JPH0531631B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a method and apparatus for erecting a steel column.

(Conventional technology) Conventionally, when constructing a building, the method of erecting steel columns as part of the reverse construction method for underground areas involves installing erecting equipment and then supporting the steel columns with this equipment. The method was to build the building while doing so, and then pour concrete. Also, as construction equipment,
A support device is installed on the erection frame to support the steel column,
Some are equipped with adjustment means for vertically adjusting the steel columns.

(Problems to be Solved by the Invention) According to the conventional construction method, a steel column is inserted and then a tremie pipe for concrete pouring is inserted from inside the column, so an insertion space is created inside the column. There was an inconvenience that construction could not be carried out without it. If the steel columns protrude above the ground, the construction equipment and work scaffolding will be higher, making concrete pouring more troublesome. For example, direct pouring with a mixer truck is not possible, and the longer the lower part of the steel columns, the more likely they are to bend. On the other hand, if the head of the steel column is below the ground level, it cannot be supported on the erection frame unless a steel column of the same shape is added, so it is necessary to add another steel column. ,
The disadvantage was that the number of work steps increased. Further, according to the conventional erecting equipment, since the steel column is directly supported and the steel column center is adjusted, it takes time to erect the column and adjust it, resulting in poor work efficiency.

An object of the present invention is to perform erection work easily and efficiently, and another object is to improve the accuracy of erection.

(Means for Solving the Problems) The erection method of the present invention involves excavating a vertical hole in the ground, inserting a guide cylinder supported by a erection frame into the vertical hole after excavation, and Concrete is poured into the vertical hole to a predetermined level using the concrete, and after pouring, a steel column with one end suspended is inserted into the vertically adjusted guide cylinder using the cylinder as a guide.
The other end is inserted into the concrete.

Further, the erection device of the present invention is for carrying out the above-mentioned erection method, and includes a erection frame, supported by the erection frame and suspended from the erection frame,
A guide cylinder provided with a guide for guiding a steel column on its inner surface, a vertical adjustment means for the cylinder provided on the guide cylinder, a measuring means for measuring the verticality of the guide cylinder, and a means for suspending the steel column. and a suspension means for holding the device.

(Operation) A guide cylinder is inserted into the vertical hole, concrete is poured, and the steel column is erected. Since the steel column is suspended by a suspension means, the height of the erected frame can always be kept constant regardless of whether the upper end of the steel column protrudes from the ground surface or is located below. The steel column is guided by a guide provided on the inner surface of the guide cylinder. The verticality of the steel column can be controlled by measuring means until the concrete hardens and the steel column is sufficiently fixed. The centering of the steel columns is not performed directly, but is adjusted through a guide cylinder whose verticality has been corrected.

(Example) Examples of the present invention will be described below with reference to the drawings.

First, the equipment for erecting steel columns will be explained, and then the erecting method will be explained.

In Figures 1 and 2, a built-in frame 1 is installed on the ground at a position facing the vertical hole Ga. Built-in frame 1
has a rectangular planar shape, and each leg portion 1a is fixed onto a gantry base 2 with bolts 3. The built-in frame 1 is equipped with four jacks 4 for level adjustment.
Each jack adjusts the horizontal level of the horizontal underframe 1b.

A construction guide cylinder 5 having a rectangular planar shape is inserted into the center of the construction frame 1, and a support frame 5a attached horizontally to the upper end of the cylinder supports the frame 1b of the frame.
It is placed above. The center of the guide cylinder 5 can be aligned with the center of the erected pillar position using eight adjustment bolts 6. As shown in FIGS. 1 to 3, an upper guide rail 7 and a lower guide rail 8 are installed in the vertical direction on the inner surface of the guide cylinder 5 to guide the insertion of the steel column P into the cylinder. Each of the upper and lower guide rails has a pair of channels 7a and 8a placed back to back at a predetermined interval, and one flange is fixed to the inner surface of the cylindrical body 5 with a screw. Since the illustrated example of the steel column P has a cross shape, guide rails 7 and 8 are arranged at predetermined positions on the inner surface of each surface of the cylinder to match this shape. As shown in FIGS. 2 and 3, the brackets B and Ba of the steel column P are positioned and held between the channels of the guide rails 7 and 8. In addition, on the outer periphery of the lower part of the guide cylinder 5, there are horizontal jacks 9 in four directions perpendicular to the cylinder as shown in FIGS. 1 and 3.
is attached by a bracket 9a. An adjustment arm 9c is attached to the tip of the ram 9b of this jack so as to be able to swing around a shaft pin. Each arm 9c is attached to a bracket 9d attached to the outer periphery of the guide cylinder 5 so as to be swingable about an axis 9e. Due to the expansion and contraction of the ram 9b, the arm 9c
swings around the shaft 9e and can press against the inner surface of the stand pipe S of the vertical hole Ba. By adjusting the stroke of the jack 9, the guide cylinder 5 can be positioned and adjusted in both the X and Y directions in FIG. 3, and the verticality of the cylinder can be corrected. The jack 9 is operated by a hydraulic pump 10 installed on the ground.
This is done by operating.

The verticality of the guide cylinder 5 is measured using an inclinometer 11 attached to the outer periphery of the cylinder and an inclinometer 12 installed on the ground, as shown in FIG.

The upper end of the steel column P is suspended by a hanging fitting 14 attached to the lower end of the wire 12.

Reference numeral 15 denotes a jack installed on the support frame 5a of the guide cylinder, and this jack can adjust the height position of the steel column P via the upper bracket B.

Next, we will explain how to erect steel columns.

As shown in Figure 4, stand pipe S is placed in the ground.
After press-fitting, a vertical hole Ga is excavated using an excavator such as a reverse excavator, and after excavation, a reinforcing bar cage (not shown) is inserted and installed in this vertical hole. And vertical hole Ga
Install the built-in frame 1 on the ground facing the
The level of the underframe 1b is adjusted by.

After installing the erection frame 1, as shown in FIG. 5, insert the erection guide cylinder 5 from above along the center of the frame, and place the support frame 5a at the upper end of the cylinder onto the underframe 1b of the frame. Place and support. Then, the positions in the four right-angled directions are measured and adjusted using a transit or the like using adjustment bolts 6 provided on the erection frame 1, and the center of the support frame 5a of the guide cylinder 5 is aligned with the center of the frame. Then, the stroke of the horizontal jack 9 at the bottom of the cylinder 5 is adjusted by operating the hydraulic pump 10, and the verticality of the cylinder is adjusted while pressing the arm 9c against the inner wall surface of the stand pipe S. The verticality of this cylindrical body is measured by an inclinometer 11 and an inclinometer 12. After correcting the verticality, the guide cylinder 5 is fixed.

After the insertion and installation of the guide cylinder 5 is completed, a tremie pipe is inserted into the guide cylinder, and concrete is poured from a ground mixer truck into the vertical hole Ga to a predetermined level.

After completing the pouring and pulling out the tremie pipe, attach the steel column P to the hanging fitting 14 at the lower end of the wire 13 of the crane.
, and gently insert it into the cylinder from above along the upper guide rail 7 and lower guide rail 8 (Fig. 1). The inserted steel column P is fixed in height and position by the jacks 15 on the support frame 5a.

The steel column P is erected, and the verticality is controlled using the inclination measuring device 12 until the concrete hardens.The verticality of the guide cylinder 5 is finely adjusted as necessary.After the concrete hardens, the upper part of the vertical hole Ga is covered with gravel. After backfilling, etc., the built-in frame 1 and guide cylinder 5 are removed.

In the above construction equipment, the guide rails 7, 8
By making the mounting hole for the bolt that fixes it a loose hole so that its position can be changed, it can be used with steel columns of various shapes. For example, in the case of the steel column P shown in FIG. 6, by moving the left and right lower guide rails 8, 8 downward in the drawing,
This pillar can be guided smoothly. Further, the structure of the guide for the steel column is not limited to the above example, and the guide may be provided not only on the cylinder side but also on the steel column side, or it may be provided only on the steel column side. Good too.

(Effects of the Invention) According to the erection method of the present invention, by pouring concrete before erection of a steel column and suspending the steel column, tremie pipes are installed inside the steel column as in the past. Even if there is no space for insertion, it can be built and the steel column head is below ground level.
There is no need to add steel columns, and even if the column heads protrude above the ground, the work scaffolding will not be high, making it easier to pour concrete, improving the efficiency of construction work, and ensuring accurate construction. can be included. Furthermore, according to the erection device of the present invention, the steel column is not supported by the erection device, and the verticality of the steel column is determined by the core-adjusted guide cylinder, which simplifies the erection of the column and makes it easier to adjust the erection. It does not require much effort, allows for fine adjustments, improves the accuracy of erection, and allows for quick erection due to the guide.

[Brief explanation of drawings]

Figure 1 is a vertical cross-sectional view showing the state of use, Figure 2 is a cross-sectional view taken along the line shown in Figure 1, Figure 3 is a cross-sectional view taken along the line shown in Figure 1, and Figure 4 shows the standpipe installed in the vertical hole. 5 is a sectional view showing a state in which the erection device is installed, and FIG. 6 is a sectional view showing an example in which the position of the guide rail is changed. 1... Built-in frame, 5... Guide cylinder, 7, 8
... Guide, 9 ... Vertical adjustment means, 11, 12 ...
...Verticality measuring means, 13, 14... Hanging means,
Ga... Vertical hole, P... Steel column.

Claims (1)

[Claims] 1. A vertical hole is excavated in the ground, and after the excavation, a guide cylinder supported by a frame is inserted into the vertical hole, and concrete is poured into the vertical hole to a predetermined level using the inner space of this cylinder. After installation and pouring, a steel column with one end suspended is inserted into the vertically adjusted guide cylinder using the cylinder as a guide, and the other end is embedded in the concrete. How to erect steel columns. 2. A built-in frame, a guide cylinder supported by the built-in frame and suspended from the frame, and provided with a guide for guiding the steel column on its inner surface, and a vertical axis of the cylinder provided on this guide cylinder. A steel column erection device comprising: an adjusting means, a measuring means for measuring the verticality of the guide cylinder, and a suspending means for suspending the steel column.