KR20120004820A - Slab form bracket and method for constructing slab of an iron architect using thereof - Google Patents

Abstract

PURPOSE: A slab form bracket and a steel frame construction using the same are provided to conveniently install a slab form using a slab form bracket and to easily remove the slab form bracket and a slab form after molding a slab. CONSTITUTION: A slab form bracket is configured as follows. A bracket body(10) is formed in the shape of a channel having a U-type cross section. A pair of coupling members(20) are installed opposite to each other on the horizontal plane of the bracket body. A gap is formed between a hanging part(21) of each coupling member and the bracket body. Yoke supports(40) are installed on both ends of the bracket body and allowed to control the height.

Description

SLAB FORM BRACKET AND METHOD FOR CONSTRUCTING SLAB OF AN IRON ARCHITECT USING THEREOF}

The present invention is easy to install on the steel beam, using the slab foam bracket and slab foam bracket that can be easily removed from the steel beam after the slab construction, it is convenient to install the slab foam, slab foam bracket and slab after slab molding The present invention relates to a slab construction method of steel-framed structures using slab foam brackets and slab foam brackets that can be easily dismantled from steel beams, as well as slab foam brackets.

Steel structure is shorter construction period and construction is increasing because it is structurally safe, but in the interlayer slab construction method, the formwork for the top plate is conventionally supported by the support, reinforce the reinforcement to the top plate of the formwork and the concrete The method of pouring and completing is used.

However, this formwork method is cumbersome in construction, it takes a long construction period, there was a problem that the work space is narrow due to the installation of the formwork to support the formwork.

In order to solve the above problems, Utility Model Registration No. 20-0146601 (registered February 27, 1999) has introduced the "beam coupling structure of the deck panel".

The beam joining structure of the tech panel is a structure for joining the deck panel across both sides of the upper surface of the flange of the beam, the fixing portion bonded to the upper surface of the flange of the beam, and two extensions extending upward from both ends of the fixing portion And a stud bar extending horizontally from an end of each extension part and having two connection parts joined to upper bars of the deck panels.

However, since the beam coupling structure of the deck panel leaves the deck panel intact even after the completion of the building, the deck panel can not be reused, construction cost is increased, and in particular, the deck panel is corroded by rainwater and not only becomes structurally weak. In case of leakage, it is difficult to identify the leak point, which leads to an increase in maintenance costs.

In addition, the beam coupling structure of the deck panel is structurally integrated with the steel beam and the slab by welding the stud bolts to the steel beam because the steel beam and the slab is not structurally integrated, there is a disadvantage that can not achieve the layer reduction. .

Accordingly, it is an object of the present invention to provide a slab foam bracket that can be easily installed on a steel beam and can be easily removed from a steel beam after slab construction.

Another object of the present invention is to install a plurality of slab foam brackets at regular intervals in each steel beam, to install a yoke on a plurality of yoke support, and to fix the end of the yoke slab foam, between the facing steel beam The slab foam can be installed easily, and after the concrete slab is hardened, while providing the safety of the worker while providing a slab construction method of the slab foam bracket using the slab foam bracket and the slab foam bracket that can be easily dismantled.

Another object of the present invention is to place the slab foam lower than the upper horizontal portion of the steel beam, and then cast concrete on the slab foam, by filling the upper horizontal portion of the steel beam in the concrete slab, there is a layer height reduction effect, It is to provide a slab construction method of steel framed building using a slab foam bracket that can omit the use of stud bolts.

The slab foam bracket according to the present invention for achieving the above object is a bracket body is formed in a channel shape of "┏┓" cross-sectional shape, a pair of coupling members are mounted facing each other on a horizontal surface of the bracket body, A gap is formed between the locking portion and the horizontal surface of the bracket body, and the yoke support is mounted on both ends of the bracket body so as to be respectively adjustable in height.

The coupling member has a locking portion formed stepped with respect to the fixing portion, a reinforcing portion is formed on the locking portion and the fixing portion, the locking portion is fixed to the bracket body by bolts and nuts, and a fastening bolt is fastened to the tip of the locking portion. It is done.

The yoke support is characterized by consisting of a support portion of the "┗┛" shape, the upper bolt is joined to the lower surface of the support portion, the height adjusting nut and the fixing nut fastened to the bolt.

The slab construction method according to the present invention using the slab foam bracket as described above

(a) installing a plurality of slab foam brackets at predetermined intervals so that each slab foam bracket is orthogonal to the steel beam;

(b) yoking the yoke support of the plurality of slab foam brackets mounted on the steel beam;

(c) the yoke installed on the slab foam bracket on one steel beam and the yoke installed on the slab foam bracket on the steel beam facing the steel beam to seat the lower panel of the slab foam so that the plurality of slab foam adheres to each other. Mounting step,

(d) mounting a hook-shaped anchor at the end of the upper panel of the slab foam so that the bent tip of the anchor is hooked to the upper wing of the steel beam;

(e) placing concrete after reinforcing the slab foam;

(f) when the concrete poured on the slab foam is cured, loosening the height adjusting nut and the fixing nut of the yoke support, dismantling the yoke and slab foam brackets, and releasing the nut of the anchor to disassemble the slab foam from the slab. Characterized in that consists of.

In addition, the slab construction method according to the present invention (a) in the step of installing a plurality of slab foam brackets at predetermined intervals in the steel frame beam, so that each slab foam bracket orthogonal to the steel beam, the slab foam bracket is reinforced support It is characterized by being supported by.

(c) yoke the lower panel of the slab foam in such a way as to mount the slab foam, characterized in that the upper panel of the slab foam coincides with the upper wing of the steel beam.

(d) in the step of attaching a hook-shaped anchor at the end of the upper panel of the slab foam so that the bent tip of the anchor is hooked to the upper wing of the steel beam, the anchor has a spiral portion downward through the upper panel of the slab foam. It protrudes, characterized in that the nut is fastened to the spiral portion.

In the slab construction method according to the invention using the slab foam bracket according to the present invention described above, (b) in the step of installing the yoke on the yoke support of the plurality of slab foam brackets mounted on the steel beam, the support portion of the yoke support By minimizing the height placed against the slab foam brackets, when the yoke seats the lower panels of the slab foam, the upper panels of the multiple slab foams can lower the placement height than the upper horizontal portion of the steel beams. Characterized in that the floor height can be lowered.

As a result, the slab foam bracket according to the present invention and the slab construction method of the steel-framed building using the same can easily install and release the slab foam bracket on the steel beam, and the slab construction is possible without supporting the slab foam with the copper bar. Easy to install, shorten the construction time, reuse slab foam and slab foam bracket, reduce construction cost, secure slab foam bracket and slab foam while securing the safety of workers after concrete slab is hardened. It can be easily dismantled.

In addition, the slab foam bracket according to the present invention and the slab construction method of the steel frame building using the same because the upper horizontal portion of the steel beam is embedded in the concrete slab, a separate stud bolt work is not required, it is possible to reduce the height and height of the slab There is an advantage.

1 is a perspective view showing a slab foam bracket according to the present invention.
Figure 2 is an exploded perspective view showing a slab foam bracket according to the present invention.
3 is a cross-sectional view taken along line AA of FIG. 1 showing a slab foam bracket according to the present invention.
4 to 8 are for explaining the process of the slab construction method of the steel frame building using the slab foam bracket according to the present invention, Figure 4 is a perspective view showing a state in which the slab foam bracket is mounted on the steel beam, Figure 5 4 is a cross-sectional view taken along line BB of FIG. 4 showing an example in which a slab foam bracket is mounted on a steel beam, and FIG. 6 is a perspective view illustrating a yoke mounted on a yoke support of the slab foam bracket mounted on a steel beam. 7 is a perspective view illustrating a state in which a slab foam is disposed on a yoke, and FIG. 8 is a side view illustrating a state in which a slab foam is installed for placing concrete.
9 is a side cross-sectional view illustrating an example in which the slab foam is disposed below the upper horizontal portion so that the upper horizontal portion of the steel beam is embedded in the concrete slab.

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

1 to 3, the slab foam bracket according to the present invention is a bracket body 10 is formed in a channel shape of the "┏┓" cross-sectional shape, a pair of coupling members (in the horizontal plane of the bracket body 10 ( 20 are mounted to face each other, a gap S is formed between the engaging portion 21 of the coupling member 20 and the horizontal surface of the bracket body 10, and the yokes are supported at both ends of the bracket body 10. 40 are respectively mounted so that height adjustment is possible.

The bracket body 10 has a hole 11 into which the bolt 24 of the coupling member 20 is fitted, and a hole 13 into which the bolt of the yoke support 40 is fitted, respectively, in a horizontal plane.

The coupling member 20 has a locking portion 21 is formed to be stepped with respect to the fixing portion 22, the reinforcing portion 23 is formed on the locking portion 21 and the fixing portion 22, the locking portion 21 ) Is fixed to the bracket body 10 by the bolt 24 and the nut 25, the tightening bolt 26 is fastened to the front end of the locking portion (21).

The yoke support 40 is a support portion 42 of the "┗┛" shape, the upper end of the bolt 44 is joined to the lower surface of the support 42, and the height adjustment for fastening to the bolt 44 It consists of the nut 46 and the fixing nut 48.

The support 42 has a height at which the outer vertical portion 42a is relatively lower than the inner vertical portion 42b. This is to make it convenient for the operator to mount the yoke 70 (see FIG. 6) on the base 42. FIG.

The slab foam bracket 1 according to the present invention configured as described above is mounted on the steel beam 60 as shown in Figs. 4 and 5, and yoke mounted on the steel beam 60 as shown in Fig. It can be attached to the base 50. That is, as shown in FIG. 4, so as to intersect the slab foam bracket 1 on the corrugated beam 60, as shown in FIG. 5, the gap S of any one coupling member 20; 20a. The lower wing portion 61 of the steel beam 60, and the engaging portion 21 of the other coupling member (20; 20b) is caught by the other lower wing portion 62 of the steel beam (60) The fixing part 22 of the coupling member 20 is fixed to the bracket body 10 with the bolt 24 and the nut 25. Then, tighten the tightening bolt 26 of the coupling member 20 so that the bracket body 10 is fixed tightly to the steel beam (60).

By mounting the slab foam bracket 1 on the steel beam 60 in the same manner as described above, after placing a plurality of slab foam brackets 1 on the steel beam 60 at regular intervals, as shown in FIG. , Adjust the height of the mounting portion 42 of the yoke support 40 mounted on the bracket body 10 by using the height adjusting nut 46, tightening the fixing nut 48, yoke support ( 40) to the bracket body (10).

When adjustment of the placement height of the yoke support 40 is completed, as shown in FIG. 6, the yoke 70 is installed in the yoke support 40 of the slab foam bracket 1 arranged in a plurality of regular intervals.

A slab construction method of a steel frame building using a slab foam bracket according to the first embodiment of the present invention will be described with reference to FIGS.

As shown in FIGS. 4 and 5, (a) a plurality of slab foam brackets 1 are spaced apart in the steel beams 60 so that each slab foam bracket 1 is orthogonal to the steel beams 60. Install it.

At this time, the spacing between the slab foam bracket (1) installed on the steel beam (60) is in accordance with the design specifications, the method of mounting the slab foam bracket (1) on the steel beam (60) is as described above. In addition, as shown in FIG. 8, the slab foam bracket 1 may be supported by the reinforcing support 30. The reinforcing support 30 is to increase the safety of the hole (not shown) formed on the top is fitted to the bolt 44 of the yoke support (40). As a result, the reinforcing support 30 can be prevented from slipping off the slab foam bracket 1.

As shown in Figure 5 and 6, (b) the yoke 70 is installed in the yoke support 40 of the plurality of slab foam bracket (1) mounted on the steel beam (60).

Referring to Figure 7, (c) the yoke (70; 70a) installed on the slab foam bracket (1) on any one steel beam (60; 60a) and the slab on the steel beam (60b) facing the steel beam (60a) A plurality of slab foams 80 are mounted to be in close contact with each other by mounting the lower panel 81 of the slab foams 80 on the yoke 70;

Referring to FIG. 8, at this time, the upper panel 82 of the slab foam 80 should coincide with the upper wing 63 of the steel beam 60.

Then, as shown in FIG. 8, (d) the end of the upper panel 82 of the slab foam 80 so that the bent tip of the anchor 90 is caught by the upper wing 63 of the steel beam 60. The hook-shaped anchor 90 is mounted on it. At this time, the anchor 90 has a spiral portion 91 protrudes downward through the upper panel 82 of the slab form 80, the nut 92 is fastened to the spiral portion (91). As a result, the connection between the steel beam 60 and the slab foam 80 is reinforced.

(e) after, reinforce the reinforcement to the slab foam (60) is poured concrete.

(f) When the concrete poured on the slab foam 60 is hardened, the height adjusting nut 46 and the fixing nut 48 of the yoke support 40 are released, and the yoke 70 and the slab foam bracket 1 ) And disengage the nut 92 of the anchor 90 to disassemble the slab foam 80 from the slab.

At this time, when the reinforcing support 30 for supporting the slab foam bracket 1 is installed, it is natural to dismantle the reinforcing support 30 first.

As described above, the slab construction method of the steel-framed building using the slab foam bracket according to the present invention can easily install the slab foam without supporting the slab foam to the copper bar, the slab foam and the steel beam is connected by the anchor, In the process of dismantling the slab foam, it is possible to prevent the slab foam from falling automatically hardened slab, there is an advantage to protect the operator from the risk of falling slab foam.

Referring to Figure 9, in another alternative, the slab construction method of the steel frame structure using the slab foam bracket according to the present invention (b) yoke support 40 of the plurality of slab foam bracket (1) mounted on the steel beam (60) In the step of installing the yoke (70) to the yoke (70), the slab form (to the yoke (70) by minimizing the height (h1) that the support portion 42 of the yoke support (40) is disposed relative to the slab foam bracket (1) When the lower panel 81 of the 80 is seated, the upper panel 82 of the plurality of slab forms 80 may lower the height of the arrangement h3 than the upper horizontal portion 62 of the steel beam 60. , The floor height h2 of the concrete slab 90 can be lowered.

As such, the slab construction method of the steel frame structure using the slab foam bracket according to the present invention, because the upper horizontal portion of the steel beam is embedded in the concrete slab, a separate stud bolt work is not required, it is possible to reduce the height and height of the slab There is an advantage. For example, if the slab height is reduced by 120mm per floor, it is possible to make 21 floors from the existing 20-story building.

10: bracket body 20: coupling member
30: reinforcing support 40: yoke support
60: steel beam 70: yoke
80: slab foam

Claims (8)

The bracket body 10 is formed in a channel shape having a “┏┓” cross-sectional shape, and a pair of coupling members 20 are mounted to face each other on a horizontal surface of the bracket body 10, and a locking portion of the coupling member 20 is provided. A gap S is formed between the horizontal surface of the bracket body 10 and the bracket 21, and the yoke support 40 is mounted on both ends of the bracket body 10 so as to be respectively adjustable in height. Foam bracket.
The method of claim 1,
The coupling member 20 has a locking portion 21 is formed to be stepped with respect to the fixing portion 22, the reinforcing portion 23 is formed on the locking portion 21 and the fixing portion 22, the locking portion 21 ) Is fixed to the bracket body (10) by the bolt (24) and the nut (25), the slab foam bracket, characterized in that the fastening bolt 26 is fastened to the front end of the locking portion (21).
The method of claim 1,
The yoke support 40 is a support portion 42 of the "┗┛" shape, the upper end of the bolt 44 is joined to the lower surface of the support 42, and the height adjustment for fastening to the bolt 44 Slab foam bracket, characterized in that consisting of a nut (46) and a fixing nut (48).
(a) installing a plurality of slab foam brackets 1 on the steel beam 60 at predetermined intervals such that each slab foam bracket 1 is orthogonal to the steel beam 60;
(b) mounting the yoke (70) on the yoke support (40) of the plurality of slab foam brackets (1) mounted on the steel beam (60);
(c) Yoke (70; 70a) installed on the slab foam bracket (1) on any one of the steel beam (60; 60a) and yoke installed on the slab foam bracket on the steel beam (60b) facing the steel beam (60a) ( Mounting a plurality of slab foams 80 in close contact with each other by mounting the lower panel 81 of the slab foams 80 to 70;
(d) A hook-shaped anchor 90 is mounted at the end of the upper panel 82 of the slab form 80 so that the bent tip of the anchor 90 is caught by the upper wing 63 of the steel beam 60. To do that,
(e) placing concrete after reinforcing the slab foam (60);
(f) When the concrete poured on the slab foam 60 is hardened, the height adjusting nut 46 and the fixing nut 48 of the yoke support 40 are released, and the yoke 70 and the slab foam bracket 1 The slab construction method using a slab foam bracket, characterized in that the step of dismantling, loosening the nut 92 of the anchor 90 to dismantle the slab foam (80) from the slab.
The method of claim 4, wherein
(a) in the step of installing a plurality of slab foam brackets 1 on the steel beam 60 at predetermined intervals such that each slab foam bracket 1 is orthogonal to the steel beam 60,
The slab foam bracket (1) is a slab construction method using a slab foam bracket, characterized in that supported by the reinforcing support (30).
The method of claim 4, wherein
(c) in the step of mounting the slab foam 80 in such a manner as to seat the lower panel 81 of the slab foam 80 on the yoke 70,
Slab construction method using a slab foam bracket, characterized in that the upper panel 82 of the slab foam (80) is matched with the upper wing portion (63) of the steel beam (60).
The method of claim 4, wherein
(d) A hook-shaped anchor 90 is mounted at the end of the upper panel 82 of the slab form 80 so that the bent tip of the anchor 90 is caught by the upper wing 63 of the steel beam 60. At the stage
The anchor 90 is a slab form characterized in that the spiral portion 91 protrudes downward through the upper panel 82 of the slab form 80, the nut 92 is fastened to the spiral portion 91. Slab construction method using brackets.
The method of claim 4, wherein
(b) in the step of installing the yoke 70 on the yoke support 40 of the plurality of slab foam brackets 1 mounted on the steel beam 60, the support 42 of the yoke support 40 is slab foamed. By minimizing the height h1 disposed relative to the bracket 1, when the lower panel 81 of the slab foam 80 is seated on the yoke 70, the upper panel 82 of the plurality of slab foams 80 is provided. The slab construction using the slab foam bracket, characterized in that the height of the arrangement (h3) can be lower than the upper horizontal portion 62 of the steel beam 60, the floor height (h2) of the concrete slab 90 can be lowered. Way.

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