KR101078292B1 - Concrete slab mold assembly and method for constructing slab - Google Patents

Abstract

The present invention relates to a slab formwork assembly and a slab construction method developed to easily install and install the slab formwork in construction or civil engineering.

In the slab formwork assembly according to the present invention, a plurality of holes 15 are formed in a steel form 10, and a truss girder 20 disposed in the lower surface 11 of the steel form 10 is formed. It is fixed by a plurality of fixing means 30, characterized in that the spacer 40 for reinforcement is mounted on the upper surface 12 of the steel foam (10).

Description

Slab formwork assembly and slab construction method {CONCRETE SLAB MOLD ASSEMBLY AND METHOD FOR CONSTRUCTING SLAB}

The present invention relates to a slab formwork assembly and a slab construction method using the same, which is developed so that the slab formwork can be easily assembled and installed in construction or civil engineering, and more particularly, by mounting a truss girder on the lower surface of the steel foam, When stress concentration is prevented and the slab curing is completed, the steel foam can be removed and reused, and the clamps mounted on the steel foam are hung on the euro foam or formwork, and the steel foam is mounted to support the support. The present invention relates to a slab formwork assembly and a slab construction method for supporting steel foam and truss girder.

In order to form the skeleton of the building, it will be the most common method to build it with reinforced concrete using rebar and concrete.

Formwork is needed to build the frame from reinforced concrete, which is mainly made of wood and now steel formwork using steel plates and rebars.

Looking at the recent technology as a steel formwork, Korean Patent Publication No. 10-2008-0025656 "Reinforced slab formwork and a slab construction method using the same" can be mentioned.

The prior art is composed of a reinforcing truss composed of a top choir, a lower chord and a wave material, a slab formwork disposed on the bottom of the reinforcement truss, and a connector for binding the reinforcement truss to the upper portion of the slab formwork. .

However, since the conventional reinforcing bar slab formwork is disposed above the slab formwork, the reinforcing truss is disposed, so that the reinforcing truss must be installed at a tight interval to withstand the concrete load, and the reinforcing truss and the slab formwork are connected. There is a risk of developing concentrated stress in the connector area.

An object of the present invention is to fix both ends of the steel form equipped with the truss girder and the spacer first to the wall frame (or the form frame, H-beam of steel structure, etc.) for forming the wall, and then to support the steel form By installing the support on the lower part of the truss girder, the construction work is convenient, and when the slab curing is completed, the slab formwork assembly and slab construction method can be easily separated and reused, and the number of supports can be reduced. To provide.

Example of the slab formwork assembly according to the present invention for achieving the above object A plurality of holes are formed in the steel form (truss girder) formed on the bottom surface of the steel form a plurality of fixing means Fixed by, characterized in that the spacer for the reinforcement is mounted on the upper surface of the steel foam.

The fixing means is made of a washer, a bolt and a nut, the washer is characterized in that the upper chord accommodating portion and the long hole through which the bolt passes in the center to surround the upper chord on both sides.

An example of the slab construction method according to the invention

(A) Both ends of the steel form equipped with truss girders and spacers are mounted on the corners of the wooden material mounted on the top of the wall frame, such as euroforms, and nailed to holes formed at both ends of the steel form. Securing both ends of the foam to the shell of the wall frame;

(B) arranging the spigot pipe at the bottom of the truss girder so as to intersect with the truss girder and mounting the spigot pipe to the truss girder using a hook bolt;

(C) inserting an upper support portion of the support into the helical fastening portion of the hook bolt protruding from the angle pipe, and adjusting the length of the support to support the angle pipe;

(D) fixing a filler plate to the lumber to prevent a gap between the wall frame and the lumber made of wood and installing a filler plate on the side of the steel foam;

(E) reinforcing the reinforcing bars using a space disposed on the upper surface of the steel foam;

(F) when the reinforcement work is finished, pouring cement mortar on the reinforcing bar to form walls and slabs;

(G) Once the wall and slab are cured, remove the support of the wall frame from the steel foam, remove the support, loosen the nuts assembled with the spacer, and install the steel foam with truss girder from the cured slab. It is characterized by consisting of the step of demolding.

Another example of the slab formwork assembly according to the present invention is a plurality of holes are formed in the steel foam, the truss girder disposed on the lower surface of the steel foam is fixed by a plurality of fixing means, reinforcement on the upper surface of the steel foam Spacers are mounted, the clamp is mounted on the upper surface of the steel foam by bolts and nuts, a support is disposed in the hole closest to the end of the steel foam, and the leading bent portion of the clamp protrudes from the end of the steel foam. It is characterized by.

Another example of the slab construction method according to the invention

(A) The tip bent portion of the clamp protruding from the steel form including the truss girder and the spacer is seated and installed on the H-shaped steel beam which is installed in advance, and then the tip bent portion of the clamp is welded to the upper surface of the H-shaped steel beam. Steps;

(B) arranging the spigot pipe at the bottom of the truss girder so as to intersect with the truss girder and mounting the spigot pipe to the truss girder using a hook bolt;

(C) inserting an upper support portion of the support into the helical fastening portion of the hook bolt protruding from the angle pipe, and adjusting the length of the support to support the angle pipe;

(D) closing a gap formed between the steel foam and the H-shaped steel beam with a filler plate;

(E) reinforcing the reinforcing bars using spacers disposed on the upper surface of the steel foam;

(F) forming a slab by pouring cement mortar on the reinforcing bar when it is finished;

(G) When the slab is cured, the support and the lumber pipes are removed, and the nuts that are fastened to the bolts of the spacer and the clamps are assembled, and the steel foam mounted with the truss girder is demolded from the slab. .

The present invention having the characteristics as described above is easy to install the slab formwork during civil engineering or building construction, the construction process can be made quickly to reduce labor costs, safety accidents, steel foam and truss girder unit of a predetermined size Consisting of easy handling when using it has the advantage of speeding up the work.

Therefore, the present invention can obtain the effect of reducing the air, cost, safety, quality improvement.

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

1 and 2, in the slab formwork assembly 1 according to the first embodiment of the present invention, a plurality of holes 15 are formed in the steel form 10, and the The truss girder 20 disposed on the lower surface 11 is fixed by a plurality of fixing means 30, and the spacer 40 for reinforcing the reinforcement on the upper surface 12 of the steel form 10. Is fitted.

The steel foam 10 is made of an iron plate having a unit area and downward bending portions 16 are formed at both edges thereof. The bent portion 16 is to prevent the edge of the iron plate is bent or bent, and to be in close contact with the neighboring steel foam.

The hole 15 of the steel foam 10 is used as a bolt through hole for assembling the truss girder 20, a bolt through hole for fixing the spacer, a mounting hole for nailing, and the like.

The truss girder 20 is assembled to the lower portion of the steel foam 10 and serves to reinforce the load received by the steel foam 10, two upper chord 21 and one lower chord ( 22) and two wave materials 23 are combined.

Since the truss girder 20 reinforces the steel foam 10 to withstand the load well, the truss girder 20 may be changed in addition to the truss structure, and the structure is changed without departing from the scope of the technical idea of the present invention.

For example, using a square pipe or the like as a reinforcing material of the steel foam 10 may be a good method in view of economical efficiency or manufacturability.

Referring to FIG. 3, the fixing means 30 includes a washer 31, a bolt 32, and a nut 33, and the washer 31 accommodates the upper chord so as to surround the upper chord 21 on both sides. There is a section 311 and a long hole 312 through which the bolt 32 passes in the center is drilled. The bolt 32 is preferably to use a flat head bolt to smooth the surface of the concrete slab.

The construction method of the slab using the slab formwork assembly according to the present invention configured as described above will be described with reference to FIGS.

(A) Mounting both ends of the steel foam (10) on which the truss girder (20) and the spacer (40) are mounted on the wood material (65) mounted on the top of the wall mold (60), such as euroform, Nails 70 are formed in the holes formed at both ends of the steel foam 10, and both ends of the steel foam 10 are fixed to the corner members 65 of the wall mold 60 (see Fig. 4). Here, the timber material is generally installed to correct the straight line of the wall frame.

(B) Arrange the lumber pipe 75 at the lower part of the truss girder 20 so as to intersect with the truss girder 20, and mount the lumber pipe 75 to the truss girder 20 using the hook bolt 77. (See FIGS. 5 and 6). At this time, the hook portion of the hook bolt 77 is caught by the lower chord 22 of the truss girder 20, and the spiral fastening portion of the hook bolt 77 protrudes from the bottom of the horn pipe 75 through the horn pipe 75. As the 78 is fastened to the nut 79, the lumber pipe 75 is fixed to the truss girder 20 by the hook bolt 77 and the nut 79.

(C) by inserting the upper support portion 81 of the support 80 in the spiral fastening portion 78 of the hook bolt 77 protruding from the lumber pipe 75, by adjusting the length of the support 80, The lumber pipe 75 supports the support 80 (see FIGS. 5 and 6).

(D) In order to prevent a gap between the wall mold 60 and the timber lumber 65 made of wood, a filler plate 90 is fixed to the lumber 65 to form a filler plate on the side of the steel foam 10. 90) (see Fig. 7).

(E) Reinforcing bar B is reinforced using the space 40 disposed on the upper surface of the steel foam 10 (see FIG. 7).

(F) After the reinforcement work is finished, the cement mortar 100 is poured on it to form walls and slabs (see FIG. 8).

(G) When the wall and the slab are cured, the wall frame slab is separated from the steel foam, and the support 80 is removed, and the nut 79 that assembles the spacer 75 is released to remove the truss girder 20 ) Can be easily demoulded from the steel slab 10 is mounted from the cured slab.

 In the above, the slab is formed on the basis of the simultaneous molding with the wall, but the present invention is not limited to this, the slab formwork assembly according to the present invention, as shown in FIG. It can also be installed in the mold frame 110 for forming the beam. That is, it can be fixed with nails after mounting both ends of the steel foam to the angle of the wood material disposed on the top of the frame for forming the beam.

And, as described above, in the slab construction method according to the present invention, after fixing both ends of the steel form equipped with the truss gerber and the spacer first to the wall frame or the form frame, and then install the support for supporting the steel foam, the slab Since the construction work is convenient and the truss girder is arranged on the lower surface of the steel foam, even if the distance between the supports is wider than the conventional technique, the load of the slab can be sufficiently endured, and the number of support installations can be significantly reduced. And, there is an advantage that can reuse the demolded steel foam.

10 and 11, in the slab formwork assembly according to the second embodiment of the present invention, a plurality of holes 215 are formed in the steel form 210, and the lower surface ( A truss girder 220 disposed at 211 is fixed by a plurality of fixing means 230, and a spacer 240 for reinforcement is mounted on the upper surface 212 of the steel foam 210. The clamp 250 is mounted on the upper surface 212 of the steel foam 210 by bolts 255 and nuts 256, and the support portion is provided in the hole 215 closest to the end of the steel foam 210. 252 is disposed, the tip bent portion 251 of the clamp 250 protrudes from the end of the steel foam (210).

The clamp 250 should be manufactured in consideration of bearing both the concrete load and other expected loads in addition to the die's own load, and by the bolt of the fixing means 230 for fixing the truss girder 220. It may be fixed to the upper surface of the steel foam (210).

The clamp 250 has a bent portion 251 at the front end and a support 252 at the rear end to hold a predetermined space from the upper surface of the H-shaped steel beam 260 or the steel foam 210 which will be described later. It is desirable to allow cement mortar to enter the space. This also prevents the lower surface of the clamp 250 from being exposed to the lower surface of the slab when demolding the steel foam 210.

12 to 16, a method of constructing a slab on a steel structure using a slab formwork assembly according to a second embodiment of the present invention will be described.

(A) Hypothesis is made by mounting the bent portion 251 of the clamp 250 protruding from the steel foam 210 including the truss girder 220 and the spacer 240 to the H-shaped steel beam 300, which is installed in advance. After that, the tip bent portion 251 of the clamp 250 is fixed to the upper surface of the H-shaped steel beam 300 by welding (see FIG. 12).

(B) Place the lumber pipe 260 in the lower part of the truss girder 220 so as to intersect with the truss girder 220, and use the hook bolt 265 to connect the lumber pipe 260 to the truss girder 220. Mount (see FIGS. 13 and 14). At this time, the hook portion of the hook bolt 265 is caught by the lower chord 222 of the truss girder 220, and the spiral fastening portion of the hook bolt 265 protruding to the lower portion of the horn wood pipe 260 through the horn wood pipe 260. By being fastened with the nut 267, the horn pipe 260 is fixed to the truss girder 220 by the hook bolt 265 and the nut 267.

(C) Insert the upper support portion of the support 270 into the helical fastening portion of the hook bolt 265 protruding from the lumber pipe 260, adjust the length of the support 270, to support the angular pipe 260 270 (see FIGS. 13 and 14).

(D) The gap formed between the steel foam 210 and the H-shaped beam 300 is closed with a filler plate 280 (filer plate).

(E) Reinforcing bar B is reinforced using the spacer 240 disposed on the upper surface of the steel foam 210 (see FIG. 15).

(F) After the reinforcement work is finished, cement mortar is poured on it to form a slab (see FIG. 15).

(4) When the slab is cured, the support 270 and the lumber pipe 260 are removed, and the nut 256, which is fastened to the bolt 255 of the bolt 250 to which the spacer 240 is assembled, and the bolt 255 of the clamp 250, are loosened. The steel foam 210 on which the girder 220 is mounted is demolded from the slab.

The method of constructing the slab in the steel structure according to the invention described above has the same advantages as the slab construction method using the slab formwork assembly according to the first embodiment of the present invention.

1 and 2 are a bottom perspective view and a top perspective view of a slab formwork assembly according to a first embodiment of the present invention.

Figure 3 is an enlarged view showing the extraction of the fixing means in the slab formwork assembly according to the first embodiment of the present invention.

4 to 8 is a work flow chart showing a construction process for forming a slab using a slab formwork assembly according to a first embodiment of the present invention in sequence, Figure 6 is a slab formwork assembly according to the present invention in the wall mold It is a perspective view which shows the example which constructs.

9 is a perspective view showing a partial extract of the state that the slab formwork assembly according to the present invention is mounted on the prosthetic frame.

10 and 11 are bottom and top perspective views of the slab formwork assembly according to the second embodiment of the present invention.

12 to 15 is a work flow chart showing a construction process in order to form a slab using a slab formwork assembly according to a second embodiment of the present invention, Figure 14 is a slab formwork assembly according to the present invention in the H-beam It is a perspective view showing the example which is constructed.

Claims (5)

delete delete (A) Mounting both ends of the steel foam (10) on which the truss girder (20) and the spacer (40) are mounted on the wood material (65) mounted on the top of the wall mold (60), such as euroform, Nailing the nails 70 in the holes formed at both ends of the steel foam 10, and fixing both ends of the steel foam 10 to the shell member 65 of the wall mold 60; (B) Place the lumber pipe 75 at the bottom of the truss girder 20 so as to intersect with the truss girder 20, and use the hook bolt 77 to connect the lumber pipe 75 to the truss girder 20. Mounting; (C) by inserting the upper support portion 81 of the support 80 in the spiral fastening portion 78 of the hook bolt 77 protruding from the lumber pipe 75, by adjusting the length of the support 80, Supporting the lumber pipe 75 with the support 80; (D) In order to prevent the gap between the wall mold 60 and the lumber 65 made of wood, the filler plate 90 is fixed to the lumber 65 so that the pillar plate 90 is provided on the side of the steel foam 10. Installing; (E) reinforcing bar B using a space 40 disposed on the upper surface of the steel foam 10; (F) after the reinforcing bar is finished, pouring cement mortar (100) thereon to form walls and slabs; (G) When the wall and the slab are cured, the wall frame slab is separated from the steel foam, and the support 80 is removed, and the nut 79 that assembles the spacer 75 is released to remove the truss girder 20 ) Slab construction method comprising the step of demolding the steel foam (10) is mounted from the cured slab. A plurality of holes 215 are formed in the steel form 210, and the truss girder 220 disposed on the lower surface 211 of the steel form 210 has a plurality of fixed water ends 230. It is fixed by the, the spacer 240 for the reinforcement is mounted on the upper surface 212 of the steel foam 210, the clamp 250 is bolted to the upper surface 212 of the steel foam 210 (255) ), The support 252 is disposed in the hole 215 closest to the end of the steel foam 210, and the tip bent portion 251 of the clamp 250 is steel foam. Slab formwork assembly characterized in that protrudes from the end of (210). (A) Hypothesis is made by mounting the bent portion 251 of the clamp 250 protruding from the steel foam 210 including the truss girder 220 and the spacer 240 to the H-shaped steel beam 300, which is installed in advance. Then, welding the front end bent portion 251 of the clamp 250 to the upper surface of the H-shaped beam 300; (B) Place the lumber pipe 260 on the bottom of the truss girder 220 so as to intersect with the truss girder 220, and mount the lumber pipe 260 to the truss girder 220 using the hook bolt 265. Making a step; (C) Insert the upper support portion of the support 270 into the helical fastening portion of the hook bolt 265 protruding from the lumber pipe 260, adjust the length of the support 270, to support the angular pipe 260 Supporting at 270; (D) blocking the gap formed between the steel foam 210 and the H-shaped steel beam 300 with a filler plate 280; (E) reinforcing the reinforcing bars using spacers 240 disposed on the upper surface of the steel foam 210; (F) forming a slab by pouring cement mortar on the reinforcing bar when it is finished; (4) When the slab is cured, the support 270 and the lumber pipe 260 are removed, and the nut 256, which is fastened to the bolt 255 of the bolt 250 to which the spacer 240 is assembled, and the bolt 255 of the clamp 250, are loosened. Slab construction method comprising the step of demolding the steel foam 210, the girder 220 is mounted from the slab.

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