KR20220083554A - Dual reinforcing bar web manufacturing apparatus and dual reinforcing bar web manufactured thereby - Google Patents

Abstract

The present invention discloses a dual reinforcing bar network manufacturing apparatus capable of improving the structural strength of the reinforcing bar network and improving workability and manufacturing performance, and the dual reinforcing bar network manufactured thereby. The present invention is a guide roller for guiding the horizontal reinforcing bar drawn out in a straight line in a wound state; a plurality of guide blocks installed at regular intervals along the moving direction of the horizontal reinforcing bars; an upper vertical reinforcing bar supply unit for supplying an upper vertical reinforcing bar to the upper portion of the horizontal reinforcing bar; a lower vertical reinforcing bar supply unit located below the upper vertical reinforcing bar supply unit and supplying a lower vertical reinforcing bar to a lower portion of the horizontal reinforcing bar while being vertically downward of the supplied upper vertical reinforcing bar; and a spot welding part positioned between the upper vertical reinforcing bar supply unit and the guide block, and spot welding the upper vertical reinforcing bar and the lower vertical reinforcing bar to the horizontal reinforcing bars with the horizontal reinforcing bar interposed therebetween.

Description

Dual reinforcing bar web manufacturing apparatus and dual reinforcing bar web manufactured thereby}

The present invention relates to an apparatus for manufacturing a reinforcing bar (including an iron wire) network, and more particularly, to an apparatus for manufacturing a dual reinforcing bar network and a dual reinforcing bar network manufactured thereby.

In general, the reinforced concrete structure constituting the main type of building consists of a composite structure in which concrete having excellent resistance to compressive stress and reinforcing bars having excellent resistance to tensile stress are used together.

Such a reinforced concrete structure is completed through the process of placing the formwork, placing the reinforcing bars and simultaneously pouring the concrete, and removing the formwork when curing is completed.

In addition, such a structure requires a considerable period of public notice because it requires a construction work in which a form is installed with plywood, square material, etc. and reinforcement work such as reinforcement is performed, and a dismantling work in which the form is dismantled after the concrete is cured.

In particular, since the above-mentioned structure has excellent adhesion between the concrete surface and the formwork, it is difficult to separate the formwork when dismantling the formwork. Accordingly, a separate surface finishing work is required due to the occurrence of defects on the surface of the structure. In addition, the formwork made of a material with weak durability is difficult to reuse due to damage during dismantling, resulting in a large amount of construction waste.

As one of the improvements to the above technology, it is a method of using a reinforced deck assembly that is generally widely used. For example, the reinforced deck assembly is installed between the girders and is mainly used as a floor structure material for a building to form a concrete slab by pouring concrete thereon.

This is widely used in the construction of slab floors of large buildings recently because the installation work is performed only by putting the reinforcing bar deck assembly between the girders, so the construction and dismantling of the formwork is unnecessary, and the installation of wiring and piping at the bottom is easy. have.

In addition, as the need for seismic resistance increases in Korea in recent years, the need for reinforcing the thickness of reinforcing bars or web strength is gradually increasing. is becoming

<Prior literature>: Republic of Korea Utility Model Publication No. 2011-0010960 (Publication date: November 25, 2011)

The present invention has been devised to solve the above problems, and it is possible to improve the structural strength of the reinforcing bar network and to provide a dual reinforcing bar network manufacturing apparatus with improved workability and manufacturing performance, and to provide a dual reinforcing bar network manufactured thereby. do.

According to an embodiment of the present invention for achieving the above object, a guide roller for guiding the horizontal reinforcing bar drawn out in a wound state in a straight line; a plurality of guide blocks installed at regular intervals along the moving direction of the horizontal reinforcing bars; an upper vertical reinforcing bar supply unit for supplying an upper vertical reinforcing bar to the upper portion of the horizontal reinforcing bar; a lower vertical reinforcing bar supply unit located below the upper vertical reinforcing bar supply unit and supplying a lower vertical reinforcing bar to a lower portion of the horizontal reinforcing bar while being vertically downward of the supplied upper vertical reinforcing bar; and a spot welding unit positioned between the upper vertical reinforcing bar supply unit and the guide block, and spot welding the upper vertical reinforcing bar and the lower vertical reinforcing bar to the horizontal reinforcing bars with the horizontal reinforcing bars interposed therebetween. A device is provided.

The upper vertical reinforcing bar supply unit further includes an upper vertical reinforcing bar guide member for guiding the upper vertical reinforcing bar to the spot welding unit, and the lower vertical reinforcing bar supply unit guiding the lower vertical reinforcing bar to the spot welded lower vertical reinforcing bar guide member. It may include more.

A supply power unit for providing power to move the lower vertical reinforcing bar to the lower vertical reinforcing bar guide member is installed in the lower vertical reinforcing bar guide member, and the supply power unit includes a first installed at the end of the lower vertical reinforcing bar guide member It may be to move the lower vertical reinforcing bar in the lower vertical reinforcing bar guide member through the supply wings and the second supply wings installed at the tip of the lower vertical reinforcing bar guide member.

The spot welding unit includes a spot header located on the upper portion of the horizontal reinforcing bar, and a spot base located under the horizontal reinforcing bar and guided by the horizontal reinforcing bar, The lower vertical reinforcing bar guide member is provided around the spot base A stopper block for locating the lower vertical reinforcing bar supplied through the spot base may be installed.

In addition, the present invention provides a dual reinforcing bar network manufactured by the above-described dual reinforcing bar network manufacturing apparatus.

Incidentally, the means for solving the above problems do not enumerate all the features of the present invention. Various features of the present invention and its advantages and effects may be understood in more detail with reference to the following specific embodiments.

According to the present invention, the structural rigidity of the reinforcing bar network is dramatically improved by configuring the reinforcing bar network through spot welding in a state in which vertical reinforcing bars are dually arranged on the upper and lower portions of the horizontal rebar (hereinafter, reinforcing bars include reinforcing wires). At the same time, the workability can be improved through the rebar mesh, and there is an effect of further improving the manufacturing performance of the rebar mesh through continuous spot welding.

In addition, while the conventional reinforcing bar network secures rigidity by adjusting the bending or rebar dimensions of the reinforcing bar, the present invention improves the manufacturing performance through continuous manufacturing, and various specifications of the reinforcing bar network according to the required strength during the manufacturing process It can be applied and manufactured. That is, there is an effect that it is possible to manufacture various rebar meshes according to the dimensions and standard strength of rebar meshes without a separate fastening process during construction.

1 is a perspective view of a dual reinforcing bar network manufacturing apparatus according to an embodiment of the present invention;
2 is a side configuration view of a dual reinforcing bar network manufacturing apparatus according to an embodiment of the present invention;
3 is a state diagram of a dual reinforcing bar network manufacturing apparatus according to an embodiment of the present invention;
4 and 5 are diagrams of the operating state of the spot welding part of the dual reinforcing bar network manufacturing apparatus according to an embodiment of the present invention;
6 is a perspective view of a reinforcing bar network manufactured by a dual reinforcing bar network manufacturing apparatus according to an embodiment of the present invention, and
7 is an operation state diagram of the spot welding part of the dual reinforcing bar network manufacturing apparatus according to another embodiment of the present invention.

Hereinafter, preferred embodiments will be described in detail so that those of ordinary skill in the art can easily practice the present invention with reference to the accompanying drawings. However, in describing the preferred embodiment of the present invention in detail, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions.

In addition, throughout the specification, when a part is 'connected' with another part, it is not only 'directly connected' but also 'indirectly connected' with another element interposed therebetween. include In addition, 'including' a certain component means that other components may be further included, rather than excluding other components, unless otherwise stated.

Referring to FIG. 1 , the dual reinforcing bar network manufacturing apparatus of the present invention comprises a guide roller 20 , a spot welding part 50 , an upper vertical rebar supply unit 61 , and a lower vertical rebar supply unit 72 .

Specifically, the guide roller 20 functions as a guide element to draw out and move the circularly wound transverse reinforcing bars 10a in a straight line. Here, the horizontal reinforcing bar 10a (hereinafter the same applies to the vertical reinforcing bar) includes a normal iron wire or a metal wire in addition to the reinforcing bar. On the other hand, in the moving direction of the guide roller 20, a tension roller R1 is installed, and this tension roller R1 applies tension to the horizontal reinforcement 10a when the horizontal reinforcement 10a moves to provide straightness (reinforcing bars are not straightened out). properties) can be obtained.

Meanwhile, the first guide block 31 is installed in front of the tension roller R1 , and the second guide block 32 is installed in front of the first guide block 31 . Accordingly, each transverse reinforcing bar 10a is guided in a straight line by the first guide block 31 and the second guide block 32 in a state in which a predetermined tension is applied by the tension roller R1.

In addition, a plurality of spot bases 41 are disposed on the moving direction side of the second guide block 32 , and spot welding parts 50 are respectively disposed on the spot base 41 . In addition, stopper blocks 45 are provided near the spot base 41, respectively.

On the other hand, an upper vertical reinforcing bar supply unit 61 is disposed on the upper side of the horizontal reinforcing bar 10a, and a lower vertical reinforcing bar supply unit 71 is disposed on the lower side of the horizontal reinforcing bar 10a.

Referring to FIG. 2 , the upper vertical reinforcing bar supply unit 61 has a configuration in which a plurality of upper vertical reinforcing bars 11a are discharged to the lower side in a stacked state. In addition, an upper vertical reinforcing bar guide member 62 made of a downwardly inclined curved bar is disposed under the upper vertical reinforcing bar supply unit 61 . Accordingly, the upper vertical reinforcing bar 11a supplied to the lower portion from the upper vertical reinforcing bar supply unit 61 is guided by the upper vertical reinforcing bar guide member 62 to stop its movement at the stopper block 45 . At this time, the movement stopping point of the upper vertical reinforcing bar 11a is above the spot base 41 .

On the other hand, the lower vertical reinforcing bars 11b stacked in a line are also supplied to the lower portion of the lower vertical reinforcing bar supply unit 71 one by one, and a lower vertical reinforcing bar guide member 72 is installed in the lower portion of the lower vertical reinforcing bar supply unit 71, and this lower portion In the vertical reinforcing bar guide member 72 , the lower vertical reinforcing bar 11b is moved along the lower vertical reinforcing bar guide member 72 by the rotation of the supply power unit 81 . Here, the supply power unit 81 is configured to supply a lower vertical reinforcing bar 11b by rotation with a plurality of guide bars 80 formed on the outer circumferential surface of the rotating shaft 82 .

In this way, the lower vertical reinforcing bar 11b moved by the supply power unit 81 (that is, rolled along the guide member) is limited in movement by the stopper block 45, and this stopping point is the upper part of the spot base 41. becomes That is, on the spot base 41, the upper vertical reinforcing bar 11a is located on the upper side with respect to the horizontal reinforcing bar 10a, and the lower vertical reinforcing bar 11b is positioned in a line on the vertical line at the bottom of the horizontal reinforcing bar 10a.

Referring to FIG. 3 , on the spot base 41 as described above, with respect to the horizontal reinforcement 10a, the upper vertical reinforcement 11a is on the upper side, and the lower vertical reinforcement 11b is arranged on a vertical line at the bottom of the horizontal reinforcement 10a. When it is positioned as , the spot body 62 is installed in the lower part of the spot base 51, and the spot welding part 50 including the spot header 53 in the lower part of the spot body 62 operates to perform spot welding. will lose

4 and 5, in a state where the lower vertical reinforcing bar 11b and the upper vertical reinforcing bar 11a are integrally positioned on a vertical line based on the horizontal reinforcing bar 10a on the spot base 41, the spot header (53) is lowered, the upper vertical reinforcing bar 11a and the lower vertical reinforcing bar 11b are spot-welded and joined to the horizontal reinforcing bar 10a. That is, spot welding is a resistance welding in which metal plates are stacked on top of each other and the electrode tip is placed on top of the metal plate, and the current and pressing force are concentrated on a relatively small part to locally heat and at the same time apply pressure to the electrode. In the present invention, the spot header 53 ) is a movable electrode, and the lower spot base 41 is a fixed electrode, and the horizontal reinforcing bars 10a, the upper vertical reinforcing bars 11a, and the lower vertical reinforcing bars 11b located between them become the base material and are joined together by welding. this will be done

With respect to the horizontal reinforcing bar 10a that moves in this way, the upper vertical reinforcing bar 11a and the lower vertical reinforcing bar 11b are continuously supplied onto the spot welding unit 50 to perform continuous spot welding, and the dual reinforcing bar network is manufactured. will lose

6, in the present invention, in the dual reinforcing bar network 10, a plurality of transverse reinforcing bars 10a are disposed at regular intervals, and the upper vertical reinforcing bars 11a and the lower portion respectively on the upper and lower portions of the transverse reinforcing bar 10a. It refers to a structure in which the vertical reinforcing bars 11b are spot-welded in a state arranged in a line on a vertical line to form a rectangular reinforcing bar network.

Referring to FIG. 7 , a power supply unit of an embodiment different from the above-described embodiment is provided. Specifically, the lower vertical reinforcing bar guide member 72 is provided with a first supply blade (80a) and a second supply blade (80b). Here, the first supply wing 80a is disposed on the lower vertical reinforcing bar supply unit 71 installed in the lower vertical reinforcing bar guide member 72, and guide bars 81 are protruded in all directions from the rotation shaft 82a as a starting point. has The first supply wings 80a having such a configuration load the lower vertical reinforcement 11b supplied one by one from the lower vertical reinforcement supply unit 71 on each guide bar 81a and supply it through the lower vertical reinforcement guide member 72 will do

On the other hand, the front end of the lower vertical reinforcing bar guide member 72 (that is, the portion where the spot welding part is installed) takes over the lower vertical reinforcing bars 11b supplied through the first supply wing 80a and supplies them one by one to the spot welding part 50. The second A supply blade (80b) is installed. Here, the second supply blade 80b has a configuration in which a plurality of guide bars 81b are formed on the outer peripheral surface of the rotation shaft 82b, and serves to supply the individual lower vertical reinforcing bars 11b to the spot welding part 50 .

The dual reinforcing bar network 10 produced in this way consists of a reinforcing bar network through spot welding in a state in which the vertical reinforcing bars 11a and 11b are dually disposed on the upper and lower portions of the horizontal reinforcing bars 10a; or steel wires, respectively. While remarkably improving the structural rigidity of the mesh, it is possible to significantly improve the construction performance through the rebar mesh during construction, and further improve the manufacturing performance of the rebar mesh through continuous spot welding.

In addition, while the conventional reinforcing bar network secures rigidity by adjusting the bending or rebar dimensions of the reinforcing bar, the present invention improves the manufacturing performance through continuous manufacturing, and various specifications of the reinforcing bar network according to the required strength during the manufacturing process It can be applied and manufactured. That is, it is possible to manufacture various rebar meshes according to the dimensions and standard strength of rebar meshes without a separate fastening process during construction.

In the above, the present invention has been illustrated and described with respect to specific embodiments, but the present invention is not limited to the above-described embodiments, and those of ordinary skill in the art to which the present invention pertains will The invention may be implemented with various changes without departing from the spirit of the invention.

10a: transverse reinforcement
11a: upper longitudinal reinforcement
11b: lower vertical reinforcement
20: guide roller
30: information block
31: first guide block
32: second guide block
41: spot base
45: stopper block
50: spot weld
51: spot base
52: spot body
53: spot header
61: upper longitudinal reinforcing bar supply
62: upper vertical reinforcement guide member
71: lower vertical reinforcing bar supply
72: lower vertical reinforcing bar guide member
80,81a,81b,: Information bar
82a, 82b: axis of rotation
80a, 80b, 81: supply power unit

Claims (3)

Guide roller for guiding the horizontal reinforcing bar drawn out in a straight line in the wound state;
a plurality of guide blocks installed at regular intervals along the moving direction of the horizontal reinforcing bars;
an upper vertical reinforcing bar supply unit for supplying an upper vertical reinforcing bar to the upper portion of the horizontal reinforcing bar;
a lower vertical reinforcing bar supply unit located below the upper vertical reinforcing bar supply unit and supplying a lower vertical reinforcing bar to a lower portion of the horizontal reinforcing bar while being vertically downward of the supplied upper vertical reinforcing bar; and
It is located between the upper vertical reinforcing bar supply unit and the guide block, and includes a spot welding unit for spot welding the upper vertical reinforcing bar and the lower vertical reinforcing bar to the horizontal reinforcing bars with the horizontal reinforcing bars interposed therebetween,
The spot welding part, a spot header located on the upper part of the horizontal reinforcing bar, and
A dual reinforcing bar, characterized in that it includes a spot base positioned under the transverse reinforcing bar and guided by the transverse reinforcing bar, and a stopper block for locating the supplied lower vertical reinforcing bar on the spot base is installed around the spot base. network manufacturing equipment. According to claim 1,
The upper vertical reinforcing bar supply unit further comprises an upper vertical reinforcing bar guide member for guiding the upper vertical reinforcing bar to the spot welding part,
The lower vertical reinforcing bar supply unit dual reinforcing bar network manufacturing apparatus, characterized in that it further comprises a lower vertical reinforcing bar guide member for guiding the lower vertical reinforcing bar to the spot welding portion. A dual reinforcing bar network manufactured by the dual reinforcing bar network manufacturing apparatus according to claim 1 or 2.

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