JPH08229626A - Reinforcement basket manufacturing method - Google Patents

Abstract

(57) [Summary] [Structure] When manufacturing a rebar cage consisting of main muscle 1, hoop muscle 2 and tie hoop muscle 3, main muscle 1 and hoop muscle 2
Before fixing and, attach the tie hoop muscle 3 to the pair of main muscles 1 and 1.
Is fixed in advance to prepare the ladder muscle 5. The ladder muscles 5 are arranged vertically in a row, and the main muscles 1 and 1 are arranged above the ladder muscles 5 located on the uppermost side. Next, the U-shaped hoop half muscle 21 is moved downward so that the main muscle 1 and the ladder muscle 5 are inserted from the lower opening. Next, the contact point between the hoop half muscle 21 and the main muscle 1 is fixed. Then, another half hoop muscle (not shown) is fixed to the open part of the half hoop muscle 21. [Effect] A large number of tie hoop muscles 3 can be easily fixed between the main muscles 1 and 1.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for manufacturing a rebar cage in which a large number of tie hoops are bridged between a pair of main bars.

[0002]

2. Description of the Related Art Generally, a rebar cage is composed of a plurality of pairs of main bars and an annular hoop that is wound around and fixed to the outer sides of the plurality of pairs of main bars, but higher strength is required. In some cases, a large number of tie hoop muscles are fixed across each pair of main muscles.

Conventionally, in the case of manufacturing this main rebar cage, after fixing the main bar and the hoop bar, the tie hoop bar is bridged between the pair of main bars, and the both are fixed by means such as welding or binding. I was doing.

[0004]

When the tie hoop muscles are fixed to the main muscles after fixing the main muscles and the hoop muscles, the work of fixing the tie hoop muscles and the main muscles is performed in a narrow space surrounded by the main muscles and the hoop muscles. It must be done inside, and the operator is forced to take an unreasonable posture. For this reason, there is a problem that the operator is very tired and the work efficiency is reduced.

[0005]

The present invention has been made to solve the above problems, and the invention according to claim 1 is directed to a plurality of pairs of main bars arranged in a single row and a plurality of pairs of main bars. When manufacturing a reinforcing bar cage consisting of a plurality of loop-shaped hoop muscles fixed so as to wind their outsides on the main bars, and a large number of tie hoop muscles fixed and bridged between the pair of main bars, First, create a plurality of ladder muscles that form a ladder by bridging and fixing tie hoop muscles between each pair of main muscles, then arrange multiple ladder muscles in a row and then part of the above hoop muscles. Extrapolating the eggplant-shaped first half hoop muscle from the open side to the plurality of ladder muscles,
After that, the second half hoop muscle forming another part of the hoop muscle is fixed to both ends of the first half hoop muscle on the open side. In this case, it is desirable to arrange the plurality of ladder muscles vertically and to extrapolate the first hoop half muscles from above for the reason described later.

[0006]

In the invention according to claim 1, the tie hoop muscles are fixed to the main muscles before fixing the main muscles and the hoop muscles, so that other main muscles and hoop muscles do not interfere with the fixing work in a free posture. It can be performed. Further, in the invention according to claim 2, the contact portion between the first hoop semi-reinforcing bar and the main rebar faces the outer space without facing the floor surface or the like. Therefore, after assembling the first hoop and the main bar, the contact point between the first hoop and the main bar can be fixed while maintaining the initial assembled state without changing the direction or moving the main bar. .

[0007]

Embodiments of the present invention will now be described with reference to FIGS.
Will be described with reference to. First, the reinforcing bar cage manufactured by the first embodiment of the manufacturing method of the present invention will be described with reference to FIG. 5. The reinforcing bar cage A is composed of a main bar 1, a hoop bar 2, and a tie hoop bar 3. The main bar 1 is in the form of an elongated rod, and the upper and lower faces which are opposed to each other in FIG. 5 (A) form a pair. Then, a large number of pairs of main bars 1 and 1 that are paired are arranged in a single row in a row and spaced apart from each other in the left-right direction.

The hoop muscle 2 has a rectangular annular shape, and has a right half hoop muscle (first half hoop muscle) 21.
And a left half hoop muscle 22. The hoop half muscle 21 is U-shaped, and bent portions 21a bent substantially at right angles are formed at both ends thereof. On the other hand, the hoop half muscle 22 has a linear shape, and bent portions 22a bent at substantially right angles are formed at both ends thereof. The hoop halves 21 and 22 have bent portions 21a and 22a formed at both ends thereof overlapped with each other and are fixed by means such as welding or binding. As a result, the hoop muscle 2 having a rectangular annular shape as a whole is formed. The hoop muscles 2 configured in this manner are arranged so as to wind around the outer sides of the multiple pairs of the main muscles 1, and the contact points with the respective main muscles 1 are fixed by means such as welding or binding. Moreover, a large number of hoop muscles 2 are arranged apart from each other in the longitudinal direction of the main muscle 1.

A large number of tie hoop muscles 3 are arranged apart from each other in the longitudinal direction of the main muscle 1 between the main muscles 1 and 1 of the pair other than the two pairs located at both ends of the hoop muscle 2. Of course, the tie hoop muscle 3 is arranged at a position other than the position where the hoop muscle 2 is arranged. Each of the tie hoop muscles 3 is curved so that both ends thereof are wound around the main muscle 1 over approximately half a circumference, and the curved portions 31, 31 are fixed to the main muscle 1 by means such as welding or binding.

Next, a case of manufacturing the rebar cage A having the above structure will be described. When manufacturing the reinforced basket A, first, as shown in FIG. 2, a tie hoop muscle 3 is bridged between a pair of main bars 1 and 1 and both ends thereof are fixed to the main bars 1 and 1, thereby forming a ladder shape. Create the ladder muscle 5.

This ladder muscle 5 can be produced, for example, as follows. That is, a pair of main bars 1 and 1 are arranged on a plurality of worktables D (only one worktable D is shown in FIG. 2) arranged apart from each other. In this case, the distance between the main bars 1 and 1 is made slightly smaller than the distance after completion. Next, a predetermined number of tie hoop muscles 3 are arranged on the main muscles 1 and 1 at a predetermined distance. In this case, both end portions of the tie hoop muscle 3 are bent to the same side by approximately 180 ° to form the bending portions 31, 31 in advance, and the bending portions 31,
31 is placed on the main bars 1 and 1 with the lower part facing downward. afterwards,
The pair of main muscles 1 and 1 are respectively moved in the arrow direction (longitudinal direction of the tie hoop 3), and the bending portion 3 of each tie hoop muscle 3 is moved.
Hit 1,31. Then, the main muscles 1, 1 and the curved portions 31, 31 of each tie hoop muscle 3 are fixed.

After the predetermined number of the ladder muscles 5 have been produced as described above, the ladder muscles 5 are arranged in a single row.
In this case, the ladder muscles 5 may be arranged horizontally, but it is desirable to arrange them vertically. Further, when the work tables 6 shown in FIG. 1 are used, they can be arranged easily in the vertical direction.

In FIG. 1, reference numeral 61 is a base of the workbench 6, and support columns 62, 62 are erected on the base 61. Support shafts 63 projecting in the horizontal direction are provided on the surfaces of the support columns 62, 62 facing in mutually opposite directions. The respective support shafts 63 are provided in the same number as half of the ladder muscles, and are arranged vertically with the same spacing as the spacing between the ladder muscles 5 and 5, that is, the spacing between the two pairs of main muscles 1 and 1. Moreover, the support shaft 63 is provided so as to be retractable from the support column 62. The support shafts 63 may be provided in a required number or more and may be appropriately used depending on the arrangement interval of the ladder muscles 5.

When the ladders 5 are arranged in the vertical direction by using the workbench 6, the two workbenchs 6 are arranged in the horizontal direction with an appropriate interval, and the support shafts 63, 63 of one workbench 6 are arranged.
One end of each of the main bars 1 and 1 of the ladder muscle 5 is placed, and the other end of each of the main bars 1 and 1 of the ladder muscle 5 is placed on the supporting shafts 63 and 63 of the other work table 6, respectively. To do. Similarly, the other ladder muscles 5 are supported by the worktables 6 and 6, whereby the ladder muscles 5 are arranged in a single row in the vertical direction. Of course, three or more worktables 6 may be installed to support not only both ends of the ladder streak 5 but also the middle part.

When mounting a plurality of ladder muscles 5 on the respective support shafts 63, it can be carried out as follows. That is, first, only the lowermost support shafts 63, 63 are projected, and the other support shafts 63 are retracted. Then, the ladder muscles 5 are leveled, and the main muscles 1,
As the support columns 62, 62 are inserted between the end portions of 1,
The ladder bar 5 is moved downward from above the support column 62, and the main bar 1 of the ladder bar 5 is placed on the support shaft 63. Next, the second supporting shaft 63 from the bottom is projected, and the main bar 1 of the ladder bar 5 is placed on the supporting shaft 63 in the same manner. Thereafter, the remaining ladder muscles 5 are similarly placed on the support shaft 63. In addition,
The main bar 1 to which the tie hoop muscle 3 is not fixed is placed alone on the uppermost support shaft 63.

After placing the ladder muscles 5 and the main muscles 1 on the support shaft 63, the respective hoop half muscles 21 are extrapolated to the respective ladder muscles 5. This is performed as follows. First, the hoop half muscle 21 is positioned above the ladder muscle 5 with both ends on the open side facing downward. After that, the hoop half muscle 21 is moved downward, and the main muscle 1 and each ladder muscle 5
Is inserted into the hoop half muscle 21. In this case, since the bent portions 21a are formed at both ends of the hoop half muscle 21, as shown in FIG. 3, the hoop half muscle 21 is elastically deformed to widen the width of the open portion and maintain the state. And move it downwards. Then, each of the hoop half muscles 21 is placed at a predetermined position of the uppermost main muscles 1 and 1. After that, the contact points between each hoop half bar 21 and each main bar are fixed by means such as welding or binding. In this case, when the ladder muscles 5 are arranged in the vertical direction, the contact points between the main muscles 1 and the hoop half muscles 5 do not face the floor or the like and are opened to the outside work space. The contact point of can be easily fixed. By fixing the hoop muscle 21 to the main muscle 1, a rebar cage half body A ₁ including the main muscle 1, the ladder muscle 5, and the half hoop muscle 21 is produced.

Next, the rebar cage half A ₁ is moved upward and removed from the workbench 6. After that, both ends of the hoop half bar 22 are connected and fixed to both ends of the rebar cage half A ₁ on the open side of the hoop half bar 21 by welding or binding. In this case, the bent portion 21a of the half hoop 21 and the half hoop 22
The bent portions 22a may be brought into contact with each other and fixed together with the main muscle 1, or the bent portions 21a and 22a may be fixed to the main muscle 1 and connected and fixed via the main muscle 1. The reinforcing bar cage A is manufactured by connecting and fixing the hoop half bars 21 and the hoop half bars 22.

As described above, in the manufacturing method of the present invention,
Before assembling the main muscle 1 and the hoop muscle 2, a pair of main muscles 1,
Since the tie hoop muscle 3 is fixed between 1,
A large number of tie hoop muscles 3 can be easily fixed between the main muscles 1 and 1.

Further, when the ladder muscles 5 are arranged vertically as in the embodiment of this embodiment, when the ladder muscles 5 and the hoop half muscles 21 and 22 are assembled, their contact points are on the floor or the like. It is opened to the outside without doing. Therefore,
After fixing a part of the ladder muscle 5 and the half hoop muscles 21 and 22, without changing the direction of the assembled ladder muscle 5 and the half hoop muscle 21 or moving them,
Main muscle 1 and hoop half muscle 2 while maintaining the initial assembly state
All contact points with 1, 2 can be fixed.
Therefore, the main muscle 1 and the half hoops 21 and 22 can be easily fixed.

Next, another embodiment of the present invention shown in FIG. 4 will be described. This embodiment is relatively used for manufacturing a large-sized rebar cage, making the rebar cage halves A ₁ similar rebar and cage halves A _2. However, the bent portions 21a are not formed at both ends of the hoop half muscles (first hoop half muscles) 21 of the reinforcing bar cage halves A ₁ and A ₂ , and both ends are linearly extended.

[0021] Next, rebar cage halves A _1, A ₂ of the hoop half muscle 2
The both ends of 1, 21 are arranged so as to face each other. In this case, they may be opposed to each other in the horizontal direction or may be opposed to each other in the vertical direction. After that, the half hoop 21 of the rebar cage half A ₁
Both ends of the hoop half bar 21 of the rebar cage half A ₂ are inserted into the other ends of the joints 4 and 4, respectively. Then, the ends of the hoop semi-rebars 21, 21 and the joint 4 are fixed by using various means such as welding, screwing, and voltar injection. As a result, the rebar cage half A
₁ and A ₂ are connected and fixed, and a reinforced basket is manufactured.

In this embodiment, since two rebar cage halfs A ₁ and A ₂ are connected and fixed to produce one rebar cage, a large rebar cage can be manufactured.
Moreover, as the manufacturing facility for the rebar cage, only the size sufficient to manufacture the rebar cage half A ₁ , A ₂ that is half the size of the rebar cage after completion is required. It is possible to manufacture large reinforced baskets.

The present invention is not limited to the above embodiment, and the design can be changed appropriately. For example, in the above embodiment, the tie hoop muscle is not fixed between the two pairs of main muscles 1 and 1 arranged at both ends of the hoop muscle 2, but the tie hoop muscle 3 may be fixed to these as well.

[0024]

As described above, according to the invention of claim 1, when a large number of tie hoop muscles are bridged and fixed between a pair of main muscles, the main muscles and hoop muscles do not get in the way, Therefore, the worker can easily perform the fixing work in a comfortable posture, and thus the manufacturing efficiency of the rebar cage can be significantly improved. Further, according to the invention of claim 2, the direction of the main muscle and the first hoop muscle is changed,
It is possible to fix all the contact points while maintaining the initial assembled state without moving, and thus to further improve the manufacturing efficiency of the rebar cage.

[Brief description of drawings]

FIG. 1 is a view showing an embodiment of the present invention, showing a step of moving a first half hoop muscle downward and extrapolating it to ladder muscles arranged vertically.

FIG. 2 is a view showing the example, showing a step of producing a ladder muscle from a main muscle and a tie hoop muscle.

FIG. 3 is a view showing the same embodiment and shows a step of connecting and fixing a second hoop half bar to a reinforcing bar cage half.

FIG. 4 is a view showing another embodiment of the present invention, showing a step of connecting and fixing the end portions of the hoop half bars of the two reinforcing bar cage halves.

FIG. 5 shows an example of a rebar cage manufactured according to an embodiment of the present invention, FIG. 5 (A) is its front view, FIG. 5 (B) is its side view, and FIG. It is the top view.

[Explanation of symbols]

A Rebar cage A ₁ Rebar cage half A ₂ Rebar cage half 1 Main muscle 2 Hoop muscle 3 Tie hoop muscle 5 Ladder muscle 21 Half hoop muscle (first half hoop muscle) 22 Half hoop muscle (second half hoop muscle)

Claims (2)

[Claims] 1. A plurality of pairs of main reinforcements arranged in a single row and a plurality of hoop reinforcements each having a rectangular ring shape fixed to each of the plurality of pairs of main reinforcements so as to be wound on the outside thereof, When manufacturing a rebar cage consisting of a large number of tie hoop muscles fixed between a pair of main bars, first, a plurality of ladder-shaped ladder muscles are constructed by bridging and fixing the tie hoop bars between each pair of main bars. Then, a plurality of ladder muscles are arranged in a single row in a row, and then a U-shaped first hoop half muscle that forms a part of the hoop muscle is extrapolated from the open side to the plurality of ladder muscles. A method for manufacturing a reinforced basket according to claim 1, wherein the second half hoop of the first hoop is fixed to both ends of the first half hoop on the open side, and the second half of the hoop is fixed. 2. The method for manufacturing a reinforcing bar basket according to claim 1, wherein the plurality of ladder muscles are arranged vertically and the first hoop half muscle is extrapolated from above.