KR101451877B1 - Execution structure for concrete slab - Google Patents

Abstract

The present invention relates to a concrete slab construction structure and, more particularly, to a concrete slab construction structure in which a variable supporter is provided in an RC crossbeam and a deck supporting the same is supported during concrete slab construction on the variable supporter so that a supporting post structure supporting a deck can be omitted, a construction period can be shortened, and the construction can be expedited. The concrete slab construction structure according to the present invention, which is disposed to construct a concrete slab provided with RC crossbeams at regular intervals, includes an RC crossbeam mold that is used to manufacture the RC crossbeam, a supporting post that includes multiple horizontal members and vertical members which are disposed in a lower portion of the RC crossbeam mold so as to support the RC crossbeam mold, a plate material with both ends placed on a side wall of the adjacent RC crossbeam mold, a deck that includes a supporting member which is assembled in a lower portion so as to support the plate material, and a variable supporter that has a lower portion assembled and fixed to the horizontal member of the supporting post, is configured to be height-adjustable, and supports the deck.

Description

{Execution structure for concrete slab}

More particularly, the present invention relates to a concrete slab installation structure, and more particularly, it is possible to provide a variable supporter in an RC beam and to support a deck supporting the concrete slab when the concrete slab is installed, The present invention relates to a concrete slab construction structure capable of securing both shortening of speed and promptness.

Generally, a concrete slab is a plate-like structural member that constitutes the floor or ceiling of a structure in an architecture. Concrete slabs are horizontally arranged structures such as buildings or bridges. Concrete slabs are usually constructed by casting concrete. In some cases, they are manufactured and transported in a factory by precast method. BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a construction deck used when concrete is poured directly in the field.

Generally, a reinforced concrete structure is a composite structure in which concrete, which is a compressive material, and reinforcing bars, which are a tensile material, are used together. This is a structure in which a mold is built to form an outer surface of concrete, reinforcing bars are placed on the concrete, .

The concrete slab is also manufactured in the above-described manner, and a structure for supporting the concrete should be made in order to pour the concrete.

A structure for constructing a conventional concrete slab is shown in Fig. A construction method is widely used in which the deck 10 is connected between the RC beams 1 and the lower portions of the beams 1 and 2 are supported by the decks 10.

In detail, an example of the above-described prior art is shown in Figs. As shown in the drawing, the deck 10 is installed between the RC beams 1 so as to be supported by the shores 2, 3. The deck 10 is composed of an upper plate 11 to support a concrete slab and a truss structure 12 which is a supporting structure for supporting the plate 11 under the plate 11. The truss structure 12 is supported by the hulls 2 and 3 as well. In this manner, the deck 10 is continuously installed between the RC beams 1, and concrete is then laid to produce a slab.

However, since the conventional concrete slab construction structure supports the deck plate over the side surface of the RC beam, the deck is not enough to transmit the load of the upper concrete slab to the RC beams. Therefore, there are problems in that it is difficult to shorten the air and it is difficult to secure the promptness.

Korean Patent Laid-Open No. 10-2012-0124278

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a variable supporter capable of supporting a lower end of an RC beam deck and omit a buoy structure supporting the deck, A concrete slab construction structure is proposed.

According to another aspect of the present invention, there is provided a concrete slab installation structure for installing a concrete slab having RC beams at regular intervals, the concrete slab installation structure comprising: an RC brace for manufacturing the RC brace; A horizontal member including a plurality of horizontal members and vertical members provided at the lower portion thereof for supporting the formwork, a plate member having both ends thereof placed on the side walls of the adjacent RC beam formers, and a support member assembled at the lower portion to support the plate member And a variable supporter for supporting the deck, the deck being constructed to be fixed to a lower part of the horizontal member and to vary the height of the lower part.

Preferably, the variable supporter includes a lower end fixing part to which the horizontal member of the torsion bar is inserted and fixed, a supporting pipe to which the lower end is fixed to the lower end fixing part, a variable nut rotatably installed on the upper end of the supporting pipe, And a holder fixed to an upper end of the variable bolt to support the deck.

Preferably, the supporting pipe is composed of multiple pipes and a plurality of through holes are formed at equal heights, and the height of the supporting pipe is adjusted and assembled with pins to adjust the height.

Preferably, the variable nut has a spoke formed on its outer surface.

Preferably, the holder is provided with an I-beam that supports the lower end of the deck.

Preferably, the I-beam has an upper end partitioned at both ends and then an upper portion.

Preferably, the deck comprises a plate member, a plurality of bolt members provided in a line through the plate member in a longitudinal direction, a nut member fastened to the bolt member at a lower portion of the plate member, and a bolt member and a nut member And an upper portion of the beam is inserted between the lower surface of the plate member and the upper surface of the nut member to closely contact the lower surface of the plate member, .

The present invention as described above has the following effects.

(1) Since the concrete slab construction structure according to the present invention is constructed such that a variable supporter is installed on a hill supporting the RC beam and a variable supporter is supported on the lower end of the deck, the hill for supporting the deck can be omitted, Which provides a very favorable effect.

(2) The concrete slab construction according to the present invention supports a deck using a variable supporter, and the variable height of the variable supporter can be adjusted by a simple operation of the variable nut, The present invention provides an effect that can cope with the problem quickly.

1 is a front view of a conventional concrete slab construction structure.
2 is a front view of a concrete slab installation structure according to the present invention.
3 is a side view of a concrete slab construction according to the present invention.
4 is a perspective view of a concrete slab construction according to the present invention.
5 is a perspective view of the RC beam side of the concrete slab construction according to the present invention.
Fig. 6 is a perspective view similar to Fig. 5, and is a perspective view seen from the bottom.
7 is an exploded perspective view of a concrete slab construction according to the present invention.
8 is a perspective view of a variable supporter which is a component of a concrete slab construction according to the present invention.
9 is a perspective view showing that the supporting pipe of the variable supporter of FIG. 8 is fixed in a state of being maximally stretched.
10 is a sectional view of a deck which is a component of a concrete slab construction according to the present invention.

The above objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 to 10, a concrete slab installation structure according to a preferred embodiment of the present invention is installed to construct a concrete slab having RC beams at regular intervals, the concrete slab installation structure comprising: A plurality of horizontal members 32 provided at a lower portion thereof for supporting the RC beam form 20 and a vertical member 31 and a plurality of RC beams 30 adjacent to the RC beam form 20, A deck 100 including a plate 110 on which both ends of the plate 20 are placed and a support member assembled on the lower portion to support the plate 110 and a horizontal member 32 of the bar 30, And a variable supporter 200 for supporting the deck 100 so that the height of the variable supporter 200 can be varied.

The variable supporter 200 includes a lower end fixing part 202 to which the horizontal member 32 of the foot 30 is inserted and fixed and a supporting pipe 205 having a lower end fixed to the lower end fixing part 202, A variable nut 207 rotatably installed on the upper end of the supporting pipe 205, a variable bolt 208 which is lifted and lowered by the rotation of the variable nut 207 and a fixed bolt 208 fixed to the upper end of the variable bolt 208 And a holder 209 for supporting the deck 100.

Also, the supporting pipe 205 is formed of multiple pipes, and a plurality of through holes are formed at equal heights, and the height of the supporting pipe 205 is adjusted and assembled with the pins 204 to adjust the height.

Further, the variable nut 207 has a spoke 207a formed on the outer surface thereof.

The holder 209 is provided with an I-beam 220 for supporting the lower end of the deck 100.

In addition, the I-beam 220 has an upper end divided into two ends and then a partition wall extending upwardly.

The deck 100 includes a plate 110, a plurality of bolts 130 extending through the plate 110 in a longitudinal direction and a plurality of bolts 130 extending from the bottom of the plate 110, And a nut member 140 fixed to the lower surface of the plate member 110 with the bolt member 130 and the nut member 140. The upper plate 121 supports the upper plate 121 from below, And a beam 120 which is a supporting member including a beam 122 and an upper plate 121 of the beam 120 is inserted between an upper surface of the plate 110 and an upper surface of the nut member 140, And is tightly fixed to the lower surface of the plate member 110.

Referring to FIG. 1, the overall structure of a concrete slab construction structure according to the present invention is shown. The present invention provides a construction structure for constructing a concrete slab. Since the RC beams are formed at predetermined intervals in the concrete slabs, a mold 20 for forming RC beams is installed. Decks 100 are continuously installed between the form 20 of the RC beam and the adjacent form 20. As a result, a concrete slab having RC beams at regular intervals can be installed on the deck 100 plate material 110. [

As shown in FIG. 1, the concrete slab construction structure according to the present invention is formed such that the RC beams 20 are formed in a longitudinal direction in the longitudinal direction, so that the RC beam forms 20 are installed along the longitudinal direction. 1, a deck 100 is installed along the lateral direction between the RC beams. 1 and 2, three variable supporters 200 are installed along the direction of the RC brace 20 and an I-beam 220 for supporting the lower end of the deck 100 to the variable supporter 200, Is installed. Conventionally, the deck 100 is installed under the deck 100. However, since the variable supporter 200 supports the deck 100 in the present invention, the deck 100 can be omitted. The RC brace mold 20 is composed of a mold side wall 21 erected on both the lower face 21a and the lower face 21a supported by the hatch 30. [ The side wall 21 is supported by the pedestal 22 and the pedestal 22 is fixed to the side wall 21 at one end and to the horizontal flat member 32 at the other end to assist the side wall 21 at an angle .

The horseshoe 30 is installed to support the RC beam form 20 at the bottom of the RC beam. The hatch 30 is supported by a plurality of horizontal members 32 and vertical members 31. The hull 30 is a general structure in which wheels are installed to enable fixing and movement. The variable lifting frame 30 is supported by a plurality of horizontal members 32, and in particular, the variable lifter 200 is provided at an end of the lifting horizontal member 32.

The deck 100 is composed of a plate 110 to be supported by concrete and a beam 120 which is fixed to a lower portion of the plate 110 and is a supporting member for supporting the plate 110. Referring to FIG. 10, the deck 100 includes the plate 110, the beam 120, the bolt member 130, and the nut member 140. The insertion portion 121a of the upper plate 121 of the beam 120 is inserted and tightened between the nut member 140 and the lower surface of the plate member 110 to be fixed. The nut member 140 is vertically moved up and down by the rotation of the bolt member 130 to tighten the inserting portion 121a so that the outer surface of the nut member 140 is formed in a rectangular shape having an edge so as to be caught by the partition wall 122b, . The beam 120 takes an approximately I-beam shape consisting of an upper plate 121, a vertical plate 122 and a lower plate 123. The upper end of the vertical plate 122 is divided to form a partition wall 122b having a partition wall 122a and a space S therein. The partition walls 122b extend to the upper plate 121. Particularly, the upper plate 121 is provided with an insertion portion 121a, which is inserted between the lower surface of the plate 110 and the nut member 140, and is fastened to the nut member 140 and the bolt member 130 So that the beam 120 is fixed to the plate 110. A hexagonal bar 131a is formed on the head 131 of the bolt member 130 so as to be rotated using a hexagonal wrench.

Referring to FIG. 4, it can be seen that the deck 100 is installed between the two RC braces 20. The end of the plate 110 of the deck 100 is placed at the upper end of the side wall 21 of the RC beam and the deck 100 is supported by the variable supporter 200 as shown in FIG. Therefore, the deck 100 is omitted from the bottom of the deck 100 to support the deck 100. [ This is because the structure can sufficiently support the deck 100 by the variable type supporter 200. According to such a configuration, the load of the form 20 and the deck 100 are all transferred to the ground surface of the bucket 30.

The variable type supporter 200 includes a lower end fixing part 202 to which the horizontal member 32 is inserted and fixed, a supporting pipe 205 to which the lower end is fixed to the lower end fixing part 202, A variable bolt 208 which is raised and lowered by the rotation of the variable nut 207 and a fixed bolt 208 which is fixed to the upper end of the variable bolt 208 to support the deck 100 Shaped beam 220 is provided on the holder 209 in parallel with the longitudinal direction of the RC bracket 20 and the deck 100 is mounted on the beam 220. The I- The beam 120 of FIG.

The bottom fixing portion 202 is formed in a rectangular shape and both ends of the horizontal horizontal member 32 are fitted and fixed by the bolts 204. The lower fixing part 202 is formed with two flanges 203 protruding upward. Between the flanges 203, the lower end of the supporting pipe 205 is fitted and then fixed by a pin 204. A variable nut 207 is rotatably mounted on the upper end of the supporting pipe 205. Only the variable nut 207 rotates and the supporting pipe 205 is not rotated. Four spokes 207a are formed on the outer surface of the variable nut 207 at every 90 degrees so that the operator can easily operate the variable nut 207. [ A variable bolt 208 is assembled to the variable nut 207. Since the variable bolt 208 can not be rotated and only the variable nut 207 can be rotated, the variable bolt 208 moves up and down according to the rotation of the variable nut 207. The holder 209 is fixed to the upper end of the variable bolt 208. The holder 209 has a U-shaped cross section so that the lower portion of the I-beam 220 can be fitted and seated. The holder 209 is fitted with an I-beam 220 and supports the beams 120 of the decks 100 along the I-beam 220. The supporting pipe 205 is composed of multiple pipes. In the present invention, a double pipe was used. It goes without saying that it may be triple. Adjust the height by pulling the pipe inside out, aligning the holes, and adjusting the height by inserting the pins. Therefore, as shown in FIG. 9, the large displacement of the variable supporter 200 is adjusted by using the multiple pipes 205, and then the fine height is adjusted by turning the variable nut 207.

As for the construction procedure, first assemble the hull 30 and the RC beam form 20 according to the design. Then, each variable supporter 200 is assembled to each horizontal member 32. When the variable supporter 200 is assembled, the height of the variable supporter 200 is adjusted according to the design. At this time, the large difference in height is adjusted by using multiple pipes of the supporting pipe 205, and the remaining minute difference is adjusted by varying the height of the variable bolt 208 by turning the variable nut 207. When the height of the variable supporter 200 is completed, the deck 100 is installed on the variable supporter 200 to complete the structure installation work.

Since the deck 100 is an assembling structure that can assemble the beam 120 as shown in FIG. 10, the deck 100 is separately transported, and then the beam 120 and the nut 120 are fixed to each other using a bolt member 130 and a nut member 140 The plate material 110 can be assembled immediately and put on the variable supporter 200.

After the completion of the above-mentioned structure, concrete is laid and cured, and then, when it is disassembled, the concrete slab is completed. When the structure is decomposed, the variable nut 207 of the variable supporter 200 is separated by turning the variable bolt 208 in the descending direction, so that the load is not applied and the separating operation can be facilitated.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

1: RC beam
2, 3: East bridge 20: RC beam form
30: Dove 100: Deck
110: Plate 120: Beam
130: bolt member 140: nut member
200: variable supporter 202: lower end fixing portion
203: Flange 205: Supporting pipe
207: variable nut 208: variable bolt
209: Holder

Claims (7)

A concrete slab construction structure installed to construct a concrete slab having RC beams at regular intervals,
An RC bracket for manufacturing the RC bracket;
A plurality of horizontal members and a vertical member disposed at a lower portion thereof for supporting the RC beam formers;
A deck including a plate member having both ends thereof disposed on side walls of adjacent RC brace forming members and a supporting member assembled at a lower portion to support the plate member;
An I-beam supporting the lower end of the deck; And
And a variable supporter for supporting the deck so that a lower portion thereof can be assembled and fixed to the horizontal member and the height thereof can be varied,
Wherein the variable supporter includes a lower end fixing portion to which the horizontal member of the torsion bar is inserted and fixed, a supporting pipe to which the lower end is fixed to the lower end fixing portion, a variable nut rotatably installed on the upper end of the supporting pipe, And a holder fixed to an upper end of the variable bolt and connected to a lower end of the I-beam to support the deck,
Wherein the I-beam is formed in an I-shape and comprises an upper plate, a vertical plate and a lower plate, and the upper end of the vertical plate is divided into two ends and each extends upward to form a space therein. Slab construction. delete delete delete delete delete The method according to claim 1,
The deck
Plate material;
A plurality of bolt members inserted through the plate member in a longitudinal direction along a line;
A nut member fastened to the bolt member at a lower portion of the plate material; And
A beam as the supporting member including an upper plate mounted on the lower surface of the plate member by the bolt member and the nut member, and a vertical plate supporting the upper plate from below;
/ RTI >
Wherein an upper plate of the beam is inserted between a lower surface of the plate member and an upper surface of the nut member, and is closely fixed to the lower surface of the plate member.

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