KR20220166466A - Method for constructing ceiling with deck plate - Google Patents

Abstract

The present invention relates to a method for constructing a ceiling surface made of steel columns and steel beams and, more particularly, to a method for constructing a ceiling comprising a deck plate, which comprises: a first step of fixing a deck plate to an upper surface of a steel beam; a second step of foaming and laminating urethane on an upper surface of the steel beam; and a third step of pouring and curing concrete on an upper surface of the urethane. As described above, the method for constructing a ceiling comprising a deck plate of the present invention allows easy construction so that a construction period can be shortened. In addition, sound insulation is excellent so that a noise problem between floors can be solved. Furthermore, the present invention has remarkable effects such as maximizing a thermal insulation effect.

Description

Method for constructing ceiling with deck plate {Method for constructing ceiling with deck plate}

The present invention relates to a ceiling construction method comprising a deck plate, and more particularly, to a ceiling construction method comprising a deck plate, characterized in that urethane is laminated together with a deck plate on the upper surface of a ceiling of a steel frame structure for heat and sound insulation effects. it's about

Deck plate refers to a steel plate manufactured to be used for purposes such as floor formwork of a structure.

In general, a deck plate has a vertically concave shape and is lighter than conventional formwork, so it is easy to handle or move, and the installation method is simple. is commonly used in

In the prior art of the ceiling construction method composed of such a deck plate, in the formwork construction using the deck panel in Registration Patent Publication No. 10-2035996, such as welding, rivets or pieces on the upper part of the H-beam 60 installed in an I shape Configure the coupling portion 52 so that it can be fixed through the fixing means, but the inner end of the coupling portion 52 reaches at least the upper inner end 64 of the H beam 60, and the coupling portion 52 A binding support for preventing sagging even under the load of concrete to be poured by constructing an accommodating and engaging portion 54 at the inner end so that the one side plate 16A of the deck plate 10 is accommodated and caught has been registered and published.

Another prior art is Utility Model Registration No. 20-0203658, a fixing cap inserted and fixed on the ceiling surface of a building at regular intervals, a fixing hanger bolt screwed to the fixing cap, and fastened to the lower end of the fixing hanger bolt. A bolt cap fixed to which a ceiling panel is attached, an M-bar horizontal fixture coupled between the fixed hanger bolt and the bolt cap, an M-bar coupled to all sides of the M-bar horizontal fixture, and inserted into the M-bar A ceiling plate construction device for a building, characterized in that it is configured to construct a number of ceiling panel fixing caps greater than the number of fixed hanger bolts installed on the ceiling surface, including an M-bar cap to which the ceiling panel is attached. Registration is open.

However, the above-listed conventional technologies have a weak soundproofing function, so it is difficult to suppress inter-floor noise, which is the most problematic of multi-story buildings, and it is very difficult to fix deck plates and soundproofing materials by stud bolts.

The present invention has been made to solve the above-mentioned problems, and by filling urethane between the ceiling surface and the deck plate, the construction is simple and the air can be cut off, and also the deck plate that can maximize the soundproof effect. Ceiling construction method Its purpose is to provide

The method of constructing a ceiling surface made of steel columns and steel beams according to the present invention includes a first step of fixing a deck plate to an upper surface of a steel beam; A second step of foaming and laminating urethane on the upper surface of the steel beam; It is characterized in that it consists of three steps of pouring and curing concrete on the upper surface of the urethane.

As described above, the ceiling construction method comprising the deck plate of the present invention is easy to construct and can shorten the air, and also has excellent sound insulation to solve the problem of noise between floors, and to maximize the insulation effect. has a remarkable effect.

1 is a process diagram of a ceiling construction method configured with a deck plate of the present invention.
Figure 2 is a steel structure schematic diagram by the ceiling construction method comprising the deck plate of the present invention.
Figure 3 is a partially enlarged detailed view of the ceiling construction method comprising the deck plate of the present invention.
4 is a perspective schematic view according to a first embodiment of a stud bolt used in the ceiling construction method in which the deck plate of the present invention is configured.
5 is a perspective schematic view according to a second embodiment of the stud bolt used in the ceiling construction method in which the deck plate of the present invention is configured.
6 is a perspective schematic view according to a third embodiment of the stud bolt used in the ceiling construction method in which the deck plate of the present invention is configured.
Figure 7 is a perspective schematic view according to a fourth embodiment of the stud bolt used in the ceiling construction method in which the deck plate of the present invention is configured.
Figure 8 is a schematic view of the steel beam side of the composite structure used in the ceiling construction method in which the deck plate of the present invention is configured.
9 is a perspective view of a steel beam of a composite structure used in the ceiling construction method in which the deck plate of the present invention is configured.
10 is a side schematic view according to another embodiment of a steel beam of a composite structure used in the ceiling construction method in which the deck plate of the present invention is configured.
11 is a perspective view according to another embodiment of a steel beam of a composite structure used in the ceiling construction method in which the deck plate of the present invention is configured.
12 is a perspective view of a 'II'-shaped steel beam that can be used instead of a 'Ι'-shaped steel beam used in a composite structure steel beam used in a ceiling construction method in which a deck plate according to the present invention is configured.
13 is an enlarged detailed view of a portion of FIG. 12;
Figure 14 is a schematic view of the joint manufacturing by dividing the steel beam of the composite structure used in the ceiling construction method in which the deck plate of the present invention is configured.

In the ceiling construction method comprising the deck plate of the present invention, the first step of fixing the deck plate 300 to the upper surface of the steel beam 100 in the ceiling surface construction method composed of the steel column 200 and the steel beam 100 ; A second step of foaming and laminating urethane 500 on the upper surface of the steel beam 100; It is characterized by consisting of three steps of pouring and curing the concrete 600 on the upper surface of the urethane 500;

The first step process is to laminate the deck plate 300 on the upper surface of the steel beam 100 and then fix it using a plurality of stud bolts 400,

’,‘

’,‘

’형상 중 택일하거나 또는, 수직부(410)의 상단에 열십자 형상의 수평부(420)가 형성되어 있는 형상의 스터드볼트(400)를 사용하는 것이 특징이다.The stud bolt 400 is a vertical part 410 upright and horizontally fastened to the top of the vertical part 410 in the horizontal direction to firmly support the deck plate 300 and the urethane 500 The vertical cross-sectional shape formed by the portion 420 is '

','

','

It is characterized by using a stud bolt 400 of a shape in which a cross-shaped horizontal portion 420 is formed at the top of the 'selection' shape or the vertical portion 410.

In addition, the steel beam 100 is characterized by using a composite structure in which a plurality of long 'Ι'-shaped steel beams 100 are stacked in a vertical direction.

In particular, in the steel beam 100 of the composite structure, the upper steel beam 110 and the lower steel beam 120 are arranged side by side with a predetermined interval spaced apart from the top and bottom, and the upper steel beam 110 and the lower steel beam It is characterized in that a plurality of reinforcing beams 130 are installed spaced apart at regular intervals along the longitudinal direction of the upper steel beam 110 and the lower steel beam 120 between (120).

Hereinafter, a ceiling construction method comprising the deck plate of the present invention will be described in detail with reference to the accompanying drawings.

1 is a process diagram of a ceiling construction method comprising a deck plate of the present invention, Figure 2 is a schematic diagram of a steel structure by a ceiling construction method comprising a deck plate of the present invention, Figure 3 is a partially enlarged detail of a ceiling construction method comprising a deck plate of the present invention It is also

As shown in FIGS. 1 to 3, the present invention relates to a method for constructing a ceiling surface composed of a steel column 200 and a steel beam 100, fixing a deck plate 300 to the upper surface of the steel beam 100 Step 1; A second step of foaming and laminating urethane 500 on the upper surface of the steel beam 100; It is characterized by consisting of three steps of pouring and curing the concrete 600 on the upper surface of the urethane 500;

More specifically, the deck plate 300 is fixed to the upper surface of the steel beam 100 in a one-step process.

A deck plate is an iron plate manufactured to be used for purposes such as a floor formwork of a structure. In general, a deck plate has a vertical section in which concavo-convex portions are formed vertically.

At this time, in the first step, the deck plate 300 is fixed using stud bolts 400 as a fastening member at a place spaced apart from the upper surface of the steel beam 100 by a predetermined interval.

A stud bolt is a bolt with threaded parts at both ends, and serves as a bolt head by inserting a screw into a screw hole installed in an item to be fastened in one direction.

In the two-step process, urethane 500 is foamed along the upper surface shape of the deck plate 300 so that the vertical cross-sectional shape is formed with irregularities vertically like the deck plate 300.

The concavo-convex portion has a shape capable of maximizing the sound insulation effect.

In the third step, in order to reinforce the tension of the hardened concrete, a plurality of reinforcing bars are woven horizontally and vertically, and then the concrete 600 is poured and hardened.

Preferably, in order to reinforce the tension of the hardened concrete, a plurality of reinforcing bars are woven horizontally and vertically, and then the concrete 600 is poured and cured.

On the other hand, by filling the refractory powder between the steel beam 100 and the deck plate 300, it is possible to suppress the occurrence of a large-scale fire.

4 is a perspective schematic view according to a first embodiment of stud bolts used in the ceiling construction method comprising the deck plate of the present invention, Figure 5 is a perspective view according to the second embodiment of the stud bolt used in the ceiling construction method comprising the deck plate of the present invention A perspective schematic view, Figure 6 is a perspective schematic view according to a third embodiment of the stud bolt used in the ceiling construction method comprising the deck plate of the present invention, Figure 7 is a first stud bolt used in the ceiling construction method comprising the deck plate of the present invention It is a strabismic outline according to implementation 4.

The first step of the present invention is to laminate the deck plate 300 on the upper surface of the steel beam 100 and then fix it using a plurality of stud bolts 400.

’,‘

’,‘

’형상 중 택일하여 사용하도록 한다.More specifically, the stud bolt 400 of the present invention is a vertical portion 410 upright and the top of the vertical portion 410 to firmly fasten the deck plate 300 and firmly support the urethane 500 The vertical cross-sectional shape formed by the horizontal portion 420 fastened in the horizontal direction to '

','

','

'Choose one of the shapes to use.

’형상의 수평부(420)가 형성되어 있는 형상의 스터드볼트(400)를 사용하도록 한다.As another shape, as shown in FIG. 7, a cross shape at the top of the vertical portion 410, that is, '

Use the stud bolt 400 of the shape in which the 'shaped horizontal portion 420 is formed.

The stud bolts 400 may be fixed by bonding the vertical portion 410 of the stud bolt 400 to the deck plate 300 by welding, if necessary.

Figure 8 is a side schematic view of the composite steel beam of the present invention, Figure 9 is a perspective view of the composite steel beam of the present invention, Figure 10 is a side schematic view according to another embodiment of the composite steel beam of the present invention, Figure 11 is another composite steel beam of the present invention A perspective view according to another embodiment, Figure 12 is a perspective view of a 'II'-shaped steel beam that can be used instead of the 'Ι'-shaped steel beam used in the composite steel beam of the present invention, Figure 13 is a partially enlarged detailed view of Figure 12, Figure 14 is a schematic diagram obtained by dividing and manufacturing the composite steel beam of the present invention.

As shown in FIGS. 8 to 14, the composite steel beam 100 for preventing deflection due to the load of the present invention has a long 'Ι'-shaped upper steel beam 110 and a lower steel beam 120. They are arranged side by side at a certain distance to the lower part, and between the upper steel beam 110 and the lower steel beam 120, a plurality of reinforcing beams 130 are provided along the length of the upper steel beam 110 and the lower steel beam 120. It is characterized by being installed at regular intervals along the direction.

At this time, the upper steel beam 110 is manufactured to have a horizontal and parallel length, and the lower steel beam 120 is arched or inclined to rise from both ends to the center to easily withstand the load received from the top. Formed Select one of them to produce.

If a 'II'-shaped steel beam is used instead of the 'Ι'-shaped steel beam as shown in FIGS. 5 and 6, it will be possible to manufacture a composite steel beam 100 having a more robust structure.

In addition, the reinforcing beam 130 of the present invention cuts 'Ι'-shaped steel beams to a predetermined length and arranges them spaced apart at regular intervals between the upper steel beam 110 and the lower steel beam 120, and then the upper steel beam 110 ) And to be fastened to the lower steel beam 120 by welding or bolting, respectively.

On the other hand, the reinforcing beam 130 can more firmly support the upper steel beam 110 and the lower steel beam 120 by fastening the 'Ι'-shaped steel beam in the horizontal direction to form an 'H' shape. made it possible

In addition, the composite steel beam 100 of the present invention is manufactured by dividing it into three parts along the longitudinal direction, and then fastened to be integrated by bolting or welding at the site to facilitate transportation and management.

At this time, the composite steel beam 100 located in the middle is divided and manufactured in the form of an inverted trapezoid with a long upper side and a short lower side, and the composite steel beam 100 located on both sides is on the inclined surface of the composite steel beam 100 located in the middle. By making it divided to correspond, it was possible to more firmly support the composite steel beam 100 located in the middle at the time of installation in the field.

A flange 140 is formed on the side inclined surface of the composite steel beam 100, which is divided into three equal parts, to facilitate welding and bolting to each other.

In particular, as shown in FIG. 14, the reinforcing beam 130 and the upper steel beam 110 and the reinforcing beam 130 and the lower steel beam 120 in the space between the reinforcing beam 130 and the reinforcing beam 130 By installing the reinforcing frame 150 so that both ends are supported, it will be possible to more firmly prepare for the reinforcement against twisting and deflection stress.

In particular, the composite steel beam 100 of the present invention is manufactured in the form of an inverted trapezoid with a long upper side and a short lower side, and an inclined surface corresponding to the inclined surface of the composite steel beam 100 is formed on the side of the steel column 200. By installing the bracket frame 210 to be able to more firmly support the composite steel beam 100 between the pair of steel pillars (200).

That is, in the structure of the divided composite steel beam 100 shown in FIG. 14, the ends of the composite steel beam 100 located at both edges in contact with the steel column 200 face the inclined surface of the bracket frame 210. When formed at an angle, the composite steel beam 100 located at both edges of the composite steel beam 100 manufactured during construction is first fastened to the bracket frame 210 by bolting or welding, and then the composite steel beam located in the middle. By placing the 100 and fastening it to the composite steel beam 100 at the edge, a much smoother fastening process can be achieved even during more robust support and construction.

As described above, the ceiling construction method comprising the deck plate of the present invention is easy to construct and can shorten the air, and also has excellent sound insulation to solve the problem of noise between floors, and to maximize the insulation effect. has a remarkable effect.

100. Steel beam 110. Upper steel beam 120. Lower steel beam
130. Reinforcing beam 140. Flange face 150. Reinforcing frame
200. Steel column 210. Bracket frame
300. Deck plate
400. Stud Bolt 410. Vertical 420. Horizontal
500. Urethane
600. Concrete

Claims (4)

In the ceiling surface construction method consisting of the steel column 200 and the steel beam 100,
Step 1 of fixing the deck plate 300 to the upper surface of the steel beam 100;
A second step of foaming and laminating urethane 500 on the upper surface of the steel beam 100;
Step 3 of pouring and curing concrete 600 on the upper surface of the urethane 500;
A ceiling construction method comprising a deck plate, characterized in that made of a process.
According to claim 1,
The first step process is to laminate the deck plate 300 on the upper surface of the steel beam 100 and then fix it using a plurality of stud bolts 400,
The stud bolt 400 is a vertical part 410 upright and horizontally fastened to the top of the vertical part 410 in the horizontal direction to firmly support the deck plate 300 and the urethane 500 The vertical cross-sectional shape formed by the portion 420 is '

','

','

A method of constructing a ceiling composed of a deck plate, characterized by using a stud bolt 400 in a shape in which a cross-shaped horizontal portion 420 is formed at the top of the vertical portion 410 or one of the shapes.
According to claim 1,
The steel beam 100 is a ceiling construction method comprising a deck plate, characterized by using a steel beam 100 of a composite structure in which a plurality of long 'Ι'-shaped steel beams 100 are stacked in a vertical direction.
According to claim 1,
In the steel beam 100 of the composite structure, an upper steel beam 110 and a lower steel beam 120 are arranged side by side with a predetermined distance apart from each other, and the upper steel beam 110 and the lower steel beam 120 ) Between, a plurality of reinforcing beams 130 are installed at regular intervals along the longitudinal direction of the upper steel beam 110 and the lower steel beam 120.

Images