KR20070110212A - Steel reinforcement structure - Google Patents

Abstract

A reinforcing bar distributing structure is provided to remove a process of installing a mold fixing device by using connecting reinforcing bars of a trapezoidal truss bars as a mold fixing device, and to remove a process of installing spaces by maintaining a gap of the mold by the connecting reinforcing bars. A reinforcing bar distributing structure comprises a plurality of slope truss bars(900), and a plurality of trapezoidal truss bars(950). The slope truss bars include two main reinforcing bars(901) arranged with a predetermined gap, and slope reinforcing bars(902) having continuous wavelength and connecting two main reinforcing bars. The trapezoidal truss bars include two main reinforcing bars(951) arranged with a predetermined gap, and a plurality of connecting reinforcing bars(952) vertical to the two main reinforcing bars. One end or two ends of the connecting reinforcing bars are projected to the side direction of the main reinforcing bars.

Description

Reinforcing Bar Structure {steel reinforcement structure}

1 is an embodiment using the reinforcement structure according to the present invention for the wall reinforcement.

Figures 1a to 1c shows the installation process of the reinforcement structure according to the present invention.

<Description of the symbols for the main parts of the drawings>

900: inclined truss muscle 901: cast iron bar

902: sloped rebar

950: ladder truss muscle 951: cast steel bar

952: connecting rebar

Conventionally, the method of reinforcing steel bars and the method of installing the formwork were as follows.

(1) Installation of wall formwork and wall rebar

One side of the wall formwork was squeezed first, and then the reinforcement was completed, and the other side was formed. At this time, it was necessary to install form fasteners (form ties) on both sides in order to counteract the lateral pressure generated during concrete pouring and curing. In addition, in the case of using a plurality of wall formwork connected to the wall formwork to counteract the connection between the wall formwork and concrete, it was necessary to fix the brace, yoke, etc. behind the wall formwork.

(2) Installation of slab formwork and slab rebar

The copper bar was erected, the slab formwork was mounted on the copper bar and fixed, and the rebar was assembled. At this time, the load according to the pouring of concrete is received by the copper bar, but when using a plurality of slab formwork connected to the slab formwork, a gap may occur, it was necessary to connect the slab formwork firmly.

According to the conventional reinforcing bar reinforcement method and the method of installing the formwork as described above, it is necessary to work by fixing the brace or yoke for connecting the formwork, there was an increase in working time and material costs and work inconvenience.

In particular, when installing the formwork for the wall, a separate formwork (form tie) installation work is required, so the inconvenience of having to consider the installation position of the formwork in advance when reinforcing wall reinforcement, or to avoid the location where the wall reinforcement is installed when installing the formwork There was a ham.

The present invention has been made to solve the conventional problems as described above,

The present invention eliminates the need for braces or yokes for connecting multiple formwork, and does not install spacers for maintaining the spacing between wall reinforcements and separate formwork (form ties), thereby saving material, reducing construction costs, as well as work efficiency. The purpose is to provide a reinforcing bar structure to perform the role of the spacer and the form tie configured to increase.

The present invention provides a reinforcing bar reinforcement structure in which a plurality of inclined truss muscles and a plurality of ladder truss muscles are vertically coupled to each other, wherein the inclined truss muscles include two main steel bars arranged side by side at a predetermined interval; And an inclined reinforcing bar having a continuous waveform and connecting the two main bars. It is configured to include, the ladder-shaped truss roots, two cast iron bars arranged side by side at a predetermined interval; And a plurality of connecting reinforcing bars connected at right angles to the two main reinforcing bars, one end or both ends of which protrude in the lateral direction of the main reinforcing bars. It provides a reinforcement structure, characterized in that configured to include.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

As shown in FIG. 1, the reinforcement bar structure according to the present invention includes a plurality of inclined truss bars 900 and a plurality of ladder truss bars 950 used as horizontal bars.

The inclined truss root 900 includes two main reinforcing bars 901 arranged side by side at a predetermined interval, and inclined reinforcing bars 902 having a continuous waveform and connecting the two main reinforcing bars 901. In this case, a part of the waveform of the inclined rebar 902 may be formed in a space wider than the width of the ladder truss muscle so that the ladder truss muscle 950 can be inserted into the inclined truss muscle 900. have.

The ladder truss bar 950 is a plurality of connecting bars having a length perpendicular to the two main reinforcement bars 951 and the main reinforcement bars 951 disposed side by side at a predetermined interval, and having a length longer than the spacing of the main reinforcing bars ( 952). At this time, if the spacing of the two main steel bars of the ladder-shaped truss wider than the width of the inclined truss, the inclined truss can be inserted into the ladder-shaped truss.

On the other hand, the connecting reinforcement (952) can be performed at the same time the role of formwork (form tie) and the spacer (spacer). If threads are formed on both ends of the connecting reinforcement 952, the connection reinforcement 952 may be conveniently used as a die fixture with a cone nut.

By using the inclined truss muscle 900 and the ladder truss muscle 950 can be used as a wall reinforcement between the wall formwork.

That is, the inclined truss muscle 900 is laid in the longitudinal direction to use as a vertical reinforcement of the wall, the ladder truss 950 is laid down to use as a horizontal reinforcement of the wall, but the ladder truss The root 950 uses one including a plurality of connecting bars 952 configured to protrude laterally the main reinforcement 951 of the ladder truss 950. The connecting reinforcement 952 is used as a fixture for formwork.

At this time, the waveform of the inclined rebar 902 may be formed to have the same interval, but may be formed at an unequal interval. In particular, in the case of concrete pouring and curing, the wall formwork inclined reinforcement 902 waveform of the inclined truss muscle 900 can be formed at a narrower interval toward the bottom in consideration of the fact that it receives a large side pressure toward the bottom.

In addition, by using the inclined truss muscle 900 and the ladder-shaped truss muscle 950 can be used as a slab reinforcement on the slab formwork.

That is, the inclined truss muscle 900 is laid in the horizontal direction to use as a transverse muscle of the slab, the ladder-shaped truss muscle 950 is laid in the transverse direction to use as a longitudinal muscle of the slab, the The ladder truss bar 950 uses one including a plurality of connecting bars 952 configured to protrude downwardly of the main bar of the ladder truss bar. The connecting reinforcing bar is used as a fixture for formwork.

At this time, the inclined reinforcement waveform of the inclined truss muscle may be formed at a wide interval toward both edges. This is because the pressure caused by concrete increases when slab concrete is poured into the center of the slab.

As described above, when the reinforcing bar reinforcement structure according to the present invention is applied to the arrangement of the wall reinforcement or the arrangement of the slab reinforcing bar, it is possible to omit the work of connecting the formwork to each other separately when using a plurality of formwork. Since the inclined truss muscle 900 and the ladder truss muscle 950 are vertically coupled to form an integrated body, the work is simply connected to the projecting connecting bars 952 and the respective formwork of the ladder truss muscle 950. By achieving the unity between the reinforcement of the reinforcement, since the unity of the plurality of formwork is also maintained, it is unnecessary to fix the brace or yoke on the back of the formwork.

Figure 2 shows the installation process of the reinforcement structure according to the present invention.

(1) The inclined truss root 900 is raised and arranged side by side at a predetermined interval. The ladder truss muscle 950 is prepared to be inserted into the inclined truss muscle 900 (see FIG. 2A).

(2) The ladder truss bar 950 is inserted through a wide space among the waveforms of the inclined bar 902. (See Figure 2b)

(3) by inserting the ladder-shaped truss bar 950 to the inclined rebar 902 and then turned up to combine to achieve the reinforcement structure according to the present invention. (See Figure 2c)

Using the reinforcement structure according to the present invention has the following effects.

First, since formwork and reinforcement can be combined through connecting reinforcement of ladder type truss bar, it is not necessary to fix brace or yoke on the back of formwork by making wall and slab formwork by applying this reinforcement structure. Done.

Secondly, since the connection reinforcement of the ladder-type truss bar is used as the formwork fixture, a separate formwork (formtie) installation work can be omitted.

Third, since the spacing of the formwork is maintained by the connecting reinforcement of the ladder-shaped truss bar, it is possible to omit the installation of a separate spacing material (spacer).

Fourth, it is possible to adjust the width of the inclined rebar waveform in consideration of the pressure received by the formwork, it is possible to economically and efficiently reinforce the rebar.

Claims (8)

In the reinforced bar structure in which a plurality of inclined truss bars 900 and a plurality of ladder truss bars 950 are vertically coupled, The inclined truss muscle 900, Two cast iron bars 901 arranged side by side at a predetermined interval; And An inclined rebar 902 having a continuous waveform and connecting the two main rebars 901; It is configured to include, The ladder truss muscle 950, Two cast iron bars 951 arranged side by side at a predetermined interval; And A plurality of connecting bars 952 connected to the two main bars 951 at right angles and configured to protrude laterally at one or both ends of the main bars 951; Reinforcement structure, characterized in that configured to include. In claim 1, Reinforcing bar reinforcement structure, characterized in that both ends of the connecting reinforcement (952) of the ladder-shaped truss bar (900). In claim 2, Reinforcing bar reinforcement structure, characterized in that some of the waveform of the inclined rebar (902) is wider than the width of the ladder truss bar (950) is inserted into the inclined truss bar (900). In claim 2, The interval between the two main steel bars 951 of the ladder truss muscle 950 is wider than the width of the inclined truss muscle 900 so that the inclined truss muscle 900 is inserted into the ladder truss muscle 950. Reinforcement structure. Two cast iron bars 901 arranged side by side at a predetermined interval; An inclined truss muscle 900 consisting of inclined steel bars 902 connecting the two main steel bars 901 with a continuous waveform; Two cast iron bars 951 arranged side by side at a predetermined interval; And connected in a right angle to the two main reinforcement (951), one or both ends of the reinforcement structure in which a plurality of connecting reinforcement (952) configured to protrude laterally of the main reinforcement (951) between the wall formwork, The inclined truss bar 900 is laid in the longitudinal direction to use as a vertical reinforcement of the wall, The ladder-shaped truss muscle 950 is laid down to use as a horizontal reinforcement of the wall, The ladder truss bar 950 includes a plurality of connecting bars 952 configured to protrude in the lateral direction of the main reinforcing bar 951 of the ladder truss bar 950, Reinforcing bar reinforcement structure, characterized in that the connecting reinforcement (952) is used as a fixture for formwork. In claim 5, Reinforcing bar reinforcement structure, characterized in that the inclined rebar 902 waveform of the inclined truss 900 is formed at a narrower interval toward the bottom. Two cast iron bars 901 arranged side by side at a predetermined interval; An inclined truss muscle 900 consisting of inclined steel bars 902 connecting the two main steel bars 901 with a continuous waveform; Two cast iron bars 951 arranged side by side at a predetermined interval; And in the reinforcement structure that is connected at a right angle to the two main reinforcement (951), one or both ends of the connecting reinforcement (952) configured to protrude in the lateral direction of the main reinforcement (951) on the slab formwork, The inclined truss root 900 is placed in the transverse direction to use as a transverse muscle of the slab, reinforcement, The ladder-shaped truss muscle 950 is placed in the transverse direction to use as a longitudinal muscle of the slab, The ladder truss bar 950 includes a plurality of connecting bars 952, one end of which is configured to protrude downward of the main bar 951 of the ladder truss bar 950. Reinforcing bar reinforcement structure, characterized in that the connecting reinforcement (952) is used as a fixture for formwork. In claim 7, Reinforcing bar reinforcement structure, characterized in that the inclined rebar (902) waveform of the inclined truss (900) is formed at a wide interval toward both edges.

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