JP2018178481A - Temporary support and roof frame construction method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a temporary support that is capable of easily dealing with a change in height of a roof frame even when the height of the roof frame varies from one installing place to another of the temporary support.SOLUTION: A temporary support 20 for temporarily supporting a roof frame 13 is provided with: a height adjustment part 19 that can adjust a height; a tower crane mast 21 that is provided on the height adjustment part 19; and a liftable lifting pedestal 22 that is installed on the top of the mast 21 so as to support the roof frame 13. Even when the height of the roof frame 13 varies from one installing place to another of the temporary support 20, a change in height of the roof frame 13 can be easily dealt with by adjusting the height of the height adjustment part 19 as appropriate.SELECTED DRAWING: Figure 7

Description

  BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a temporary support for temporarily supporting a roof frame in the process of assembling the roof structure, and a method for constructing a roof structure using the temporary support.

Conventionally, when assembling a roof frame or the like covering a large space, the roof frame in the process of being assembled may be temporarily supported by a temporary support (vent) or the like.
In Patent Document 1, the lifting device is supported by a supporting vent, the lifting device is extended to raise the tower, and a tower component is inserted below the lifted tower, and the tower and the tower are configured. The first stage of coupling with the members, the lifting device supported by the tower body, the lifting device is contracted to raise the support vent, and the support vent component is inserted below the raised support vent to support A method of erecting the tower body is shown, which comprises: an ascending second stage connecting the vent and the supporting vent component, and alternately repeating the ascending first stage and the second ascending stage.

  Patent Document 2 discloses a first step of mounting a structure on a self-propelled transfer carriage via a plurality of elevating mounts, and moving the structure between support members by the self-propelled transfer carriage. The second step of centering the longitudinal direction center part of the support in the middle between the support members, and the self-propelled transport carriage on which the temporary installation base is placed is disposed on both sides in the width direction of the structure. The third step of pulling up the elevating platform by the jack, the fourth step of turning the self-propelled transport carriage until the bottom of the structure is located above the support member, and the fifth step of placing the structure on the support member And a method of constructing a structure having the steps of

  In order to reduce temporary construction costs, temporary columns may be diverted and used repeatedly. However, if the height of the roof frame differs depending on the installation location of the temporary support, it is necessary to adjust the height of the temporary support according to the height of the roof. In the above-mentioned patent documents 1 and 2, the composition which adjusts the height of a support vent and a temporary installation stand is not shown.

JP, 2008-7985, A JP 2012-136339 A

  An object of the present invention is to provide a method of constructing a temporary support column and a roof structure that can easily cope with the change in the height of the roof structure even if the height of the roof structure varies depending on the installation location of the temporary support column. .

  The present inventors install a height adjusting portion whose height can be adjusted as a temporary support for temporarily supporting a roof structure, arrange a temporary pillar on the upper surface of the height adjusting portion, and set the temporary By providing a lift stand that can move up and down at the top of the column to support the roof frame, even if the height of the roof frame differs depending on the installation location, the roof frame can be temporarily installed by raising and lowering the height adjustment unit. Focusing on a point that can be supported by a column, we have invented a temporary support of the present invention and a method of constructing a roof frame using the temporary support.

  The temporary support post of the first invention is a temporary support post (for example, the temporary support post 20 described below) for temporarily supporting a roof frame (for example, the roof post structure 13 described below), and the height adjustment portion (the height can be adjusted) For example, a height adjustment unit 19) described later, a temporary column (for example, a mast 21 of a tower crane described later) provided on the height adjustment unit, and And a liftable pedestal (for example, a lift pedestal 22 described later) which supports the roof frame.

According to this invention, the height adjustment unit and the temporary column are installed, and the elevating pedestal is installed on the top of the temporary column. After that, a roof frame is constructed by supporting the elevator stand. At this time, even if the height of the roof frame is different depending on the installation place of the temporary support, it is possible to easily cope with the change of the height of the roof frame by appropriately adjusting the height of the height adjustment portion. In addition, since the height of the temporary support post can be adjusted by the height adjustment unit, the temporary support post can be easily transferred for reuse.
In addition, when transferring the temporary support pillars, the lifting and lowering stand installed at the top of the temporary pillars is lowered, and a clearance space is secured between the roof frame and the temporary pillar tops, thereby lifting the load The tip end portion of the boom can be inserted, and the temporary column constituting the temporary support can be lifted and removed.
Moreover, even if it is a roof frame erected beforehand, a roof frame can be supported by a temporary support post from the bottom by raising a raising / lowering stand along a temporary column.

  The temporary support post of the second invention is disposed on the jack receiving beam (for example, the jack receiving beam 25 described later) installed on the upper surface of the lift receiving stand, and the jack receiving beam to support the roof structure. A jack (for example, a jack 26 described later) is further provided, and the height adjustment unit includes an adjustment unit main body (for example, a vent base 90 described later), and a lifting unit (e.g. For example, a vent cap 91 described later is provided.

  According to this invention, the elevating pedestal is disposed on the top of the temporary column, and the jack receiving beam and the jack are installed on the upper surface of the elevating pedestal. After that, a roof frame is constructed by supporting the jack. In addition, since the height adjustment unit is configured to include the adjustment unit main body and the elevation unit, the height of the temporary column above the height adjustment unit is easy by raising and lowering the elevation unit with respect to the adjustment unit main body. Can be adjusted.

  A method of constructing a roof frame according to a third aspect of the present invention is a method of constructing a roof frame, the roof frame including a base (for example, a support 14 and a first unit U1 described later) and a tip extending from the base For example, the temporary support pillar according to claim 1 or 2 is provided in a structure on the ground (for example, a structure 11 described later), which includes a second unit U2 and a third unit U3 described later. A step (for example, step S1 described below), a second step (for example, step S2 described below) for temporarily supporting the temporary support to build the base, and a temporary truss (above the tip) on the ground For example, a temporary truss 17) described later is attached, and in this state, the tip and the temporary truss are lifted with a lifting machine to temporarily fix the temporary truss on the base, and then the tip is removed Join to the base Third step (for example, step S3 to be described later), fourth step (for example, steps S5 and S11 to S14 to be described later) of lowering an elevating pedestal constituting the temporary support column along the temporary column And a fifth step (for example, step S5 and step S15 described later) of lifting and removing the temporary support post with a lifting machine in a state in which the lifting and lowering pedestal descends.

According to the present invention, since the fore-end portion is assembled in advance, and the forged end portion is lifted and attached to the base, the roof frame can be constructed in a short construction period. Further, at this time, since the temporary truss is attached straddling the base and the tip portion of the roof frame, it is possible to prevent the deflection of the base from becoming large and to improve the construction accuracy of the roof frame.
In addition, since the height of the temporary support post can be adjusted by the height adjustment unit, the temporary support post can be easily transferred for reuse.

  According to the present invention, even if the height of the roof frame is different depending on the installation position of the temporary support, it is possible to easily cope with the change of the height of the roof frame by appropriately adjusting the height of the height adjusting portion.

It is a top view of a stadium constructed using a temporary support pillar concerning one embodiment of the present invention. It is AA sectional drawing of FIG. It is a flowchart of the procedure which builds the roof frame of a stadium. Explanatory drawing 1 of the construction procedure of a roof frame It is a figure 1 (The ground construction situation of a roof tip part, the installation situation of a temporary support pillar). It is explanatory drawing 2 (construction condition of a roof frame) of the construction procedure of a roof frame. Explanatory drawing of the construction procedure of a roof frame It is Drawing 3 (procedure from the time of installation of a temporary support pillar to removal time). It is a side view of a temporary support pillar. It is an enlarged side view of the upper end part of a temporary support pillar. It is a top view of the upper end part of a temporary support pillar. It is BB sectional drawing of FIG. It is CC sectional drawing of FIG. It is a side view and a sectional view of a guide member which constitutes a temporary support pillar. It is a front view of a self-weight receiving pill which constitutes a temporary support pillar. It is a side view of a dead weight bearing. It is a cross-sectional view of the fixed beam which comprises a temporary support pillar. It is a side view of a fixed beam. It is explanatory drawing of the procedure which isolate | separates the raising / lowering pedestal which comprises a temporary support pillar from a fixed beam. It is a front view of the raising / lowering hanger which comprises a temporary support pillar. It is a flowchart of the removal procedure of a temporary support post. It is explanatory drawing of the removal procedure of a temporary support pillar. It is a longitudinal cross-sectional view of the height adjustment part of a temporary support pillar. It is DD sectional drawing of FIG. It is a flowchart of the descent procedure of a height adjustment part. It is explanatory drawing (the 1) of the descent procedure of a height adjustment part. It is explanatory drawing (the 2) of the descent procedure of a height adjustment part.

  In the temporary support column of the present invention, a height adjustment unit whose height can be adjusted is installed on the upper surface of the temporary construction platform, a temporary support column is disposed on the upper surface of the height adjustment unit, and the top of the temporary support column. It is possible to support the roof frame by providing a liftable pedestal that can be moved up and down, and to easily cope with changes in the height of the roof frame. Further, as a method of constructing the roof frame, while supporting the lower surface side of the roof frame by the temporary support, the temporary truss body attached with the tip portion of the roof frame constructed is joined to the base of the roof frame.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a plan view of a stadium 1 of a large space provided with a roof frame 13 constructed using a temporary support according to an embodiment of the present invention. FIG. 2 is a cross-sectional view taken along line A-A of FIG.
The stadium 1 is supported by a field 10, a structure 11 constructed on the ground around the field 10, first to third layer seats 12A to 12C provided on the structure 11, and the structure 11 And a roof frame 13 having an annular truss structure in plan view covering the audience seats 12A to 12C.

  The field 10 is substantially elliptical in plan view, and on this field 10, soccer, athletics, and other events are performed.

Hereinafter, the procedure of constructing the roof frame 13 will be described with reference to the flowchart of FIG.
First, as shown in FIG. 1, the roof frame 13 is divided into two areas at the center, and each area is further divided into a plurality of blocks B1 to Bn (n is a natural number) along the length direction.
Next, the following steps S1 to S4 are performed for each of the blocks B1 to Bn. At this time, steps S1 to S4 are performed by shifting one step at a time from blocks B1 to Bn. Specifically, the roof frame 13 is constructed while transferring and diverting the temporary support column 20 (see FIG. 6).
As shown in FIG. 2, the roof frame 13 includes a support 14 as a base provided on the side opposite to the field 10 of the structure 11, a first unit U 1 as a base extending from the support 14, and a first unit U 1. A second unit U2 as a tip extending from the unit U1 and a third unit U3 as a tip extending from the second unit U2.

In step S 1, as shown in FIG. 4, the temporary gantry 15 is installed on the structure 11, and the temporary support columns 20 are installed on the temporary portal 15. The structure of the temporary support 20 will be described in detail later.
In step S2, as shown in FIG. 4, the support 14 of the roof frame 13 of the block B and the first unit U1 are constructed to be temporarily supported by the temporary support 20.

In step S3, as shown in FIG. 4, the stand 16 is installed on the field 10, and the second unit U2, the third unit U3, and the temporary truss 17 are assembled on the stand 16 to form the second unit U2 and the second unit U2. The temporary truss 17 is temporarily fixed on the second unit U2 while being joined to the third unit U3.
A pair of fulcrums 171A and 171B are formed at both ends of the temporary truss 17, and a pair of rollers 172 is formed at the center. One fulcrum 171A of the temporary truss 17 is temporarily fixed on the second unit U2.
Next, the second unit U2, the third unit U3, and the temporary truss 17 integrated as one unit are lifted by the lifting machine 18, and the other fulcrum 171B of the temporary truss 17 is on the support portion 14 as shown in FIG. Temporarily fix on. In this state, the height of the second unit U2 temporarily fixed to one of the fulcrums 171A of the temporary truss 17 is adjusted in the vertical direction. Thereafter, the second unit U2 is joined to the first unit U1. Thereby, the roof frame 13 is temporarily supported by the temporary support column 20.
In this state, one fulcrum 171A of the temporary truss 17 is temporarily fixed on the second unit U2, and the other fulcrum 171B is temporarily fixed on the support 14. Further, the pair of rollers 172 of the temporary truss 17 is disposed on the first unit U1.

In step S4, the steel frame members of the roof frame 13 are fully tightened and welded to construct the roof frame 13.
In step S5, the temporary truss 17 and the temporary support column 20 are removed. The procedure for removing the temporary support 20 will be described in detail later.

In the construction of the roof frame 13, for example, as shown in FIG. 6, the following operations are simultaneously performed in the blocks Bm (4 ≦ m ≦ n) to B (m−3) adjacent to each other.
That is, in the block Bm, the temporary support 20 of step S1 is installed.
In block B (m-1), the steel frame construction of the roof frame 13 in steps S2 and S3 is performed.
In block B (m-2), the final tightening and welding of the steel frame members of the roof frame 13 in step S4 are performed.
At block B (m-3), the temporary truss 17 and the temporary support column 20 at step S5 are removed.
In the present embodiment, after the temporary support column 20 is installed, the support portion 14 and the first unit U1 constituting the roof frame 13 are constructed, but the present invention is not limited thereto. After the support portion 14 and the first unit U1 are constructed The temporary support column 20 may be installed.

Next, the structure of the above-mentioned temporary support 20 will be described in detail.
FIG. 7 is a side view of the temporary support 20. FIG. 8 is a side view of the upper end portion of the temporary support column 20, and FIG. 9 is a plan view of the upper end portion of the temporary support column 20. As shown in FIG. 10 is a cross-sectional view taken along the line B-B in FIG. 8, and FIG. 11 is a cross-sectional view taken along the line C-C in FIG.

As shown in FIG. 7, the temporary support frame 15 has a support post 151 provided on the lower end side of the seat 12B and a pre-supported one end side supported by the support post 151 and the other end side supported on the upper end side of the view seat 12B. And a girder bridge which is a girder material 152.
The temporary support column 20 is, as shown in FIG. 7, a height adjustment unit 19 which is installed on the temporary construction platform 15 and whose height can be adjusted, and a temporary support column erected on the height adjustment unit 19. A mast 21 of a tower crane, an elevation support 22 supported at the upper end of the mast 21 and capable of moving up and down along the mast 21, a fixed beam 23 for temporarily fixing the elevation support 22 to the upper end surface of the mast 21; A lifting and lowering device for raising and lowering the lifting and lowering stand 22 by the lifting and lowering device, a jack receiving beam 25 constructed on the upper surface of the lifting and lowering stand 22, and a jack 26 installed on the jack receiving beam 25 are provided.

The temporary support 20 is installed in the following procedure. First, the height adjustment unit 19 is installed on the temporary construction platform 15, and the height of the height adjustment unit 19 is adjusted according to the height of the roof frame 13 supported by the temporary support column 20. Next, the mast 21 of the tower crane is installed on the height adjustment unit 19, and the elevating pedestal 22, the fixed beam 23, the jack receiving beam 25, and the jack 26 are installed on the top of the mast 21. The roof frame 13 is temporarily supported by the jacks 26.
According to this temporary support column 20, the load of the roof frame 13 is a structure via the jack 26, the jack receiving beam 25, the lifting and lowering stand 22, the fixed beam 23, the mast 21, the height adjusting portion 19 and the temporary structure stand 15. It is transmitted to 11.
The mast 21 has a cylindrical shape extending in the vertical direction, as shown in FIGS. 7 and 9. Through holes 84 are formed on the side surfaces of the mast 21 at predetermined intervals along the vertical direction. Also, protrusions 85 extending in the vertical direction are formed at four places on the side surface of the mast 21. Further, bolt through holes 86 are formed on the upper end surface of the mast 21 at predetermined intervals over the entire circumference (see FIGS. 15 and 17).

As shown in FIG. 8, the elevating pedestal 22 includes an annular pedestal main body 30 into which the mast 21 of the tower crane can be inserted, a guide member 40 provided at the lower end of the pedestal main body 30, and the pedestal main body 30. A lower work floor 50A provided on the lower end side, an upper work floor 50B provided on the upper end side of the cradle body 30, and a cradle body 30 provided on the upper end side of the cradle body 30 in the middle of the mast 21 And a self-weight bearing sleeve 60 fixed to the housing.
As shown in FIG. 9, the receiving stand main body 30 connects the lower ends of these four columns 31 with four columns of four columns arranged at the position of the apex of the substantially octagonal shape in plan view surrounding the mast 21. And an upper frame 33 connecting the upper ends of the columns 31 and a brace 34 connecting the adjacent groups of the columns 31 together.
A support plate 35 is attached to the inner side surface of the column 31 of the lower frame 32 (see FIGS. 15 and 17).
A hanging piece 36 is attached between the sets 31 of the lower frame 32 adjacent to each other.

The lower work floor 50A, as shown in FIG. 10, includes a mesh-like work floor 51 attached to the lower frame 32 of the cradle body 30, and a handrail 52 provided along the outer periphery of the work floor 51. Prepare.
The upper work floor 50B is provided with a mesh-like work floor 53 attached to the upper frame 33 of the cradle body 30 and a handrail 54 provided along the outer periphery of the work floor 53, as shown in FIG. .
A forceps 55 is attached between the work floor 51 of the lower work floor 50A and the work floor 53 of the upper work floor 50B. Further, a portion of the work floor 53 corresponding to the position immediately above the forceps 55 is provided with an openable and closable lid portion 56 (see FIG. 8).

As shown in FIG. 9, the jack receiving beam 25 is a long steel material, and is diagonally provided so as to straddle the upper frame 33 of the elevation receiving stand 22.
FIG. 12 is a side view and a cross-sectional view of the guide member 40.
The guide members 40 are provided at four positions above and below the four guide columns 41 extending downward from the lower frame 32, the guide frames 42 connecting the guide columns 41 around the mast 21, and the guide columns 41. And a guide 43 abutting on the projection 85 of

FIG. 13 is a front view of the self weight bearing bar 60, and FIG. 14 is a side view of the self weight bearing bar 60. As shown in FIG.
The self-weight receiving sleeve 60 is provided between the columns 31 of the receiving body 30 and has a support portion 62 formed with an insertion hole 61, and a sleeve 63 inserted into the insertion hole 61 of the support portion 62. Prepare. Through holes are provided in the support portion 62 and the yoke 63, respectively, and the stopper 63 can be temporarily fixed to the support portion 62 by inserting the stopper pins 64 into these through holes. In addition, a restricting member 65 is attached to the inner end side of the yoke 63, and when the restricting member 65 is locked to the inner end side of the insertion hole 61, the yoke 63 does not pop out and fall off. There is.

In this self-weight bearing sleeve 60, normally, as shown in FIG. 14A, the sleeve 63 is made to project outward, and in this state, the stopper pin 64 is inserted, and the sleeve 63 is hooked in the through hole 84 of the mast 21. I try not to.
However, for example, when the lifting and lowering of the lifting and lowering stand 22 is temporarily stopped and inspected while lifting and lowering the lifting and lowering stand 22, as shown in FIG. 14 (b), the stopper pin 64 is pulled upward. The pin 63 is made to project inward and be locked in the through hole 84 of the mast 21. In this way, even while the elevation support 22 is moving up and down, the elevation support 22 can be temporarily supported on the mast 21 temporarily.

FIG. 15 is a cross-sectional view of the fixed beam 23, and FIG. 16 is a side view of the fixed beam 23.
The fixed beam 23 is a steel material having a rectangular cross section. The fixed beam 23 includes a lower flange 70 extending substantially horizontally, a web 71 extending upward from the lower flange 70, an upper flange 72 extending substantially horizontally from the upper end of the web 71, a lower flange 70, a web 71, and an upper flange 72. And the stiffener 73 provided in the part enclosed by the above.
The web 71 of the fixed beam 23 and the support plate 35 of the elevation support 22 are fixed by bolts 74, whereby the elevation support 22 is fixed to the fixed beam 23.
In the lower flange 70 of the fixed beam 23, four bolt through holes 75 and two loose holes 76 are formed. The fixed beam 23 is the mast 21 by inserting and fastening the bolt 77 into the bolt through hole 75 and the bolt through hole 86 of the mast 21 and inserting the bolt 77 into the loose hole 76 and the bolt through hole 86 of the mast 21. It is fixed to
Further, a pin insertion hole 78 is formed on the inner end side of the lower flange 70 of the fixed beam 23, and the stopper pin 79 can be inserted into the pin insertion hole 78.

The procedure for separating the elevation support 22 from the fixed beam 23 is as follows.
The bolt 74 is removed, the bolt 77 attached to the bolt through hole 75 of the fixed beam 23 is removed, and the bolt 77 attached to the loose hole 76 of the fixed beam 23 is loosened.
Next, as shown in FIG. 17, the fixed beam 23 is moved inward. At this time, the movement of the fixed beam 23 is guided by the bolt 77 inserted into the loose hole 76.
After moving the fixed beam 23, the stopper pin 79 is inserted into the pin insertion hole 78 of the fixed beam 23, and the lower end side of the stopper pin 79 is engaged with the inner wall surface of the mast 21. Further, the bolt 77 attached to the loose hole 76 of the fixed beam 23 is tightened again.

FIG. 18 is a front view of the lifting and lowering hanger 24. As shown in FIG.
The lifting and lowering hangers 24 are attached to four places on the upper end surface of the mast 21 (see FIG. 10). The lifting and lowering hanger 24 includes a support portion 81 fixed to the bolt through hole 86 of the mast 21 with a bolt 80, and a pulley 82 rotatably supported by the support portion 81 with the horizontal direction as a rotation axis.
The procedure for raising and lowering the elevation support 22 by the elevation hanger 24 is as follows.
First, prepare the lifting device. The elevating device is a device capable of delivering or retracting the wire 83 (or chain) with a predetermined torque by a motor or human power. Next, the lifting device is installed on the temporary fixture 15, and the wire 83 of the lifting device is passed through the pulley 82 of the lifting lifting device 24 and connected to the lifting piece 36 of the receiving table 30. In this state, when the wire 83 is pulled in by the lifting and lowering device, the lifting and lowering stand 22 is lifted. On the other hand, when the wire is fed by the lifting and lowering device, the lifting and lowering stand 22 is lowered.

The above-mentioned step S5 will be described in detail with reference to the flowchart of the removal procedure of the temporary support column 20 of FIG.
In step S11, as shown in FIG. 20, the supporting force introduced to the jacks 26 is released, and the jacks 26 are removed and placed on the upper work floor 50B of the elevating pedestal 22.
In step S12, as shown in FIG. 18, the lifting and lowering device is attached to the lifting and lowering hanger 24. That is, the wire 83 of the lifting and lowering device is passed through the lifting and lowering hanger 24 and connected to the lifting piece 36 of the lifting and lowering stand 22. Next, the lifting device is driven to introduce tension into the wire 83, and the lifting pedestal 22 is temporarily supported by the lifting device.

In step S13, as shown in FIG. 17, the bolt 74 of the fixed beam 23 is removed to separate the lift receiving pedestal 22 from the fixed beam 23, move the fixed beam 23 inward, and temporarily fix it to the upper end surface of the mast 21. Keep it.
In step S14, as shown in FIG. 20, the lifting and lowering device 22 is driven to unwind the wire, and the lifting and lowering stand 22 is lowered. At this time, the jack receiving beam 25 placed on the elevation support 22 is placed on the fixed beam 23 fixed to the upper end surface of the mast 21.
In step S15, as shown in FIG. 20, the temporary support post 20 is lifted up by the lifting machine and removed. That is, a space is formed between the mast 21 and the roof frame 13 by lowering the lifting and lowering stand 22. Therefore, the boom 27 of the lifting machine is inserted into this space, and the temporary support 20 including the mast 21 is lifted and removed.

FIG. 21 is a longitudinal cross-sectional view of the height adjustment unit 19, and FIG. 22 is a cross-sectional view taken along the line D-D in FIG.
As shown in FIG. 21, the height adjustment unit 19 includes a vent base 90 as an adjustment unit main body provided on the large pulling member 152 of the temporary fixture 15, and an elevation unit provided to the vent base 90 so as to be able to move up and down. And a vent cap 91 as

As shown in FIG. 22, the vent base 90 has a rectangular frame shape in plan view, and includes four pillar members 901 provided at four corners, and a beam member 902 connecting the pillar members 901 with each other.
The beam members 902 are provided at predetermined intervals in the vertical direction, whereby a plurality of layers are formed. Among these, the uppermost layer is n layers.
The pillar member 901 can be divided up and down for each layer.

As shown in FIG. 21, the vent cap 91 includes elevator columns 92 disposed at the four corners inside the vent base 90, a roof 93 provided on the elevator pillar 92, and an outer peripheral edge of the roof 93. And a downwardly extending guide 94.
As shown in FIGS. 21 and 22, the lifting column 92 includes a lifting column main body 95, a jack 96 provided on the lifting column main body 95, a moving rod 97 provided on the lower end of the jack 96, and the lifting column main body. And a fixed sleeve 98 provided at 95.
The movable sleeve 97 and the fixed sleeve 98 can be opened and closed, and can be locked on the beam member 902 of the vent base 90 in the open state, and retracted from above the beam member 902 in the closed state to be an elevator column. It can be stored in 92.
The fixed sleeve 98 is attached to the lifting column main body 95 and does not move up and down with respect to the lifting column main body 95. On the other hand, the moving yoke 97 can move up and down relative to the lifting column main body 95 by driving the jack 96.

The descending procedure of the height adjustment unit 19 described above will be described with reference to the flowchart of FIG.
In the initial state, as shown in FIG. 21, the movable bar 97 is locked to the nth layer, and the fixed bar 98 is locked to the (n-1) th layer. Thus, the vent cap 91 is supported by the moving base 97 and the stationary base 98 on the vent base 90.

In step S21, as shown in FIG. 24A, the fixing sleeve 98 is closed and stored. Thus, the vent cap 91 is supported by the vent base 90 only with the movable yoke 97.
In step S22, as shown in FIG. 24 (a), the jack 96 is driven to lower the lifting pillar 92. As a result, the vent cap 91 descends by one layer, and the fixing yoke 98 moves to the (n-2) layer.
In step S23, as shown in FIG. 24 (b), the fixing sleeve 98 is opened and locked to the (n-2) layer. As a result, the vent cap 91 is supported by the moving base 97 and the fixed base 98 on the vent base 90 again.
In step S24, as shown in FIG. 24 (b), the moving rod 97 is closed and stored. Thus, the vent cap 91 is supported by the vent base 90 only with the fixing sleeve 98.

In step S25, as shown in FIG. 25 (a), the jack 96 is driven to lower the moving yoke 97 with respect to the lifting pillar 92 and the vent cap 91. Thereby, the moving shaft 97 moves to the (n-1) layer.
In step S26, as shown in FIG. 25 (a), the movable shaft 97 is opened and locked to the (n-1) layer. As a result, the vent cap 91 is supported by the moving base 97 and the fixed base 98 on the vent base 90 again.
In step S27, as shown in FIG. 25 (b), the pillar member 901 and the beam member 902 constituting the n-th layer, which is the uppermost layer, are removed and removed.
By repeating the above steps S21 to S27, the height adjustment unit 19 as shown in FIG. 7 can be lowered to an arbitrary height. In order to increase the height adjustment unit 19, the above-described steps S21 to S27 may be performed in the reverse order.

According to the present embodiment, the following effects can be obtained.
(1) Install the temporary support 20 by installing the height adjustment unit 19 and the mast 21 of the tower crane, and installing the lifting pedestal 22, the jack receiving beam 25 and the jack 26 on the top of the mast 21 body . Thereafter, the jack 26 is temporarily supported to construct the roof frame 13. At this time, even if the height of the roof frame 13 differs depending on the installation place of the temporary support column 20, the height of the roof frame 13 can be easily coped with by adjusting the height of the height adjusting portion 19 appropriately.
Further, since the height of the temporary support column 20 can be adjusted by the height adjustment unit 19, the temporary support column 20 can be easily transferred for reuse.

(2) When transferring the temporary support column 20, the lift receiving pedestal 22 installed at the top of the mast 21 is lowered to secure a clearance space between the roof frame 13 and the top of the mast 21 so that a clearance space is obtained. The tip end of the boom 27 of the hoisting machine can be inserted into and the mast 21 constituting the temporary support 20 can be lifted and removed.
Moreover, even if it is a roof frame erected beforehand, the roof frame can be supported by the temporary support column 20 from the bottom by raising the raising / lowering pedestal 22 along the mast 21.
(3) Since the height adjustment unit 19 is configured to include the vent base 90 and the vent cap 91, the height of the height adjustment unit 19 can be easily made by raising and lowering the vent cap 91 with respect to the vent base 90. It can be adjusted.

(4) Since the second unit U2 and the third unit U3 are ground assembled, and the ground second unit U2 and the third unit U3 are lifted and attached to the first unit U1, the roof frame 13 is assembled. It can be built in a short construction period. Further, at this time, since the temporary truss 17 is attached straddling over the support portion 14 of the roof structure 13, the first unit U1, and the second unit U2, the deflection of the second unit U2 is prevented from becoming large. The installation accuracy of the roof frame 13 can be improved.
(5) The other fulcrum 171B of the temporary truss 17 is temporarily fixed on the support portion 14, and in this state, the second unit U2 temporarily fixed to one fulcrum 171A of the temporary truss 17 is vertically heightened After adjustment, the second unit U2 is joined to the first unit U1. Therefore, the roof frame 13 can be installed at a predetermined height position.

  The present invention is not limited to the above-described embodiment, and modifications, improvements, and the like as long as the object of the present invention can be achieved are included in the present invention. For example, in the above-described embodiment, the height adjustment unit 19 is provided on the temporary construction platform 15. However, the present invention is not limited to this, and the height adjustment unit 19 may be directly provided on the structure 11 without using the temporary construction platform. Good. Further, in the present invention, the roof frame 13 is constructed using the temporary support columns 20. However, the present invention is not limited thereto. A horizontal support material such as a land girder or a beam may be constructed using the temporary support columns 20.

DESCRIPTION OF SYMBOLS 1 ... Stadium 10 ... Field 11 ... Structure 12A ... 1st layer seat chair 12B ... 2nd layer seater seat 12C ... 3rd layer seater seat 13 ... Roof structure 14 ... Support part (base of roof structure)
U1 ... 1st unit (base of roof frame) U2 ... 2nd unit (tip of roof frame)
U3 ... 3rd unit (the tip of the roof frame) 15 ... Temporary frame 16 ... Mounting frame 17 ... Temporary truss 18 ... Lifting machine 19 ... Height adjustment section 20 ... Temporary column 21 ... Mast (temporary column body) 22 ... Lifting pedestal 23: Fixed beam 24: Lifting and lowering support 25: Jack receiving beam 26: Jack 27: Boom 30: Receiving body 31: Support body 32: Lower frame 33: Upper frame 34: Brace 35: Support plate 36: Hanging piece 40 ... Guide member 41 ... Guide post 42 ... Guide frame 43 ... Guide 50A ... Lower work floor 50B ... Upper work floor 51 ... Work floor 52 ... Handrail 53 ... Work floor 54 ... Handrail 55 ... Ladder 56 ... Lid 60 61 ... insertion hole 62 ... support portion 63 ... bolt 64 ... stopper pin 65 ... regulating member 70 ... lower flange 71 ... web 72 ... upper flange 7 ... Stiffener 74 ... bolt 75 ... bolt through hole 76 ... loose hole 77 ... bolt 78 ... pin insertion hole 79 ... stopper pin 80 ... bolt 81 ... support portion 82 ... pulley 82 ... wire 84 ... through hole 85 ... protrusion 86 ... bolt through Hole 90: Vent base (adjusting unit main body) 91: Vent cap (lifting portion) 92: Lifting pillar 93: Roof portion 94: Guide 95: Lifting pillar main body 96: Jack 97: Moving sleeve 98: Fixing sleeve 151: Gantry post 152 ... Large pulling materials 171A, 171B ... fulcrum 172 ... roller 901 ... pillar member 902 ... beam member

Claims (3)

It is a temporary support post that temporarily supports the roof frame,
With height adjustment part which can adjust height,
A temporary column provided on the height adjustment unit;
And a liftable pedestal which is installed at the top of the temporary pillar and supports the roof frame. A jack receiving beam constructed on the upper surface of the lift receiving stand;
And a jack disposed on the jack support beam to support the roof frame.
The temporary support post according to claim 1, wherein the height adjustment unit includes an adjustment unit main body, and an elevating unit provided on the adjustment unit main body so as to be able to move up and down. It is a construction method of a roof frame, and
The roof frame comprises a base and a tip extending from the base,
A first step of installing the temporary support post according to claim 1 or 2 in a structure on the ground;
A second step of temporarily supporting the temporary support to construct the base;
On the ground, attach a temporary truss on the tip, lift the tip and the temporary truss with a lifting machine in this state, temporarily fix the temporary truss on the base, and then, A third step of bonding a tip to the base;
A fourth step of moving up and down the lift pedestal constituting the temporary support along the temporary support;
And a fifth step of lifting and removing the temporary support pillar with a lifting machine in a state where the lifting and lowering pedestal descends.

Images