JP2980793B2 - Column / beam joining method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for joining reinforced concrete columns and beams.

[0002]

2. Description of the Related Art Conventionally, for a concrete structure, a cast-in-place concrete casting method for constructing the entire structure on site has been adopted. However, this construction method has the drawbacks that the assembling work of the formwork and the reinforcing bar is complicated, and that the construction accuracy tends to vary depending on the skill of the operator. Therefore,
In the case of a high-rise building or the like in which repetitive work is frequently performed, structural members such as columns, beams, and slabs are divided and manufactured in another place such as a factory, and the manufactured structural members are joined and assembled on site. Precast method is adopted.

According to the precast method, since each structural member is manufactured in advance at a factory or the like, there is an advantage that the reliability of quality is high. However, when the weight of each structural member is large, it is necessary to use a high-capacity lifting machine at the time of carrying into the site or at the time of assembling. Therefore, it is necessary to reduce the weight of each structural member so as to reduce the weight.

By the way, in joining the beams and the precast columns on the upper and lower floors in the above precast method, a sleeve is buried at the bottom of the precast column, and the main reinforcement of the lower precast column is inserted into the sleeve. It is common to join them together. At this time, if the entire column is made of precast concrete, the weight increases, and a heavy-capacity heavy machine is required. In order to avoid this, a method of precasting only the portion corresponding to the outer shell of the column to form a hollow precast column formwork (hereinafter simply referred to as a hollow precast column) and assembling it on site and then casting the remaining concrete is adopted. Can be

[0005] At this time, the joining of the precast columns on the upper and lower floors is performed by the following two lap joints.

(1) A hollow precast column having a column main bar and a stirrup built therein and having a column main bar protruding from the column capital beyond the slab surface of the upper floor is erected. Then, place the end of the precast beam on this hollow precast column, and
(Hereinafter referred to as the panel zone) The main bar at the bottom of the beam, the main bar at the column and the main bar at the top of the beam are arranged, concrete is cast, and the column and beam are joined together. Next, a hollow precast pillar on the upper floor is inserted into a pillar main bar projecting above the slab surface to form a lap joint.

(2) As shown in FIG. 6, a precast beam B is mounted on a hollow precast column A containing a column main bar 1a and a band bar 2a. Then, a pre-assembled reinforcing bar C for joining the upper and lower columns, which is composed of a vertical bar 1c having a length penetrating the panel zone in the height direction and a band 2c wound around an intermediate portion thereof.
The longitudinal bar 1c is inserted into the hollow part of the hollow precast column A so that the stirrup 2c is positioned in the panel zone, and the reinforcing bars are arranged, and concrete is poured. Thus,
After joining the columns and beams together, a hollow precast column (not shown) on the upper floor is inserted into a pre-assembled reinforcing bar C protruding on the slab surface to form a lap joint.

[0008]

However, the lap joint in the above-mentioned conventional precast method has the following problems. (A) In the case of the lap joint of (1) above, the pillar main bar projecting from the hollow precast column on the lower floor is in contact with the hollow precast column on the upper floor. For this purpose, it is necessary to bend inward so that the main bar of the hollow precast column on the lower floor can be easily inserted into the hollow portion of the hollow precast column on the upper floor. As described above, since the column main reinforcement is bent inward, when attaching the column reinforcement in the panel zone, it is necessary to change the outer diameter of the reinforcement according to the mounting position. It is necessary to make the length of the pillar main bar projecting from the column capital longer by the length of the beam in addition to the length for forming the lap joint with the hollow precast pillar on the upper floor. For this reason, the protruding portion of the column main reinforcement of the hollow precast column becomes long, and workability is poor when transporting the hollow precast column or arranging the precast beam, the floor, and the like.

(B) In the case of the lap joint of the above (2), one hollow precast column A is composed of the vertical bar 1c of the upper pre-assembled reinforcing bar C inserted from the upper side and the lower bar 1c inserted from the lower side. A lap joint is formed with a vertical bar of a braided reinforcing bar (not shown). For that purpose, the hollow precast column A needs at least twice the length of the lap joint. The length of the lap joint is 40 when the rebar diameter “d” is 25 mm.
d or more, and as a result, the floor height becomes 2 m or more. Hollow precast pillar A joined from the design point of view
And the outer surface of the precast beam B may be the same. In this case, the thickness of the main reinforcing bar of the precast beam B and the longitudinal reinforcing bar 1c of the pre-assembled reinforcing bar C in the panel zone were measured.
Therefore, it is necessary to provide reinforcing bars in order to prevent the risk of peeling.

Accordingly, an object of the present invention is to reduce the length of a main bar projecting from a hollow precast column, reduce the floor height, and connect the outer surface of a joined hollow precast column and the outer surface of a beam without reinforcing bars. It is an object of the present invention to provide a method for joining columns and beams on the same surface.

[0011]

In order to achieve the above-mentioned object, according to the first aspect of the present invention, there is provided a method for connecting a column and a beam, wherein a column main bar and a band bar projecting from a capital to a slab surface of an upper floor at the longest. The built-in hollow precast pillar is built on the slab,
After placing the end of the semi-precast concrete beam in which the lower main bar and the stirrup bar are buried, on the hollow precast column, a band bar is provided at a portion of the column main bar built into the hollow precast column projecting from the stigma. Are installed at predetermined intervals, the column / beam joint is pierced in the horizontal direction, the lower end connecting bar is bridged between the semi-precast concrete beams, and a length having a length penetrating the column / beam joint in the height direction. A pre-assembled reinforcing bar consisting of a reinforcing bar and a connecting bar for fixing the vertical bar at both ends thereof in a tubular shape is inserted into the column main bar of the hollow precast column located in the column / beam joint, and the bars are arranged. Penetrate the column / beam joint along the precast concrete beam, arrange the upper main bar inside the upper side of the stirrup streak, and inside the hollow precast column and semi-precast concrete beam. Also, concrete is poured into the column / beam joint to integrate the column and beam.

According to a second aspect of the present invention, there is provided the column-beam joining method according to the first aspect of the present invention, wherein the belt is installed at a location protruding from the top of the column in the main bar of the column built in the hollow precast column. The muscle is characterized in that it is formed in a spiral shape by a single reinforcing bar.

According to a third aspect of the present invention, in the column-beam joining method according to the first aspect of the present invention, the column-beam joining method is installed at a location protruding from the column capital in the column main reinforcement built in the hollow precast column. The stirrups are characterized in that they are connected by connecting members.

According to a fourth aspect of the present invention, there is provided the column / beam joining method according to any one of the first to third aspects, wherein the hollow precast column located in the column / beam joint is provided. The front reinforcing bar inserted into the column main reinforcing bar is characterized in that a tip portion is bent inward from the connecting bar in the vertical bar and a hook is provided at a distal end of the vertical bar.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the illustrated embodiments. The column / beam joining method in this embodiment is a column / beam joining method in which a lower hollow precast column and an upper hollow precast column are joined by a pre-assembled reinforcing bar.

FIGS. 1 and 2 show the pillars in this embodiment.
It is explanatory drawing of the joining structure of the column and the beam formed by the joining method of the beam. As shown in FIG. 1 and FIG. 2, the column main bar 11a of the hollow precast column 11 projects from the column capital 11b to the slab surface on the upper floor at the longest. The two beams 12, 13 having one end placed on the capital 11b of the hollow precast column 11 to form a panel zone are semi-precast concrete beams in which a lower main bar and stirrup bars 12b, 13b are embedded. It is. Then, rectangular strip bars 11c are provided at predetermined intervals so as to circumscribe the protrusions located in the panel zone in the pillar main bars 11a of the hollow precast columns.

As shown in FIG. 2, the lower half of the pre-assembled reinforcing bar 14 having the longitudinal bars 14a fixed to the square tube by the connecting bars 14b at the upper and lower ends is used as the column of the hollow precast column 11 in the panel zone. It is inserted into the main reinforcing bar 11a, and a lap joint is formed by the protruding portion of the column main reinforcing bar 11a and the lower half of the longitudinal bar 14a of the pre-assembled reinforcing bar 14. On the other hand, the lower half of a hollow precast pillar (not shown) on the upper floor is covered on the upper half of the pre-assembled reinforcing bar 14 projecting upward from the slab surface on the upper floor to form an overlapping joint. In this way, the hollow precast columns on the upper and lower floors and the two beams are joined.

The longitudinal bar 14a of the pre-assembled reinforcing bar 14 is
A tip portion is bent inward from 4b and 14b, and a hook 14c is provided at the tip. In this way, the workability at the time of inserting the pre-assembled reinforcing bar 14 into the column main bar 11a of the hollow precast column 11 is improved.

In the column / beam joint structure as described above, as shown in FIG. 3 (a), the lower half of the hollow precast column 11 has a projecting portion in the column main bar 11a and a lower half of the pre-assembled reinforcing bar 14. Most of the lap joints are formed in the panel zone. Here, the length of the lap joint varies depending on the thickness of the column main bar 11a of the hollow precast column 11, and the like. Therefore, the overlapping joint between the lower half of the pre-assembled reinforcing bar 14 and the column main bar 11a of the hollow precast column 11 does not fit within the panel zone and the hollow precast column 11
May be extended within. However, even in that case, the length of the portion extended into the hollow precast column 11 is sufficiently shorter than the length of the entire lap joint, since most of the lap joint is formed in the panel zone. Therefore, the length of the hollow precast column 11 in the present embodiment may be at least a length obtained by subtracting the height of the panel zone from at least twice the length of the lap joint. Can also lower the floor height. 3 (b) is a sectional view taken along the line AA in FIG. 3 (a), and FIG.
FIG. 3A is a sectional view taken along the line BB in FIG.
It is CC sectional view taken on the line (a).

In the present embodiment, the stirrups 11c arranged in the panel zone are separately provided separately from the pre-assembled reinforcing bars 14 at the projecting portions of the column main reinforcing bars 11a of the hollow precast columns 11. Therefore, it is not necessary to provide a region for attaching the reinforcing bar to the pre-assembled rebar 14, and the pre-assembled rebar 14 can be made shorter and lighter. Therefore, when joining the hollow precast column 11 and the beams 12, 13,
The pre-assembled rebar 14 can be transported manually, and the joining operation can be easily performed.

According to the joint structure of columns and beams in this embodiment, the following effects can be obtained. FIG. 4 is a longitudinal sectional view in the panel zone. 4A is a longitudinal sectional view according to the present embodiment, and FIG. 4B is a longitudinal sectional view in a conventional example.

In FIG. 4A, the column main reinforcement 22b of the lower hollow precast column 22 projects into the panel zone 21. The column main bar 22b is located outside the longitudinal bar 24a of the pre-assembled reinforcing bar 24. As a result, beam 2
The upper main bar 25a and the lower connecting bar 25b spanned over 5
The outermost upper reinforcement 25a and the lowermost connection reinforcement 25b are also located outside the longitudinal reinforcement 24a of the pre-assembled rebar 24 (but inside the column main reinforcement 22b of the lower hollow precast column 22). I have. Therefore, when the outer surface of the beam 25 and the outer surfaces 22a and 23a of the hollow precast columns 22 and 23 are flush with each other, the outermost upper main reinforcement 25 of the beam 25 is formed.
The thickness “d ₁ ” of “a” and the bottom connecting bar 25b can be reduced. Similarly, when concrete is poured into the panel zone 21 and the concrete outer surface 21a of the panel zone 21 and the outer surfaces 22a, 23a of the hollow precast columns 22, 23 are flush with each other, the outermost surface in the panel zone 21 The covering thickness “d ₂ ” of the located reinforcing bar (that is, the column main bar 22 b) is also reduced to the same normal value as the hollow precast columns 22 and 23. That is, according to the present embodiment, the insertion of the reinforcing bar becomes unnecessary.

On the other hand, according to the column / beam joining structure obtained by the conventional column / beam joining method shown in FIG.
The rebar inserted in the panel zone 31 is the pre-assembled rebar 3
4 are only the vertical streaks 34a. And this tip rebar 34
Is inserted into the hollow portion of the hollow precast column 32 and the beam 35
Upper main bar 35a and lower connecting bar 35b located at the outermost sides
Are located more inward than the vertical bars 34a of the pre-assembled reinforcing bars 34. Therefore, the upper main bar 35a, the lower connecting bar 35b, and the vertical bar 34a of the pre-assembled reinforcing bar 34 are all located far away from the concrete outer surface 31a of the panel zone 31. Therefore, the thickness d _{1 of} the outermost upper main bar 35 a and the lowermost connecting bar 35 b and the length of the vertical bar 34 of the pre-assembled reinforcing bar 34.
The thickness d ₂ is greater wearing of a, it is necessary to produce to insert a reinforcement 36 for the risk of spalling caused when exceeding the value 100 mm.

The column / beam joining structure according to the present embodiment as described above can be realized by the following column / beam joining method. Hereinafter, the method of joining columns and beams in this embodiment will be described in detail with reference to FIG.

As shown in FIG. 5 (a), the main streaks 11
A hollow precast pillar 11, 11 'from which a, 11a' protrudes is erected. Next, as shown in FIG. 5B, a semi-precast concrete beam 13 is erected between the hollow precast columns 11, 11 '. Next, as shown in FIG. 5 (c), the hollow precast columns 11, projecting into the panel zone,
The stirrups 11c, 11c 'are arranged at predetermined intervals on the main streaks 11a, 11a' of 11 '.

Next, as shown in FIG. 5 (d), lower end connecting bars 15, 15 'are arranged between the semi-precast concrete beams 13 so as to penetrate the panel zone. Next, as shown in FIG. 5 (e), the lower half of the pre-assembled reinforcing bars 14, 14 'is connected to the column main reinforcing bars 1 of the hollow precast columns 11, 11' in the panel zone.
1a, 11a '. At that time, the pre-assembled rebar 14,1
The lower connecting bars 14b, 1 for fixing the 4 'vertical bars 14a, 14a'
4b 'comes into contact with the lower connecting bars 15, 15'.
As shown in (f), the pre-assembled reinforcing bars 14, 14 'are positioned so that the upper half protrudes upward from the panel zone without falling. Next, as shown in FIG. 5 (f), the semi-precast concrete beams 13, 13 ',.
Are arranged inside the upper sides of the stirrup bars 13b, 13b ',.

Next, as shown in FIG. 5 (g), concrete 17 is poured into the space of the hollow precast columns 11, 11 ', the space of the semi-precast concrete beam 13 and the panel zone, and the upper slab surface is formed. To form Next, FIG.
As shown in (h), hollow precast columns 18, 18 'on the upper floor are erected on the pre-assembled reinforcing bars 14, 14' whose upper half protrudes upward from the slab surface. Thus, the joining of the hollow precast columns 11 and 18 on the upper and lower floors and the semi-precast concrete beam 13 is performed.

As described above, in this embodiment, the hollow precast pillar 11 having the pillar main bar 11a protruding from the capital 11b to the slab surface of the upper floor at the longest is built on the slab. And this hollow precast pillar 11,11, ...
Half precast concrete beams 12 and 13 are erected between them, and strip bars 11c are installed at predetermined intervals on the column main bars 11a of the hollow precast columns 11 projecting into the formed panel zone. Then, the pre-assembled reinforcing bar 14 is provided in the column main bar 11a.
Of the hollow precast column 11 and the longitudinal bar 14a of the pre-assembled reinforcing bar 14 to form an overlapping joint. Further, a hollow precast column on the upper floor is erected in the upper half of the pre-assembled reinforcing bar 14 to form a lap joint.

As described above, the hollow precast column 11
Most of the lap joint between the upper pre-assembled reinforcing bar 14 and the upper pre-assembled reinforcing bar 14 is formed in the panel zone, and the lap joint between the hollow precast post 11 and the lower pre-assembled reinforcing bar 14 is formed in the hollow precast post 11. For this purpose, the length of the hollow precast column 11 may be at least as long as the length obtained by subtracting the height of the panel zone from at least twice the length of the lap joint. Therefore, according to the present embodiment, the floor height can be made lower than the conventional column / beam joining method in which the length of the hollow precast column is at least twice the length of the lap joint.

At this time, the above-mentioned stirrup 11c is
4 and installed directly on the column main bar 11a in the panel zone. Therefore, there is no need to attach a strap to the pre-assembled rebar 14, and the length of the pre-assembled rebar 14 can be shortened and the weight can be reduced.

Since the column main reinforcement 11a of the hollow precast column 11 projects into the panel zone, the outer surfaces of the semi-precast concrete beams 12, 13 and the concrete outer surface of the panel zone and the outer surface of the hollow precast column 11 are separated. When making the same plane, the thickness of the outermost upper reinforcing bar 16 and the lowermost connecting bar 15 which are bridged over the semi-precast concrete beams 12 and 13 and the outermost reinforcing bar (column main bar 11a) in the panel zone ) Is thinner. Therefore, there is no need to arrange reinforcing bars for preventing peeling.

Further, the pre-assembled rebar 14 includes a plurality of longitudinal rebars 1.
4a is fixed in a tubular shape by connecting bars 14b, 14b arranged vertically. Therefore, when the pre-assembled reinforcing bar 14 is inserted into the panel zone, the lower connecting bar 14b on the lower side of the pre-assembled reinforcing bar 14 abuts against the lower end connecting reinforcing bar 15 arranged between the semi-precast concrete beams 12, 13. The position of the pre-assembled rebar 14 in the panel zone is set correctly.
Further, the vertical bar 14a of the pre-assembled reinforcing bar 14 has a hook 14c formed by bending the tip of the bar 14b inward from the connecting bar 14b. Therefore, the pre-assembled rebar 14 is easily inserted into the panel zone.

In the above embodiment, the streak 11c installed in the panel zone is a plurality of streaks 11c having a rectangular shape.
Are arranged at predetermined intervals, but the present invention is not limited to this. For example, one reinforcing bar may be spirally wound around the main bar of the hollow precast column. Further, a plurality of strips having a rectangular shape may be fixed at predetermined intervals by a connecting member. In the above embodiment,
The tip of the longitudinal bar 14a of the pre-assembled reinforcing bar 14 is bent inward to provide the hook 14c at the tip, but the vertical bar may be straight.

[0034]

As is apparent from the above description, in the column / beam joining method according to the first aspect of the present invention, a hollow precast column having a built-in column main bar protruding from the capital to the slab surface of the upper floor at most is built. After the semi-precast concrete beam is erected, a stirrup is installed at the projecting portion of the column main bar of the hollow precast column, and the lower end connecting bar is bridged between the semi-precast concrete beams by horizontally penetrating the column / beam joint. Hand, insert a pre-assembled rebar into the column main bar of the hollow precast column located in the column / beam joint, and penetrate the column / beam joint along the semi-precast concrete beam to arrange the upper main bar. And inside the hollow precast column,
The concrete is cast into the semi-precast concrete beam and the column / beam joint to integrate the column and beam.
While the hollow precast column of the book forms most of the lap joint with the upper pre-assembled rebar in the column-beam joint,
A lap joint with the lower pre-assembled rebar is formed in the hollow precast column.

Therefore, according to the present invention, the length of the hollow precast column used should be at least twice as long as the length of the lap joint minus the height of the panel zone. It is possible to lower it.

Further, since the projecting amount of the column main reinforcement of the hollow precast column is at most as long as the slab surface on the upper floor, the projecting amount of the column main reinforcement can be made shorter than before. Further, the column main reinforcement of the hollow precast column projects into the panel zone. Therefore, when the outer surface of the semi-precast concrete beam and the concrete outer surface of the panel zone and the outer surface of the hollow precast column are flush with each other, the uppermost main reinforcement located at the outermost position arranged along the semi-precast concrete beam, The covering thickness of the lower end connecting bar and the covering bar of the outermost reinforcing bar in the panel zone are small, and there is no need to arrange auxiliary bars.

According to the column / beam joining method according to the second aspect of the present invention, the reinforcing strip installed at the projecting portion of the main column of the hollow precast column is formed spirally with one reinforcing bar. Therefore, the stirrup can be easily installed.

According to the column / beam joining method of the third aspect of the present invention, since the strips provided at the protruding portions of the column main bars of the hollow precast columns are connected by a link member, The stirrup can be easily installed.

According to the column / beam joining method according to the fourth aspect of the present invention, the tip of the longitudinal bar of the pre-assembled reinforcing bar is bent inward from the connecting bar, and a hook is provided at the distal end of the longitudinal bar. Therefore, the pre-assembled rebar can be easily inserted into the column main bar of the hollow precast column, and can be arranged at a predetermined position.

[Brief description of the drawings]

FIG. 1 is an explanatory view of a column / beam joining structure formed by the column / beam joining method of the present invention.

FIG. 2 is an explanatory view of a column / beam joining structure following FIG. 1;

FIG. 3 is a cross-sectional view of the column / beam joint structure shown in FIGS. 1 and 2;

FIG. 4 is an enlarged sectional view of a panel zone in a column / beam joint structure different from FIG.

FIG. 5 is a view showing a method for joining columns and beams according to the present invention.

FIG. 6 is an explanatory view of a conventional column / beam joint structure.

[Explanation of symbols]

11,22… Hollow precast column, 11a, 2
2b ... pillar main bar, 11c ... band bar, 12, 13, 25 ... semi-precast concrete beam, 14, 24 ... pre-assembled bar,
14a, 24a ... vertical streak, 14b ... tether,
14c: hook, 15, 25b: lower connecting bar, 16, 25a: upper main bar.

──────────────────────────────────────────────────続 き Continued on the front page (58) Fields surveyed (Int.Cl. ⁶ , DB name) E04B 1/16 E04B 1/20-1/21

Claims (4)

(57) [Claims] 1. A semi-precast concrete in which a hollow precast column form having built-in column main bars and stirrups protruding from a capital to a slab surface of at least an upper floor is built on a slab, and a lower main bar and a stirrup are buried. After placing the end portion of the beam on the hollow precast column formwork, a stirrup is installed at a predetermined interval at a position protruding from the stigma in the column main bar built in the hollow precast column formwork, and A beam connecting portion is horizontally pierced to bridge a lower connecting bar between the semi-precast concrete beams, and a vertical bar having a length penetrating the column / beam connecting portion in a height direction, and the vertical bar at both ends. A pre-assembled reinforcing bar consisting of a reinforcing bar fixed in a cylindrical shape is inserted into the column main bar of the hollow precast column form located in the column / beam joint, and is laid out, and the semi-precast concrete Penetrate the column / beam joint along with the upper main bar inside the upper side of the stirrup streaks, and concrete is inserted into the hollow precast column formwork, semi-precast concrete beam and column / beam joint. A method of joining columns and beams, where the columns and beams are integrated. 2. The column-beam joining method according to claim 1, wherein the stirrups installed at positions protruding from the stigma in the column main bars built in the hollow precast column form are:
A column / beam joining method characterized by being formed in a spiral shape by a single reinforcing bar. 3. The column / beam joining method according to claim 1, wherein the stirrups installed at locations protruding from the stigma of the column main bars built in the hollow precast column formwork are:
A column / beam joining method characterized by being connected by connecting members. 4. The column / beam joining method according to claim 1, wherein the column / beam is inserted into a column main bar of the hollow precast column form located in the column / beam joint. A method of joining columns and beams, characterized in that the leading rebar is bent inward at the tip of the longitudinal bar from the connecting bar, and a hook is provided at the tip of the longitudinal bar.