KR100638495B1 - Steel form for constructing a reinforced concrete slab of a construction - Google Patents

Abstract

The present invention relates to a steel formwork for the construction of reinforced concrete slabs of a structure, by installing along the longitudinal direction of the H-shaped steel beams (3) installed on the pillars of the structure steel is poured concrete for construction of reinforced concrete slabs (4) In the formwork 100, both ends are respectively located under the upper flange 3a facing each other between the H-shaped steel beams 3 that are installed side by side, and the concrete for the construction of the reinforced concrete slab 4 is placed on the upper surface. Being installed vertically between the steel panel 110 and the lower end of the steel panel 110 and the upper side of the lower flange (3b) of the H-shaped steel beams (3), by increasing the length both ends of the steel panel (110) It comprises a plurality of jacks 120 to be fixed in close contact with the lower side of the upper flange (3a) of the H-shaped steel beam (3). Therefore, the present invention can be reused over and over again, thereby reducing the cost of the waste and environmentally friendly construction by reducing the generation of waste, and by allowing the production of composite beams so as not to create a space between the reinforced concrete slab and steel beams The rigidity of steel beams can be increased, so that the cross section of structural steel beams can be reduced under the same loading conditions, thereby enabling economic construction by increasing the volume ratio and reducing the amount of material used. It has the effect of shortening the air by making it easy to commercialize and install in the field.

Description

STEEL FORM FOR CONSTRUCTING A REINFORCED CONCRETE SLAB OF A CONSTRUCTION}

1a and 1b is a cross-sectional view showing a foam deck plate according to the prior art,

Figure 2 is a perspective view showing a state of constructing a reinforced concrete slab on a foam deck plate according to the prior art,

3 is a perspective view showing the steel formwork for the reinforced concrete slab construction of the structure according to the present invention,

4 is a cross-sectional view showing a state of constructing a reinforced concrete slab in the steel formwork for the reinforced concrete slab construction of the structure according to the present invention,

5 is a plan view showing a state in which the steel formwork for the reinforced concrete slab construction of the structure according to the present invention installed on the H-beam,

6 is a cross-sectional view taken along line AA ′ of FIG. 4.

<Description of Symbols for Main Parts of Drawings>

110: steel panel 111: steel sheet

112: first reinforcement beam 113: second reinforcement beam

120: jack 121: body

122: support flange

The present invention relates to a steel formwork for the construction of reinforced concrete slabs of the structure, more specifically, because it can be reused repeatedly to reduce the cost and environmentally friendly construction by reducing the generation of waste, between the reinforced concrete slab and Kangbo The present invention relates to a steel formwork for reinforced concrete slab construction of a structure that enables the production of a composite beam by preventing a space from being formed.

Generally, wood formwork has been used for a long time as slab construction form of reinforced concrete structures. Wood formwork reinforces plywood with lumber, casts concrete for slabs, and when the concrete hardens, remove slabs and reinforcement lumber, complete the slabs by removing the plywood, and remove the plywood. Such wood formwork requires a copper bar, has a lot of losses during installation and dismantling, and takes a lot of time for reassembly for reuse, causing waste such as waste wood, and cement pools can leak out of wood gaps. have.

Therefore, a foam deck plate is used in place of the wooden formwork having such disadvantages when constructing the reinforced concrete slab of the structure, and a conventional foam deck plate will be described with reference to the accompanying drawings.

1A and 1B are cross-sectional views illustrating a foam deck plate according to the prior art, and FIG. 2 is a perspective view illustrating the construction of the reinforced concrete slab 1 by the foam deck plate according to the prior art. As shown, the foam deck plate (10, 20) according to the prior art is installed on the H-beams (2) of the structure, the concrete is poured for the construction of the reinforced concrete slab (1) on the upper side, In order to increase the strength of the resistance to bending, the iron plate was bent to form irregularities.

However, since the concrete deck plates 10 and 20 according to the related art are filled with concrete in the grooves 11 and 21 formed on the upper side, the foam deck plates 10 and 20 are reinforced after the concrete is hardened. Since it is impossible to separate from the concrete slab 1, the foam deck plates 10 and 20 cannot be reused, which causes a cost-effective construction.

In addition, a portion of the thickness of the foam deck plate 10, 20, that is, the volume of the grooves 12, 22 formed on the lower side, between the reinforced concrete slab 1 of the structure and the H-shaped steel beam 2 of the structure. It has the disadvantage of bringing about space loss. Due to such a space loss, it is difficult to manufacture a composite beam due to the spaced portion between the reinforced concrete slab (1) and the H-beam (2), and has a problem of increasing the height of the layer as much as the thickness of the foam deck plates (10, 20). .

The present invention is to solve the above-mentioned conventional problems, the object of the present invention can be reused over and over again to reduce the cost and reduce the generation of waste to be environmentally friendly construction, between the reinforced concrete slab and Kangbo It is possible to increase the rigidity of the structural beams by making the composite beams possible by avoiding the space. Therefore, by reducing the cross section of the structural beams under the same loading conditions, the economic construction is possible by increasing the volume ratio and reducing the amount of material used. Since there is no possibility of cement pool leaking out during concrete pouring, precise construction is possible, and it is possible to provide steel formwork for reinforced concrete slab construction of a structure that can shorten the air by easily installing the product in the field.

The present invention for realizing such an object is provided along the longitudinal direction of the H-beams installed on the pillar of the structure, in the steel formwork in which the concrete for the construction of reinforced concrete slab is placed, H-beams are installed side by side Both ends are located on the lower side of the upper flange facing each other, and are installed vertically between the steel panel on which the concrete for the construction of reinforced concrete slab is placed on the upper surface, and between the lower side of the end of the steel panel and the upper side of the lower flange of the H-beam. It is characterized in that it comprises a plurality of jacks for fixing the both ends of the steel panel by increasing the length in close contact with the lower side of the upper flange of the H-shaped steel beam.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

Figure 3 is a perspective view showing the steel formwork for the reinforced concrete slab construction of the structure according to the present invention, Figure 4 is a cross-sectional view showing the construction of the reinforced concrete slab in the steel formwork for the reinforced concrete slab construction of the structure according to the present invention. 5 is a plan view illustrating a state in which steel formwork for reinforced concrete slab construction of a structure according to the present invention is installed on an H-shaped steel beam, and FIG. 6 is a cross-sectional view taken along line AA ′ of FIG. 4. As shown, the steel formwork for construction of the reinforced concrete slab of the structure according to the invention is installed along the longitudinal direction of the plurality of H-shaped steel beams (3) connected to the various types of structural pillars to be reinforced concrete Steel formwork in which concrete is poured for the construction of the slab (4), the steel panel 110, both ends of which are respectively located under the upper flange (3a) between the H-shaped steel beams (3) installed side by side, It includes a plurality of jacks 120 for fixing both ends of the steel panel 110 in close contact with the lower side of the upper flange (3a) of the H-shaped steel beam (3).

Steel panel 110 is located between the H-beams (3), both ends of the lower side of the upper flange (3a) of the H-beams (3) facing each other, respectively, the reinforced concrete slab (4) Concrete for construction of concrete is poured.

The steel panel 110 is coupled to the steel plate 111 that provides a flat concrete pouring surface on the upper surface, and is perpendicular to the longitudinal direction of the H-shaped steel beam (3) on the lower surface of the steel plate 111 deflection of the steel plate 111 A plurality of first reinforcing beams 112 for preventing the pair, and a pair of second reinforcing beams 113 coupled to the longitudinal direction of the first reinforcing beams 112 at both ends of the first reinforcing beams 112 at right angles. ) The steel plate 111 and the first and second reinforcement beams 112 and 113 may be connected through fastening means such as bolts and screws, but are preferably integrally coupled to each other by welding.

The first reinforcing beam 112 is made of an appropriate number to resist bending due to the weight of the concrete to be poured. In this embodiment, the four first reinforcing beams 112 are equally spaced on the lower surface of the steel plate 111. Welded to be arranged along the longitudinal direction of the beam section (3). On the other hand, the second reinforcing beam 113 is perpendicular to the longitudinal direction of the first reinforcing beam 112 by welding not only the end of the first reinforcing beam 112 but also the middle portion of the first reinforcing beam 112 as necessary. Direction can be combined. As the first and second reinforcement beams 112 and 113, rectangular hollow beams having a large resistance strength to warpage relative to weight are used.

On the other hand, the stripping material is applied to the upper surface of the steel panel 110, especially the steel sheet 111. Therefore, the steel panel 110 can be easily separated from the reinforced concrete slab 4 completed by the release material after the concrete is hardened by curing after the concrete pouring.

Jack 120 is installed vertically between the lower end of the steel panel 110, specifically between the lower side of the second reinforcing beam 113 and the upper side of the lower flange (3b) of the H-beams (3), increasing the length By contacting the end of the steel panel 110 to the lower side of the upper flange (3a) of the H-shaped steel beams (3), made of a plurality, in the embodiment of the present invention is made of four by being provided for each corner of the steel panel (110) .

In addition, the support 120 is provided so that the upper and lower ends of the body 121 are properly installed between the lower end of the steel panel 110 and the lower flange 3b of the H-shaped steel beam 3. The body 121 is composed of a fixed body (not shown) and a movable body (not shown) to move up and down therefrom, and a screw jack or a mobile body (not shown) in which the mobile body (not shown) linearly moves according to the rotational movement of the screw. The hydraulic jack etc. which linearly move by hydraulic pressure are used.

The action of the steel formwork 100 for the reinforced concrete slab construction of the structure consisting of such a structure is made as follows.

In order to install the steel panel 110 in the H-beams (3) connected to the pillars of the structure to face each other of the upper flange (3a) of the H-beams (3) of the steel panel 110 Position both ends, respectively, and then position the plurality of jacks 120 perpendicularly to the lower end of the steel panel 110 and the upper side of the lower flange 3b of the H-shaped steel beam 3, and then the jack 120 is screw type. In the case of rotating, by supplying the hydraulic pressure in the case of hydraulic pressure to increase the length by fixing both ends of the steel panel 110 in close contact with the lower flange 3a of the H-shaped steel beam (3).

A plurality of steel panels 110 are continuously installed by the jack 120 as described above to be arranged along the longitudinal direction of the H-shaped steel beams (3) between the H-shaped steel beams (3) of the steel panel 110 Concrete is poured after reinforcing the reinforcing bars necessary for the upper surface, that is, the concrete concrete placing surface. At this time, the first and second reinforcing beams 112 and 113 suppress the deflection and warpage of the steel sheet 111.

After the concrete cast on the steel panel 110 finishes curing, the steel panel 110 may be easily separated from the H-shaped steel beam 3 by self-weight by reducing the length by releasing the jack 120 when cured. On the other hand, the steel panel 110 can be easily separated from the reinforced concrete slab 4 constructed by the release material applied to the upper surface in advance.

Reinforced concrete slab (4) constructed by the steel formwork 100 for the construction of the reinforced concrete slab of the structure according to the invention is installed to be in close contact with the jack 120 on the lower side of the upper flange (3a) of the steel beam (3) By placing concrete on the panel 110, it is possible to manufacture composite beams with no space between steel beams 3, thereby increasing the rigidity of structural steel beams, thereby reducing the cross section of structural steel beams under the same loading conditions. It increases the volume ratio and enables economic construction by reducing the amount of material used.

In addition, the steel formwork 100 for the reinforced concrete slab construction of the structure according to the present invention can be reused repeatedly, thereby reducing the cost of the waste and environmentally friendly construction to reduce the generation of waste. In addition, since there is no possibility that the cement paste is leaked out when concrete is laid by preventing the gap between the steel panel 110, it is possible to precise construction, and it is possible to shorten the air by pre-fabricated or commercialized installation in the field.

As described above, the steel formwork for the reinforced concrete slab construction of the structure according to the present invention can be reused repeatedly, thereby reducing the cost and environmentally friendly construction by reducing the generation of waste, between the reinforced concrete slab and steel beam It is possible to increase the rigidity of the structural beams by making the composite beams possible without creating a space. Therefore, by reducing the cross-section of the structural beams under the same loading conditions, it is possible to make economic construction by increasing the volume ratio and reducing the amount of material used. Since there is no possibility of cement paste leaking during pouring, precise construction is possible, and it has the effect of shortening the air by making it easy to install on site by commercializing it.

What has been described above is just one embodiment for carrying out the steel formwork for the reinforced concrete slab construction of the structure according to the present invention, the present invention is not limited to the above embodiment, as claimed in the following claims As described above, any person having ordinary knowledge in the field of the present invention without departing from the gist of the present invention will have the technical spirit of the present invention to the extent that various modifications can be made.

Claims (2)

In the steel formwork in which the concrete for the construction of reinforced concrete slab is poured by being installed along the longitudinal direction of the H-shaped steel beam is installed on the pillar of the structure, Steel panels on which both ends are positioned at the lower sides of the upper flanges facing each other between the H-shaped steel beams installed side by side, and concrete is poured on the upper surface to build the reinforced concrete slab; A plurality of jacks installed vertically between the lower end of the steel panel and the upper side of the lower flange of the H-shaped steel beam, and by increasing the length, the both ends of the steel panel adhere to the lower side of the upper flange of the H-shaped steel beam. Reinforced concrete slab construction steel construction of the structure comprising a. The method of claim 1, The steel panel, A steel plate providing a flat concrete pour surface on the upper surface, A plurality of first reinforcing beams coupled to a lower surface of the steel sheet in a direction perpendicular to a longitudinal direction of the H-shaped steel beam to prevent sagging of the steel sheet; A pair of second reinforcement beams coupled to both ends of the first reinforcement beam at right angles to the longitudinal direction of the first reinforcement beam. Reinforced concrete slab construction steel construction of the structure comprising a.

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