KR20190096744A - An Extendable Bracket for Foundation of a House and a Foundation Construction Method Using the Same - Google Patents

Abstract

The present invention provides a bracket for fixing insulation and arranging a reinforcing bar, which is possible to very conveniently perform foundation concrete construction, and a construction method using the same. The bracket includes: an L-shaped main body bracket capable of being used for connecting insulation of a side surface and a floor and capable of being used for connecting the insulation of the side surface and the side surface; a side surface bracket slidably expanded along each longitudinal direction of the main body bracket; and a lower end bracket. The main body bracket and the side surface bracket are fixed to the insulation of the side surface in a state of being overlapped with each other. The main body bracket and the lower end bracket are fixed to the insulation of the floor in the state of being overlapped with each other. The present invention has an insertion groove for holding the reinforcing bar on the bracket, thereby being convenient for arrangement of the reinforcing bar.

Description

An extendable bracket for foundation of a house and a foundation construction method using the same}

The present invention relates to a structure of a bracket used for foundation work of a house, and a method of foundation work of a house using the same.

In the construction of a passive house, the foundation of the house as well as the walls should be focused on insulation.

In the past, in constructing the foundation of a house, it was passive for complete insulation construction. However, since the ground has a large heat capacity as a solid medium, if the insulation is poorly constructed when constructing the foundation of the house, the heating cost of the house is inevitably increased.

The present invention has been made to solve the above-mentioned problems, in laying the foundation concrete, using the insulation directly as the formwork of the concrete, easy reinforcement of the foundation concrete, the reinforcement and the insulation to be reinforced on the foundation concrete firmly mutually Connected, there is no member that penetrates the heat insulating material can eliminate the thermal bridge phenomenon across the heat insulating material, the concrete leaks through the gap between the heat insulating material and the foundation concrete construction method that is not thermally bridged with the ground, and used in the foundation concrete construction method It is an object to provide a bracket structure.

Moreover, an object of this invention is to provide the basic concrete construction method which is easy to construct the base of the preservation | floor timber required for the construction of the basic concrete of a wooden house.

In order to solve the above problems, the present invention provides a bracket for fixing the insulation and reinforcement reinforcement, and a construction method using the same, which can make the basic concrete construction very convenient.

The bracket can also be used to connect the insulation of the side and the bottom and L-shaped body bracket that can also be used to connect the insulation of the side and side, and the side that slides along each longitudinal direction of the body bracket Brackets and bottom brackets.

The main body bracket and the side bracket are fixed with the insulation of the side in the state of overlapping each other and the main body bracket and the bottom bracket is fixed with the insulation of the floor in the state of overlapping each other, the insertion groove for mounting the reinforcing bar on the bracket is provided This is convenient.

Specifically, the present invention, the L-shaped main body bracket 10 which is generally vertical, the side bracket 30 connected to the side of the body bracket 10 and the bottom bracket connected to the lower side of the body bracket 10 It provides a base concrete construction bracket comprising a (50).

The main body bracket 10 includes: a first contact surface 11 in contact with a heat insulating material 60 on a side surface and having a fastening hole 13 formed along a length direction; A second contact surface 12 connected to the first contact surface 11 in a substantially vertical direction, in contact with a heat insulating material 60 on a side or bottom adjacent to the side, and having a fastening hole 13 formed along a length direction; Main body rib surfaces 15 extending inwardly substantially perpendicular to the first and second contact surfaces at both ends of the first and second contact surfaces; And a corner reinforcing groove 18 provided at a corner of the main rib surface 15 to accommodate and accommodate the reinforcing bars.

The side bracket (30): a part overlaps the inner surface of the first contact surface 11, the other is in contact with the heat insulating material 60 of the side, the side hole or the long hole (33) facing the fastening hole (13) Side contact surface 31 formed along the longitudinal direction; At both ends of the side contact surface 31 is substantially perpendicular to the side contact surface 31 and extends inward, at least a portion of the outer surface is in contact with the inner surface of the pair of body rib surface 15, the pair of A side rib surface 35 which is guided by the main rib surface 15 and slides in a direction parallel to the extending direction of the first contact surface 11; And a side reinforcement groove 38 provided at a portion extending further inwardly from the side rib surface 35 so as to mount the reinforcing bar and disposed at a position not overlapping with the main rib surface 15. do.

The lower bracket 50 is: a part overlaps the inner surface of the second contact surface 12, the other is in contact with the heat insulating material 60 of the bottom, the lower hole or the fitting hole facing the fastening hole 13 ( A lower contact surface 51 having 53 formed along the longitudinal direction; At both ends of the lower contact surface 51 is substantially perpendicular to the lower contact surface 51 and extends inward, at least a portion of the outer surface is in contact with the inner surface of the pair of body rib surface 15, the pair of A lower rib surface 55 which is guided by the main rib surface 15 and slides in a direction parallel to the extending direction of the second contact surface 12; And a lower rebar insertion groove 58 provided at an upper end of the lower rib surface 55 so as to mount the rebar, and disposed at a position not overlapping with the main rib surface 15. It is provided.

An inner surface of the main rib surface 15 guides a portion overlapping and contacting the side rib surface 35 or a portion overlapping and contacting the lower rib surface 55 in a slide movement direction, respectively, in a direction different from the slide movement direction. Expansion guide portion 17 is provided so as not to move to the side, and the side extension guide forming a complementary shape with the expansion guide portion 17 on the outer surface of the side rib surface 35 and the bottom rib surface 55, respectively The portion 37 and the lower extension guide portion 57 are provided.

In another aspect, the present invention further provides a foundation concrete construction method using the foundation concrete construction bracket.

First, the construction method, the step of performing a trench; Crushing rubble after digging; And stacking the insulation 60 on the bottom on the chopped rubble, and stacking the insulation 60 on the side around the insulation of the bottom.

Specifically, the bottom of the heat insulating material is stacked in two stages, the heat insulating material of the second end of the top is stacked so as to have a smaller area than the heat insulating material of the first end of the lower. And the heat insulating material of the side surface is placed on top of the bottom heat insulating material of the first end along the circumference of the heat insulating material of the bottom of the first end, the inner surface of the heat insulating material of the side surface placed on the heat insulating material of the bottom of the first end Stacking is in contact with the side of the heat insulating material of the bottom of the second stage.

Next, in the construction method, the first contact surface 11 and the second contact surface 12 of the main body bracket 10 at the portion where the heat insulating material on the side and the heat insulating material on the bottom cross each other. Arranged to be in contact with the upper surface of the heat insulating material, the side bracket (30) by sliding the body bracket to adjust the height, the bottom bracket (50) by sliding the relative to the body bracket to adjust the horizontal position Making; In the state in which the fastening hole 13 of the main body bracket 10 and the side hole of the side bracket 30 face each other, the heat insulating material screw 65 is driven into the heat insulating material of the side hole and the fastening hole. In the state in which the fastening hole 13 of the main body bracket 10 and the lower hole of the lower bracket 50 face each other, the insulating material screw 65 is driven into the bottom heat insulating material through the lower hole and the fastening hole. Fixing the insulation of the side and the insulation of the floor with a concrete construction bracket; And the first contact surface 11 and the second contact surface 12 of the main body bracket 10 are in contact with the inner surface of the heat insulating material of the two adjacent sides at the portion where the heat insulating materials of the two adjacent sides cross each other, and the fastening hole ( 13) driving the heat insulating material screw 65 into the heat insulating material of the side, and integrally fixing the heat insulating material of the two adjacent sides with the main body bracket (10).

Subsequently, the construction method includes mounting and reinforcing the reinforcing bars in the reinforcement insertion grooves 18, 38, and 58 of the base concrete construction bracket fixed with the insulation.

In addition, the construction method, while fixing the structural wood 81 to the upper surface of the heat insulating material of the side, and fixed to the inner surface of the structural wood 81, the inner surface of the plywood 82 is Arranging and fixing the water-resistant plywood 82 in a form connected with an inner surface of the heat insulating material of the side surface; And in the state in which a plurality of anchor bolts 72 are installed at predetermined intervals along the longitudinal direction of the retaining wood (71), along the longitudinal direction of the water-resistant plywood 82 to the inner surface of the water-resistant plywood 82 And horizontally fixing it.

In addition, the construction method comprises the step of filling up the outer space of the heat insulating material of the side; Placing and curing concrete so that the reinforcement is embedded in the base space defined by the insulation of the floor and the insulation of the side, and the anchor bolts 72 are embedded; And removing the structural wood 81 and the water-resistant plywood 82 after curing the concrete.

According to the present invention, the heat insulator is directly used as formwork for the base concrete, the reinforcement of the base concrete is easy, and the base concrete and the heat insulator are firmly interconnected.

In addition, thermal bridges may be blocked when the reinforcing bars and the insulation of the base concrete are connected to each other, and the thermal bridges may also be blocked through the cement paste of the concrete without falling into the gaps between the insulations.

In addition, the present invention is easy to construct the base of the pre-installed wood during the construction of a wooden house.

In addition, the bracket used for the foundation construction can be used not only to connect the insulation of the side wall and the insulation of the floor, but also can be used to connect the corner of the insulation of the side wall and the insulation of the side wall, the number of parts is small, the convenience of the contractor To provide.

In addition, the bracket can be used to adjust the height of the coupling with the insulation of the side wall, or the length of the coupling with the insulation of the floor, it can be used universally for the foundation concrete construction of different standards.

In addition to the effects described above, the specific effects of the present invention will be described together with the following description of specifics for carrying out the invention.

1 is an exploded perspective view of the basic concrete construction bracket of the present invention.
Figure 2 is a perspective view showing a form that each expands in the bracket of Figure 1 assembled state.
3 is a side view of the bracket of FIG. 2.
Figure 4 is a perspective view showing a process of connecting the insulation of the floor and the insulation of the side with a bracket.
Figure 5 is a perspective view showing a state in which both the insulation of the floor and the insulation of the side is connected by a bracket.
Figure 6 is a perspective view showing a state in which the bracket is mounted rebar.
7 is a perspective view showing the reinforcement process of the rebar.
8 is a perspective view showing a state in which rebars are reinforced and the height at which concrete is poured.
Figure 9 is a perspective view showing the structural wood and plywood and the foundation installed on the upper side of the insulation.
10 is a perspective view showing a state in which the concrete foundation construction is completed.

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

The present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, only this embodiment to make the disclosure of the present invention complete and to those skilled in the art to fully understand the scope of the invention It is provided to inform you.

[Bracket Structure]

Hereinafter, the structure of the basic concrete construction bracket of the present invention will be described with reference to FIGS. 1 to 3.

Bracket of the present invention, the L-shaped body bracket (10) as a whole vertical, the side bracket 30 connected to the side of the body bracket 10 and the bottom bracket connected to the lower side of the body bracket (10) And 50.

The body bracket 10 may be used to mutually fix the heat insulating material of the side and the bottom heat insulating material which will be described later in an assembled state with the side bracket 30 and the bottom bracket 50, and also separate the heat insulating material of the two side parts alone. Can be used to connect from

The main body bracket 10 is in contact with the heat insulating material 60 of the side, and is connected to the first contact surface 11 formed along the longitudinal direction, substantially perpendicular to the first contact surface 11, the neighboring side The second contact surface 12 is formed in contact with the heat insulating material 60 of the side or bottom, the fastening hole 13 is formed along the longitudinal direction.

The shapes of the first contact surface and the second contact surface may coincide with each other.

The fastening hole 13 is formed in a plurality of predetermined intervals spaced along the longitudinal direction of the first contact surface and the second contact surface.

At both ends of the first contact surface and the second contact surface, a pair of main body rib surfaces 15 extending inwardly and substantially perpendicular to the first contact surface and the second contact surface are provided.

That is, the first contact surface and the second contact surface are bent in an L shape as a whole, and the pair of main rib surfaces are also bent in an L shape as a whole.

In the corner portion where the pair of main rib surfaces meet, a concave groove-shaped corner reinforcing groove 18 is formed to accommodate the reinforcing bar.

The side bracket 30 includes a flat side contact surface 31 extending in the vertical direction, and a pair of side rib surfaces 35 extending vertically inward from both ends of the side contact surface 31.

An upper end portion of the side contact surface 31 is disposed above the first contact surface 11, and a lower portion thereof overlaps the inner surface of the first contact surface 11. Similarly, an upper end portion of the side rib surface 35 is disposed on an upper portion of the main rib surface 15 extending from the first contact surface 11, and a lower portion thereof contacts an inner surface of the main rib surface 15.

The side bracket 30 is guided by the first contact surface 11 and the main rib surface 15 connected to the first contact surface 11, and is slidably expanded in the vertical direction.

The thickness of the portion of the side contact surface 31 that does not overlap the first contact surface may be equal to the sum of the thicknesses of the portion of the side contact surface 31 and the first contact surface 11 overlapping each other.

Similarly, the thickness of the portion of the side rib surface 35 that does not overlap the main rib surface 15 is equal to the sum of the thicknesses of the portions of the side rib surface 35 and the main body rib surface 15 overlapping each other. can do.

The expansion bracket seating surface 16 provided on the main rib surface 15 overlaps the first seating surface 36 provided on the side rib surface 35, and the sum of the thicknesses thereof is the side rib surface 35. It may coincide with the thickness of the portion of the main rib surface 15 that does not overlap and the thickness of the side rib surface 35 that does not overlap with the main rib surface 15.

At the portion where the extension bracket seating surface 16 and the first seating surface 36 face each other, an extension guide part 17 and a side extension guide part 37 extending in the vertical direction, respectively, are provided. The extension guide part 17 may have a groove shape extending in the vertical direction, and the side extension guide part 37 may have a protrusion bar shape extending in the vertical direction and joined to the groove shape.

In a state in which the two guide parts 17 and 37 are engaged with each other, the side brackets 30 are slidable in the vertical direction, and movement in the other directions is limited.

The side contact surface 31 is provided with a side hole in the shape of a long hole 33 extending in the vertical direction. The long hole 33 faces the fastening hole 13 of the first contact surface 11. Therefore, the side bracket 30 can be finely adjusted and fixed to the body bracket (10).

The side rib surface 35 is provided with a side reinforcement groove 38 disposed inwardly than the main rib surface 15.

Next, the lower bracket 50 includes a flat lower contact surface 51 extending in a horizontal direction and a pair of lower rib surfaces 55 extending vertically upward from both ends of the lower contact surface 51. .

The distal end of the lower contact surface 51 extends longer than the second contact surface 12 so as not to overlap the second contact surface, and the proximal end overlaps the upper surface of the second contact surface 12. Similarly, the tip portion of the lower rib surface 55 extends longer than the main rib surface 15 extending from the second contact surface 12 so as not to overlap the main rib surface, and the proximal end of the main rib surface 15 It touches the inside.

The lower bracket 50 is guided by the main body rib surface 15 connected to the second contact surface 12 and the second contact surface 12 and slides to expand and contract in a horizontal direction.

The thickness of the portion of the lower contact surface 51 that does not overlap the second contact surface may correspond to the sum of the thicknesses of the overlapped portion of the lower contact surface 51 and the second contact surface 12.

Similarly, the thickness of the portion of the lower rib surface 55 that does not overlap the main rib surface 15 is equal to the sum of the thicknesses of the overlapping portion of the lower rib surface 55 and the main rib surface 15. can do.

The expansion bracket seating surface 16 provided on the main rib surface 15 overlaps the second seating surface 56 provided on the lower rib surface 55, and the sum of the thicknesses thereof is equal to the lower rib surface 55. The thickness of the portion of the main rib surface 15 that does not overlap may match the thickness of the lower rib surface 55 that does not overlap the main rib surface 15.

At the portions where the extension bracket seating surface 16 and the second seating surface 56 face each other, an extension guide part 17 and a lower extension guide part 57 extending in the horizontal direction are provided. The extension guide part 17 may have a groove shape extending in the horizontal direction, and the lower extension guide part 57 may have a protrusion bar shape extending in the vertical direction and joined to the groove shape.

In the state in which the two guide parts 17 and 57 are engaged with each other, the lower bracket 50 can be slidably moved in the horizontal direction, and movement in other directions is limited.

The lower contact surface 51 is provided with a plurality of fitting holes 53 at predetermined intervals in the horizontal direction. The spacing between the fitting holes 53 coincides with the spacing between the fastening holes 13. The fitting hole 53 faces the fastening hole 13 of the second contact surface 12. Therefore, the lower bracket 50 can be fixed and fixed in the horizontal direction by a predetermined interval with respect to the body bracket (10).

In the upper portion of the lower rib surface 55, a plurality of lower rebar insertion grooves 58 disposed above the main rib surface 15 are provided at equal intervals.

Of course, the side holes 33 may be provided at a plurality of equidistant intervals, such as a fitting hole, or the lower hole 53 may be provided long in the longitudinal direction, such as a long hole.

2 and 3, the surface of the side extension guide portion 37 and the surface of the lower extension guide portion 57 is provided with a mark for confirming the extension length can provide convenience to the construction worker.

For example, as shown in (a) of Fig. 2 and 3 is to use a standard 300mm up and down 200mm horizontally without extending the bracket, the shape such as (b) is to be used as a standard extended to 350mm vertical 250mm horizontal , (c) may be used as a standard extended to a horizontal 400mm up and down 300mm.

[Base Concrete Construction Method Using Bracket]

Hereinafter, a method of installing a concrete foundation will be described with reference to FIGS. 4 to 10.

First digging and mining rubble, and then install a heat insulating material (60) on the chopped rubble.

The step of installing the heat insulating material includes stacking the heat insulating material 60 of the bottom on the chopped rubble, and stacking the heat insulating material 60 of the side around the heat insulating material of the floor.

The bottom heat insulating material is piled in two steps, and the heat insulating material of the 2nd upper end is piled up so that it may become smaller than the heat insulating material of the 1st end of the lower part. By stacking the bottom heat insulating material in two stages, it prevents the cement paste of concrete mentioned later from leaking to the ground and becoming a path | pass of a thermal bridge. In addition, the heat insulating material of a side surface can be piled in the part which the lower 1st end protrudes more than the upper 2nd end, stacking by 2 steps.

Specifically, the heat insulating material of the side surface is placed on the top of the bottom heat insulating material of the first end along the circumference of the heat insulating material of the bottom of the first end, and the inner side surface of the heat insulating material of the side lying on the heat insulating material of the bottom of the first end. Is stacked to be in contact with the side of the heat insulating material of the bottom of the second end.

The connection pin 62 is fitted to a portion of the heat insulating material adjacent to each other as shown. That is, half of the widthwise direction of the connecting pin 62 in the form of a flat, long sheet of synthetic resin material is fitted into the heat insulating material on one side, and the other half of the connecting pin 62 in the width direction is connected to the heat insulating material on the side of the other side. Is fitted.

Therefore, the gap between the side portions of the heat insulating material facing each other is shielded by the connecting pin 62, so that the cement paste of the concrete leaks and the thermal bridge is blocked.

Next, using a bracket to fix the insulation of the side and the insulation of the floor integrally. To this end, first, the first contact surface 11 and the second contact surface 12 of the main body bracket 10 is the inner surface of the heat insulating material and the upper surface of the heat insulating material of the bottom at a portion where the heat insulating material of the side and the heat insulating material of the bottom intersect. Place it in contact with. Then, the side bracket 30 is slid to the main bracket to adjust its height, and the bottom bracket 50 is slid to the main bracket to adjust its horizontal position. At this time, the position is set so that the fastening hole 13 and the side hole 33 of the first contact surface 11 and the fastening hole 13 and the lower hole 53 of the second contact surface 11 face each other. .

In this state, through the side hole and the fastening hole to drive the heat insulating material screw 65 into the heat insulating material of the side, and penetrates the bottom hole and the fastening hole and the heat insulating material screw 65 into the heat insulating material of the floor, the foundation concrete The construction bracket is to fix the insulation of the side and the insulation of the floor integrally.

And, the portion where the heat insulating material of the two neighboring sides intersect with each other using the body bracket (10). Specifically, the first contact surface 11 and the second contact surface 12 of the main body bracket 10 are disposed so as to be in contact with the inner surface of the heat insulating material of two adjacent sides at the corner portion, and then penetrate the fastening hole 13. Then, the heat insulating material screw 65 is driven into the heat insulating material of the side surface, and the main body bracket 10 fixes the heat insulating material of two neighboring sides integrally.

Next, the reinforcing bars in the reinforcement insertion grooves (18, 38, 58) of the base concrete construction bracket fixed to the heat insulating material, weave the reinforcement at the same intervals. Since the spacing of the reinforcement grooves is provided in a standardized manner, the reinforcement spacing can be intuitively and accurately performed.

Basic concrete construction method of the present invention, when constructing the base concrete of a wooden house, there is another feature in that the installed buried timber that becomes the foundation 71 of the wooden house integrally embedded when placing concrete. To this end, in the present invention, the long wood-shaped structural timber 81 is fixed to the upper surface of the heat insulating material, and the water-resistant plywood 82 is fixed to the inner surface of the structural timber 81.

Since the heat insulating material is relatively soft to support the direct connection piece 811, first, the insulating material screw 65 is driven into the upper end of the heat insulating material as shown in FIG. 9, and then the direct connection piece 811 is placed thereon. ) To be fixed to the heat insulating material screw (65).

When the structural wood 81 is installed and fixed to the upper end of the heat insulating material, it may be easier to proceed with the work in the state where the water-resistant plywood 82 is first installed on the structural wood 81. That is, in the state where the water-resistant plywood 82 is fixed to the inner surface of the structural wood 81, the structural wood 81 can be fixed to the upper end of the heat insulating material.

At this time, the inner surface of the inner plywood 82 is aligned so as to be connected to the inner surface of the heat insulating material of the side and can fix the structural wood 81.

Next, before placing concrete, the preservative wood 71 which becomes the foundation of a wooden house is first fixed to the said domestic plywood 82.

When fixing the retaining wood 71 to the waterproofing plywood 82, fixing the retaining wood to the waterproofing plywood 82 in a state where a plurality of anchor bolts 72 are installed at predetermined intervals along the longitudinal direction of the retaining wood 71. It is advantageous to.

An anchor bolt 72 is provided with the pre-installed splint 71 is horizontally fixed to the inner surface of the water-resistant plywood 82 along the longitudinal direction of the water-resistant plywood 82.

The splint 71 may be fixed through the screw 821 on the back surface of the water-resistant plywood 82, and when fixing the splint 71, the horizontal level of the splint 71 is confirmed and fixed.

Subsequently, after filling the outer space of the heat insulating material on the side surface and filling it, the reinforced steel is embedded in the base space defined by the heat insulating material on the floor and the heat insulating material on the side, and the concrete so that the anchor bolt 72 is embedded. Pour and cure.

After curing the poured concrete, the structural wood 81 and the water-resistant plywood 82 are removed as shown in FIG.

According to the present invention, since the base 71 and the anchor bolt 72 are installed before the concrete, the level work time can be shortened, the structural performance is improved and the convenience of subsequent work is increased. And according to the invention, it is possible to form an even concrete cover (20 to 60 mm per site).

As described above, the present invention has been described with reference to the drawings, but the present invention is not limited to the embodiments and drawings disclosed herein, and various modifications may be made by those skilled in the art within the scope of the technical idea of the present invention. It is obvious that modifications can be made. For example, the wooden house exemplified in the present invention is an example, and the bracket of the present invention and the method of constructing the foundation concrete using the same can be applied to the foundation of various buildings.

In addition, even if the above described embodiments of the present invention while not explicitly described and described the operation and effect according to the configuration of the present invention, it is obvious that the effect predictable by the configuration is also to be recognized.

10: Body Bracket
11: first contact surface
12: second contact surface
13: fastener
15: main body rib surface
16: Expansion Bracket Seat
17: Extension guide part (groove)
18: Corner Reinforcement Slot
30: side bracket
31: side contact surface
33: long hole (side hole)
35: side rib surface
36: first seating surface
37: side extension guide part (protrusion bar)
38: Side rebar insertion groove
50: bottom bracket
51: bottom contact surface
53: fitting hole (lower hole)
55: bottom rib surface
56: second seating surface
57: lower extension guide portion (protrusion bar)
58: bottom reinforcement groove
60: insulation
62: connecting pin
65: insulation screw
71: foundation
72: anchor bolt
81: structural tree
811: direct connection piece
82: plywood
821: screw
90: concrete
95: rebar

Claims (3)

L-shaped body bracket 10 which is generally vertical, a side bracket 30 connected to the side of the body bracket 10 and a lower bracket 50 connected to the lower side of the body bracket 10 Bracket for foundation concrete construction,
The body bracket 10 is:
A first contact surface 11 in contact with the heat insulating material 60 on the side surface and having a fastening hole 13 formed along the length direction;
A second contact surface 12 connected to the first contact surface 11 in a substantially vertical direction, in contact with a heat insulating material 60 on a side or bottom adjacent to the side, and having a fastening hole 13 formed along a length direction;
Main body rib surfaces 15 extending inwardly substantially perpendicular to the first and second contact surfaces at both ends of the first and second contact surfaces; And
And a corner rebar insertion groove 18 provided at a corner portion of the main rib surface 15 to accommodate and accommodate the rebar.
The side bracket 30 is:
A part overlaps an inner surface of the first contact surface 11, and the other part is in contact with the heat insulating material 60 of the side, and a side hole or a long hole 33 facing the fastening hole 13 is formed along the longitudinal direction. Contact surface 31;
At both ends of the side contact surface 31 is substantially perpendicular to the side contact surface 31 and extends inward, at least a portion of the outer surface is in contact with the inner surface of the pair of body rib surface 15, the pair of A side rib surface 35 which is guided by the main rib surface 15 and slides in a direction parallel to the extending direction of the first contact surface 11; And
And a side reinforcement insertion groove 38 provided at a portion extending further inwardly from the side rib surface 35 so as to mount the rebar, and disposed at a position not overlapping with the main rib surface 15. ,
The lower bracket 50 is:
A part overlaps an inner surface of the second contact surface 12, and the other part contacts the heat insulating material 60 of the bottom, and a bottom hole or a fitting hole 53 facing the fastening hole 13 is formed along the length direction. Bottom contact surface 51;
At both ends of the lower contact surface 51 is substantially perpendicular to the lower contact surface 51 and extends inward, at least a portion of the outer surface is in contact with the inner surface of the pair of body rib surface 15, the pair of A lower rib surface 55 which is guided by the main rib surface 15 and slides in a direction parallel to the extending direction of the second contact surface 12; And
A lower bracket 50 including a lower reinforcing bar insertion groove 58 provided at an upper end of the lower rib surface 55 so as to mount the rebar, and disposed at a position not overlapping with the main rib surface 15. Bracket for foundation concrete construction, characterized in that it comprises a.
The method according to claim 1,
An inner surface of the main rib surface 15 guides a portion overlapping and contacting the side rib surface 35 or a portion overlapping and contacting the lower rib surface 55 in a slide movement direction, respectively, in a direction different from the slide movement direction. Expansion guide portion 17 for regulating not to move to the provided is provided,
On the outer surfaces of the side rib surface 35 and the bottom rib surface 55, a side extension guide portion 37 and a bottom extension guide portion 57 are formed to have a complementary shape with the extension guide portion 17, respectively. Foundation concrete construction brackets.
As a method of foundation concrete construction using the bracket for foundation concrete construction of claim 1 or 2,
Performing a trench;
Crushing rubble after digging;
Stacking the heat insulating material 60 at the bottom in two stages on the crushed rubble, and stacking the heat insulating material at the upper second end so as to have an area smaller than the heat insulating material at the lower first end;
Stacking the side insulation (60) around the insulation of the bottom;
The first contact surface 11 and the second contact surface 12 of the main body bracket 10 is disposed in contact with the inner surface of the heat insulating material and the upper surface of the heat insulating material of the floor at a portion where the heat insulating material of the side and the heat insulating material of the bottom intersect. Sliding the side brackets (30) with respect to the body bracket to adjust their heights, and adjusting the horizontal position by sliding the bottom bracket (50) with respect to the body brackets;
In the state in which the fastening hole 13 of the main body bracket 10 and the side hole of the side bracket 30 face each other, the heat insulating material screw 65 is driven into the heat insulating material of the side hole and the fastening hole. In the state in which the fastening hole 13 of the main body bracket 10 and the lower hole of the lower bracket 50 face each other, the insulating material screw 65 is driven into the bottom heat insulating material through the lower hole and the fastening hole. Fixing the insulation of the side and the insulation of the floor with a concrete construction bracket;
The first contact surface 11 and the second contact surface 12 of the main body bracket 10 are disposed to be in contact with the inner surface of the heat insulating material of the two neighboring sides at the portion where the heat insulating materials of the two adjacent sides intersect, and the fastening hole 13 Penetrating the heat insulating material screw 65 into the heat insulating material of the side, and integrally fixing the heat insulating material of two neighboring sides with the main body bracket 10;
Mounting and weaving reinforcing bars in the reinforcement insertion grooves (18, 38, 58) of the base concrete construction bracket fixed with the insulation;
The structural wood 81 is fixed to the upper surface of the heat insulating material of the side, and the water-resistant plywood 82 is fixed to the inner surface of the structural wood 81, the inner surface of the water-resistant plywood 82 is the inner surface of the heat insulating material of the side Arranging and fixing the water-resistant plywood 82 in a form connected with the fixing plate;
In a state in which a plurality of anchor bolts 72 are installed at predetermined intervals along the longitudinal direction of the splint 71, the splint is horizontally disposed on the inner surface of the waterproofing plywood 82 along the longitudinal direction of the waterproofing plywood 82. Fixing to;
Filling and filling the outer space of the insulation of the side;
Placing and curing concrete so that the reinforcement is embedded in the base space defined by the insulation of the floor and the insulation of the side, and the anchor bolts 72 are embedded; And
Removing the structural wood (81) and water-resistant plywood (82) after curing the concrete; basic concrete construction method comprising a.

Images