JP6706093B2 - Slope scaffolding assembly method - Google Patents

Description

The present invention relates to a method of assembling a scaffold suitable for performing slope construction on a slope of a mountain or a hill, a slope of a roadside, or the like.

Generally, slopes such as slopes of mountains and hills, slopes beside roads, etc., may cause soil and rocks to fall downward due to wind, rain, earthquake, etc. if the ground is unstable. Therefore, in order to prevent this, reinforcement of the ground with concrete etc. to prevent the collapse of soil and sand, or spreading nets on the ground surface to prevent falling rocks, or construction to repair and restore collapsed slopes are carried out. It is being appreciated.
For such construction, for example, as shown in Patent Document 1, a supporting work as a base is built along the slope, a work floor is installed on the supporting work, and a worker walks on the work floor, or this work is performed. Civil engineering machinery, construction materials, jigs, etc. are placed on the floor.
The support scaffolding consisting of this support work and the working floor has many columns upright on the slope, and each column is connected with a cloth material or a reinforcing material to build a foundation, and a horizontal work floor is built on this foundation. It is installed.
That is, at the start of the assembly of the supporting scaffold, for example, as shown in FIG. 22(A), the single pipe support 101 inserted into the jack base 100 is set up on the slope T along the inclination direction and the horizontal direction. and then as shown in FIG. 22 (B), insert the wedge 104 provided in Nunozai 102 perforated flange 103 provided on each jack base 100 and single tube struts 101, in this fabric member 102 and the jack base 100 respectively The single-pipe stanchions 101 and the single-pipe stanchions 101 are connected to each other to assemble the stanchions to be the base.
Then, based on this state, other single-pipe struts 101 are sequentially coupled along the tilt direction and the horizontal direction to build a base, and then the other single-pipe struts 101 are mounted on each single-pipe stanchion 101 to be the base. This is to assemble a tower-like scaffolding support scaffold by connecting them sequentially upward.

JP 2006-176951 A (see paragraphs 0002 and 0003 in FIGS. 1 and 2)

The above conventional slope scaffolding assembly method is not particularly defective in structure, but has the following problems.
That is, in the method of assembling the scaffold shown in FIGS. 22(A) and 22(B), the single-pipe stanchions 101 are erected one by one on the slope T, so there is a risk that they may fall. Therefore, since it is necessary for an operator to support the single pipe support 101, not only an operator for that purpose is required, but also the work is troublesome, the work speed becomes slow, and the work efficiency becomes poor.
Further, since this work is performed on the sloped slope T, the worker's assembling work is unstable, and it takes time to determine the level when the single pipe support columns 101 are coupled, and the single pipe support columns 101 are swung around. It is also dangerous and its improvement is desired.
Therefore, an object of the present invention is to provide a method of assembling a scaffold on a slope, in which the operator does not have to support the supporting pillar as a base, the operation is safe, and the assembling work can be speeded up.

To achieve the object, means of the present invention, the upper side and lower side a pair of portal frames, and a freely bridging the pair of left and right side frame removably between each portal frame stereoscopic shape the basic foundation frame is raised to any position slope, sequentially connecting the one or more tilt directions of the base frame along a Hoshiri direction or Hokata direction from the base foundation frame around the above-mentioned basic foundation frame Further, one or a plurality of horizontal base frames are sequentially connected from the basic base frame and the base frames in the respective tilt directions in the horizontal direction. Similarly, the means of the present invention uses a three-dimensional basic base frame composed of a pair of upper and lower gate-type frames and a pair of left and right side frames detachably installed between the respective gate-type frames as a slope. is raised to any position, around the said basic foundation frame sequentially connecting the one or more tilt directions of the base frame along a Hoshiri direction or Hokata direction from the base foundation frame, further the basic foundation frame And one or more horizontal base frames are sequentially connected from the base frames in the respective tilt directions in the horizontal direction, and then one of the basic base frame, the base frame in the tilt direction, and the horizontal base frame is connected. A vertical column is erected on a part or all of the parts, and a cloth or a reinforcing material is connected between the vertical columns that face each other. In each of these means, it is preferable that the basic base frame is erected at a corner of the shoulder and one or a plurality of base frames in the inclined direction are connected from the basic base frame to the slope bottom.
Similarly, the basic base frame may be erected at the corner of the slope, and one or a plurality of base frames in the tilt direction may be connected from the basic base frame to the shoulder.

According to the invention of each claim, a three-dimensional basic base frame composed of a pair of upper and lower gate-shaped frames and a pair of left and right side frames detachably installed between the respective gate-shaped frames is sloped. Since it is erected at any position, the basic foundation frame is stably fixed in advance on the slope as a foundation for supporting work.
Therefore, even if the operator does not have to support the frames that make up this basic base frame one by one, it is possible to easily connect the other base frames in the tilt direction and the horizontal base frame. Not only is it unnecessary, but even a small number of people can speed up scaffolding assembly work and improve work efficiency.
In particular, it is possible to easily set the level and position of the gate-shaped frame and side frames that form the base frame in the other tilting and horizontal directions with respect to the basic base frame, and to configure the single columns and frames that form these. Since you do not swing around, you can work safely.

FIG. 3A is a side view showing a first step of erecting the basic base frame on the slope. B) It is a perspective view showing a state in which the base frame in the inclination direction is connected to the basic base frame. A), B), C), and D) are perspective views showing the steps of assembling the basic base frame, the base frame in the inclined direction, and the base frame in the horizontal direction from the shoulder to the tail. A), B), C), and D) are perspective views according to one embodiment showing a step of assembling a basic base frame, a base frame in a tilt direction, and a base frame in a horizontal direction from a buttock to a shoulder. .. A), B), C), and D) are perspective views according to another embodiment showing the steps of assembling the basic base frame, the tilting base frame, and the horizontal base frame from the tail to the shoulder. is there. A) It is a plan view showing an assembling process in which a base frame in a tilt direction is connected from a base base frame to a buttock direction, and a base frame in a horizontal direction is connected to a base frame and a base frame in a tilt direction. B) A side view showing an assembling process in which a base frame in an inclined direction is connected from the basic base frame toward the buttock direction, and vertical columns, cloth, and a reinforcing member are erected on these base frames in the buttock direction. .. FIG. 9A is a plan view showing an assembly process in which a base frame in a tilt direction is connected from the basic base frame to a shoulder direction, and a horizontal base frame is connected to the base base frame and a base frame in an inclined direction. B) It is a side view showing an assembling process in which base frames in a slanting direction are connected from the basic base frame to the shoulder direction, and vertical columns, fabrics, and reinforcing materials are directed to the base frames in the shoulder direction. FIG. 3 is a perspective view of a base frame and a base frame connected to the base frame in an inclined direction. It is a perspective view of a basic foundation frame. It is a top view of a basic foundation frame. It is a side view of FIG. It is a perspective view of the base frame of an inclination direction. It is a top view of the base frame of an inclination direction. It is a side view of FIG. A) It is a plan view of a side frame. B) It is a side view of a side frame. A) It is a side view of the flange attached to the column and the downward facing support piece. B) It is the same front view. C) It is the same plan view . A) It is a side view of the flange attached to the column and the support piece facing upward. B) It is the same front view. C) It is the same plan view. It is a side view of a wedge and a connection piece. A) It is a side view of the side frame of the base frame in the inclined direction in a shortened state. B) It is a side view of the intermediate extension state of the side frame in the base frame in the inclination direction. C ) It is a side view of the side frame in the most extended state in the base frame in the tilt direction. It is a side view of a wedge and a connecting piece concerning other embodiments. A) It is a side view of a shortened state of a side frame according to another embodiment of the base frame in the inclined direction. B) It is a side view of the intermediate frame of the side frame of the base frame in the inclined direction in an intermediately extended state. C ) It is a side view of the same side frame of the base frame in the inclined direction in the most extended state. It is an expansion side view of a stop pin. A) It is a side view which shows the conventional process which erects the pillar for basic foundations on the slope first. B) It is a side view which shows the conventional process which connects the support|pillar for the base in the inclination direction to the support|pillar for the base.

An embodiment of the present invention will be described below with reference to the drawings.

The present invention, as is well known, works on slopes such as slopes of mountains and hills, slopes of roadsides, etc., for example, reinforcing the ground with concrete etc. to prevent collapse of earth and sand, or spreading nets on the ground surface. The present invention relates to a method of assembling a scaffold which is applied to a construction for preventing falling rocks or repairing and restoring a broken slope.

A scaffolding for a slope according to an example of implementation of the present invention is, as shown in FIG. 5(A), (B) or FIG. 6(A), (B), a basic base frame 6 and a basic base frame 6 a plurality of base frames tilt direction continuously connected along the inclined direction E1, E2, E3 ··· En and horizontal from the basic foundation frame 6 and the inclined direction of the base frame E1, E2, E3 · ·· En and horizontal base frame F1, F2, F3 · · · Fn connected along a支保Engineering of vertical struts G or the like connected to the base frame 6, E1, on F1, work placed on the vertical struts G Composed of floor and floor.

The present invention is characterized in particular the basic foundation frame 6, and the base frame E1, E2, E3 · ·· En of the inclined direction, the horizontal direction of the base frame F1, F2, F3 ··· Fn assembling method There is.

The basic steps of assembling the scaffold of the present invention are as follows.

That is, as shown in FIG. 1A, an operator assembles the basic base frame 6 at an arbitrary position of the slope T, for example, a corner of the shoulder or a corner of the slope, and stands and fixes it.

Then, for example, as shown in FIG. 1 (B), the basic the basic foundation frame 6 base frame inclination direction from E1, E2, and E3 · · · En linked and fixed along the inclined direction, then these is intended to secure the base frame 6 and the inclined direction of the base frame E1, E2, E3 · ·· En horizontal base frame F1, F2, F3 · ·· Fn coupled along the horizontal direction.

As shown in FIGS. 2A, 2B, 2C, 5D, and 5A, 5B, a scaffold assembly method according to an embodiment of the present invention has a slope T. the advance upright basic foundation frame 6 in a corner in Hokata X, other inclination direction of the base frame E1, E2, E3 · · toward the basic foundation frame 6 in the law hips and horizontally in the center · En and horizontal base frame F1, F2, is to connect the F3 · · · Fn.

That is, as shown in FIG. 2(A), first, the basic base frame 6 is erected at the corner of the shoulder X via the jack base 7.

Next, as shown in FIG. 2B, the jack base 7 is erected on the slope T, and the base frame E1 in the inclined direction inserted into the jack base 7 is inserted into the base base frame 6 via the side frames D1 and D2. 2C, and then, as shown in FIG. 2(C), the base frames E2, E3... En in the other tilt directions are sequentially connected in the Y direction.

Then, as shown in FIG. 2(D), the basic base frame 6 and the base frames E1, E2 , E3 ... En in the respective tilt directions are connected to the base frames F1, F2 , F3 ... Fn in the horizontal direction.

In this case, the horizontal base frames F1, F2 , F3 ... Fn are composed of, for example, a column having a porous flange and a horizontal single pipe connected to the flange via a wedge or a bracket.

FIG. 3 shows an assembling method of a slope scaffold according to another embodiment of the present invention.

This embodiment is the basic foundation frame 6 in a corner of Hoshiri Y leave standing through the jack base 7, modulo base frame E1, E2, E3 · ·· En inclined direction to the basic foundation frame 6 It connects along the shoulder X direction.

In short, the embodiment of FIG. 3 is such that the connecting direction of each base frame is opposite to that of the embodiment of FIG.

Therefore, the components of the scaffold are the same. The difference is, FIG. 2, as can be seen from FIG. 3, only the base frame E1, E2, E3 · ·· En orientation of the inclined direction is upside down.

FIG. 4 relates to another embodiment of the present invention, in which the basic base frame 6 is erected at the corner of the buttock Y, and above the basic base frame 6 is the same structure as the basic base frame 6 in the inclination direction. The base frames E1, E2 , E3 ... En are sequentially connected along the inclination direction.

That is, as shown in FIG. 4(A), first, the basic base frame 6 is erected at the corner of the slope Y through the jack base 7.

Next, as shown in FIG. 4B, the jack base 7 is erected on the slope T at an upper position facing the basic base frame 6 . Next, the pillars 1 of the tilting base frame E1 are respectively inserted into the jack base 7 and the pillars 1 of the basic base frame 6, and the tilting base frames E1, E2 , E3, ... To connect to.

Next, as shown in FIG. 4(D), the basic base frame 6 and the base frames E1, E2 , E3, ... En in the respective inclination directions are connected to the base frames F1, F2 , F3 ,.

In this case, the basic base frame 6 is provided on the slope Y side, but it may be provided on the shoulder X side as shown in FIG.

Further, an embodiment of the present invention will be described in detail.

The scaffold assembly method according to the embodiment shown in FIGS. 5A and 5B corresponds to the step of FIG.

This is a pair of gate-shaped frames A and B on the upper side of the shoulder X and a lower side of the tail Y, and a pair of left and right side frames C detachably installed between the gate-shaped frames A and B. A step of erecting a three-dimensional basic base frame 6 composed of D at the corner of the shoulder X of the slope T, and one from the basic base frame 6 along the direction of the slope Y from the basic base frame 6 or more tilt directions of the base frame E1, E2, E3 · · · a step of En sequentially connecting the further horizontal direction from the base foundation frame 6 and the base frame of the inclined directions E1, E2, E3 · · · En it is made of a sequential coupling to process one or more horizontal base frame F1, F2, F3 · ·· Fn along.

A scaffold assembly method according to another embodiment shown in FIGS. 6A and 6B corresponds to the step shown in FIG.

This is a pair of gate-shaped frames A and B on the upper side of the shoulder X and a lower side of the tail Y, and a pair of left and right side frames C detachably installed between the gate-shaped frames A and B. A step of standing a three-dimensional basic base frame 6 composed of D at the corner of the slope Y of the slope T, and one step along the normal shoulder X direction from the basic base frame 6 with the basic base frame 6 as the center or more tilt directions of the base frame E1, E2, E3 · · · a step of En sequentially connecting the further horizontal direction from the base foundation frame 6 and the base frame of the inclined directions E1, E2, E3 · · · En it is made of a sequential coupling to process one or more horizontal base frame F1, F2, F3 · ·· Fn along.

Further, in each of the above-described embodiments, as shown in FIGS. 5B and 6B, the basic base frame 6 and the base frames E1, E2, E3,... The vertical columns G are erected on some or all of the horizontal base frames F1, F2, F3,... Fn , and then the horizontal fabric J and diagonal diagonal members between the vertical columns G, G facing each other. Supporting work is constructed by connecting other reinforcing materials K made of braces.

As is well known, a work floor for work is laid on a support, and a worker walks on the work floor, or a work machine or equipment is placed on the work floor.

The basic base frame 6 is, as shown in FIGS. 7 to 11, between the gate-shaped frame A on the upper shoulder side which is the shoulder side and the lower-side gate-shaped frame B which is the shoulder side, and between each of the gate-shaped frames A and B. It is composed of a pair of left and right side frames C and D which are detachably installed.

Foundation frame E1, E2, E3 · ·· En of the inclined direction, like FIG. 7, as shown in FIGS. 11 to 13, and the portal frame H the lower side, provided on both sides of the portal frame H It is composed of a basic foundation frame 6 a pair of right and left side frames extending in a direction D1, D1.

In the case of the embodiment shown in FIG. 5, the upper first base frame E1 in the inclined direction is connected to the gate-shaped frame B of the upper basic base frame 6 via side frames C and D. The base frame E2 in the second and subsequent inclining directions is sequentially connected to the upper base frame E1, the base frame E3 in the third inclining direction is sequentially connected to the base frame E2 in the second inclining direction, and so on. Is repeatedly connected.

On the other hand, in the case of the embodiment of FIG. 6, the lower first base frame E1 in the tilt direction is connected to the lower base frame 6 and the second base frame E2 in the tilt direction is E2. It is connected to the base frame E1 in the first sloping direction.

The basic base frame 6 and the base frames E1, E2 , E3 ... En in the inclined direction are formed in the same structure.

In other words, the base frames E1, E2 , E3 ... En in the tilt direction have the same structure as the basic base frame 6 shown in FIG.

Then, the upper and lower struts 1 and 1 of the base frame E1 in the first sloping direction are respectively inserted into the stanchions of the basic base frame 6 and the jack base 7 on the upper tier side.

Thus, standoff 1 and below the inclined direction of the base frame E2 of the second stage, 1 is inserted into the jack base 7 erected in post 1 and the upper side of the base frame E1 of the inclination direction of the lower.

A portal frame A, B in the basic foundation frame 6, portal frame H of the base frame E1, E2, E3 · ·· En tilt direction, as shown in FIG. 7, a pair of left and right jack base 7,7 top The columns 1 and 1 are inserted into and removed from the column 1 and the horizontal member 2 is installed between the columns 1 and 1.

Each of the side frames C and D of the basic base frame 6 has an outer tube 3A, an inner tube 3B elastically inserted into the outer tube 3A, and an outer tube 3A as shown in FIGS. It is composed of a first bracket 4 provided at the tip and a second bracket 5 provided at the base end of the inner tube 3B.

The brackets 4 and 5 are formed of bifurcated support pieces 4A and 5A, respectively. The outer tube 3A and the inner tube 3B are provided with holes 4B and 5B, respectively, and the support pieces 4A and 5A are also provided with holes 4C. 4D, 5C and 5D are provided respectively.

The pin 16 shown in FIG. 21 is inserted into any of the holes 4B and 5B, and the lengths of the side frames C and D are adjusted according to the insertion position of the pin 16.

The holes 4C, 4D, 5C and 5D connect the side frames C and D to the columns 1 of the portal frames A and B, respectively.
That is, the flanges 10 having a plurality of locking holes 11 formed in the circumferential direction are provided on the outer circumference of the pillars 1 in the upper and lower gate type frames A and B of the basic base frame 6, respectively.
Further, support pieces 8 and 9 are attached to the flanges 10 of the gate frames A and B, respectively, and the first and second brackets 4 and 5 are rotatably and pivotally attached to the support pieces 8 and 9, respectively. .
As shown in FIG. 15, one support piece 8 includes a horizontal piece 8a, a downward fan-shaped ear piece 8b integrally extending from the horizontal piece 8a, a hole 8d formed in the horizontal piece 8a, and a fan-shaped ear piece 8b. It is composed of a plurality of locking holes 8c formed along the clockwise direction.
Similarly, as shown in FIG. 16, the other support piece 9 includes a horizontal piece 9a, an upward fan-shaped ear piece 9b extending integrally from the horizontal piece 9a, a hole 9d formed in the horizontal piece 9a, and a fan-shaped ear piece. It is composed of a plurality of locking holes 9c formed in the piece 9b along the counterclockwise direction.
Then , as shown in FIGS. 9 and 10, the bracket 4 in the side frames C and D is inserted into the holes 4C and 8d, and the bracket 5 is inserted into the holes 5C and 9d via pins 14 and 15 as shafts. It is rotatably supported on the support pieces 8 and 9.
Further, the upper pin 16 is inserted into the hole 4D and the locking hole 8c, and the lower pin 16 is also inserted into the hole 5D and the locking hole 9c.
In this case, for example, as shown in FIGS. 1 and 2, since the gate-shaped frame B on the lower side is located below the inclined surface with respect to the gate-shaped frame A on the upper side, the side frames C and D are inclined. .
Therefore, the upper pin 16 is inserted into any one of the lower locking holes 8c among the plurality of locking holes 8c, and the lower pin 16 is inclined among the plurality of locking holes 9c. Depending on the angle, it is inserted into any one of the upper locking holes 9c to fix the angles of the side frames C and D.
Next, the side frames D1, D1 of the base frames E1, E2, E3,... En in the tilt direction will be described. These are the outer tube 3A and the outer tube as shown in FIGS. 7 and 11 to 13. Of the inner tube 3B that is elastically inserted into 3A, the first bracket 4 that is provided at the tip of the outer tube 3A, the second bracket 5 that is provided at the base end of the inner tube 3B, and the first bracket 4 It is composed of a connecting piece 18 pivotally attached to the end via a pin 14, and a wedge 12 attached to the connecting piece 18.
Circle as the upper side and lower side gantry frame A, the outer circumference of the post 1 in the portal frame H of the base frame E1, E2, E3 · ·· En strut 1 and the inclination direction of B of the basic foundation frame 6 above Each of the flanges 10 is provided with a plurality of locking holes 17 formed along the circumferential direction.
An upward support piece 9 is attached to the flange 10 of the portal frame H in the base frames E1, E2, E3, ... En in the inclined direction, and the second bracket 5 is rotatably pivotally attached to the support piece 9. It is, and the wedge 12 is fitted in the locking hole 17 of the flange 10 of the lower side gate-shaped frame B.
As shown in FIG. 17, the wedge 12 comprises a socket 12B connected to a connecting piece 18 and a wedge piece 12A inserted into the socket 12B, and a split groove 12C is formed in the socket 12B along the horizontal direction.
A plurality of locking holes 18A on the outer peripheral side and a hole 18B on the base end side are formed in the connecting piece 18, and the pin 16 is selectively inserted into one of the locking holes 18A and the pin 14 is inserted into the hole 18B. I am trying to insert.

Then, the split groove 12C of the socket 12B is fitted to the flange 10, and the wedge piece 12A is press-fitted from this socket 12B into the locking hole 17 of the flange 10 so that the side frame D1 is coupled to the flange 10 located on the upper stage side. It has become.
Incidentally, as shown in FIG. 2, the portal frame H of the lower side in accordance with the angle of the inclination direction of the base frame E1, E2, E3 · ·· En sequentially Hoshiri Y when placed in the direction slope T The height of the column 1 varies, and it is necessary to adjust the length and angle of the side frame D1.
Therefore, as shown in FIGS. 18A, 18B, and 18C, the side frame D1 is extended according to the height of the lower column 1.
At the same time, the hole 4D of the bracket 4 is aligned with any one locking hole 18A of the connecting piece 18, and the hole 5C of the bracket 5 is also aligned with any one hole 9C of the supporting piece 9, Pins 16 are inserted into the holes to adjust the length and angle of the side frame D1.
19 and 20 show another embodiment of the wedge 12 and the side frame D1 of the base frames E1, E2, E3... En in the inclined direction according to another embodiment of the present invention.
These wedges 12, the side frame D1, as in the embodiment shown in FIG. 3, and standing the basic foundation frame 6 in Hoshiri Y side, which on the base frame of the tilt directions E1, E2, and E3 · · · En Although it is suitable for use in the case of sequentially connecting in the direction of the shoulder X, it goes without saying that it can also be used in the embodiment of FIG.
As shown in FIGS. 11 to 13, the side frame D1 includes an outer tube 3A, an inner tube 3B elastically inserted into the outer tube 3A, and a first bracket 4 provided at the tip of the outer tube 3A. The second bracket 5 provided at the base end of the inner tube 3B, the connecting piece 18 pivotally attached to the end of the first bracket 4 via a pin, and the wedge 12 attached to the connecting piece 18. It is configured.
Circle as the upper side and lower side gantry frame A, the outer circumference of the post 1 in the portal frame H of the base frame E1, E2, E3 · ·· En strut 1 and the inclination direction of B of the basic foundation frame 6 above The flanges 10 each having a plurality of locking holes 17 are provided along the circumferential direction.
As shown in FIG. 19, the wedge 12 includes a socket 12B connected to a fan-shaped connecting piece 18 and a wedge piece 12A inserted into the socket 12B. The socket 12B has a split groove 12C formed in the horizontal direction. There is.
A plurality of locking holes 18A on the outer peripheral side and a hole 18B on the base end side are formed in the connecting piece 18, and the pin 16 is selectively inserted into one of the locking holes 18A and the pin 14 is inserted into the hole 18B. I am trying to insert.
The locking holes 18A are formed in a larger number in the circumferential direction than the locking holes 18A shown in FIGS.
Similarly, the support piece 9 is also formed in a fan shape, and a plurality of locking holes 9C formed in the support piece 9 are also formed in the circumferential direction as compared with the locking hole 9C shown in FIG.

In the wedge 12, the split groove 12C of the socket 12B is fitted into the flange 10, and the wedge piece 12A is press-fitted from the socket 12B into the locking hole 17 of the flange 10 to move the side frame D1 to the flange 10 located on the lower stage side. It is designed to be combined.
As shown in FIG. 3, the struts in the upper portal frame H in accordance with the angle of the inclination direction of the base frame E1, E2, E3 · ·· En the placing toward sequentially law shoulder X-direction when the slope T The height of No. 1 varies, and it is necessary to adjust the length and angle of the side frame D1.
Therefore, as shown in FIGS. 18A, 18B, and 18C, the side frame D1 is extended in accordance with the height of the upper column 1.
At the same time, the hole 4D of the bracket 4 is aligned with any one locking hole 18A of the connecting piece 18, and the hole 5C of the bracket 5 is also aligned with any one hole 9C of the supporting piece 9, Pins 16 are inserted into the holes to adjust the length and angle of the side frame D1.
As shown in FIG. 21, the pin 16 is an L-shaped pin body 16B coupled to a chain 16A, and a head having a proximal end rotatably supported by a shaft 16D in a split groove 16E formed in the pin body 16B. 16C, the chain 16A is bonded to the side frames C, D, and D1 respectively, and the head 16C is inserted into the hole 4C or the like.

A, B, H gantry frame C, D, D1 side frames E1, E2, E3 ·· · En inclined direction of the base frame F1, F2, F 3 ·· · Fn horizontal base frame G longitudinal struts J fabric K Reinforcement material
T slope
X method shoulder
Y Hojiri 1 Support post 2 Horizontal member 3A Outer tube 3B Inner tube 4 First bracket 5 Second bracket 6 Basic base frame 7 Jack base 8, 9 Support piece 10 Flange 12 Wedge 16 pin
17 Locking hole 18 Connecting piece

Claims (11)

A pair of upper and lower gate-type frames (A) and (B), and a pair of left and right side frames (C) and (D) detachably installed between the gate-type frames (A) and (B). Stand up the three-dimensional basic base frame (6) consisting of and at any position on the slope (T) ,
The basic foundation frame (6) along the Hoshiri direction or Hokata direction from the base foundation frame (6) around the one or more tilt directions of the base frame (E1), (E2), (E3) · ... the (En) sequentially connected,
Furthermore the basic foundation frame (6) and the respective tilt directions of the base frame (E1), (E2), (E3) · one from · · (En) along a horizontal direction or a plurality of horizontal foundation frame ( F1), (F2), ( F3) · ·· (Fn) sequentially scaffolding method of assembling a slope which comprises ligating a. A pair of upper and lower gate-type frames (A) and (B), and a pair of left and right side frames (C) and (D) detachably installed between the gate-type frames (A) and (B). Stand up the three-dimensional basic base frame (6) consisting of and at any position on the slope (T) ,
The basic foundation frame (6) along the Hoshiri direction or Hokata direction from the base foundation frame (6) around the one or more tilt directions of the base frame (E1), (E2), (E3) · ... the (En) sequentially connected,
Furthermore the basic foundation frame (6) and the respective tilt directions of the base frame (E1), (E2), (E3) · one from · · (En) along a horizontal direction or a plurality of horizontal foundation frame ( F1), (F2), sequentially connecting the (F3) · ·· (Fn) ,
Next, the basic base frame (6) and the base frames (E1), (E2), (E3)... (En) in the inclined direction and the horizontal base frames (F1), (F2), (F3). ... Vertical columns (G) are erected on a part or all of (Fn) ,
A method of assembling a scaffold on a slope, further comprising connecting a fabric (J) and a reinforcing material (K) between the vertical columns (G) and (G) facing each other. The basic foundation frame (6) Hokata is erected at the corners of the (X), the base frame (E1) of the inclined direction from the basic foundation frame (6) in Hoshiri (Y), (E2), ( E3) ... (En) is connected one or more, The scaffolding assembling method of the slope according to claim 1 or 2 characterized by things. The basic foundation frame (6) Hoshiri is erected at the corners of the (Y), the base frame (E1) of the inclined direction from the basic foundation frame (6) in Hokata (X), (E2), ( E3) · · · (scaffolding assembly method of slope according to claim 1 or 2, characterized in that to one or more connecting En). Upper Symbol inclined direction of the base frame (E1), (E2), (E3) · ·· (En) includes a portal frame (H), the gantry frame pair of which are provided on both sides of (H) side frames (D1), it is constructed out with (D1)
The scaffolding assembling method of the slope according to claim 1, 2, 3, or 4. Upper Symbol inclined direction of the base frame (E1), (E2), (E3) ··· a (En), the said gantry frame of the basic foundation frame (6) (A), Law shoulder against (B) A pair of upper and lower gate frames (A) and (B) arranged along the direction, and a pair of left and right side frames detachably installed between the gate frames (A) and (B). (C), (D) and de-configuration to leave the molding in the same structure as the basic foundation frame (6), the inclined direction is disposed on the upper side base frame (E2), (E3) · · - below the gantry frame (En) (B) the basic foundation frame a is disposed on the lower side (6) or the inclination direction of the base frame (E1), (E2), (E3) ·· · The scaffolding assembling method according to claim 1, 2, 3 or 4, wherein the scaffolding assembly is inserted into the gate-shaped frame (A) above (En) to connect the two. Each portal frame (A), and (B), (H) a pair of jacks base (7), inserted and removed freely inserted post on (7) (1), (1), each strut ( 1), composed of a horizontal member (2) installed between (1)
The scaffolding assembling method for a slope as claimed in claim 5 or 6, characterized in that . Said each side frame of the basic foundation frame (6) (C), (D) and the and the outer tube (3A), an inner tube with a telescopically inserted into the outer tube (3A) (3B), the outer tube It is composed of a first bracket (4) provided at the tip of (3A) and a second bracket (5) provided at the base of the inner tube (3B).
The scaffolding assembling method for a slope as claimed in claim 5, 6, or 7. Upper side and lower side gantry frame (A), a flange formed to the outer periphery of the support post (1) in (B) along the circumferential direction a plurality of locking holes (17) of the basic foundation frame (6) ( provided 10) respectively, said gantry frame (a), fitted with (respectively support piece to the flange (10) of B) (8), (9), each support piece (8), respectively (9) The first and second brackets (4) and (5) are rotatably pivotally attached.
The method for assembling a scaffold on a slope according to claim 8, which is dependent on claim 7. The inclination direction of the base frame (E1), (E2), (E3) the side frames · · · (En) (D1), the (D1) and outer tube (3A), to the outer tube (3A) in An inner tube (3B) inserted in a stretchable manner, a first bracket (4) provided at the tip of the outer tube (3A), and a second bracket (5) provided at the base end of the inner tube (3B). ), a connecting piece (18) pivotally attached to the end of the first bracket (4), and a wedge (12) attached to the connecting piece (18).
The method for assembling a scaffold on a slope according to claim 5 , wherein. Each of the gate-shaped frames (A), (B), (H) has a pair of left and right columns (1), (1), and a plurality of columns along the circumferential direction on the outer periphery of each column (1). A flange (10) having a locking hole (17) formed therein,
The inclination direction of the base frame (E1), fitted with (E2), (E3) · · · the flange (10) in an upward fan-shaped support piece of the gantry frame (H) in (En) (9),
The second bracket (5) is rotatably and pivotally attached to the support piece (9),
Said wedge (12) is fitted into the locking hole (17) of the flange (10) of the lower side gantry frame of the basic foundation frame (6) (B)
The method for assembling a scaffold on a slope according to claim 10, wherein.