JP6992313B2 - Reinforcement structure of deck plate - Google Patents

Description

The present invention relates to a bar arrangement structure of a deck plate.

When constructing a synthetic slab by placing slab concrete on a corrugated deck plate having peaks and valleys, reinforcing bars may be arranged on the deck plate in order to increase the load capacity of the synthetic slab. For example, Patent Document 1 discloses a deck plate in which reinforcing bars are arranged in a valley portion.

Japanese Patent No. 2789510

However, the reinforcing bar (main bar) disclosed in Patent Document 1 is suspended and supported by the leg member, and the leg member is spot-welded and fixed to the bottom of the valley portion of the deck plate. Therefore, it is necessary to weld the leg material to the deck plate, and the reinforcement work is not easy.

In view of the above facts, an object of the present invention is to provide a deck plate reinforcement structure capable of easily arranging a lower end main reinforcement in a valley portion.

The reinforcement arrangement structure of the deck plate according to the first aspect is arranged on a corrugated deck plate having peaks and valleys, and the upper end main bar extending in the extending direction of the valley and the upper or lower portion of the upper end main bar. A plurality of force distribution bars arranged in the valley and extending in directions orthogonal to the extension direction of the valley, a hanging bar arranged in the valley and supported by the upper end main bar or the force distribution bar, and the above. It has a lower end main bar arranged in a valley and supported by the hanging bar.

According to the above configuration, since the lower end main bar is arranged in the valley portion of the deck plate, the floor load capacity can be increased and the support span of the deck plate by the beam can be lengthened. In addition, since the lower end main bar is supported by the hanging bar supported by the upper end main bar or the force distribution bar, the support member (hanging bar) that supports the lower end main bar is welded to the deck plate. Muscle work becomes easy.

The reinforcement structure of the deck plate according to the second aspect is the reinforcement structure of the deck plate according to the first aspect, and two or more of the upper end main bar and the lower end main bar are arranged for each valley. There is.

According to the above configuration, two or more upper end main bars and two or more lower end main bars are arranged for each valley of the deck plate. Therefore, the floor load capacity can be further increased and the support span of the deck plate by the beam is longer than that in the configuration in which the upper end main bar and the lower end main bar are arranged one by one for each valley of the deck plate. can do.

The reinforcement structure of the deck plate according to the third aspect is the reinforcement structure of the deck plate according to the first aspect or the second aspect, and the suspension bar is U-shaped, and the upper end main bar or the said A locking portion that is locked to the force distribution bar is provided at the upper end portion, and a receiving portion on which the lower end main bar is placed is provided at the lower end portion.

According to the above configuration, the U-shaped hanging bar is provided with a locking portion and a receiving portion. Therefore, by locking the locking portion of the hanging bar to the upper end main bar or the force distribution bar and placing the lower end main bar on the receiving portion of the hanging bar, the lower end main bar is placed at a predetermined pitch in the valley of the deck plate. Can be easily arranged with.

According to the present invention, the lower end main bar can be easily arranged in the valley portion of the deck plate.

It is an overall perspective view which shows the bar arrangement structure of the deck plate in one example of an embodiment. It is a partially enlarged view which shows the bar arrangement structure of the deck plate in one example of an embodiment. (A) to (D) are process charts showing a method of arranging reinforcements on a deck plate in an example of the embodiment. (A) to (C) are partially enlarged views showing the reinforcement structure of the deck plate in the modified example.

Hereinafter, the reinforcement arrangement structure of the deck plate in an example of the embodiment of the present invention will be described with reference to FIGS. 1 and 2.

<Reinforcement structure>
As shown in FIG. 1, the deck plate 10 of the present embodiment is a QL deck having a corrugated cross section, and a plurality of peaks 12 and a plurality of valleys 14 extending in the length direction are alternately formed. ..

Both ends of the deck plate 10 in the width direction are supported by beams 16 made of, for example, H-shaped steel, and both ends of the deck plate 10 in the length direction are supported by beams (not shown). Further, on the surface of the deck plate 10, a plurality of concave cotters 18 are formed in order to improve the adhesion of the slab concrete 28 described later.

As shown in FIGS. 1 and 2, a plurality of upper end main bars 20 are arranged on the deck plate 10. The upper end main bar 20 is a reinforcing bar extending along the extending direction of the valley portion 14 of the deck plate 10, and two reinforcing bars are arranged for each valley portion 14.

Further, a plurality of force distribution bars 22 are arranged on the deck plate 10. The force distribution bars 22 are reinforcing bars extending in a direction orthogonal to the extending direction of the valley portion 14 of the deck plate 10, that is, in a direction intersecting the upper end main bar 20, and are arranged at regular intervals from each other.

A spacer block (not shown) is installed on the mountain portion 12 of the deck plate, and the plurality of force distribution bars 22 are placed on the spacer block, respectively, so that the spacer block is spaced from the mountain portion 12 of the deck plate 10. Is held open. Further, the force distribution bar 22 is arranged below the upper end main bar 20 and supports the upper end main bar 20.

Further, a plurality of hanging bars 24 are supported on the upper end main bar 20. The hanging bar 24 is a substantially U-shaped reinforcing bar, and a pair of locking portions 24A bent outward in a hook shape are provided at the upper end portions, and a flat receiving portion 24B is provided at the lower end portion. ing.

In the hanging bar 24, a pair of locking portions 24A are respectively locked to the two upper end main bars 20, and the receiving portion 24B is located in the valley portion 14 of the deck plate 10. As shown in FIG. 1, the hanging bars 24 are arranged at regular intervals along the extending direction of the upper end main bar 20, and in the present embodiment, the intervals of the hanging bars 24 are the force distribution bars 22. Is roughly equal to the interval of.

As shown in FIGS. 1 and 2, two lower end main bars 26 are arranged in the valley portion 14 of the deck plate 10. The lower end main bar 26 is a reinforcing bar extending in the extending direction of the valley portion 14, that is, in the same direction as the upper end main bar 20, and the two lower end main bars 26 are supported by the receiving portion 24B of the hanging bar 24 at intervals from each other. ing.

Further, the diameter of the lower end main bar 26 is larger than the diameter of the upper end main bar 20, and specifically, the diameter is set so that the two lower end main bars 26 can bear the load corresponding to the controlled width. Here, the "dominant width" indicates a range (width) that can be supported by a set of reinforcing bars, and in the present embodiment, as shown in FIG. 2, between the centers of adjacent mountain portions 12 of the deck plate 10. The width L of is the dominant width.

As shown in FIG. 2, a slab concrete 28 is placed on the deck plate 10, and the upper end main bar 20, the force distribution bar 22, the hanging bar 24, and the lower end main bar 26 are respectively placed on the slab concrete 28. It is buried.

<Reinforcement method>
Hereinafter, with respect to an example of the procedure for arranging the reinforcing bars (upper end main bar 20, force distribution bar 22, hanging bar 24, and lower end main bar 26) on the deck plate 10 of the present embodiment, FIGS. 3 (A) to 3 (FIG. 3). This will be described using D).

First, spacer blocks (not shown) are installed at regular intervals on the mountain portion 12 of the deck plate 10 placed on the beam 16. Then, by placing the force distribution bar 22 on the spacer block, the force distribution bar 22 is arranged on the deck plate 10 as shown in FIG. 3A.

Next, as shown in FIG. 3B, the upper end main bar 20 is placed on the upper part of the force distribution bar 22, and the upper end main bar 20 is bound to the force distribution bar 22 by a binding line (not shown). At this time, two upper end main bars 20 are arranged for each valley portion 14 of the deck plate 10.

Next, as shown in FIG. 3C, the hanging bar 24 is attached to the valley portion 14 of the deck plate 10 by locking the locking portion 24A of the hanging bar 24 to each of the two upper end main bars 20. Reinforce. Further, the hanging bar 24 is bound to the upper end main bar 20 by a binding line (not shown).

After that, as shown in FIG. 3D, the lower end main bars 26 are arranged in the valley portion 14 of the deck plate 10 by placing the two lower end main bars 26 on the receiving portion 24B of the hanging bar 24. .. Further, the two lower end main bars 26 are bound to both ends of the receiving portion 24B of the hanging bar 24 by a binding line (not shown).

By the above procedure, the upper end main bar 20, the force distribution bar 22, the hanging bar 24, and the lower end main bar 26 are arranged on the deck plate 10, respectively. Since the above procedure is an example, the bar arrangement position and the bar arrangement procedure may be different. After that, the slab concrete 28 shown in FIG. 2 is placed on the deck plate 10 to construct a synthetic slab.

<Action and effect>
According to the present embodiment, the lower end main bar 26 is arranged in the valley portion 14 of the deck plate 10. Therefore, the floor load capacity can be increased and the support span of the deck plate 10 by the beam can be lengthened as compared with the configuration in which the lower end main bar 26 is not arranged in the valley portion 14 of the deck plate 10. can.

In particular, in the present embodiment, two or more upper end main bars 20 and two or more lower end main bars 26 are arranged for each valley portion 14 of the deck plate 10. Therefore, as compared with the configuration in which the upper end main bar 20 and the lower end main bar 26 are arranged one by one for each valley portion 14 of the deck plate 10, the floor load capacity can be further increased, and the deck plate 10 by the beam can be used. The support span can be made longer.

Further, according to the present embodiment, the hanging bar 24 is supported by the upper end main bar 20, and the lower end main bar 26 is supported by the hanging bar 24. Therefore, as compared with the configuration in which the support member (hanging bar 24) supporting the lower end main bar 26 is welded to the deck plate 10, the bar arrangement work of the lower end main bar 26 becomes easier.

In particular, in the present embodiment, the hanging bar 24 has a substantially U-shape, a locking portion 24A is provided at the upper end portion, and a receiving portion 24B is provided at the lower end portion. Therefore, by locking the locking portion 24A of the hanging bar 24 to the upper end main bar 20, the hanging bar 24 can be easily suspended from the upper end main bar 20. Further, by placing the lower end main bar 26 on the receiving portion 24B of the hanging bar 24, the lower end main bar 26 can be easily arranged at a predetermined pitch in the valley portion 14 of the deck plate 10.

Further, in the present embodiment, a corrugated QL deck is used as the deck plate 10. Therefore, the amount of slab concrete 28 can be reduced and the floor weight can be reduced as compared with the case where a flat deck is used as a deck plate of a synthetic slab having a floor load capacity of the same level.

<Other embodiments>
Although an example of the embodiment of the present invention has been described above, the present invention is not limited to such an embodiment, and various other embodiments are possible within the scope of the present invention.

For example, in the above embodiment, the hanging bar 24 has a substantially U-shape. However, the hanging bar 24 may have any shape as long as it can be suspended from the upper end main bar 20 or the force distribution bar 22, and is like the hanging bar 34 shown in FIG. 4 (A). May be substantially W-shaped.

By forming the hanging bar 34 in a substantially W shape, a pair of receiving portions 34B can be provided on the hanging bar 34. Therefore, the lower end main bar 36 can be easily positioned by arranging the lower end main bar 36 on each of the pair of receiving portions 34B.

Further, in the above embodiment, the upper end main bar 20 is supported by the force distribution bar 22, and the hanging bar 24 is supported by the upper end main bar 20. However, as shown in FIG. 4B, the force distribution bar 42 may be supported by the upper end main bar 40 by placing the force distribution bar 42 on the upper end main bar 40, and the suspension bar 44 may be supported. The hanging bar 44 may be supported by the force distribution bar 42 by locking the locking portion 44A of the above to the force distribution bar 42.

Further, in the above embodiment, two lower end main bars 26 are arranged for each valley portion 14 of the deck plate 10, but as shown in FIG. 4C, the lower end main bar 56 is the valley portion 14 of the deck plate 10. One may be arranged for each. In this case, the hanging bar 54 that supports the lower end main bar 56 may be substantially V-shaped.

Further, similarly to the lower end main bar 56, one upper end main bar 20 may be arranged for each valley portion 14 of the deck plate 10. Further, three or more upper end main bars 20 and lower end main bars 26 may be arranged for each valley portion 14 of the deck plate 10.

Further, in the above embodiment, the locking portion 24A is formed by bending the upper end portion of the hanging bar 24 outward in a hook shape, but the upper end portion of the hanging bar 24 is hooked inward. A locking portion may be formed by being bent into a shape.

Further, in the above embodiment, the diameter of the lower end main bar 26 is larger than the diameter of the upper end main bar 20, but the diameter of the lower end main bar 26 may be larger than the diameter of the upper end main bar 20 as long as it can bear the load corresponding to the controlling width. It may be the same size as the diameter of the main bar 20.

Further, in the above embodiment, the upper end main bar 20, the hanging bar 24, and the lower end main bar 26 are arranged for each valley portion 14 of the deck plate 10, but the upper end main bar 20 is arranged in all the valley portions 14 of the deck plate 10. , The hanging bar 24, and the lower end main bar 26 do not need to be arranged. For example, when the controlling width is 2 L, the upper end main bar 20, the hanging bar 24, and the lower end main bar 26 may be arranged every other with respect to the valley portion 14 of the deck plate 10.

10 Deck plate 12 Mountain part 14 Valley part 20, 40 Upper end main bar 22, 42 Power distribution bar 24, 34, 44, 54 Suspended bar 24A, 44A Locking part 24B, 34B Receiving part 26, 36, 56 Lower end main bar

Claims (3)

The upper end main bar, which is arranged on a corrugated deck plate having a mountain portion and a valley portion and extends in the extending direction of the valley portion,
A plurality of force distribution bars arranged above or below the upper end main bar and extending in directions orthogonal to the extending direction of the valley, respectively.
A hanging bar arranged in the valley and supported by the upper end main bar or the force distribution bar,
The lower end main bar arranged in the valley and supported by the hanging bar,
Have ,
The hanging bar has a U-shape, and a pair of locking portions locked to the upper end main bar or the force distribution bar extend outward from the upper end portion.
Reinforcement structure of the deck plate. The reinforcement arrangement structure of the deck plate according to claim 1, wherein two or more of the upper end main bar and the lower end main bar are arranged in each of the valley portions. The reinforcement arrangement structure of the deck plate according to claim 1 or 2 , wherein a receiving portion on which the lower end main bar is placed is provided at the lower end portion of the hanging bar.

Images