KR100736383B1 - Reinforcing bar and slab construction method - Google Patents

Abstract

A bar arrangement and a slab construction method using the bar arrangement are provided to reduce the quantity of reinforcing bars required for slab construction by arranging reinforcing bars at the optimum on a truss form regardless of skillfulness and to shorten a period of construction by performing a slab form assembly work and a bar arrangement work for slab construction at the same time. The bar arrangement comprises a column strip reinforcing bar member(10) composed of support bars(13) arranged on column strip upper and lower bars(11,12) at regular intervals to connect the column strip upper and lower bars and projected to the appointed height from the column strip lower bars, a middle strip reinforcing bar member composed of middle strip lower bars(22) having the same length as the column strip upper and lower bars, middle strip upper bars(21) arranged on two upper sides of the middle strip lower bar parallel to each other, support bars(23) connected to the middle strip upper and lower bars and projected to the appointed height from the middle strip lower bar and backing bars(24) installed on the middle strip lower bar at regular intervals and projected downward, short edge lower bars(30) connected at right angles to the column strip lower bar and the middle strip lower bar, long edge lower bars(31) connected at right angles to the short edge lower bars, short edge lower joint bars connected to a short edge lower bar(30a) of the whole section of the column strip and an edge lower bar(30c) of the center of the middle strip, long edge lower joint bars connected to the column strip and middle strip lower bars and the long edge lower bar, long edge upper joint bars connected to the column strip and middle strip upper bars, short edge upper spread bars connected at right angles to the column strip and middle strip upper bars, and long edge upper spread bars arranged on the short edge lower bars and connected to the short edge upper spread bars.

Description

Reinforcing bar body and slab construction method using the same

1 shows a slab truss formwork that can be used in the present invention.

Figure 2a, b, c is a view for explaining the process of assembling the slab reinforcement before lifting in the present invention

Figure 3 is a view showing a state in which the short side lower muscles are installed in the present invention

Figure 4 is a view showing a state in which the reinforcement is lifting the body of the present invention

Figure 5a, b, c, d is a view for explaining the process of assembling the slab reinforcement body after lifting in the present invention

6 is a view showing a state in which the short side upper deployment muscle is installed in the present invention;

Figure 7 is a building diagram for explaining the work position for each step in the construction method of the present invention

8 is a structural plan view of a building to which the present invention is applied

Figure 9a.b is a view showing a reinforced state of the beam and the slab in the present invention

10 is a view showing a state in which a screw hole is formed in the support unit for the main column and the day stand of the present invention;

11 is a view showing a state of lifting two or more formwork using a temporary material in the present invention.

[Description of Symbols for Main Parts of Drawing]

10: main column reinforcing bar member 11: upper row of main column

12: subtropical lower bar 13,23: support bar

20: the main bar reinforcing member 21: the upper bar reinforcement

22: the lower bar of the day stand 24: the reinforcing bar

30: short side lower muscle 31: long side lower muscle

32: short side lower joint 33: long side lower joint

34: long side upper muscle 36: short side upper deployment muscle

37: long side upper muscle 40: prosthetic reinforcement

The present invention relates to a reinforcing bar reinforcement and a slab construction method using the same in more detail is designed in consideration of the transport and construction convenience to reinforce the reinforcing bar in the optimal state irrespective of skill on the truss formwork most of the structure is manufactured in the factory It is about a slab construction method.

In general, the method of constructing the slab will be longer depending on the site conditions and workers because the construction period will be longer because the reinforcing bars are forced to be placed on top of the formwork after installing the formwork. But there is a problem that the rebar is excessively used compared to the optimal reinforcement.

Conventionally, the deck method of reinforcing the reinforcement in the formwork is known, but since the formwork and the reinforcing bar is integrated, it is difficult to lift and carry from the factory to the site, and not only can not be manufactured to be compatible with the reinforcement and formwork according to the site Compared with the optimal reinforcement bar, the problem that the rebar is used excessively by 40 to 60% has not been solved.

The applicant filed a 10-2005-0130274 unitized three-dimensional truss formwork by dividing the truss structure manufactured at the factory and the parts assembled at the site according to the design considering transportation and construction convenience. The present invention has been devised in view of the fact that the reinforcing bar can be arranged in an optimal state regardless of skill level.

The technical problem to be achieved by the present invention is to provide a reinforcing bar reinforcement body and a slab construction method using the same to reinforce the reinforcing bar in the optimal state irrespective of skill on the united formwork.

Another technical problem to be achieved by the present invention is to reduce the construction period by not only the high-bearing material work is required, but also the slab formwork and the slab reinforcement work can be performed at the same time.

The technical problem of the present invention is arranged at regular intervals on the upper and lower roots of the parallel column in the same length at the same time to connect the upper and lower roots of the main column and at the same time the main column made of a support bar protruding by a certain height from the lower root of the main column Rebar member; The main stem lower muscle having the same length as the upper and lower roots of the main row, and the upper root of the main bench arranged parallel to the upper sides of the lower root of the main bench, and the upper stem at the same time to the upper and lower roots A main bar reinforcing member consisting of a support bar protruding from a lower bar by a predetermined height and a supporting bar protruding downwardly at regular intervals from the lower bar of the bar; A short side lower muscle connected in a state orthogonal to the lower main root and the lower main muscle arranged in accordance with the design in a state placed on the floor; A long side lower muscle connected in a state orthogonal to the short side lower muscle; A short side lower joint connected to the short side lower root of the short side muscle of the short side muscle and the short side lower muscle of the whole day zone; A long side lower joint connected to the lower main muscle and the long side lower muscle of the main tropics and the main body; A long side upper joint connected to the upper row of the main row and the main row; A short side upper deploying muscle connected in a state orthogonal to the upper row of the main row and the main row; It is achieved by the reinforcement body comprising a; long side upper deployment muscles connected to the short side upper deployment muscles in a state arranged on the short side lower muscles.

Technical problem of the present invention is a factory processing step of processing the rebar required for the slab construction; A first step of lifting before arranging the short side root muscles on the formwork plywood; Lifting second step of lifting the short side lower bar in a state in which the main bar reinforcing bar member and the day bar rebar member are arranged in a direction orthogonal to the short side lower bar; A third step of connecting the long side lower muscles in a state orthogonal to the short side lower muscles to complete the reinforcing reinforcement body before lifting; A fourth step of installing formwork by lifting the reinforcement bar before lifting; A fifth step of connecting the short side lower muscle to the short side lower muscle; A sixth step of connecting the lower side of the long side joint with the lower side and the lower side of the main bar; A seventh step of arranging a long side upper deployment muscle above the short side bottom muscle; An eighth step of connecting the short-sided upper deployment muscle in a state orthogonal to the upper row of the main heating zone and the daytime standby zone; It is achieved by the slab construction method using a reinforcing bar reinforcement consisting of; a ninth step of lifting the long side upper deployment muscle to connect to the short side upper deployment muscle.

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

1 is a view showing the slab truss formwork of prior application 10-2005-0130274 unitized for use in the present invention.

This is a slab formwork made of a main truss (1) and a sub truss (2) as shown in the drawing so that the assembly can be easily assembled in the field according to the building design. Of course, the utility can be doubled when used with the old formwork.

The slab reinforcement of the present invention is arranged at regular intervals on the upper and lower roots 11 and 12 in parallel with the same length to connect the upper and lower roots 11 and 12 at the same time. A main tropical reinforcing bar member 10 including a support bar 13 protruding from the tropical lower bar 12 by a predetermined height; Day table lower root 22 having the same length as the upper and lower roots 11 and 12 of the main row, and the upper table root 21 of the main stand parallel to the upper side of both sides of the lower table root 22 And, connected to the upper and lower roots 21, 22 of the day bar, and at the same time protruding from the lower bar 22, the support reinforcing bar 23 and a constant distance to the lower bar 22, Reinforcing bar member consisting of a reinforcing bar (24) installed to protrude to the lower side to be set to; A short side lower muscle 30 connected in a state orthogonal to the lower main muscle root 12 and the lower main muscle root 22 arranged according to a design in a state placed on a floor; A long side lower muscle 31 connected in a state orthogonal to the short side lower muscle 30; Short side lower root joint 32 is connected to the short side lower root 30a of the main hot zone of the short side lower root 30 and the lower end 30g of the central portion of the day band; A long side lower joint (33) connected to the lower main muscles (12) and (22) and the lower side of the long side (31); A long side upper joint muscle 34 connected to the upper and lower muscle roots 11 and 21. A short side upper deploying muscle 36 connected in a state orthogonal to the upper and lower stems 11 and 21 of the main heating zone; And a long side upper deployment muscle 37 connected to the short side upper deployment muscle 36 in a state arranged on the short side lower muscle 30.

The main stool and daytime reinforcing bar members 10 and 20 may be used as a reinforcing bar structure when the support bar 13 and the supporting bar 24 protruding to the lower part of the lower bar 12 are removed.

The short side lower root 30 is a short side lower root 30a of the main heating zone, which is installed in the entire zone of the main heating zone lower root 12, and the daytime lower whole muscle short side lower root 30b is connected only to the entire day zone lower root 22. And, the length is the same as the short side lower root (30a) of the main hot zone whole zone, and is made up of the day center central short side lower root (30c) installed between the upper stem 21.

The long side lower muscle 31 is composed of the long side lower muscle 31a of the main tropics, and the long side lower muscle 31b of the day zone.

The short side upper deployment muscle 36 is composed of a main zone short side deployment muscle 36a and a main tropical zone short-side deployment muscle 36b to which the central portion extends.

The long side upper deployment muscle 37 is composed of a main zone long side deployment muscle 37a, a main tropics all long side deployment muscle (37b) that continues the central portion.

Thus, the main heating rod reinforcing member (10), the reinforcing bar reinforcing member (20), the lower bar (30), 31, the joint bar (32) (33) (34), the expanding bar (36) ( 37) are manufactured in the factory as much as the design requirements (factory processing step) and transported to the site, and the site is connected and assembled in the order shown in Figs.

Figure 2a, b, c is a view for explaining the process of manufacturing the lifting reinforcement of the present invention assembled on-site, Figure 5a, b, c, d is lifted to the lifting reinforcement installed on the formwork The drawing shows the process of completing the slab reinforcement by assembling the joint and the expansion muscle.

The method of connecting the reinforcing bars to assemble the reinforcing bar is a method using a binding line.

In order to manufacture the reinforcing bar reinforcement, first, the short side lower bar 30 is arranged on the plywood 4 on the formwork 3 (see FIG. 2A, the first step before lifting), and the main heating bar reinforcing member 10 and the day bar The rebar member 20 is arranged to be orthogonal to the short side lower muscle 30. At this time, both ends of the main column reinforcing bar member 10 and the main bar reinforcing bar member 20 is maintained using a known prop means.

In this state, the short side lower muscle 30 is lifted as shown in FIG. 3 and assembled to the rebar members 10 and 20, as shown in FIG. 2B. (2nd step before lifting)

If the long side lower muscle 31 is arranged and connected in a state orthogonal to the short side lower muscle 30, the reinforcement reinforcement before lifting is completed as shown in FIG. 2C.

The weight of the reinforcing bar reinforcement before lifting is determined at the time of design according to the lifting equipment of the site, and the horizontal movement can be easily performed simply by adding the wheels 3b to the formwork 3 under the plywood 4.

When the reinforcing bar reinforcement is completed before lifting as shown in Figure 4 and installed with the formwork (3) (step 4).

The lifting of the reinforcement bar is made by lifting means 3a connected to the formwork 3.

The short side lower root joint 32 is connected to the short side lower root 30a of the main hot zone zone and the short side lower root 30b of the main zone zone among the short side lower root muscles 30 (see FIG. 5A and the fifth step).

The long side lower root muscle 33 is connected to the lower row muscles 12 and 22 of the main row (see Fig. 5b, step 6).

The long side upper deployment muscle 37 is arranged on the short side lower muscle 30 (seventh step), and the short side upper deployment muscle 36 is orthogonal to the upper and lower zones 11 and 21 of the main heating zone. (See Fig. 5c, step 8).

Lifting the long side upper deployment muscle 37 is connected to the short side upper deployment muscle 36 as shown in Figure 6 to complete the reinforcement bar (see Fig. 5d, 9th step)

7 is a building diagram for explaining for explaining the work position of each step in the construction method of the present invention. Area A is the place to assemble slab formwork (3) and rebar, area B is the beam formwork and reinforcement site, and area C is post-lift joint (32) (33) (34) and flattening muscle (36) ( 37) is the place to assemble (steps 5-9), the B-1 area is to dismantle the formwork of the bottom slab (5) layer of the B zone and to manufacture the reinforcing bar of reinforcement slab before lifting the upper floor. Zones 2 and B-3 may be used as a site for dismantling beams and slab formwork in (6) (7) and for fabricating beams and slab reinforcement in the upper floors.

FIG. 8 is a structural plan view of the building, and FIGS. 9A and 9B illustrate a reinforcing bar joint state of a beam and a slab according to the present invention. 11) (12) (21) (22) is connected to the upper or side to pass through the reinforcement reinforcement (40).

Figure 10 is to form a screw hole 130, 240 in the lower portion of the reinforcing bar 13, 24, which is a means for supporting the main column and the day stand, so that it can be used to combine the wires for installing various pipes after the slab construction. .

FIG. 11 is a view showing a state in which two or more slab formwork 3 installed with a reinforcing bar reinforcement body is lifted using a temporary bench 50.

In the present invention, all the reinforcing bars of the reinforcing bar are manufactured (processed and cut) at the factory and transported to the site, and the work of assembling the reinforcing bar before reinforcing on the formwork is carried out at the lower floor and is installed with the formwork after lifting. This is done by completing the reinforcing bar, and the lifting work before and after assembling the reinforcing bar can be done in different spaces at the same time to shorten the construction period and regardless of the proficiency of reinforcing the bar. It is a useful invention having the effect of reducing the amount of rebar required for the construction of the slab can be reinforcement to have the optimum state considered in the design.

In the above, the present invention has been limited to and described with reference to the accompanying drawings and examples, but is not limited thereto. Various modifications may be made by those skilled in the art within the scope of the technical idea of the present invention. Of course.

Claims (8)

A main column reinforcing member which is arranged at regular intervals in the upper and lower roots of the main column in parallel with the same length and connects the upper and lower roots of the main column and protrudes a predetermined height from the lower part of the main column; The main stem lower muscle having the same length as the upper and lower roots of the main row, and the upper root of the main bench arranged parallel to the upper sides of the lower root of the main bench, and the upper stem at the same time to the upper and lower roots A main bar reinforcing member consisting of a support bar protruding from a lower bar by a predetermined height and a supporting bar protruding downwardly at regular intervals from the lower bar of the bar; A short side lower muscle connected in a state orthogonal to the lower main root and the lower main muscle arranged in accordance with the design in a state placed on the floor; A long side lower muscle connected in a state orthogonal to the short side lower muscle; A short side lower joint connected to the short side lower root of the short side muscle of the short side muscle and the short side lower muscle of the whole day zone; A long side lower joint connected to the lower main muscle and the long side lower muscle of the main tropics and the main body; A long side upper joint connected to the upper row of the main row and the main row; A short side upper deploying muscle connected in a state orthogonal to the upper row of the main row and the main row; Reinforced body comprising a; long side upper deployment muscles connected to the short side deployment muscles in a state arranged on the short side lower muscles.  The reinforced reinforcement body of claim 1, wherein the upper and lower joints of the long side are connected to the upper and lower muscles of the parachute and daytime zone so as to pass through the prosthetic reinforcement body. The reinforced reinforcement body of claim 1, wherein the long side upper and lower joints are connected to the upper and lower sides of the main heating zone and the day and night passage so as to pass through the prosthetic reinforcement body. The reinforced reinforcement body according to claim 1, wherein a screw hole is formed in a lower portion of the reinforcing bar serving as the main support rod and the day support. Factory processing step of processing the rebar required for the slab construction; A first step of lifting before arranging the short side root muscles on the formwork plywood; Lifting second step of lifting the short side lower bar in a state in which the main bar reinforcing bar member and the day bar rebar member are arranged in a direction orthogonal to the short side lower bar; A third step of connecting the long side lower muscles in a state orthogonal to the short side lower muscles to complete the reinforcing reinforcement body before lifting; A fourth step of installing formwork by lifting the reinforcement bar before lifting; A fifth step of connecting the short side lower muscle to the short side lower muscle; A sixth step of connecting the lower side of the long side joint with the lower side and the lower side of the main bar; A seventh step of arranging a long side upper deployment muscle above the short side bottom muscle; An eighth step of connecting the short-sided upper deployment muscle in a state orthogonal to the upper row of the main heating zone and the daytime standby zone; Slab construction method using a reinforcing bar reinforcement consisting of; The slab construction method according to claim 5, wherein the first to third stages before the salvage, the fourth to ninth stages after the salvage, and the dismantling of the formwork are simultaneously performed in separate zones. The method according to claim 5, wherein the main row of reinforcing bar member, the upper and lower root of the main row in parallel with the same length; The slab construction method using a reinforcing bar reinforcement, characterized in that consisting of; the reinforcing bar is arranged at regular intervals to connect the upper and lower roots of the main heating zone and at the same time protruding from the lower end of the main heating rod. The method according to claim 5, wherein the reinforcing bar member, the main bar lower bar having the same length as the upper and lower roots of the main row, and the upper bar of the main bar arranged in parallel to the upper side of both sides of the lower bar, Reinforcing bar reinforcement, characterized in that the support bar is connected to the upper and lower muscles at the same time, and the support reinforcement protrudes from the lower base of the day by a certain height, and the supporting reinforcement is installed to protrude downwardly at regular intervals on the lower base Slab construction method using

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