KR20090090611A - Half precast composite slab and this production technique - Google Patents

Abstract

A half precast composite slab and a method of manufacturing the same are provided to increase freedom in design of buried material for half precast cover plate by employing corrugated steel sheet as the buried material. A half precast composite slab(S) comprises a cover plate(C) and a deck plate(D). The cover plate is formed by pouring and curing concrete(20) on a reinforcement mesh which is made up of reinforcing bars arranged in lattice. The deck plate comprises a corrugated steel sheet(30) buried in the cover plate in part, truss chords(40) composed of horizontal and inclined chords(42,44) welded to the corrugated steel sheet perpendicularly, supporting chords(50) welded to both ends of the corrugated steel sheet, upper and lower chords(60,70) arranged on the upper and lower sides of the truss chords, and an auxiliary chord(80) welded in order to mutually support the truss chords.

Description

Half precast composite slab and this production technique

The present invention relates to a half precast synthetic slab and a method for manufacturing the same, and in particular, a half precast synthetic slab provided with a deck plate on a precast top plate used in combination with a conventional method or a steel structure as well as a precast concrete method and its It relates to a manufacturing method.

Recently, various construction methods have been introduced in the field of construction to promote the rationalization and systemization of field work aimed at securing a certain quality, shortening construction period, and cost reduction. have.

The characteristic of such a precast method is that the member is produced in advance in the factory, and there is a great advantage in terms of energy saving and cost by mass production.

In particular, in the precast method, the top plate and the wall are precast, and among them, the top plate corresponds to the widest working range among the structural works, and thus, many types of pre-cast plates and intangible frames are developed and put into practical use.

In the case where the precast top plate is a structural cross section, the quality securing of the joining method for securing the integrity on the precast joining surface is an important point.

For example, in the case of using a full precast top plate in which the entire top plate is precast, the joints between the top plates are loose, and the top plate rigidity and strength cannot be sufficiently secured, and sufficient performance for sound insulation, water resistance, fire resistance, etc. is secured. It becomes difficult to do

For this reason, in recent years, the structure was constructed by using a half precast top plate in the apartment house.

Here, the half precast top plate is a top plate which precast a part of the cross section of the full precast top plate, and is installed between the pillar and the pillar in the field, and then the rebar is placed on the remaining cross section, and the concrete is poured into the slab. By integrating, it is possible to supplement the disadvantages of the full precast top plate, which is difficult to secure structural integrity, and has an excellent advantage in construction.

The conventional half precast upper plate as described above has a structure in which the upper end and the lower end welded to the truss root are partially embedded in the precast concrete plate.

However, the rebar truss used as the embedding material in the conventional half precast top plate is complicated to bend and process a large number of rebars, and is fabricated by welding and assembling them into the truss, thus greatly increasing the processing labor and mass production. There is a limit to the advantages in terms of saving power and cost.

Therefore, the present invention has been made to solve the problems described above, by using a factory product that is standardized for rationalization of construction, high-quality construction and shortening the air, by minimizing waste materials generated during conventional formwork An object of the present invention is to provide a half precast synthetic slab and a method of manufacturing the same, which are environmentally friendly and have improved workability.

Half precast synthetic slab according to the present invention for achieving the above object is a rebar reinforced longitudinally and horizontally reinforcing bar made of a horizontal lattice shape, and the concrete plate having a certain strength on the reinforcing steel reinforcement; A certain portion is embedded on the surface of the upper plate and at the same time, a corrugated steel sheet having a wavy shape is welded on the corrugated steel sheet in a orthogonal direction, and at the same time, the rebar is processed to repeat horizontally and inclined muscles in a triangle shape. The truss roots formed, support roots welded to a plurality of end portions of the rupture steel plate, upper and lower roots, and truss roots, which are welded to both sides of the support roots and disposed above and below a triangular vertex of the truss roots. Characterized in that it consists of a deck plate consisting of auxiliary muscles are welded to support each other and the truss root.

In addition, the half precast synthetic slab manufacturing method according to the present invention for achieving the above object comprises the steps of installing a reinforcing bar in the mold having a certain size (I); Pouring high-strength concrete into the reinforcing bar network to form a top plate (II); A half precast synthetic slab is produced by sequentially performing the step (III) of inserting and curing a portion of the deck plate on the top plate in sequence.

As described above, the half precast synthetic slab according to the present invention and its manufacturing method have the following effects.

First, the present invention uses the corrugated steel sheet as the embedding material of the half precast top plate, which increases the degree of freedom in shape design of the embedding material, simplifies the processing of the embedding material, reduces the number of assembly operations, and reduces the cost. have.

Second, the present invention is formed by integrally forming the precast top plate and the deck plate, it can be easily integrated with the pillars and girders, there is an advantage that the sufficient rigidity and strength or sound insulation is improved.

Third, the present invention attaches the connecting plate of the corrugated steel sheet, and by installing the truss root on the upper portion of the corrugated steel sheet, no welding traces are generated in the corrugated steel sheet, and there is an aesthetically very advantageous advantage.

Fourth, the present invention has the advantage that the precast top plate and the deck plate are integrally formed, thereby maintaining the smoothness by overcoming the torsion phenomenon of the existing deck plate.

Fifth, the present invention has the advantage that the deck plate installed on the precast top plate is formed of reinforcing truss bar, the spacing of the reinforcement is constant, the coating thickness is kept constant to obtain a high quality slab.

Sixth, the present invention does not require dismantling work after placing concrete on the deck plate because it does not install a separate support at the bottom of the construction, there is an advantage that can immediately perform the subsequent process of the slab.

Seventh, the present invention has the advantage of fast construction because the field work is less, and simple installation work is achieved by bringing in the factory-made products in accordance with the site requirements.

Eighth, the present invention has the advantage that the site is clean because the waste material is not generated by removing the formwork by simultaneously performing the formwork role.

Ninth, the present invention has the advantage that it is possible to prevent the safety accidents that can occur during the dismantling of the form, since the material loading space is made immediately upon importing the material.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail.

1 is a perspective view showing a half precast synthetic slab according to the present invention, FIG. 2 is a front view showing a half precast synthetic slab according to the present invention, and FIG. 3 shows a half precast synthetic slab according to the present invention. 4 is an exploded perspective view showing a half precast synthetic slab according to the present invention.

As shown in these drawings, the half precast synthetic slab according to the present invention is reinforced with rebar longitudinally and horizontally rebar mesh 10 made of a horizontal lattice shape, and concrete having a certain strength to the rebar network 10 ( 20) is the cured top plate (C); A certain portion is embedded on the surface of the upper plate C, and a corrugated steel sheet 30 having a corrugated shape and a plurality of pieces are welded in an orthogonal direction on the corrugated steel sheet 30 and at the same time, the rebar is processed to horizontal bar 42 And the truss root 40 repeatedly formed in a triangular shape with the oblique root 44 downward, a plurality of support roots 50 welded to both ends of the rupture steel plate 30, and the support root 50. Welding is installed on both sides of the upper and lower muscles 60 and 70 and the truss muscle 40 and the truss muscle 40 are mutually supported at the same time while being installed above and below the triangle apex of the truss muscle 40. It consists of a deck plate (D) consisting of the auxiliary muscles 80 to be installed.

That is, the half precast synthetic slab (S) according to the present invention has a structure in which the top plate (C) and the deck plate (D) are organically bonded.

Here, the upper plate (C) is a structure in which the reinforcement in the longitudinal and horizontal to form a lattice-shaped reinforcing bar 10, and cast a high-strength concrete 20 to the reinforcing bar 10, the concrete (20) Is 162 parts by weight of water, 45 to 57.40 parts by weight of Portland cement, 5 to 8 parts by weight of alumina cement, 20 to 22.50 parts by weight of CSA-based fastener (calciumsulfur aluminate), and expanded admixture (CaSO ₄ + Ca (OH) ₂ ) 15 to 17.50 parts by weight, pot life adjusting agent (citric acid + gluconic acid) 1 to 3.50 parts by weight, dispersant (melment type + naphthalene type + polycarbon) 0.1 ~ 0.80 parts by weight, grinding minerals (SiO ₂ + CaCO ₃ ) 1.5 to 2.50 parts by weight of admixtures, 450 parts by weight, 692 parts by weight of sand, fine aggregates and coarse aggregates, specific aggregates consisting of 2.58, coarse aggregates (25mm crushed stone) and specific gravity consisting of 2.62 1015 parts by weight of aggregates. Be composed of high strength concrete 20.

This top plate (C) serves to protect the distortion of the deck plate (D).

On the other hand, the deck plate (D) is a structure consisting of the corrugated steel sheet 30, the truss muscle 40, the support muscle 50, the upper, lower muscles (60, 70) and the auxiliary muscle 80 is organically coupled .

Here, the corrugated steel sheet 30 is a member having a certain portion embedded in the surface of the upper plate (C) and at the same time as a wave shape, the entire corrugated portion 32 of the corrugated steel sheet 30 is embedded in the upper plate.

The corrugated portion 32 serves to promote adhesion between the concrete 20 and the corrugated steel plate 30 after the concrete 20 of the upper plate C is poured.

In addition, the truss root 40 is welded to the corrugated steel sheet 30 in the orthogonal direction at the same time, the reinforcing bar is processed, the horizontal muscle 42 and the oblique muscle 44 is repeatedly formed in a triangular shape with a downward opening to be.

The reason for using such a truss bar 40 is to obtain a high quality slab because the reinforcement spacing of the reinforcing bar is constant and the coating thickness is kept constant.

In addition, the camber may be applied to the truss root 40 in consideration of the deflection caused by the construction load.

In addition, the support root 50 is a member in which a plurality of welding rods are installed at both ends of the rupture steel plate 30, and a hooking portion 52 is formed so that a predetermined portion is welded to both ends of the corrugated steel plate 30.

In addition, the upper and lower roots (60, 70) are welded to both sides of the support root 50 and at the same time the reinforcing bar is disposed above and below the triangular apex of the truss (40), the upper root (60) is a truss It is disposed within the upper triangular top of the root 40, the lower root 70 is welded on the corrugated steel sheet 30, the rectangular connecting plate (between the corrugated steel sheet 30 and the lower root 70 ( 90) is installed by welding.

In particular, the connecting plate 90 has the advantage of maintaining the strength of the corrugated steel sheet by excluding the welding marks generated by the truss muscle is directly welded to the corrugated steel sheet.

The auxiliary muscle 80 is a reinforcing bar that is welded to support the truss 40 and the truss 40, and is disposed in a V-shape as a whole, and one side is welded to the upper bar 60. The other side is welded to the lower root 70.

Hereinafter, the production of the half precast synthetic slab S according to the present invention having the above-described configuration will be described.

5A to 5C are process diagrams illustrating a process of manufacturing a half precast synthetic slab according to the present invention.

As shown in these figures, the method of manufacturing a half precast synthetic slab according to the present invention comprises the steps of (I) installing the reinforcing bar 10 in the mold (F) having a certain size; Forming a top plate (C) by pouring high-strength concrete (20) on the reinforcing bar (10); A half precast synthetic slab (S) is manufactured by sequentially performing the step (III) of inserting and curing a portion of the deck plate (D) into the upper plate (C).

Here, the half precast synthetic slab (S) is reinforced with reinforcing bars in the vertical and horizontal direction of the reinforcement net 10 made of a horizontal grid shape and the concrete 20 having a certain strength to the reinforcement net 10 is poured Top plate (C); A certain portion is embedded on the surface of the upper plate C, and a corrugated steel sheet 30 having a corrugated shape and a plurality of pieces are welded in an orthogonal direction on the corrugated steel sheet 30 and at the same time, the rebar is processed to horizontal bar 42 And the truss root 40 repeatedly formed in a triangular shape with the oblique root 44 downward, a plurality of support roots 50 welded to both ends of the rupture steel plate 30, and the support root 50. Welding is installed on both sides of the upper and lower muscles 60 and 70 and the truss muscle 40 and the truss muscle 40 are mutually supported at the same time while being installed above and below the triangle apex of the truss muscle 40. It consists of a deck plate (D) consisting of the auxiliary muscles 80 to be installed.

In addition, the concrete 20 is 162 parts by weight of water, 45 to 57.40 parts by weight of Portland cement, 5 to 8 parts by weight of alumina cement, 20 to 22.50 parts by weight of CSA-based hardwood (calciumsulfur aluminate), expanded admixture (CaSO ₄ + Ca (OH) ₂ ) 15 to 17.50 parts by weight, ₁ to 3.50 parts by weight pot life adjusting agent (citric acid + gluconic acid), 0.1 to 0.80 parts by weight of dispersing agent (melment system + naphthalene system + polycarbon system), Grinding minerals (SiO ₂ + CaCO ₃ ) consisting of 1.5 to 2.50 parts by weight of admixture, 450 parts by weight of sand, 692 parts by weight of sand, fine aggregates and coarse aggregates, specific aggregates of 2.58, coarse aggregates (25mm crushed stone) specific gravity It is a high-strength concrete composed of 1015 parts by weight of aggregate composed of 2.62.

Then, the entire corrugated portion 32 of the corrugated steel sheet 30 is embedded in the upper plate C.

In addition, between the corrugated steel sheet 30 and the horizontal root 42 of the truss root 40, a rectangular connecting plate 90 is welded.

In addition, the support root 50 forms a hooking portion 52 so that a predetermined portion is welded to both ends of the corrugated steel sheet 30.

In addition, the upper root 60 is disposed in the apex on the upper triangle of the truss root 40.

The lower root 70 is welded onto the corrugated steel sheet 30.

In addition, a rectangular connecting plate 90 is welded between the corrugated steel sheet 30 and the lower root 70.

The auxiliary muscle 80 is disposed in a V-shape as a whole, one side is welded to the upper root 60, the other side is welded to the lower root 70.

Half precast synthetic slab according to the present invention composed of the above-described configuration and manufacturing method and its manufacturing method by using a factory standardized for the rationalization of construction, high-quality construction and air shortening, occurs during conventional formwork By minimizing the waste material to be environmentally friendly, the workability is improved.

1 is a perspective view of a half precast synthetic slab according to the present invention;

2 is a front view showing a half precast synthetic slab according to the present invention;

3 is a side view of a half precast synthetic slab in accordance with the present invention;

4 is an exploded perspective view showing a half precast synthetic slab according to the present invention;

Figures 5a to 5c is a process diagram showing a process for producing a half precast slab synthetic slab according to the present invention.

Explanation of symbols on the main parts of the drawing

10: rebar network 20: concrete

30: corrugated steel plate 32: corrugated sheet

40: truss muscle 42: horizontal muscle

44: oblique muscle 50: support muscle

52: foot 60: upper muscle

70: lower muscle 80: auxiliary muscle

90: connection plate C: top plate

D: Deck Plate F: Mold

S: half precast synthetic slab

Claims (18)

Reinforcing bars in the longitudinal and horizontal direction is made of a reinforcing bar network 10 made of a horizontal lattice shape, and the upper plate (C) is poured into the concrete 20 having a certain strength to the reinforcing bar network 10; A predetermined portion is embedded on the surface of the upper plate C, and a corrugated steel sheet 30 having a corrugated shape and a plurality of welded orthogonal to the corrugated steel sheet 30 in an orthogonal direction are simultaneously processed to reinforce the horizontal bar 42. And the truss root 40 repeatedly formed in a triangular shape with the oblique root 44 downward, a plurality of support roots 50 welded to both ends of the rupture steel plate 30, and the support root 50. Welding is installed on both sides of the upper and lower muscles 60 and 70 and the truss muscle 40 and the truss muscle 40 are mutually supported at the same time while being installed above and below the triangle apex of the truss muscle 40. Half precast synthetic slab, characterized in that consisting of a deck plate (D) consisting of the auxiliary muscles 80 to be installed. The method of claim 1, The concrete 20 is 162 parts by weight of water, 45 to 57.40 parts by weight of Portland cement, 5 to 8 parts by weight of alumina cement, 20 to 22.50 parts by weight of CSA-based hardwood (calcium sulfur aluminate), expanded admixture (CaSO ₄ + Ca (OH) ₂ ) 15 to 17.50 parts by weight, pot life adjusting agent (citric acid + gluconic acid) 1 to 3.50 parts by weight, dispersant (melment type + naphthalene type + polycarbon type) 0.1 to 0.80 part by weight, ground mineral (SiO ₂ + CaCO ₃ ) 1.5 to 2.50 parts by weight of admixture, 450 parts by weight of sand, 692 parts by weight of sand, fine aggregates and coarse aggregates, specific aggregates of 2.58, coarse aggregates (25mm crushed stone) specific gravity of 2.62 Half precast synthetic slab, characterized in that composed of high-strength concrete (20) consisting of 1015 parts by weight of aggregate. The method of claim 1, Half precast synthetic slab, characterized in that the entire corrugated portion 32 of the corrugated steel sheet 30 is embedded in the upper plate (C). The method of claim 1, Half precast composite slab, characterized in that the rectangular connecting plate 90 is welded between the corrugated steel sheet 30 and the horizontal root 42 of the truss root 40. The method of claim 1, The support root 50 is a half precast synthetic slab, characterized in that the hook portion 52 is formed so that a predetermined portion is welded to both ends of the corrugated steel sheet (30). The method of claim 1, Half precast synthetic slab, characterized in that the upper root (60) is disposed within the apex on the upper triangle of the truss root (40). The method of claim 1, The lower root 70 is a half precast composite slab characterized in that the welded on the corrugated steel sheet 30 The method of claim 7, wherein Half precast synthetic slab, characterized in that the rectangular connection plate 90 is welded between the corrugated steel sheet 30 and the lower root 70. The method of claim 1, The auxiliary root 80 is disposed in a V-shape as a whole, one side is welded to the upper root 60, the other side is welded to the lower root 70, the half precast synthetic slab. Installing (I) the reinforcing bar 10 in the mold F having a predetermined size; Forming a top plate (C) by pouring high-strength concrete (20) on the reinforcing bar (10); Method of manufacturing a half precast synthetic slab, characterized in that to produce a half precast synthetic slab (S) by sequentially performing a step (III) of inserting and curing a portion of the deck plate (D) on the top plate (C). The method of claim 10, The half precast synthetic slab (S) is a reinforcing bar longitudinally and horizontally reinforced bar 10 made of a horizontal lattice shape, and the top plate on which the concrete 20 having a certain strength is poured on the reinforcing bar 10 ( C); A predetermined portion is embedded on the surface of the upper plate C, and a corrugated steel sheet 30 having a corrugated shape and a plurality of welded orthogonal to the corrugated steel sheet 30 in an orthogonal direction are simultaneously processed to reinforce the horizontal bar 42. And the truss root 40 repeatedly formed in a triangular shape with the oblique root 44 downward, a plurality of support roots 50 welded to both ends of the rupture steel plate 30, and the support root 50. Welding is installed on both sides of the upper and lower muscles 60 and 70 and the truss muscle 40 and the truss muscle 40 are mutually supported at the same time while being installed above and below the triangle apex of the truss muscle 40. Half precast synthetic slab manufacturing method characterized in that consisting of a deck plate (D) consisting of the auxiliary muscles 80 to be installed. The method of claim 11, The concrete 20 is 162 parts by weight of water, 45 to 57.40 parts by weight of Portland cement, 5 to 8 parts by weight of alumina cement, 20 to 22.50 parts by weight of CSA-based hardwood (calcium sulfur aluminate), expanded admixture (CaSO ₄ + Ca (OH) ₂ ) 15 to 17.50 parts by weight, pot life adjusting agent (citric acid + gluconic acid) 1 to 3.50 parts by weight, dispersant (melment type + naphthalene type + polycarbon type) 0.1 to 0.80 part by weight, ground mineral (SiO ₂ + CaCO ₃ ) 1.5 to 2.50 parts by weight of admixture, 450 parts by weight, 692 parts by weight of sand, fine aggregates and coarse aggregates, specific aggregates of 2.58, coarse aggregates (25mm crushed stone) specific gravity of 2.62 Half precast synthetic slab manufacturing method characterized in that composed of high-strength concrete composed of 1015 parts by weight of aggregate. The method of claim 11, Half precast synthetic slab manufacturing method characterized in that the entire installation of the corrugated portion (32) of the corrugated steel sheet 30 on the upper plate (C). The method of claim 11, The method of manufacturing a half precast composite slab, characterized in that the welding of the rectangular connecting plate 90 between the corrugated steel sheet 30 and the horizontal root 42 of the truss root 40. The method of claim 11, The support root (50) is a half precast synthetic slab manufacturing method characterized in that the hook portion 52 is formed so that a certain portion is welded to both ends of the corrugated steel sheet (30). The method of claim 11, The upper root (60) is a half precast synthetic slab manufacturing method, characterized in that arranged in the apex on the upper triangle of the truss root (40). The method of claim 11, The lower root 70 is a half precast composite slab manufacturing method characterized in that the welding is installed on the corrugated steel sheet (30). The method of claim 11, The auxiliary muscle 80 is disposed in a V-shape as a whole, one side is welded to the upper root 60, the other side is welded to the lower root 70, characterized in that the half precast synthetic slab manufacturing method.

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