KR101385554B1 - Prefabricated construction using half slab - Google Patents

Abstract

The present invention relates to a prefabricated building structure using a half slab, wherein a rectangular trench is formed in a bottom concrete facing the lower end of the outer wall and the corner wall so that the lower end of the wall is seated; The trench incorporates a rectangular shaped stirrup which is integrally woven according to the shape of the trench, so that the exposed portions of the outer wall and the lower end reinforcing bars are fixed; In the trench, the foundation concrete is laid so that the lower part of the stirrup and the wall are embedded.
These stirrups have a rectangular frame shape with the ribs, tops, bottoms, and sides of each other intertwined to form a rectangular frame, so that even if a partial load is applied to a part of the stirrups, It is dispersed throughout the whole of the stirrup as it passes through the neighborhoods and neighborhoods. Therefore, even if a load is applied to a part of the stirrup because the strength of the ground is not uniform, the load is dispersed throughout the stirrup, so that a part of the stirrup is prevented from shearing, thereby supporting the structure relatively stably.

Description

[0001] Prefabricated construction using half slab [0002]

The present invention relates to a prefabricated building structure using a half slab, and more particularly, to a prefabricated building structure capable of stably supporting an architectural structure even when partial settlement occurs in a soft foundation, The present invention relates to an architectural structure.

As is well known, houses and various buildings corresponding to them are constructed of reinforced concrete structures on foundation concrete, and various stages of construction such as masonry and plastering are required. Therefore, the construction cost and the construction cost are excessively increased, There is a problem in that the construction period is long, and there is difficulty in remodeling and defect repair work once the construction is completed.

In recent years, a prefabricated house has been constructed in which a construction module is transported to a construction site and assembled in advance in a factory so as to minimize the construction cost and minimize the construction period.

The conventional prefabricated house has drawbacks in that the airtightness of the assembled joint portion is lowered due to the use of a steel container or wood or the like, and the overall rigidity and structural stability of the completed building deteriorate.

In consideration of the structural stability of building various buildings including a house using a concrete steel structure, Korean Unexamined Patent Publication No. 2005-0039399 (Apr. 29, 2005) proposes a projection and a groove in a connection portion of each wall, There has been disclosed a movable concrete assembly building in which an insertion hole is formed in a foundation plate on which a bottom plate and a wall are fixed to each other so that strength is increased due to rigid fastening and leakage and dew condensation are prevented. There is a disadvantage that the airtightness of the joint part of the wall is lowered, the slab construction for forming a multi-layer structure in the building is difficult, and the roof is made of a truss and a panel, not a slab structure.

In order to solve these problems, the present applicant has developed and applied a prefabricated building structure using a half slab (Patent Application No. 2012-0003642).

Such a conventional prefabricated building structure using a half slab has a reinforced concrete block structure in which a seating surface perpendicular to the inside is formed on the upper surface, a projection is formed on one side, and a fitting groove is formed on the other side A plurality of outer walls; A reinforced concrete block structure in which a vertical surface is formed on an upper surface and a protrusion is formed on one side surface and a fitting groove is formed on the other surface of the reinforcing concrete block, A corner wall; A bottom concrete laid on a foundation concrete of a construction site, wherein the reinforcing bars are exposed on the side walls so as to be integrally assembled with the outer wall and the lower end of the corner wall; A plurality of ceiling half slabs arranged in close contact with each other to form a ceiling of a building and the frame ends being seated on a seating surface of the outer wall and a seating surface of the corner wall; A plurality of half slabs for roofs which are in close contact with each other while covering the ceiling half slab and whose edge ends are assembled integrally with the upper surface of the outer wall; A half slab for layer classification in which a frame end is integrally assembled to an inner surface of an outer wall; And a topping concrete laid on the top surface of the half slab for ceiling and the half slab for roof including the half slab for layer classification.

In order to erect the outer wall and the corner wall vertically, the floor structure is first placed on the foundation concrete of the construction site, the T-shaped horizontal holding plate is fixed in the trench, Set up the outer wall and the corner wall on the top of the plate. Then, the outer wall and the corner wall are fixed to the horizontal holding plate by using the anchor bolts, and the topping concrete is placed in the trench and closed.

However, such a conventional prefabricated building using half slabs has a structure in which a weighted outer wall and a corner wall are supported by a T-shaped horizontal holding plate.

Accordingly, the prefabricated building structure having such a structure can be applied to a small-sized building structure having a single-layer structure, but it is not suitable for a multi-layered building structure. As the number of floors of the prefabricated building structure increases, more vertical load acts on the horizontal holding plate of weak structure.

If a part of the ground is subsided due to a heavy load applied to the horizontal holding plate of weak structure, an unreasonable load acts on the horizontal holding plate of the lowered portion, so that the horizontal holding plate of the weak structure is easily sheared , Thereby causing a safety accident that collapses the building structure.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problems described above and provide a prefabricated building structure using a half slab capable of stably supporting an architectural structure even when partial settlement occurs in a soft foundation.

It is another object of the present invention to provide a prefabricated building structure using a half slab that can easily arrange the rests of a stirrup.

In order to accomplish the above object, the present invention provides a prefabricated building structure using a half slab, comprising: a top surface having a seating surface vertically facing inwardly, a projection formed on one side thereof, A plurality of outer walls made of a concrete block structure; A reinforced concrete block structure in which a vertical surface is formed on an upper surface and a protrusion is formed on one side and a fitting groove is formed on the other side, A corner wall; A bottom concrete laid on a foundation concrete of a construction site, wherein the reinforcing bars are exposed on the side walls so as to be integrally assembled with the outer wall and the lower end of the corner wall; A plurality of ceiling half slabs arranged in close contact with each other to form a ceiling of a building and the frame ends being seated on a seating surface of the outer wall and a seating surface of the corner wall; A plurality of half slabs for roofs which are in close contact with each other while covering the ceiling half slab and whose edge ends are assembled integrally with the upper surface of the outer wall; A half slab for layer classification in which a frame end is integrally assembled to an inner surface of an outer wall; And a topping concrete laid on the upper surface of the half slab for ceiling and the half slab for roof; The bottom concrete facing the lower end of the outer wall and the corner wall is formed with a rectangular-shaped trench so that the lower end of the wall is seated; The trench incorporates a rectangular shaped stirrup which is integrally woven according to the shape of the trench so that the exposed portions of the outer wall and the lower end reinforcing bar of the corner wall are fixed; The trench is characterized in that the topping concrete is cast so that the bottom of the stirrup and the wall is embedded.

Another feature of the prefabricated building structure using half slabs according to the present invention is that the stirrups are arranged at equal intervals along the horizontal direction in a state where the rectangular shaped stands are vertically erected, A plurality of upper portions are connected horizontally along a rectangular shape in which the ribs are arranged and a plurality of lower portions are connected horizontally along a rectangular shape in which the ribs are arranged at the lower portion of the ribs, And a plurality of side roots are connected to the outer side of the ribs.

Another feature of the prefabricated building structure using the half slab of the present invention is that the shutters of the stirrup are arranged so as to have an interval of 5 to 15 cm and between the upper and lower sides, Cm. ≪ / RTI >

Another feature of the prefabricated building structure using the half slab of the present invention is that the clutters are coupled horizontally along the direction of arrangement of the openings so that the openings of the stirrup are supported between the openings and the openings are vertically arranged. A support portion coupled to the guide rod so as to be slidably engaged with the guide rod, an extension portion having one end integrally connected to the support portion, and a support portion formed at the other end of the extension portion, .

In the present invention as described above, a plurality of vertically erected rectangular shaped shelves are arranged in the trench opposed to the lower ends of the outer wall and the corner wall, and upper portions are coupled to the upper portions of the ribs, The lower part is connected to the lower parts, and the side parts are connected to both sides of the rooms. These stirrups have a rectangular frame shape with the ribs, tops, bottoms, and sides of each other intertwined to form a rectangular frame, so that even if a partial load is applied to a part of the stirrups, It is dispersed throughout the whole of the stirrup as it passes through the neighborhoods and neighborhoods. Therefore, even if a load is applied to a part of the stirrup because the strength of the ground is not uniform, the load is dispersed throughout the stirrup, so that a part of the stirrup is prevented from shearing, thereby supporting the structure relatively stably.

In the present invention, both sides of the crotch are connected to the crotch coupling portion so that the crotch is arranged at regular intervals in a state of standing vertically. Therefore, it is possible to easily arrange a plurality of shelves in the form of a rectangular frame by the clamp, so that it is possible to easily and quickly fix the upper, lower, and side walls to the shelves.

1 is an exploded perspective view showing a prefabricated building structure using a half slab according to the present invention;
2 is a cross-sectional view showing a prefabricated building structure using a half slab according to the present invention
Fig. 3 is a plan view of the stirrup of the present invention
Figure 4 is a perspective view of the clamp
5 is a schematic perspective view showing a state in which a clamp is coupled to one side of the shelf of the present invention.

Specific features and advantages of the present invention will become more apparent from the following description taken in conjunction with the accompanying drawings.

The present invention focuses on the fact that the lower part of the building structure is stably supported in the prefabricated building structure using the half slab. In order to facilitate understanding of the present invention, the illustration of the window system including the doors and the windows is omitted .

FIG. 1 is an exploded perspective view showing a prefabricated building structure using a half slab according to the present invention, FIG. 2 is a sectional view showing a prefabricated building structure using a half slab according to the present invention, and FIG. 3 is a plan view of the present invention.

The present invention is based on the finding that the present invention can be applied to the construction of a concrete structure having an outer wall 10, a corner wall 20, a floor concrete 40, a ceiling half slab 50, a half slab 60 for a roof, a half slab 70 for a floor, (80), a trench (41), and a stirrup (100).

The outer wall 10 includes a reinforcing concrete block structure 12 having a seating surface 14 formed vertically facing inwardly on the upper surface thereof and a projection 11 formed on one side thereof and a fitting groove 12 formed on the other side thereof. .

The corner wall 20 includes a reinforcing concrete block structure 20 having a seating surface 23 formed vertically inwardly on the upper surface thereof and a projection 21 formed on one side thereof and a fitting groove 22 formed on the other side thereof. And is disposed at each corner when the outer wall 10 is assembled.

The outer wall 10 and the corner wall 20 can be tensioned by joining the PC steel wire to increase the bonding force therebetween.

The bottom concrete 40 is laid on the foundation concrete 30 of the construction site and the bottom of the outer wall 10 and the corner wall 20 and the bottom concrete of the foundation concrete 30, And the upper part of the stirrup 100 is embedded in the bottom concrete 40 so that the wall, the foundation concrete 30 and the stirrup 100 are integrated.

The ceiling half slabs 50 are arranged in close contact with each other so as to form a ceiling of the building and the edge portions are seated on the seating surface 14 of the outer wall 10 and the seating surface 23 of the corner wall 20, Assembled.

The roof half slabs 60 are in close contact with each other while covering the ceiling half slabs 50, and the rim end portions are assembled integrally with the upper surface of the outer wall 10.

The half slabs 70 for layer division are horizontally structured bodies for layering buildings, and the edges of the half slabs 70 are integrally assembled to the inner surface of the outer wall 10.

The topping concrete 80 is laid on the upper surfaces of the ceiling half slab 50 and the roof half slab 60 including the half slab 70 for layer classification.

The trench 41 is formed in a rectangular shape so as to seat the outer wall 10 and the bottom wall of the corner wall 20 and the stub 100 and the outer wall 10 and the bottom wall of the corner wall 20 And the foundation concrete 30 is installed in a state where these are seated.

The stirrup 100 is provided in a rectangular shape integrally woven in accordance with the shape of the trench 41 and is embedded in the trench 41 so that the upper end of the stirrup 100 is exposed to the upper portion of the trench 41, The exposed portion of the lower wall 10 and the lower end wall 15 of the corner wall 20 are bound to the upper end of the stirrup 100 by a binding line or welded by gas welding.

The foundation concrete 30 is installed in the trench 41 so that the stirrup 100 and the lower part of the wall are embedded.

Here, the stirrup 100 is arranged at regular intervals along the horizontal direction in a state where the rectangular shelves 101 are vertically erected, and a shelter 101 is provided on the upper portions of the plurality of shelves 101 arranged in a rectangular shape. A plurality of topsides 103 are connected horizontally along a rectangular shape in which the plurality of tops 103 are arranged. A plurality of lower bridges 102 are horizontally connected to the lower portion of the shelves 101 along a rectangular shape in which the shelves 101 are arranged and the inner sides of the shelves 101 arranged in a rectangular shape and the ribs 101 A plurality of side roots 104 are connected to the outer side.

The shutters 101 of the stirrup 100 are arranged to have an interval of 5 to 15 cm.

When the distance between the stops 101 is less than 5 cm, the strength of the stirrup 100 is not greatly increased, but the number of the stops 101 is unnecessarily increased, . If the spacing of the stops 101 exceeds 15 cm, the strength of the stirrup 100 is lowered, thereby increasing the risk of a safety accident. Therefore, the distance between the stops 101 is most preferably 5 to 15 cm.

Between the topsides 103, between the bottoms 102, and between the side walls is arranged to have an interval of 3-8 cm.

The strength of the stirrup 100 is not greatly increased when the distance between the upper and lower circumferential sides 103 and 102 and the distance between the adjacent sides is less than 3 cm, 102 and the number of the side roots 104 are unnecessarily increased, which results in a large increase in the number of assembling processes and manufacturing costs. If the distance between the upper vicinity 103 and the lower vicinity 102 and the distance between the adjacent sides exceeds 8 cm, the strength of the stirrup 100 is lowered and the risk of a safety accident is increased. Accordingly, it is most preferable to arrange to have a gap of 3 to 8 cm between the upper vicinity 103, between the lower vicinity 102, and between the nearer side.

The prefabricated building structure using the half slab of the present invention having the above-described structure is constructed as follows.

As shown in FIGS. 1 and 2, a trench 41 for forming an outer wall is formed on a rim of the construction site, a stirrup 100 is built in the trench 41, and a trench (not shown) 41, the bottom portion of the trench 41 is buried in the foundation concrete 30 because the foundation concrete 30 is laid.

Preferably, the bottom end of the stirrer 100 is buried together with the base concrete 30 when the base concrete 30 is poured into the trench 41. On the surface of the base concrete 30 placed on the trench 41, The upper portion of the stirrup 100 for assembling the wall 20 is present.

Here, the outer wall 10 and the corner wall 20 constituting the wall of the desired building structure (housing, water tank, parking lot, etc.) and the partition wall 90 for partitioning the space in the wall are formed in the manufacturing plant by the reinforced concrete structure .

The outer wall 10 is 1000 mm in width and 220 mm in thickness, and the length (height) is adjusted according to the type of construction construction structure.

More specifically, the upper surface of the outer wall 10 is formed with a seating surface 14 that forms a vertical step toward the inner side, a wedge-shaped projection 11 is integrally protruded on one side, The upper and lower ends of the reinforcing bars 15 are arranged so that the upper and lower ends of the reinforcing bars 15 are exposed to the outside, .

The corner wall 20 is formed at each corner of the outer wall 10 in a state where the outer walls 10 are erected and is manufactured in advance as a reinforced concrete structure in a manufacturing plant like the outer wall 10, So that it is manufactured in a structure having a right angle section.

More specifically, the corner wall 20 is formed with a seating surface 23 having a vertical step difference in the inward direction on its top surface, a wedge-shaped projection 21 formed on one side, 22 are formed, and a certain length of the reinforcing bars 15 is exposed on the upper and lower surfaces.

Therefore, while the plurality of outer walls 10 and the corner walls 20 provided as described above are erected and the protrusions 11 and 21 and the fitting grooves 12 and 22 are mutually inserted and inserted into the outer walls 10 And the lower end portion of the corner wall 20 are drawn into the trench 41 and then the outer wall 10 and the corner wall 20 are seated on the upper portion of the stirrup 100.

After the outer wall 10 and the corner wall 20 are vertically erected as described above, the reinforcement 15 exposed through the bottom surface of the outer wall 10 and the corner wall 20 is inserted into the wall of the stirrup 100 The upper part of the stirrup 100 including the reinforcing bar 15 and the lower part of the wall are exposed to the outside by placing the floor concrete 40 on the upper part of the foundation concrete 30 after the upper part is integrally woven or gas- .

The prefabricated building structure using the half slab of the present invention has the following advantages.

The present invention is characterized in that a plurality of vertically erected rectangular shaped stands 101 are arranged in a rectangular frame in the trench 41 facing the outer wall 10 and the lower end of the corner wall 20, And the side roots 104 are connected to both sides of the ribs 101. The ribs 102 are connected to the lower ends of the ribs 101. The ribs 102 are connected to the lower ribs 102,

This stirrup 100 is formed by partially securing the ground 101 by the ribs 101, the upper side 103, the lower side 102 and the side 104, The load is transmitted to the entirety of the locks 101 through the upper and lower sides 103 and 104 and the side roots 104 so that the load is distributed to the entirety of the stirrup 100 do.

Therefore, even if an excessive load is applied to a part of the stirrup 100 because the strength of the ground is not constant, the load is dispersed throughout the stirrup 100, so that the problem of shearing a part of the stirrup 100 is prevented, And is stably supported.

Since the bottom portion of the outer wall 10 and the corner wall 20 and the upper portion of the foundation concrete 30 and the upper portion of the stirrup 100 are embedded in the bottom concrete 40 due to the placement of the bottom concrete 40, The foundation concrete 30 and the stirrup 100 are integrated with each other.

4 and 5 are schematic perspective views showing another embodiment of the present invention. FIG. 4 is a perspective view showing a clamp, and FIG. 5 is a schematic perspective view showing a state where a clamp is coupled to one side of the stirrup of the present invention.

The clamp 110 is coupled to the rack 101 of the stirrup 100 according to the present invention such that the racks 101 are supported vertically by supporting the racks 101 therebetween.

The clamp 110 includes a guide rod 111 formed horizontally long along the arrangement direction of the supports 101 and a support member 111 coupled to the guide rod 111 to be slid along the guide rod 111. [ An extension portion 113 integrally connected to the support portion 112 at one end and a retaining portion 114 formed at the other end of the extension portion 113 and coupled to a corresponding portion of the stay 101 ).

In the present invention, both sides of the telescope 101 are coupled to the telescopic engaging portion 114 of the clamp 110 so that the telescopes 101 are vertically erected and arranged at regular intervals.

The clamp 110 can easily arrange a plurality of the shelves 101 in the form of a rectangular frame so that the upper side 103, the lower side 102 and the side 104 are fixed to the shelves 101 Can be performed easily and quickly.

Further, the clamp 110 is provided such that the support portion 112 slides along the guide rod 111. [ Therefore, the spacing between the supports 101 can be adjusted by sliding the support portion 112 along the guide rod 111 with ease.

The present invention is characterized in that the vicinity 102 is arranged in accordance with the arrangement direction of the stirrups 100 and the clamps 110 are arranged on one side near the bottom, ).

The lower portion and the lower portion (102) of the stay (101) arranged by the clamp (110) are fixed by welding or by separate wires or the like. The upper side 103 and the side 104 are arranged on the upper side of the tub 101 and the inner side of the tub 101 and are then joined together by welding or wire as described above.

The clamp 110 may be embedded inside the trench 41 while being coupled to the stop 101 of the stirrup 100. The clamp 110 may be embedded in the upper, ), And the side roots 104 may be fixed and then separated from the rib 101. When the clamp 110 is separated from the outer surface of the rack 101, the clamp 110 engages the lateral roots 104 with the outer surface of the separated rack 101.

10: outer wall 11, 21:
12, 22: Fitting groove
14,23: Seat face 15,31: Reinforcing
20: corner wall 30: foundation concrete
40: bottom concrete 41: trench
50: Half slab for ceiling 60: Half slab for roof
70: Half slab for floor division 80: Topping concrete
90: partition wall 100: stirrup
101: House 102: Near the house
103: Upper side 104: Entourage
110: clamp 111: guide rod
112: support part 113: extension part
114:

Claims (5)

A plurality of outer walls 14 made of a reinforced concrete block structure in which a projection 11 is formed on one side and a fitting groove 12 is formed on the other side, (10);
A reinforced concrete block structure is formed on the upper surface of which a vertical seating surface 23 is formed and a projection 21 is formed on one side and a fitting groove 22 is formed on the other side. 10; a corner wall 20 of a rectangular shape disposed at each corner when assembled;
The bottom concrete (30) is placed on the foundation concrete (30) of the construction site so that the lower end of the outer wall (10) and the lower end of the corner wall (20) 40);
A plurality of ceiling half slabs which are closely arranged to each other so as to form a ceiling of the building and whose edge ends are seated on the seating surface 14 of the outer wall 10 and the seating surface 23 of the corner wall 20 50);
A plurality of half slabs for roofs 60 which are in close contact with each other while covering the ceiling half slab 50 and whose edge ends are assembled integrally with the upper surface of the outer wall 10;
A half slab (70) for dividing a floor, in which a rim end is integrally assembled to an inner surface of an outer wall (10) as a horizontal structure for layering a building;
And a topping concrete (80) laid on the upper surface of the roof half slab (50) and the roof half slab (60), including the half slab (70) for floor classification;
In the construction site opposed to the outer wall 10 and the lower end of the corner wall 20, a rectangular-shaped trench 41 is formed so that the lower end of the wall is seated;
The trench 41 has a rectangular shaped stirrup 100 integrally woven in accordance with the shape of the trench 41 to fix the exposed portion of the outer wall 10 and the lower end reinforcement of the corner wall 20;
Wherein the foundation concrete (30) is installed in the trench (41) so that the lower part of the stirrup (100) and the lower part of the wall are embedded.
The stirrer (100) according to claim 1,
The rectangular shelves 101 are arranged at equal intervals along the horizontal direction in a vertically erected state,
A plurality of tops (103) are connected horizontally along the rectangular shape in which the shelves (101) are arranged on the upper part of the plurality of shelves (101) arranged in a rectangular shape,
A plurality of lower legs 102 are horizontally connected to the lower ends of the legs 101 along a rectangular shape in which the legs 101 are arranged,
Wherein a plurality of side walls (104) are connected to an inner side surface of the shelves (101) arranged in a rectangular shape and an outer side surface of the shelves (101).
The method of claim 2,
The shutters 101 of the stirrup 100 are arranged to have an interval of 5 to 15 cm,
And the upper side (103), the lower side (102), and the side walls are spaced by 3 to 8 cm.
The method of claim 2,
The clamps 110 are coupled to the shutters 101 of the stirrup 100 so that the shutters 101 are supported vertically by supporting the shutters 101,
In this clamp 110,
A supporting part 112 which is coupled to the guide rod 111 so as to be slid along the guide rod 111 and a supporting part 112 which is coupled to the guide rod 111, An extended portion 113 integrally connected to the support portion 112 and a resilient coupling portion 114 formed at the other end of the extended portion 113 and coupled to a corresponding portion of the stay 101 Prefabricated building structure using half slab.
The method according to claim 1,
In the trench 41, the stirrup 100 is seated so that the upper portion of the stirrup 100 is exposed to the outside of the upper portion of the trench 41; The foundation concrete 30 is installed in the trench 41 so that the stirrup 100 except for the upper end of the stirrup 100 is buried;
The lower end of the reinforcing bar 15 embedded in the outer wall 10 and the corner wall 20 is fixed to the upper portion of the stirrup 100 exposed to the outside of the foundation concrete 30;
A bottom concrete 40 is laid on the upper part of the foundation concrete 30, the upper part of the stirrup 30, the outer wall 10 and the lower part of the corner wall 20,
Wherein a bottom portion of the outer wall 10 and the corner wall 20 and an upper portion of the foundation concrete 30 and an upper portion of the stirrup 100 are integrated by the bottom concrete 40, Architectural structures.

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