and pouring concrete into the hollow 30 so that the concrete which is poured into the hollow 30 does not leak out.

At this time, the deck plate 21 of the truss deck 20 is formed at the same position as the upper end of the fore and aft deck 11, and the deck plate 21 covers the upper surface of the bottom plate 10, (11).

The truss deck 20 includes a plate-shaped deck plate 21 having a predetermined thickness designed to withstand the self weight and the installation load of the concrete placed in the hollow 30 when the wall is constructed, And a truss girder (22) fixed in the longitudinal direction on the upper surface of the truss girder (21).

The truss girder 22 may be formed in various shapes having a truss structure, and a typical truss girder is utilized in the illustrated embodiment. In general, a conventional truss girder includes a pair of lattices 221 disposed opposite to each other with a predetermined waveform, a plurality of reinforcing bars provided respectively at upper and lower portions of the lattice, that is, upper reinforcing bars 222 and lower reinforcing bars 223 ).

The deck plate 21 may be formed as a flat plate or may have a waveform formed at regular intervals.

5 is a perspective view of an embodiment in which a connection hole 211 of a prefabricated hollow wall utilizing a truss deck of the present invention is formed, and a cross-sectional view of a construction embodiment using the same.

As shown in FIG. 5A, the deck plate 21 can be formed in various materials and shapes. Generally, the deck plate 21 is formed using a steel plate. The deck plate 21 is cut into a predetermined thickness at the time of constructing the wall, The connection member 211 can be formed so that the connection of the transverse member of the slab S or the like to the connection hole 211 can be facilitated.

5b, the pre-fabric hollow wall 1 utilizing the deck plate of the present invention is vertically erected and the end joints of the transverse members such as the beams S or slabs are connected to the connection holes 211 The concrete is inserted into the hollow 30 and the transverse member of the prefabricated hollow wall 1 using the deck plate so that the hollow wall and the transverse member It is possible to ensure the integrity of the joining portion with the beam or the slab and to have a strength similar to that of the joining portion of the existing RC structure.

The deck plate 21 can be easily fabricated by using a known method such as a plasma cutting machine even after manufacturing the prefabricated hollow wall 1 by coupling the truss deck 20 to the bottom plate 10 However, in the case of pre-fabric hollow walls in which conventional precast concrete is formed in parallel, it is difficult to process the joints of the transverse members after the fabrication is completed, There is a problem that a construction error of the light source occurs.

 Also, the deck plate 21 may be formed of a plywood, and concrete may be installed in the hollow 30 to remove the plywood deck plate 21 after completion of the construction of the wall, so that the deck plate 21 may be used as a substitute for the formwork.

When the deck plate 21 is formed of a steel plate, the steel plate is left without being separately removed to form a wall. Cracks and the like of the concrete placed in the hollow 30 may not be seen. If work is required, the concrete surface of the constructed wall must be exposed. Therefore, the deck plate 21 is formed of a plywood plate, so that the deck plate 21 can be easily removed after the wall is formed.

FIG. 6 is a view showing steps of a method for manufacturing a prefabricated hollow wall utilizing a truss deck according to the present invention.

6, a method of manufacturing a pre-fabricated hollow wall utilizing the deck plate of the present invention will be described in detail as follows.

6A, a mold is installed on the floor, a reinforcing bar 51 is placed in the mold, a reinforcing bar 51 is laid on the mold, concrete is laid on the bottom plate 10, (B).

A mold is provided to have a predetermined area and thickness for forming the bottom plate 10, a reinforcing bar 51 formed inside the bottom plate 10 is placed inside the mold, and concrete is poured into the mold.

In the present invention, in order to manufacture the prefabricated hollow wall 1, the concrete may be laid only once to form the bottom plate 10. At this time, the next step is performed before the concrete forming the bottom plate 10 is hardened.

6B, before the bottom plate 10 hardens, the deck plate 21 of the truss deck 20 goes up and the truss girder 22 is turned upside down so as to face downward c).

In the conventional prefab double wall, since the bottom plate is cured and then turned 180 degrees again to cure the top plate, it takes a long period of time to manufacture and a molding system for rotating the first precast is required. In the present invention, however, 10, the truss deck 20 may be turned upside down and coupled.

6 (c), the lower portion of the truss girder 22 of the truss deck 20 is fixed at a predetermined height so as to be embedded in the bottom plate 10 at a predetermined depth, as shown in FIG. 6C.

The other end of the truss girder 22 of the truss deck 20 is connected to the deck plate 21 so that only the other end of the truss girder 22 is embedded in the bottom plate 10 to a certain depth, .

At this time, the gap between the upper surface of the bottom plate 10 and the deck plate 21 of the truss deck 20 becomes the hollow 30.

Finally, after the curing of the bottom plate 10 is completed, the bottom plate 10 is removed from the mold to complete (e).

When the curing is completed in this way, the wall is vertically erected using a lifting machine or the like.

As described above, the prefabricated hollow wall utilizing the truss deck of the present invention is formed by using the truss deck to form the top plate, in which the bottom plate is laid on the floor and the upper plate is parallel to the upper side, And the truss deck can be used in place of the mold.

In addition, the pre-fabric hollow wall utilizing the truss deck of the present invention can be manufactured by cutting a deck plate of a truss deck when a transverse member such as a slab or a beam is engaged to draw a transverse member such as a beam or a slab into an incised portion It is possible to secure the unity of the joint between the hollow wall and the transverse member, or the slab, so that it has a very useful effect of having strength similar to that of the joint of the existing RC structure.

In addition, since the hollow wall can be manufactured only by inserting the bottom plate 1, the manufacturing method is very easy, the manufacturing time is greatly shortened, and there is no need of additional equipment in the manufacturing stage, which is very economical and very useful.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

1: Prefabricated hollow wall
10: bottom plate
20: Truss deck
21: Deck plate
22: Truss girder
30: hollow
51: Rebar

Claims (6)

A bottom plate 10 made of concrete having a predetermined area and a predetermined thickness;
Shaped deck plate 21 having a predetermined thickness and a truss girder 22 fixed in the longitudinal direction on the upper surface of the deck plate 21,
A truss deck 20 is formed such that the upper part of the truss girder 22 is embedded in the bottom plate 10 and the bottom plate 10 and the deck plate 21 are spaced apart in parallel with the hollow 30 having a predetermined interval, ; And a prefabricated hollow wall utilizing a deck plate. The method according to claim 1,
The deck plate (21) is a steel plate. The method according to claim 1,
Wherein the deck plate (21) is a plywood plate. The method according to claim 1,
The bottom plate 10 is formed with the edge portions 11 and 11 each having the upper surface of the opposing end portions protruding at a predetermined height,
The deck plate (21) is arranged between the edge portions (11) (11) so as to cover the upper surface of the bottom plate (10). The method according to claim 1,
The deck plate (21) has a connecting hole (211) cut at a predetermined height in a transverse direction to a predetermined thickness. (a) installing a mold on a floor and laying a reinforcing bar (51);
(b) forming a bottom plate (10) by pouring concrete into a mold;
(c) balancing the deck plate 21 of the truss deck 20 to go up and the truss girder 22 to be turned downward before the bottom plate 10 hardens;
(d) fixing the lower portion of the truss girder 22 of the truss deck 20 at a predetermined height so as to be embedded in the bottom plate 10 to a certain depth;
(e) removing the bottom plate (10) from the mold after completion of curing of the bottom plate (10).

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