JPH02248543A - Connecting method for precast concrete column - Google Patents

Abstract

PURPOSE:To make it possible to design and construct a column having high axial force by fitting main reinforcements of a column of the lower story into spliced sleeves provided at the lower end of a PC concrete column, and by connecting the columns with grout applied to blockouts at the outer periphery of the base of the column, sleeves and voids at the connecting section. CONSTITUTION:Base mortar 10 is placed on a slab 7 and main reinforcements 2', protruding above the slab 7, of a column of a lower story are fitted into spliced sleeves 3, and a precast concrete column 1 is settled down on it. Then voids between blockouts 6 provided along the outer periphery of the base of the column 1 and the slab 7 are filled with mortar 9 and grout is then applied simultaneously covering the spliced sleeves 3, the voids between the slab 7 and the base of the column, and the precast concrete column 1 is connected thereby. Therefore sealing to the voids can be made simply and the column 1 is firmly connected, resulting in improvement of reliability in stress transfer, and designing of a column having high axial force can be made possible.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Field of Application) The present invention relates to a method for joining precast concrete columns.

(Prior art) Conventionally, in this type of construction method, a splice sleeve (b) is fixed to the lower end of a column main reinforcement (a), and a precast concrete column (a) with the column main reinforcement (a) protruding from the column head (
A), install mortar (C) on the slab (B), and place the precast concrete column (^) on top of it.
Attach the main column reinforcement of the lower floor column to the splice sleeve (b) of the same column (
The mortar method (Figs. 8 and 9) in which mortar is injected into the splice sleeve (b) of the same pillar through the injection hole provided in the pillar (A) is installed so that the upper protruding end of the pillar (a') fits in. (see figure) or erect a precast concrete column (A) on the base mortar (d) laid on the slab (B), and seal the outer edge of the gap between the column (A) and the slab (B) with surrounding sealing material. A grouting method is adopted in which the gaps are filled in step (e) and high-strength mortar is grouted into the gaps. (See Figure 10) In the figure, (f) and (2) indicate the grout injection hole and the discharge hole of the splice sleeve (b), and (h) and (g) indicate the injection hole and the discharge hole of the sealing material (e). It is.

(Problems to be Solved by the Invention) However, with the conventional mortar method, there are problems such as gaps between the precast concrete column and the slab.
Due to the tendency for construction defects to occur, there was a drawback in that it could not be used for columns with large axial forces due to the design.

In addition, in the conventional grouting method, the distance t between the precast concrete column and the slab is generally 20 m or more, which requires a large amount of grout, and the gap between the column and slab is large, so The sealing method was troublesome.

Furthermore, to prevent the mortar and gap-filling grout from flowing back during construction, attach a rubber washer (j) to the main reinforcement (a') to be joined, and separate it from the splice sleeve for joining the main reinforcement. The most common method was grouting.

The present invention has been proposed in view of the problems of the prior art, and its purpose is to facilitate the joining of precast reinforced concrete columns, improve stability against stress transmission, and The object of the present invention is to provide a method for joining precast concrete columns that can be precast even for columns with high axial strength.

(Means for Solving the Problems) In order to achieve the above object, the precast concrete column joining method according to the present invention involves installing a base mortar on a slab, and then attaching a main reinforcement with a splice sleeve fixed to the lower end. The upper end of the column main bar of the lower floor column that protrudes above the slab is inserted into the splice sleeve of the stud, and the precast concrete column has a precast concrete column that protrudes from the column head and has a notch cut out along the outer periphery of the column base. The slab is placed on the base mortar, and the gap between the notch in the column base and the slab is filled with mortar, and then the gap between the splice sleeve and the slab and the column base is filled with mortar. The structure is configured to simultaneously grout the entire area.

(Function) According to the present invention, as described above, the notch is cut out along the outer periphery of the column base of the precast concrete column, so after the column is built on a slab, the notch is cut out. Utilizing the gap formed between the section and the slab surface,
Mortar can be easily filled without requiring a formwork or the like.

After the filled mortar has hardened, when the mortar is grouted into the splice sleeve of the precast concrete column, the mortar is densely filled into the gap between the column and the slab, and at the same time, the splice sleeve is filled, The upper and lower precast concrete columns are joined together.

(Example) The present invention will be described below with reference to the illustrated embodiments.

(1) is a precast concrete column, (2) is a column main reinforcement, a splice sleeve (3) is fixed to the lower end thereof, and the upper end of the column main reinforcement (2) protrudes from the column head.

In the figure, (4) and (5) are grout injection holes and discharge holes provided in the pillar (1) and communicating with the splice sleeve (3).

Furthermore, a notch (6) of 20 to 25 angles is cut out along the outer peripheral edge of the column base of the column (1).

Therefore, the column main reinforcement (2) from the lower floor column on the slab (7)
’) at the center of the protruding part, place a level mortar (8
). (See Figure 1) Next, the column (1) is placed on the slab (7), the main reinforcement (2') of the lower column is fitted into the splice sleeve (4), and is seated on the base mortar (8). Then, the gap between the notch (6) of the pillar (1) and the slab (7) is filled with resin-filled mortar (9). (See Figure 2) At this time, the gap between the slab (7) and the pillar (1) is 1
It is about 0++n, and the notch part (6) is 20 to 25 m.
Since the mortar (9) is m square, no formwork or the like is particularly required for filling the mortar (9), and the filling work can be easily carried out, so construction can be carried out by someone other than plastering.

In addition, in the center of the lower base of the pillar (1) is a truncated pyramid-shaped concave hole (
10) is provided and fitted onto the truncated pyramid-shaped base mortar (8), thereby making it possible to easily position the column core. (See Figure 5) After the mortar (9) around the column base has hardened, non-shrinkage mortar (11) is continuously press-fitted through the grout injection hole (4) of the splice sleeve (3) at one location. do. (See Figure 3) At this time, all of the grout injection hole (4) and discharge hole (5) of the splice sleeve (3) are opened.

Non-shrinkage mortar (11) grouted from the grout injection hole (4) is first filled between the lower surface of the column base of the column (1) and the slab (7). Then, after confirming that the mortar has flowed out from the grout injection holes (4) at the bottom of all splice sleeves (3), rubber plugs are applied.

The mortar continues to be press-fitted, and after confirming that the mortar has flowed out from the discharge holes (5) at the top of all splice sleeves (3), rubber plugs are applied to complete the entire process. (See Figure 4) (Effects of the Invention) As described above, according to the present invention, in the method of joining precast concrete columns in which the upper end of the column main reinforcement with the splice sleeve fixed to the lower end protrudes from the column head, the stud After cutting out a notch along the outer periphery of the column base and erecting the column at a predetermined position on the slab, filling the gap between the notch and the slab surface with mortar, By simultaneously grouting the gap between the column base and the splice sleeve, the gap can be easily sealed by joining the precast concrete column, and the precast concrete column can be easily and reliably bonded. , reliability for stress transmission is improved. As a result, it is possible to design columns with high axial force such as composite structures and high-rise reinforced concrete structures, and the column cross section can be reduced compared to conventional designs.

[Brief explanation of drawings]

Figures 1 to 4 are longitudinal sectional views showing steps of an embodiment of the precast concrete column joining method according to the present invention, Figure 5 is a longitudinal sectional view showing details of Figure 2, and Figure 6 is a precast concrete column joining method. A perspective view showing the column base of a concrete column, Fig. 7 is an enlarged view of part ① in Fig. 6, Figs. 8 and 9 are longitudinal cross-sectional views showing an example of the process of a conventional construction method, and Fig. 10 is a conventional construction method. It is a longitudinal cross-sectional view showing the implementation status of another example of the construction method. (1)...Precast concrete column, (2) (2
')--Column main reinforcement, (3)--Splice sleeve, (6)-One notch, (8)-One base mortar, (7)-M-Slab, (9)-M-Mortar, (11) - Non-shrinking mortar. Figure 1 Agent Patent attorney Shige Okamoto 2 people Figure 8 Figure 9 Figure 10

Claims (1)

[Claims] A base mortar is installed on the slab, and then a precast concrete column is constructed, in which the column main reinforcement with the splice sleeve fixed to the lower end protrudes from the column head, and a notch is cut out along the outer periphery of the column base. The upper end of the column main bar of the lower floor column that protrudes above the slab is fitted into the splice sleeve of the same column, and the column is seated on the base mortar, and then the notch of the column base and the slab are erected. A method for joining precast concrete columns, characterized in that after filling the gap with mortar, grouting is simultaneously performed across the gap between the splice sleeve and the slab and the column base.