KR101017768B1 - System stairway using pin connection structure and construction method thereof - Google Patents

Abstract

PURPOSE: System stairs using a pin connection structure and a construction method thereof are provided to reduce construction time because the arrangement of reinforcing bars is not required. CONSTITUTION: System stairs using a pin connection structure comprise an upper floor finish plate(1), a lower floor finish plate(3), two stringer frames(5), stair plate supports(7), and foot support units(8). The upper floor finish plate is an inclined plane. The lower floor finish plate is arranged in a diagonal direction of the upper floor finish plate. The stringer frames are connected to the upper and lower floor finish plates. The stair plate supports are installed in the stringer frames at uniform intervals. The head parts of the stair plate supports are protruded from the top of the stringer frames. The foot support units are connected to the stringer frames and are connected to the stair plate supports.

Description

System stairway using pin connection structure and construction method

The present invention relates to a system staircase using a pin connection structure and a construction method thereof, and more particularly, when using a steel staircase as a temporary staircase during the construction of a building, the stairway is completed when the construction and the internal construction of the building are finished. The present invention relates to a system staircase using a pin connection structure and its construction method in which aluminum finishes, stones and various finishing materials are additionally installed on a plate to convert a temporary staircase into a permanent staircase.

In general, vertical vertical copper connections of buildings, especially high-rise buildings such as apartments, are made by the installation of elevators or stairs. However, the stairs must be connected to landing and mid-swing slabs in a narrow staircase space. Unlike general building structures such as upper and lower walls, there is a problem that the working conditions for construction are relatively difficult and cumbersome.

Such stairs typically use reinforced concrete to create an integrated staircase.

The integrated staircase using such reinforced concrete has a problem that a large amount of rebar is required because its weight is large and the rebar is disposed over the width of the stairs.

In addition, the reinforced concrete integrated stairs had a problem that cracks may occur due to shrinkage and expansion of concrete during the curing process of the concrete, and the work is cumbersome because the finishing mortar work, the plastering work, and the paint work must be performed in parallel. there was.

Accordingly, the present invention solves the structural problems according to the conventional prefabricated stairs as described above, eliminating the reinforcement work for the production of the mold of the stairs to shorten the construction period, saving the material by not using concrete for the production of stairs In addition, the object of the present invention is to provide a system staircase and a construction method using a pin connection structure that does not have to worry about cracks that may occur during the concrete curing process.

In addition, another object of the present invention is to provide a system staircase and a construction method using a pin connection structure that can be used as a semi-permanent staircase by utilizing the temporary step installed in the staircase room during the construction period is another object of the present invention. .

System staircase and construction method using the pin connection structure according to the present invention for achieving the object of the bar is formed in the oblique side shape while being arranged in a diagonal direction with the upper yam finish plate made of a slanted surface, the upper yam finish plate Lower tier finisher, one end and the other end is connected to the upper tier and lower tier respectively respectively two stringer frame installed side by side with the other stringer frame, installed on the stringer frame with a certain distance between The upper head protrudes upwards of the stringer frame and the top plate has two or more through-holes horizontally on the upper side, and the step plate spools facing each other on the same height line connected to different stringer frames. And foot support means connected to the foot.

In addition, the foot support means is connected to the different stringer frame and the grating support member disposed between the step plate clamps facing each other on the same height line, and on both sides of the grating support member facing the step plate clamps A fixing plate having two or more through holes which are attached to the step plate fasteners and facing the at least two through holes, the step plate clamps facing the fixing plate with the step plate clamps therebetween. Assembly boards having two or more through-holes corresponding to two or more through-holes provided in the assembly, and the plate and assembly plates fitted to the step plate clamps and through-holes provided in the assembly plate and the assembly plate. And a support pin connecting the grating support member, and the grating support member and the fixed plate member and the assembly plate. Front and back of the conjugate, may be formed body support frame coupled to the left and right side surfaces consisting of.

The system staircase and construction method using the pin connection structure according to the present invention having such a structure uses the steel staircase as a temporary staircase during the construction of the building, and the construction of the construction and the construction of the internal construction is completed when the construction is completed. Aluminum finishes, stone and various finishes can be installed on the stairs to convert them into permanently usable stairs.

Therefore, the system staircase and its construction method using the pin connection structure according to the present invention do not require the reinforcement work for weaving the stair frame by not using concrete, and it is possible to omit the finishing mortar work, the finishing work, and the paint work. There is an advantage that can shorten the construction period.

In addition, there is an advantage that you do not have to worry about the crack phenomenon caused by the shrinkage expansion phenomenon of concrete.

1 is a side view of the present invention,
2 is an exploded perspective view of the foot support means,
3 is a combined perspective view of the foot support means,
4 is a view for explaining a state in which formwork is installed between the foot support means and the inner wall of the staircase,
5 is a view for explaining a state in which the foot support means is in close contact with the inner wall direction of the staircase after removing the formwork;
Figure 6 is a view for explaining a state in which the stringer frame is installed on the upper true finishing plate,
7 is a view for explaining a state in which the hand rail bracket is installed on the foot support means,
8 is a view for explaining a state in which the support pin is fixed to the assembly plate and the fixed plate by a bolt fitted to the expansion bracket,
9 is a longitudinal sectional view of the foot support means;

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

As shown in FIGS. 1 and 2, the system stairs using the pin connection structure according to the present invention are arranged in a diagonal direction with an upper yam closing plate 1 having a slanted surface, and the upper yam finishing plate 1. Lower yam closing plate (3), one end and the other end formed in the shape of the oblique side is connected to the upper yam closing plate (1) and lower yam closing plate (3), respectively, 2 installed side by side with the other stringer frame (5) Two stringers frame (5), which is installed on the stringer frame (5) with a predetermined interval therebetween, the upper head portion protrudes upward of the stringer frame (5) and at least two through holes on a horizontal line on the upper side. Foot support means (8) equipped with (9a, 9b), and foot support means (8) connected to different stringer frames (5) and to step plate clamps (7) facing each other on the same height line; ).

In addition, the foot support means 8 are arranged between the step plate clamps 7 facing each other on the same height line while being connected to different stringer frames 5, as shown in FIGS. Two or more through-holes 9a which are attached to both sides of the grating support member 11 and the grating support member 11 facing the step plate clamp 7 and are provided in the step plate clamp 7; Fixing plate 13 having two or more through-holes 9c and 9d in correspondence with 9b) and the step plate clamp while facing the fixing plate 13 with the step plate clamp 7 interposed therebetween. An assembly plate 15 having two or more through holes 9e and 9f corresponding to two or more through holes 9a and 9b provided in (7), the step plate clamp 7, and a fixed plate (13) and through-holes 9a to 9f provided in the assembly plate 15, and the fixing plate 13 and the fixing plate 13 are fastened to the step plate clamp 7. Support pins 17a and 17b for connecting the lip sheet 15 and the grating support member 11, and the front and rear surfaces of the combination consisting of the grating support member 11, the fixed plate 13 and the assembly plate 15 , The support frame body 19 is coupled to the left and right sides.

According to the present invention having such a structure, as shown in FIGS. 4 and 5, when the foot support means 8 is pushed or pulled in the left or right direction, the support pins 17a and 17b are stepped plate clamps 7. The foot support means 8 slides within the interval between the fixed plate member 13 and the assembled plate member 15 while being inserted into the through-holes 9a and 9b provided in the).

Therefore, after removing the formwork 20 provided between the inner wall of the staircase and the foot support means 8, as shown in Figure 5, when the foot support means 8 is pushed in the direction of the inner wall of the staircase the support pin ( 17a and 17b are in close contact with the inner wall direction of the staircase in the state connected to the step plate clamp 7.

On the other hand, the guide rail 33 is recessed in the longitudinal direction of the stringer frame 5, as shown in Figure 2 and 3 on the upper surface of the stringer frame (5) facing the staircase plate clamp 7 It may be mounted, the guide rail 33 may be arranged with two or more bolt holes (35a) at regular intervals therebetween, of the step plate clamp 7 facing the stringer frame (5) An orthogonal plate 37 bent on the guide rail 33 by being bent in the orthogonal direction of the step plate clamp 7 may be mounted on the lower end thereof.

In addition, the orthogonal plate 37 is provided with a bolt hole 35b facing the bolt hole 35a formed in the guide rail 33 so that the step plate clamp 7 can be bolted to the stringer frame 5. have.

In addition, as shown in FIG. 4, between the support frame 19 and the assembly plate 15, two or more auxiliary plates 39a spaced apart from the support frame 19 and the assembly plate 15 at a predetermined interval. 39b) may be installed, and the auxiliary plate 39a, 39b may be equipped with a reinforcing plate 25 penetrating the auxiliary plate 39a, 39b in a state arranged in the orthogonal direction of the auxiliary plate 39a, 39b. Can be.

At this time, the reinforcing plate 25 may pass through the auxiliary plate (39a, 39b), the assembly plate 15, the step plate clamp 7, and the fixed plate (13).

In addition, as shown in Figure 6, the reinforcement insert frame 21, the longitudinal cross-section is bent in a transverse shape is installed at both ends of the upper layer closing plate (1) and the lower layer closing plate (3), the reinforcement insert frame A bar-shaped reinforcement 23 is inserted into the inner side of the 21, and an additional plate 41 is provided on the circumferential surfaces of the upper and lower yam plates 1 and 3 facing the inner wall of the staircase room. Can be encountered.

In addition, as shown in FIG. 6, the upper layer finishing plate 1 or the lower layer finishing plate 3 passes through the upper layer finishing plate 1 or the lower layer finishing plate 3 in the orthogonal direction, and It is equipped with two or more extension bars 27 whose rear ends may be exposed in the front and rear directions of the upper layer finishing plate 1 or the lower layer finishing plate 3, and the upper layer finishing plate 1 and the lower layer finishing The front and rear ends of the stringer frame 5 facing the plate 3 are provided with connecting bars 29a and 29b extending side by side between one connecting bar 29a and the other connecting bar 29b. The extension bar 27 may be fitted, and a fitting shaft penetrates through the connection bars 29a and 29b to which the extension bar 27 is fitted so that the connection bars 29a and 29b are connected to the extension bar 27. In the axis can be turned.

In addition, the rear end of the extension bar 27 not facing the connecting bars 29a and 29b may be fitted and fixed to the reinforcing bar extending from the inner wall of the staircase.

 In addition, the upper surface of the support frame body 19 coupled to the left side or the right side of the combination consisting of the grating support member 11, the fixed plate member 13, and the assembly plate member 15 as shown in Figure 7 The hand rail bracket 43 may be installed in an upward direction of the support frame body 19. The hand rail support bar 45 may be connected to the hand rail bracket 43, and the hand rail support bar 45 may be installed. The top of the hand rail may be connected.

In addition, as shown in FIG. 8, the assembled plate member 15 and the fixed plate member 13 are located on the side surfaces of the assembled plate member 15 and the fixed plate member 13 while being located on a vertical line of the through holes 9c to 9f. An expansion bracket 49 extending in an orthogonal direction of the mounting bracket 49 may be mounted, and the expansion bracket 49 is provided with bolt insertion holes 50a and 50b into which the bolt is inserted, and is inserted into the bolt insertion holes 50a and 50b. 52 can press-fix the circumferential surfaces of the support pins 17a and 17b.

In addition, the upper surface of the step plate clamp 7 is located on the vertical line with the through holes 9a and 9b provided in the step plate clamp 7, and the step plate clamp at the upper surface of the step plate clamp 7 The bolt insertion hole 50c leading to the through holes 9a and 9b provided in the metal 7 is provided, and the bolt inserted into the bolt insertion hole 50c provided in the step plate clamp 7 is supported by the support pins 17a and 17b. ) Can be fixed to the circumferential surface.

In addition, as shown in Figure 8, the front end outer peripheral surface and the rear end outer peripheral surface of the support pins (17a, 17b) is provided with a thread 51 to which the nut 54 is fastened to assemble the support pins (17a, 17b) 15) and the front and rear ends of the support pins 17a and 17b protruding out of the assembly plate 15 and the fixed plate 13 when inserted into the through holes 9c to 9f provided in the fixed plate 13. The nut 54 can be tightened.

Meanwhile, as shown in FIG. 9, an assembly frame 55 smaller than the cross-sectional area of the support frame 19 is mounted on the upper end of the support frame 19, and a grating support member is disposed on the bottom side of the assembly frame 55. Protruding piece 57 which extends in the (11) direction and comes into contact with the upper surface of the support frame body 19 and is screwed with the support frame body 19 is provided, and is in contact with the support frame body 19. Tension protrusions 59a and 59b are provided at the bottom of the bottom surface and the bottom of the assembly frame 55 to prevent screw loosening when the protrusion piece 57 and the support frame 19 are screwed together.

In addition, the inside of the rectangular frame formed by the assembly frame 55 may be inserted into the tread plate 61, the bottom edge is placed on the protruding piece 57, the assembly frame 55 facing the tread plate 61 The upper edge of the concave fitting groove 63 may be provided, the upper edge of the assembly frame 55 is bent in the form of a translator, the upper surface of the assembly frame 55 and the upper edge of the tread plate 61, assembly The non-slip member 65 which can wrap the side surface of the frame 55 and the support frame 19 is mounted.

In addition, the non-slip member 65 facing the fitting groove 63 may be provided with a fitting protrusion 67 forcibly fitted into the fitting groove 63.

In addition, the upper surface of the non-slip member 65 is provided with concave-convex protrusions 69 protruding convexly to prevent slipping, and the upper edge of the non-slip member 65 provided in the direction of the upper yam closing plate 1 is upward Protruding portion 71 is formed to extend.

The construction method of the system stairs using the pin connection structure according to the present invention having the above structure will be described with reference to FIGS. 1 to 10.

First, before reinforcing the concrete in the staircase, the reinforcing bars forming the staircase walls are placed and the formwork is assembled inside and outside the reinforcing bars.

Next, reinforcement is connected to the upper floor finishing plate (1) and the lower floor finishing plate (3) to the interior landing position of the staircase, and the stringer frame (3) to the upper floor closing plate (1) and the lower floor closing (3) 5) Connect.

Next, the grating support member 11 is placed on the same height line and connected to the step plate clamp 7 connected to one stringer frame 5 and the step plate clamp 7 connected to the other stringer frame 5. ) And the assembly consisting of the fixed plate member 13, the assembled plate member 15, and the support frame body 19, and then the step plate clamp 7 is inserted between the fixed plate member 13 and the assembled plate member 15. To lose.

Next, the support pins 17a and 17b are inserted into the through holes 9a to 9f provided in the fixing plate 13, the assembly plate 15, and the step plate clamp 7, and then the support pins 17a and 17b. ) Do not leave the fixed plate (13) and the assembled plate (15).

Next, after the concrete is poured into the formwork, the concrete is cured, and the formwork 20 installed on the inner and outer walls of the staircase is removed.

Next, a safety railing is installed on the hand rail bracket 43 to prevent the fall of the workers, and the foot supporting means 8 is pushed toward the inner wall of the staircase so that the grating support member 11 and the fixing plate 13 and the assembly plate (15) and the support frame 19 to be in close contact with the inner wall of the staircase.

At this time, when the grating support member 11, the fixed plate member 13, the assembly plate member 15, and the support frame body 19 are pushed in the inner wall direction, the support pins 17a and 17b are stepped plate clamps 7 The foot support means 8 is moved by the interval range between the fixed plate member 13 and the assembled plate member 15 while being inserted into the slide.

Next, when the above process is completed, attach the assembly frame 55 and the tread plate 61, and the non-slip member 65 to the support frame 19, remove the safety railing from the hand rail bracket 43 The hand rail and the hand rail support bar 45 are assembled to the hand rail bracket 43.

The system stairs and the construction method using the pin connection structure according to the present invention having such a structure can be used as a temporary staircase grating step plate made of steel during the construction of the building frame.

On the other hand, when framing and internal construction of the building is finished, aluminum finishing materials and stones and various finishing materials can be installed on the grating staircases that are already installed to convert the temporary stairs into permanently usable stairs.

1. Upper tier finisher 3. Lower tier finisher
5. Stringer frame 7. Step plate clamp
9a. Through Hole 11. Grating Support Member
13. Fixed plate 15. Assembly plate
17. Support pin 19. Support frame
21. Reinforcement insert frame 23. Reinforcement
25. Reinforcement plate 27. Extension bar
29. Connecting bar 33. Guide rail
35a. Bolt Hole 37. Orthogonal Plate
39a. Auxiliary Plate 41.Additional Plate
43. Hand Rail Bracket 45. Hand Rail Support Bar
49. Extension Bracket 51. Thread
54. Nut 55. Assembly frame
57. Protrusions 59a. Tension protrusion
61. Tread 63. Fitting groove
65. Non-slip members 67. Fitting projections
69. Unevenness 71. Protrusion

Claims (5)

delete delete delete delete The upper yam finish plate (1) formed in the form of a slope
A lower tier finish plate (3) disposed in a diagonal direction with the upper tier finish plate (1);
Two stringer frames 5 having one end and the other end connected to the upper layer finishing plate 1 and the lower layer finishing plate 3, respectively, installed side by side with another stringer frame 5;
The upper head portion protrudes upward of the stringer frame 5 while being installed on the stringer frame 5 with a predetermined interval therebetween, and two or more through-holes 9a and 9b are provided on the upper side on a horizontal line. Step plate clamp 7;
And foot support means (8) which is connected to the different stringer frame (5) and installed on the step plate clamp 7 facing each other on the same height line,
The foot support means (8) is connected to different stringer frames (5) and the grating support member (11) disposed between the step plate clamps (7) facing each other on the same height line;
Two or more of the two or more through-holes 9a and 9b which are attached to both side surfaces of the grating support member 11 facing the step plate clamp 7 and provided in the step plate clamp 7; A fixed plate member 13 having through holes 9c and 9d;
Two or more penetrations which face the fixing plate 13 with the step plate clamp 7 interposed therebetween to be opposed to the two or more through holes 9a and 9b provided in the step plate clamp 7. Assembly plate material 15 having holes 9e and 9f;
The fixing plate 13 and the assembly plate 15 are fitted into the step plate clamp 7 by being fitted into the through holes 9a to 9f provided in the step plate clamp 7 and the fixing plate 13 and the assembly plate 15. ) And support pins 17a and 17b for connecting the grating support member 11;
And a support frame body 19 that is coupled to the front and rear and right and left sides of the combination consisting of the grating support member 11, the fixed plate member 13, and the assembled plate member 15.
A hand erected in the orthogonal direction of the support frame body 19 on the upper surface of the support frame body 19 coupled to the left or right side of the combination consisting of the grating support member 11, the fixed plate material 13, and the assembly plate material 15. The rail bracket 43 is installed,
The hand rail support bar 45 is connected to the hand rail bracket 43,
The hand rail is connected to the upper end of the hand rail support bar 45,
On the upper end of the support frame 19 is placed an assembly frame 55 smaller than the width of the support frame 19,
The bottom side of the assembly frame 55 is provided with a protruding piece 57 which extends in the direction of the grating support member 11 and comes into contact with the top surface of the support frame 19 and is screwed with the support frame 19.
Tension protrusions 59a and 59b are provided on the bottom of the projecting piece 57 facing the support frame 19 and the bottom of the assembly frame 55 so that the projecting piece 57 and the support frame 19 are screwed together. Prevent screw loosening when
In the inside of the rectangular frame formed by the assembly frame 55 is inserted into the stepping plate 61, the bottom edge is placed on the expansion piece,
The upper edge of the assembly frame 55 facing the tread plate 61 is provided with a recessed fitting groove 63,
A non-slip member (65) bent in the upper edge of the assembly frame (55) to cover the upper surface of the assembly frame (55) and the upper edge of the tread plate (61), the side of the assembly frame (55) and the support frame (19). ),
In the non-slip member (65) facing the fitting groove (63) is provided with a fitting projection (67) which is forcibly fitted in the fitting groove (63).
Reinforcing the bars forming the staircase walls before assembling the concrete in the staircase, and assembling formwork inside and outside the reinforcing bars;
Reinforcement connects the upper layer finishing plate (1) and the lower layer finishing plate (3) to the inner landing position of the staircase, and the stringer frame (5) to the upper layer closing plate (1) and the lower layer closing plate (3) Connecting the;
The foot support means 8 are mounted on the same height line and the step plate clamp 7 connected to one stringer frame 5 and the step plate clamp 7 connected to the other stringer frame 5. Next, allowing the step plate clamp (7) to be fitted between the fixing plate (13) and the assembly plate (15);
The support pins 17a and 17b are inserted into the through holes 9a to 9f provided in the fixing plate 13, the assembly plate 15, and the step plate clamp 7, and then the support pins 17a and 17b. Preventing the fixed plate member 13 and the assembled plate member 15 from being separated;
Pouring concrete inside the formwork, curing the concrete, and removing the formwork installed on the inner and outer walls of the staircase room;
A safety rail is installed on the hand rail bracket 43 to prevent the fall of the workers, and the foot supporting means 8 is pushed toward the inner wall of the staircase so that the grating support member 11, the fixed plate 13, and the assembled plate 15. ), And the support frame 19 to be in close contact with the inner wall in the staircase room;
The assembly frame 55, the tread plate 61, and the non-slip member 65 are attached to the support frame 19, the safety rails are removed from the hand rail bracket 43, and then the hand rail is attached to the hand rail bracket 43. Consists of the steps of assembling,
At both ends of the upper layer finishing plate (1) and the lower layer closing plate (3) is provided with a reinforcement insert frame 21, the longitudinal section is bent in translator shape,
A bar-shaped reinforcing member 23 is inserted into the reinforcing member insertion frame 21 and added to the circumferential surfaces of the upper and lower finishing panels 1 and 3 facing the inner wall of the staircase. Plate 41 is facing each other,
The upper layer finishing plate 1 or the lower layer finishing plate 3 passes through the upper layer finishing plate 1 or the lower layer finishing plate 3 in the orthogonal direction so that the front end and the rear end are the upper layer finishing plate 1 or An extension bar 27 exposed in the front and rear directions of the lower layer finishing plate 3 is mounted,
The front and rear ends of the stringer frame 5 facing the upper and lower finishing panels 1 and 3 are fitted with connection bars 29a and 29b extending side by side to be connected to any one of the connecting bars 29a. And the expansion bar 27 is inserted between the other connection bar 29b,
The connecting bar 29a and 29b to which the extension bar 27 is fitted is pivoted through a fitting shaft so that the connecting bar 29a and 29b is connected to the extension bar 27.
The rear end of the extension bar 27 that does not face the connecting bars 29a and 29b is fitted to the reinforcing bars extending from the inner wall of the staircase room,
A guide rail 33 recessed in the longitudinal direction of the stringer frame 5 is mounted on the upper surface of the stringer frame 5 facing the step plate clamps 7,
Two or more bolt holes 35a are disposed in the guide rail 33 with a predetermined gap therebetween,
An orthogonal plate 37 is installed at a lower end of the step plate clamp 7 facing the stringer frame 5 so as to be bent in the orthogonal direction of the step plate clamp 7 and fitted to the guide rail 33.
The orthogonal plate 37 is provided with a bolt hole 35b facing the bolt hole 35a formed in the guide rail 33 so that the step plate clamp 7 is bolted to the stringer frame 5,
Between the support frame 19 and the assembly plate 15, two or more auxiliary plates 39a and 39b spaced apart from the support frame 19 and the assembly plate 15 at predetermined intervals are provided.
The auxiliary plate (39a, 39b) is equipped with a reinforcing plate 25 penetrating the auxiliary plate (39a, 39b) in a state arranged in the orthogonal direction of the auxiliary plate (39a, 39b),
Expansion brackets 49 extending in the orthogonal direction of the assembly plate 15 and the fixed plate 13 while being disposed in a vertical line with the through holes 9c to 9f on the side surfaces of the assembly plate 15 and the fixed plate 13. Is fitted,
The expansion bracket 49 is provided with bolt insertion holes 50a and 50b into which bolts are inserted, and the bolts inserted into the bolt insertion holes 50a press-fix the circumferential surfaces of the support pins 17a and 17b.
Through-holes 9a and 9b provided in the staircase plate clamp 7 and the top surface of the staircase plate clamp 7 located on a vertical line are formed on the top plate of the staircase plate clamp 7 7 is provided with a bolt insertion hole 50c through the through holes 9a and 9b provided in the step 7, and the bolt 52 fitted into the bolt insertion hole 50c provided in the step plate clamp 7 is provided with a support pin 17a, 17b) pressure holding the circumference,
The front end outer peripheral surface and the rear end outer peripheral surface of the support pins (17a, 17b) is provided with a thread (51) to which the nut 54 is fastened and the support pins (17a, 17b) on the assembly plate 15 and the fixed plate 13 Pin connection structure in which the nut 54 is fastened to the front and rear ends of the support pins 17a and 17b extending out of the assembly plate 15 and the fixed plate 13 when inserted into the through holes 9c to 9f. Construction method of system stairs using

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