KR102247172B1 - XY reinforcing bar grid with separation prevention bar - Google Patents

Abstract

The present invention relates to an XY reinforcing bar grid mesh with separation preventing bars, in which a plurality of main bars are connected in parallel with each other in a longitudinal direction to be spaced at regular intervals from each other by means of a plurality of gap maintenance bars and separation preventing bars. The present invention provides the XY reinforcing bar grid mesh with the separation preventing bars, which forms a full steel bar grid mesh, wherein the XY reinforcing bar grid meshes are disposed up and down at least one by one in an X axis direction and an Y axis direction on a plane to cross each other such that the plurality of main bars perpendicularly cross each other and are spaced at the same interval from each other in the X-axis direction and the Y-axis direction. The XY reinforcing bar grid mesh with the separation preventing bars comprises: a plurality of the main bars disposed in parallel with each other in a back and forth direction to be spaced at a first interval from each other in a left and right direction; a plurality of the gap maintenance bars disposed in parallel with each other in a left and right direction at the upper parts of the main bars to be spaced at a second interval from each other in a back and forth direction where portions crossing the main bars are welded; and pairs of the separation preventing bars disposed in parallel with the gap maintenance bars at the upper parts of front ends and rear ends of the main bars, wherein one of a pair is disposed at a front side of the gap maintenance bar located at the most front side among the gap maintenance bars to be spaced at a first interval, the other of a pair is disposed at a rear side of the gap maintenance bar located at the most rear side among the gap maintenance bars to be spaced at the first interval, and portions crossing the main bars are welded.

Description

XY reinforcing bar grid with separation prevention bar}

The present invention relates to an XY reinforcing bar grid provided with a plurality of main bars that are connected in parallel with each other along the longitudinal direction at a predetermined distance from each other by a plurality of spacing retaining muscles and separation preventing bars.

In general, rebar grids are used as a foundation used as a frame for floors or walls in construction and civil works. This reinforcing bar grid has a structure in which a plurality of reinforcing bars are arranged and fixed at regular intervals in the front and rear and left and right.

In other words, in the reinforcing bar grid, a plurality of main bars are arranged at left and right regular intervals along the front and rear longitudinal direction, and a plurality of abdominal muscles are arranged at regular intervals before and after along the left and right width directions, and the intersection of the main bars and the reinforcing bars is connected. Have a structure.

Currently, in some rebar processing plants, the production efficiency of rebar grids is greatly improved as rebar grids manufacturing devices capable of manufacturing rebar grids have been developed in an automated manner.

Here, the rebar grids manufactured at the rebar processing plant are loaded onto the truck's loading box and transported to the construction site, but the left and right widths of the truck's loading box are limited by the width of the lane, so the left and right widths of the rebar grid are limited to less than the width of the truck's loading box. It has no choice but to be.

Therefore, a large-area reinforced grid with a width greater than the width of the left and right of the truck's loading box cannot be transported by a truck, so it is inevitable to manufacture it by hand at the construction site. The way to minimize the weight of manual labor is to arrange a plurality of reinforcing bar grids in the X-axis direction, arrange a plurality of reinforcing bar grids in the Y-axis direction on top of them, and connect the intersection points between them to connect a large-area reinforcing bar grid. Is to manufacture.

As described above, the method of arranging a plurality of reinforcing bar grids to cross each other vertically in the X-axis and Y-axis directions and connecting the intersection points requires a lot of manpower and time as well as the upper and lower part of the total area as manual work is required. As the overlapped portion occupies a large amount, there is a problem that the consumption of reinforcing bars is unnecessarily increased.

In addition, when lifting with a crane to arrange a plurality of rebar grids in the X-axis and Y-axis directions, there is a risk of safety accidents due to the heavy weight of the rebar grids. There is a problem of being separated from each other.

In order to solve these problems, a large-area reinforcing bar grid can be constructed quickly, conveniently and at low cost at the construction site, unlike the existing reinforcing bar grid (hereinafter referred to as ``full rebar grid''), a plurality of main bars are required. An XY reinforcing bar grid has been developed and used, arranged at regular intervals by a plurality of spacing bars and welded at the intersections of the main bars and the spacing bars.

On the other hand, the full reinforcing bar grid has a shape in which a plurality of main bars are arranged side by side with each other along the X-axis direction at a first interval, and a plurality of reinforcement bars are arranged side by side with each other along the Y-axis direction at the first interval. , In the XY reinforcing bar grid, a plurality of main bars are arranged in parallel with each other along the X-axis direction at a first interval, and a plurality of spacing bars are arranged in parallel with each other along the Y-axis direction. It has a shape arranged at intervals.

In other words, the XY rebar grid is relatively light in weight and easy to transport as the number of spacing bars that perform the role of reinforcing bars is minimized. There is an advantage that it can reduce the consumption of rebar because it is small.

However, in the XY reinforcing bar grid, large and small vibrations occur during driving when transported by a truck or heavy weight when lifting by a crane, as the plurality of spacing bars are fixed by welding to the top of the plurality of main bars at relatively wider intervals. There is a problem in that the intersection point of the main muscle and the space-holding muscle is easily separated as the main muscle is deflected downward.

This problem is that when the dorsal muscle is welded to a plurality of main muscles, all of the plurality of main muscles are located on the line in contact with the dorsal muscle, as the node is located on the line in contact with the dorsal muscle, and the bone (the part without the node) is located on the other main muscle. It is caused by welding in a state where there is a gap without being closely adhered to.

Here, the XY reinforcing bar grid is connected by welding the main bar and the spacing bar by either electric resistance welding or carbon dioxide welding, and when the diameter of the main bar is 25 mm or more, the size of the welding device increases due to the increase of the transformer capacity. Because welding is difficult, carbon dioxide welding has to be used. Electric resistance welding welds while pressing the base material and does not damage the base material, whereas carbon dioxide welding welds without pressure to the base material and damages the base material, resulting in lower welding quality. There is this.

Therefore, it is urgent to research and develop a technology that can improve the quality of the XY reinforcing bar grid by solving the closed ends that are dropped out by welding the intersection point of the main bar and the spacing retaining bar in order to manufacture the XY rebar grid.

Republic of Korea Patent Publication No. 10-2129329, announced on February 2, 2020.

The present invention was invented to solve the above-described problems, and to manufacture an XY reinforcing bar grid network, the intersection point of the main bar and the spacing maintaining bar prevents large and small vibrations that occur during transport or the disruption that is separated by a high load acting during lifting. Its purpose is to provide an XY reinforcing bar grid equipped with a separating prevention bar so that it can be performed.

The object of the present invention is not limited to the above-mentioned object, and other objects not mentioned may be sufficiently included in the object of the present invention while being clearly understood from the following description.

In order to achieve the above object, the XY reinforcing bar grid provided with the separating prevention bar according to the present invention is arranged to cross each other vertically in the X-axis direction and the Y-axis direction at least one on a plane, so that a plurality of main bars cross each other perpendicularly and X To constitute a full reinforcing bar grid spaced apart from each other at equal intervals along the axis direction and the Y axis direction; The main muscles are composed of a plurality and arranged side by side with each other in the front and rear direction so as to be spaced apart from each other at a first interval along the left and right direction; A gap maintenance muscle that is composed of a plurality and is disposed parallel to each other in the left and right directions so as to be spaced apart from each other at a second interval along the front and rear directions on the upper part of the main muscle, and the intersection point with the main muscle is welded; And a pair of the front and rear ends of the main muscle, respectively, arranged in parallel with the spacing retaining muscle, one of the spacing retaining muscles disposed at the anterior side of the spacing retaining muscle at the anterior side with the first interval, and the other One may be configured to include; a separation prevention muscle that is disposed at the rear side of the gap maintaining muscle disposed at the rearmost side of the gap maintaining muscle at the first interval, and is welded at a point of intersection with the main muscle.

The second interval may be configured with a length corresponding to a multiple of the first interval.

Among the anti-separation muscles, the anti-separation muscles arranged at the first interval on the left side of the space-holding muscles arranged at the front end from the upper part of the main muscles are to be arranged at a point separated from the front end of the main muscles by a length multiplied by 1.5 times the first interval. I can.

The anti-separation muscles arranged at the first interval on the right side of the space-holding muscles arranged at the rearmost end of the upper part of the main muscles among the anti-separation muscles are located at a point separated from the rear end of the main muscles by more than the overlap length determined according to the structural general drawing. Can be placed.

The diameter of the spacing retaining muscle may be configured to be relatively smaller than the diameter of the main muscle, and the diameter of the separating preventing muscle may be configured to be equal to or smaller than the diameter of the spacing retaining muscle.

The present invention by the above configuration can expect the following effects.

As the separation prevention bars parallel to the spacing bars are further connected to the upper front and rear ends of the main bars of the XY reinforcing bar grid, the large and small vibrations that occur when transporting the XY rebar grids by truck can be alleviated at the front and rear ends of the main bars. When the XY reinforcing bar grid is lifted by a crane, the force against the tensile load acting on the intersection of the main and spacing bars can be generated at the front and rear ends of the main bars by the total load. This can prevent segregation of waste.

1 is a perspective view showing an XY reinforcing bar grid provided with a separation prevention bar according to a preferred embodiment of the present invention.
2 is a plan view showing an XY reinforcing bar grid provided with a separation prevention bar according to a preferred embodiment of the present invention.
3 is a plan view showing a full reinforcing bar grid in which a plurality of XY reinforcing bars are provided in the X-axis direction and the Y-axis direction according to a preferred embodiment of the present invention.

The present invention is a full reinforcing bar that is arranged to cross each other vertically in the X-axis and Y-axis directions at least one on a plane, while a plurality of main bars cross each other perpendicularly and are spaced apart from each other at equal intervals along the X-axis and Y-axis directions. It relates to an XY reinforcing bar grid provided with a separating prevention bar in which a plurality of main bars are arranged and connected in parallel with each other at regular intervals by a plurality of space-holding bars to form a grid network.

In particular, the XY reinforcing bar grid equipped with a separating prevention bar according to the present invention is the intersection point of the main bar and the gap-holding bar by large and small vibrations generated when transported by a truck or a high load acting when lifting with a crane to form a full reinforcing bar grid. It is characterized in that the quality can be guaranteed by preventing the separation of the waste.

This feature can be achieved by a structure in which the separation prevention muscles are provided to be connected to the main muscles so as to be separated from each other in parallel with the space keeping muscles at the upper ends of the main muscles so that the intersection points of the main muscles and the space keeping muscles are not separated.

Hereinafter, with reference to the accompanying drawings, an XY reinforcing bar grid provided with a separating prevention bar according to a preferred embodiment of the present invention will be described in detail as follows.

The XY reinforcing bar grid 100 provided with a separating prevention bar according to a preferred embodiment of the present invention is disposed to be vertically intersected in the X-axis direction and the Y-axis direction at least one on a plane, as shown in FIGS. 1 to 3. A plurality of main bars 10 cross each other perpendicularly to each other along the X-axis direction and Y-axis direction to form a full reinforcing bar grid 200 spaced apart from each other at equal intervals, the main bars 10 and the spacing retainer (20) ) And may be configured to include a separation prevention muscle (30).

First, the main muscles 10 may be formed of a plurality and may be arranged side by side in the front and rear directions so that the plurality of main muscles 10 are spaced apart from each other at a predetermined interval along the left and right directions.

Here, the interval between the main muscles 10 may be configured as a first interval (A). Depending on the embodiment, the distance between the main roots 10 may be 250 mm or 300 mm.

Next, the spacing maintaining muscles 20 may be formed of a plurality and may be arranged side by side in the left and right directions so as to be spaced apart from each other at predetermined intervals along the front and rear directions on the upper portion of the main muscles 10. That is, the gap maintaining muscle 20 may be disposed on the upper part of the main muscle 10 so as to intersect vertically with the main muscle 10 in a plane.

At this time, the interval of the interval holding muscle 20 may be configured as a second interval that is a multiple of the first interval. That is, the spacing of the spacing holding muscle 20 may be configured as a second spacing (B) that is 5 to 9 times the first spacing (A). According to an embodiment, the spacing of the spacing retainer 20 may be composed of one of 1750 mm, 2000 mm, and 2250 mm when the spacing of the main root 10 is 250 mm, and 1500 mm if the spacing of the major muscle 10 is 300 mm, It can be composed of one of 1800mm, 2100mm,

In addition, the spacing maintaining muscle 20 disposed on the frontmost side from the front end of the main muscle 10 may be disposed at a point separated from the front end of the main muscle 10 by a length equal to 2.5 times the first interval A. According to the embodiment, the space keeping muscle 20 disposed on the frontmost side may be disposed at a point 625 mm away from the front end of the main muscle 10 when the distance between the main muscle 10 is 250 mm, and the distance between the main muscle 10 is In the case of 300 mm, it may be disposed at a point 750 mm away from one end of the main root 10.

In addition, the gap-holding muscle (20), which is disposed at the rear end of the rear end of the main muscle (10), is obtained by adding the first gap (A) to the overlapping length (C) or more of the structural general drawing from the rear end of the main muscle (10). It can be placed at a point separated by length. According to an embodiment, the space keeping muscle 20 disposed at the rearmost side may be disposed at a point separated from the rear end of the main muscle 10 by a length plus 250 mm from the rear end of the main muscle 10 when the distance of the main muscle 10 is 250 mm. If the distance of the main root 10 is 300 mm, it may be disposed at a point away from the other end of the main root 10 by a length of 300 mm plus the overlapping length.

Here, the reason why the spacing bars 20 are arranged at the above points in the upper part of the main bars 10 is that the XY reinforcing bar grid 100 is arranged so as to intersect vertically in the X-axis direction and the Y-axis direction, respectively. When manufacturing 200, the main bars (10) of the XY reinforcing bar grid (100) arranged in the X-axis direction and the spacing bars (20) of the XY rebar grid (100) arranged in the Y-axis direction (20) ) And the main muscle (10), overlapping up and down, and to prevent the obstruction that the vertical clearance occurs.

And the number of the spacing maintaining muscle (20) may be composed of a total of 5 to 6 depending on the length of the main muscle (10). According to an embodiment, the number of the spacing maintaining muscles 20 may be composed of a total of 6 when the length of the main muscle 10 is 12m, and may be composed of a total of 5 when the length of the main muscle 10 is 10m.

On the other hand, the intersection of the gap maintaining muscle 20 and the main muscle 10 may be welded by a spot welding method or a carbon dioxide welding method so that the gap maintaining muscle 20 and the main muscle 10 are integrally connected. At this time, the gap maintaining muscle 20 may be configured with a diameter relatively smaller than the diameter of the main muscle 10. According to an embodiment, when the diameter of the main muscle 10 is configured as one of 22m, 25m, 29mm, 32mm, and 35mm, the diameter of the spacing maintaining muscle 20 may be configured as one of 13mm and 16mm.

As described above, the reason why the diameter of the spacing retainer 20 is smaller than the diameter of the main muscle 10 is that the spacing retaining muscle 20 plays only the role of connecting the main muscle 10 at the first interval, so that the foundation for construction and civil engineering works. Since it is not included as a calculation factor when calculating the reinforcement, it is to reduce the consumption of the reinforcing bar by minimizing the diameter of the spacing retaining bar (20).

And another reason for configuring the diameter of the spacing retaining muscle 20 to be smaller than the diameter of the main muscle 10 is that when welding the intersection point of the spacing retaining muscle 20 and the main muscle 10, the diameter of the spacing retaining muscle 20 is ), the area ratio of the spacing retaining muscle 20 and the spacing retaining muscle 20 welded to the main muscle 10 is relatively increased compared to the case where the diameters of the spacing retaining muscle 20 and the major muscle 10 are the same. It is to connect 10) more firmly.

Finally, the separation preventing muscle 30 is connected to be parallel to the spacing retaining muscle 20 on the upper part of the main muscle 10, so that the intersection point of the main muscle 10 and the spacing maintaining muscle 20 is not separated from each other. .

At this time, the intersection of the separation prevention muscle 30 and the main muscle 10 may be welded by a spot welding method or a carbon dioxide welding method so that the separation prevention muscle 30 and the main muscle 10 are integrally connected.

That is, the separation prevention muscle (30) is composed of a pair and is connected to be parallel to the spacing retaining muscle (20) at the front and rear ends of the main muscle (10) and perpendicularly intersecting with the main muscle (10), and the main muscle (10) It is possible to reinforce so that the intersection point of the main muscle 10 and the gap maintaining muscle 20 is not separated while being disposed on the anterior and posterior sides of the gap maintaining muscle 20 disposed at the most anterior and posterior sides of the image.

Therefore, when carrying the XY reinforcing bar grid 100 on a truck, the separation prevention bar 30 starts at the front or rear end of the main bar 10 and is transmitted to each intersection point of the main bar 10 and the gap maintaining bar 20. By reducing the small vibration, it is possible to protect the intersection point of the main muscle 10 and the space keeping muscle 20 from being separated from each other.

In addition, when the XY reinforcing bar grid 100 is lifted by a crane, the separation prevention bar 30 is a tension to separate the intersection point of the main bar 10 and the spacing retainer 20 as the main bar 10 is struck downward by the full load. By exerting a force against the load at the front and rear ends of the main muscle 10, it is possible to protect the intersection point of the main muscle 10 and the space keeping muscle 20 from being separated from each other.

Here, the separation preventing muscle 30 may be disposed at a point separated by a first distance A from the gap maintaining muscle 20 disposed at the front and rear ends of the main muscle 10, respectively, at the front and rear ends.

This is the main reinforcing bar of the XY reinforcing bar grid 100 disposed in the X-axis direction when manufacturing the full reinforcing bar grid 200 by arranging the XY reinforcing bar grid 100 so as to intersect each other in the X-axis direction and the Y-axis direction. 10) and the separation prevention bar (30) is to prevent the closing of the vertical clearance occurs while overlapping the separation prevention muscle (30) and the main muscle (10) of the XY reinforcing bar grid 100 arranged in the Y-axis direction.

On the other hand, the separation preventing muscle 30 may be configured with a diameter equal to or smaller than the diameter of the gap maintaining muscle 20. This is because the separation prevention bar 30 is also not included as a calculation factor when calculating the foundation reinforcement for construction and civil engineering, similar to the spacing retaining bar 20, thus reducing the amount of reinforcing bar consumption and relatively increasing the ratio of the area to be welded with the main bar 10. It is to improve the welding quality at the point of intersection with (10).

The above-described embodiments are merely exemplary, and other embodiments variously modified therefrom are possible by those of ordinary skill in the art.

Therefore, the true technical protection scope of the present invention should include not only the above embodiments but also various modified other embodiments according to the technical idea of the invention described in the following claims.

10: main root
20: Gap Keeper
30: anti-separation muscle
100: XY reinforcement grid
200: Full rebar grid
A: the first interval
B: second interval
C; Lap length

Claims (5)

At least one on the plane is arranged to cross each other vertically in the X-axis and Y-axis directions, and a plurality of main bars cross each other vertically and a full reinforcing bar grid that is spaced apart from each other at equal intervals along the X-axis and Y-axis directions. By constituting;
The main roots are formed in a plurality and are arranged side by side in the front-rear direction so as to be spaced apart from each other at a first interval along the left-right direction;
It is composed of a plurality and is arranged side by side with each other in the left and right directions so as to be spaced apart from each other at a second interval corresponding to a multiple of the first interval along the front and rear directions on the upper part of the main muscle, and the intersection point with the main muscle is a spot welding method. Or Gap Ji-geun welded by a carbon dioxide welding method; And
Consisting of including a pair of separation prevention muscles which are arranged in parallel with the spacing holding muscles at the front and rear ends of the main muscles, respectively, to which the intersection points with the main muscles are welded,
In the manufacture of the full reinforcing bar grid, in order to prevent the obstruction in which a vertical gap occurs while the main bars and the separating bars disposed in the X-axis direction overlap the separation preventing bars and the main bars disposed in the Y-axis direction, one of the separation preventing bars is selected from the above. Among the spacing retaining muscles, the first spacing is placed on the anterior side of the spacing retaining muscle disposed at the most anterior side, and is disposed at a point distant from the front end of the main muscle by a length multiplied by 1.5 times the first spacing, and the other of the separation preventing muscles is the spacing. Among the retaining muscles, the first spacing is placed on the posterior side of the retaining muscles disposed at the rearmost side, and is disposed at a point separated from the rear end of the main muscle more than the overlap length determined according to the structural general drawing,
The diameter of the spacing retaining bar is configured to be relatively smaller than the diameter of the main bar in order to reduce the consumption of the reinforcing bar and increase the area ratio of the welding to the main bar, and the diameter of the separation prevention bar reduces the consumption of the reinforcing bar and reduces the area ratio of the area to be welded to the main bar. In order to increase the XY reinforcing bar grid provided with a separation prevention bar, characterized in that configured to be less than or equal to the diameter of the spacing holding bar. delete delete delete delete

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