JPH0441732B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a column base for a steel-framed reinforced concrete building.

[Prior Art and Problems] A steel-framed reinforced concrete column base consists of a steel column and reinforced concrete provided around it. Conventionally, a structure shown in FIG. 8 has been used as such a steel reinforced concrete column base. 8th
In the figure, the column base 80 includes a steel column 81, reinforcing bars 82,
It consists of concrete 83, a base plate 84 welded to the steel column 81, and anchor bolts 85 that fix the base plate 84. Anchor bolts 85 are buried in foundation concrete 86. The base plate 84 joined to the steel column by welding is made of a steel plate and has low rigidity and proof strength. Therefore, the strength of the steel frame portion of the column base 80 is insufficient, and only the reinforced concrete portion can exhibit sufficient strength. Therefore, in the steel-framed reinforced concrete column base 80 shown in Fig. 8, it is necessary to increase the performance of the reinforced concrete part to the extent that the performance commensurate with the steel frame part cannot be achieved. It was necessary to increase the diameter and number. This reduces the effective space of the building, and in terms of construction, the reinforcing bars 82 crowd the column bases 80, making it difficult to arrange the reinforcing bars and impairing the filling properties of concrete.

Therefore, in order to solve the above-mentioned problems of the steel reinforced concrete column base shown in FIG. 8, a structure as shown in FIG. 9 has been implemented. This steel reinforced concrete column base 90 is of a type in which a steel column 91 is embedded in foundation concrete 96 by about 1 to 1.5 m. In this steel-framed reinforced concrete column base 90, since the steel column 91 is continuously embedded in the foundation concrete 96, the performance of the column base 90 is determined by the performance of the steel frame and the reinforced concrete part, similar to the column head 98. It becomes the sum of performance. Therefore, the concrete cross-sectional dimension of the column base 90 does not increase, and the diameter and number of reinforcing bars 92 do not increase, and the problems of the steel-framed reinforced concrete column base 80 having the structure shown in FIG. 8 are solved.

However, in the steel reinforced concrete column base 90 shown in FIG. 9, the steel column 91 is embedded in the foundation concrete 96, so the lower end 95 of the anchor bolt 95
When a becomes deeper than the lower end 96a of the foundation beam,
It becomes necessary to newly provide a foundation concrete portion 97 at a position deeper than the lower end 96a of the foundation beam, which causes the problem of increased foundation construction costs. Furthermore, the work of pouring the foundation concrete 97 and 96 was divided into two parts, which made the work complicated and lengthened the construction period.

Therefore, an object of the present invention is to provide a steel-framed reinforced concrete column base that eliminates these problems.

[Means for Solving the Problems] In view of the above objectives, as a result of intensive research, the present inventor has created a steel frame that does not have the above problems by welding and joining column base hardware of a specific shape to a steel frame column to form a steel frame part. The present invention was achieved by discovering that reinforced concrete column bases can be used.

That is, the first steel reinforced concrete column base of the present invention has a protrusion on the bottom plate that matches the cross-sectional shape of the steel column, and the front protrusion has a curved base to relieve local stress concentration. In addition to having
A column base metal fitting having a protruding length that prevents curvature of the bottom plate due to welding with the steel column is joined to the lower end of the steel column by welding to be integrated with the steel column, and the column base metal fitting is attached to the foundation. In a steel-framed reinforced concrete column base, which is fixed by anchor bolts embedded in the burrs and the outer periphery of the obtained steel frame column base is wrapped with reinforced concrete, the bottom surface of the column base metal fittings is the same as the top end of the foundation burrs. It is characterized by being installed on the foundation concrete at or above the height.

A second steel-framed reinforced concrete column base of the present invention has a protrusion on the bottom plate having a flat upper end surface so as to adapt to various cross-sectional shapes of the steel column, and the protrusion has A column base hardware having a curved base to alleviate concentration and a protruding length to prevent the bottom plate from curving due to welding to the steel column is joined to the lower end of the steel column by welding. In the steel-frame reinforced concrete column base, the column base is integrated with the steel frame column, the column base metal fittings are fixed with anchor bolts embedded in the foundation beam, and the outer periphery of the obtained steel frame column base is wrapped with reinforced concrete. The bottom surface of the column base metal fitting is installed on the foundation concrete so as to be at the same height as or above the upper end of the foundation beam.

[Example] A steel reinforced concrete column base 1 according to an embodiment of the present invention shown in FIG.
It consists of a steel frame part made up of anchor bolts 4 for fixing, and a reinforced concrete part made up of reinforcing bars 5 and concrete 6. A fixing plate 7 is fixed to the lower end of the anchor bolt 4, and the anchor bolt 4 is buried in foundation concrete 8a of the foundation 8, leaving the upper end. The column base hardware 3 is fixed to the anchor bolt 4 with a nut 10 via a washer 9. The column head 11 above the column base 1 also has the same cross-sectional structure. Regarding the positional relationship between the foundation concrete and the column base hardware 3, the base concrete 8a should be set so that the bottom surface 3a of the column base hardware 3 integrated with the steel column 2 is at the same height as the upper end 8b of the foundation 8 or higher.
installed on top.

Figure 2 shows the AA cross section of Figure 1. In this embodiment, the steel column 2 has a cross-sectional shape (middle column cross-sectional shape) in which a T-shaped flange is provided at each tip of a cross, and reinforcing bars 5 are arranged at approximately equal intervals around the outer circumference of the steel column 2. , hardened with concrete 6. The cross-sectional area of this column base 1 is expressed as D×B.

FIG. 3 shows the column base hardware 3 used for the column base 1 shown in FIG. 1. The column base hardware 3 is attached to the steel column 2 on the bottom plate 31.
The protruding portion 32 is adapted to the cross-sectional shape of the protruding portion 32, and the protruding base portion 33 is curved to alleviate local stress concentration. This protruding portion 32 has a protruding length that prevents the bottom plate portion 31 from curving due to welding with the steel column main body 2. A groove 34 necessary for welding to the steel column 2 is provided at the tip of the protrusion 32 . In addition, if a groove is provided on the steel column 2 side, the groove part 3 of the column base hardware 3
4 can be omitted. Further, 35 indicates an anchor bolt hole. From the viewpoint of performance, it is preferable that the column base hardware 3 is made of cast steel or forged steel.

According to the steel-framed reinforced concrete column base 1 of the present invention shown in FIG. Through bolt 4,
It can be continuously transmitted to the foundation concrete 8a and further to the foundation beam, and the performance of the steel frame part can be fully demonstrated. In this way, the steel-framed reinforced concrete column base 1 of the present invention allows the column head 1 to
Similar to 1, the performance of the steel frame part and the performance of the reinforced concrete part can be added together for evaluation.

Therefore, the steel reinforced concrete column base 1 of the present invention
According to the conventional steel reinforced concrete column base 80 shown in FIG. 8, there is no need to increase the concrete cross-sectional dimensions D and B of the column base or to increase the diameter and number of reinforcing bars. As a result, all problems such as a decrease in building space and a decrease in performance due to poor construction workability are eliminated.

Further, the steel reinforced concrete column base 1 of the present invention
Unlike the conventional steel-frame reinforced concrete column base shown in Figure 9, the steel column does not need to be embedded in the foundation concrete, so it eliminates the conventional problems of increased foundation construction costs, complexity of work, and lengthening of the construction period. It can be resolved.

By the way, in general, in buildings made of steel and reinforced concrete, steel columns with various cross-sectional shapes are used depending on the position even within one building. FIG. 4 shows an example. A is an example of the cross-sectional shape of the side pillar, and b is an example of the cross-sectional shape of the corner pillar. FIG. 5 shows an example of column base metal fittings that are compatible with steel columns having various cross-sectional shapes.

The protruding portion 51 of the column base hardware 50 in FIG. 5 has a flat upper end surface 52. The lower end of the steel column is brought into contact with and welded to this flat upper end surface 52. flat upper end surface 52
Since it is compatible with steel columns of any cross-sectional shape, the types of column base hardware can be kept to a minimum, and cost increases can be prevented. In addition, column base hardware 5 in Figure 5
If the weight of the 0 becomes too large, as shown in FIG. 6, it is possible to reduce the weight by providing a recess 53 in the center of the bottom surface to the extent that the performance of the column base hardware does not deteriorate.

In the steel-framed reinforced concrete column base of the present invention, since the position of the anchor bolt is located outside the flange of the steel column, the outer periphery of the column base hardware also extends outside the steel column flange. Therefore, there is a possibility that the column base metal fittings may interfere with the reinforcing bars, but in such a case, the external dimensions of the steel frame column should be gradually reduced in the downward direction at the column base. An example is shown in FIG.

In FIG. 7, the steel column 7 at the column base 70
The external dimensions of column 1 gradually become smaller toward the bottom, and are welded to column base hardware 72. According to such a structure, the column base portion 70 of the steel column 71
Column base metal fittings 72 corresponding to the reduced external dimensions of
Since the external dimensions of the column can also be reduced, the problem of interference between the column base hardware 72 and the reinforcing bars 73 can be solved.

By the way, in the steel-framed reinforced concrete column base 70 shown in FIG. 7, the external dimensions of the column base hardware 72 and the pitch of the anchor bolts 74 are small, so there is a risk that the performance against bending moments, etc. generated at the column base may be insufficient. . In such cases, use high-strength steel anchor bolts with a tensile strength of 50 kg/mm ² or more. This has a higher allowable tensile force than commonly used mild steel anchor bolts such as SS41 material (tensile strength of 41 kg/ ^mm2 ), and the smaller pitch A of the anchor bolt reduces the allowable tensile force of the anchor bolt. The force can be increased, and the problem of deterioration in performance of the steel reinforced concrete column base 70 can be solved.

In addition, since the steel column 71 has been reduced, the steel column 7
In order to prevent the deterioration of the performance of the column base 70, it is desirable to design the column base 70 so that the number of reinforcing bars 73 is increased slightly.

[Effects of the Invention] The effects of the present invention are summarized as follows.

(1) Enlarging the concrete cross section of the column base,
By increasing the diameter and number of reinforcing bars, it is possible to solve the problems of conventional steel reinforced concrete column bases, such as a reduction in the space of the invented building, deterioration of workability due to crowding of reinforcing bars, and ultimately deterioration in the performance of the column base.

(2) If the structure is such that the foundation burrs do not protrude downward at the base of the columns, the cost of embedding the steel columns in the foundation concrete will increase, the complexity of the foundation work will increase, and the construction period will be extended. Problems with conventional steel reinforced concrete column bases can be solved.

(3) By using column base metal fittings that have a protrusion with a flat upper end surface, they can be compatible with steel columns with various cross-sectional shapes, and the types of column base metal fittings can be kept to a minimum.

(4) By reducing the external dimensions of the steel column at the column base, interference between the column base hardware and the reinforcing bars can be prevented.

[Brief explanation of drawings]

FIG. 1 is a partial sectional view of a steel-framed reinforced concrete column base according to an embodiment of the present invention, FIG. 2 is an AA cross-sectional view of the column base in FIG. FIG. 4 is a perspective view of column base hardware used in a steel-framed reinforced concrete column base according to an example;
The figure shows the cross-sectional shape of another example of a steel column.
FIG. 5 is a perspective view of another column base hardware that can be used for the steel-framed reinforced concrete column base of the present invention, FIG. 6 is a diagram showing an example of the longitudinal section of FIG. 5, and FIG. FIG. 8 is a partial sectional view of a steel-framed reinforced concrete column base according to another embodiment of the invention, and FIG. 8 is a partial sectional view of a conventional steel-framed reinforced concrete column base;
FIG. 9 is a partial cross-sectional view of a conventional steel reinforced concrete column base. 1... Steel reinforced concrete column base, 2,71
... Steel column, 3,50,72 ... Column base hardware, 4,
74...Anchor bolt, 5, 73...Reinforcement bar, 6
...Concrete, 7...Fixing plate, 8...Foundation,
8a...Foundation concrete, 10...Natsuto, 1
1... Column head, 31... Bottom plate, 32, 51... Projection, 33... Projection base, 34... Groove, 5
2...Top end surface.

Claims (1)

[Scope of Claims] 1. A protrusion that matches the cross-sectional shape of the steel column is provided on the bottom plate, and the protrusion has a curved base to relieve local stress concentration, and is connected to the steel column. A column base metal fitting having a protruding length that prevents bending of the bottom plate due to welding is joined to the lower end of the steel column by welding to be integrated with the steel column, and the column base metal fitting is embedded in the foundation beam. In a steel-framed reinforced concrete column base, in which the outer periphery of the obtained steel frame column base is wrapped with reinforced concrete, the bottom surface of the column base hardware is
A steel-framed reinforced concrete column foot, characterized in that it is installed on a foundation concrete so as to be at the same height as or above the upper end of the foundation beam. 2. A steel-framed reinforced concrete column leg according to claim 1, characterized in that the foundation beam does not protrude downward at the column base. 3. In the steel-framed reinforced concrete column leg according to claim 1 or 2, the outer dimensions of the lower end of the steel column are smaller than the outer dimensions of the column head. Column base. 4. In the steel-framed reinforced concrete column base according to any one of claims 1 to 3,
A steel reinforced concrete column base characterized by using high-tensile steel anchor bolts with a tensile strength of 50Kg/mm2 or ^more . 5. In the steel reinforced concrete column foot according to any one of claims 1 to 4,
A steel-framed reinforced concrete column base, characterized in that the column base hardware is made of cast steel or forged steel. 6. On the bottom plate, there is a protrusion having a flat upper end surface so as to be compatible with various cross-sectional shapes of the steel column, and the protrusion has a curved base to relieve local stress concentration. At the same time, a column base metal fitting having a protruding length that prevents the bottom plate from curving due to welding with the steel frame column is joined to the lower end of the steel frame column by welding to be integrated with the steel frame column, and the column base metal piece is integrated with the steel frame column. In a steel reinforced concrete column base, in which the outer periphery of the resulting steel frame column base is wrapped with reinforced concrete, the bottom surface of the column base hardware is attached to the top end of the foundation beam. A steel-framed reinforced concrete column base, characterized in that it is installed on a foundation concrete at the same height as or above it. 7. A steel-framed reinforced concrete column leg according to claim 6, characterized in that the foundation beam does not protrude downward at the column base. 8. The steel-framed reinforced concrete column leg according to claim 6 or 7, wherein the outer dimensions of the lower end of the steel column are smaller than the outer dimensions of the column head. Column base. 9. In the steel reinforced concrete column foot according to any one of claims 6 to 8,
A steel reinforced concrete column base characterized by using high-tensile steel anchor bolts with a tensile strength of 50 kg/mm ² or more. 10. The steel-framed reinforced concrete column base according to any one of claims 6 to 9, wherein the column base hardware is made of cast steel or forged steel.