KR20220059108A - A structure of a flared shieldin integrated with climbing system and the mounting method thereof - Google Patents

Abstract

The present invention relates to a climbing system-integrated flared shielding installation structure and an installation method thereof. In particular, a flared shielding installation structure is installed at the bottom of one or two floors of the lowest scaffold of a climbing system such an automated climbing system (ACS) or a railed climbing system (RCS) as well as an alloy steel, cedar, or PERI gang form so that the flared shielding installation structure is integral with the climbing system to prevent fall of workers working within the climbing system and reducing casualties caused by falling tools or the like. In addition, the flared shielding installation structure is simply and conveniently installed on an upper floor by moving the climbing system-integrated flared shielding installation structure from a lower floor to the upper floor at once by using a climbing system lifting means (fixed shoes, rails, cylinders, and pumps) instead of using a tower crane in the lower floor, to prevent a conventional problem that the parts of a flared shielding installation structure are installed and dismantled and the flared shielding installation structure is moved to an upper part and installed again, to shorten the construction time required for assembly and disassembly of the parts of the flared shielding installation structure in a building under construction, thereby enabling workers to safely and conveniently install the flared shielding installation structure and to safely perform construction work within the climbing system. The flared shielding installation structure comprises: a safety net; a frame; a plurality of supports; wire ropes; and a plurality of wind pressure supports.

Description

A climbing system integrated falling object prevention net installation structure and its installation method TECHNICAL FIELD

The present invention relates to a climbing system-integrated falling object prevention net installation structure and an installation method thereof, and in particular, to a climbing system such as Kumgang, Cedar, Peri gangform as well as ACS (Automated Climbing System), RCS (Railed Climbing System), etc. Climbing System), installed at the bottom of 1 or 2 floors, and integrally forms a fall prevention net installation structure in the climbing system to prevent workers working in the climbing system from falling In addition, instead of using a tower crane from the lower floor, the climbing system integrated fall prevention net installation structure is moved to the upper floor to be installed by using the climbing system lifting means (fixed shoes and rails, cylinders and pumps, etc.) In the building under construction, the problem of the prior art of installing and dismantling the parts of the falling object installation structure and moving the installation structure of the falling object prevention network to the upper part is prevented by installing the falling object prevention network installation structure on the upper floor simply and conveniently. By shortening the construction time required for assembling and dismantling the parts of the fall prevention net installation structure, the worker can safely and conveniently install the falling object prevention net installation structure, and also can safely carry out construction work within the climbing system.

Conventionally, a fall prevention net is installed on every 3rd floor during the construction of a high-rise building, a mixed-use apartment building, and an apartment building. By repeatedly dismantling and reassembling the falling object prevention net installation structure, it takes a lot of time and money to construct the falling object prevention network installation structure, and it takes a lot of time for workers to assemble, disassemble and reassemble the falling object prevention network installation structure. The construction period is long, and there are cost disadvantages by using an expensive tower crane for movement.

The present invention was invented to solve the above problems, and the present invention relates to a climbing system integrated falling object installation structure and a method for installing the same. Prevents workers from falling and reduces human casualties caused by falling tools, etc. In addition, the climbing system's integrated fall prevention net installation structure does not use a tower crane on the lower floor, but instead uses a climbing system lifting means (fixing shoes and rails). , cylinder and pump) to move to the upper floor to install and install the falling object prevention net installation structure on the upper floor simply and conveniently. By preventing the problems of the prior art of re-installing, reducing the construction time required for assembling and dismantling the parts of the falling object prevention net installation structure in the building under construction and reducing the cost for using a tower crane, the worker can secure the installation structure of the falling object prevention network and convenient installation, and also to safely carry out construction work within the climbing system.

In order to achieve the above object, the fixed shoe formed on one side of the concrete retaining wall and the rail formed in the climbing system to move to the upper and lower floors are installed at the bottom of one or two floors of the lowest scaffolding of the climbing system. The climbing system is an integrated fall prevention net installation structure.

It consists of a climbing system and a fall prevention net installation structure.

The falling object prevention net installation structure includes a safety net for reducing accidents caused by fall of workers and human damage caused by falling objects,

A frame in which the safety net is wrapped and installed;

A plurality of supports for binding the climbing system and the frame,

A wire rope having both ends formed in an elliptical shape to support the frame at an angle of 20 to 30 degrees by mounting the frame on the climbing system,

Includes a plurality of wind pressure support for preventing shaking due to strong wind of the frame,

In the working floor (deck) of the climbing system, a left mounting hole, a center mounting hole and a right mounting hole are formed in the left part, the central part, and the right part for intermediate mounting of the wire rope, each of which is drilled to a diameter of 30 mm by a drill drill. becomes,

The frame consists of two steel pipe pipes horizontally, that is, an upper steel pipe pipe and a lower steel pipe pipe, and four vertical pipes, that is, a left square pipe in the left part, a right square pipe in the right part, and two square pipes at a distance from each other in the center part. It is formed in a rectangular shape consisting of a central square pipe, and the connection part of each steel pipe pipe and each pipe is fixed by a short clamp,

The plurality of supports are two steel pipe pipes, that is, a left partial steel pipe pipe and a right partial steel pipe pipe, each end of which is fixed to each beam at the lower end of the working floor of the climbing system by a beam clamp, and each other end Each of the transverse lower ends of the frame (in the direction of the retaining wall) is fixed by short clamps at positions corresponding to the respective ends, and the transverse lower end of the frame is a concrete retaining wall below two floors of the lowermost scaffolding of the climbing system. is mounted across

The wire rope has three wire ropes, namely, a left part wire rope, a central part wire rope and a right part wire rope, each end having a shackle in the left part, the middle part and the right part of the transverse lower part of the frame and the other ends are the left part, the middle part and the right side of the transverse upper end (opposite to the retaining wall) of the frame at positions corresponding to the positions of the left part, the middle part, and the right part of the transverse lower part of the frame Each part is fixed by a shackle, and the middle part of each of the wire ropes, i.e., the left part wire rope, the central part wire rope and the right part wire rope, overlaps so that the right mounting hole and the central mounting hole of the working floor of the climbing system and a circular inside formed by being inserted into the left mounting hole, each 10mm dedicated hardware is used to be latched and fixedly mounted.

The plurality of wind pressure supports are two steel pipe pipes, that is, a left partial wind pressure steel pipe pipe and a right partial wind pressure steel pipe pipe, each end being fixed to the central part of the safety handrail of the climbing system by an automatic clamp, and each other end is It is fixed by an automatic clamp near the left and right corners of the horizontal upper end of the frame, respectively, and the climbing system and the falling object prevention net installation structure are integrally formed. .

In addition, the climbing system, characterized in that the connection part rubber plate is additionally fixed to the left angular pipe or the right angular pipe of the frame wrapped and installed with a safety net to reinforce the connection part between the frame and another frame so that a gap does not occur. It is to provide an integrated falling object prevention net installation structure.

In addition, between the concrete retaining wall under the two lowest scaffolding levels of the climbing system and each short clamp for fixing each end of each of the plurality of supports to the lower end of the frame in the horizontal direction, when the climbing system moves up and down, the In order to reduce friction and damage to the concrete retaining wall under the lowest two floors of the climbing system by each single clamp, a sliding iron plate is additionally welded to each single clamp and installed. It is to provide a structure for installing a fall prevention net.

In addition, between the concrete retaining wall under the lowermost two floors of the climbing system and each short clamp connecting the steel pipe pipe and each pipe at the lower end of the frame in the horizontal direction, when the climbing system moves up and down, each short clamp In order to reduce friction and damage to the concrete retaining wall under the two lowest scaffolding levels of the climbing system by means of a climbing system, a sliding steel pipe pipe of about 40 mm to 45 mm in length is additionally welded to each short clamp and installed. It is to provide a structure for installing a fall prevention net.

Next, a climbing system integrated falling object prevention net installed at the bottom of one or two floors of the lowest scaffolding of the climbing system that can move to the upper and lower floors by the fixed shoes formed on one side of the concrete retaining wall and the rails formed in the climbing system An installation method of the installation structure is provided.

In other words, for the installation method of the climbing system integrated falling object installation structure, refer to the drawings of the climbing system, measure the width of the work floor (deck) to fit the actual measurement dimensions On-site measurement and factory production steps for producing steel pipe and square pipes, safety nets, steel pipe pipes, wire ropes, and multiple wind pressure supports,

For the intermediate mounting of each wire rope on the working floor (deck) of the climbing system, the left part, the central part, and the right part were drilled to 30 mm each with a drilling drill, and the left mounting hole, the center mounting hole and the right mounting hole were drilled. A step of perforating the working floor of the perforation;

The material loading and unloading stage, in which the materials and safety nets manufactured in the factory are brought into the site and unloaded using a tower crane or forklift;

The on-site assembly step of manufacturing the frame of the falling object prevention net installation structure and installing the safety net and wire rope on the manufactured frame using the actual dimensions;

A lifting step of using a tower crane to lift the site-assembled fall prevention net installation structure to the bottom of one or two floors of the lowest scaffolding of the climbing system;

A wire rope mounting step of mounting the lifted object prevention net installation structure on the working floor of the climbing system with a wire rope installed on the frame;

A wind pressure support step of mounting the wind pressure support on the lifted falling object prevention net installation structure and the climbing system,

It provides an installation method of a climbing system integrated fall prevention net installation structure, characterized in that it comprises a plurality of support mounting steps for mounting a plurality of supports in the lifting system and the climbing system.

In addition, the on-site assembly step of manufacturing the frame of the falling object prevention net installation structure and installing the safety net and wire rope on the manufactured frame using the actual dimensions,

Two steel pipe pipes horizontally, namely upper steel pipe pipe and lower steel pipe pipe, and 4 square pipes vertically, that is, a left square pipe in the left part, a right square pipe in the right part, and two central square pipes at a distance from each other in the center part A frame manufacturing step of forming a rectangular shape made of

A safety net installation step of installing a safety net on the manufactured frame;

Each end of the three wire ropes, namely the left part wire rope, the central part wire rope and the right part wire rope, is fixed by a shackle at the left part, the middle part and the right part of the horizontal lower part (retaining wall side) of the frame, respectively and attach the other ends to the left, middle and right parts of the horizontal upper part (opposite the retaining wall) of the frame at positions corresponding to the positions of the left part, the middle part and the right part of the horizontal lower part of the frame, respectively, in the left part, the middle part and the right part by a shackle Each includes a wire rope installation step to the fixing frame.

In addition, in the wire rope mounting step of mounting the lifted object prevention net installation structure to the working floor of the climbing system with a wire rope installed in the frame, each wire rope having one end and the other end fixed to the frame by a shackle, that is, the left Each of the 10mm dedicated hardware is inserted into the right mounting hole, the center mounting hole and the left mounting hole of the working floor of the climbing system by overlapping the middle part of each of the partial wire rope, the central part wire rope and the right part wire rope. Using a latch, it is fixedly mounted, and when fixed and mounted, the frame should be approximately 20 to 30 degrees according to the site conditions.

The wind pressure support stage of mounting the wind pressure support on the lifted falling object prevention net installation structure and the climbing system is,

In order to prevent the frame from shaking due to strong wind, the two steel pipe pipes that are the wind pressure supports, that is, one end of each wind pressure pipe on the left side and the wind pressure pipe pipe on the right side, are fixed at the left and right corners of the horizontal upper part of the frame by automatic clamps, respectively. a wind pressure support installation step on the frame;

Two steel pipe pipes, each of which is a plurality of wind pressure supports, each end of which is fixed to the frame, that is, the other end of the left part wind pressure steel pipe pipe and the right part wind pressure steel pipe pipe is fixed to the central part of the safety handrail of the climbing system by automatic clamps, respectively This includes installing a wind pressure support in the climbing system.

In addition, the step of mounting a plurality of supports to mount a plurality of supports on the lifted falling object prevention net installation structure and the climbing system,

Two steel pipe pipes that are multiple supports, that is, one end of each of the left part steel pipe pipe and the right part steel pipe pipe, are fixed by each short clamp at the position of the left part and the right part of the horizontal lower part of the frame where the safety net is installed. binding the support of the;

Two steel pipe pipes, each of which is a plurality of supports, each end of which is attached to the frame, that is, the other end of each of the left partial steel pipe pipe and the right partial steel pipe pipe is fixed to each beam at the lower end of the working floor of the climbing system by beam clamps, respectively. This includes securing a plurality of supports to the climbing system.

In addition, a rubber plate reinforcement step of additionally fixing the connecting part rubber plate to the left angular pipe or the right angular pipe of the frame installed with a safety net wrapped around the safety net is additionally provided to reinforce the connection part between the frame and another frame. .

In addition, between the concrete retaining wall and the plurality of supports, that is, each end of the left partial steel pipe pipe and the right partial steel pipe pipe under the lowermost two floors of the climbing system, each short clamp fixing the lower end in the horizontal direction of the frame In order to reduce the damage and friction of the concrete retaining wall under the two lowest scaffolding levels of the climbing system by each short clamp during the vertical movement of the climbing system, a sliding iron plate is additionally welded to each of the short clamps. An iron plate installation step is additionally provided.

In addition, between the concrete retaining wall under the lowermost two floors of the climbing system and the steel pipe pipe at the lower end of the frame and each short clamp connecting each pipe, when the climbing system moves up and down, each single clamp In order to reduce friction and damage to the concrete retaining wall under the two lowest scaffolding levels of the climbing system by the above, a sliding steel pipe installation step of additionally welding and installing a sliding steel pipe pipe with a length of about 40 mm to 45 mm to each short clamp is added. is provided as

According to the installation method of the climbing system integrated falling object prevention net installation structure and the climbing system integrated falling object prevention net installation structure of the present invention, the climbing system and the falling object prevention net installation structure, that is, the safety net, frame, multiple supports, wire rope and wind pressure support are integrated As a result, the climbing system integrated fall prevention net installation structure is moved to the upper floor to be installed using the climbing system lifting means (fixed shoes and rails, cylinders and pumps) instead of using a tower crane from the lower floor. By installing and dismantling the parts of the falling object prevention net installation structure on the upper floor simply and conveniently, the falling object prevention network installation structure is moved to the upper part to prevent the time and cost problems of re-installing the falling object prevention network installation in the building under construction It has the effect of shortening the construction time required for assembling and dismantling structural parts, and since it does not use a tower crane, it is possible to reduce the cost of using an expensive tower crane.

In addition, once the worker installs the climbing system and the falling object prevention net installation structure, there is no need to dismantle and reassemble the falling object prevention network installation structure in the climbing system again. As the fall prevention net installation structure is moved to the upper floor of the climbing system integrally with the climbing system, the time required for assembling and dismantling the parts of the falling object prevention net installation structure is shortened, thus shortening the construction period, and also, the operator can safely and conveniently safely inside the climbing system. It has the effect of being able to work.

In addition, the climbing system and the falling object prevention net installation structure are integrally formed to prevent a fall of a worker working in the climbing system, and to reduce human casualties caused by falling tools, etc.

In addition, there is an effect that can minimize the construction time because the climbing system of the present invention can be produced by the integrated falling object prevention net installation structure at the construction site, or directly produced at the factory and put into the construction site.

Figure 1 shows a schematic view of a state in which the climbing system integrated falling object prevention net installation structure of the present invention is installed, Figure 1a is a schematic diagram of a cross section, Figure 1b is a three-dimensional schematic diagram.
Figure 2 is a schematic view showing an enlarged connection of the main part of the climbing system integrated falling object installation structure of the present invention.
Figure 3 is a view in which the climbing system integrated falling object prevention structure of the present invention is installed, Figure 3a is a side view, and Figure 3b is an enlarged view of the rubber plate reinforced in the contact area between the climbing system integrated falling object prevention structures the drawing shown.
Figure 4 is a step-by-step work process diagram schematically showing a climbing system integrated fall prevention structure installation method of the present invention.

The effect of the present invention having the above configuration will be described in more detail with reference to the accompanying drawings.

1, 2 and 3, in general, a fixed shoe (not shown) formed on one side of the concrete retaining wall 1 of a building, apartment, etc., and a rail (not shown) formed on one side of the climbing system 10 A climbing system 10 such as an Automated Climbing System (ACS) or Railed Climbing System (RCS) that can move to the upper and lower floors by is fixed by

The climbing system integrated fall prevention net installation structure of the present invention is installed at the bottom of one or two floors of the lowest working floor 11 of the climbing system 10 .

In detail, the climbing system integrated fall prevention net installation structure consists of the climbing system 10 and the falling object prevention net installation structure 100, and the falling object prevention net installation structure 100 is a worker's fall accident and human damage caused by falling objects. A safety net 120 for reducing, a frame 110 in which the safety net 120 is wrapped and installed, a plurality of supports 130 for binding the climbing system 10 and the frame 110, and the frame 110 ) is mounted on the climbing system 10 to support it at an angle of 20 to 30 degrees, and both ends of the wire rope 140 are formed in an oval shape, and the frame 110 has a plurality of wind pressures to prevent shaking due to strong winds. It is configured to include a support (150).

In the working floor (deck) 11 of the climbing system 10, for the intermediate mounting of the wire rope 140, there are left mounting holes drilled to 30 mm each by a drilling drill in the left part, the central part and the right part ( 13a), a center mounting hole 13b and a right mounting hole 13c are formed.

The size of the mounting holes 13a, 13b, and 13c is 30 mm, but is not limited thereto, and may have any size depending on the working environment.

The frame 110 has two steel pipe pipes 111 horizontally, that is, an upper steel pipe pipe 111a and a lower steel pipe pipe 111b, and four square pipes 112 vertically, that is, a left square pipe 112a on the left side. ), the right angular pipe 112b on the right side, and the two central angular pipes 112c and 112c ′ at a predetermined distance from the central part, respectively, are formed in a rectangular shape, each of the steel pipe pipes 111a and 111b and Connection portions of each pipe (112a, 112b, 112c, 112c') are fixed by a short clamp (SC). The short clamp SC is fixed by welding after being fastened to one end and the other end of each of the four square pipes 112a, 112b, 112c, and 112c' with bolts.

The plurality of supports 130 are two steel pipe pipes, that is, a left partial steel pipe pipe 130a and a right partial steel pipe pipe 130b, and each end of the working floor 11 of the climbing system 10 is at the lower end of Each beam 15 is fixed by a beam clamp BC, and each other end is fixed by a short clamp SC at a position corresponding to each end of the lower end in the horizontal direction of the frame 110, respectively. And, the lower end in the horizontal direction of the frame 110 is mounted over the concrete retaining wall 1 ′ under two floors of the lowermost scaffolding of the climbing system 10 .

In addition, it can be fixed by using a short clamp (SC) instead of the beam clamp (BC). In this case, the bolt of the short clamp (SC) is inserted into the hole (not shown) in the beam (15), and the It can also be fixed.

The wire rope 140 has three wire ropes, namely, a left part wire rope 140a, a central part wire rope 140b and a right part wire rope 140c, each end of which is in the horizontal direction of the frame 110. are respectively fixed by the shackle 170 in the left part, the middle part, and the right part of the lower part, and each other end is at a position corresponding to the position of the left part, the middle part, and the right part of the horizontal lower part of the frame 110. The frame 110 is fixed by a shackle 170 in the left part, the middle part, and the right part of the upper part in the horizontal direction, respectively, and each of the wire rope 140, that is, the left part wire rope 140a, the central part wire rope (140b) and the middle part of each of the right part wire rope 140c overlap, so that the right mounting hole 13a, the center mounting hole 13b and the left mounting hole 13c of the working floor 11 of the climbing system 10 are overlapped. ) is inserted into a circular shape and each 10mm dedicated hardware 14 is used to be latched and fixedly mounted, and the frame 110 is adjusted to be approximately 20 to 30 degrees according to the site conditions during fixed mounting.

When fixing the wire rope 140 to the frame 110, each wire rope (140a, 140b, 140c) is wound around each steel pipe pipe (111a, 111b) of the frame 110, the wire rope (140a, 140b, 140c) ) Insert the shackle 170 into the oval shape of the end and fix it.

The length of the dedicated hardware 14 does not matter as long as it is longer than the diameter of the mounting hole 13, and the thickness is 10 mm, but is not limited thereto, and may have any size depending on the working environment.

The plurality of wind pressure supports 150 are two steel pipe pipes, that is, a left partial wind pressure steel pipe pipe 150a and a right partial wind pressure steel pipe pipe 150b, each end of which is a safety handrail 12 of the climbing system 10 Each of the central portions is fixed by automatic clamps (AC), and the other ends are respectively fixed by automatic clamps (AC) at the left and right corners of the upper end in the horizontal direction of the frame 110 .

As described above, the falling object prevention net installation structure 100 is integrally formed in the climbing system 10 to form a climbing system integrated falling object prevention net installation structure.

In addition, the left side pipe (112a) or the right side pipe (112b) of the frame 110 in which the safety net 120 is wrapped and installed in order to reinforce the connection portion between the frame 110 and another frame so that a gap does not occur. A connection part rubber plate 181 is additionally fixed to the.

The connecting portion rubber plate 181 is not limited to a rubber material, and may be any material for filling a gap.

In addition, each stage of fixing each end of the concrete retaining wall 1 ′ and the plurality of supports 130 under the lowermost two floors of the climbing system 10 to the lower end in the horizontal direction of the frame 110 . Between the clamps (SC), and the concrete retaining wall (1') under the lowest two levels of the scaffolding of the climbing system (10) by the respective short clamps (SC) when the climbing system (10) is moved up and down between the clamps (SC) In order to reduce friction, a sliding iron plate 190 is additionally welded to each of the short clamps SC and installed.

In addition, the concrete retaining wall 1' under the lowermost two levels of the scaffolding of the climbing system 10 and the steel pipe pipe 111b and the square pipe 112a, 112b, 112c, 112c' at the lower end of the frame 110 in the horizontal direction. ) between each short clamp (SC) connected to each other, when the climbing system (10) moves up and down, the concrete retaining wall (1) below the lowest two floors of the climbing system (10) by each short clamp (SC) '), a sliding steel pipe 191 of about 40 mm to 45 mm in length is additionally welded to each short clamp (SC) to reduce friction.

The material of the sliding iron plate 190 and the sliding steel pipe 191 is not limited to an iron plate and a steel pipe, respectively, and may be any material for reducing damage and friction of the concrete retaining wall 1'.

Next, as shown in Figs. 1 to 4, the lowermost scaffolding of the climbing system movable to the upper and lower floors by the fixed shoe formed on one side of the concrete retaining wall 1 and the rail formed in the climbing system 1 to The installation method of the climbing system integrated fall prevention net installation structure installed at the bottom of the two floors is,

Climbing system With reference to the drawing of the climbing system 10, the width of the work floor (deck) 11 is measured and the material of the falling object prevention net installation structure 100 to match the measured dimensions, that is, the steel pipe constituting the frame 110. (111: 111a, 111b) and each pipe (112: 112a, 112b, 112c, 112c'), a safety net 120, a plurality of supports 130, the steel pipe pipe (130: 130a, 130b), wire rope (140: 140a, 140b, 140c) and a plurality of wind pressure supports (150: 150a, 150b) and the on-site measurement and factory production step (S1) to produce,

For intermediate mounting of each wire rope (140a, 140b, 140c) on the working floor (deck) 11 of the climbing system 10, the left part, the central part, and the right part are each drilled to a depth of 30 mm by a drilling drill. A work floor drilling step (S2) of drilling the left mounting hole 13a, the center mounting hole 13b, and the right mounting hole 13c to

A material loading and unloading step (S3) in which the materials and safety net 120 manufactured in the factory are brought into the site and unloaded using a tower crane or a forklift;

On-site assembly step (S4) of manufacturing the frame 110 of the falling object prevention net installation structure 100 in the field using the measured dimensions and installing the safety net 120 and the wire rope 140 on the manufactured frame 110,

A lifting step (S5) of lifting the site-assembled falling object prevention net installation structure 100 using a tower crane to the bottom of one or two floors of the lowest scaffolding of the climbing system 10;

A wire rope mounting step (S6) of mounting the lifted falling object prevention net installation structure 100 on the work floor 11 of the climbing system 10 with the wire rope 140 installed on the frame 110;

A wind pressure support mounting step (S7) of mounting the wind pressure support 150 to the lifted falling object prevention net installation structure 100 and the climbing system 10,

It is configured to include a plurality of supports mounting step (S8) of mounting a plurality of supports 130 on the lifted falling object prevention net installation structure 100 and the climbing system 10.

In addition, the on-site assembly step (S4) of manufacturing the frame 110 of the falling object prevention net installation structure 100 and installing the safety net 120 and the wire rope 140 on the manufactured frame 110 using the measured dimensions (S4) ,

Two steel pipe pipes 111 horizontally, that is, an upper steel pipe pipe 111a and a lower steel pipe pipe 111b, and four square pipes 112 vertically, that is, a left square pipe 112a on the left side, and a right side on the right part. Square pipe (112b), formed in a rectangular shape consisting of two central square pipes (112c, 112c') at a distance from the central portion, respectively, each steel pipe pipe (111a, 112b) and each pipe (112: 112a, 112b) , 112c, 112c ') by fixing the connection portion of the short clamp (SC) to the frame manufacturing step (S4-1) to manufacture the frame 110,

A safety net installation step (S4-2) of installing the safety net 120 on the manufactured frame 110,

Three wire ropes 140, that is, the left portion of the wire rope (140a), the central portion of the wire rope (140b) and the right portion of each end of the wire rope (140c) of the frame 110 in the horizontal direction of the lower left portion, the middle The part and the right part are respectively fixed by the shackle 170, and each other end is the left part of the horizontal upper part of the frame 110 at a position corresponding to the left part, the middle part, and the right part position of the lower part in the horizontal direction of the frame 110. , including a wire rope installation step (S4-3) on the frame fixed by the shackle 170, respectively, in the middle part and the right part.

In addition, in the wire rope mounting step (S6) of mounting the lifted falling object prevention net installation structure 100 on the work floor 11 of the climbing system 10 with the wire rope 140 installed on the frame 110, each Each of the wire ropes having one end and the other end fixed to the frame 110 by the shackle 170, that is, the left part wire rope 140a, the central part wire rope 140b, and the right part wire rope 140c, respectively. Each 10mm dedicated hardware 14 into a circular shape formed by overlapping the parts and fitting in the right mounting hole 13a, the central mounting hole 13b and the left mounting hole 13c of the working floor 11 of the climbing system 10 ) to make the frame 110 to be approximately 20 to 30 degrees according to the site conditions during fixed mounting.

The wind pressure support mounting step (S7) of mounting the wind pressure support 150 to the lifted falling object prevention net installation structure 100 and the climbing system 10 is,

In order to prevent the climbing system 10 and the frame 110 from shaking due to strong wind, two steel pipe pipes that are wind pressure supports, that is, one end of each of the left partial wind pressure steel pipe pipe 150a and the right partial wind pressure steel pipe pipe 150b are framed. A wind pressure support installation step (S7-1) to the frame fixed by an automatic clamp (AC) at each of the left and right corners of the horizontal upper end of (110);

Each other end of a plurality of wind pressure supports 150 each having one end fixed to the frame 110, that is, the left partial wind pressure steel pipe pipe 150a and the right partial wind pressure steel pipe pipe 150b The safety of the climbing system 10 It includes a wind pressure support installation step (S7-2) in the climbing system fixed by an automatic clamp (AC) to the central portion of the handrail 12, respectively.

In addition, a plurality of supports mounting step (S8) of mounting a plurality of supports 130 on the lifted falling object prevention net installation structure 100 and the climbing system 10,

Two steel pipe pipes that are a plurality of supports, that is, one end of each of the left part steel pipe pipe 130a and the right part steel pipe pipe 130b, the left part and the right part position of the lower part in the horizontal direction of the frame 110 in which the safety net 120 is installed binding a plurality of supports to the frame fixed by each short clamp (SC) in (S8-1);

Two steel pipe pipes, each of which is a plurality of supports, each end of which is bound to the frame 110, that is, the other end of each of the left partial steel pipe pipe 130a and the right partial steel pipe pipe 130b, as the working floor of the climbing system 10 (11) It includes the step of fixing a plurality of supports to the climbing system fixed by each beam clamp (BC) to each beam of the lower end (S8-2).

In addition, in order to reinforce the connection portion between the frame 110 and another frame so that a gap does not occur, the safety net 120 is wrapped around and connected to the left angular pipe 112a or the right angular pipe 112b of the installed frame 110 A connecting part rubber plate reinforcement step of further fixing the part rubber plate 181 is additionally provided.

In addition, each end of the concrete retaining wall 1' and the plurality of supports 130, that is, the left partial steel pipe 130a and the right partial steel pipe pipe 130b under the two floors of the lowermost scaffolding of the climbing system 10 Between each short clamp (SC) for fixing the frame 110 to the lower end in the horizontal direction, when the climbing system 10 moves up and down, by each short clamp (SC), the lowest step of the climbing system 10 In order to reduce friction and damage to the concrete retaining wall 1 ′ below the two layers, a sliding iron plate installation step of additionally welding and installing the sliding iron plate 190 to each of the single clamps SC is additionally provided.

In addition, the concrete retaining wall 1' under the lowermost two levels of the scaffolding of the climbing system 10 and the steel pipe pipe 111b and the square pipe 112a, 112b, 112c, 112c' at the lower end of the frame 110 in the horizontal direction. ) between each short clamp (SC) connected to each other, when the climbing system (10) moves up and down, the concrete retaining wall (1) below the lowest two floors of the climbing system (10) by each short clamp (SC) '), a sliding steel pipe installation step of additionally welding and installing a sliding steel pipe 191 in length of about 40 mm to 45 mm to each of the short clamps SC is additionally provided.

Therefore, as shown in FIGS. 1 to 4, according to the installation method of the climbing system integrated falling object prevention net installation structure and the climbing system integrated falling object prevention net installation structure of the present invention, the climbing system 10 and the falling object prevention net installation structure ( 100), that is, the safety net 120, the frame 110, the plurality of supports 130, the wire rope 140, and the wind pressure support 150 are integrally formed, so that the climbing system integrated falling object prevention net installation structure is installed from the lower floor. Instead of using a tower crane, the climbing system 10 is moved to the upper floor to be installed using lifting means (fixed shoes and rails, cylinders and pumps), and the falling object prevention network installation structure 100 is installed on the upper floor simply and conveniently. , Installing and dismantling the parts of the climbing system 10 and the falling object prevention net installation structure 100, and moving the climbing system 10 and the falling object prevention net installation structure 100 to the upper part again to solve the problem of time and cost It has the effect of shortening the construction time required for the assembly and dismantling of the parts of the falling object prevention network installation structure 100 in the building under construction by preventing it, and reducing the cost of using the expensive tower crane because the tower crane is not used. can have an effect.

In addition, once the operator installs the climbing system 10 and the falling object prevention net installation structure 100 once, there is no need to disassemble and reassemble the falling object prevention net installation structure 100 in the climbing system 10 again, for example, As the falling object prevention net installation structure 100 is moved integrally with the climbing system 10 to the upper floors of buildings such as high-rise buildings, apartments, mixed-use apartments, officetels, etc. The time is shortened, the air is shortened, and the operator has the effect of being able to work safely and conveniently within the climbing system 10 safely and conveniently.

In addition, the climbing system 10 and the falling object prevention net installation structure 100 are integrally formed to prevent a fall of a worker working in the climbing system 10, and the effect of reducing human damage caused by falling tools, etc. there will be

In addition, it is possible to minimize the construction time because the climbing system of the present invention integrated with the falling object prevention net installation structure can be produced at the construction site, or directly manufactured at the factory and put into the construction site.

In addition, the size of the climbing system integrated fall prevention net installation structure of the present invention can be changed to various sizes according to the size of the climbing system 10 and the size of the building.

In addition, it is a matter of course that various changes and modifications are made by those skilled in the art to which the present invention pertains.

1: Concrete retaining wall 10: Climbing system
11: work floor 12: safety handrail
13: mounting hole (13a: left side mounting hole; 13b: center mounting hole; 13c: right mounting hole)
14: dedicated hardware 15: beam
100: Falling object prevention net installation structure
110: frame
111: steel pipe pipe (111a: upper steel pipe; 111b: lower steel pipe)
112: square pipe (112a: left square pipe; 112b: right square pipe; 112c, 112c': central square pipe)
120: safety net
130: a plurality of supports (130a: left part steel pipe pipe; 130b: right part steel pipe pipe)
140: wire rope (140a: left part wire rope; 140b: central part wire rope; 140c: right part wire rope)
150: a plurality of wind pressure support (150a: left partial wind pressure support; 150b: right partial wind pressure support)
170: shackle
181: connection part rubber plate
190: sliding iron plate 191: sliding steel pipe pipe
SC: Short clamp BC: Beam clamp
AC: auto clamp

Claims (12)

It is a climbing system integrated falling object installation structure that is installed at the bottom of one or two floors of the lowest scaffolding of the climbing system that can be moved to the upper and lower floors by the fixed shoes formed on one side of the concrete retaining wall and the rails formed in the climbing system. ,
It consists of a climbing system and a fall prevention net installation structure.
The falling object prevention network installation structure includes a safety net for reducing accidents caused by falling objects and human casualties caused by falling objects,
A frame in which the safety net is wrapped and installed;
A plurality of supports for binding the climbing system and the frame,
A wire rope having both ends formed in an elliptical shape to support the frame at an angle of 20 to 30 degrees by mounting the frame on the climbing system,
Includes a plurality of wind pressure support for preventing shaking due to strong wind of the frame,
In the working floor (deck) of the climbing system, a left mounting hole, a center mounting hole and a right mounting hole are formed in the left part, the central part, and the right part for intermediate mounting of the wire rope, each of which is drilled to a diameter of 30 mm by a drill drill. becomes,
The frame consists of two steel pipe pipes horizontally, that is, an upper steel pipe pipe and a lower steel pipe pipe, and four vertical pipes, that is, a left square pipe in the left part, a right square pipe in the right part, and two square pipes at a distance from each other in the center part. It is formed in a rectangular shape consisting of a central square pipe, and the connection part of each steel pipe pipe and each pipe is fixed by a short clamp,
The plurality of supports are two steel pipe pipes, that is, a left partial steel pipe pipe and a right partial steel pipe pipe, each end of which is fixed to each beam at the lower end of the working floor of the climbing system by a beam clamp, and each other end Each of the transverse lower ends of the frame (in the direction of the retaining wall) is fixed by short clamps at positions corresponding to the respective ends, and the transverse lower end of the frame is a concrete retaining wall below two floors of the lowermost scaffolding of the climbing system. is mounted across
The wire rope has three wire ropes, namely, a left part wire rope, a central part wire rope and a right part wire rope, each end having a shackle in the left part, the middle part and the right part of the transverse lower part of the frame and the other ends are the left part, the middle part and the right side of the transverse upper end (opposite to the retaining wall) of the frame at positions corresponding to the positions of the left part, the middle part, and the right part of the transverse lower part of the frame Each part is fixed by a shackle, and the middle part of each of the wire ropes, i.e., the left part wire rope, the central part wire rope and the right part wire rope, overlaps so that the right mounting hole and the central mounting hole of the working floor of the climbing system and a circular inside formed by being inserted into the left mounting hole, each 10mm dedicated hardware is used to be latched and fixedly mounted.
The plurality of wind pressure supports are two steel pipe pipes, that is, a left partial wind pressure steel pipe pipe and a right partial wind pressure steel pipe pipe, each end of which is fixed to the central part of the safety handrail of the climbing system by an automatic clamp, and each other end is A climbing system integrated fall prevention net installation structure, characterized in that each is fixed by an automatic clamp near the left and right corners of the horizontal upper end of the frame, and the climbing system and the falling object prevention net installation structure are integrally formed. The method of claim 1,
Climbing system, characterized in that the rubber plate is additionally fixed to the left side pipe or the right side pipe of the frame wrapped with a safety net to reinforce the connection part between the frame and another frame so that a gap does not occur. Falling object prevention net installation structure. The method of claim 1,
Between the concrete retaining wall below the lowest two levels of the scaffolding of the climbing system and each short clamp for fixing each end of each of the plurality of supports to the lower end in the horizontal direction of the frame, when the climbing system moves up and down, each of the In order to reduce the friction and damage to the concrete retaining wall under the lowest two floors of the climbing system by the short clamp, a sliding iron plate is additionally welded to each of the short clamps and installed. installation structure. The method of claim 1,
Between the concrete retaining wall under the two floors of the lowest scaffolding of the climbing system and each short clamp connecting the steel pipe pipe and each pipe at the lower end of the frame in the horizontal direction, when the climbing system moves up and down, the In order to reduce the damage and friction of the concrete retaining wall under the lowest two floors of the climbing system, a sliding steel pipe pipe with a length of 40 mm is additionally welded to each of the short clamps. . A climbing system that is installed at the bottom of one or two floors of the lowest scaffolding of the climbing system that can move to the upper and lower floors by the fixed shoes formed on one side of the concrete retaining wall and the rails formed in the climbing system. How to install,
With reference to the drawings of the climbing system, measure the width of the work floor (deck) and fit the actual dimensions of the material for the installation structure of the falling object prevention net, that is, the steel pipe and each pipe constituting the frame, the safety net, the steel pipe which is a plurality of supports, On-site measurement and factory production steps to produce wire ropes and a number of wind pressure supports;
For the intermediate mounting of each wire rope on the working floor (deck) of the climbing system, the left part, the central part, and the right part were drilled to 30 mm each with a drilling drill, and the left mounting hole, the center mounting hole and the right mounting hole were drilled. A step of perforating the work floor to be perforated, and
The material loading and unloading stage, in which the materials and safety nets manufactured in the factory are brought to the site and unloaded using a tower crane or forklift;
The on-site assembly step of manufacturing the frame of the falling object prevention net installation structure and installing the safety net and wire rope on the manufactured frame using the actual dimensions;
A lifting step of using a tower crane to lift the site-assembled fall prevention net installation structure to the bottom of one or two floors of the lowest scaffolding of the climbing system;
A wire rope mounting step of mounting the lifted object prevention net installation structure on the working floor of the climbing system with a wire rope installed on the frame;
A wind pressure support step of mounting the wind pressure support on the lifted falling object prevention net installation structure and the climbing system;
The installation method of the integrated falling object prevention net installation structure of the climbing system, characterized in that it comprises a plurality of support mounting steps for mounting a plurality of supports on the lifted falling object prevention net installation structure and the climbing system. 6. The method of claim 5,
The on-site assembly stage of manufacturing the frame of the falling object prevention net installation structure and installing the safety net and wire rope on the manufactured frame using the actual dimensions,
2 steel pipe pipes horizontally, namely upper steel pipe pipe and lower steel pipe pipe, and 4 square pipes vertically, that is, a left square pipe in the left part, a right square pipe in the right part, and two central square pipes at a distance from each other in the center part A frame manufacturing step of forming a rectangular shape consisting of, and fixing each steel pipe pipe and a connecting portion of each pipe by a short clamp to manufacture a frame;
A safety net installation step of installing a safety net on the manufactured frame;
Each end of the three wire ropes, namely the left part wire rope, the central part wire rope and the right part wire rope, is fixed by a shackle at the left part, the middle part and the right part of the horizontal lower part (retaining wall side) of the frame, respectively and attach the other ends to the left, middle and right parts of the horizontal upper part (opposite the retaining wall) of the frame at positions corresponding to the positions of the left part, the middle part and the right part of the horizontal lower part of the frame, respectively, in the left part, the middle part and the right part by a shackle An installation method of a climbing system integrated fall prevention net installation structure, characterized in that it comprises a wire rope installation step on the frame to be fixed respectively. 6. The method of claim 5,
In the wire rope mounting step of mounting the lifted object prevention net installation structure to the work floor of the climbing system with a wire rope installed in the frame, each wire rope having one end and the other end fixed to the frame by a shackle, that is, the left part of the wire The inside of a circular shape formed by overlapping each middle part of the rope, the central part wire rope and the right part wire rope and inserting it into the right mounting hole, the center mounting hole and the left mounting hole of the working floor of the climbing system. An installation method of a climbing system integrated falling object prevention net installation structure, characterized in that it is fixedly mounted by a latch hook, and the frame is approximately 20 to 30 degrees according to the site conditions when fixedly mounted. 6. The method of claim 5,
The wind pressure support mounting step of mounting the wind pressure support on the lifted falling object prevention net installation structure and the climbing system,
In order to prevent the frame from shaking due to strong wind, the two steel pipe pipes that are the wind pressure supports, that is, one end of each wind pressure pipe on the left side and the wind pressure pipe pipe on the right side, are fixed at the left and right corners of the horizontal upper part of the frame by automatic clamps, respectively. a wind pressure support installation step on the frame;
Two steel pipe pipes, each of which is a plurality of wind pressure supports, each end of which is fixed to the frame, that is, the other end of the left part wind pressure steel pipe pipe and the right part wind pressure steel pipe pipe is fixed to the central part of the safety handrail of the climbing system by automatic clamps, respectively A method of installing a climbing system-integrated fall prevention net installation structure, characterized in that it comprises a wind pressure support installation step in the climbing system. 6. The method of claim 5,
The steps of mounting a plurality of supports to mount a number of supports on the lifted falling object prevention net installation structure and the climbing system are,
Two steel pipe pipes that are multiple supports, that is, one end of each of the left part steel pipe pipe and the right part steel pipe pipe, are fixed by each short clamp at the position of the left part and the right part of the horizontal lower part of the frame where the safety net is installed. binding the support of the;
Two steel pipe pipes, each of which is a plurality of supports, each end of which is attached to the frame, that is, the other end of each of the left partial steel pipe pipe and the right partial steel pipe pipe is fixed to each beam at the lower end of the working floor of the climbing system by beam clamps, respectively. An installation method of a climbing system-integrated fall prevention network installation structure, characterized in that it comprises the step of fixing a plurality of supports to the climbing system. 6. The method of claim 5,
In order to reinforce the connection part between the frame and another frame, the rubber plate reinforcement step of additionally fixing the connection part rubber plate to the left or right angle pipe of the frame wrapped with a safety net is additionally included. An installation method of a climbing system-integrated falling object prevention net installation structure, characterized in that. 6. The method of claim 5,
Between the concrete retaining wall and the plurality of supports, that is, each end of the left partial steel pipe pipe and the right partial steel pipe pipe under the two floors of the lowermost scaffolding of the climbing system, each of the short clamps fixing the lower end of the frame in the transverse direction, In order to reduce friction and damage to the concrete retaining wall under the two lowest scaffolding levels of the climbing system by each single clamp when the climbing system moves up and down, a sliding iron plate is additionally welded to each single clamp to install a sliding iron plate installed The installation method of the climbing system integrated falling object prevention net installation structure, characterized in that the step is further comprised. 6. The method of claim 5,
Between the concrete retaining wall below the lowest two floors of the climbing system and each short clamp connecting each pipe and the steel pipe pipe at the lower end of the frame in the horizontal direction, when the climbing system moves up and down, the In order to reduce friction and damage to the concrete retaining wall under the two lowest scaffolding levels of the climbing system, a sliding steel pipe installation step of additionally welding and installing a 40 mm-length sliding steel pipe pipe to each of the short clamps is additionally included. An installation method of a climbing system-integrated falling object prevention net installation structure, characterized in that.

Images