KR20110058359A - Splicing method of embedded type baseplate with steel column - Google Patents

Abstract

PURPOSE: A connection method of an embedded base plate and a steel column is provided to heighten the quality of construction work by fixing to leveling mortar on lean concrete before foundation work and performing freely without disturbance with other processes. CONSTITUTION: A connection method of an embedded base plate and a steel column comprises the steps of: arranging the bottom of a foundation and placing lean concrete; regulating the bottom level using leveling mortar on lean concrete; installing L-section steel(3) to two facing sides of the outermost end of a place where a reinforced concrete column is installed on the upper part of the leveling mortar, and installing a steel plate(2) to the remaining two sides in the orthogonal direction to the end of the L-section steel; forming a closed quadrangle by fixing the L-section steel with the steel plate by welding; forming a bolt hole in the L-section steel and fixing a set anchor(10) to the bottom; erecting a reinforcing bar piece to the corner of the closed quadrangle and fixing the reinforcing bar piece to the L-section steel and the steel plate by welding; installing an upper steel plate(2a) to the top of the reinforcing bar piece, welding the reinforcing bar piece to the inside and arranging a footing bar, and then placing concrete; installing a 1-joint column on the upper part of the upper steel plate; and connecting a joint steel plate(2b) to the lower part of the column by welding.

Description

Splicing Method of Embedded type Baseplate with Steel Column

Up to now, as shown in Figure 3, the steel column (5) utilizes the base plate (7) to connect to the base (4) or pedestal, and the base plate of the existing construction method is attached to the horizontal bottom in the vertical direction of the column of the vertical member Used as a bottom steel sheet. Standard type of the base plate is to weld the steel plate to the end of the column horizontally, as shown in Figure 3, drilled a bolt hole for tightening the anchor bolt (9) buried in the foundation and in the empty space between the bolt hole perpendicular to the pillar and base plate It is reinforced by welding rib plate in the direction. The base plate is generally installed on top of a foundation or pedestal, so the ribs 8 and anchor bolts protruding from the bottom are rusted and not good in appearance.

Conventional base plate (7) is a steel plate welded horizontally to the lower end of the column or pedestal is an intermediate steel plate to safely distribute and transfer the large axial load from the column to the concrete foundation. Since the compressive force per unit area of the steel column is larger than that of concrete, the area of the base plate should be larger than the cross-sectional area of the column. To prevent the base plate from bending, the thickness of the steel plate may be reduced by using thick steel plate or by reinforcing with rib plate. In addition, the base plate and the base are tightly anchored with anchor bolts 9, and the space between the base plate and the base is filled with a high strength non-shrink mortar (13).

If the base plate can only be designed as a thick steel plate without rib reinforcement, the ribs do not protrude from the bottom. However, in order to reduce the thickness of the base plate, it is necessary to attach and reinforce the ribs, so it is inevitable to protrude to the top of the floor. Thus, there is a need for a base plate that does not protrude from the base plate, ribs and bolts to the bottom and is not thick.

After laying the foundation (4) and underground beam reinforcement, it is not easy to fix the anchor bolt (9) at the correct position before placing the concrete. need. If the anchor bolt's position and verticality are incorrect, it will not match the bolt hole drilled in the base plate (7), which will lead to sub-holes. Therefore, when the base plate is placed on the top of the foundation, the height and direction are incorrect. In the field, it is standard to insert plywood, etc.), and to fill the non-shrink mortar 13, and a new method of eliminating this hassle is necessary.

Instead of attaching the steel plate base plate 7 horizontally to the bottom of the column and attaching it to the foundation 4 with the anchor bolt 9, the same method as that of connecting the pillars with each other on the ground is applied. The buried base plate is fixed to the leveling mortar 11 on the discarded concrete 12 before the foundation work so that the quality of the construction can be freely performed without interference with other processes such as reinforcing bars and formwork.

Reinforcement 1a, upper steel plate 2a, or column 6 is welded and fixed to leveling mortar 11 on discarded concrete 12, so that it is possible to connect 1 column at the correct position after foundation work. As a result, construction quality can be improved and construction period and construction cost can be reduced. Steel frame or reinforcing steel used as a pillar material can be customized to the required length by paying additional charges and waiting time. Therefore, the pillar and reinforcement (1a) used in the buried base plate of the present invention can be used to reduce the cost of construction because it can utilize the scab material. The buried base plate is economical because it does not require the use of high strength, expensive non-shrink mortars 13, which must be used essentially in the general base plate 7.

Specific details of fixing the reinforcing line assembly column 5a or the steel frame column 5 to the base 4 by using the embedded base plate are as follows.

1. When the foundation earthwork is finished, smooth the bottom of the bottom surface of the foundation as shown in Figure 1, and cast the discarded concrete (12).

2. Place the leveling mortar (11) on the reinforcement prefabricated column or steel column installation position on the discarded concrete.

3. As shown in FIG. 1, a buried base plate is manufactured by using a-beam (3) and steel sheet (2), reinforced membrane (1a), upper steel plate (2a), or pillar-like membrane (6). The detailed method of each step is as follows.

a. The shape of the recessed base plate is arranged by arranging the A-beams (3) on two sides facing the upper part of the leveling mortar at the position where the column is to be installed, and by installing the steel plate (2) at right angles to the ends of the A-beams on the other two sides. Form a rectangle.

b. Welding the a-beam and the steel plate, a bolt hole in the a-beam and fixed with a set anchor (10), and welded by setting up a reinforcement (1a) in a closed square corner (Fig. 1).

c. In the case of the rebar prefabricated column (5a) as shown in Figure 1 to form a closed type on the upper portion of the reinforcement membrane (1a) with a square upper steel plate (2a) and to weld the reinforcement (1a) inside. On the upper steel plate 2a, one reinforcing line assembly column, which is the main column, is connected, and at the bottom of the main column, a joint steel plate 2b is installed in the same size and thickness as the lower upper steel plate 2a to weld the two steel plates from the outside. Secure with. At this time, the reinforcing bar 1 of the pillar is fixed inside the joint steel plate by welding.

d. In the case of the steel column (5) as shown in Figure 2 to install the pillars 6 of the H-shaped steel on the top of the reinforcement (1a). Reinforced pieces are inserted into the column of H-beam and welded. The flange end of the pillar stud is welded to the upper steel plate (2a) in a right angle direction, and the upper steel column (5) and the pillar stub by welding. In addition, a shear connector such as a stud is attached to the column head as necessary.

4. The length of the reinforcing bar (1a) of the reinforcing line assembly column (5a) and the H-beam column (6) of the steel frame column (5) protrudes to a certain height to the upper part of the foundation to facilitate the connection with the first section of the column The protruding length is about 1m. When the step is completed, reinforce the foundation reinforcement, and pour concrete.

5. Inside the hexagonal box consisting of a-beam and steel plate at the bottom of the embedded base plate, reinforce it by injecting mortar before placing the concrete. In addition, the reinforcing line prefabricated column (5a) and the reinforcing bar (1a) of the steel column (5) is added to the center between the edge and the edge by a suitable calculation at a suitable interval.

1 is a conceptual diagram and a cross-sectional view of the joint between the embedded base plate and the rebar line assembly section 1 column,

2 is a conceptual diagram and a cross-sectional view of the joint between the embedded base plate and steel frame 1 pillar,

3 is a conceptual diagram and a cross-sectional view of a conventional base plate,

<Brief description of the symbols in the drawings>

 One ; Rebar 1a; Rebar

 2 ; Steel sheet 2a; Upper steel plate

 2b; Joint plate

 3; A-beam 4; Foundation

 5; Steel column 5a; Rebar prefabricated columns

 6; Pillar

 7; Base plate 8; live

 9; Anchor bolt 10; Set anchor

11; Leveling mortar 12; Abandoned concrete

13; Non-shrink mortar

Claims (3)

In fixing the rebar prefabricated columns 5a to the foundation, a) arranging the bottom of the lower surface of the foundation 4 and placing the discarded concrete 12; b) adjusting the floor level using the leveling mortar (11) on the discarded concrete; c) A-beams (3) are installed on the two outermost sides of the leveling mortar on the uppermost side of the position where the reinforcing line assembly pillars are to be installed, and on the other two sides, a steel plate (2) is installed at right angles to the A-beam ends. Forming a rectangle; d) fixing the a-beam and the steel sheet by welding to form a closed quadrilateral, and drilling a bolt hole in the a-beam to fix the set anchor 10 to the floor; e) erecting the reinforcing bar (1a) in the closed quadrilateral corner, fixing the reinforcing bar on the a-beam and steel sheet by welding; f) installing the upper steel plate (2a) on the top of the reinforcement (1a), and welds the reinforcement (1a) therein and reinforces the foundation (4) reinforcement; g) installing one column on the upper part of the upper steel plate 2a, and connecting the lower part of the column to the same size as the upper steel plate by welding the joint steel plate 2b; Recessed base plate and the joint method of the steel frame characterized in that it comprises a In fixing the steel column (5) to the foundation, a) arranging the bottom of the lower surface of the foundation 4 and placing the discarded concrete 12; b) adjusting the floor level using the leveling mortar (11) on the discarded concrete; c) A-beams (3) are installed on the two outermost sides of the leveling mortar on the uppermost side of the position where the reinforcing line assembly pillars are to be installed, and on the other two sides, a steel plate (2) is installed at right angles to the A-beam ends. Forming a rectangle; d) fixing the a-beam and the steel sheet by welding to form a closed quadrilateral, and drilling a bolt hole in the a-beam to fix the set anchor 10 to the floor; e) erecting the reinforcing bar (1a) in the closed quadrilateral corner, fixing the reinforcing bar on the a-beam and steel sheet by welding; f) installing the pillar 6 of the H-shaped steel on the top of the reinforced soil 1a, and welding the reinforced soil 1a inside the pillar; g) welding the upper steel plate 2a at right angles to the flange end of the pillar 6 and placing the concrete by reinforcing the basic reinforcing bars; h) installing the steel column (5) of the first section on the pillar stub (6), and joining the steel pillar and pillar stub (6) by welding; Recessed base plate and the joint method of the steel frame characterized in that it comprises a The method according to claim 1 or 2, The embedded base plate consisting of a steel (3) and a steel plate (2) is a joint method of the embedded base plate and the steel column, characterized in that the cement mortar before the foundation concrete

Images