KR200428172Y1 - A scaffold for architecture - Google Patents

Abstract

The present invention is a construction scaffold reinforcement frame is installed between a plurality of vertical pipes standing vertically on the ground to support the vertical pipes, the reinforcement frame has a pair of inclined pipes intersecting in the form of "X" Each of the inclined pipes has upper fasteners formed with hooks at one end thereof, and the upper fasteners are fastened to a hinge with a horizontal frame installed at the rear, and rotate about the hinge. Hook the hook to the fastening hole of the upper bracket coupled to the surface to fix the tip of the inclined pipe to the vertical pipe, each end of the inclined pipe to the lower bracket coupled to the lower peripheral surface of the vertical pipe Attached fitting is attached, the inside of the connector is hooked in one end A lower fastener having a rib is inserted into the lower fastener so that the lower fastener is hinged to the connector, and rotates about the hinge to fix the end of the inclined pipes to the vertical pipe by hooking the hook to the fastening hole of the lower bracket. We propose a construction scaffold reinforcement frame characterized by

Construction, scaffolding reinforcement frame, sloped pipe, upper, lower fastener, upper, lower bracket

Description

Scaffold Reinforcement Frame for Construction {A SCAFFOLD FOR ARCHITECTURE}

1 is a view showing the structure of a construction scaffold reinforcement frame according to a preferred embodiment of the present invention.

Figure 2 is a view showing the upper fastener of the reinforcement frame shown in FIG.

3 is a view showing a lower fastener of the reinforcement frame shown in FIG.

4A and 4B are views sequentially illustrating the fastening process of the upper fastener shown in FIG.

5A and 5B are views sequentially showing the fastening process of the lower fastener shown in FIG.

<Description of the symbols for the main parts of the drawings>

10: vertical pipe 12: upper bracket

14: lower bracket 20: reinforcing frame

22a, 22b: inclined pipe 26: upper fastener

26a: hook 32: lower fastener

32a: hook

The present invention relates to a construction scaffold reinforcement frame, and more particularly, to a construction scaffold reinforcement frame that can effectively support the vertical pipe installed in a standing state on the ground.

As is well known, scaffolding is a temporary construction installed outside of a building to allow workers to work at high places during construction work, such as steel pipe scaffolding.

The steel pipe scaffolding has the advantages of excellent durability and easy assembly and disassembly, and is generally composed of a vertical pipe, a scaffolding plate and a reinforcing frame.

The reinforcement frame is a means for reinforcing the vertical pipe supporting the non-stepping plate in a state spaced apart from the ground by a certain height, and is generally configured by crossing two inclined pipes in the form of "X".

On the other hand, the reinforcing frame is assembled by inserting each end of the inclined pipe, which is a reinforcing frame in the pin formed in the vertical pipe in a state located between the two vertical pipes installed to maintain a certain distance from each other.

However, the conventional assembly structure as described above does not guarantee excellent fastening force between the reinforcing frame and the vertical pipe, so that the safety of the inclined pipe of the reinforcing frame is released from the pins of the vertical pipe and the vertical pipe flows or collapses during use. It will cause an accident.

Therefore, an object of the present invention for solving the above problems is to provide a construction scaffold reinforcement frame to effectively support the vertical pipe by improving the fastening force of the reinforcement frame assembled to the vertical pipe.

In addition, the present invention is to provide a scaffold reinforcement frame for building to be able to easily separate the reinforcement frame assembled in the vertical pipe during scaffold demolition work.

The present invention for achieving the above object is provided in the construction scaffold reinforcement frame is installed between a plurality of vertical pipes standing vertically on the ground to support the vertical pipes, the reinforcement frame is in the form of "X" Each of the inclined pipes has a pair of inclined pipes intersecting, and upper ends of the inclined pipes each have upper hooks formed with hooks, respectively, and the upper fasteners are fastened to a hinge with a horizontal frame installed at a rear thereof. Rotating the hook to the fastening hole of the upper bracket coupled to the upper circumferential surface of the vertical pipes to fix the front end of the inclined pipes to the vertical pipe, the lower end of the vertical pipes at each end of the inclined pipes Attach the connector that fits on the lower bracket that is attached to the circumference. And a lower fastener having a hook at one end is inserted into the connector, and the lower fastener is hinged to the connector, and rotates around the hinge and hangs the hook at the fastening hole of the lower bracket. A scaffold reinforcement frame for building is characterized in that the end of the field is fixed to the vertical pipe.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

1 is a view showing a construction scaffold reinforcement frame to be implemented in the present invention.

As shown, the vertical pipe 10 constituting the structure of the building scaffolding is a pillar member that supports the non-shown scaffolding plate at a predetermined height spaced from the ground. The vertical pipes 10 are installed while maintaining a predetermined interval from each other in a vertical position in the ground. At this time, the upper and lower brackets 12 and 14 are coupled to the circumferential surface of each vertical pipe 10, and the upper and lower fasteners 24 and 32 to be described later are attached to the upper and lower brackets 12 and 14, respectively. Will be caught.

On the other hand, the reinforcing frame 20 proposed in the present invention is installed between the plurality of vertical pipes (10). The reinforcement frame 20 has a pair of inclined pipes 22a and 22b formed to cross each other in an “X” shape, and a horizontal pipe 24 formed to cross the ends of the inclined pipes 22a and 22b horizontally. Looks like).

Upper fasteners 26 are attached to the front ends of the inclined pipes 22a and 22b, respectively. The upper fastener 26 is coupled to the upper bracket 12 of the vertical pipe 10 to fix the front ends of the inclined pipes 22a and 22b to the vertical pipes 10, respectively. At this time, the upper fasteners 26 are manufactured in the same structure and are attached to the tip portions of the pair of inclined pipes 22a and 22b, respectively. In the following, the upper fasteners 26 are coupled to the distal ends of the inclined pipes 22a. The structure of the will be described with reference to Figure 2 attached.

As shown in FIG. 2, the upper fastener 26 is fastened by a hinge 28 to one end of the horizontal pipe 24 in which the inclined pipe 22a is horizontally installed, and the hinge 28 is centered. It is configured to be rotatable.

At one end of the upper fastener 26, the hook 26a is integrally formed. The hook 26a is a fastening hole 12a of the upper bracket 12 coupled to the upper circumferential surface of the vertical pipe 10 described above when the upper fastener 26 rotates about the hinge 28. It is caught in the fixed end of the inclined pipe (22a) to the vertical pipe (10).

On the other hand, the connector 30 is attached to each end of the inclined pipe 22a, respectively, the lower fasteners 32 are inserted into the connector 30, respectively. The lower fastener 32 is coupled to the lower bracket 14 of the vertical pipe 10 to fix the end portions of the inclined pipes 22a and 22b to the vertical pipes 10, respectively. At this time, the connector 30 and the lower fasteners 32 are all manufactured in the same structure and are attached to the lower ends of the pair of inclined pipes 22a and 22b, respectively, in the following one end of the inclined pipe 22a. The structure of the connector 30 and the lower fastener 32 to be described with reference to the accompanying Figure 3 to be described.

As shown, the connector 30 has a fitting groove (30a) is formed in the front in the "c" shape, the upper portion and the lower portion in the open state is formed a space portion 30b of a predetermined size. Part of the lower bracket 14 coupled to the lower circumferential surface of the vertical pipe 10 is inserted into the fitting groove 30a, and the lower fastener 32 is inserted into the internal space 30b. The lower fastener 32 inserted into the space 30b of the connector 30 is fastened by the connector 30 and the hinge 34.

At one end of the lower fastener 32, the hook 32a is integrally formed. The hook 32a inserts the lower bracket 14 into the fitting groove 30a of the connector 30, and then, when the lower fastener 32 pivots about the hinge 34, the lower bracket 14 It is caught in the fastening hole (14a) of the () to secure the end of the inclined pipe (22a) to the vertical pipe (10).

Hereinafter, the fastening process of the building scaffold reinforcement frame made of the above structure will be described.

The fastening process of one of the inclined pipes 22a of the pair of inclined pipes 22a and 22b formed in the form of "X" is performed as shown in FIGS. 4A to 5C.

First, as shown in FIGS. 4A and 4B, the hook hole 26a of the upper fastening hole 26 coupled to the distal end of the inclined pipe 22a is formed in the upper bracket 12 of the vertical pipe 10. When the upper fastener 26 is rotated about the hinge 28 in the state of being inserted into the 12a, the hook 26a is caught by the fastening hole 12a, so that the tip of the inclined pipe 22a is vertical. It becomes the state fixed to the pipe 10.

Next, as shown in FIGS. 5A and 5B, the connector 30 coupled to the lower end of the inclined pipe 22a is positioned on the lower bracket 14 of the opposite vertical pipe 10. After inserting the lower bracket 14 into the fitting groove 30a of the lower fastener 32, the hook 32a provided in the lower fastener 32 is rotated and the lower bracket 14 is rotated. The end of the inclined pipe 22a is fixed to the vertical pipe 10 by being caught by the fastening hole 14a of the.

Through the above fastening process, one inclined pipe 22a is coupled in an inclined state at an angle between two vertical pipes 10 spaced apart from each other by a predetermined distance and fixes the two vertical pipes 10.

Then, the inclined pipe 22b opposite to the inclined pipe 22a formed in the form of "X" is also secured between the two vertical pipes 10 in the same manner as the inclined pipe 22a. The frame 20 is installed as shown in FIG. 1 to firmly fix the vertical pipes 10 so that the two vertical pipes 10 do not flow in use.

As described above, the present invention has an effect of effectively supporting the vertical pipe by improving the fastening force of the reinforcing frame assembled for the purpose of preventing the flow of the vertical pipe, which is the construction of the building scaffold.

In addition, since the assembly is easy, the reinforcement frame can be easily separated from the vertical pipe during scaffolding and dismantling work, and thus the convenience of use can be realized.

Claims (1)

In the construction scaffold reinforcement frame is installed between a plurality of vertical pipes (10) standing vertically from the ground to support the vertical pipes (10), The reinforcing frame 20 has a pair of inclined pipes 22a and 22b intersecting in the form of "X"; Each of the inclined pipes 22a and 22b is attached to upper fasteners 26 each having hooks 26a formed at one end thereof, and the upper fasteners 26 are horizontal pipes 24 and hinges installed at the rear. 28 is rotated about the hinge 28, and the hook 26a is inclined to the fastening hole 12a of the upper bracket 12 coupled to the upper circumferential surface of the vertical pipes 10. Fixing the leading ends of the pipes 22a and 22b to the vertical pipes 10, respectively; Each end of the inclined pipe (22a, 22b) is attached to the connector 30 which is fitted to the lower bracket 14 is coupled to the lower peripheral surface of the vertical pipe (10), the interior of the connector 30 A lower fastener 32 having a hook 32a is inserted into one end thereof, and the lower fastener 32 is engaged with the connector 30 and the hinge 34 to rotate about the hinge 34. Building scaffolding reinforcement frame, characterized in that the end of the inclined pipe (22a, 22b) is fixed to the vertical pipe (10) by hanging the hook (32a) to the fastening hole (14a) of the lower bracket (14).

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