KR101599139B1 - Scaffolding - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a scaffold installed temporarily in a workplace, and more particularly, to a scaffold that can withstand a larger load so that more workers can perform the work and eventually shorten the work time.
The scaffold according to the present invention includes a plurality of supporting mechanisms arranged vertically and spaced apart from each other and a plurality of connecting rods disposed between the supporting mechanisms, the supporting mechanism includes a plurality of connecting units coupled to the connecting rods, And a reinforcing frame disposed to face the two support frames between a plurality of support frames coupled to the linking unit and two support frames disposed to face each other of the support frames.

Description

Scaffolding {SCAFFOLDING}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a scaffold installed temporarily in a work site, and more particularly to a scaffold structurally reinforced.

In general, scaffolds are temporary scaffolds installed in workshops where work must be performed at high places, such as building construction or shipbuilding, and are used as a material conveying path, a work path for a worker, and a scaffold for work.

The scaffold according to the prior art generally has a form in which a steel material such as a pipe is welded to form a frame, and then the work footrest is fixed to the frame. The scaffold according to the related art has the following problems.

First, the scaffold according to the prior art was made by welding a pipe and could not support a large load. That is, a large number of workers are climbing on the scaffold according to the prior art, and thus the work can not be performed. As a result, there has been a problem that the working time is inevitably prolonged.

In addition, since it can not support a large load, various materials consumed for the work can not be placed on the scaffold according to the prior art. Therefore, it takes a lot of time to move the material to the working position, and thus the working time is delayed.

Second, since the scaffold according to the prior art is formed by simply welding a pipe, the durability is low. Accordingly, when the scaffold according to the prior art is broken, it takes a lot of cost to repair the scaffold.

In addition, when the scaffold according to the prior art is broken, there is a risk that the worker who performed the above operation may be injured.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a scaffold which can increase work speed by allowing a larger number of operators to perform work through a structure capable of withstanding a large load.

It is another object of the present invention to provide a scaffold that allows for greater and higher installation through a structure that can withstand large loads.

It is still another object of the present invention to provide a scaffold that improves durability through a reinforced structure and is not easily broken.

Another object of the present invention is to provide a scaffold that can be easily and safely installed through assembly.

An object of the present invention is to provide a scaffold for provisionally installed in a work place, comprising: a plurality of support mechanisms arranged vertically and spaced apart from each other; And a plurality of connecting rods disposed between the supporting mechanisms, wherein the supporting mechanism includes a plurality of connecting units coupled to the connecting rods, a plurality of supporting frames having both ends coupled to the connecting units, A reinforcing frame disposed between the two support frames disposed to face each other and facing the two support frames; an auxiliary frame having both ends coupled to the support frame and the reinforcement frame, or both ends thereof being coupled to the reinforcement frame; And a reinforcing member having both ends thereof joined to two support frames orthogonal to each other so as to be closer to the connecting unit than the reinforcing frame and the auxiliary frame, wherein the connecting unit has a rectangular columnar body portion, And protruding from the side surface of the body portion so as to be engaged with the frame, And a cylindrical connecting portion formed at an end of the body portion to connect the connecting rod.

According to a preferred aspect of the present invention, the support frame includes an upper support body coupled to the connection unit, a lower support body disposed below the upper support body, and a lower support body disposed below the upper support body, And a support rib coupled to the lower support body.

According to another preferred aspect of the present invention, the support frame includes an upper support body coupled to the connection unit, and a support coupling portion to which the reinforcement frame is coupled, And a support restricting portion disposed adjacent to both sides of the reinforcement frame and protruding from the upper support body to restrain the reinforcement frame.

According to another preferred aspect of the present invention, the reinforcing frame includes an upper reinforcing body coupled to the support frame, a lower reinforcing body disposed below the upper reinforcing body, and a lower reinforcing body connected to the upper reinforcing body and the lower reinforcing body And a reinforcing rib coupled to the upper reinforcing body and the lower reinforcing body to improve the strength of the reinforcing frame. The length of the lower reinforcing body may be shorter than the length of the upper reinforcing body.

According to another preferred aspect of the present invention, the reinforcing frame includes an upper reinforcing body coupled to the support frame, and a reinforcing coupling portion to which the auxiliary frame is coupled, And a reinforcement restraining part protruding from the upper side reinforcement body so as to restrain the subframe and disposed adjacent to both sides of the subframe.

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According to another preferred feature of the present invention, the support mechanism includes an upper support mechanism and a lower support mechanism disposed below the upper support mechanism, wherein the reinforcement frame of the upper support mechanism and the reinforcement frame of the lower support mechanism May be arranged to be offset from each other.

The above and other objects, features and advantages of the present invention will become more apparent from the following description of preferred embodiments of the present invention taken in conjunction with the accompanying drawings, A reinforcing frame coupled to the third support frame and the fourth support frame so as to be disposed between the first support frame and the second support frame in parallel with the first support frame and the second support frame, The second support frame, the third support frame, and the fourth support frame to connect the first support frame and the second support frame to the third support frame and the fourth support frame, And a linkage unit coupled to the linkage unit.

According to the scaffold of the present invention, by providing the reinforcing frame, the load applied to the support frame can be dispersed to withstand a larger load.

Further, according to the scaffold according to the present invention, since it is able to withstand a larger load, more workers can perform the work, and as a result, the work time can be shortened.

Further, according to the scaffold of the present invention, by supporting the load by the support frame and the reinforcing frame, the durability of the support mechanism can be improved, and the cost for repairing the scaffold broken can be reduced.

In addition, according to the scaffold of the present invention, durability is improved, and the operator can be prevented from being injured due to breakage of the scaffold.

Further, according to the scaffold of the present invention, the supporting frame and the connecting unit are separated and the supporting mechanism can be assembled by assembling.

1 is a perspective view illustrating a scaffold according to an embodiment of the present invention;
Fig. 2 is an exploded perspective view showing the support mechanism of the scaffold shown in Fig. 1. Fig.
Fig. 3 is a view showing the connection unit of the scaffold shown in Fig. 1; Fig.
4 is a view showing the support frame of the scaffold shown in Fig.
Fig. 5 is a view showing the reinforcement frame of the scaffold shown in Fig. 1. Fig.
Fig. 6 is a perspective view showing another example of a support mechanism of the scaffold shown in Fig. 1. Fig.
7 and 8 are perspective views illustrating an example of installation of a scaffold according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood, however, that the embodiments described below are only for explanation of the embodiments of the present invention so that those skilled in the art can easily carry out the invention, It does not mean anything. In describing various embodiments of the present invention, the same reference numerals are used for components having the same technical characteristics.

1 to 5, a scaffold 1 according to an embodiment of the present invention includes a plurality of support mechanisms 10 and a plurality of support rods 10 arranged between the support mechanisms 10, (20). The support mechanism 10 includes a plurality of connection units 100 coupled to each of the connection rods 20 and a plurality of support frames 200 and support frames 200 having both ends coupled to the connection unit 100, And a reinforcing frame 300 disposed to face the two support frames 200 between the two support frames 200 arranged.

The support mechanism (10) is composed of a support frame (200) and a reinforcement frame (300). The support mechanism 10 functions as a skeleton of the scaffold 1 according to an embodiment of the present invention. Specifically, the support frame 200 and the reinforcement frame 300 of the support mechanism 10 function as a skeleton. The support mechanism 10 supports the load applied to the scaffold 1 according to an embodiment of the present invention as a skeleton of the scaffold 1 according to an embodiment of the present invention.

The supporting mechanism 10 is supported by the connecting rod 20 and stacked up and down. That is, when one supporting mechanism 10 is installed, the connecting rod 20 is coupled to the supporting mechanism 10, and another supporting mechanism 10 is provided on the connecting rod 20.

The connecting unit (100) of the supporting mechanism (10) is coupled to the connecting rod (20). The connecting unit 100 is formed separately from the connecting rod 20. [ The supporting frame 200 is coupled to the connecting unit 100. The connection unit 100 is formed separately from the support frame 200 and is coupled to the support frame 200. Since the connecting unit 100 is formed separately from the supporting frame 200, the supporting mechanism 10 can be separated into the supporting frame 200 and the connecting unit 100. That is, since the connection unit 100 is formed separately from the support frame 200, it is possible to assemble the respective components including the support frame 200 and the connection unit 100 to complete the support mechanism 10 .

The support frame (200) of the support mechanism (10) is coupled to the connection unit (100). The support frame 200 coupled to the connection unit 100 becomes the outer skeleton of the support mechanism 10.

The reinforcing frame 300 is disposed between the support frames 200 disposed between the two support frames 200 facing each other. That is, the reinforcing frame 300 is disposed inside the support frame 200 functioning as an external framework, and functions as an internal framework of the support mechanism 10.

Each of the support mechanisms 10 becomes a rigid structure having a skeleton by assembling the connection unit 100, the support frame 200, and the reinforcement frame 300. [

The scaffold 1 according to one embodiment of the present invention can achieve the following operational effects.

First, the scaffold 1 according to an embodiment of the present invention further includes a reinforcing frame 300 serving as an inner skeleton in addition to the support frame 200 serving as an outer skeleton. The reinforcement frame 300, which is additionally provided in addition to the support frame 200, is loaded with the support frame 200. Thus, the scaffold 1 according to an embodiment of the present invention is structurally able to withstand a larger load.

Since the scaffold 1 according to an embodiment of the present invention can withstand a larger load, more workers can perform operations at a time. Therefore, the work using the scaffold 1 according to the embodiment of the present invention can be performed more quickly.

Further, more material can be placed on the scaffold 1 according to an embodiment of the present invention. That is, the work can be performed after the various materials used for the work are placed on the scaffold 1 according to one embodiment of the present invention at a time. Accordingly, according to the scaffold 1 according to the embodiment of the present invention, it is possible to shorten the time consumed in moving the material to the working position. As a result, using the scaffold 1 according to an embodiment of the present invention, the operation speed can be further increased.

Also, the scaffold 1 according to one embodiment of the present invention can be installed larger and higher because it can withstand a larger load structurally. According to the prior art, when the taffeta 1 is set too large and too high due to the mass of the taffeta 1 itself, the taffeta 1 may collapse. However, since the scaffold 1 according to an embodiment of the present invention can withstand a larger load, it can be installed larger and higher than the prior art.

Second, according to the scaffold 1 according to an embodiment of the present invention, the load applied to the support frame 200 by the reinforcing frame 300, which is additionally provided, is dispersed. Conversely, the load applied to the reinforcing frame 300 is also dispersed by the support frame 200. As the load applied to the support frame 200 and the reinforcement frame 300 is dispersed, the durability of the support frame 200 and the reinforcement frame 300 is improved. Improved durability of the support frame 200 and the reinforcement frame 300 means that the durability of the entire scaffold 1 according to an embodiment of the present invention is improved.

The scaffold 1 according to the embodiment of the present invention has improved durability and can reduce maintenance costs caused by breakage of the scaffold 1. In addition, the scaffold 1 according to the embodiment of the present invention is improved in durability and can be prevented from breakage, and accordingly, the worker working on the scaffold 1 can be supported more stably.

Third, the scaffold 1 according to an embodiment of the present invention can be assembled by assembling the support mechanism 10 as the connection unit 100 and the support frame 200 exist in separate configurations. For example, when the work position is located at a high position, the support mechanism 10 should be installed at a high position. In this case, if the support mechanism 10 can not be assembled, the support mechanism 10 must be completed on the ground and the support mechanism 10 must be moved to a high working position through a separate device such as a crane. That is, there is also a possibility that a separate equipment such as a crane is required to install the scaffold 1 according to an embodiment of the present invention, and an accident may occur due to collision with another structure while the huge support mechanism 10 moves. However, the scaffold 1 according to the embodiment of the present invention can complete the support mechanism 10 while assembling the components of the support mechanism 10 one by one at a high position. As a result, according to the scaffold 1 according to the embodiment of the present invention, the support mechanism 10 can be easily installed at a high position without any additional equipment. Furthermore, the support mechanism 10 can be safely installed by assembling the small components.

Fourth, according to the scaffold 1 according to an embodiment of the present invention, the support mechanism 10 exists as a rigid structure with a skeleton. That is, even if the scaffold 1 according to the embodiment of the present invention is incomplete or unfinished to a height enough to reach the working position, it can be stably maintained. For example, in order to reach the working position, ten support mechanisms 10 are required. When only eight support mechanisms 10 are provided, the support mechanisms 10 at each of the eight stages are all present as a rigid structure do. Therefore, the support mechanism 10 of the ninth and tenth stages can be provided on the safe eight-stage support mechanism 10. [ As a result, the scaffold 1 according to the embodiment of the present invention has a stable installation process.

Hereinafter, the support mechanism 10 and the connecting rod 20 will be described in detail with reference to the accompanying drawings.

Referring to Figures 1 and 2, the support mechanism 10 serves as a framework for the scaffold 1 according to one embodiment of the present invention. The support mechanism 10 supports a load applied to the scaffold 1 according to an embodiment of the present invention. Although not shown in the drawings, the support mechanism 10 may be provided with a work footrest (not shown) to which an operator can move. The worker performs the work on the work footrest. In addition, various materials necessary for the work may be stored on such a scaffold. The support mechanism 10 supports the weight of the work foot (not shown), the operator and various materials.

The support mechanism 10 may be formed in a rectangular shape as a whole. That is, the support mechanism 10 may be composed of four support frames 200 and four connection units 100. However, the present invention is not limited to this, and the support mechanism 10 may be formed in various shapes such as a triangle, a pentagon, and the like.

The scaffold 1 according to an embodiment of the present invention may include a plurality of support mechanisms 10 arranged vertically and spaced apart from each other. In this case, the lower supporting mechanism 11 located at the lower side supports the load of the upper supporting mechanism 12 located at the upper side.

A connecting rod (20) is coupled to the lower supporting mechanism (11). The upper supporting mechanism 12 is coupled to the upper side of the connecting rod 20. [ The connecting rod 20 supports the upper supporting mechanism 12. The lower support mechanism 11 is coupled to one end of the connection rod 20 and the upper support mechanism 12 is coupled to the other end. The lower support mechanism 11 and the upper support mechanism 12 are vertically stacked at a predetermined distance by a connecting rod 20. [

2 and 3, the supporting mechanism 10 includes a connecting unit 100 which is coupled with the connecting rod 20 and the supporting frame 200. As shown in Fig.

The connection unit 100 is formed separately from the support frame 200. The supporting unit 10 may be separated into the supporting frame 200 and the connecting unit 100 as the connecting unit 100 is formed separately from the supporting frame 200. [ That is, the supporting mechanism 200 can be assembled by the connecting unit 100, such as the supporting frame 200 and the connecting unit 100, to complete the supporting mechanism 10.

The connecting unit 100 is formed separately from the connecting rod 20. [ That is, the supporting frame 200 of the supporting mechanism 10 is not directly coupled to the connecting rod 20 but is coupled to the connecting rod 20 through the connecting unit 100. It is not necessary to form a coupling structure for coupling the supporting frame 200 to the connecting rod 20 in the presence of the connecting unit 100. [ It is not necessary to separately process the connecting rod 20, so that the strength of the connecting rod 20 can be maximized. Accordingly, the connecting rod 20 of the scaffold 1 according to an embodiment of the present invention can withstand more loads. As a result, the scaffold 1 according to an embodiment of the present invention can support more loads.

The connection unit 100 is located at the edge of the support mechanism 10. When the support mechanism 10 has a rectangular shape as shown in the figure, one support mechanism 10 includes four connection units 100. [

The connection unit 100 includes a body 110 that forms a body, a coupling part 120 to which the support frame 200 is coupled, and a connection part 130 to which the coupling rod 20 is coupled.

The body portion 110 forms the body of the connection unit 100. The body part 110 has a coupling part 120 and a coupling part 130 formed thereon. The body portion 110 is formed in a square pillar shape. However, the present invention is not limited thereto, and may be formed in various shapes such as a cylindrical shape and a triangular prism shape.

A coupling part 120 is formed on a side surface of the body part 110 and a connection part 130 is formed on an end part of the body part 110.

The engaging portion 120 is formed on a side surface of the body portion 110. When the body part 110 is formed in a square pillar shape, the body part 110 has four sides. The engaging portion 120 is formed on all four sides. That is, the support frame 200 may be coupled to all four sides of the body 110.

The engaging portion 120 protrudes from the side surface of the body portion 110. The engaging portion 120 is formed of two protrusions so that the support frame 200 can be fitted and engaged. When the support frame 200 is inserted between the two protrusions of the engagement portion 120, separate fastening means fix the engagement portion 120 and the support frame 200. In this way, the coupling of the coupling part 120 and the support frame 200 is completed.

As shown in the figure, since the support frame 200 is composed of two bodies 210 and 220 (see Fig. 4, which is described above with reference to the support frame), the support frame 200 is provided on one side of the body part 110 Two engaging portions 120 are formed. However, the number of the coupling portions 120 is not limited thereto, and may be varied depending on the number of the bodies included in the support frame 200.

The connection part 130 is formed at the end of the body part 110. The connection portion 130 is formed in a cylindrical shape. The outer diameter of the connecting portion 130 is formed to be substantially equal to the inner diameter of the connecting rod 20. [ That is, the connecting unit 100 and the connecting rod 20 are coupled while the connecting rod 20 is forced into the connecting unit 130.

2 and 4, the support mechanism 10 includes a support frame 200 coupled to the connection unit 100 to form the outer framework of the support mechanism 10.

The support frame 200 is coupled to the connection unit 100. If the support mechanism 10 has a rectangular shape as shown in the figure, one support mechanism 10 includes four support frames 200. [

The support frame 200 includes a first support frame 201 and a second support frame 202 arranged to face each other. The support frame 200 also includes a third support frame 203 and a fourth support frame 204 facing each other in a direction different from the first support frame 201 and the second support frame 202. That is, the third support frame 203 and the fourth support frame 204 are coupled to both ends of the first support frame 201 and the second support frame 202. Conversely, the first support frame 201 and the second support frame 202 are coupled to both ends of the third support frame 203 and the fourth support frame 204. The first support frame 201, the second support frame 202, the third support frame 203 and the fourth support frame 204 are connected to form a rectangular support mechanism 10.

A reinforcing frame 300 is disposed between the first support frame 201 and the second support frame 202. At least one reinforcing frame 300 is disposed between the first support frame 201 and the second support frame 202.

The reinforcing frame 300 is coupled to the third support frame 203 and the fourth support frame 204. At least one reinforcing frame 300 is coupled to the third support frame 203 and the fourth support frame 204.

4, the support frame 200 includes an upper support body 210 coupled to the connection unit 100 and a lower support body 220 disposed below the upper support body 210. As shown in FIG.

The support frame 200 functions as an external skeleton of the support mechanism 10 and must support a large load. The support frame 200 has two support bodies 210, 220 to support a greater load. Since the support frame 200 includes the upper support body 210 and the lower support body 220, the support frame 200 can withstand a greater load.

The upper support body 210 and the lower support body 220 are both coupled to the connection unit 100. That is, the upper support body 210 and the lower support body 220 have the same length. The support frame 200 constitutes the outer framework of the support mechanism 10 and must maintain its shape without being warped or twisted. This is because the shape of the support mechanism 10 is maintained even if the support frame 200 maintains its shape. Therefore, both the upper support body 210 and the lower support body 220 of the support frame 200 are coupled and fixed to the connection unit 100. [

4, the support frame 200 includes a support rib 230 for connecting and supporting the upper support body 210 and the lower support body 220 between the upper support body 210 and the lower support body 220, ).

The support rib 230 includes a vertical support rib 231 vertically connected to the upper support body 210 and the lower support body 220. The support rib 230 includes an inclined support rib 232 arranged to be inclined between the upper support body 210 and the lower support body 220.

The support ribs 230 support the upper support body 210 and the lower support body 220 to improve the strength of the support frame 200. That is, the support ribs 230 allow the support frame 200 to withstand a larger load.

Referring to FIG. 4, a support frame 240 is formed on the support frame 200. The support coupling part 240 may be formed on the upper support body 210 of the support frame 200. An auxiliary frame 400 to be described later is coupled to the support coupling part 240 formed on the first support frame 201 and the second support frame 202. On the other hand, the reinforcing frame 300 is coupled to the support coupling part 240 formed on the third support frame 203 and the fourth support frame 204.

The supporting joint part 240 includes a supporting seat part 241 on which the reinforcing frame 300 or the auxiliary frame 400 is mounted and a supporting restraining part 242 for restraining the reinforcing frame 300 or the auxiliary frame 400 .

The support seating part 241 is protruded from the upper support body 210. The support seating part 241 is formed on both sides of the upper support body 210. The support seating part 241 is formed to have a width such that the reinforcing frame 300 or the auxiliary frame 400 can be stably installed. The support seating portion 241 is formed to have a width substantially similar to the width of the reinforcing frame 300 or the auxiliary frame 400.

The support restricting portion 242 is protruded from the upper support body 210. The support restricting portions 242 are formed in pairs in the upper support body 210 so that the reinforcement frame 300 or the auxiliary frame 400 can be restrained. The pair of support restricting portions 242 are disposed apart from each other by a distance approximately equal to the width of the reinforcing frame 300 or the auxiliary frame 400. [ The movement of the reinforcing frame 300 or the auxiliary frame 400 is restricted when the reinforcing frame 300 or the auxiliary frame 400 is disposed between the two support restricting portions 242. [ The support restricting portion 242 can be connected to the support seat portion 241. That is, the support restricting portion 242 may be formed by bending both ends of the support seating portion 241.

The supporting part 240 formed of the supporting seat part 241 and the supporting restraining part 242 is formed in such a structure that the reinforcing frame 300 or the auxiliary frame 400 can be easily coupled to the supporting frame 200 have. That is, the support coupling portion 240 functions as a pocket capable of restraining and supporting the end portion of the reinforcing frame 300 or the auxiliary frame 400. Specifically, when the reinforcing frame 300 or the auxiliary frame 400 is mounted on the support coupling part 240 in the process of coupling the reinforcing frame 300 or the auxiliary frame 400 to the support frame 200, do. Since the reinforcing frame 300 or the auxiliary frame 400 is supported by the supporting portion 240 itself in a state where the primary connection is made, a separate supporting device is not required. When the reinforcement frame 300 or the auxiliary frame 400 and the support coupling part 240 are fastened with separate fastening means after the primary connection, the reinforcement frame 300 or the combination of the auxiliary frame 400 and the support frame 200 Is completed. As a result, according to the scaffold 1 according to the embodiment of the present invention, the support frame 200 and the reinforcement frame 300 or the auxiliary frame 400 can be easily combined.

Referring to FIGS. 2 and 5, the support mechanism 10 includes a reinforcement frame 300 for supporting a load with the support frame 200.

The scaffold 1 according to an embodiment of the present invention can support a larger load by the reinforcement frame 300. [ In addition, the scaffold 1 according to an embodiment of the present invention can have enhanced durability by the reinforcing frame 300.

The reinforcing frame 300 is coupled to the support frame 200. The reinforcing frame 300 is coupled to the third support frame 203 and the fourth support frame 204. The reinforcing frame 300 is coupled to the support portions 240 of the third support frame 203 and the fourth support frame 204.

The reinforcing frame 300 is disposed to face the support frame 200. The reinforcing frame 300 is disposed so as to face the first support frame 201 and the second support frame 202. The reinforcing frame 300 is disposed side by side with the first support frame 201 and the second support frame 202.

The reinforcing frame 300 is disposed between two support frames 200 facing each other. The reinforcing frame 300 is disposed between the first support frame 201 and the second support frame 202. At least one reinforcing frame 300 is disposed between the first support frame 201 and the second support frame 202. [ In the figure, the supporting mechanism 10 includes three reinforcing frames 300, but the present invention is not limited thereto. The reinforcing frames 300 may include one, two, or four or more reinforcing frames 300.

Referring to FIG. 5, the reinforcing frame 300 includes an upper reinforcing body 310 coupled to the support frame 200 and a lower reinforcing body 320 disposed below the upper reinforcing body 310.

The reinforcing frame 300 functions as an internal skeleton that shares the load of the support frame 200. Since the reinforcing frame 300 is an internal skeleton, the degree of association with the shape of the supporting mechanism 10 is low. Therefore, the reinforcing frame 300 may support the load while slightly bending. The possibility of breakage of the reinforcing frame 300 can be further reduced as compared with the case where the reinforcing frame 300 is slightly bent and the load is supported by firmly supporting the load. Accordingly, only the upper reinforcing body 310 is coupled to the supporting frame 200, and the lower reinforcing body 320 is not coupled to the supporting frame 200. The length of the lower reinforcing body 320 is shorter than the length of the upper reinforcing body 310. The lower reinforcement body 320 is not engaged with the support frame 200 and the lower reinforcement body 320 is formed to be shorter than the upper reinforcement body 310 so that the reinforcement frame 300 can be bent.

Also, as described above, the reinforcing frame 300 is placed in the support coupling portion 240 to achieve first-order coupling. In order to easily assemble the support frame 200 and the reinforcement frame 300, the reinforcement frame 300 needs to be coupled with the support frame 240 from above. In order to easily attach the reinforcing frame 300 to the support frame 200, only the upper reinforcing body 310 is coupled to the support frame 200. Further, the lower reinforcement body 320 is formed to be shorter than the upper reinforcement body 310, so that the end of the reinforcement frame 300 can be easily seated on the support coupling part 240.

5, the reinforcing frame 300 includes a reinforcing rib 330 for connecting and supporting the upper reinforcing body 310 and the lower reinforcing body 320 between the upper reinforcing body 310 and the lower reinforcing body 320, ).

The reinforcing rib 330 includes a vertical reinforcing rib 331 vertically connected to the upper reinforcing body 310 and the lower reinforcing body 320 and a vertical reinforcing rib 331 vertically disposed between the upper reinforcing body 310 and the lower reinforcing body 320 And an inclined reinforcing rib 332.

The reinforcing rib 330 enhances the strength of the reinforcing frame 300 by reinforcing the upper reinforcing body 310 and the lower reinforcing body 320. That is, the reinforcing ribs 330 allow the reinforcing frame 300 to withstand a larger load.

Referring to FIG. 5, reinforcing frame 340 is formed in reinforcing frame 300. The reinforcing coupling portion 340 is formed on the upper reinforcing body 310 of the reinforcing frame 300. The reinforcing coupling portion 340 is coupled to an auxiliary frame 400 to be described later.

The reinforcing coupling portion 340 includes a reinforcing seat portion 341 on which the auxiliary frame 400 is seated and a reinforcing and restraining portion 342 for restraining the auxiliary frame 400.

The reinforcing seat portion 341 is protruded from the upper side reinforcing body 310. The reinforcing seat portion 341 is formed on both sides of the upper side reinforcing body 310. The reinforcing seat portion 341 is formed to have a width such that the auxiliary frame 400 can be seated. The reinforcing seat portion 341 is formed to have a width substantially similar to the width of the auxiliary frame 400. [

The reinforcement restricting portion 342 is protruded from the upper side reinforcement body 310. The reinforcing and restricting portions 342 are formed in pairs in the upper reinforcing body 310 so that the auxiliary frame 400 can be restrained. The pair of reinforcement restraints 342 are disposed apart from each other by a distance substantially similar to the width of the auxiliary frame 400. [ Accordingly, when the auxiliary frame 400 is disposed between the pair of the reinforcing and restricting portions 342, the movement of the auxiliary frame 400 is restricted. The reinforcement restricting portion 342 may be connected to the reinforcement seat portion 341. That is, the reinforcement restricting portion 342 may be formed by bending both ends of the reinforcing seat portion 341.

The reinforcing coupling part 340 formed of the reinforcing and fixing part 341 and the reinforcing and restricting part 342 is formed in such a structure that the reinforcing frame 300 can be easily coupled to the reinforcing frame 400. That is, the reinforcing coupling portion 340 functions as a pocket capable of restraining and supporting the end portion of the auxiliary frame 400. Specifically, when the auxiliary frame 400 is mounted on the reinforcing coupling part 340 in the process of coupling the auxiliary frame 400 to the reinforcing frame 300, the primary coupling is achieved. Since the auxiliary frame 400 is supported by the reinforced coupling portion 340 in the state of primary coupling, a separate supporting device is not required. When the auxiliary frame 400 and the reinforcing coupling part 340 are fastened to each other by the separate fastening means after the primary bonding, the combining of the reinforcing frame 300 and the auxiliary frame 400 is completed. As a result, according to the scaffold 1 according to the embodiment of the present invention, the reinforcing frame 300 and the auxiliary frame 400 can be easily combined.

1, the reinforcing frame 300 of the lower support mechanism 11 and the reinforcing frame 300 of the upper support mechanism 12 are disposed so as to face in the same direction. That is, the reinforcing frame 300 of the lower supporting mechanism 11 and the reinforcing frame 300 of the upper supporting mechanism 12 are arranged in parallel with each other.

6, the reinforcing frame 300 of the lower supporting mechanism 11 and the reinforcing frame 300 of the upper supporting mechanism 12 are disposed to face each other. That is, the reinforcing frame 300 of the lower supporting mechanism 11 and the reinforcing frame 300 of the upper supporting mechanism 12 are arranged to be offset from each other. Particularly, when the lower supporting mechanism 11 and the upper supporting mechanism 12 are formed in a rectangular shape, the reinforcing frame 300 of the lower supporting mechanism 11 and the reinforcing frame 300 of the upper supporting mechanism 12 are perpendicular to each other Respectively. When the reinforcing frame 300 of the lower supporting mechanism 11 and the reinforcing frame 300 of the upper supporting mechanism 12 are disposed to be offset from each other, The load will be borne. Therefore, the strength of the scaffold 1 according to the embodiment of the present invention can be further improved.

Referring to FIG. 2, the support mechanism 10 may include an auxiliary frame 400 coupled to the reinforcement frame 300.

The auxiliary frame 400 is coupled to the reinforcing frame 300. When the auxiliary frame 400 is positioned between the supporting frame 200 and the reinforcing frame 300, one end of the auxiliary frame 400 is coupled to the reinforcing frame 300 and the other end is coupled to the supporting frame 200 . On the other hand, when the auxiliary frame 400 is positioned between the two reinforcing frames 300, both ends of the auxiliary frame 400 are coupled to the different reinforcing frames 300.

Unlike the support frame 200 and the reinforcement frame 300, the auxiliary frame 400 is formed in a simple bar shape. This is because the auxiliary frame 400 functions to supplement the loads of the support frame 200 and the reinforcement frame 300 additionally. If the supporting frame 10 is formed of two bodies such as the supporting frame 200 and the reinforcing frame 300 up to the auxiliary frame 400, the supporting mechanism 10 itself is too rigid and may be more likely to be damaged. However, according to the embodiment, the auxiliary frame 400 may be formed to have two bodies like the reinforcing frame 300.

The auxiliary frame 400 is coupled to the support coupling part 240 or the reinforcing coupling part 340 as described above. The support coupling part 240 and the reinforcing coupling part 340 are formed in a structure capable of supporting the auxiliary frame 400. Therefore, the primary coupling is completed by simply placing the auxiliary frame 400 on the support coupling part 240 and the reinforcing coupling part 340. [ When the auxiliary frame 400 is coupled with the reinforcing coupling part 340 by the separate coupling means after the primary coupling, the auxiliary frame 400 and the supporting frame 200 or the reinforcing frame 300 The coupling is easily completed.

2, the support mechanism 10 includes a reinforcing member 500 coupled to the support frame 200 to reduce the load applied to the connection unit 100 and a portion where the support frame 200 is coupled can do.

The connection unit 100 is a place where a load transmitted through the connecting rod 20 and a load transmitted through the support frame 200 are concentrated. Therefore, the scaffold 1 according to the embodiment of the present invention is provided with the reinforcing member 500 to disperse the load applied to the connection unit 100.

The reinforcing member 500 is coupled to the support frame 200. The reinforcing member 500 is simultaneously joined to the two support frames 200 orthogonal to each other. For example, the reinforcing member 500 is coupled to the first support frame 201 and the third support frame 203.

The reinforcing member 500 is coupled to the support frame 200 at a position adjacent to the connection unit 100. The reinforcing member 500 is positioned closer to the connecting unit 100 than the reinforcing frame 300 closest to the connecting unit 100 in the reinforcing frame 300. The reinforcing member 500 is located closer to the connecting unit 100 than the auxiliary frame 400 closest to the connecting unit 100 among the auxiliary frames 400. [

Referring to FIG. 1, the connecting rod 20 is disposed between the supporting mechanisms 10. The connecting rod 20 is disposed between the lower supporting mechanism 11 and the upper supporting mechanism 12. [ The connecting rod 20 is coupled to the connecting unit 100 of the lower supporting mechanism 11. [ The connection unit 100 of the upper support mechanism 12 is coupled to the upper side of the connecting rod 20. In this way, the support bars 10 are stacked with the connecting rod 20 interposed therebetween.

7 shows a scaffold 1 according to an embodiment of the present invention in which five support mechanisms 10 are laminated in the above-described manner. The supporting mechanism 10 of each layer is supported by the connecting rods 20 located below. Although only a scaffold 1 having a five-layer support mechanism 10 is shown in the figure, a scaffold 1 having two or more support mechanisms 10 in this manner may be provided.

8 shows that the support mechanisms 10 are laterally coupled at the same height (layer). The coupling unit 100 of the support mechanism 10 includes the body portion 110 in the shape of a quadrangular prism and the coupling portion 120 is formed on the side surface of the body portion 110 as described above. That is, the two connection units 100 on one side with respect to one support mechanism 10 can also function as the connection unit 100 of the other support mechanism 10 beside them. By continuing to connect the support mechanisms 10 in this manner, the scaffold 1 according to an embodiment of the present invention can be extended in the lateral direction by a desired length.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

1: scaffolding
10: support mechanism 20: connecting rod
100: connecting unit 110:
120: coupling part 130, 140:
200: support frame 210: upper support body
220: lower side supporting body 230: supporting rib
240:
300: reinforcing frame 310: upper reinforcing body
320: lower reinforcement body 330: reinforcing rib
340:
400: auxiliary frame 500: reinforcing member

Claims (8)

In scaffolds temporarily installed in the workplace,
A plurality of support mechanisms disposed vertically spaced apart from each other; And
And a plurality of connecting rods disposed between the supporting mechanisms, wherein the supporting mechanism includes a plurality of connecting units coupled to the connecting rods, a plurality of supporting frames having both ends coupled to the connecting units, A support frame disposed between the two support frames so as to face each other and facing the two support frames, an auxiliary frame having opposite ends coupled to the support frame and the reinforcement frame, or both ends thereof being coupled to the reinforcement frame, A reinforcing frame and a reinforcing member, both ends of which are coupled to two supporting frames which are mutually orthogonal to each other so as to be closer to the connecting unit than the auxiliary frame, wherein the connecting unit comprises a rectangular columnar body, Is protruded from the side surface of the body portion to be engaged with the two protrusions And a cylindrical connecting portion formed at an end of the body portion to connect the connecting rod. The method according to claim 1,
The support frame includes an upper support body coupled to the connection unit, a lower support body disposed below the upper support body, and a lower support body coupled to the upper support body and the lower support body to improve the strength of the support frame. ≪ RTI ID = 0.0 > rib. ≪ / RTI > The method according to claim 1,
Wherein the support frame includes an upper support body coupled to the connection unit and a support engagement portion to which the reinforcement frame is coupled, the support engagement portion including a support seating portion protruding from the upper support body to seat the reinforcement frame, And a support restricting portion disposed adjacent to both sides of the reinforcement frame and protruding from the upper support body to restrain the reinforcement frame. The method according to claim 1,
The reinforcing frame includes an upper reinforcing body coupled to the support frame, a lower reinforcing body disposed below the upper reinforcing body, and a lower reinforcing body coupled to the upper reinforcing body and the lower reinforcing body to improve the strength of the reinforcing frame And a reinforcing rib coupled to the upper reinforcing body and the lower reinforcing body, wherein a length of the lower reinforcing body is shorter than a length of the upper reinforcing body. The method according to claim 1,
Wherein the reinforcing frame includes an upper reinforcing body coupled to the support frame and a reinforcing coupling portion to which the auxiliary frame is coupled, wherein the reinforcing coupling portion includes a reinforcing seat portion protruding from the upper reinforcing body so as to seat the sub frame, And a reinforcing restricting portion disposed adjacent to both sides of the auxiliary frame and protruding from the upper reinforcing body to restrain the auxiliary frame. delete The method according to claim 1,
Wherein the support mechanism includes an upper support mechanism and a lower support mechanism disposed below the upper support mechanism, wherein the reinforcement frame of the upper support mechanism and the reinforcement frame of the lower support mechanism are disposed so as to be offset from each other fat. delete

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