KR102081453B1 - Module assembly type system scaffolding and all in one scaffolding module for the same - Google Patents

Abstract

The present invention relates to module-assembled system scaffolding and an integrated scaffolding module for the same. According to the present invention, the module-assembled system scaffolding uses a plurality of standardized vertical members and horizontal members and comprises: a plurality of integrated scaffolding modules (10) which are formed as integrated modules to be assembled on each other by integrally and tightly welding a plurality of vertical members and horizontal members, and form a volume of a size having an L-N-type pattern divided based on L levels having safety footplates vertically arranged at regular intervals and N integrated scaffolding modules with continuously and horizontally arranged safety footplates; a vertical connection member (500) to couple both vertical ends of vertical members arranged adjacent to each other to be vertically stacked if the integrated scaffolding modules are vertically extended; and a parallel connection member (600) to couple outer circumferences of a plurality of vertical members adjacent in parallel with each other if the integrated scaffolding modules are horizontally extended. Therefore, the present invention can connect and assemble one or more integrated scaffolding modules formed as integrated modules having specific sizes by welding and coupling horizontal members to vertical members making up system scaffolding in various shapes in accordance with a work environment to secure the safety of workers, reduce noise during installation and disassembly, provide construction convenience, significantly shorten construction periods, and reduce construction costs as recycling is possible.

Description

MODULE ASSEMBLY TYPE SYSTEM SCAFFOLDING AND ALL IN ONE SCAFFOLDING MODULE FOR THE SAME}

The present invention relates to a modular system scaffolding and an integrated scaffolding module therefor, and more particularly, to one or more integral scaffolding modules formed of an integral module having a specific size by welding a horizontal member to a vertical member constituting the system scaffolding. By assembling and connecting in various forms according to the working environment, not only can it secure workers' safety, but also reduce noise during installation and dismantling work, provide convenience in construction, significantly shorten the construction period, and can be recycled. The present invention relates to a modular system scaffold and an integrated scaffold module for reducing the cost.

In general, scaffolding refers to temporary constructions that allow workers to work stably in high places, such as construction sites, construction sites, and shipyards, where workers carry various materials or form spaces for workers' passages and work. .

These scaffolds are divided into general scaffolding and system scaffolding. General scaffolding is made of steel pipes and connecting hardware, commonly called scaffolding pipes, and is also called steel pipe scaffolding and is not directly affected by the quality of buildings. As a result, there was a tendency to be neglected at the time of installation, and there was a problem that the safety accidents such as a footrest, stairs, railings, etc. were insufficient, or the collapse of an incomplete structure did not end.

In recent years, interest in system scaffolding has been increasing to overcome the problems of general scaffolding. Because system scaffolding is standardizing vertical members, horizontal members, stairs, and connecting hardware connecting them, safety scaffolding and stair installation are basically performed. It is robust and safe compared to scaffolding.

1 is a view showing the basic configuration of a system scaffold according to the prior art.

The system scaffold 1 according to the prior art generally installs a pipe coupling means such as a clamp 30 so that the horizontal pipe 20 can be connected to the vertical pipe 10 in a state where four vertical pipes are erected. It is a structure that combines scaffolding so that the worker can walk or work on the horizontal pipe, and the clamp must be firmly fastened to connect the horizontal pipe in the vertical pipe, but strong force is not transmitted in the process of fastening the clamp to the vertical pipe in the high position. In many cases, the clamp is loosely fastened, and in particular, after the horizontal pipe and the scaffold are combined, the clamp must be securely tightened again by climbing onto the installed scaffold. Safety accidents that fall or cause the scaffold to collapse may occur.

In addition, as described above, since the system scaffold according to the prior art has to set up vertical pipes one by one adjacent to a work object and then connect one by one using clamps while connecting horizontal pipes, there are numerous installation materials including scaffolding pipes. Due to the increase in work time to install and dismantle.

In order to solve such a problem, a system scaffold according to the prior art is provided with a flange having four fixing holes formed in four directions on a vertical pipe at a predetermined height, and forming a connector formed with wedges at both ends of the horizontal pipe, and fixing the flange. After inserting the wedge of the horizontal pipe into the hole, the horizontal pipe was fixed and coupled, and the scaffold was coupled to the horizontal pipe.

However, in order to install the horizontal pipe and the scaffold on the scaffold on the scaffold, one side of the horizontal pipe should be grasped and lifted up and put into the fixing hole of the flange, but the wedge is pushed down by the load so that the wedge can enter the fixing hole. It is inconvenient to lift the horizontal pipe until the end of the wedge is connected to the fixing hole, and the worker working at the bottom is difficult to accurately fit the wedge to the fixing hole, and it takes a lot of time if you are not an experienced worker. In order to insert the opposite side of the horizontal pipe into the fixing hole of the flange while the one side of the horizontal pipe is coupled to the flange, the working time and working method are different depending on the body of the operator. Up or hold the vertical pipe By raising the body overcame by using a bond or a springboard, so have joined in the line status can not guarantee the safety of workers, there is a problem that could cause crashes and accidents due to the negligence of workers.

In addition, the system scaffold according to the prior art, as in the case of connecting the vertical pipe and the horizontal pipe by using the previous clamp, must dismantle the scaffolding pipe and the connecting hardware after use at the construction site, which increases work time. In addition, there is a problem that civil complaints are not generated due to ambient noise, and in most cases, it is difficult to dismantle carefully at the end of the work, which leads to product damage, which is not only difficult to reuse, but also difficult to select reusable materials. As a result, there was a problem of causing resource waste and causing environmental pollution.

Therefore, it is possible to prevent safety accidents by strengthening the coupling structure and arrangement of materials constituting the system scaffolding, and it is possible to quickly and easily install and dismantle the system scaffolding while reducing the noise, as well as system scaffolding. There is an urgent need for a technology that is highly practical and highly versatile in scaffolding that can be reused to prevent waste of resources and prevent environmental pollution.

Republic of Korea Patent No. 10-0835681 (Registration date. May 30, 2018)

The present invention has been made to solve the above problems, the present invention, by welding a horizontal member to the vertical member constituting the system scaffolding one or more integral scaffold module formed of an integral module having a specific size in various forms to suit the working environment By assembling and assembling them, it is possible not only to secure the safety of the workers but also to provide convenience in construction, and to reduce the noise, significantly shorten the construction period, and recycle the modular system scaffolding which can reduce the construction cost. An integrated scaffold module for this purpose is provided.

Integrated scaffold module according to an embodiment of the present invention, a plurality of vertical material (100); And a plurality of horizontal members (200) connecting the plurality of vertical members (100) integrally and closely contacting each other to form a weld (300) and forming a volume having a predetermined size. It can be formed as an integral module possible.

The horizontal member 200 may be formed in a round shape in a curved shape corresponding to the outer circumference of the vertical member 100 by processing a round (R) at both ends to be in close contact with the vertical member 100.

The integrated scaffold module according to the embodiment of the present invention may correspond to a vertical arrangement pattern and a horizontal arrangement pattern of the safety scaffold 400 disposed between the plurality of vertical members 100 and the plurality of horizontal members 200. It can be formed as an integrated module having various volumes.

In the integrated scaffold module according to an embodiment of the present invention, the horizontal member disposed on the longitudinal side of the safety footrest among the plurality of horizontal members 200 is formed to have a stepped structure roll on the side of the safety footrest and falls on the safety footrest. Fall of work tool can be prevented.

The integrated module, the L-shaped pattern module for separating based on the number of L floors in which the safety footrest 400 is disposed at regular intervals in the vertical direction; And an N-type pattern module configured to classify N-quantities in which safety steps are continuously arranged in left and right horizontal directions.

The L-shaped pattern module, L1 pattern module is formed of a structure in which the safety of the first floor is disposed in a position adjacent to the center of the vertical member; And a pair of safety scaffoldings having an L2 pattern module disposed at regular intervals on both sides of the vertical member at regular intervals. The safety scaffolds may be independently configured for each horizontal continuous arrangement quantity of the safety scaffolding constituting the N-type pattern module. have.

The N-type pattern module is N1 pattern module, N2 pattern module, N3 pattern for each of the L1 pattern module and the L2 pattern module when the number of safety scaffolds that are continuously arranged in the horizontal direction is 1, 2, 3, and 6 The module and the N6 pattern module may be formed as an integrated module independently.

In the integrated scaffolding module according to the embodiment of the present invention, the L1 pattern module and the L2 pattern module corresponding to each of the N-type pattern modules configured independently of each other are assembled in a vertical volume to form a volume for the work space of the integrated module. Can be extended.

The integrated module, L1-N1 (1 floor, horizontal arrangement one) scaffolding module; L1-N2 scaffold module (1 floor, 2 horizontal arrangements); L1-N3 scaffold module (1 floor, 3 horizontal arrangements); L1-N6 scaffold modules (6 floors, 1 floor); L2-N1 scaffold module (2 layers, 1 horizontal arrangement); L2-N2 scaffold module (2 levels, 2 horizontal arrangements); L2-N3 scaffold module (2 levels, 3 horizontal arrangements); And L2-N6 (two levels, six horizontal arrangements) scaffolding module.

When the L1-N1 (1 floor, 1 horizontal arrangement) scaffolding module and the L2-N1 (2 floor, 1 horizontal arrangement) scaffolding module are disposed at the corners, a part of the horizontal material constituting the railing is used to open the passage of the worker. Can be removed to form.

The integrated scaffolding module according to the embodiment of the present invention may further include a stair set scaffolding module for integrally constructing the stepped portion of the system scaffolding.

In the modular system scaffold according to the embodiment of the present invention, in an assembled system scaffold using a plurality of standardized vertical members and horizontal members, each of the vertical members and horizontal members is integrally welded to each other by integrally welding the plurality of vertical members and the horizontal members. It is formed as a module, and has a volume of LN type pattern which is divided based on the number of L floors in which safety steps are arranged at regular intervals in the vertical direction and N quantities in which the safety steps are continuously arranged in the horizontal direction. A plurality of integral scaffolding modules 10 formed; A vertical connection member 500 for mutually coupling the upper and lower ends of the vertical members stacked adjacent to each other when the integrated scaffold module is vertically extended; And a parallel connection member 600 for mutually coupling the outer circumferences of the plurality of vertical members adjacent in parallel when the integrated scaffold module is horizontally extended.

The parallel connection member 600 may be coupled to the outer periphery of the plurality of horizontal members 200 adjacent in parallel in the case of vertically expanding the integrated scaffold module.

Module assembly type scaffolding according to an embodiment of the present invention, a horizontal member capable of mutually coupling the outer periphery of the plurality of horizontal members 200 arranged in parallel with a certain length interval when the integral scaffold module is vertically extended A coupling member 700 may be further provided.

Modular assembly system scaffolding according to an embodiment of the present invention, the net fixing means for installing a safety net to the outside of the integrated scaffolding module 800; provided with one or more, the net fixing means 800, steel pipe Mesh vertical steel pipe 810 having a shape and formed vertically; A portion of one side spaced apart from each other by a predetermined length is welded to the upper end of the mesh vertical steel pipe 810, the horizontal horizontal steel pipe 820 is integrally coupled; A locking fixing part 830 which protrudes downward from one end of the mesh horizontal steel pipe 820 and is fixed around a horizontal member constituting a handrail among the horizontal members; And one end is welded to a part spaced apart from the other end of the mesh horizontal steel pipe 820 by a predetermined length, and the other end is welded to the side of the mesh vertical steel pipe to have an overall inclined structure, and the mesh horizontal steel pipe 820 is formed. Support portion 840 for supporting; may be provided.

Module assembly type scaffolding according to an embodiment of the present invention, the scaffold support 900 is coupled to the lower end of the vertical member of the scaffold module disposed at the lowermost in the vertical direction of the integrated scaffolding module; .

The plurality of integrated scaffolding module may include: L1-N1 (one layer, one horizontal arrangement) scaffold module 1001; L1-N2 (1 floor, 2 horizontal arrangements) scaffold module 1002; L1-N3 (1 floor, 3 horizontal arrangements) scaffold module 1003; L1-N6 (1 floor, 6 horizontal arrangements) scaffold module 1006; L2-N1 (two-layer, one horizontal arrangement) scaffold module 2001; L2-N2 (two levels, two horizontal arrangements) scaffold module 2002; L2-N3 (two levels, three horizontal arrangements) scaffold module 2003; And L2-N6 (two levels, six horizontal arrangements) scaffolding module 2006.

Modular assembly system scaffolding according to an embodiment of the present invention, an integral type for the doorway is formed on the front surface based on the construction and vertically and horizontally welded to form a space for use as a passageway such as a vehicle by close contact welding without the arrangement of the safety footrest Scaffold module (1000); further comprising, the L1-N2 (1 floor, two horizontal arrangements) scaffold module (1002) and L2-N2 (2) on both left and right sides of the integrated scaffold module (100) for the doorway Floor, two horizontal arrangements) Assembling and placing the scaffold module 2002 vertically cross laminated, and further stacked and assembled an integral scaffold module for constituting a working passage on the upper side of the integrated scaffold module for the doorway. Front assembly 1100; Edge scaffolding module 1210 that is modified to a part of the L1-N1 (1 layer, 1 horizontal arrangement) scaffolding module and L2-N1 (2 layers, 1 horizontal arrangement) scaffolding module on both sides of the front assembly 1100. (1220) a plurality of front edge assembly (1200) to be assembled by vertically stacked stacked; The L1-N3 (one layer, three horizontal arrangements) scaffolding module 1003 and the L2-N3 (two layers, three horizontal arrangements) to the rear end of one of the front edge portions 1210 of the plurality of front edge portions 1200. ) The scaffold module 2003 is vertically cross-laminated and assembled, and the L1-N2 scaffold module 1002 and the L2-N2 scaffold module 2 are arranged horizontally. Side assembly 1300 is vertically cross laminated and assembled; The step set scaffolding module 1410 for constituting the step portion of the system scaffold integrally with the rear end of the front edge portion 1220 on the other side of the plurality of front edge portions 1200 is assembled so as to correspond to the laminated structure of the side assembly portion. And a step assembly unit in which the L1-N2 scaffold module 1002 and the L2-N2 scaffold module 2002 are vertically stacked and assembled vertically. 1400); Deforms the L1-N1 (one layer, one horizontal arrangement) scaffolding module and the L2-N1 (two layers, one horizontal arrangement) scaffolding module at both sides of the side assembly unit 1300 and the stair assembly unit 1400. A plurality of rear corner assembly units 1500, one corner scaffold module vertically stacked and assembled to be assembled; And the L1-N6 scaffold module 1006 and the L2-N6 scaffold module 6 horizontal planes between the plurality of rear edge assembly units 1510 and 1520 (2006). ) May be provided with a rear assembly 1600 which is vertically cross-laminated and assembled.

The modular system scaffolding according to the embodiment of the present invention may vertically stack or horizontally assemble a plurality of integrated scaffold modules forming a volume having a size having the L-N pattern corresponding to the size of the construction.

The plurality of integrated scaffold modules forming a volume having a size having the LN type pattern may be stacked and assembled by crossing the integrated scaffold module having the L1-N pattern and the integrated scaffolding module having the L2-N pattern when stacked vertically. Can be.

The plurality of integrated scaffolding modules forming a volume having a size having the L-N pattern may respectively add, deform, and remove vertical and horizontal members according to positions and working environments to form a customized working environment.

As described above, the present invention, by connecting the horizontal member to the vertical member constituting the system scaffolding to connect the one or more integral scaffold module formed of an integral module having a specific size in various forms according to the working environment to improve the safety of the operator At the same time secured, there is an effect that can provide convenience in construction.

In addition, the present invention can be assembled and installed by using a crane or a crane to the integral scaffolding module formed in a predetermined pattern by welding the horizontal member to the vertical member, compared to the prior art for fixing the vertical member and the horizontal member by a fastening means at the construction site. There is an effect that can significantly shorten the construction period and the dismantling period.

In addition, the present invention, since the integrated scaffold module having a variety of sizes and formed in a predetermined pattern can be easily installed and dismantled using the equipment, in the case of general scaffolding and system scaffolding according to the prior art, the transport of auxiliary materials during installation and disassembly, Due to the tremendous noise generated during the cleanup process, the noise is rarely generated when compared to causing enormous damage to the surrounding area.

In addition, the present invention can be assembled and recycled almost all of the integrated scaffolding module used in the construction site has the effect of preventing the waste of resources and significantly reduce the construction cost.

In addition, the present invention, in the case of assembling a plurality of integrated scaffolding module to expand horizontally, having a parallel connection member for easy and easy assembly of the integrated scaffolding module for installing the system scaffolding to install the system scaffolding solid and easy to adjacent adjacent members It is effective to increase the safety.

In addition, the present invention, in the case of assembling a plurality of integral scaffolding module to extend vertically, also provided a vertical extension member to be inserted into the upper and lower sides of the steel pipe-like scaffolding pipe constituting the vertical material adjacent to the vertical expansion structure to the vertical expansion While assembling, there is an effect of strengthening the coupling and improving safety.

In addition, the present invention, in the case of assembling a plurality of integrated scaffolding module to expand vertically, including the vertical connection member, the horizontal member coupling member and the horizontal member of the parallel integrated scaffold module using the parallel connection member can be connected to each other system It is effective to maximize the safety of the scaffold.

In addition, the present invention has an effect of improving the installation and dismantling work speed when the safety net is installed in the vicinity of the system scaffold by providing a net fixing means that can be easily installed in the integrated scaffold module constituting the system scaffold.

In addition, the present invention, in the case of a longitudinal horizontal member which constitutes an integral scaffolding module and is disposed on the longitudinal side of the safety scaffold, the work tool may fall on the safety scaffold during operation by arranging to have a stepped structure above the side of the safety scaffold. It is effective to prevent.

In addition, the present invention implements a system scaffolding using an integrated scaffolding module, so that the vertical and horizontal members constituting the system scaffolding are completely collapsed at the same time as compared to the conventional art of fastening horizontal and vertical members constituting the system scaffolding with connecting hardware. There is an effect that can prevent accidents in advance.

1 is a view schematically showing a system scaffold according to the prior art.
2 is a view for schematically explaining an integrated scaffold module according to an embodiment of the present invention.
3 is a view for explaining a modified example of the integrated scaffold module shown in FIG.
4 to 7 is a view for explaining the prefabricated expansion structure of the integrated scaffold module according to an embodiment of the present invention.
8 is a view for schematically illustrating the arrangement structure of the longitudinal horizontal member constituting the integrated scaffold module according to the embodiment of the present invention.
9 is a view for explaining a vertical connection member for vertically expanding the integrated scaffold module according to an embodiment of the present invention.
10 is a view for explaining a parallel connection member for horizontally expanding the integrated scaffold module according to an embodiment of the present invention.
11 is a view for explaining a horizontal member coupling member and a parallel connection member that can be used additionally when vertically expanding the integrated scaffold module according to an embodiment of the present invention.
12 is a view for explaining the net fixing means used to install the safety netting in the system scaffolding according to an embodiment of the present invention.
FIG. 13 is a view for explaining a scaffold support for fixing a system scaffold according to an embodiment of the present invention on the ground. FIG.
14 is a plan view schematically illustrating a system scaffold installed according to an embodiment of the present invention.
15 to 16 are views showing the actual arrangement of the system scaffold installed in accordance with an embodiment of the present invention.

Description of the present invention is only an embodiment for structural or functional description, the scope of the present invention should not be construed as limited by the embodiments described in the text. That is, since the embodiments may be variously modified and may have various forms, the scope of the present invention should be understood to include equivalents for realizing the technical idea.

On the other hand, the meaning of the terms described in the present invention will be understood as follows.

Terms such as "first" and "second" are intended to distinguish one component from another component, and the scope of rights should not be limited by these terms. For example, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

When a component is referred to as being "connected" to another component, it should be understood that there may be other components in between, although it may be directly connected to the other component. On the other hand, when a component is referred to as being "directly connected" to another component, it should be understood that there is no other component in between. On the other hand, other expressions describing the relationship between the components, such as "between" and "immediately between" or "neighboring to" and "directly neighboring", should be interpreted as well.

Singular expressions should be understood to include plural expressions unless the context clearly indicates otherwise, and terms such as "comprise" or "have" refer to a feature, number, step, operation, component, part, or portion thereof that is implemented. It is to be understood that the combination is intended to be present and does not exclude in advance the possibility of the presence or addition of one or more other features or numbers, steps, actions, components, parts or combinations thereof.

In each step, an identification code (e.g., a, b, c, etc.) is used for convenience of description, and the identification code does not describe the order of the steps, and each step is clearly contextual. Unless stated otherwise, they may occur out of the order noted. That is, each step may occur in the same order as specified, may be performed substantially simultaneously, or may be performed in the reverse order.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art unless otherwise defined. Generally, the terms defined in the dictionary used are to be interpreted to coincide with the meanings in the context of the related art, and should not be interpreted as having ideal or excessively formal meanings unless clearly defined in the present invention.

Integrated scaffolding module according to an embodiment of the present invention is installed adjacent to the construction around the construction to contact the construction side in order to form a scaffold for the operator to carry a variety of materials or to form a space for moving passages and work A plurality of inner vertical members 110 formed in a pipe shape and having a length having a length therebetween and vertically disposed; A plurality of outer vertical members 120 formed in a pipe shape and vertically disposed with a distance having a specific length in a width direction with respect to the inner vertical member 110; And at least one horizontal member 200 which is integrally coupled to the plurality of inner vertical and outer vertical members in a horizontal direction, and may be formed in an integrated module form that can be assembled with each other.

In the integrated scaffold module according to the embodiment of the present invention, a portion in which the horizontal member 200 is coupled to the plurality of inner vertical members 110 and the outer vertical members 120 may be closely welded to form a weld part 300. .

The horizontal member 200 may be formed in a round shape in a curved shape corresponding to the outer circumference of the vertical member 100 by processing a round (R) at both ends to be in close contact with the vertical member 100.

The horizontal member 200, the longitudinal horizontal member 210 formed in the longitudinal direction of the safety scaffold 400 constituting the system scaffolding; And a horizontal direction horizontal member 220 which connects the inner vertical material 110 and the outer vertical material and is formed in the width direction of the safety scaffold 400.

The longitudinal horizontal member 210 includes: a first longitudinal horizontal member 211 disposed adjacent to the safety footrest; A second longitudinal horizontal member 212 disposed above the first longitudinal horizontal member 211 and forming a safety handrail; And a third longitudinal horizontal member 213 disposed at the top and bottom of the integrated scaffold module formed integrally and having an inter-module stack structure disposed adjacent to each other when the module is vertically expanded.

When the first longitudinal horizontal member 213 is disposed at the center of the vertical member, the first longitudinal horizontal member 213 is formed to have a stepped structure above the side surface of the safety scaffold to prevent the falling of the work tool falling on the safety scaffold, and at the end of the vertical member. When disposed, the same function as the third longitudinal horizontal member may be provided with one or more horizontal members to have a stepped structure on the side of the safety scaffold to prevent the fall of the work tool falling on the safety scaffold.

The widthwise horizontal member 220 includes: a first widthwise horizontal member 221 disposed adjacent to the safety footrest and having hooks formed at both ends in the longitudinal direction of the safety footrest; A second widthwise horizontal member 222 disposed above the first widthwise horizontal member 221 and constituting a safety handrail; And a third widthwise horizontal member 223 disposed at the top and bottom of the integrated scaffold module formed integrally and having an inter-module stack structure disposed adjacent to each other when the module is vertically expanded.

Integrated scaffold module according to an embodiment of the present invention, the safety scaffold 400 constituting the system scaffolding is provided with one or more integral or separate, depending on the vertical arrangement of the safety scaffold 400 and the number of horizontally arranged. It may be formed of various types of unit modules.

The various types of unit module, L-shaped pattern module for classifying on the basis of the number of floors that the safety scaffold is disposed at a specific position of the vertical member constituting the system scaffolding; And an N-type pattern module for classifying the safety scaffold on the basis of the number of horizontally arranged safety scaffolds in connection with a horizontal horizontal member among horizontal members constituting the system scaffold.

The L-type pattern module, the L1 pattern module is formed to have a form in which a safety scaffold of one layer is disposed at a position adjacent to the center side of the vertical member 100 constituting the system scaffolding; And an L2 pattern module formed to have a form in which a pair of safety scaffolds are disposed in both up and down directions of the vertical members constituting the system scaffold.

The integrated scaffold module according to the embodiment of the present invention may be assembled by vertically crossing the L1 pattern module and the L2 pattern module when the system scaffold is vertically extended.

The N-type pattern module, N1 pattern module, N2 pattern module, N3 pattern module, N4 pattern module, corresponding to the case where the number of safety steps are continuously arranged 1, 2, 3, 4, 5, 6, n It can be divided into N5 pattern module, N6 pattern module and Nn pattern module.

The various types of unit modules, when divided according to the installation position constituting the system scaffolding, constitute a passage of the system scaffolding and the vertical scaffold 100 and the horizontal scaffold 200 is formed by integrally coupled passage-type scaffolding Modules 1100, 1300, 1600; An edge scaffold module (1200, 1500) disposed at an edge of the system scaffold and formed by integrally combining a vertical member and a horizontal member; And a stair set scaffolding module 1410 configured to integrally form a staircase of the system scaffolding and to form a vertical member, a horizontal member, and a staircase integrally.

The passage-type scaffolding module is composed of a scaffold module having an N-type pattern based on the number of safety steps are continuously arranged in conjunction with the horizontal horizontal member 210 of the horizontal member 200 constituting the system scaffolding. The first widthwise horizontal member 221 and the second widthwise horizontal member 222 constituting the handrail of the horizontal horizontal member 220 constituting the horizontal member of the system scaffolding in the longitudinal direction both ends of the safety footrest, and the first Three widthwise horizontal members 223 may be provided.

The edge scaffolding module (1200, 1500) is made of a N1 pattern module in which a single safety scaffold is disposed in conjunction with a longitudinal horizontal member of the horizontal member constituting the system scaffolding, the longitudinal direction constituting the horizontal member of the system scaffolding A part of the horizontal member 210 disposed inside the construction of the second longitudinal horizontal member 212 constituting the handrail is removed, and further provided with an inner vertical member 110a which is integrally connected to the removed portion. Can be configured.

The stair set scaffolding module 1410 includes: a stair set passage scaffolding module 1411 consisting of an N3 type scaffolding module in which three safety scaffolds are continuously arranged in association with a horizontal horizontal member constituting the system scaffolding; And a step portion 1412 disposed outside the passage type scaffold module 1410 for the step set.

Integrated scaffolding module according to an embodiment of the present invention, in the case of assembling one or more modules to expand vertically, the vertical connection member 500 for mutually coupling the upper and lower ends of the plurality of vertical materials which are composed of different modules and stacked vertically It may be further provided.

Integrated scaffolding module according to an embodiment of the present invention, in the case of assembling one or more modules to expand horizontally constituting different modules and parallel connection member 600 for mutually coupling a plurality of outer peripheral edges adjacent in parallel It may be further provided.

The parallel connection member 600 may be configured to form a different assembly scaffolding unit module when one or more modules are assembled and expanded vertically, and may be mutually coupled to a plurality of horizontal member outer peripheral edges stacked vertically and adjacent to each other in parallel. .

Integrated scaffolding module according to an embodiment of the present invention, when assembling one or more modules to expand vertically to form a different module and can be coupled to each other a plurality of horizontal member outer periphery arranged in parallel with a certain length interval The horizontal member coupling member 700 may be further provided.

Eco-friendly smart system scaffolding according to an embodiment of the present invention, in the system scaffolding to be installed adjacent to the circumference of the construction, the operator carries various materials, or to form a space for moving passages and work, in contact with the construction side A plurality of inner vertical members 110 disposed vertically, a plurality of outer vertical members 120 disposed vertically with a distance having a specific length in a width direction with respect to the inner vertical members 110, and the plurality of inner vertical members ( One or more scaffolding unit modules (10) having one or more horizontal members (200) integrally coupled in a horizontal direction with respect to the outer vertical member (110); Vertical assembling member 500 for constituting different assembling scaffolding unit modules when the at least one scaffolding unit module 10 for assembly is expanded vertically and mutually coupling the upper and lower ends of the plurality of vertical materials stacked vertically. ); And a parallel connection member 600 constituting different assembling scaffolding unit modules when the at least one scaffolding unit module 10 for assembly is extended in a horizontal manner, and coupling outer peripheral edges of a plurality of parallel members adjacent to each other. May be provided.

The parallel connection member 600, when at least one assembly of the scaffold unit module 10 for assembly to expand vertically to form a different scaffold unit modules for assembly and stacked vertically and a plurality of horizontal members adjacent in parallel The outer periphery can be combined with each other.

Eco-friendly smart system scaffolding according to an embodiment of the present invention, when one or more assembling scaffolding unit module 10 to extend vertically to form a different scaffolding unit modules for assembly having a specific length interval and parallel A horizontal member coupling member 700 may be further provided to couple the outer circumferential edges of the plurality of horizontal members disposed to each other.

Eco-friendly smart system scaffolding according to an embodiment of the present invention, the net fixing means for installing a safety net to the outside of the scaffold unit module for assembly; and provided with one or more, the net fixing means 800, A net vertical steel pipe 810 having a steel pipe shape and vertically formed; A net horizontal steel pipe 820 welded to an upper end of the net vertical steel pipe by a predetermined length spaced apart from one end by being integrally horizontally coupled; A locking fixing part 830 which protrudes downward from one end of the mesh horizontal steel pipe 820 and is fixed around a horizontal member constituting a handrail among the horizontal members; And one end is welded to a portion spaced apart from the other end of the mesh horizontal steel pipe 820 by a predetermined length, and the other end is welded to the side of the mesh vertical steel pipe 810 to have a slanted structure as a whole. A support 840 supporting the 820 may be provided.

Eco-friendly smart system scaffolding according to an embodiment of the present invention, the portion where the horizontal member 200 is coupled to the plurality of inner vertical material 110 and the outer vertical material 120 can be closely welded to form a weld 300. have.

The horizontal member 200 may be formed in a round shape in a curved shape corresponding to the outer circumference of the vertical member 100 by processing a round (R) at both ends to be in close contact with the vertical member 100.

The horizontal member 200, the longitudinal horizontal member 210 formed in the longitudinal direction of the safety scaffold 400 constituting the system scaffolding; And a horizontal direction horizontal member 220 which connects the inner vertical material 110 and the outer vertical material 120 and is formed in the width direction of the safety scaffold 400.

The longitudinal horizontal member 210 includes: a first longitudinal horizontal member 211 disposed adjacent to the safety footrest; A second longitudinal horizontal member 212 disposed above the first longitudinal horizontal member 211 and forming a safety handrail; And a third longitudinal horizontal member 213 disposed at the top and bottom of the integrated scaffold module formed integrally and having an inter-module stack structure disposed adjacent to each other when the module is vertically expanded.

The first longitudinal horizontal member 213, the first longitudinal horizontal member 213, when disposed on the center side of the vertical member is formed to have a stepped structure above the side of the safety footrest falling on the safety footrest When the tool is prevented from falling and disposed at the end of the vertical member, the same function as that of the third longitudinal horizontal member is provided, and the one or more horizontal members are provided to have a stepped structure on the side of the safety footrest so as to have a stepped structure. Falling work tools can be prevented from falling.

The widthwise horizontal member 220 includes: a first widthwise horizontal member 221 disposed adjacent to the safety footrest and having hooks formed at both ends in the longitudinal direction of the safety footrest; A second widthwise horizontal member 222 disposed above the first widthwise horizontal member 221 and constituting a safety handrail; And a third widthwise horizontal member 223 disposed at the top and bottom of the integrated scaffold module formed integrally and having an inter-module stack structure disposed adjacent to each other when the module is vertically expanded.

Eco-friendly smart system scaffolding according to an embodiment of the present invention, having one or more safety scaffold 400 constituting a system scaffolding, the safety scaffold 400 of various forms depending on the vertical arrangement structure and the number of horizontally arranged It may be formed as a unit module.

The various types of unit module, L-shaped pattern module for classifying on the basis of the number of floors that the safety scaffold is disposed at a specific position of the vertical member constituting the system scaffolding; And an N-type pattern module for classifying the safety scaffold on the basis of the number of horizontally arranged safety scaffolds in connection with a horizontal horizontal member among horizontal members constituting the system scaffold.

The L-type pattern module, the L1 pattern module is formed to have a form in which a safety scaffold of one layer is disposed at a position adjacent to the center side of the vertical member 100 constituting the system scaffolding; And an L2 pattern module formed to have a form in which a pair of safety scaffolds are disposed in both up and down directions of the vertical members constituting the system scaffold.

Eco-friendly smart system scaffolding according to an embodiment of the present invention, when extending the system scaffold vertically can be assembled by crossing the L1 pattern module and the L2 pattern module vertically.

The N-type pattern module, N1 pattern module, N2 pattern module, N3 pattern module, N4 pattern module, corresponding to the case where the number of safety steps are continuously arranged 1, 2, 3, 4, 5, 6, n It can be divided into N5 pattern module, N6 pattern module and Nn pattern module.

The various types of unit modules, when divided according to the installation position constituting the system scaffolding, constitute a passage of the system scaffolding and the vertical scaffold 100 and the horizontal scaffold 200 is formed by integrally coupled passage-type scaffolding Modules 1100, 1300, 1600; An edge scaffold module (1200, 1500) disposed at an edge of the system scaffold and formed by integrally combining a vertical member and a horizontal member; And a stair set scaffolding module 1410 configured to integrally form a staircase of the system scaffolding and to form a vertical member, a horizontal member, and a staircase integrally.

The passage-type scaffolding module is composed of a scaffold module having an N-type pattern based on the number of safety steps are continuously arranged in conjunction with the horizontal horizontal member 210 of the horizontal member 100 constituting the system scaffolding. The first widthwise horizontal member 221 and the second widthwise horizontal member 222 constituting the handrail of the horizontal horizontal member 220 constituting the horizontal member of the system scaffolding in the longitudinal direction both ends of the safety footrest, and the first Three widthwise horizontal members 223 may be provided.

The edge scaffolding module (1200, 1500) is made of a N1 pattern module in which a single safety scaffold is disposed in conjunction with a longitudinal horizontal member of the horizontal member constituting the system scaffolding, the longitudinal direction constituting the horizontal member of the system scaffolding A part of the horizontal member 210 disposed inside the construction of the second longitudinal horizontal member 212 constituting the handrail is removed, and further provided with an inner vertical member 110a which is integrally connected to the removed portion. Can be configured.

The stair set scaffolding module 1410 includes: a stair set passage scaffolding module 1411 consisting of an N3 type scaffolding module in which three safety scaffolds are continuously arranged in association with a horizontal horizontal member constituting the system scaffolding; And a step portion 1412 disposed outside the passage type scaffold module 1410 for the step set.

Eco-friendly smart system scaffolding in accordance with an embodiment of the present invention, the scaffold support 900 is vertically coupled to the bottom of the vertical material of the assembly scaffold unit module is disposed at the lowest in the vertical direction of the one or more assembly scaffold unit modules (900) It may be further provided.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a view for schematically explaining an integrated scaffold module according to an embodiment of the present invention, Figure 3 is a view for explaining a modified example of the integrated scaffold module shown in FIG.

As shown in the drawing, the integrated scaffold module 10 according to the embodiment of the present invention may include a plurality of vertical members 100 and a plurality of horizontal members 200.

More specifically, the vertical member 100 and the horizontal member 200 is composed of a metal pipe and may be formed of a scaffold pipe in the form of a steel pipe mainly used in construction sites, the present invention is not limited to the scaffold pipe Vertical materials and horizontal materials composed of various shapes and materials input to the working environment of the construction site can be used.

In addition, according to an embodiment of the present invention, as shown in the figure, the integrated scaffold module 10, the plurality of horizontal members 200 are welded to each other by integrally welding the plurality of vertical members (100) integrally. It may be formed as a unitary module that can be connected while forming the 300, a volume having a predetermined pattern size and can be assembled with each other.

Here, the horizontal member 200 may be formed in a round shape in a curved shape corresponding to the outer periphery of the vertical member 100 by processing the round (R) at both ends to be in close contact with the vertical member 100. .

On the other hand, according to an embodiment of the present invention, the vertical member 100 constituting the integrated scaffolding module 10 is installed adjacent to the circumference of the construction to form a space for the worker to carry various materials or to move and work In order to form a scaffold for forming a plurality of inner vertical material 110 is formed in the form of a pipe having a predetermined length in contact with the side of the construction and vertically disposed, and vertically arranged with a predetermined interval to the outside of the construction It may be provided with a plurality of outer vertical material 120 to be.

In more detail, the plurality of outer vertical members 120 may be vertically disposed in a pipe shape with an interval having a specific length in the width direction with respect to the inner vertical members 110.

In addition, at least one horizontal member 200 may be integrally coupled to the plurality of inner vertical members 110 and the outer vertical members 120 in a horizontal direction to form the integrated scaffold module 10.

At this time, in the integrated scaffold module according to the embodiment of the present invention, as described above, the portion where the horizontal member 200 is coupled to the plurality of inner vertical material 110 and the outer vertical material 120 is closely welded weld ( 300) may be formed.

In addition, as shown in the figure, the horizontal member 200 according to the embodiment of the present invention, may include a horizontal horizontal member 210 and the horizontal horizontal member 220.

Here, the longitudinal horizontal member 210 may be formed in the longitudinal direction of the safety scaffold 400 constituting the system scaffold.

In addition, the longitudinal horizontal member 210, the first longitudinal horizontal member 211 is disposed adjacent to the safety footrest, the second length is disposed above the first longitudinal horizontal member 211 and constitute a safety handrail. The lateral horizontal member 212 and the third longitudinal horizontal member 213 having an inter-module stack structure disposed at the top and bottom of the integrated scaffold module integrally formed and vertically disposed adjacent to each other may be provided.

More specifically, the first longitudinal horizontal member 211, when disposed on the center side of the vertical member is formed to have a stepped structure above the side of the safety footrest to prevent the fall of the work tool falling on the safety footrest When disposed at the end of the vertical member, the same function as the third longitudinal horizontal member is provided with one or more horizontal members to have a stepped structure above the side surface of the safety footrest to prevent falling of the work tool falling on the safety footrest. It can prevent.

On the other hand, the widthwise horizontal member 220 may be formed in the width direction of the safety footrest 400 to connect the inner vertical material 110 and the outer vertical material.

In this case, as shown in the figure, the widthwise horizontal member 220 is disposed adjacent to the safety footrest, the first widthwise horizontal member 221 is coupled to the hook formed on both ends in the longitudinal direction of the safety footrest, The second widthwise horizontal member 222 disposed above the first horizontal member 221 and constituting the safety railing, and the upper and lower ends of the integrated scaffold module integrally formed to be adjacent to each other when the module is extended vertically The third widthwise horizontal member 223 having the inter-module lamination structure may be provided.

On the other hand, in the embodiment of the present invention, the integrated scaffolding module, the vertical arrangement pattern (hereinafter 'L-shaped pattern') of the safety scaffold 400 is disposed between the plurality of vertical members 100 and the plurality of horizontal members (200) And an horizontal module (hereinafter, referred to as an 'N-type pattern') may be formed as an integrated module having an LN-type pattern having various shapes and various volumes.

In addition, a plurality of integrated scaffold modules forming a volume having a size having the LN-type pattern, respectively, can add, deform, and remove the vertical and horizontal members according to the position and the working environment to configure a customized working environment. have.

That is, in the embodiment of the present invention, as shown in Figure 3, the L1-N1 (one layer, one horizontal arrangement) scaffolding module and the L2-N1 (two layers, one horizontal arrangement) scaffolding module, When placed in the corner, a part of the horizontal member constituting the handrail may be removed to form a passage of the operator and another vertical member 110a may be additionally disposed in place, and a safety corner horizontal railing 222 may be added. .

Hereinafter, various forms of the integrated scaffold module constituting the system scaffold and expanding to a volume of a predetermined pattern will be described in detail with reference to FIGS. 4 to 7.

4 to 7 is a view for explaining the prefabricated expansion structure of the integrated scaffold module according to an embodiment of the present invention.

As shown in the figure, the integrated scaffold module according to an embodiment of the present invention, L-shaped pattern module for classifying based on the number of L floors in which the safety scaffold 400 is disposed at regular intervals in the vertical direction, and horizontally left and right It may include an N-type pattern module that is divided based on the number of N that the safety scaffold is continuously arranged in the direction.

At this time, the safety scaffold 400 is disposed on the integrated scaffolding module, the first widthwise horizontal member 221 is coupled to the hook formed at both ends in the longitudinal direction of the horizontal horizontal member 220 in order to be integrally coupled to the integrated scaffolding module The hook may be closely welded to, or may be coupled to the integrated scaffold module 10 composed of the vertical member 100 and the horizontal member 200 in a non-welded state in accordance with the working environment.

In more detail, the L-type pattern module may be divided into an L1 pattern module, an L2 pattern module, and an Ln pattern module based on the number of L floors in which the safety scaffold 400 is disposed at regular intervals in a vertical direction. In the embodiment of the present invention, the L1 pattern module composed of a single layer and the L2 pattern module composed of a dual layer are shown in accordance with the height that can be normally mounted on a freight vehicle, and the present invention does not limit the number of floors. It can be configured in various sizes according to height, size and working environment.

In addition, the L1 pattern module may be formed in a structure in which a safety scaffold of one layer composed of a single layer is disposed at a position adjacent to the center of the vertical member.

In addition, the L2 pattern module, a pair of safety steps may be arranged at regular intervals in the vertical direction of the vertical member.

In this case, the L-type pattern module may be configured independently for each horizontal continuous arrangement amount of the safety scaffold constituting the N-type pattern module to be described later.

In addition, the N-type pattern module may be divided into N1 pattern module, N2 pattern module, ~, Nn pattern module based on the number of floors of N in which the safety scaffold 400 is continuously arranged in the horizontal direction. In the embodiment, the number of safety scaffolds continuously arranged in the horizontal direction is represented by the N-type pattern module in the case of 1, 2, 3, and 6, and the present invention is not limited to the number of the safety scaffolding. It can be configured in various sizes to correspond to the length that can be separated and mounted.

In addition, the N-type pattern module may be formed as an integrated module independently composed of an N1 pattern module, an N2 pattern module, an N3 pattern module, and an N6 pattern module for each of the L1 pattern module and the L2 pattern module.

According to an exemplary embodiment of the present invention, the L-N pattern module described above with reference to FIGS. 2 to 6 will be described in detail as follows.

First, the integrated scaffolding module 10 of FIGS. 2 to 3 shows an N1 type pattern module having a quantity in which the safety scaffold is continuously arranged horizontally, and as shown in the figure, the safety scaffold is vertically disposed. L1-N1 (1st floor, 1 horizontal arrangement) when the quantity is single, L2-N1 (2nd, horizontal placement1) when the quantity of the scaffold modules 1001, 1001a and the safety scaffold are arranged vertically G) scaffold modules 2001 and 2001a.

More specifically, the L1-N1 (one floor, one horizontal arrangement) scaffolding module, the safety scaffold 400 is configured to be arranged on the center of the vertical member 100, four vertical member 100 is a safety scaffold 400 is disposed at intervals that can be disposed, the horizontal member 200 which is disposed adjacent to the safety footrest 400 may be welded, wherein the horizontal member is the first longitudinal horizontal member 211 and the first 1 may be a horizontal member 221 in the width direction.

Next, the third longitudinal horizontal member described above may be coupled to each other using a horizontal connecting member 200 and a parallel connection member when vertically expanded, and the upper and lower ends of the vertical member forming the integrated scaffold module may be fixed to each other. 213 and the third widthwise horizontal member 223 may be welded.

Next, the pair of handrails to the upper side of the horizontal member located where the safety footrest 400 is disposed may be composed of the second longitudinal horizontal member 212 and the second horizontal member 222, wherein, In the case of a passage-type scaffolding module, the second widthwise horizontal member 212 may be formed without the second widthwise horizontal member 222, and the second widthwise horizontal member 222 may be configured when the corner type scaffold module is configured. Is further configured, and as described above, a portion of the second longitudinal horizontal member 212 disposed inside the construction may be removed and the vertical member 110a may be further disposed.

In addition, the L2-N1 (two floors, one horizontal arrangement) scaffolding module (2001a), the safety footrest 400 is configured in a form that is arranged on both sides of the vertical member 100, the safety footrest 400 is two Since the horizontal layer 210 which constitutes the highest handrail among a pair of handrails of the safety scaffold 400 disposed on the upper side is composed of two layers, which are two layers, the second longitudinal horizontal member 212 and the third longitudinal horizontal member 213 and the width direction horizontal member 220 simultaneously performs the roles of the second width direction horizontal member 222 and the third longitudinal horizontal member 223, except that the L1-N1 (1). Floor, 1 horizontal arrangement) Has the same configuration as the scaffold module.

4 shows the L1-N2 (1st floor, 2 horizontally arranged) scaffolding module 1002 and the L2-N2 (2nd floor, 2 horizontally arranged) scaffolding module 2002, in which the safety steps are continuously An integrated scaffold module of N2 pattern is arranged.

Here, the vertical member 100 and the horizontal member 200 constituting the L1-N2 scaffold module 1002 and the L2-N2 scaffold module 2002 are formed. Has the same configuration except that there is a change in quantity corresponding to the quantity of the safety scaffold, a detailed description thereof will be omitted.

Fig. 5 shows the L1-N3 (1 floor, 3 horizontally arranged) scaffolding module 1003 and the L2-N3 (2 floor, 3 horizontally arranged) scaffolding module 2003, in which the safety steps are continuously An integrated scaffold module of N3-type pattern is shown.

Here, the vertical member 100 and the horizontal member 200 constituting the L1-N3 (three levels, horizontally arranged) scaffolding module 1003 and L2-N3 (two levels, three horizontally arranged) scaffolding module 2003. Has the same configuration as that of FIGS. 2 to 3 except that there is a change in quantity corresponding to the quantity of the safety scaffold, and a detailed description thereof will be omitted.

FIG. 6 shows L1-N6 scaffold module 1006 (one floor, six horizontal arrangements) and L2-N6 scaffold module 2006 (two floors, six horizontal arrangements). An integrated scaffold module of N6 type pattern is shown.

Here, the vertical member 100 and the horizontal member 200 constituting the L1-N6 (one layer, six horizontal arrangements) scaffolding module 1006 and the L2-N6 (two layers, six horizontal arrangements) scaffolding module 2006. Has the same configuration as that of FIGS. 2 to 3 except that there is a change in quantity corresponding to the quantity of the safety scaffold, and a detailed description thereof will be omitted.

FIG. 7 schematically illustrates an expansion structure in the case of configuring a system scaffold using an integrated scaffold module according to an embodiment of the present invention using an L-type pattern module and an N-type pattern module.

That is, as shown in the drawings, the system scaffold according to an embodiment of the present invention, by assembling the L1 pattern module and the L2 pattern module corresponding to each of the N-type pattern module configured independently of each other vertically of the integrated module You can expand the volume for your workspace.

8 is a view for schematically illustrating the arrangement structure of the longitudinal horizontal member constituting the integrated scaffold module according to the embodiment of the present invention.

As shown in the figure, the integrated scaffold module 10 according to the embodiment of the present invention, the horizontal member disposed on the longitudinal side of the safety footrest of the plurality of horizontal members 200 stepped to the side of the safety footrest It is formed to have a structural roll to prevent the fall of the work tool falling on the safety step.

At this time, the horizontal member disposed in the longitudinal side surface of the safety footrest of the above-described horizontal member 200 corresponds to the first longitudinal horizontal member 211 may be arranged alone or a plurality of may be stacked according to the working environment. .

9 is a view for explaining a vertical connection member for vertically expanding the integrated scaffold module according to an embodiment of the present invention.

Integrated scaffold module 10 according to an embodiment of the present invention, as shown in the drawings, when the assembly of one or more modules to expand vertically to form a different module and a plurality of vertical materials stacked vertically stacked both ends It may be provided with a vertical connection member 500 for mutual coupling.

More specifically, the vertical connection member 500 may be proposed in various forms as a configuration for firmly coupling the vertical member of the integrated scaffold module 10, the steel pipe constituting the vertical member according to an embodiment of the present invention. It has a rod shape as a whole to be inserted into the scaffolding pipe in the form of an interference fit, and the end of the vertical member adjacent to the center side is caught so that the entire body constituting the vertical connecting member 500 is not inserted into the scaffolding pipe. An annular stopper can be formed.

10 is a view for explaining a parallel connection member for horizontally expanding the integrated scaffold module according to an embodiment of the present invention.

As shown in the figure, the integrated scaffold module according to an embodiment of the present invention, when one or more modules are assembled to expand horizontally to form a different module and to combine the plurality of outer peripheral edges of the adjacent adjacent parallel members It may be provided with a parallel connection member 600.

More specifically, the parallel connection member 500 is a means capable of firmly supporting and coupling a plurality of vertical members of adjacent different integral scaffolding modules with each other, without being limited to the form thereof, and implementing the present invention. In the example, a scaffold clamp can be used.

11 is a view for explaining a horizontal member coupling member and a parallel connection member that can be used additionally when vertically expanding the integrated scaffold module according to an embodiment of the present invention.

As described above, the integrated scaffolding module according to the embodiment of the present invention can be expanded vertically by assembling one or more modules, and constitute different modules separately from the vertical connection member 500 and have a specific length. It may be further provided with a horizontal member coupling member 700 capable of mutually coupling a plurality of horizontal member outer periphery arranged in parallel with a gap.

In addition, the parallel connection member 600 described above with reference to Figure 10 may be further configured to increase the stability of the system scaffolding during vertical expansion. As described above, in the embodiment of the present invention, the parallel connection member 600 constitutes different assembly scaffold unit modules when the at least one module is assembled and expanded vertically, and the plurality of vertically stacked and parallelly adjacent plurality of modules. The outer periphery of two horizontal members can be combined with each other.

12 is a view for explaining the net fixing means used to install the safety netting in the system scaffolding according to an embodiment of the present invention.

As shown in the drawings, the modular system scaffolding according to an embodiment of the present invention, may be provided with one or more mesh fixing means 800 for installing a safety net to the outside of the integrated scaffold module.

In more detail, the net fixing means 800 may include a net vertical steel pipe 810, a net horizontal steel pipe 820, a locking fixing part 830, and a support part 840.

Here, the mesh vertical steel pipe 810 is formed vertically, having a steel pipe shape, vertically downward when the position is located in the corner portion constituting the system scaffolding with a length corresponding to the height of the vertical material constituting the integrated scaffold module. It can be placed up to about half the height of the scaffolding module adjacent to it to increase stability.

In addition, the mesh horizontal steel pipe 820, a portion spaced apart from one end by a predetermined length may be welded to the upper end of the mesh vertical steel pipe 810 integrally horizontally coupled, one end is integral to form a system scaffolding Located inside the scaffolding module, a mesh may be installed outside the boundary of the welding site.

In addition, the locking fixing part 830 is formed to protrude downward from one end of the mesh horizontal steel pipe 820 is fixed to the circumference of the horizontal member constituting the handrail of the horizontal member, protruding portion so as not to be separated from the horizontal member Is preferably formed to be relatively long length than the diameter of the horizontal member.

In addition, the support portion 840, one end is welded to a portion spaced by a predetermined length from the other end of the mesh horizontal steel pipe 820, the other end is welded to the side of the mesh vertical steel pipe has an inclined structure as a whole. As a configuration for supporting the mesh horizontal steel pipe 820, when the safety net is installed in the mesh horizontal steel pipe (820) can be welded firmly to withstand horizontal loads and wind loads.

FIG. 13 is a view for explaining a scaffold support for fixing a system scaffold in accordance with an embodiment of the present invention.

As shown in the drawings, the modular system scaffolding according to an embodiment of the present invention is coupled to the bottom of the vertical member of the scaffold module disposed at the lowest in the vertical direction of the integrated scaffold module scaffold support 900 is adjustable height It may be provided.

Here, the scaffold support 900 is to support the vertical member constituting the integrated scaffold module in contact with the ground of the integrated scaffold module constituting the scissor scaffold, so as to adjust the height as described above, A thread is formed on the outer periphery of the main body vertically arranged above the pedestal, and the annular shape surrounding the main body and the upper end receives a predetermined portion of the vertical member and rotates vertically along the thread formed on the outer periphery of the main body. The rotating part may be provided.

14 is a plan view schematically illustrating a system scaffold installed according to an embodiment of the present invention.

As shown in the figure, the integrated scaffold module according to the embodiment of the present invention, as described above in Figures 2 to 7, having one or more safety scaffold 400 constituting the system scaffolding in one or more integral or separate type. In accordance with the vertical arrangement of the safety scaffold 400 and the number of horizontally arranged may be composed of an integrated scaffold module formed of various types of unit modules.

Here, the various types of unit module, the L-shaped pattern module for classifying on the basis of the number of floors in which the safety scaffold is disposed at a specific position of the vertical member constituting the system scaffolding, and the horizontal horizontal member of the horizontal member constituting the system scaffolding In conjunction with the safety scaffolding may include an N-type pattern module to distinguish based on the number of horizontally arranged consecutively.

At this time, the L-type pattern module, the L1 pattern module is formed to have a form in which the safety scaffold of one layer is disposed at a position adjacent to the center side of the vertical member 100 constituting the system scaffolding, and the system scaffolding It may be provided with an L2 pattern module formed to have a form in which a pair of safety steps are disposed in both the vertical and vertical directions of the vertical member.

As shown in the drawing, when the system scaffold is vertically extended, the L1 pattern module and the L2 pattern module may be vertically intersected and assembled.

In addition, the N-type pattern module, N1 pattern module, N2 pattern module, N3 pattern module, N4 pattern corresponding to the case where the number of safety steps are continuously arranged 1, 2, 3, 4, 5, 6, n It can be divided into module, N5 pattern module, N6 pattern module and Nn pattern module.

On the other hand, in the embodiment of the present invention, as shown in the figure, the various types of unit modules, when divided according to the installation position constituting the system scaffolding, constitute a passage of the system scaffolding and vertical material 100 ) And the horizontal scaffold 200 is formed integrally coupled passage type scaffolding module (1100, 1300, 1600), the corner scaffolding module 1200, which is disposed at the corner of the system scaffolding is formed by integrally combining the vertical and horizontal materials (1200, 1500), and a stair set scaffold module 1410 constituting the staircase of the system scaffold and formed by integrally combining the vertical member, the horizontal member, and the staircase.

More specifically, the passage-type scaffolding module, of the horizontal member 200 constituting the system scaffolding of the N-type pattern to be divided on the basis of the number of safety steps are continuously arranged in connection with the longitudinal horizontal member 210 The first widthwise horizontal member excluding the second widthwise horizontal member 222 constituting the handrail of the horizontal member 220 formed of the scaffold module and constituting the horizontal member of the system scaffold in both longitudinal directions of the safety footrest. 221 and the third widthwise horizontal member 223 may be provided.

In addition, the edge scaffolding module (1200, 1500) is made of a N1 pattern module in which a single safety scaffold is disposed in conjunction with a horizontal horizontal member of the horizontal member constituting the system scaffold, constituting the horizontal member of the system scaffolding Part of the longitudinal horizontal member 210 is disposed inside the construction of the second longitudinal horizontal member 212 constituting the handrail is removed, and further provided with an inner vertical member (110a) integrally connected to the removed portion. The passage can be configured.

In addition, the stair set scaffolding module 1410 is a step-type scaffolding module for a stair set, consisting of an N3 type scaffolding module in which three safety scaffolds are continuously arranged in connection with a horizontal horizontal member among the horizontal members constituting the system scaffolding. And a step portion 1412 disposed outside the stepped scaffold module 1410 for the step set.

As described above, the system scaffolding according to the embodiment of the present invention is a modular system scaffolding that has further developed a conventional system scaffold using a plurality of standardized vertical members and horizontal members.

That is, the system scaffolding according to the embodiment of the present invention may be configured by assembling a plurality of integrated scaffolding modules 10 formed as an integral module that can be assembled with each other by integrally welding a plurality of vertical members and horizontal members. have.

 At this time, the integrated scaffold module 10, LN-type pattern to be divided based on the number of L floors in which the safety scaffold is arranged at regular intervals in the vertical direction, and the number of N consecutively arranged safety scaffold in the horizontal direction It can form a volume having a size.

In addition, as described above, the vertical connection member 500 may be coupled to each other, the upper and lower ends of the vertical material which are disposed adjacent to and stacked vertically when the integrated scaffold module is vertically expanded.

In addition, the parallel connection member 600 may be coupled to each other when the plurality of vertical members adjacent to each other in parallel when horizontally extending the integrated scaffold module.

Referring to the configuration described above with reference to FIGS. 2 to 7, the system scaffolding according to the embodiment of the present invention illustrated in FIG. 14 includes L1-N1 (one floor, one horizontal arrangement) scaffolding module 1001 and L1-. N2 (1F, 2Horizontal) Scaffolding Module 1002, L1-N3 (1F, 3Horizontal) Scaffolding Module (1003), L1-N6 (1F, 6Horizontal) Scaffolding Module (1006) ), L2-N1 (2 layers, 1 horizontal arrangement) Scaffolding module (2001), L2-N2 (2 layers, 2 horizontal arrangements) Scaffolding module (2002), L2-N3 (2 layers, 3 horizontal arrangements) Scaffold module 2003, and L2-N6 (two levels, six horizontal arrangements) scaffold module 2006 may be included.

15 to 16 are views showing the actual arrangement of the system scaffold installed in accordance with an embodiment of the present invention.

First, the basic configuration of a modular system scaffold according to an embodiment of the present invention will be described in detail with reference to the plan view of the system scaffold shown in FIG. 14 as follows.

Module assembly system scaffolding according to an embodiment of the present invention, the door-type integrated scaffolding module 1000, the front assembly 1100, the front corner assembly 1200, the side assembly 1300, the stair assembly 1400 ), The stair assembly unit 1400, the rear corner assembly unit 1500, and the rear assembly unit 1600 may be provided.

More specifically, the doorway-integrated scaffolding module 1000 may be disposed on the front surface of the construction and closely contact the vertical member and the horizontal member without arranging safety footrests to form a space for use as a passageway for a vehicle. have.

In addition, the front assembly 1100, the L1-N2 (1 floor, two horizontal arrangements) scaffold module 1002 and L2-N2 (2) on both left and right sides of the integrated scaffold module 100 for the doorway. Floor, 2 horizontal arrangements) Assembling and placing vertically stacked scaffolding module 2002, the upper side of the integrated scaffolding module for the doorway is further laminated and assembled to form an integrated scaffolding module for forming a working passage. Can be.

In addition, the front edge assembly unit 1200, the L1-N1 (one layer, one horizontal arrangement) scaffolding module and L2-N1 (two layers, one horizontal arrangement) on both sides of the front assembly 1100. Corner scaffold modules 1210 and 1220 that are modified by a portion of the scaffold module may be vertically cross-laminated and assembled to form a plurality.

In addition, the side assembly unit 1300, the L1-N3 (one layer, three horizontal arrangements) scaffold module 1003 to the rear end of one of the front edge portion 1210 of the plurality of front edge portion 1200 and L2-N3 (two levels, three horizontal arrangements) scaffolding module 2003 is assembled by vertically cross-lamination, the L1-N2 (one level, two horizontal arrangements) scaffold module 1002 and L2-N2 (2 Floor, two horizontal arrangements) The scaffold module 2002 may be assembled by vertically stacking each other.

In addition, the stair assembly unit 1400, the step set scaffolding module 1410 for forming the step portion of the system scaffold integrally to the rear end of the other front edge portion 1220 of the plurality of front edge portion 1200 is the The L1-N2 scaffold module 1002 and the L2-N2 scaffold module 2002 are assembled to correspond to the laminated structure of the side assembly part. Vertically cross laminated can be assembled.

In addition, the rear corner assembly unit 1500, the L1-N1 (one floor, one horizontal arrangement) scaffolding module and L2-N1 (on both sides of the side assembly unit 1300 and the stair assembly unit 1400) Two-layer, one horizontal arrangement) It is possible to form a plurality of corner scaffolding module modified from the scaffolding module is vertically cross laminated and assembled.

In addition, the rear assembly unit 1600 may include the L1-N6 scaffold module 1006 and L2-N6 (two layers) between the plurality of rear corner assembly units 1510 and 1520. , 6 horizontal arrangements) scaffolding module 2006 may be assembled by vertically stacking.

As such, the system scaffolding according to the embodiment of the present invention vertically stacks a plurality of integrated scaffold modules forming a volume having a size having the LN pattern described above with reference to FIGS. Can be assembled horizontally.

That is, the above-described L1-N1 (one layer, one horizontal arrangement) scaffold module 1001, L1-N2 (one layer, two horizontal arrangements) scaffold module 1002, L1-N3 (one layer, horizontal arrangement) Scaffolding module 1003, L1-N6 (1 floor, 6 horizontal arrangements) Scaffolding module 1006, L2-N1 (2 floors, 1 horizontal arrangement) Scaffolding module (2001), L2-N2 (2) Scaffold module (2002), L2-N3 (two levels, three horizontal arrangements) scaffold module (2003), and L2-N6 (two levels, six horizontal arrangements) scaffold module (2006) It can be configured using the modified scaffold module for the corner, and the stair set module.

In particular, the system scaffolding according to the embodiment of the present invention, in the case of vertically stacked assembly, can be assembled by stacking the integrated scaffolding module of the L1-N-type pattern and the integrated scaffolding module of the L2-N-type pattern, in this case, Figure The system scaffold shown in Fig. 15 was formed by sequentially stacking two layers of an integrated scaffold module having an L1-N pattern and an integrated scaffold module having an L2-N pattern, and the system scaffold shown in FIG. Three types of integral scaffold modules of the L-N pattern, integral scaffold modules of the L2-N pattern, and three layers of the integral scaffold modules of the L1-N pattern may be sequentially stacked.

On the other hand, the system scaffold according to the embodiment of the present invention, after placing the integrated scaffold module of the L1-N pattern on the ground and then laminated the integrated scaffold module of the L2-N pattern in order, but in the present invention It is also possible to place the integrated scaffold module of the L2-N pattern on the ground without limiting the order.

As described above, the present invention, by connecting the horizontal member to the vertical member constituting the system scaffolding to provide convenience in construction by connecting one or more integral scaffold modules formed of an integral module having a specific size in various forms according to the working environment. It can be effective.

In addition, the present invention can be assembled and installed by using a crane or a crane to the integral scaffolding module formed in a predetermined pattern by welding the horizontal member to the vertical member, compared to the prior art for fixing the vertical member and the horizontal member by a fastening means at the construction site. There is an effect that can significantly shorten the construction period and the dismantling period.

In addition, the present invention, since the integrated scaffold module having a variety of sizes and formed in a predetermined pattern can be easily installed and dismantled using the equipment, in the case of general scaffolding and system scaffolding according to the prior art, the transport of auxiliary materials during installation and disassembly, Due to the tremendous noise generated during the cleanup process, the noise is rarely generated when compared to causing enormous damage to the surrounding area.

In addition, the present invention can be assembled and recycled almost all of the integrated scaffolding module used in the construction site has the effect of preventing the waste of resources and significantly reduce the construction cost.

In addition, the present invention, in the case of assembling a plurality of integrated scaffolding module to expand horizontally, having a parallel connection member for easy and easy assembly of the integrated scaffolding module for installing the system scaffolding to install the system scaffolding solid and easy to adjacent adjacent members It is effective to increase the safety.

In addition, the present invention, in the case of assembling a plurality of integral scaffolding module to extend vertically, also provided a vertical extension member to be inserted into the upper and lower sides of the steel pipe-like scaffolding pipe constituting the vertical material adjacent to the vertical expansion structure to the vertical expansion While assembling, there is an effect of strengthening the coupling and improving safety.

In addition, the present invention, in the case of assembling a plurality of integrated scaffolding module to expand vertically, including the vertical connection member, the horizontal member coupling member and the horizontal member of the parallel integrated scaffold module using the parallel connection member can be connected to each other system It is effective to maximize the safety of the scaffold.

In addition, the present invention has an effect of improving the installation and dismantling work speed when the safety net is installed in the vicinity of the system scaffold by providing a net fixing means that can be easily installed in the integrated scaffold module constituting the system scaffold.

In addition, the present invention, in the case of a longitudinal horizontal member which constitutes an integral scaffolding module and is disposed on the longitudinal side of the safety scaffold, the work tool may fall on the safety scaffold during operation by arranging to have a stepped structure above the side of the safety scaffold. It is effective to prevent.

In addition, the present invention implements a system scaffolding using an integrated scaffolding module, so that the vertical and horizontal members constituting the system scaffolding are completely collapsed at the same time as compared to the conventional art of fastening horizontal and vertical members constituting the system scaffolding with connecting hardware. There is an effect that can prevent accidents in advance.

The present invention has been described in detail so far, but the embodiments mentioned in the process are only illustrative and are not intended to be limiting, and the present invention is provided by the following claims. Within the scope not departing from the scope of the present invention, component changes to the extent that they can be coped with equally will fall within the scope of the present invention.

10: integrated scaffold module
100: vertical material
110: inner vertical material
120: outer vertical material
200: horizontal material
210: longitudinal horizontal member
211: first longitudinal horizontal member
212: second longitudinal horizontal member
213: third longitudinal horizontal member
220: horizontal member in the width direction
221: first widthwise horizontal member
222: second widthwise horizontal member
223: third widthwise horizontal member
300 weld
400: safety footing
500: vertical connecting member
600: parallel connection member
700: horizontal member coupling member
800: net fixing means
810 netting vertical steel pipe
820: mesh horizontal steel pipe
830: Jamming Government
840 support
900: scaffold support
1000: All-in-one Scaffold Module for Entrance
1100, 1300, 1600: Pathway Scaffold Module
1200, 1500: edge scaffolding module
1410: stair set scaffolding module
1411: passage type scaffolding module for staircase set
1412: staircase

Claims (21)

A plurality of vertical members 100; And
And a plurality of horizontal members 200 connected to each other by integrally welding the plurality of vertical members 100 together to form a weld part 300 and forming a volume having a predetermined size.
It is formed as an integrated module that can be assembled with each other,
Corresponding to the vertical arrangement pattern and the horizontal arrangement pattern of the safety footrest 400 disposed between the plurality of vertical member 100 and the plurality of horizontal member 200 is formed as an integrated module having various shapes and various volumes,
The horizontal member disposed on the longitudinal side surface of the safety scaffold among the plurality of horizontal members 200 is formed to have a stepped structure above the side of the safety scaffold to prevent the falling of the work tool falling on the safety scaffold. Scaffolding module
The method according to claim 1, wherein the horizontal member 200,
In order to be in close contact with the vertical member 100, both ends are round (R) processed to form an integral scaffolding module, characterized in that it is formed in a round shape of a curved shape corresponding to the outer periphery of the vertical member (100).
delete delete The method according to claim 1, The integrated module,
L-shaped pattern module for classifying the number of floors in which the safety scaffold 400 is disposed at regular intervals in the vertical direction; And
Integral scaffolding module comprising a; N-type pattern module for separating based on the number of N that the safety scaffold is continuously arranged in the horizontal direction
The method according to claim 5, wherein the L-type pattern module,
L1 pattern module formed of a structure in which the safety footrest of one layer is disposed in a position adjacent to the center of the vertical member; And
A pair of safety scaffolding L2 pattern module is disposed at regular intervals in the vertical direction of the vertical member;
Integral scaffolding module, characterized in that formed as an integral module that is configured independently for each horizontal continuous batch quantity of the safety scaffold constituting the N-type pattern module
The method according to claim 6, wherein the N-type pattern module,
When the number of the safety steps continuously arranged in the horizontal direction is 1, 2, 3, and 6, the L1 pattern module, the N2 pattern module, the N3 pattern module, and the N6 pattern module for each of the L1 pattern module and the L2 pattern module. Integral scaffold module, characterized in that formed as an integral module that is configured independently
The method according to claim 7,
Integral scaffolding module, characterized in that to expand the volume for the work space of the integrated module by assembling the L1 pattern module and the L2 pattern module corresponding to each of the N-type pattern module is configured independently.
The method according to claim 7, wherein the integrated module,
L1-N1 scaffold module (one floor, one horizontal arrangement);
L1-N2 scaffold module (1 floor, 2 horizontal arrangements);
L1-N3 scaffold module (1 floor, 3 horizontal arrangements);
L1-N6 scaffold modules (6 floors, 1 floor);
L2-N1 scaffold module (2 layers, 1 horizontal arrangement);
L2-N2 scaffold module (2 levels, 2 horizontal arrangements);
L2-N3 scaffold module (2 levels, 3 horizontal arrangements); And
Integrated scaffolding module comprising: L2-N6 (two levels, six horizontal arrangements) scaffolding module
The scaffold module according to claim 9, wherein the L1-N1 (1 layer, 1 horizontal arrangement) scaffold module and the L2-N1 (2 layers, 1 horizontal arrangement) scaffold module,
When disposed at the corners, a part of the horizontal member constituting the handrail is removed to form a passage of the worker integral unit scaffolding module
The method according to claim 9,
Integral scaffolding module further comprising; stair set scaffolding module for constituting the staircase of the system scaffolding integrally
In the assembled system scaffolding which is installed adjacent to the construction, using a plurality of vertical and horizontal members standardized to transport various materials or to form a space for moving passages and work,
Each of the plurality of vertical members and the horizontal member is integrally welded together to form an integrated module that can be assembled with each other, and the number of L floors in which safety steps are arranged at regular intervals in the vertical direction up and down, and the safety steps continuously in the horizontal direction A plurality of integrated scaffolding modules 10 forming a volume having a size having an LN type pattern that is divided based on the number of N arranged;
A vertical connection member 500 for mutually coupling the upper and lower ends of the vertical members stacked adjacent to each other when the integrated scaffold module is vertically extended; And
And a parallel connection member 600 for mutually coupling the outer periphery of the plurality of vertical members adjacent in parallel when the integrated scaffold module is horizontally extended.
The horizontal member disposed on the longitudinal side of the safety scaffold among the plurality of horizontal members 200 is formed to have a stepped structure on the side of the safety scaffold to prevent falling of the work tool falling on the safety scaffold Prefabricated System Scaffolding
The method of claim 12, wherein the parallel connection member 600,
Module assembly type scaffolding, characterized in that the outer periphery of the plurality of horizontal members 200 adjacent to each other in parallel when the integral scaffolding module is extended vertically
The method according to claim 12,
In the case of vertically expanding the integrated scaffolding module, characterized in that it further comprises a horizontal member coupling member 700 capable of mutually coupling the outer periphery of the plurality of horizontal members 200 arranged in parallel with a distance of a certain length Prefabricated System Scaffolding
The method according to claim 12,
And one or more mesh fixing means 800 for installing a safety net on the outside of the integrated scaffolding module.
The net fixing means 800,
A net vertical steel pipe 810 having a steel pipe shape and vertically formed;
A portion of one side spaced apart from each other by a predetermined length is welded to the upper end of the mesh vertical steel pipe 810, the horizontal horizontal steel pipe 820 is integrally coupled;
A locking fixing part 830 which protrudes downward from one end of the mesh horizontal steel pipe 820 and is fixed around a horizontal member constituting a handrail among the horizontal members; And
One end is welded to a part spaced apart from the other end of the mesh horizontal steel pipe 820 by a predetermined length, the other end is welded to the side of the mesh vertical steel pipe has a slanted structure as a whole and supports the mesh horizontal steel pipe 820 Modular system scaffolding comprising a; support 840;
The method according to claim 12,
Modular assembly system scaffolding further comprises a; scaffold support (900) coupled to the bottom of the vertical member of the scaffold module disposed at the lowest end in the vertical direction of the integrated scaffolding module;
The method of claim 12, wherein the plurality of integrated scaffolding module,
L1-N1 (1 floor, 1 horizontal arrangement) scaffold module 1001;
L1-N2 (1 floor, 2 horizontal arrangements) scaffold module 1002;
L1-N3 (1 floor, 3 horizontal arrangements) scaffold module 1003;
L1-N6 (1 floor, 6 horizontal arrangements) scaffold module 1006;
L2-N1 (two-layer, one horizontal arrangement) scaffold module 2001;
L2-N2 (two levels, two horizontal arrangements) scaffold module 2002;
L2-N3 (two levels, three horizontal arrangements) scaffold module 2003; And
Modular system scaffolding comprising: L2-N6 (two levels, six horizontal arrangements) scaffolding module 2006
The method according to claim 17,
It is further provided with an integrated scaffolding module (1000), which is disposed on the front surface of the construction object and forms a space for use as a passage such as a vehicle by closely contacting the vertical member and the horizontal member without arranging the safety scaffolding.
The L1-N2 scaffold module 1002 and the L2-N2 scaffold module 2 on the left and right sides of the integrated scaffold module 100 for the entrance and the scaffold module 2002 The front assembly 1100 configured to further stack and assemble an integrated scaffold module for constituting a working passage on the upper side of the integrated scaffold module for the doorway;
Edge scaffolding module 1210 that is modified to a part of the L1-N1 (1 layer, 1 horizontal arrangement) scaffolding module and L2-N1 (2 layers, 1 horizontal arrangement) scaffolding module on both sides of the front assembly 1100. (1220) a plurality of front edge assembly (1200) to be assembled by vertically stacked stacked;
The L1-N3 (one layer, three horizontal arrangements) scaffolding module 1003 and the L2-N3 (two layers, three horizontal arrangements) to the rear end of one of the front edge portions 1210 of the plurality of front edge portions 1200. ) The scaffold module 2003 is vertically cross-laminated and assembled, and the L1-N2 scaffold module 1002 and the L2-N2 scaffold module 2 are arranged horizontally. Side assembly 1300 is vertically cross laminated and assembled;
Step set scaffolding module 1410 for forming the step portion of the system scaffold integrally to the rear end of the front edge portion 1220 on the other side of the plurality of front edge portion 1200 is assembled to be stacked corresponding to the stacking structure of the side assembly portion. And a step assembly unit in which the L1-N2 scaffold module 1002 and the L2-N2 scaffold module 2002 are vertically stacked and assembled vertically. 1400);
Deforms the L1-N1 (one layer, one horizontal arrangement) scaffolding module and the L2-N1 (two layers, one horizontal arrangement) scaffolding module at both sides of the side assembly unit 1300 and the stair assembly unit 1400. A plurality of rear corner assembly units 1500, one corner scaffold module vertically stacked and assembled to be assembled; And
The L1-N6 scaffold module 1006 and the L2-N6 scaffold module 6 horizontally arranged between the plurality of rear edge assembly units 1510 and 1520 (2006) Module assembly system scaffolding comprising ;;
The method according to claim 12,
Modular assembly system scaffolding, characterized in that the vertical stacking or horizontal assembly of a plurality of integral scaffolding modules forming a volume having a size having the LN-type pattern corresponding to the size of the construction
The method according to claim 19, A plurality of integrated scaffolding module to form a volume having a size having the LN type pattern,
In the case of vertically stacking assembly, the modular assembly system scaffolding is characterized by stacking the integral scaffolding module of the L1-N pattern and the integral scaffolding module of the L2-N pattern.
The method according to any one of claims 12, 19, and 20, wherein each of the plurality of integrated scaffold modules forming a volume having a size having the LN pattern,
Modular system scaffolding, comprising customizable spaces for working environments by adding, modifying, and removing vertical and horizontal members according to the location and working environment

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