WO2017086704A1

WO2017086704A1 - Scaffold device for construction including safety footboard

Info

Publication number: WO2017086704A1
Application number: PCT/KR2016/013241
Authority: WO
Inventors: 조성주
Original assignee: 조성주
Priority date: 2015-11-19
Filing date: 2016-11-17
Publication date: 2017-05-26
Also published as: KR101654483B1

Abstract

The present invention is characterized by comprising: a plurality of first scaffold frames erected vertically on an outer wall side of a building; second scaffold frames connecting the first scaffold frames and supporting the loads of safety footboards; third scaffold frames configured between the second scaffold frames and preventing workers from falling; fastening means connecting the first through to third scaffold frames; connecting brackets respectively fastened to the fastening means, connecting each of the first through to third scaffold frames, and fixing the first scaffold frames to the ground surface; and safety footboards having fixing hook parts formed on both side ends thereof so as to be coupled to the second scaffold frames.

Description

Construction Scaffolding Equipment Including Safety Scaffold

The present invention relates to a construction scaffolding device including a safety scaffold. More specifically, the construction of a square-type scaffold frame made of light and high strength aluminum is performed to be combined with the safety scaffold, but secured even at high altitudes by fastening and fixing the scaffold frame and the safety scaffold with T-bolts. This is possible, and is made of a rectangular structure to maximize the bonding force of the safety scaffolding, as well as to prevent slipping relates to a construction scaffolding device including a safety scaffolding to prevent safety accidents.

Conventional building scaffolding scaffolding, as shown in Figure 1, connecting the four scaffolding pillar (A) with two crossbars (B1) and two longitudinal poles (B2), hooks at both ends between the two longitudinal poles (B2) Is provided with a rectangular footrest (C) is provided with both hooks of the footrest (C) is superimposed on the vertical pole (B2) connecting the scaffolding pillar (A) and the scaffolding pillar (A) is fixed structure.

However, in the aforementioned scaffold for construction according to the prior art, four scaffold columns A are hypothesized by using a crossbar B1 and a crossbar B2, and then a scaffold C is installed between the crossbars B2. Since both hooks of C) overlap and are fixed on the vertical pole B2, the foothold C is supported by the weight acting downward on the vertical pole B2, and thus the fastening force is poor, and the footrest is easily shaken by vibration or shock, Receiving a force acting upward from the footrest (C) is a problem that is easily loosened and released.

In addition, since the non-slip holes are uniformly and uniformly formed on the upper portion of the footrest C, the worker may slip due to the weight of the material during transport, and a space is formed between the crossbar B1 and the footrest C. Since there is a structure, there is a problem that a safety accident that causes the worker to fall into space.

Thus, the Republic of Korea Patent No. 10-1024655, which consists of a rectangular steel plate as a whole, a plurality of anti-slip holes are formed on the surface of the steel sheet in four directions, a predetermined portion of the steel sheet at regular intervals of the steel sheet press or A reinforcing bar is formed so that a plurality of pieces are folded downward by a forming process, and a scaffold having a “c” magnetic reinforcing plate welded to front and rear sides of the steel plate; An auxiliary scaffold, which is installed on both sides of the scaffold and welded to the side, and is formed in a box shape as a whole, and has a plurality of anti-slip holes formed on the surface thereof, the auxiliary scaffold having a predetermined portion at the bottom thereof; Construction scaffolding safety scaffold has been disclosed, characterized in that consisting of a handrail welded to the outer end of the auxiliary scaffold, consisting entirely of "S" shape, extending upward by a certain length.

However, according to the above-mentioned prior art document, since it is made of iron material, it is inevitably difficult to construct, and in order to fix it to a column composed of a circular pipe, the hook also has a circular structure. The hook is released from the circumferential surface of the column has a problem that the fall accident occurs.

In addition, due to the complex process of coupling between the column and the scaffolding, it is necessary to take a lot of work time for a solid assembly, and the pins for fastening the scaffolding are not easy to be connected, so the safety force is frequently difficult to maintain the coupling force for a long time. There is a problem.

In order to solve this problem, the present invention is to install a scaffold frame of a lightweight and high-strength aluminum frame on the ground through the anchor bolt and the connection bracket so that the scaffolding device can be provided with a strong support force from the ground so that the scaffolding device is It is an object of the present invention to provide a construction scaffolding device including a safety scaffolding to prevent the collapse of, as well as to enable the safe work of workers.

In addition, according to the present invention, the construction of the scaffold frame and the safety scaffold can be secured even at high altitude by fastening and fixing the safety scaffold, and the rectangular structure can be used to maximize the coupling force of the safety scaffold and prevent slippage. The purpose is to provide a construction scaffolding device including a safety scaffold that can prevent a safety accident.

In addition, the present invention can minimize the occurrence of load due to the light weight can provide a safe support force of the safety scaffolding only with the scaffold frame, it is possible to selectively install a separate support structure on the bottom, safe and fast when finishing the outer wall Its purpose is to provide a construction scaffolding device that includes a safety scaffold that can be constructed.

In addition, an object of the present invention is to provide a construction scaffolding device including a safety scaffold that can easily move up and down the scaffolding device without a separate lifting device by configuring a step structure that can be moved up and down to the left and right sides of the safety scaffold.

In addition, the present invention provides a construction scaffolding device including a safety scaffolding that can be installed at a time from the top of the scaffolding device at a time from the top of the scaffolding device when the safety scaffold is fixed directly coupled to the second scaffold frame. Its purpose is to.

The present invention for achieving the above object is a plurality of first scaffold frame erected perpendicular to the outer wall side of the building; A second scaffold frame connecting the first scaffold frame to support the load of the safety scaffold; A third scaffold frame configured below the second scaffold frame to reinforce the rigidity of the scaffold frame; Fastening means for connecting the first to third scaffold frames; A connection bracket coupled to the fastening means to connect the first to third scaffold frames, respectively, and to fix the first scaffold frame to the ground; It characterized in that it comprises a safety scaffold formed with a fixed ring portion at both ends to be coupled to the second scaffold frame.

In addition, the first to third scaffold frame is characterized in that each of the first to third guide holes in which the fastening means is slidably inserted.

In addition, the first to third guide holes are formed on the circumferential surface of the first to third scaffold frame, characterized in that the fastening means is fastened regardless of the installation direction.

The fastening means may further include a guide part slidably inserted into the first to third scaffold frames to set a fixed position of the scaffold frame.

In addition, the fixing ring portion is characterized in that the coupling groove is further formed in any one of the shape of a square, circular shape.

In addition, the first to third scaffold frame is arranged in a direction orthogonal to each other to form a grid pattern is characterized in that the coupling by the fastening means.

In addition, the connecting bracket is fixed to the ground by an anchor bolt at the lower end of the first scaffolding frame, characterized in that the upper portion is connected to the outer wall of the building by the anchor bolt.

In addition, the scaffolding frame is characterized in that the lifting frame further connects the safety footrest in a step form to one side thereof.

According to the present invention, by installing a square scaffold frame made of light and high strength aluminum on the ground through the anchor bolt and the connection bracket, the scaffolding device can be provided with a strong support force from the ground to break down the scaffolding device Prevention, of course, there is an effect that allows the safe work of the operator.

In addition, according to the present invention, by securely fastening the scaffold frame and the safety scaffolding with T-bolt, safe construction is possible even at high altitudes, and because of the rectangular structure can maximize the coupling force of the safety scaffold, of course, slipping Since it can prevent the safety accident is effective.

In addition, according to the present invention, it is possible to minimize the occurrence of load due to the light weight can provide a safe support force of the safety scaffolding only with the scaffold frame, it is possible to selectively install a separate support structure on the bottom safety when finishing the outer wall And the construction can be effected quickly.

In addition, according to the present invention, by constructing a staircase structure that can be moved up and down on the left and right sides of the safety step, there is an effect that can easily move up and down the scaffolding device without a separate lifting device.

In addition, according to the present invention, since the safety scaffold is directly coupled to the second scaffold frame can be installed at a time from the top to the bottom of the scaffolding device at the time of construction of the safety net has the effect of easy and simple construction of the safety net.

1 is a view showing a scaffold for building construction according to the prior art,

Figure 2 is a perspective view schematically showing a construction scaffolding device including a safety scaffold according to an embodiment of the present invention,

3 is an enlarged view illustrating main parts of FIG. 2 according to an embodiment of the present invention;

4 is a view showing a safety step according to an embodiment of the present invention,

5 and 6 are perspective views showing the coupling structure of the scaffold frame according to an embodiment of the present invention.

A plurality of first scaffold frames erected perpendicularly to the outer wall side of the building, the second scaffold frame connecting the first scaffold frame and supporting the load of the safety scaffold and a lower side of the second scaffold frame A scaffold frame having a third scaffold frame configured to reinforce rigidity of the scaffold frame, wherein the scaffold frame includes first to third guide holes in which guide parts are slidably inserted therein;

Fastening means connecting the first to third scaffold frames, the guide parts being slidably inserted into the first to third scaffold frames to set a fixed position of the scaffold frame;

Is fastened to the fastening means and connected to each of the first to third scaffold frame, and fixed to the ground by an anchor bolt at the lower end of the first scaffold frame, is configured to be connected to the outer wall of the building and the anchor bolt to the upper side Connection brackets for connecting the outer wall of the building located on the fifth floor and the first scaffold frame to improve the fixing force between the scaffold frame and the building;

An elevating frame that connects the safety scaffold in one step to the scaffold frame; And

Fixed ring portions are formed at both ends to be coupled to the second scaffold frame, and the safety net installed to the outside of the scaffolding device by being coupled so as not to protrude out of the second scaffolding frame is lowered from the top of the scaffolding device to a lower portion of the scaffolding device. It is characterized by including a safety scaffolding to allow construction through the work.

Figure 2 is a perspective view schematically showing a building scaffolding device including a safety scaffold according to an embodiment of the present invention, Figure 3 is an enlarged view of the main portion of Figure 2 according to an embodiment of the present invention, Figure 4 is an embodiment of the present invention 5 and 6 are perspective views illustrating a coupling structure of a scaffold frame according to an embodiment of the present invention.

As shown, the construction scaffolding and safety scaffolding of the present invention is a scaffold frame 100 consisting of a plurality of first to third scaffold frame (110, 120, 130) connected to be orthogonal to each other, and the second scaffold frame ( It is configured to include a safety footrest 200 detachably coupled on the 120.

The scaffold frame 100 is made of aluminum, and is installed on the outer wall of the building at regular intervals so that a worker's passage and construction work are performed when the building is constructed, and the first scaffold frame 110 is installed vertically from the ground. Is installed in the direction orthogonal to the first scaffold frame 110, the second scaffold frame 120 to which the safety scaffold 200 is coupled and the first and second scaffold frame to prevent the operator from falling in high altitude It is composed of a third scaffold frame 130, combined with (110, 120) serves as a safety railing.

In addition, the scaffold frame 100 is connected to and fixed to each of the frames (110, 120, 130), the coupling bracket 140 for fixing the first scaffold frame (110) to the ground is configured.

The scaffold frame 100 further includes a guide hole 102 into which the fastening means 160 is inserted to connect the

frames

110, 120, and 130, respectively.

The guide hole 102 includes first to

third guide holes

112, 122, and 132 configured in all of the first to

third scaffold frames

110, 120, and 130, and is formed at each circumferential surface thereof. By allowing the fastening means 160 to be fastened regardless of the installation direction, it will be possible to construct the frame structure of the building scaffold more quickly.

Here, the fastening means 160 is inserted into the guide hole 102 to set the position of the first to third scaffold frame (110, 120, 130), each of the frame (110, 120, 130) is a connecting bracket ( The guide portion 170 is configured to be fixed to each other by the 140, the manufacturing means 160 may be made of a conventional T-bolt, but is not limited thereto, the fastening means 160 and the guide portion Each 170 may be configured in an independent configuration to be combined to be separated from each other.

That is, the guide unit 170 of the present invention is configured to slide along the guide hole 102 to the appropriate installation position of each of the

frames

110, 120, 130, thereby setting the installation position of the safety footrest 200 It will be more convenient to move.

The first scaffold frame 110 serves as a column that is erected vertically on the outer wall side of the building so as to support the vertical load of the building scaffolding, and is composed of a plurality of spaced apart at regular intervals in the width direction of the building.

In addition, the first scaffold frame 110 is fastened to the fastening means 160 along the circumferential surface, the first guide hole 112 is inserted into the guide portion 170 to guide the fixing position of the fastening means 160. ) Is formed.

The first scaffold frame 110 is coupled to the ground using only the connecting bracket 140 and the anchor bolt, or fixed directly to the ground according to the height of the installation, it is more robust than conventional construction scaffolding In addition to providing support, the construction time of the scaffolding frame can be greatly reduced.In case of a high-rise building, it can be fastened to the exterior wall of the building from at least five floors or higher, providing more fixing force with the building, thus making workers more secure. Can be secured.

The second scaffold frame 120 connects the plurality of first scaffold frames 110 spaced apart from each other at regular intervals, and supports the load of the worker using the safety scaffold 200, and the length of the first scaffold frame 110 is provided. A plurality of second guide holes 122 are fixed to be spaced apart at predetermined intervals along the direction and into which the fastening means 160 and the guide part 170 are inserted.

The second scaffold frame 120 includes a fastening means 160 in which a connection bracket 140 is inserted into the first guide hole 112 so that the second scaffold frame 120 can be combined with the first scaffold frame 110, and the second guide hole 122. The first and

second scaffold frames

110 and 120 are connected to and fixed in a direction perpendicular to each other while being coupled to the fastening means 160 inserted into each other.

The second scaffold frame 120 is configured to be fixedly coupled to the fixing ring 220 formed on the safety scaffold 200 on the top, even without using a fixing means such as a clamp like a conventional safety scaffold 200 Close coupling with the safety scaffold 200 is possible, in particular, it is possible to more easily construct a safety net installed to the outside of the scaffolding device.

This is because, due to the conventional coupling method in which the fixing means such as clamps are mounted to the outside of the scaffolding device for the construction of the scaffolding, the safety net must be installed individually on each floor in the transverse direction of the scaffolding device. Construction difficulty of construction, construction process and construction time is complicated, and the problems such as damage to the safety net by a clamp or the like can be overcome by the safety scaffold 200 coupling method of the present invention.

That is, in the present invention, since the safety scaffold 200 is directly coupled to the second scaffold frame 120 and there is no structure that protrudes to the outside of the scaffolding device, the construction is performed through one operation while lowering the safety net from the upper portion of the scaffolding device to the bottom. Because of this, it is possible to construct quickly and conveniently while preventing damage to the safety net.

Such first and second scaffold frames 110 and 120 of the present invention are arranged in the form of a lattice pattern, are joined by an anchor bolt to form a scaffold frame 100, the height of the building is a predetermined height or more , The anchor bolt is connected to the second scaffold frame 120 and the outer wall of the building to improve the safety of the scaffold frame 100 to prevent the safety accident of the operator occurs.

The third scaffold frame 130 is configured between a plurality of second scaffold frame 120 is configured to prevent the worker from falling or moving through the safety scaffold 200, both ends of the first scaffold frame 120, The scaffold frame 110, or the second scaffold frame 120, is coupled through the connection bracket 140.

The scaffold frame 100 of the present invention configured as described above may provide sufficient support force as the first scaffold frame 110 serves as a pillar while the lower portion thereof is fixedly coupled to the ground through the connection bracket 140. While the second scaffold frame 120 is coupled to the first scaffold frame 120 to support the load of the operator, the safety scaffold 200 is directly coupled to the second scaffold frame 120 to simplify the safety scaffold 200. It is configured to enable quick and quick installation.

In addition, by installing the third scaffold frame 130 between the second scaffold frame 120 to prevent the worker moving on the safety scaffold 200 to prevent the accident of the worker to occur. will be.

On the other hand, the connection bracket 140 of the present invention is to combine the respective frames while the fastening means 160 is mounted to the guide hole 102 of the scaffold frame 100, in particular the first scaffold frame 110 It is a component that can fix the lower end of the ground to the ground to provide a more robust support.

The connection bracket 140 performs a function of connecting means configured to connect the respective scaffolding frames 100 or to fix the first scaffolding frame 110 to the outer wall of the building or the ground through an anchor bolt. It is.

That is, the scaffold frame 100 of the present invention is the first scaffolding due to the coupling of the anchor bolt and the connection bracket 140 than the conventional scaffold frames that are frequently broken because it is not fixed by conventional anchor bolts or the like. The frame 110 is able to obtain a solid support force from the ground, it is possible to safely construction of high-rise buildings, as well as to prevent the accident from collapsing due to the load of the scaffold frame 100.

In addition, the safety scaffold 200 of the present invention is detachably coupled to the second scaffold frame 120 to support the operator to perform the work for the construction of the outer wall of the high-rise, rectangular panel The outer surface of the second scaffold frame 120 is inserted into both sides thereof, and a plurality of fixing rings 220 are formed to fix the coupling between the second scaffold frame 120 and the safety scaffold 200.

Fixing ring 220 is to form a coupling groove 222 formed in a shape corresponding to the second scaffold frame 120 to be coupled to the outer surface of the second scaffold frame 120 to further enhance the fixing force of the safety scaffold 200. Could be.

In other words, one end of the safety scaffold 200 is coupled to the third scaffold frame 130, and the front, rear is coupled to the second scaffold frame 120, so that the operator can work on the safety scaffold 200 When the shaking can be reduced as much as possible to work more securely, which will be able to overcome the problems caused by the coupling relationship of the conventional scaffolding structure that was achieved only in the front and rear.

The fixed ring portion 220 is preferably configured in the form of a square groove in the present invention, but is not limited thereto, and may take the form of a circular groove so that the coupling can also be made with existing pipes. to be.

In addition, the present invention by connecting the safety scaffold 200 located in the upper and lower portions to the one side of the scaffold frame 100 in the form of a staircase so that the worker can easily climb up and down each floor of the building without a separate lifting device. It is possible to further configure the lifting frame such as.

Since the construction of the safety scaffold 200 of the present invention as described above does not protrude from the second scaffold frame 120 of the scaffold frame 100, when the construction of the clip to construct a safety scaffold as in the prior art It is made of a structure that can not only protrude behind the scaffolding, so it is difficult to construct and dismantle safety nets, and to overcome problems such as breakage of the safety nets, making it easier to construct and dismantle safety nets. will be.

The construction scaffolding and safety scaffold of the present invention configured as described above are installed to be combined with the safety scaffold by installing a square scaffold frame made of light and high strength aluminum, and fastening and fixing the scaffold frame and the safety scaffold with a T bolt. Therefore, safe construction is possible even at high altitudes, and the rectangular structure is used to maximize the binding force of the safety scaffolding and prevent slippage to prevent safety accidents. This is a possible invention.

100: scaffold frame 110: first scaffold frame

120: second scaffold frame 130: third scaffold frame

140: connection bracket 160: fastening means

170: guide portion 200: safety footrest

220: fixed ring

Claims

A plurality of first scaffold frames erected perpendicularly to the outer wall side of the building, the second scaffold frame connecting the first scaffold frame and supporting the load of the safety scaffold and a lower side of the second scaffold frame A scaffold frame having a third scaffold frame configured to reinforce rigidity of the scaffold frame, wherein the scaffold frame includes first to third guide holes in which guide parts are slidably inserted therein;

Fastening means connecting the first to third scaffold frames, the guide parts being slidably inserted into the first to third scaffold frames to set a fixed position of the scaffold frame;

Is fastened to the fastening means and connected to each of the first to third scaffold frame, and fixed to the ground by an anchor bolt at the lower end of the first scaffold frame, is configured to be connected to the outer wall of the building and the anchor bolt to the upper side Connection brackets for connecting the outer wall of the building located on the fifth floor and the first scaffold frame to improve the fixing force between the scaffold frame and the building;

An elevating frame that connects the safety scaffold in one step to the scaffold frame; And

Fixed ring portions are formed at both ends to be coupled to the second scaffold frame, and the safety net installed to the outside of the scaffolding device by being coupled so as not to protrude out of the second scaffolding frame is lowered from the top of the scaffolding device to a lower portion of the scaffolding device. Construction scaffolding apparatus including a safety scaffolding, characterized in that it comprises a safety scaffolding to enable construction through work.
The method of claim 1,

One end of the safety scaffold is combined with the third scaffold frame, the front, the rear is coupled with the second scaffold frame to reduce the shaking as much as possible when the operator proceeds on the safety scaffold more safe work Construction scaffolding apparatus comprising a safety scaffold, characterized in that possible.
The method of claim 1,

The first to third guide holes are constructed on the circumferential surface of the first to third scaffold frame, scaffolding device including a safety scaffold, characterized in that the fastening means is fastened irrespective of the installation direction.
The method of claim 1,

The scaffolding device including a safety scaffolding, characterized in that the fixing ring portion is further configured to form a coupling groove formed in any one of a square, circular shape.