KR102202750B1 - System scaffold having weight lightening and structural stabilities - Google Patents

Abstract

The present invention relates to a light-weight system scaffold having improved structural stability, which allows an end of a horizontal member to be placed on a horizontal support plate of a vertical member and allows a coupling protrusion to be fitted into a coupling hole so that the vertical member and the horizontal member are coupled (assembled) strongly to each other during assembly of a scaffold frame, thereby requiring no separate fastening device for coupling the vertical member and the horizontal member, and increasing the ease of assembly and disassembly of the scaffold frame, which has the octagonal cross-sectional structure of the scaffold frame (horizontal and vertical members) so that the scaffold frame can be easily coupled (connected) to another scaffold frame having a circular cross-sectional structure, and which has the octagonal cross-sectional structure of the scaffold frame and a long groove (recess) formed on the outer circumferential surface thereof to reduce the total weight of the scaffold frame by about 20% or more, thereby lightening the weight of the system scaffold.

Description

System scaffolding with improved weight and structural stability {SYSTEM SCAFFOLD HAVING WEIGHT LIGHTENING AND STRUCTURAL STABILITIES}

The present invention relates to a system scaffolding with improved weight and structural stability, and more particularly, when assembling the scaffolding frame, by mounting the end of the horizontal member on the horizontal support plate of the vertical member and inserting the coupling protrusion into the coupling hole. Since the vertical member and the horizontal member are firmly coupled (assembled), a separate fastening device to couple the horizontal member and the vertical member is not required, and it does not take much time to assemble and disassemble the scaffolding frame. Since the cross-sectional structure of the (horizontal and vertical member) is formed in an octagonal shape, it can be easily combined (connected) with other scaffolding frames having a circular cross-sectional structure, and light weight can be realized by forming the cross-section of the scaffolding frame in an octagonal shape. It relates to a system scaffolding that can be lightened and improved in structural stability.

In general, scaffolding refers to temporary temporary installations installed so that workers can stably work in high places such as construction sites, building construction sites, and shipyards, and workers transport various materials or form a path and space for workers' work.

Scaffolding is classified into general scaffolding and system scaffolding.General scaffolding is manufactured by assembling steel pipes and connecting hardware, which are usually called scaffolding pipes, and is also called steel pipe scaffolding, and does not directly affect the quality of the building. Bonnie tends to be neglected during installation, so there is a problem that safety devices such as safety scaffolding, stairs, handrails, etc. are insufficient, or a collapse accident occurs due to an incomplete structure.

In recent years, interest in system scaffolding is increasing in order to overcome the problems of such general scaffolding. Because the system scaffolding standardizes vertical members, horizontal members, stairs, and connecting hardware connecting them, and safety scaffolding and stair installation are basically configured. It is characterized by being sturdy and safe compared to general scaffolding.

Problems of the prior art

Conventional system scaffolding has a problem that when assembling, a separate fastening device for connecting the horizontal member and the vertical member, for example, a clamp, must be provided, so that assembling property is poor and it takes a lot of time to disassemble.

In addition, the conventional system scaffolding has a disadvantage that since the cross-sectional structure of the scaffolding frame (horizontal and vertical members) is formed in a square shape, it cannot be fastened to each other due to the structure of other scaffolding frames having a circular cross-sectional structure, and the scaffolding frame itself is too heavy.

In addition, the conventional system scaffolding has a disadvantage in that it is not possible to use an existing triangular-shaped outrigger, etc., and a configuration for protecting a worker such as a scaffold, and there is a disadvantage that a separate fastening device must be provided when an outrigger is to be installed. .

In addition, since the conventional system scaffolding has a structure in which the vertical member is fixed only to the ground, the mounting structure is very weak.

Therefore, by strengthening the combination structure and arrangement of the materials constituting the system scaffold, it is possible to prevent safety accidents in advance, and not only can work quickly and easily while reducing noise during installation and dismantling of the system scaffolding. Rather, there is an urgent need for a realistic and highly utilized system scaffolding technology capable of reusing materials constituting the system scaffolding, preventing waste of resources and preventing environmental pollution.

Korean Patent Publication No. 10-2005-0100846 Korean Patent Publication No. 10-2005-0100844

The present invention was invented to improve the above problems, and the problem to be solved by the present invention is to mount the end of the horizontal member on the horizontal support plate of the vertical member and insert the coupling protrusion into the coupling hole when assembling the scaffold frame. As a result, the vertical member and the horizontal member are firmly coupled (assembled), so that a separate fastening device for coupling the horizontal member and the vertical member is not required, and it does not take much time to assemble and disassemble the scaffold frame. It is to provide a system scaffold with improved weight and structural stability.

In addition, in the present invention, since the cross-sectional structure of the scaffolding frame (horizontal and vertical member) is formed in an octagonal shape, it can be easily combined (connected) with other scaffolding frames having a circular cross-sectional structure, and the cross-sectional shape of the scaffolding frame is octagonal. It is intended to provide a system scaffold with improved structural stability and light weight that can achieve weight reduction by reducing the total weight of the scaffold frame by about 20% or more by forming a shape and forming a long groove (concave groove) on the outer peripheral surface thereof.

In addition, the present invention can easily mount a configuration for protecting a worker on a scaffold and a triangular outrigger, etc., and a toe plate is provided between vertical members to prevent the worker from falling even when the worker slips. It is to provide a system scaffold with improved structural stability and light weight that can prevent safety accidents in advance.

The technical problem of the present invention is not limited to those mentioned above, and another technical problem that is not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the system scaffold according to the present invention includes a plurality of vertical members connected vertically to each other, a horizontal support plate integrally formed along an outer circumferential surface, and a coupling hole formed in the horizontal support plate; A horizontal member installed horizontally to connect the vertical member, both end portions being supported on the horizontal support plate, and having a coupling protrusion for coupling into the coupling hole; And a scaffold height adjusting means installed below the vertical member to adjust the height of the vertical member. Includes.

In addition, among the vertical members, a vertical member for connection is located between the first vertical member positioned at the top and the second vertical member positioned at the bottom, and the upper end of the vertical member for connection is It is inserted into the lower end, the lower end of the connecting vertical member is inserted into the upper end of the second vertical member, the connecting vertical member vertically connecting the first vertical member and the second vertical member to each other, and the connection A stopper is formed at an intermediate portion of the vertical member, and is configured to fix the positions of the first vertical member and the second vertical member.

In addition, cross-sections of the vertical member and the horizontal member may be formed in an octagonal shape, and the vertical member and the horizontal member may have long grooves formed on their outer circumferential surfaces along the longitudinal direction.

In addition, the system scaffolding of the present invention may provide an outrigger on the side of the vertical member.

The outrigger may include a frame formed of a plurality of pipes; A flat plate installed under the frame; A coupling portion supported on the horizontal support plate and having a coupling protrusion for coupling into the coupling hole; And an outrigger height adjusting means for adjusting the height of the frame. Includes.

In addition, in order to mount the flat plate on the frame, mounting portions are formed at both ends of the flat plate, and the mounting portion may have a double hook structure of a first hook and a second hook.

In addition, the outrigger height adjustment means is vertically inserted into the frame, a screw portion is formed on the outer circumferential surface, and a vertical moving bar having a base supported on the ground at the bottom; And a tightening nut-type handle rotatably installed on the outer circumferential surface of the vertical moving bar in order to fix the height of the vertical moving bar and having a threaded portion formed on the inner circumferential surface. It is equipped with.

In addition, the scaffold height adjusting means is vertically inserted into the vertical member, a threaded portion is formed on the outer circumferential surface, and a vertical moving bar having a base in contact with the ground at the bottom; And a tightening nut-type handle rotatably installed on the outer circumferential surface of the vertical moving bar in order to fix the height of the vertical moving bar and having a threaded portion formed on the inner circumferential surface. It is equipped with.

In addition, a toe membrane plate is provided between the vertical member and the vertical member, coupling grooves for coupling with the vertical member are formed at both ends of the toe membrane plate, and the toe membrane may be fitted between the vertical members to be installed. have.

On the other hand, in the present invention, an annular rocker may be installed at the lower portion of the horizontal base plate to prevent the coupling protrusion from being arbitrarily removed from the coupling hole, and a locking hole is formed at the end of the coupling protrusion, and the annular rocker A locking pin for selectively fitting and coupling into the locking hole is movably installed on the outer periphery of the locker, and a spring may be interposed on the locking pin.

As described above, the present invention has the following effects.

First, when assembling the scaffolding frame, the horizontal member and the horizontal member are firmly coupled (assembled) by mounting the end of the horizontal member on the horizontal support plate of the vertical member and inserting the coupling protrusion into the coupling hole. There is an advantage that a separate fastening device is not required for combining the scaffolding, and a lot of time is not required for disassembly as well as assembly of the scaffolding frame.

Second, since the cross-sectional structure of the scaffolding frame (horizontal and vertical members) is formed in an octagonal shape, it can be easily combined with other scaffolding frames having a circular cross-sectional structure, and the cross-sectional structure of the scaffolding frame is formed in an octagonal shape. By forming an elongated groove in the scaffolding frame, the total weight of the scaffolding frame can be reduced by about 20% or more, resulting in lighter weight.

Third, there is an advantage of being able to easily mount a triangular-shaped outrigger, etc., as well as a configuration to protect workers on a scaffold.

Fourth, by providing a toe plate between the vertical members, it is possible to prevent safety accidents in advance by preventing the operator from falling even when the operator slips.

Lastly, by further providing a support bracket under the vertical member, the structural stability of the scaffold can be improved, and safety accidents can be prevented in advance by strengthening the coupling structure and arrangement of the materials constituting the system scaffold. When installing and disassembling the system scaffolding, it is possible to work quickly and easily while reducing noise, as well as reusing materials that make up the system scaffolding, thereby preventing waste of resources and environmental pollution. It is practical and very useful.

The effects of the present invention are not limited to the effects mentioned above, and other effects that are not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a plan view showing a system scaffold according to the present invention
2 is a plan view of the first stage of the system scaffold according to the present invention
3 is a plan view of the second stage of the system scaffold according to the present invention
Figure 4 is a front view showing the system scaffolding according to the present invention
5 is a rear view showing the system scaffolding according to the present invention
6 is a front view showing the system scaffolding according to the present invention
7 is a left side view showing a system scaffold according to the present invention
8 is a longitudinal sectional view taken along line a'-a' of FIG. 1
9 is a longitudinal sectional view taken along line b'-b' of FIG. 1
10 is a longitudinal sectional view taken along line c'-c' of FIG. 1
11 is an enlarged view of an excerpt of the main part of FIG. 4
12 is a perspective view showing an outrigger of the system scaffold according to the present invention
13 is an enlarged view of a main part of FIG. 12
14 and 15 are views showing a scaffold height adjustment means and an outrigger height adjustment means
16 and 17 are longitudinal cross-sectional views illustrating locking and unlocking of an annular rocker in a system scaffold according to a modified example of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention.

In describing the present embodiment, descriptions of technical contents that are well known in the technical field to which the present invention pertains and are not directly related to the present invention will be omitted. This is to more clearly convey the gist of the present invention by omitting unnecessary description. For the same reason, some components in the accompanying drawings are exaggerated, omitted, or schematically illustrated.

Also, the size of each component does not fully reflect the actual size. The same reference numerals are assigned to the same or corresponding components in each drawing.

Also, the device or element orientation (eg "front", "back", "up", "down", "top", "bottom" Expressions and predicates used in the present invention with respect to terms such as ", "left", "right", "lateral") are used only to simplify the description of the present invention, and It will be appreciated that the device or element simply does not indicate or imply that it should have a particular orientation.

The system scaffolding according to the present exemplary embodiment can be combined with an existing circular member by configuring the cross-sectional structure of vertical and horizontal members in an octagonal shape, as well as reducing the total weight of the scaffold by about 20% or more.

The system scaffolding according to the present embodiment may be made of metal such as aluminum alloy and steel, as well as engineering plastics.

In addition, in connecting and coupling the vertical member and the horizontal member to each other, a horizontal support plate having a coupling hole is integrally formed along the outer circumferential surface of the vertical member, and accordingly, coupling protrusions are formed at both ends of the horizontal member. After supporting both ends of the horizontal member on the base plate, by inserting the coupling protrusion into the coupling hole, the vertical member and the horizontal member can be easily assembled (coupled), as well as the dismantling operation is very easy.

Hereinafter, the present invention will be described with reference to drawings for explaining a system scaffold according to embodiments of the present invention.

First, referring to FIGS. 1 to 15, a plurality of system scaffolds 100 according to the present invention are vertically connected to each other, and a horizontal base plate 111 is integrally formed along the outer circumferential surface and coupled to the horizontal base plate 111 A vertical member 110 having a hole 112 formed therein; A horizontal member 120 installed horizontally to connect the vertical member 110 and having both end portions supported on the horizontal base plate 111 and having a coupling protrusion 121 for coupling into the coupling hole 112; And a scaffold height adjusting means 130 installed below the vertical member 110 to adjust the height of the vertical member 110. Includes.

In addition, the vertical member 110 may be composed of a plurality of pipes, for example, three pipes, between the first vertical member 113 located at the top and the second vertical member 114 located at the bottom. The vertical member 115 for connection may be located.

The upper end of the connection vertical member 115 is inserted into the lower end of the first vertical member 113, and the lower end of the connection vertical member 115 is inserted into the upper end of the second vertical member 114, The member 115 vertically connects the first vertical member 113 and the second vertical member 114 to each other, and a stopper 115a is formed in the middle portion of the vertical member 115 for connection, so that the first vertical member It is configured to selectively fix the positions of 113 and the second vertical member 114.

That is, the connection vertical member 115 serves to connect the first vertical member 113 and the second vertical member 114, and with this structure, the length of the vertical member 110 can be adjusted to a desired length by the operator. I can.

In addition, the vertical member 110 and the horizontal member 120, the cross section may be formed in an octagonal shape, the vertical member 110 and the horizontal member 120 is a long groove (H) along the longitudinal direction on the outer peripheral surface Can be formed.

Since the cross section of the vertical member 110 and the horizontal member 120 is formed in an octagonal shape and a long groove (H) is formed on the outer circumferential surface, it can be combined with an existing circular member, as well as the total weight of the scaffolding about 20 It can be reduced by more than %.

In the system scaffolding of the present embodiment, a truss T may be installed between the vertical member 110 and the vertical member 110.

A safety footrest 125 and an inclined staircase 127 may be installed on the horizontal member 120. The safety footrest 125 may be made of aluminum or steel.

In addition, a support bracket 129 is installed in the lower portion, so that the system scaffold 100 can be stably installed.

In addition, the system scaffolding of the present invention may be provided with an outrigger 140 on the side of the vertical member 110.

The outrigger 140 may include a frame 141 formed of a plurality of pipes; A flat plate 142 installed under the frame 141; A coupling portion 143 supported on the horizontal support plate 111 and having a coupling protrusion 144 for coupling into the coupling hole 112; And an outrigger height adjusting means 145 for adjusting the height of the frame 141. Includes.

In addition, the outrigger height adjustment means 145 is vertically inserted into the frame 141, a threaded portion 146a is formed on the outer circumferential surface, and a vertical moving bar 146 having a base 146b supported on the ground at the bottom ; And a screw portion (147a) is formed on the inner circumferential surface, a tightening nut-type handle 147 rotatably installed on the outer circumferential surface of the vertical movement bar 146 to fix the height of the vertical movement bar 146; It is equipped with.

The height of the outrigger can be appropriately adjusted by tightening or loosening the tightening nut-type handle 147 of the outrigger height adjusting means 145 while rotating.

In addition, in order to mount the flat plate 142 on the frame 141, mounting portions 148 are formed at both ends of the flat plate 142, and the mounting portion 148 includes a first hook 148a and a second hook 148b. ) Can be composed of a double structure. By being configured with a double hook structure in this way, the flat plate 142 can be stably mounted.

In addition, the scaffold height adjustment means 130 is vertically inserted into the vertical member 110, a threaded portion 131a is formed on the outer circumferential surface, and a vertical moving bar having a base 132b in contact with the ground at the bottom ( 131); And a screw portion (132a) is formed on the inner circumferential surface, a tightening nut-type handle 132 rotatably installed on the outer circumferential surface of the vertical movement bar 131 to fix the height of the vertical movement bar 131; It is equipped with.

The height of the scaffold can be appropriately adjusted by tightening or loosening the tightening nut-type handle 132 of the scaffold height adjusting means 130 while rotating.

In addition, between the vertical member 110 and the vertical member 110, a toe blocking film 150 is provided with a plate, and coupling grooves 151 for coupling with the vertical member 110 at both ends of the toe blocking film 150 Is formed, the toe blocking film 150 may be inserted between the vertical members 110 and installed. In this way, without a separate fastening device (for example, clamps or bolts), since the toe blocking film 150 is inserted between the vertical members 110, the toe blocking film 150 is rigidly installed without falling out even during external vibration or impact. Can be.

Meanwhile, FIGS. 16 and 17 are longitudinal cross-sectional views illustrating locking and unlocking of an annular rocker in a system scaffold according to a modified example of the present invention.

Referring to the above drawing, in the system scaffolding according to a modified example of the present invention, the annular rocker 160 for preventing the coupling protrusion 121 coupled in the coupling hole 112 at the lower portion of the horizontal base plate 111 from being arbitrarily removed. Can be installed.

A locking hole 121a is formed at the end of the coupling protrusion 121, and a locking pin 161 is movably installed on the outer circumference of the annular rocker 160 to be selectively fitted and coupled to the locking hole 121a, A spring 162 may be interposed in the locking pin 161.

An insertion groove 165 is formed on the outer circumferential surface of the vertical member 110, and correspondingly, the insertion protrusion 167 is coupled to the inner circumference of the annular rocker 160, so that the annular rocker 160 is disposed downward. Try to stay in place without losing.

Further, by forming an elastic member such as rubber (R) at the end of the horizontal member 120, it is possible to buffer external impact and increase structural stability.

As shown in FIG. 16, by inserting a locking pin 161 into the locking hole 121a at the time of assembly to prevent the coupling protrusion 121 coupled in the coupling hole 112 from being arbitrarily removed, the vertical member 110 and Maintains the coupling of the horizontal member 120 firmly, and as shown in FIG. 17, the vertical member 110 and the horizontal member 120 are separated by removing the locking pin 161 from the locking hole 121a at the time of disassembly. Facilitates.

As described above, the present invention has the following effects.

First, when assembling the scaffolding frame, the horizontal member and the horizontal member are firmly coupled (assembled) by mounting the end of the horizontal member on the horizontal support plate of the vertical member and inserting the coupling protrusion into the coupling hole. There is an advantage that a separate fastening device is not required for combining the scaffolding, and a lot of time is not required for disassembly as well as assembly of the scaffolding frame.

Second, since the cross-sectional structure of the scaffolding frame (horizontal and vertical members) is formed in an octagonal shape, it can be easily combined with other scaffolding frames having a circular cross-sectional structure, and the cross-sectional structure of the scaffolding frame is formed in an octagonal shape. By forming an elongated groove in the scaffolding frame, the total weight of the scaffolding frame can be reduced by about 20% or more, resulting in lighter weight.

Third, there is an advantage of being able to easily mount a triangular-shaped outrigger, etc., as well as a configuration to protect workers on a scaffold.

Fourth, by providing a toe plate between the vertical members, it is possible to prevent safety accidents in advance by preventing the operator from falling even when the operator slips.

Lastly, by further providing a support bracket under the vertical member, the structural stability of the scaffold can be improved, and safety accidents can be prevented in advance by strengthening the coupling structure and arrangement of the materials constituting the system scaffold. When installing and disassembling the system scaffolding, it is possible to work quickly and easily while reducing noise, as well as reusing materials that make up the system scaffolding, thereby preventing waste of resources and environmental pollution. have.

Meanwhile, in the present specification and drawings, a preferred embodiment of the present invention has been disclosed, and although specific terms are used, this is only used in a general meaning to easily describe the technical content of the present invention and to aid understanding of the present invention. It is not intended to limit the scope of the invention. In addition to the embodiments disclosed herein, it is apparent to those of ordinary skill in the art that other modified examples based on the technical idea of the present invention can be implemented.

The present invention can be variously modified and may take various forms. However, it should be understood that the present invention is not limited to the particular form mentioned in the detailed description above, but rather, all modifications, equivalents, and substitutes within the spirit and scope of the present invention defined by the appended claims. It should be understood to include.

100: system scaffolding
110: vertical member
111: horizontal base plate
112: coupling hole
113: first vertical member
114: second vertical member
115: vertical member for connection
115a: stopper
120: horizontal member
121: coupling protrusion
121a: locking hole
125: safety footstool
127: inclined stairs
129: support bracket
130: scaffold height adjustment means
131: vertical movement bar
131a: threaded portion
132: tightening nut type handle
132a: threaded portion
132b: base
140: outrigger
141: frame
142: reputation
143: coupling portion
144: coupling protrusion
145: outrigger height adjustment means
146: vertical movement bar
146a: threaded portion
146b: base
147: tightening nut type handle
147a: threaded portion
148: installation part
148a: first hook
148b: second hook
150: toe barrier
151: coupling groove
160: annular rocker
161: locking pin
162: spring

Claims (10)

A plurality of vertical members connected vertically to each other, a horizontal support plate integrally formed along an outer circumferential surface, and a vertical member having a coupling hole formed in the horizontal support plate;
A horizontal member installed horizontally to connect the vertical member, both ends thereof being supported on the horizontal support plate, and having a coupling protrusion for coupling into the coupling hole; And
A scaffold height adjusting means installed below the vertical member to adjust the height of the vertical member; Including,
A toe blocking film plate is provided between the vertical member and the vertical member, coupling grooves for coupling with the vertical member are formed at both ends of the toe blocking film plate, and the toe blocking film is fitted between the vertical members to be installed. System scaffolding, characterized in that. The method of claim 1,
Among the vertical members, a vertical member for connection is positioned between the first vertical member positioned at the top and the second vertical member positioned at the bottom,
The upper end of the connection vertical member is inserted into the lower end of the first vertical member, and the lower end of the connection vertical member is inserted into the upper end of the second vertical member, so that the connection vertical member and the first vertical member Vertically connecting the second vertical members to each other,
A system scaffold, characterized in that a stopper is formed at an intermediate portion of the connecting vertical member to fix positions of the first vertical member and the second vertical member. The method of claim 1,
The cross section of the vertical member and the horizontal member is formed in an octagonal shape,
The vertical member and the horizontal member, the system scaffolding, characterized in that the long groove is formed along the longitudinal direction on the outer peripheral surface. The method of claim 1,
An outrigger is provided on the side of the vertical member,
The outrigger is,
A frame formed of a plurality of pipes;
A flat plate installed under the frame;
A coupling portion supported on the horizontal support plate and having a coupling protrusion for coupling into the coupling hole; And
Outrigger height adjustment means for adjusting the height of the frame; System scaffolding comprising a. The method of claim 4,
In order to mount the flat plate on the frame, mounting portions are formed at both ends of the flat plate, and the mounting portion has a double hook structure of a first hook and a second hook. The method of claim 4,
The outrigger height adjustment means
A vertically movable bar inserted vertically into the frame, a threaded portion formed on an outer circumferential surface, and having a base supported on the ground at a lower end; And
A tightening nut-type handle rotatably installed on the outer circumferential surface of the vertical moving bar in order to fix the height of the vertical moving bar and having a screw portion formed on the inner circumferential surface; Scaffolding system comprising a. The method of claim 1,
The scaffold height adjustment means
A vertically movable bar vertically inserted into the vertical member, a threaded portion formed on an outer circumferential surface, and having a base contacting the ground at a lower end; And
A tightening nut-type handle rotatably installed on the outer circumferential surface of the vertical movable bar to fix the height of the vertical movable bar, the threaded portion formed on the inner circumferential surface; Scaffolding system comprising a. delete The method of claim 1,
A system scaffolding system, characterized in that an annular rocker is installed at a lower portion of the horizontal base plate to prevent the coupling protrusion from being arbitrarily removed from the coupling hole. The method of claim 9,
A locking hole is formed at the end of the coupling protrusion, and a locking pin is movably installed on the outer circumference of the annular locker for selectively fitting and coupling into the locking hole, and a spring is interposed on the locking pin. fat.

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