JP2005171703A - Suspended scaffolding - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a suspended scaffolding installable in a short time, and easy in removal after work, without requiring to drive an anchor in a beam, a floor and a balustrade of an elevated spot. <P>SOLUTION: A substantially U-shaped main frame 2, a substantially L-shaped sub-frame 3 and a wall butting material 13 installed in the main frame 2, are respectively arranged in a plurality, and in a state of juxtaposing the sub-frame 3 at a predetermined pitch on a horizontal part 22 inside of the balustrade 5 of the elevated spot, the sub-frame 3 is fixed on a horizontal part by loading a sub-frame fixing weight G over a horizontal underframe 12 of the respective sub-frames 3. A plurality of main frames 2 are integrally connected at a predetermined pitch by a connecting frame 15. The respective main frames 2 are connected to the respective sub-frames 3 from the outside of the balustrade 5. A tip part of the wall butting material 13 installed in an uplifting frame 9, is allowed to abut on a vertical wall surface 4a of the elevated spot. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a suspension scaffold used for work such as repair and inspection on roads and railway viaducts, river bridges, condominium verandas, and the like.

  In the past, suspension scaffolds have been used because, when repairs and inspections such as viaducts are performed, scaffolding from the ground will hinder traffic under the girders. As this suspension scaffold, a structure in which a rope is attached to a panel, a lifting device is installed on a viaduct floor slab, and the panel is lifted with a rope is often used (for example, Patent Document 1). To show).

  However, the use of the suspension scaffold as described above requires a lifting device, which is expensive, and the panel as the scaffold is likely to sway due to wind pressure or the shift of the worker, which hinders stable work. Instead of the above suspended scaffold, a suspended scaffold 54 as shown in FIG. 8 is used.

  In FIG. 8, 51 is a viaduct beam, 52 is a floor slab, and 53 is a balustrade. The suspension scaffold 54 has a plurality of steel pipes arranged vertically at required intervals to form a vertical frame 55, and a plurality of handrail pipes 56 are vertically fixed in parallel to the vertical frame 55, and vertically above each vertical frame 55. An upper horizontal frame 57 is provided at a right angle to the frame 55, and a holding portion for holding the front end portion of the rail 53 is formed by two pipes 58 and 58 at the front end portion of the upper horizontal frame 57. A lower horizontal frame 59 is provided at the lower end of 55, and a rising frame 60 that rises at the tip is attached.

  In using the suspension scaffold 54, the pipes 58, 58 forming the clamping part are used to hold the upper end of the rail 53, and the chain 62 is attached to the anchor 61 with a ring which is inserted into the bottom surface of the floor slab 52 with a hole. The other end is fixed to both ends of the lower horizontal frame 59 or the lower end of the vertical frame 55 and the rising frame 60, and the lower horizontal frame 59 or the vertical frame 55 and the rising frame 60 are suspended by this chain 62. 8 is a U-shape in a side view as shown in FIG. 8, and a hanging metal fitting 64 provided with a flange 63 on one opening edge of the U-shape, and the tip of the rail 53 with the flange 63 facing the outside of the rail 53. One end of the chain 62 is locked to the flange 63, and the other end is locked to the lower end of the vertical frame 55 or one end of the lower horizontal frame 59. The horizontal frame 59 is suspended.

In addition, a plurality of pipes 65 are horizontally mounted on the pipes 56 and 56 provided at the lower end of the vertical frame 55 and the lower end of the rising frame 60, and a scaffolding plate 66 is disposed thereon so that an operator can walk. It is a thing.
JP-A-11-293628

  In the conventional suspension scaffold 54, a hole is made in the beam 1 or the floor slab 2 and the anchor 61 with a ring is attached, so that there is a risk that the beam 1 or the floor slab 2, which is very important in a viaduct, is damaged and weakened. Further, since the railing bracket 64 is put on the tip of the railing 53, it is impossible to spray the railing 53 on the portion covered with the railing bracket 64 by painting or paint spraying work. After the work around is finished, it is necessary to shift the position of the balustrade hanging bracket 64 and perform the painting and paint spraying work at the Seto position, which is inefficient. Furthermore, since the chain 62 is stretched between the flange 63 of the railing metal fitting 64 and the lower end of the vertical frame 55 or the end of the lower horizontal frame 59, it obstructs the passage of the operator.

  In view of the above-mentioned problems, the present invention eliminates the need to drive anchors or the like to beams, floors, or railings when installing a suspension scaffold on an elevated structure, and can be easily installed in a short time. The purpose is to provide a suspension scaffold that can be easily removed.

  Means for solving the above problems will be described with reference numerals in the embodiments described later. The suspended scaffold 1 of the invention according to claim 1 is erected at the vertical frame 6, the upper horizontal frame 7, and the tip. A main frame 2 formed in a substantially U shape by a lower horizontal frame 8 having a frame 9, a hanging frame 11 that is detachably connected to the distal end side of the upper horizontal frame 7 of the main frame 2, and the hanging frame A plurality of sub-frames 3 formed in a substantially L shape by a horizontal underframe 12 projecting horizontally from a lower end of the main body 11 and a wall pad 13 attached to the vertical frame 6 of the main frame 2. A subframe fixing weight G having a predetermined weight is loaded across the horizontal frame 12 of each subframe 3 in a state where the subframes 3 are juxtaposed at a predetermined pitch on the horizontal portion 22 inside the rail 5 such as a viaduct. To subframe 3 The main frame 2 is fixed on the horizontal portion, the plurality of main frames 2 are integrally connected to each other by a connecting frame 15 at a predetermined pitch, and each main frame 2 is connected to each sub-frame 3 from the outside of the rail 5 to each main frame 2. A scaffold plate 19 is laid across the lower horizontal frame 8 of the frame 2, and the tip of the wall pad 13 attached to the rising frame 9 is brought into contact with a vertical wall surface 4a such as a viaduct. To do.

  In the suspension scaffold according to claim 1, the weight G for fixing the subframe is a weight 23 composed of a plurality of structural steel pieces 23a of unit weights that are detachably connected to each other. It is fixed to each horizontal frame 12.

  Claim 3 is the suspension scaffold according to claim 1 or 2, wherein the weight G for fixing the subframe is composed of a plurality of section steel pieces 23a of unit weights that are detachably connected to each other. It is characterized by comprising a weight 23 fixed to the horizontal frame 12 and a weight 24 composed of a plurality of sandbags 24a of unit weight placed on the weight 23.

  According to a fourth aspect of the present invention, in the suspension scaffold according to any one of the first to third aspects, a scaffolding board spanning bracket 18 is attached to a middle part of the vertical frame 6 of the main frame 2, and a scaffolding board 20 is spanned over the bracketing board 20. It is characterized by becoming.

  A fifth aspect of the present invention is the suspension scaffold according to any one of the first to fourth aspects, wherein a handrail frame 17 is attached over the upper end portion of the rising frame 9 of each main frame 2.

  In the suspension scaffold according to any one of claims 1 to 5, a hanging piece 10 is provided at the tip of the upper horizontal frame 7 of each main frame 2, and the hanging piece 10 is the subframe 3. It is characterized in that it is detachably connected to the upper end of the hanging frame 11.

  The effect of the invention by the above-described solution means will be described with reference numerals of the embodiments described later. According to the invention according to claim 1, when the suspension scaffold 1 is installed on an overhead or the like, it is like a conventional suspension scaffold. Since there is no need to drive anchors, etc. into the beam 4 or the floor slab 14 or the balustrade 5 at the top, there is no need for marking work, drilling work, hole filling work after anchoring, etc. The installation work of the scaffold 1 can be performed easily and easily in a short time. In addition, since an anchor or the like is not required to be driven, the beam 4 such as the overhead, the floor slab 14 and the rail 5 are not damaged, and therefore the strength thereof is not weakened. Further, according to the weight type suspension scaffold 1 of the present invention, no load is directly applied to the rail 5 such as the overhead, so even if the rail 5 is not reinforced concrete but consists of a mere concrete wall, it follows the rail 5 It is possible to install a suspension scaffold at the location.

  In addition, in a conventional suspension scaffold that requires driving of an anchor or the like, the anchor portion must be deleted after the suspension scaffold is removed. In the suspension scaffold 1 of the invention, such work is not necessary and it is very economical. Further, in the anchor type suspension scaffold of the present invention, when the installation location of the suspension scaffold is suddenly changed at the site, if there is an obstacle in the changed new place, it is necessary to immediately remove the obstacle. In the suspension scaffold 1 of the present invention, even when the installation plan of the suspension scaffold is changed, it is possible to immediately cope with the plan change. In addition, the weight type suspension scaffold 1 according to the present invention does not cover the top of the rail 5 such as an overhead rail with a railing bracket like conventional suspension scaffolds, so concrete coating, paint spraying, tile application, etc. The work is not hindered, and it is not necessary to stretch a wire or chain, so that the worker's walking is not hindered.

  According to the second aspect of the present invention, the subframe fixing weight G is a weight 23 composed of a plurality of unit weight pieces 23a... Each having a unit weight that is detachably connected to each other. 12 is fixed, the weight can be easily adjusted when calculating the weight of the weight G with respect to the suspension scaffold 1, and when the main frame 2 is connected to each subframe 3, the weight G is Since it is fixed to the horizontal frame 12 of the frame 3 and does not move, the connecting operation can be performed easily and safely.

  According to the invention of claim 3, the weight 23 has the same effect as that of the above-mentioned claim 2, and the weight 24 composed of a plurality of sand bags 24 a... Of unit weight is placed on the weight 23. Therefore, it is easy to place the weight 24 on the weight 23 and to remove the weight 24 from the weight 23, thereby facilitating the weight adjustment operation when calculating the weight G. In particular, it is easy to remove the weight 24 when removing the suspension scaffold 1.

  According to the invention which concerns on Claim 4, it becomes more convenient for repair and inspection work of the handrail 5 grade | etc.,.

  According to the invention which concerns on Claim 5, the operation | work on the scaffold board 19 can be performed more safely.

  According to the invention of claim 6, the hanging piece 10 is provided at the tip of the upper horizontal frame 7 of each main frame 2, and the hanging piece 10 can be separated from the upper end of the hanging frame 11 of the subframe 3. Since they are connected, the connection work between the main frame 2 and the subframe 3 becomes easy.

  Preferred embodiments of the present invention will be described below with reference to the drawings. 1 is a side view of a suspension scaffold 1 temporarily installed on a railway viaduct, FIG. 2 is a view of the main frame of the suspension scaffold as viewed from the direction of arrow X in FIG. 1, and FIG. 3 is a cross-sectional view taken along line YY in FIG. 4A is an enlarged view of a portion surrounded by an arrow Z in FIG. 3, and FIG. 4B is a cross-sectional view taken along line VV in FIG. In these drawings, 1 is a suspended scaffold, 2 is a substantially U-shaped main frame in a side view that constitutes a part of the suspended scaffold 1, and 3 is a substantially abbreviated L in a side view that constitutes a part of the suspended scaffold 1 together with the main frame 2. It is a character-shaped subframe. 4 is a viaduct beam, 14 is a floor slab, and 5 is a rail.

  As shown in FIG. 1, the main frame 2 is formed in a substantially U shape in a side view by a vertical frame 6, an upper horizontal frame 7, and a lower horizontal frame 8, and the lower horizontal frame 8 is formed at the tip of the lower horizontal frame 8. A vertically rising frame 9 is provided, a hanging piece 10 is provided at the tip of the upper horizontal frame 7 vertically downward with respect to the upper horizontal frame 7, and a connecting flange is provided at the lower end of the hanging piece 10. 10a is attached. The vertical frame 6, the upper horizontal frame 7, the lower horizontal frame 8, the rising frame 9, and the hanging piece 10 are each formed by a square steel pipe (square pipe).

  The sub-frame 3 protrudes horizontally from a hanging frame 11 that is detachably coupled to a frame piece 10 at the tip of the upper horizontal frame 7 that forms the main frame 2 in a hanging state, and from the lower end of the hanging frame 11. Are formed integrally with the horizontal underframe 12 so as to be substantially L-shaped in a side view. A connecting flange 11 a is attached to the upper end of the hanging frame 11, and the flange 11 a is bolted to the connecting flange 10 a at the lower end of the hanging piece 10 of the main frame 2. The hanging frame 11 is formed of a square steel pipe, and the horizontal frame 12 is formed of an H-shaped steel material.

  A wall pad 13 is attached to the upper end of the rising frame 9 of the main frame 2. The wall covering material 13 is formed of, for example, a round steel pipe (round pipe), and has one end attached to the rising frame 9 and the other end on the lateral end surface 4a (vertical wall surface) of the viaduct beam 4. A contact piece 13a that comes into surface contact is provided, and this contact piece 13a is brought into contact with the lateral end face 4a of the beam 4 as shown in FIG. Reinforcing frames 32 and 33 are attached between the vertical frame 6 and the upper horizontal frame 7 of the main frame 2 and between the vertical frame 6 and the lower horizontal frame 8.

  As shown in FIG. 2, a plurality of, for example, three main frames 2 formed in a substantially U shape in side view as described above are juxtaposed in a horizontal direction at a predetermined pitch, and are integrally formed by a connecting frame 15. Connected. The connecting frame 15 is made of, for example, a round steel pipe that is thinner than the main frame 2, and detailed illustration is omitted, but the upper end side and the lower end side of the three vertical frames 6, and the three hanging pieces 10 are respectively provided. It is stretched horizontally and connected and fixed by welding or by bolts via a fixing bracket. Thereby, a main frame connecting body M composed of a plurality of main frames 2 is formed.

  A brace (strut) 16 for reinforcing the connection body M is bridged in an X shape between the adjacent vertical frames 6 and 6 on the main frame connection body M, and is located on the side of each lower horizontal frame 8. A safety handrail frame 17 is attached over the upper end of the rising frame 9. Further, a scaffolding board spanning bracket 18 is attached to the middle part of the vertical frame 6 of each main frame 2.

  Thus, a scaffold plate 19 is bridged over the main frame connecting body M over the lower horizontal frame 8 of each main frame 2. Further, a middle-stage scaffolding plate 20 is bridged over a scaffolding plate-hanging bracket 18 in the middle part of the vertical frame 6 of each main frame 2. A ladder 21 is attached to the middle-stage scaffold plate 20 between the lower-stage scaffold plate 19.

  The sub-frames 3 are provided in the same number (three in this case) as the main frames 2, and a plurality of sub-frames 3 are arranged at the same pitch as the main frame 2 on the inner side of the rail 5 as shown in FIG. The flat frame 12 is placed on a horizontal portion extending from the cable laying side groove 26 to the paving stone portion 22. Then, a predetermined weight of the subframe fixing weight G is loaded across the horizontal frame 12 of each main frame 2, whereby the horizontal frame 12 of each subframe 3 is fixed on the paving stone part 22, and thereafter Each main frame 2 of the main frame connector M is connected to each sub frame 3.

  As shown in FIGS. 1 to 3, the horizontal underframe 12 of each subframe 3 is leveled by a wooden camber 25 having a required thickness on the paving stone portion 22 and supported horizontally. A brace 16 is bridged in an X shape between the hanging frames 11 and 11 of the adjacent subframes 3 and 3. In FIG. 1, reference numeral 26 denotes a concrete side groove for cable laying.

  The subframe fixing weights G are connected to each other so as to be separable from each other, and are composed of a plurality of H-shaped steel pieces 23a... Having a unit weight fixed to the horizontal frame 12 of the subframe 3 by bolts. And a weight 24 composed of a plurality of sandbags 24a placed on the weight 23. These subframe fixing weights 23, 24 securely fix each subframe 3 on the paving stone portion 22, and connect the mainframe connection body M connected to the subframe 3 to the train track portion inside the rail 5. It is for holding in a stable state, and is set in consideration of the total weight and the like on the main frame coupling body M side when the suspension scaffold 1 is used.

  As shown in FIGS. 3 and 4, the plurality of H-shaped steel pieces 23 a... Constituting the subframe fixing weight 23 are integrated with each other by a pair of upper and lower connecting plates 23 b and 23 c and bolts 27. They are connected, placed on the horizontal frame 12 of the three subframes 3, and fixed to the horizontal frame 12 by bolts 28. The plurality of sandbags 24a ... constituting the subframe fixing weight 24 can be freely placed on the plurality of H-shaped steel pieces 23a ... integrally connected as described above. Yes.

  In this embodiment, the subframe fixing weight 23 is constituted by nine H-shaped steel pieces 23a, and the weight of each H-shaped steel piece 23a is 42 kg, for example, and the weight of the nine pieces is 378 kg. , 23c, the total weight of the weight 23 is about 390 kg. Further, the subframe fixing weight 24 is composed of 13 sandbags 24a, and the weight of each sandbag 24a is 50 kg, for example, and the weight of the 13 weights is 650 kg. This is the weight of the weight 24 as a whole. Therefore, the load applied by the weight G for fixing the subframe including both the weights 23 and 24 is about 1040 kg. Thus, 1040 kg of the loaded load is a suspended scaffold even when a work load (for example, 200 kg) is applied to the suspended scaffold 1 in a state where the main scaffold 2 is connected to each subframe 3 to form the suspended scaffold 1. 1 is a load capable of maintaining a stable state as shown in FIG. In this case, since the weights 23 and 24 for fixing the subframe are each composed of a plurality of H-shaped steel pieces 23a and sandbags 24a each having a unit weight, it is easy to adjust the weight when calculating the weight of the weight G with respect to the suspension scaffold 1 It becomes easy.

  The suspended scaffolding 1 configured as described above is attached to the viaduct according to the procedure described below with reference to FIGS.

  First, as shown in FIG. 5A, the sub-frame 3 is placed at a predetermined pitch (the same pitch as the main frame 2) on the horizontal portion extending from the cable laying side groove 26 inside the rail 5 to the paving stone portion 22. A plurality (three in this embodiment) are arranged. In this case, as shown in FIG. 3, the intervals between the subframes 3 are positioned by the braces 16, and the horizontal frame 12 of each subframe 3 is leveled by the camber 25 and supported horizontally.

  After the plurality of subframes 3 are positioned and arranged on the horizontal portion inside the rail 5 at a predetermined pitch, the subframes 3 are fixed on the horizontal frame 12 of the subframes 3 as shown in FIG. A weight G is loaded. In loading the subframe fixing weight G, first, the subframe fixing weight 23 composed of a plurality of section steel pieces 23a is placed on the horizontal frame 12 of the subframe 3 and described above. The 13 sandbags 24a... Constituting the subframe fixing weight 24 are placed on the subframe fixing weight 24 as described above.

  When the subframe fixing weights 23 and 24 are loaded on the horizontal frame 12 of each subframe 3 as described above, the mainframe connection body M is lifted from the outside of the rail 5 by a crane, and each mainframe 2 With the tip of the upper horizontal frame 7 protruding into the inside of the rail 5, the connecting flange 10a at the lower end of the hanging piece 10 of each main frame 2 is connected to the connecting flange at the upper end of the hanging frame 11 of each subframe 3. Each main frame 2 is integrally connected to each sub-frame 3 by abutting with 11a and bolted to a state as shown in FIG. 6 (a).

  Thereafter, as shown in FIG. 6 (b), the scaffolding plate 19 is bridged over the lower horizontal frame 8 of each main frame 2, and the scaffolding plate is bridged to the middle part of the vertical frame 6 of each main frame 2. A bracket 18 is attached, and an intermediate stage scaffolding plate 20 is bridged over the bracket 18. A ladder 21 is attached to the intermediate scaffolding plate 20 between the lower scaffolding plate 19. Then, as shown in FIG. 7, one end of the wall pad 13 is attached to the upper end of the rising frame 9 of each main frame 2, and the contact piece 13 a at the other end is attached to the lateral end face 4 a ( The vertical end surface), and the installation work of the suspension scaffold 1 is completed. If there is a gap between the contact piece 13a and the lateral end surface 4a of the beam 4 when the wall pad 13 is attached, a piece of wood or the like is packed in the gap and a screw nail or the like is inserted through a hole provided in the contact piece 13a. To fix the piece of wood.

  When the other end side of the wall pad 13 having one end attached to the rising frame 9 of each main frame 2 is brought into contact with the lateral end surface 4a of the beam 4, the suspension scaffold 1 has the wall pad 13 on the lower end side. It is supported by the beam 4 via the support and fixed in a stable state, and even if the worker climbs the scaffold and works, there is no shaking.

  Further, by attaching a handrail frame 17 over the upper end of each rising frame 9 to each main frame 2, an operator can work safely on the scaffolding plate 19. In addition, since the intermediate stage scaffolding plate 20 is stretched over the main frame 2 and a ladder 21 is attached to the scaffolding plate 20, it is convenient for repair work of the handrail 5.

  When the suspended scaffolding 1 installed as described above is removed, the removal work may be performed in the reverse order of the above-described procedure. That is, in brief, after removing the wall pad 13 from the rising frame 9 of each main frame 2, removing the scaffolding plates 19 and 20, and separating each main frame 2 from each subframe 3, the main frame connection The body M is lifted by a crane and lowered to a predetermined place outside the rail 5. Then, after removing the subframe fixing weights 23 and 24 from the subframe 3 fixed to the inside of the rail 5, each subframe 3 may be moved.

  As described above, according to the weight-type suspension scaffold 1 according to the present invention, when the suspension scaffold 1 is installed on an elevated or the like, the beam 4 such as the elevated, the floor slab 14, or the railing is installed like a conventional suspended scaffold. Since there is no need to drive anchors into the anchor 5, there is no need for marking out, drilling, or filling with chemical materials after anchoring. Can be done. Further, since the anchoring operation is not required, the beam 4 such as the overhead, the floor slab 14 and the rail 5 are not damaged, and therefore the strength thereof is not weakened. Further, according to the weight-type suspension scaffold 1 of the present invention, since no load is directly applied to the rail 5 such as an overhead, even if the rail 5 is not a reinforced concrete, but a simple concrete wall, the position along the rail 5 Suspension scaffolding can be installed at

  In addition, in a conventional suspension scaffold that requires anchor driving, the anchor portion must be deleted after the suspension scaffold is removed (the place along the inner side of the handrail 5 is always walked by inspection, etc.) Therefore, it is necessary to delete them so as not to be pinched), and the work for that takes a lot of time and effort. However, in the suspension scaffold 1 of the present invention, such work is unnecessary and it is very economical. Also, with anchor-type suspension scaffolds, if the installation location of the suspension scaffold is suddenly changed on site, if there are obstacles in the new location, it is necessary to remove the obstacles immediately. In the suspension scaffold 1 of the invention, even when the installation plan of the suspension scaffold is changed, it is possible to immediately cope with the plan change.

  In addition, the weight type suspension scaffold 1 according to the present invention does not cover the top of the rail 5 such as an elevated frame with a railing bracket like conventional suspension scaffolds, so that concrete coating, paint spraying, tile application, etc. The work is not hindered, and it is not necessary to stretch a wire or chain, so that the worker's walking is not hindered.

It is a side view of the suspension scaffold based on this invention installed in the railway viaduct. It is drawing which looked at the main frame of the suspension scaffold from the arrow X direction of FIG. It is the YY sectional view taken on the line of FIG. (a) is the enlarged view of the part enclosed by the arrow Z of FIG. 3, (b) is the VV sectional view taken on the line of (a). (a) is a side view explaining the first stage of the installation procedure of the suspension scaffold of this invention, (b) is a side view explaining the next stage. (a) And (b) is a side view explaining the next step. It is a side view explaining the last stage. It is a side view which shows the conventional suspension scaffold.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Suspended scaffold 2 Main frame 3 Sub frame 6 Main frame vertical frame 7 Main frame upper horizontal frame 8 Main frame lower horizontal frame 9 Main frame rising frame 10 Main frame hanging piece 11 Sub frame hanging frame 12 Subframe horizontal frame 13 Wall pad M Main frame connecting body 18 Scaffold plate spanning bracket G Subframe fixing weight 23, 24 Subframe fixing weight 23a Shaped steel piece 24a Sandbag

Claims (6)

A main frame formed in a substantially U shape by a vertical frame, an upper horizontal frame, and a lower horizontal frame having a rising frame at the tip, and is connected to the top horizontal frame tip of the main frame so as to be detachable in a suspended state. A sub-frame formed in a substantially L shape by a hanging frame and a horizontal base frame that protrudes horizontally from the lower end of the hanging frame, and a plurality of wall contact members attached to the rising frame of the main frame are provided.
A subframe is mounted by loading a subframe fixing weight of a predetermined weight across the horizontal frame of each subframe in a state where the plurality of subframes are juxtaposed at a predetermined pitch on a horizontal portion inside a railing such as a viaduct. The main frame is fixed on the horizontal portion, the plurality of main frames are integrally connected at a predetermined pitch by a connecting frame, each main frame is connected to each sub-frame from the outside of the rail, and a lower horizontal frame of each main frame A suspended scaffold in which a scaffolding plate is horizontally mounted and the tip of a wall-mounted member attached to the rising frame of the lower horizontal frame is brought into contact with a vertical wall surface such as a viaduct.   2. The suspension scaffold according to claim 1, wherein the weight for fixing the subframe is a weight made of a plurality of unit steel pieces having unit weights that are detachably connected to each other and fixed to each horizontal frame.   The sub-frame fixing weight is composed of a plurality of unit steel pieces having unit weights which are connected to each other so as to be separable from each other. The weight fixed to each horizontal frame and the unit placed on the weight. The suspension scaffold according to claim 1 or 2, comprising a weight consisting of a plurality of weight sandbags.   The suspension scaffold according to any one of claims 1 to 3, wherein a scaffolding board spanning bracket is attached to a middle part of the vertical frame of the main frame, and a scaffolding board is spanned over the bracket.   The suspension scaffold according to any one of claims 1 to 4, wherein a handrail frame is attached to an upper end of an upper frame of a lower horizontal frame of each main frame. 6. A hanging piece is provided at the tip of the upper horizontal frame of each main frame, and the hanging piece is detachably connected to the upper end of the hanging frame of the subframe. Hanging scaffolding.

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