JP2678568B2 - Sliding type non-separable column formwork - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[Field of Industrial Application] The present invention shortens the construction period, reduces the skilled labor and saves labor by using it at a construction site that requires a long construction period and a large number of formwork carpenters especially in high-rise construction and requires a large number of materials. The present invention relates to a slide-type non-separable diversion column formwork that can contribute to materials. For details, in the pillar formwork construction by the horizontal and vertical separation construction method (called VH separation construction method) in which the concrete of the pillar of the construction work is placed up to the beam bottom line, and then the concrete of the beam and the floor is placed. This is a slide-type non-separable diversion column formwork that is most suitable when adopting the method of constructing a beam formwork before placing concrete and removing the column formwork.

[0002]

2. Description of the Related Art Heretofore, this type is as follows. <The following operations are performed in the pillar formwork assembly process. > 1. A form carpenter prepares the form plate and stile at the processing site (outside the site). 2. The above 1 is brought into the site along with various formwork materials. 3. Set up one side of the prepared face plate.

4. Cone from inside, mold clamp from outside
Install things . 5. Serve with vertical TanFutoshi. Attach the horizontal edge and fix it with a washer. 6. Install the separator. 7. Raise the formwork faceplate on the opposite side. Mount the formwork clamp from the outside. Serve with vertical TanFutoshi. Attach the horizontal edge and fix it with a washer. 8. In this way, the four sides are assembled and the joints of the quads are fixed with nails or the like.

<Concrete placing and curing processes are performed on the assembled pillar formwork. <The following work is performed in the demolding and dismantling process of the pillar formwork. > 9. Remove the washer, and remove the lateral edge. 10. Remove the vertical TanFutoshi. 11. Remove the mold clamp . 12. Remove the form plate. 13. Remove the corn. 14． Repair the corn trace with mortar etc. (at a later date, another hand). 15. Various materials are collected for each member and moved to the upper floor. 16. The above work of 3 to 15 is repeated every time.

[0005]

The above-mentioned prior art has the following problems. 1. There are many work processes and a long construction period is required. 2. There is a lot of field work and it is complicated. 3. Skilled workers such as formwork carpenters are indispensable. 4. Many materials are required.

The present invention has been made in view of such problems of the prior art, and has as its object to provide the following. 1. Reduce the number of work processes and shorten the construction period. 2. Reduce and simplify field work. 3. Eliminate the shortage of skilled workers. 4. The same member will be able to handle changes in cross section. 5. By using a repurposed formwork, new materials are not replenished for each change in cross section, and the material is saved.

[0007]

In order to achieve the above object, the present invention is as follows. That is,
The thing of this application WHEREIN: The pillar-shaped frame part 2 comprised by the rectangular tube shape, and the appropriate number of steps of the slide edge thickness attached horizontally on the outer peripheral surface of this pillar-shaped frame part in the state surrounding the said pillar-shaped frame part. The pillar mold part 2 is composed of a part 3 and a mold face plate 4 on the front , rear, left and right, and a cord.
The mold face plate 4 is a main face plate.
4A and a suitable number of removable face plates 4B
The plate 4A is attached to the vertically long plate 4A1 and the outer surface of the vertically long plate.
Aluminum vertical edge thick 4A11 attached to both edges
And the aluminum for middle use that is attached between these vertical aluminum edges.
It is composed of a vertical thick 4A12, and a removable face plate.
4B is a vertically long plate 4B1 having a width narrower than that of the plate 4A1.
Wood splints 4B11 attached to both edges of the outer surface of this plate
The main face plate 4A and the removal face plate 4B are
Corner angle 5
Is an angle member 5A that corresponds to the height of the mold face plate 4,
And the upper and lower triangular plates 5B stretched on the upper and lower ends of the angle member
The angle member corresponds to the connecting hole 4C.
A connecting hole 5C is opened, and this corner angle 5 is
It is fitted to the four corners of the form face plate 4, and the aluminum edge connection
5E or bolts and nuts 5F
On the other hand, the slide edge thick part 3 is a front, rear, left and right slide edge thick unit
6, the slide end thick single body 6 is the width of the mold face plate 4
Sliding edge thick material 6 composed of slightly longer rectangular steel pipe
A and slide end thick base material 6B, and these materials are at a small interval 6C
The left and right positions on the surfaces of both materials
Support mounting jig 6D mounted on the backside of both materials
Paired with the aluminum vertical edge thick 4A11 for the end of the main face plate 4A.
Left and right thick edge fixing pieces 6E
And a fixed metal provided on the right end of the surface of both materials
Object 6F and the left end of the surface of both materials
Installed in the center of the surface of the rotating hardware 6G and the slide end thick material 6A.
It consists of a hanging hardware 6H
The attaching jig 6D includes a plate body 6D1 for connecting both materials and this plate body.
Consists of left and right brackets 6D2 protruding from the surface of the
This bracket has horizontal pin holes.
The slanted support 6D3 is connected to the
The fixed piece 6E includes a plate body 6E1 that connects both materials and this plate.
Consists of a thick fixing plate 6E2 that is connected to the body at a right angle
The fixed hardware 6F is slid with the slide end thick upper material 6A.
It is provided on the right end portion of the surface of the thick end material 6B.
The fixed hardware main body 6F1 configured to have a plane angle of 45 degrees
Attached to the right slanted surface of the fixed metal object and the tip
Is configured to protrude from the ridgeline of the fixed hardware body.
6F2, and the turning hardware 6G is
Left side of slide end thick upper material 6A and slide end thick lower material 6B
Opened at a certain interval from the left end to the right of the minute
Was the first Danbashira portion for longitudinal through holes 6G1, vertical through for the second Danbashira portion
Hole 6G2, Vertical Penetration Hole 6G3 for Third Step Column, and Fourth Step Column
Vertical through holes 6G4 for parts and vertical through holes for each of these pillars
One selected according to the width of the mold face plate 4 used
Through bolt 6G5 penetrated through the vertical through hole for the pillar, and
Eyebolt body 6G rotatably connected to the through bolt
6 and a square washer 6G7 loosely fitted to the eyebolt body
And a long nut 6G8 screwed to the tip of the eyebolt body
And the column form part 2 and the front and rear and left and right slide ends.
The relationship with the slide end thick part 3 composed of the single unit 6 is
It is located in front of the pillar form part, with the pillar form part 2 as the center.
For the fixed hardware 6F of the slide edge single unit 6
Rotating hardware 6G of the slide end thick unit 6 located on the right side of the section
Is engaged and disengaged, and the sliding edge unit 6 is attached to the fixed hardware 6F.
Then, the slide end thick unit 6 located on the rear surface of the pillar form
The rotating hardware 6G is disengaged, and this slide end thick unit 6 is fixed.
A slide located on the left side of the pillar form part with respect to the hardware 6F
The turning hardware 6G of the end piece 6 is disengaged, and this slide end piece
The fixed slide 6F of the single unit 6 is located on the front side.
It is configured so that the turning hardware 6G of the end edge single body 6 is disengaged,
Aluminum vertical edge thick 4 for the end of the main face plate 4A of the formwork face plate 4
A11 and the thick edge fixing piece 6E of the single slide edge thickness 6
Is fixed with thick end fixing bolts and nuts 6E3
It is a slide-type non-separation divertable column formwork configured as described above .

[0008]

An embodiment will be described with reference to the drawings. 1
Is a slide type non-separating column formwork of the present invention.
The formed pillar form frame 2 and the outer peripheral surface of the pillar form frame
Appropriate number mounted horizontally, surrounding the pillar formwork
It is composed of the slide end thick portion 3 of the step. Pillar formwork
2 is the front and rear left and right formwork face plates 4 and corner angles 5
It is composed of The mold face plate 4 is removed from the main face plate 4A.
It is composed of a face plate 4B.

The pillar form part 2 is a first-stage pillar as shown in FIG.
Section 7A, second step pillar section 7B, third step pillar section 7C, fourth step pillar section
7D and the pillar 7 with a smaller cross-sectional dimension as going up
Once you have prepared of the same standard if you built, it
It is configured to be able to respond to this
is there. The cross section of the column is large because the load is heavier on the lower floor.
Is required, but we will try to cope with the following cases
Things. For example, 900mm x 90 from the 1st floor to the 7th floor
0mm, 850mm × 850mm from 8th floor to 15th floor,
800 mm x 800 mm from the 16th floor to the 22nd floor, 23rd floor
From the 28th floor to 750mm x 750mm
You.

To explain this point in more detail, FIG.
Sliding type non-separating roll used for the 1st step pillar part 7A
It shows the state of the pillar formwork, and in that case the pillar formwork part 2
The mold face plate 4 is a main face plate 4A and three detachable face plates 4
It is composed of B and. Figure 5 is used for the 2nd column 7B.
Shows the state of the slide type non-separating column formwork used
And the mold face plate 4 in the pillar mold part 2 in that case is
Consists of a main face plate 4A and two removable face plates 4B
I have. FIG. 6 is a slide used for the third step pillar portion 7C.
De-type non-separable column form shows the state of the column form, in that case
The mold face plate 4 in the column mold part 2 of the
It is composed of a removable face plate 4B. FIG. 7 shows the fourth
Sliding type non-separating diversion column used for stepped column 7D
It shows the state of the formwork, and in that case the pillar formwork part 2
The mold face plate 4 is composed only of the main face plate 4A. Izu
Also in this case, the corner angle 5 and the slide end thick part 3
Common ones are used.

Here, it is used for the third step pillar portion 7C shown in FIG.
Refer to Fig. 8 for the slide type non-separating column formwork
Will be described in detail. As described above, the mold face plate 4 is the main face plate 4A.
And a removal face plate 4B, and the main face plate 4A is
On both edges on the outer surface of the long plate 4A1 and this vertically long plate
Aluminum vertical edge thick 4A11 attached and these ends
Medium aluminum vertical edge 4A1 attached between aluminum vertical edges
2 and. 4A13 is a bottom plate. Ma
Also, the detachable face plate 4B is vertically long and has a narrower width than the plate body 4A1.
Plate 4B1 and a tree attached to both edges of the outer surface of this plate
It is composed of a pier 4B11. 4B12 is the bottom plate
It is.

[0012] These aluminum vertical thick ends, wood piers have connection holes
4C are opened at a predetermined interval, and the connecting hole 4C is a main face plate.
4A and removal face plate 4B, fast connection, main face plate 4A and corner
-Connecting with angle 5, removing face plate 4B and corner
Of the main surface plate 4A and the slide end thick portion 3
Used for concatenation, etc. And these aluminum vertical edges,
The wood splint is fixed to the main face plate 4A and the removal face plate 4B with screws.
Have been. Also, it is lighter to use vertical aluminum thick edges
Because of. As a result, as described above, the mold face plate 4
Is composed of a main face plate 4A and a detachable face plate 4B.
Therefore, the main face plate 4A corresponds to the change in cross section as shown in FIG.
Use only the main face plate 4A and the removal face plate 4B
It can be used in a connected state.

The corner angle 5 is the height of the mold face plate 4.
5A corresponding to and the upper and lower ends of this angle material
The upper and lower triangular plates 5B stretched over the
A connecting hole 5C corresponding to the connecting hole 4C is opened in the ruler material.
Have been. This corner angle 5 is
Fitted in the corners, a one-touch aluminum thick connection
Fix it with the cap 5E or the bolt and nut 5F.

On the other hand, the slide end thick portion 3 is provided on the front, rear, left and right sides.
It consists of a single piece of ride edge. So slide
The end piece 6 is a square steel pipe that is slightly longer than the width of the mold face plate 4.
Sliding edge thick upper material 6A and sliding edge thick lower material 6 configured
B and both of these materials so that they hold a small interval 6C.
Supports attached at the left and right positions on the surface of the material
And the ends of the main face plate 4A on the back surfaces of both materials.
It is attached so as to correspond to the aluminum vertical edge thick 4A11
The left and right edge fixing pieces 6E and the right side of the surface of both materials
Fixed hardware 6F provided at the end part and the surface of both materials
6G of turning hardware provided at the left end of the surface and slide
Suspended metal object 6H provided in the center of the surface of the thick log material 6A
It consists of and.

The support mounting jig 6D connects both materials.
Plate 6D1 and left and right bras protruding from the surface of this plate
It is composed of a bucket 6D2. On this bracket
Has a pin hole in the horizontal direction.
The support 6D3 will be connected. Bold fixed pee
The space 6E is a plate 6E1 that connects the two materials and a pair of plates.
And a thick fixing plate 6E2 that is continuously connected at a right angle.
I have. Fixed hardware 6F is on both materials, that is, on the slide edge
Right end of the surface of the material 6A and the slide end thick bottom material 6B
Fixed hardware main body 6 that is formed at a 45 degree plane
Attached to F1 and the right inclined surface of the fixed hardware body.
And the tip protrudes from the ridgeline of the fixed hardware body.
And a retaining plate 6F2 configured to
You.

The rotating hardware 6G is composed of both materials, that is, slides.
In the left part of the top wood 6A and the bottom wood slide 6B
The first stage opened from the left end to the right with a certain interval
Vertical through-hole 6G1 for pillar and vertical through-hole 6G2 for second step pillar
And a vertical through hole 6G3 for the third step pillar portion, and a vertical through hole for the fourth step pillar portion
Used for through holes 6G4 and vertical through holes for each of these pillars
Vertical for one pillar selected according to the width of the mold face plate 4
Through bolt 6G5 penetrated through the through hole and this through bolt
Eyebolt body 6G6 rotatably connected to the
Square washer 6G7 loosely fitted to the eyebolt body of
Consists of a long nut 6G8 screwed to the tip of the main body
Have been. In this case, referring to FIG. 9, the formwork to be used
Face plate 4 is a combination of main face plate 4A and removable face plate 4B.
In the open state, the through-bolt is inserted into the vertical through hole 6G3
6G5 is penetrated, and referring to FIG.
When the mold face plate 4 is only the main face plate 4A, the 4th column
The through bolt 6G5 is penetrated into the vertical through hole 6G4 for parts.
And

Here, the pillar frame 2 and the front, rear, left and right slides
Relationship with the slide edge part 3 which is composed of the edge part 6
Will be described. (See FIG. 2) With the pillar formwork 2 as the center,
Fixing the sliding end piece 6 located on the front surface of the pillar frame part
A slide located on the right side of the pillar form part with respect to the hardware 6F
The turning hardware 6G of the end piece 6 is disengaged, and this slide end piece
Positioned on the rear surface of the pillar formwork part with respect to the fixed hardware 6F of the single body 6.
The sliding hardware 6G of the sliding edge thick body 6 is disengaged,
For the fixed hardware 6F of the slide end thick single body 6, the pillar form frame part
The rotating hardware 6G of the slide end thick unit 6 located on the left side of the
Disengage and attach to the fixed hardware 6F
And the rotating hardware 6G of the sliding end piece 6 located on the front surface.
Is configured to engage and disengage. Main in formwork face plate 4
Aluminum vertical edge thick 4A11 for the end of the face plate 4A, and the slide end
To secure the thick single piece 6 to the thick edge fixing piece 6E,
This is done by means of a bolt and nut 6E3.

The present invention is used as follows. 1. Raise the front, rear, left and right mold face plates 4 to raise the mold faces.
Sliding edge single unit 6 pre-mounted on plate 4
The rotating metal piece 6G is locked and fixed to the fixed metal piece 6F.
As a result, a prismatic columnar frame is formed. This
In the case of the fixed hardware 6F, the flat surface was formed at 45 degrees.
Fixed washer body 6F1 and square washer 6 in rotating hardware 6G
The eyebolt body 6G6 is disengaged because it is locked with G7
Never. Also, the slide end thick single body 6 is a square tightening method.
Therefore, it is a so-called non-separator that does not use a separator or cone.
It becomes a pa system. Therefore, cones, separators, and mold clamping
Eliminates the need for hardware work and makes holes in the face plate as cone marks
No need for repair. Assembling such a pillar formwork is
You can go at the construction site or at another place. Sand
Then, each formwork face plate is temporarily assembled at the site and placed in a predetermined position such as a crane.
You can either hang it up or set it up on the spot.
It is a reason.

[0019] 2. With a crane, etc.
Use the hanging hardware 6H to hang it down at a predetermined place.
No. Since the present invention is so-called non-separator, it can be suspended.
It can be unloaded. In this case, I used a separator
The formwork cannot be hung because of the pillar reinforcement. 3. To prevent the installed pillar formwork from falling, slide
Use the support mounting jig 6D that is processed on the thick edge part 3
Then, a known support may be installed obliquely. 4. After placing and curing, loosen the eyebolt body 6G6 and move it back and forth.
The left and right mold face plates 4 are disassembled and opened, and the respective molds are released. This
In the case of, the slide edge thick single body 6 is the main surface of the mold face plate 4.
Do not remove by connecting with the plate 4A. Therefore, the dismantling work is greatly
Can be reduced to In addition, the beam form is already constructed when demolding.
Because it is a construction method, it cannot be removed from the mold by lifting it with a crane, etc.
No. Therefore, the product of this application is made of aluminum and other light
Using a measuring member, it was possible to easily remove the mold and move it manually.
Loosen the corner eyebolt body 6G6 and attach the four mold face plates.
Dismantle. In this case, in the case of conventional general vertical edge thick,
It is heavy and difficult to move manually, so disassemble all parts.
You. 5. By temporarily assembling the four mold face plates 4 that have been demolded,
It is also possible to suspend and move at once.

[0020] 6. According to the change of the cross section of the pillar,
It changes as follows. As shown in FIG. 4, the first stage pillar portion 7A
The mold face plate 4 in the pillar mold part 2 used for is the main face plate 4
It consists of A and 3 detachable face plates 4B, as shown in FIG.
Formwork in the pillar formwork part 2 used for the second stage pillar part 7B.
The face plate 4 includes a main face plate 4A and two detached face plates 4B.
As shown in FIG. 6, the pillar formwork used for the third step pillar portion 7C.
The mold face plate 4 in the part 2 is the same as the main face plate 4A
It is composed of a flat plate 4B and, as shown in FIG. 7, a fourth step pillar portion 7D.
The mold face plate 4 in the pillar mold part 2 used for is the main face plate 4
It consists of only A. In response to such changes,
The passing bolts 6G5, for the first Danbashira unit vertical through hole 6G1, second
Vertical through hole 6G2 for stepped column part, vertical through hole 6G for third stepped column part
3 、 Move one by one to the vertical through hole 6G4 for the 4th column
You should pass it.

[0021]

The present invention is configured as described above.
Has the following effects. 1. Formwork face plate 4 and slide edge single piece 6 are
Since it is configured to correspond to the surface, the same standard
If you prepare, even if the cross-sectional dimension of the pillar changes
Can respond. 2. On the outer peripheral surface of the pillar-shaped frame portion 2 configured in a rectangular tube shape,
Enlarge the appropriate number of slide edges in a horizontal state while surrounding the frame.
Since the part 3 is configured to be attached, the conventional
Bolts that are tightened inside the formwork (called separator
It can be installed without using (bu). 3. Formwork faceplates are connected to each other at the outer corners of the pillar formwork.
Fixed hardware 6F and rotating gold in the sliding edge single unit 6
Since it is configured to engage with the object 6G, the pillar formwork
The parts can be assembled and disassembled quickly and reliably. 4. Use vertical edge thick aluminum for end and vertical aluminum edge for medium
Since it is lightweight, it can be carried around manually. 5. A comparison of the results of the conventional method and the present method
Are listed below as an example. Conventional method present method the small assembled work 30 times once a small splitters 30 times once the set 30 times 30 times formwork panels new replacement 6-7 times about zero loading and unloading 6-7 times about once rose member number numerous minority 30 times organize integrated cumbersome easily end materials and waste large amounts almost without labor amount of a few 30 times the number movement of material (period × number of people) difficulty difficult easy of a large amount small amount work

[Brief description of the drawings]

FIG. 1 is a perspective view of an assembled state.

FIG. 2 is a perspective view of an assembled state.

FIG. 3 is a schematic front view illustrating a usage state.

FIG. 4 is a schematic plan view showing a state of a slide-type non-separating diversion column mold used for the first-stage column portion.

FIG. 5 is a schematic plan view showing a state of a slide-type non-separating diversion column mold used in a second-stage column portion.

FIG. 6 is a schematic plan view showing a state of a slide-type non-separating diversion column mold used for a third-stage column portion.

FIG. 7 is a schematic plan view showing a state of a slide-type non-separation transferable column mold used for a fourth-stage column portion.

[FIG. 8] The mold face plate is disassembled into a main face plate and a removal face plate,
It is an exploded perspective view explaining the relationship between these and a slide end thick part.

FIG. 9 is an enlarged perspective view of an essential part for explaining a state immediately before locking and fixing the rotating metal piece to the fixed metal piece in the single slide end thickness.

FIG. 10 is an enlarged perspective view of an essential part for explaining a state in which the rotating metal fitting is locked and fixed to the fixed metal fitting in the sliding end piece alone.

FIG. 11 is a perspective view illustrating the relationship between the mold face plate and the slide end thick portion in a state where the removal face plate is removed from the mold face plate.

[Explanation of symbols]

 1 Sliding type non-separable diversion pillar formwork 2 Pillar formwork part 3 Sliding end thick part 4 Formwork face plate 5 Corner angle 6 Sliding end thick single unit

Claims (1)

(57) [Claims] 1. A column-shaped frame portion (2) having a rectangular tubular shape,
A proper number of slide end thick portions (3) mounted horizontally on the outer peripheral surface of the pillar form frame portion so as to surround the pillar form frame portion.
And the column mold part (2) is composed of front , rear, left and right mold face plates (4) and corner angles (5),
Form face plate (4), main face plate (4A)
It is composed of a face plate (4B) and the main face plate (4A) is vertically long.
Plate (4A1) and both edges on the outer surface of this vertically long plate
Aluminum vertical edge thickness (4A11) attached to the end and this
Middle aluminum vertical edge attached between the end aluminum vertical edge
(4A12) and the removal face plate (4A12)
B) is a vertically long plate (4B, which is narrower than the plate (4A1)).
1) and wooden splints attached to both edges of the outer surface of this plate (4
B11) and these main face plates (4A) and
The detachable face plate (4B) is configured to be connectable and disassembleable to each other.
The corner angle (5) corresponds to the height of the mold face plate (4).
Corresponding angle material (5A) and the upper and lower ends of this angle material
The upper and lower triangular plates (5B) stretched over the
The connecting hole (5) corresponding to the connecting hole (4C)
C) is opened and this corner angle (5) is
It is fitted to the four corners of the face plate (4) and has an aluminum edge connection
Fixed with cap (5E) or bolt and nut (5F)
On the other hand, the thick slide end (3) is
Consists of a single thick edge (6) and a single thick edge (6)
Is made up of square steel pipes that are slightly longer than the width of the formwork surface analysis (4).
Slide end thick upper material (6A) and slide end thick lower material (6A)
B) and these two materials keep a small space (6C)
It was attached with the left and right positions on the surface of both materials.
The support mounting jig (6D) and the main face plate (4
Corresponds to the aluminum vertical edge thick (4A11) in A).
Left and right thick fixing pieces (6E)
And a fixed metal provided on the right end of the surface of both materials
Object (6F) and the left end of the surface of both materials.
The rotating hardware (6G) and the thick sliding edge material (6A)
Consists of hanging hardware (6H) provided in the center of the surface
The support mounting jig (6D) is a plate that connects both materials.
The body (6D1) and the left and right blocks protruding from the surface of the plate body.
It consists of a racket (6D2) and this bracket
Has a pin hole in the horizontal direction.
(6D3) are connected, and the thick fixing piece (6E) is
The plate (6E1) that connects both materials and the plate
It is composed of a thick fixing plate (6E2) connected to the corner,
The fixed-price item (6F) is a slide end thick material (6A) and a slide.
It is installed on the right end of the surface of the thick end material (6B).
Fixed hardware body (6F1) with a flat angle of 45 degrees
And attached to the right inclined surface of the fixed hardware body,
Also, the tip projects from the ridgeline of the fixed hardware body.
It is composed of a retaining plate (6F2)
The moving hardware (6G) is slid together with the slide end thick material (6A).
To the right from the left end in the left part of the thick end material (6B)
Vertical through holes for the 1st stage pillars that are opened at a predetermined interval
(6G1), the second through-column vertical through hole (6G2), and
Vertical penetration hole for 3 steps pillar part (6G3) and vertical penetration hole for 4 steps pillar part
Use of holes (6G4) and vertical through holes for each of these columns
Column selected according to the width of the mold face plate (4)
With a through bolt (6G5) that penetrates the vertical through hole for
Eyebolt body rotatably connected to the through bolt
(6G6) and square washer loosely fitted to the eyebolt body
(6G7) and a long screw threaded to the tip of the eyebolt body.
(6G8) and the pillar formwork (2) and front and back
A sly consisting of the left and right slide ends (6)
The relationship with the thick end part (3) is centered on the pillar form part (2).
And the slide edge thick unit located in front of the pillar formwork part.
For the fixed hardware (6F) of (6), on the right side of the column form part
The rotating hardware (6G) of the slide edge thick unit (6) located
Detachable, and fix the fixed hardware (6
Compared to F), the sliding edge thickness located on the rear surface of the pillar formwork
The rotating hardware (6G) of the single body (6) disengages, and this slide
Column form part for fixed hardware (6F) of edge single piece (6)
Rotating hardware of slide edge thick unit (6) located on the left side of
(6G) disengages and secures this slide end unit (6)
Sliding edge located in front of the hardware (6F)
The rotating hardware (6G) of the body (6) is configured to be disengaged,
Aluminum for the end of the main face plate (4A) in the form face plate (4)
Vertical edge thickness (4A11) and slide edge thickness (6)
Fix with the fixing piece (6E) by using the thick fixing bolts and nuts.
The slide-type non-separating diversion column formwork, which is carried out by G. (6E3) .