KR101776783B1 - Integrated module block for Building Construction - Google Patents

Abstract

The present invention relates to a module block used for building construction such as an apartment, a building, a house. An outer block and an inner block are fixed to a support bar and are formed of a single module. Grooves and protrusions are formed at upper and lower ends of the outer block and the inner block, respectively, and an outer material and an inner material are respectively attached to the outer block and the inner block by performing laminated construction on a wall or a slab portion of a building, thereby shortening the construction period and requiring less manpower and equipment. As such, a technology related to an integrated module block for building construction that not only has a good exterior and interior finish of a building while reducing construction cost, but also prevents a safety accident of a worker. The main structure of the present invention comprises: an outer block located on the outdoor side and formed in a rectangular shape; an inner block which is formed in a rectangular shape so as to face the outer block and which is located on the indoor side; and a support bar fixed to the outer block and the inner block.

Description

[0001] The present invention relates to an integrated module block for building construction,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a module block used in construction of an apartment, a building, a house, and the like, more specifically, an outer block and an inner block are fixed to a support bar, And the bottom and the bottom of the building, respectively, and the outer and inner blocks are respectively laminated on the wall or slab portion of the building, thereby shortening the construction period and requiring less manpower and equipment. Therefore, The present invention relates to a monolithic module block for building construction, which not only saves cost, but also the exterior and interior finish of the building, and prevents worker safety accidents.

Generally, bricks, blocks, reinforced concrete, wood, steel, etc. are used for wall construction in buildings such as apartments, buildings, houses, etc. In recent years, blocks have been used for simple structures, but reinforced with reinforced concrete And high-rise buildings.

Recently, the construction of apartments and high-rise buildings is constructed by installing scaffolding and foam on every floor starting from the foundation work of digging out the ground and making the ground. This method increases the risk of the worker as the worker performs work in high- Since the foam must be installed every floor and then disassembled again, the construction period is lengthened, and the workforce and construction cost increase.

Since the block itself does not have exterior and interior functions when building or structure is constructed using blocks, it is necessary to attach exterior materials and interior materials such as tiles and boards separately for exterior and interior finishes when the building or structure is completed, shall.

Korean Patent No. 10-1209766 (integrated block for building) has been proposed as a representative prior art of a building block used for building a high-rise building such as an apartment or a building.

The above-mentioned prior art is an integrated block for building, which is arranged in contact with each other in the up and down and left and right directions at the time of building of a building. It forms one room or one generation of a building and has a floor, a wall and a ceiling A block body integrally formed with the block body; And a coupling member formed on one side of the block body so that the block bodies can be connected to each other.

Such conventional prior art technology makes the blocks move from the ground to the lift so that the operator does not have to work in the high-level. Therefore, the safety of the operator is guaranteed and the scaffolding and foam are not required to be installed on each floor. There is a saving effect.

However, in the prior art, there is no external or built-in function in the block itself. Therefore, there is a problem that a wall or a ceiling of a building is constructed using blocks and then the exterior material and the interior material are separately attached. There is a problem that the bonding strength between the substrates decreases and the construction period is delayed.

Also, in the prior art, there is a problem that the blocks are laminated and constructed by using mortar so that they are subject to a lot of construction work. That is, since the mortar needs a certain time to be hardened, there is a problem that the construction period is delayed because the wall must be accumulated to some extent and then wait until the mortar is hardened.

Korean Patent No. 10-0804089. Korean Patent No. 10-0988352. Korean Patent No. 10-1071364. Korean Patent No. 10-1137668. Korean Patent No. 10-1209766.

The present invention has been made to solve the problems of the prior art building blocks of the prior art. The present invention reduces the construction period of the building as much as possible, reduces the number of skilled workers and equipment, greatly reduces the construction cost, It is an object of the present invention to provide a monolithic module block for building construction, which is not only beautiful but also prevents a safety accident of a worker in a high-level work environment and can be easily carried out even in a narrow space.

Further, in the embodiment of the present invention, the outer block located outdoors and the inner block positioned in the room are fixed to the support bar and formed of one module, and the grooves and projections are formed at the upper and lower ends of the outer and inner blocks, respectively And an exterior module and an interior material attached to the outer block and the inner block, respectively, so that the module block is vertically stacked on the wall of the building.

The present invention has been made to solve the above-

An outer block located on the outdoor side and formed in a rectangular shape; An inner block which is formed in a rectangular shape so as to face the outer block and which is located on the indoor side; And a support bar fixed to the outer block and the inner block.

Also, as an embodiment of the present invention, the outer block is formed in a rectangular shape as a whole, and protrusions and grooves are formed in the lower end face and the upper end face, respectively.

In an embodiment of the present invention, the inner block is formed in a rectangular shape as a whole, and is spaced apart from the outer block by a predetermined distance, and protrusions and grooves are formed on the lower surface and the upper surface, respectively.

In the embodiment of the present invention, the outer block and the inner block are formed with projections and fastening grooves in a vertical shape on both side portions thereof, and the projections and the fastening grooves are formed in a semicircular shape corresponding to each other.

Also, as an embodiment of the present invention, the supporting bar is characterized in that upper and lower sides of a reinforcing bar installed in an outer block and a reinforcing bar installed in an inner block are fixed.

The embodiment of the present invention reduces the construction period of the building as much as possible, reduces skilled labor force and equipment to greatly reduce the construction cost, and the exterior and interior finishes of the building are attractive. Since it proceeds in the structure, safety accident of the worker is prevented in a high-level working environment, construction is easily performed in a narrow space, and waste garbage generated in the construction process is reduced.

In addition, in the embodiment of the present invention, since the outer block positioned outdoors and the inner block located in the room are fixed to the support bar and formed of a single module, workability in the field is excellent and operation time is shortened, Since the grooves and the protrusions are formed at the upper and lower ends, respectively, they are engaged with each other and stacked, so that the durability of the building is improved by increasing the bonding force and the stress between the blocks.

1 is an exploded perspective view showing a module block in the present invention.
2 is a perspective view showing a module block in the present invention.
3 is a plan view of a module block in the present invention.
4 is a side cross-sectional view showing an outer block and an inner block in the present invention.
5 is a cross-sectional side view of a module block in the present invention.
6 is a plan view showing a construction state of a module block in the present invention.
7 is a side cross-sectional view showing the construction of the module block in the present invention.
8 is a front view showing a construction state of a module block in the present invention.
9 is a plan view showing a construction state of a module block in the present invention.
10 is a side sectional view showing the construction of the module block in the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. An inner block (20) formed in a rectangular shape so as to face the outer block (10) and positioned on the inner side; And a support bar 30 fixed to the outer block 10 and the inner block 30.

In the main structure of the embodiment, the outer block 10 is a component constituting the integrated module block, and the outer block 10 is formed in a rectangular shape as a whole, as shown in Figs. 1 to 4, It can be made of concrete or artificial stone or the like, and is located outdoors on the wall of the building.

The outer block 10 is formed with a protrusion 11 and a groove 12 on a lower end surface and a top surface respectively and the protrusion 11 protrudes downward on both sides of the inner edge portion of the lower end surface, 12 are concave at the center of the inner edge of the top surface, and the groove 12 is formed as a space in which a pair of protrusions 11 can be fitted and engaged.

The outer block 10 is formed with projections 13 or fastening grooves 14 in a vertical plane on both sides thereof and the projections 13 and the fastening grooves 14 are formed in a semicircular shape corresponding to each other And is formed in a vertical shape at an intermediate portion of both side portions so as to be engaged with each other at the time of assembling the module block.

When the outer block 10 is made of concrete or an artificial stone, the reinforcing bars 31 may be installed in the interior to reinforce the durability of the blocks. . ≪ / RTI >

In the main configuration of the embodiment, the inner block 20 is a component constituting an integral module block together with the outer block 10, and the inner block 20 is a component of the outer block 10, (10), and can be made of concrete or artificial stone according to the specification of the building, and is located on the inside of the wall of the building.

The inner block 20 is spaced apart from the outer block 10 by a predetermined distance and is formed with a protrusion 21 and a groove 22 on a lower surface and a top surface, And the groove 22 is formed to be concave at the center of the outer corner of the upper surface and the groove 22 is formed as a space in which a pair of the projections 21 can be fitted and coupled .

The inner block 20 is formed with projections 23 or fastening grooves 24 in the vertical direction on both sides thereof and the projections 23 and the fastening grooves 24 are formed in a semicircular shape corresponding to each other And is formed in a vertical shape at an intermediate portion of both side portions so as to be engaged with each other at the time of assembling the module block.

When the inner block 20 is made of concrete or an artificial stone in the same manner as the outer block 10, the reinforcing bars 31 may be installed inside the reinforcing bars 31 to reinforce the durability of the blocks. ) Is performed in accordance with the specification of the building.

In the main configuration of the embodiment described above, the support bar 30 is a component in which the outer block 10 and the inner block 20 are constituted by a single module block. The support bar 30 is shown in FIGS. 1 to 4 Upper and lower sides of the reinforcing bars 31 installed in the outer block 10 and reinforcing bars 31 built in the inner block 20 are fixed by welding or the like so that the outer block 10 and the inner block 20 And the durability of the building is increased.

The supporting bar 30 is preferably made of a stainless steel bar or a reinforcing bar which is excellent in corrosion resistance and durability and functions as a handle for carrying a module block by an operator. The supporting bar 30 is vertically and horizontally positioned at the center, Are fixed to the reinforcing bars (31) of the block (10) and the inner block (20) by welding or the like.

9 and 10, the supporting bar 30 includes a horizontal reinforcing bar 100 and a vertical reinforcing bar 200 which are installed in a wall or a slab of a building by a laying operation, And the like.

Therefore, the supporting bar 30 is constructed by the outer block 10 and the inner block 20 by being firmly fixed to the horizontal reinforcement 100 installed in the wall or slab of the building by bundling, Thereby further enhancing the fixing force and durability of the module block.

In the present invention, as shown in FIG. 5, the outer block 10 located on the outdoor side of the building may be provided with a covering material 40 and a heat insulating material 41 on the outer surface depending on the specifications of the building. (40) and the heat insulating material (41) can be attached to the outer surface of the outer block (10) with an adhesive or a fastening bolt and an anchor pin or the like.

The exterior material 40 to be attached to the outer block 10 may be installed according to the specifications of the building and may generally include exterior materials such as artificial granite, natural granite, marble, color steel plate, and aluminum panel.

As shown in FIG. 5, the inner block 20 located at the inner side of the building according to the present invention may be provided with an inner material 50 such as a tile or a board attached to the inner side according to the specifications of the building, (50) may be attached to the inner surface of the inner block (20) with an adhesive or a fastening bolt and an anchor pin or the like.

In the present invention, the module block may be a corner module block in the case of a wall or a slab of a building, wherein the outer block 10 and the inner block 20 are formed in a right angle A plurality of supporting bars 30 can be installed in a direction perpendicular to the direction of the tie, and they are rigidly fixed using a construction tie of a straight line or a right angle.

6 to 8, the outer block 10 and the semicircular protrusions 13 and 23 of the inner block 20 are adjacent to each other, as shown in FIGS. 6 to 8, The module block is engaged with the coupling grooves 14 and 24 of the module block. At this time, an adhesive or a sealant is filled between the projections and the coupling grooves, thereby improving airtightness and bonding force.

Also, a plurality of module blocks are assembled in a row on the foundation of a building in the same manner as described above, and another module block is stacked so as to be positioned between the module block and the module block. At this time, The protrusions 11 and 21 and the grooves 12 and 22 formed at the upper and lower ends of the main body 20 are laminated and interposed so as to be engaged with each other as shown in FIG.

That is, the outer block 10 and the protrusions 11 and 21 of the inner block 20 are stacked on both sides of the outer block 10 and the groove 12 and 22 of the inner block 20, So as to be engaged with each other.

The module block can be stacked by using the gap between the vertical reinforcing bars 200 installed in the building and the module block can be installed between the outer block 10 and the inner block 20 A horizontal reinforcing bar 100, a vertical reinforcing bar 200, and an electric wiring or water supply pipe.

The module block is stacked to construct a wall or a slab structure of a building and concrete is placed in a space between the outer block 10 and the inner block 20 in the module block to construct a wall or a slab of the building In this way, the module block is stacked for each layer of the building, and the construction work of the building is completed by pouring the concrete.

Therefore, since the exterior and interior materials are attached to the outer and inner blocks of the module block, it is not necessary to separately construct the exterior material and the interior material after the building is constructed, And the construction cost can be reduced.

Further, since the laminated construction work of the module block proceeds in the structure of the wall, it is possible to prevent a safety accident of the worker in a high-level work environment, and there is no need to install exterior materials and interior materials, And it is possible to reduce the amount of waste generated.

Further, since the module blocks stacked vertically are interlaced with each other by a plurality of protrusions and grooves, the durability of the building is enhanced by increasing the bonding force and the stress between the blocks.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It is possible to carry out various changes in the present invention.

10: outer block 11:
12: groove portion 13: projection
14: fastening groove 20: inner block
21: protruding portion 22:
23: projection 24: fastening groove
30: support bar 31: reinforcing bar
40: exterior material 41: insulation
50: interior material 100: horizontal reinforcement
200: vertical reinforcement

Claims (8)

An outer block 10 located on the outdoor side and having a rectangular shape as a whole and formed with a protrusion 11 and a groove 12 on a bottom surface and a top surface, respectively; And a protrusion 21 and a groove 22 are formed on the lower surface and the upper surface of the outer block 10 so as to be separated from the outer block 10 by a predetermined distance, An inner block 20 located on the indoor side; And a support bar (30) fixed to the outer block (10) and the inner block (30)
The protruding portion 11 of the outer block 10 is protruded downward on both sides of the inner edge portion of the lower end surface while the groove portion 12 is recessed in the center of the inner corner portion of the upper end surface, And a space in which a pair of projections 11 can be fitted and engaged,
The protrusion 21 of the inner block 20 protrudes downward on both sides of the outer edge of the bottom surface while the groove 22 is recessed in the center of the outer edge of the top surface, A space in which a pair of projections 21 can be fitted and engaged,
The support bar 30 is fixedly installed on the upper and lower sides of the reinforcing bars 31 installed in the outer block 10 and the reinforcing bars 31 built in the inner block 20, Wherein the reinforcing bars are fixed to the horizontal reinforcing bars (100) by bundling wires. delete delete delete delete delete delete delete

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