JPH11303406A - Correcting method into correct posture of steel-framed column - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method, in which a steel-framed column is corrected in a correct posture. SOLUTION: A fixed jig, in which bolts 34, 36 are installed into each slit section in a retractable manner in the horizontal direction in the annular fixed jig 18 having slits consisting of a first slit section, into which each erection piece 12 of an existing steel-framed column 10 is introduced at an opening in the horizontal direction, and a second slit section, into which each erection piece 14 of a new steel-framed column 16 is introduced at an opening in the horizontal direction, is arranged at a specified place by inserting the erection pieces of the existing steel-framed column into the first slit section while putting the erection pieces of the new steel-framed column into the second slit section. The new steel-framed column is moved in the horizontal direction and displacement in the horizontal direction is corrected, and load supporters 40 are disposed into slits and the new steel-framed column is made perpendicular.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a method for correcting a steel column to a correct posture. More specifically, a new steel column having a plurality of erection pieces at a lower end corresponding to the erection piece is provided on an existing steel column having a plurality of erection pieces at an upper end thereof spaced apart in a circumferential direction. The present invention relates to a method for correcting the new steel pillar to be correctly positioned when it is lowered above the existing steel pillar when joining.

[0002]

2. Description of the Related Art When a new steel column, that is, a new steel column is to be joined to the upper side of an existing steel column, a plurality of erection pieces are circumferentially spaced from the upper end of the existing steel column. At the same time, a plurality of erection pieces corresponding to the erection pieces are attached to the lower end of the new steel column, and a dedicated jig is engaged with the existing and newly installed erection pieces corresponding to the steel column. The pillar is corrected to the correct posture (Japanese Patent Laid-Open No. 7-2
No. 6731).

[0003]

The above-mentioned correction method is to attach an erection piece to a corner of a steel column and to use two side surfaces of the steel column perpendicular to the corner of the steel column. If there is a large radius at the corner of the corner or if the cross section of the steel column is polygonal, the use of a dedicated jig becomes impossible, or if it is not impossible, the dedicated jig becomes large. is there.

[0004] Apart from the possibility of using a dedicated jig, the corner of a steel column has an increased hardness and a reduced elongation ability and toughness during cold forming, so that the erection piece is kept as far away from the corner as possible. Some believe that it is preferable.

[0005] The present invention provides a method of correcting a steel column to a correct posture, which enables an erection piece to be separated from a corner of the steel column without being affected by the cross-sectional shape of the steel column.

[0006]

SUMMARY OF THE INVENTION The present invention relates to an existing steel column having a plurality of erection pieces at an upper end thereof spaced apart in a circumferential direction at a plurality of erection pieces corresponding to the erection pieces. When a new steel column having a piece at a lower end is to be joined, the new steel column lowered above the existing steel column is corrected to a correct posture. First, the first part in which each erection piece of the existing steel column enters with a horizontal clearance.
An annular fixing jig having a slit including a slit portion and a second slit portion into which each erection piece of the newly installed steel column enters with a horizontal clearance, and at least one bolt is attached to each of the slits. A fixed jig attached so as to be able to advance and retreat in the horizontal direction with respect to the portion, the erection piece of the existing steel column is inserted into the first slit portion, and the erection piece of the new steel column is inserted into the second slit portion. And place it in place. Then, after moving the new steel column horizontally and correcting the horizontal deviation of the new steel column, a load supporting device is arranged in the slit to make the new steel column vertical,
Alternatively, after the load supporting device is arranged in the slit to make the new steel column vertical, the new steel column is moved in the horizontal direction to correct the horizontal deviation of the new steel column.

[0007] To correct the horizontal displacement of the newly installed steel column, the first slit portion and the second slit portion of the fixing jig are required.
The fixing jig and the erection piece of the steel column inserted into the one slit are connected by screwing the bolts related to one of the slits, and then the first slit and the second slit are connected. The bolt related to the other part is screwed in to apply a load to the erection piece of the steel column inserted into the other slit part, and the new steel column is moved in the horizontal direction. Also,
In order to make the new steel column vertical, a load supporting device is arranged in the slit of the fixing jig, and is engaged with the erection piece of the existing steel column and the erection piece of the new steel column. The support load is guided by operating the load support device.

The fixing jig is screwed into one of the first slit portion and the second slit portion of the fixing jig to connect the fixing jig and the erection piece of the steel column inserted into the one slit portion, thereby forming the first jig. When a bolt related to the other of the slit portion and the second slit portion is screwed in and a load is applied to the erection piece of the steel column inserted into the other slit portion, the new steel column is moved in the horizontal direction, and The gap is corrected. Further, when the load supporting device is operated to guide the supporting load and the erection piece of the new steel column is lifted, the new steel column becomes vertical.

[0009] The fixing jig is a ring-shaped one having no end, and can have sufficient strength, and a plurality of erection pieces of existing and new steel columns are attached at intervals in the circumferential direction. Since one of the erection pieces that correspond to the upper and lower sides is connected to the fixed jig, the horizontal direction of the newly installed steel column can be adjusted by simply applying a load to the other of the erection pieces that correspond to the upper and lower parts with the bolts of the fixing jig. Can be corrected. After correcting the displacement of the new steel column and making it vertical, or after making the new steel column vertical and correcting the displacement in the horizontal direction, screw the bolt used to apply the load and connect it to the erection piece. Thereby, it is possible to prevent the newly installed steel column from tipping over. Further, by arranging the load supporting device in the slit of the fixing jig to guide the supporting load, the verticality of the newly installed steel column can be maintained.

An existing steel column erection piece and a new steel column erection piece are inserted into each of the two slits provided on the annular fixing jig, and the fixing jig, the erection piece and the bolt are connected to one of the slits. The new steel frame is connected regardless of the mounting position of the erection piece in order to fix the horizontal displacement with the bolts related to the other slit, and to maintain the vertical by the load supporting device arranged in the slit of the fixed jig. A method of correcting the pillar to the correct posture can be implemented. As a result, even if the cross-sectional shape of the steel column is quadrangular, polygonal, circular, elliptical or any other shape, it is not affected by the cross-sectional shape. Also, the erection piece does not need to be at the corners of the steel column, but can be mounted near the center between the corners. Thereby, the influence of the mechanical properties at the time of cold forming existing in the corners can be eliminated.

[0011] It is preferable that the slit of the fixing jig is formed such that the horizontal width of the other slit portion is larger than the horizontal width of the one slit portion.

Since there is a large clearance between the bolt to which a load is applied and the erection piece, the range in which the displacement in the horizontal direction is corrected can be widened. In addition, since the clearance between the bolt to be connected first and the erection piece is small, the connection workability can be improved.

[0013] In carrying out the correction method, the load supporting device may include a cam arm, a seat plate, a shim plate, and a screw member. In this case, the cam arm, the seat plate, and the shim plate are inserted into the slit of the fixing jig. The cam arm has an operating portion, an input portion laterally spaced from the operating portion, and a fulcrum portion laterally and downwardly spaced from the operating portion and the input portion. The seat plate is disposed between the cam arm and the erection piece of the newly-installed steel column, is in contact with the erection piece, and has an engaging portion that comes into contact with an operating portion of the cam arm; And a screw hole which is provided at a portion corresponding to the input portion of the cam arm and is vertically spaced from the screw arm and penetrates up and down. The shim plate is disposed between the cam arm and the erection piece of the existing steel column, and comes into contact with a fulcrum of the cam arm and the erection piece. Then, the screw member is screwed into a screw hole of the seat plate, and comes into contact with an input portion of the cam arm to input a support load to the cam arm.

When the screw member is screwed into the screw hole of the seat plate and the tip of the screw member is brought into contact with the input portion of the cam arm, and the screw member is further screwed in, the working portion of the cam arm has the distance from the working portion to the fulcrum portion. A supporting load increased according to the ratio of the distance from the input portion to the fulcrum portion, that is, the arm ratio. This supporting load supports the new steel column. The reaction force at this time is received by the existing steel column.

[0015] The load supporting device is inserted into the gap between the erection piece of the existing steel column and the erection piece of the new steel column in the slit of the fixing jig, and the load of the new steel column is supported by simply screwing the screw member. Operability is good because it is possible. Further, the newly provided steel column can be pushed up by screwing the screw member, and the newly provided steel column can be lowered by screwing back the screw member, and fine adjustment by the screw can be performed. 4 load supporting devices
Since it is composed of two parts, it is inexpensive and can be downsized by appropriately selecting the arm ratio. Furthermore, when any one of the four parts is damaged, the part can be replaced and used, and the parts can be replaced easily.

[0016]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The method of the present invention is shown in FIG.
Referring to FIG. 2 in a planar state and FIGS. 6 to 8 in a perspective state, an existing steel column 10 having a plurality of erection pieces 12 at upper ends thereof at intervals in the circumferential direction is provided.
New steel column 1 having a plurality of erection pieces 14 corresponding to the plurality of erection pieces 12 at a lower end portion
This is a method of correcting the new steel column 16 lowered above the existing steel column 10 to the correct posture when the 6 is to be joined.

The same number of the erection pieces 12 and 14 are arranged at intervals in the circumferential direction.
The erection pieces 12 and 14 are provided, and each erection piece 12 and 14 is located at the center between the corners. The erection pieces 12 and 14 are formed by welding a steel plate to a steel column. Erection piece 12,
14 can be determined in plurals such as 6, 8, and 12, in addition to 4. If the steel column has a circular or elliptical cross-sectional shape, the number of erection pieces 12, 14 may be odd.

First, the annular fixing jig 18 is arranged at a predetermined position. Referring to FIG. 1 in the front state and FIG. 3 in the back state, the fixing jig 18 includes a first slit portion 20 into which the erection pieces 12 of the existing steel column 10 enter with a horizontal clearance, and a new steel frame. Each of the erection pieces 14 of the column 16 has a slit 22 having a second slit 21 into which a clearance is provided in a horizontal direction, and at least one bolt is connected to each of the slits 2.
Attached so that it can advance and retreat in the horizontal direction with respect to 0 and 21. The first slit portion 20 and the second slit portion 21 are usually formed with a gap in the horizontal direction so that the erection piece can be easily inserted. However, it is also possible to widen the range for correcting the horizontal displacement as a larger clearance.

In the illustrated embodiment, the second slit 21
Are formed so that the width in the horizontal direction is larger than that of the first slit portion 20. Then, two bolt holes 24 are formed on one side of the slit portion 20, and two bolts are attached to the slit portion 20 so as to be able to advance and retreat in the horizontal direction. On the other hand, two bolt holes 26 are formed on both sides of the slit portion 21, and two bolts are attached to the slit portion 21 so as to be able to advance and retreat in the horizontal direction. Further, one bolt hole 28 is opened above the slit 21, and one bolt is attached to the slit 21 so as to be able to advance and retreat.

The fixing jig 18 is, for example, 50 to 80 m
It can be formed by opening a slit 22 in a steel plate having a thickness of m. In order to compensate for the strength reduction due to the slit 22, 2
The reinforcing plates 30 are welded so as to cover the slits 22.

The erection piece 12 of the existing steel column 10 is inserted into the first slit portion 20 of the fixing jig 18 formed as described above, and the erection piece 14 of the new steel column 16 is inserted into the second slit portion 21. And place it in place.

In order to arrange the fixing jig 18 at a predetermined position,
As shown in FIG. 6, the new steel column 16 is connected to the existing steel column 1.
0, and after lowering it, fixation jig 18
The erection piece 12 is inserted into the slit portion 20 and the erection piece 14 is inserted into the slit portion 21, that is, the fixing jig 18 is moved toward both the erection pieces 12 and 14, and the fixing jig 18 is And fit. Thus, the plurality of fixing jigs 18 are arranged at predetermined positions with respect to all of the erection pieces 12 and 14 corresponding to the upper and lower sides.

As another method for arranging the fixing jig 18 at a predetermined position, as shown in FIG. 1, a stopper 32 is attached to the erection piece 14 of the new steel column 16 in an upward direction, and the slit portion 21 of the fixing jig 18 is provided. Then, the fixing jig 18 is hung down by inserting the erection piece 14 and the new steel column 16 is lowered onto the existing steel column 10 in a state where the fixing jig 18 is prevented from dropping by the stopper 32. Next, the erection piece 12 of the existing steel column 10 is inserted into the slit portion 20 of the fixing jig 18, that is, the fixing jig 18 is moved like a pendulum, and the fixing jig 18 is fitted to the erection piece 12, and the fixing jig 18 is positioned at a predetermined position. Deploy.

The fixing jig 18 is inserted into the first slit portion 20 by inserting the erection piece 12 of the existing steel column 10 and into the second slit portion 21 by inserting the erection piece 14 of the new steel column 16 into a predetermined position. After the arrangement, the horizontal deviation of the new steel column 16 is corrected, and then the new steel column 16 is made vertical, or after the new steel column 16 is made vertical, the horizontal direction of the new steel column 16 is changed. Next, the former will be described.

To correct the horizontal displacement of the newly installed steel column 16, the first slit portion 20 and the second slit portion 21
The fixing jig 18 is connected to the steel column erection piece inserted into the one slit by screwing a bolt relating to one of the two. Thereafter, a bolt is screwed into the other of the first slit portion 20 and the second slit portion 21 to apply a load to the erection piece of the steel column inserted into the other slit portion, and the new steel column 16 is moved in the horizontal direction. Move to.

In the illustrated embodiment, the second slit 21
Are formed so that the width in the horizontal direction is larger than that of the first slit portion 20. Therefore, in order to correct the displacement of the steel column 16, the bolt 34 is screwed into the bolt hole 24 related to the first slit portion 20, and the erection of the fixing jig 18 and the existing steel column 10 inserted into the first slit portion 20 is performed. The piece 12 is connected. Then, the second slit portion 2
The bolt 36 is screwed into the bolt hole 26 related to
A load is applied to the erection piece 14 of the new steel column 16 inserted into the slit portion 21 of the new steel column 1.
6 is moved in the horizontal direction. That is, in FIG. 1, when the bolt 36 on the right side of the fixing jig 18 is screwed, the bolt 36 hits the erection piece 14, and the fixing jig 18 receives a reaction force from the erection piece 14.
As a result, the newly installed steel column 16 moves to the right. Conversely, in FIG. 1, when a bolt 36 on the left side of the fixing jig 18 is screwed in, the bolt 36 strikes against the erection piece 14, and the fixing jig 18 receives a reaction force from the erection piece 14. As a result, the newly installed steel column 16 moves to the left. By performing the adjustment described above for all the fixing jigs 18, the horizontal displacement of the newly installed steel column 16 can be corrected. The bolt 38 screwed into the bolt hole 28 of the fixing jig 18 mainly functions to prevent the steel column 16 from overturning.

To make the steel column 16 vertical, the fixing jig 1
8, a load supporting device 40 is arranged in the slit 22 and is engaged with the erection piece 12 of the existing steel column 10 and the erection piece 14 of the new steel column 16 to guide the supporting load by operating the load supporting device 40. . The slit 22 of the fixing jig 18 has a configuration in which the slit portion 21 is extended downward and connected to the slit portion 20.
Are arranged in the extended portion 23 of the wide slit portion 21.

Referring to FIGS. 4 and 5 in a side view, the load supporting device 40 has a clearance between the erection piece 12 of the existing steel column and the erection piece 14 of the new steel column in the slit 22 of the fixing jig. It is installed at 42 and supports a load applied from a newly installed steel column, and includes a cam arm 44, a seat plate 46, a shim plate 48, and a screw member 50.

The cam arm 44 has an operating portion 52, an input portion 53 laterally spaced from the operating portion 52, and a lateral and downward interval from the operating portion 52 and the input portion 53. The fulcrum part 5 that comes into contact with the erection piece 12
And 4. Although the input unit 53 is located in the lateral direction of the action unit 52, the input unit 53 may be located directly above or below the action unit 52, besides just beside. On the other hand, the fulcrum portion 54 is positioned downward in the lateral direction of the action portion 52 and the input portion 53, and the action portion 52, the input portion 53, and the fulcrum portion 54 form a lever.

In the embodiment shown, the cam arm 44 is formed by grinding and normalizing structural carbon steel to the following shape. As shown in FIG.
2 has a cylindrical surface 55 convex upward, and the fulcrum portion 54 of the cam arm 44 has a cylindrical surface 56 convex downward.
Having. The cylindrical surface 55 and the cylindrical surface 56 are formed by connecting circular arcs of radii R ₁ and R ₂ over a certain width perpendicular to the paper surface. The radii R ₁ and R ₂ may be the same size or may be different sizes. For example, when defining the length L ₁ is called the cam arm 44 to 120-150Mm, defines a center distance L ₂ of the cylindrical surface 55 and 56 10-30 mm, it is defined radius R _1, R ₂ to 20-40mm it can. Further, the width of the cam arm 44 perpendicular to the paper surface can be set to 30 to 50 mm. Since the cylindrical surface 55 of the action portion 52 comes into surface contact with the engaging portion of the seat plate as described later, it is preferable to define the range so that the center angle α is approximately 100 to 120 °. On the other hand, the cylindrical surface 56 of the fulcrum 54 may be in line contact with the shim plate 48 to perform the function as a lever, and the central angle may be several degrees. On the upper side of the cam arm 44, the inclined surface 5 is formed on the cylindrical surface 55.
7 and a horizontal plane 58 is connected to the inclined surface 57. On the other hand, below the cam arm 44, two inclined surfaces 59 and 60 are connected to the cylindrical surface 56, the inclined surface 59 is connected to an extension of the cylindrical surface 55, and the inclined surface 60 is connected to the vertical surface 61. .

The seat plate 46 is disposed between the cam arm 44 and the erection piece 14 of a newly-installed steel column, and is partially in contact with the erection piece 14, and is engaged with the action portion 52 of the cam arm 44. A portion 64 and a screw hole 65 that is provided at a position corresponding to the input portion 53 of the cam arm 44 and is vertically spaced from the engagement portion 64 in a lateral direction. In the embodiment shown, the seat plate 46 is made by grinding structural carbon steel, and the engagement portion 64 of the seat plate 46 has a cylindrical surface that is concave upward. This cylindrical surface matches the cylindrical surface of the working portion 52 of the cam arm 44,
Engage closely. Erection piece 14 of seat plate 46
Is preferably a surface having a low coefficient of friction. For example, the coefficient of friction is reduced by increasing the finishing accuracy of the surface or by fitting a resin plate such as nylon.

The shim plate 48 is disposed between the cam arm 44 and the existing erection piece 12, and the cam arm 4
4 and the fulcrum 54 and the erection piece 12. The shim plate 48 is formed such that a surface 49 that contacts the fulcrum 54 of the cam arm 44 is an inclined surface, as shown in the figure. Accordingly, even if the size of the clearance between the cam arm 44 and the erection piece 12 changes, the shim plate 48
Into the fulcrum part 54 and the erection piece 12.
Can be contacted. It is also possible to mount the cam arm 44 directly on the erection piece 12. In this case, the shim plate 48 can be omitted.

The screw member 50 is screwed into a screw hole 65 of the seat plate 46 and comes into contact with the input portion 53 of the cam arm 44 to input a support load to the cam arm 44. In the illustrated embodiment, a hexagon socket head cap screw is used. It is. The tip of the screw member 50 or the surface of the input section 53 of the cam arm 44 preferably has a low friction coefficient. For example, the tip of the screw member 50 is made to have a spherical surface, or a resin plate such as nylon is attached to the input section 53 to have a low friction coefficient.

When the new steel column 16 is to be made vertical using the load supporting device 40, the hanging metal fitting 70 hanging from the crane must be removed from the new steel column 16 as shown in FIG. Can be. First, the cam arm 44 and the seat plate 46 are inserted into the gap between the erection pieces 12 and 14 in the slit 22 of the fixing jig 18.
If the 8 is inserted, the adjustment by the shim plate 48 does not take much time. When the tool 72 is inserted into the hexagonal hole of the screw member 50 and the screw member 50 is screwed, the input portion 53 of the cam arm 44 is pushed out downward, and the action portion 52 of the cam arm 44 rotates about the fulcrum portion 54 and moves upward. I do. As a result, a supporting load is applied to the erection piece 14 of the newly-installed steel column 16, so that the steel column 16 inclined as shown by the exaggerated phantom line in FIG. 8 can be made closer to the vertical. Such adjustment is made by all the load devices to make the steel column 16 vertical. Working part 5 of cam arm 44
Along with the movement of 2, the cylindrical surface of the action portion 52 and the cylindrical surface of the engaging portion 64 of the seat plate 46 are engaged with each other, so that the seat plate 46 moves in the horizontal direction. The load on the steel column 16 is
And the screw hole 65 of the seat plate 46 receives the friction.

[Brief description of the drawings]

FIG. 1 is a front view showing a method of correcting a steel column to a correct posture according to the present invention, showing a state in which a fixing jig and a load supporting device are arranged at predetermined positions of an existing steel column and a new steel column. I have.

FIG. 2 is a plan view of FIG.

FIG. 3 is a rear view of the fixing jig.

FIG. 4 is a side view of the load supporting device.

FIG. 5 is an enlarged side view of a cam arm used in the load supporting device.

FIG. 6 is a perspective view showing a state in which a newly installed steel column is guided above an existing steel column.

[Fig. 7] Lower the new steel column above the existing steel column,
It is a perspective view showing the state where a fixed jig was arranged in the erection piece of both steel columns.

FIG. 8 is a perspective view showing a state in which a new steel column is vertically set by the load supporting device.

[Explanation of symbols]

 Reference Signs List 10 Existing steel column 12, 14 Election piece 16 New steel column 18 Fixing jig 20, 21 Slit part 22 Slit 24, 26, 28 Bolt hole 34, 36, 38 Bolt 40 Load support device 44 Cam arm 46 Seat plate 48 Shim plate 50 Screw member

Claims (4)

[Claims] 1. An existing steel column having a plurality of erection pieces at an upper end thereof spaced apart in a circumferential direction and a new steel column having a plurality of erection pieces corresponding to the erection pieces at a lower end. Should be joined
A method of correcting the new steel column dropped on the upper side of the existing steel column to a correct posture, wherein a first slit portion into which each erection piece of the existing steel column enters with a horizontal clearance. An annular fixing jig having a slit composed of a second slit portion into which each erection piece of the newly installed steel column enters with a horizontal clearance, and at least one bolt is attached to each slit portion. A fixed jig attached so as to be able to move forward and backward in the horizontal direction is inserted into the first slit portion by inserting the erection piece of the existing steel column, and by inserting the erection piece of the new steel column into the second slit portion, and And disposing the fixing jig at a predetermined position, and then positioning the fixing jig in one of the first slit portion and the second slit portion. Connecting the fixing jig and the erection piece of the steel column inserted into the one slit portion, and thereafter, the bolt related to the other of the first slit portion and the second slit portion. After screwing in, applying a load to the erection piece of the steel column inserted into the other slit portion, and moving the new steel column in the horizontal direction, after moving the new steel column in the horizontal direction, Arranging a load supporting device in the slit of the fixing jig, and engaging the erection piece of the existing steel column with the erection piece of the new steel column; activating the load supporting device to operate the new one; How to correct the steel column to the correct posture, including verticalizing the steel column. 2. A new steel column having a plurality of erection pieces at its lower end, and a plurality of erection pieces corresponding to the erection piece at its lower end. Should be joined
A method of correcting the new steel column dropped on the upper side of the existing steel column to a correct posture, wherein a first slit portion into which each erection piece of the existing steel column enters with a horizontal clearance. An annular fixing jig having a slit composed of a second slit portion into which each erection piece of the newly installed steel column enters with a horizontal clearance, and at least one bolt is attached to each slit portion. A fixed jig attached so as to be able to move forward and backward in the horizontal direction is inserted into the first slit portion by inserting the erection piece of the existing steel column, and by inserting the erection piece of the new steel column into the second slit portion, and After arranging the fixed jig in a predetermined position, a load supporting device is arranged in the slit of the fixed jig, and the existing iron Engaging the erection piece of the column with the erection piece of the new steel column; operating the load support device to make the new steel column vertical; after making the new steel column vertical, Screwing the bolts related to one of the first slit portion and the second slit portion to connect the fixing jig and the erection piece of the steel column inserted into the one slit portion, The bolt related to the other of the first slit portion and the second slit portion is screwed in to apply a load to the erection piece of the steel column inserted into the other slit portion, and the new steel column is horizontally moved. How to correct the steel column to the correct posture, including moving to 3. The steel column according to claim 1, wherein the other slit portion of the fixing jig is formed to have a greater horizontal width than the one slit portion. how to. 4. An apparatus according to claim 1, wherein said load supporting device has an operating portion, an input portion laterally spaced from said operating portion, and a laterally and downwardly spaced direction from said operating portion and said input portion. A cam arm having a fulcrum portion, an engagement portion disposed between the cam arm and the erection piece of the newly-installed steel column, and an engagement portion that comes into contact with the erection piece, and spaced from the engagement portion in a lateral direction. Provided at a portion corresponding to the input portion of the cam arm,
A seat plate having a screw hole vertically penetrating therethrough; a shim plate disposed between the cam arm and the erection piece of the existing steel column and in contact with a fulcrum of the cam arm and the erection piece; 3. The method according to claim 1, further comprising: a screw member that is screwed into the screw hole of the cam arm and contacts the input portion of the cam arm to input a support load to the cam arm.