KR101086058B1 - Floor unit and floor construction method thereby - Google Patents

Abstract

The present invention is a unit size of the prefabricated unit constituting the floor of the building, the unit size of the concrete block to form the thickness of the floor, the connecting hardware protruding on one side of the concrete block, the concrete block so that the connecting hardware can be fitted A coupling groove formed on the other side of the mortar, which is cured on top of the concrete block, and a deck plate coupled to the bottom of the concrete block to support the concrete block. In addition, the present invention is a floor construction method of the building using the floor unit, the step of arranging the floor unit made in a unit size so that a certain gap and the step of coupling the connecting hardware provided in the floor unit into the groove of the other floor unit And interconnecting pipes respectively provided in the floor unit, and placing concrete in a gap of the floor unit arranged at a predetermined interval. The present invention configured as described above has the effect of shortening the air by providing a standardized floor unit that is simply assembled.

Description

Building floor unit and floor construction method using the same {FLOOR UNIT AND FLOOR CONSTRUCTION METHOD THEREBY}             

1 is a block diagram schematically showing a conventional floor construction method,

Figure 2 shows a cross section of the floor completed by the construction method of Figure 1,

3 is a perspective view of a floor unit according to an embodiment of the present invention,

4 is a front view of the floor unit shown in FIG. 3,

Figure 5 shows the installation of the floor unit shown in Figure 3,

6 is a block diagram schematically illustrating a construction method using the floor unit of FIG. 3.

Description of the Related Art

100: floor unit 110: deck plate

120: concrete block 121: connecting hardware

122: combined groove 130: mortar

140: piping 150: connector

The present invention relates to a floor construction method of a building, and more particularly, to a floor construction method using a building floor unit that is prefabricated to shorten the air of the floor construction and a building floor unit that can shorten the construction period. will be.

The general floor construction of steel structure proceeds in the following order. 1 is a block diagram schematically showing a conventional floor construction step, Figure 2 shows a cross section of the floor completed by the construction method of FIG.

1 and 2, the deck plate 10 is first installed on the bottom. The steel structure only has a frame structure that forms the pillar of the building, and there is no separate member for forming a layer. Therefore, in order to form the bottom of each layer, it is necessary to first install a plate such as the deck plate 10. When the installation of the deck plate 10 is completed, the concrete 20 which supports a load substantially is poured on this deck plate 10. Finally, the pipe pipe 30 is installed on the cured concrete 20 and the mortar 40 is poured. Then, the floor of the general building structure is completed.

On the other hand, building construction can proceed with the interior work only when the above floor construction is completed, the time required to completely cure the concrete 20 and mortar (40) is 28 days each. At this time, since the mortar 40 is poured after the concrete 20 is completely cured, the actual time taken for the floor to be completed is a total of 56 days. This 56-day period is the ideal time period, depending on the climate and season. Therefore, due to the curing period of the concrete 20 and the mortar 40 constituting the floor is often delayed construction completion date. Therefore, a new floor construction method is required to advance the construction completion date and reduce the cost accordingly.

The present invention has been made to solve the above problems, and an object thereof is to provide a building floor unit that can provide a constant quality regardless of the climate. In addition, the present invention has another object to provide a floor construction method using a building floor unit that can shorten the air of the floor construction.

According to an embodiment of the present invention, a unit-size prefabricated unit constituting the floor of a building, the unit-size concrete block forming the thickness of the floor, the connecting hardware protruding to one side of the concrete block, the connecting hardware A coupling groove formed on the other side of the concrete block so as to face the connecting hardware, a mortar cured on the top of the concrete block, and a deck plate coupled to the bottom of the concrete block to support the concrete block; The deck plate is provided with a building floor unit comprising a latch formed extending to one side where the coupling groove is formed so as to overlap with one side of another adjacent deck plate.

In addition, according to another embodiment of the present invention as a floor construction method of the building using the floor unit, the floor unit manufactured in the unit size is arranged so as to have a predetermined gap, but the cladding portion of the deck plate and one side of the other adjacent deck plate Arranged so as to overlap and join the connecting hardware provided in the floor unit into the groove of the other floor unit, and placing concrete in the gap of the floor unit arranged at regular intervals using a building floor unit A floor construction method is provided.

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

The present invention was produced in the unit size of the unit to assemble the floor of the building to minimize the air delay caused by the curing time of concrete and mortar in the floor construction. 3 is a perspective view of a floor unit according to an embodiment of the present invention, Figure 4 is a front view of the floor unit shown in FIG.

As shown in FIGS. 3 and 4, the floor unit 100 includes a deck plate 110, a concrete block 120, a mortar 130, and a pipe 140. Deck plate 110 is a member for supporting the bottom unit 100 is made of iron and is directly welded to the reinforcing bar frame is coupled. Deck plate 110 is wrinkled up and down repeatedly. This is to suppress the occurrence of bending due to the vertical load. Therefore, it is not necessary to form such a wrinkle as needed.

There is a concrete block 120 on the deck plate 110. The concrete block 120 is made by pouring after making the formwork on the deck plate (110). At this time, the formwork is made so that at least one portion of the deck plate 110 protrudes more than 10cm. Reference numeral 111 denotes this protruding latch. The concrete block 120 cured on the deck plate 110 is firmly fixed together with the deck plate 110. On both sides of the concrete block 120, the connecting hardware 121 and the coupling groove 122 is formed, respectively. The connecting hardware 121 is in a mutual coupling relationship with a size corresponding to the coupling groove 122. On the other hand, the mortar 130 is poured into the upper portion of the concrete block 120 is cured. Therefore, the upper part of the concrete block 120 is preferably formed to be rough so that the coupling with the mortar 130 can be made well.

The pipe 140 is installed on the cured concrete block 120, and the mortar 130 that can protect the pipe 140 and fix its position is poured and cured. The size of the cured mortar 130 is the same as the concrete block 120. However, unlike the concrete block 120 supporting the vertical load mortar 130 is provided for the protection of the pipe 140 from the outside and the installation of other flooring, it is good to be poured to a minimum thickness and cured. The pipe 140 provided in the mortar 130 is installed for heating and protrudes out of the mortar 130. On the other hand, the inside of the pipe 140 may be narrowed or blocked by the inlet mortar 130 in the curing step of the mortar (130). If such a problem occurs, the communication of hot water for heating is not made smoothly. Therefore, in the mortar 130 curing step, it is good to prevent both ends of the pipe 140 by using a separate stopper. On the other hand, the installation of the pipe 140 is on the premise of the ondol structure, it may not be provided when the building to be used is an air heating system.

Figure 5 shows the installation of the floor unit shown in FIG. The floor unit 100 is installed at a predetermined interval at the construction site. The latching portion 111 of the deck plate 110 is positioned below the adjacent deck plate 110, and the connecting hardware 121 is inserted into the coupling groove 122 of the adjacent deck plate 110 to be different from each other. Connect 110. And, the pipe 140 of each floor unit 100 is connected via a connection pipe 150. On the other hand, it is preferable that the bottom unit 100 is not arranged in close contact with each other, because the coupling strength of the connection hardware 121 and the coupling groove 122 alone can not derive sufficient bonding strength. Therefore, in the present invention, by pouring concrete into the gap of the floor unit 100 and curing to ensure the required strength of the floor unit 100.

6 is a block diagram schematically showing a construction method using such a floor unit. As mentioned above, the conventional floor construction method takes considerable time because both concrete and mortar are cast and cured in the field. However, in the present invention, the floor unit described above is separately manufactured in a dedicated factory and supplied to a construction site, thereby reducing the floor construction date required. Referring to the construction stage of the present invention.

As shown in Figure 6, the floor unit mass-produced in a dedicated factory is first installed in the construction site so as to create a gap as shown in Figure 5. Next, the connection hardware and the coupling groove of each floor unit is coupled and the pipe and the pipe of the floor unit is fastened using a connection pipe. When the pipe connection is complete, cast concrete into the gap in the floor unit. When the concrete is fully cured, the flooring finishes. Therefore, the present invention only needs to cure only the concrete for combining the floor units arranged in a dedicated factory and combine the arranged floor units, so the floor construction seal takes shorter than before.

The present invention provides a floor structure of the same quality regardless of the climate, because the floor unit is manufactured and produced in a dedicated factory, not on-site, it is a way to perform a floor construction by simply assembling the floor unit made in the unit size to shorten the air can do.

The technical idea of the building floor unit and the floor construction method using the same have been described above with the accompanying drawings, but this is by way of example only to illustrate the best embodiment of the present invention and not to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (3)

Prefabricated unit of unit size forming the floor of the building, Unit-size concrete blocks forming the thickness of the floor, Connecting hardware protruding to one side of the concrete block, Coupling grooves formed on the other side of the concrete block facing the connecting hardware so that the connecting hardware can be fitted, Mortar that is cured on top of the concrete block, and It is coupled to the lower portion of the concrete block includes a deck plate for supporting the concrete block, The deck plate is a building flooring unit, characterized in that it comprises a latch formed extending to one side where the coupling groove is formed so as to be able to overlap with one side of another adjacent deck plate. The floor unit for building according to claim 1, wherein a plurality of pipes whose both ends protrude out of the mortar are provided in the mortar. As a floor construction method of a building using the floor unit of claim 1, Arrange the bottom unit made of unit size to have a certain gap, and arrange the base portion of the deck plate so as to overlap one side of another adjacent deck plate, and insert the connecting hardware provided in the bottom unit into the groove of the other bottom unit. Steps, and Floor construction method using a building floor unit comprising the step of placing concrete in the gap of the floor unit arranged at a predetermined interval.

Images