KR101205237B1 - A Scaffolding Pipe for a lightweight safe system - Google Patents

Abstract

The present invention relates to a scaffolding pipe that can be installed along an outer wall configuration around a building, and more specifically, a hollow portion is formed therein, and a hollow portion is formed inside the hollow pipe, such as a one-pipe and a protrusion formed in an inward oblique direction. It is formed, there is provided a main pipe formed with a groove portion to fit the protrusion of the one pipe and an auxiliary pipe formed with an auxiliary groove to be fitted into the hollow portion of the main pipe, the groove portion of the main pipe without coupling the one pipe By using scaffolding pipes composed of connecting pipes each formed with a protruding bundle to be fitted, they are made of magnesium material, which is significantly reduced in weight than conventional scaffolding pipes, thereby making it easier for the operator to handle the scaffolding. More resistant to moisture and corrosion than before, structurally The use of the one-pipe, the main pipe and the auxiliary pipe is excellent in the impact characteristics, and according to the use, if the main body pipe is inserted into the one pipe can be used in the same structure as the conventional scaffolding pipe.

Description

Scaffolding Pipe for a lightweight safe system

The present invention relates to a scaffolding pipe for a light weight safety system, and more particularly, in order to facilitate the work out of the reach of the operator, as a temporary installation installed along the outer wall configuration around the building to reduce the weight and safety It's about a raised pipe.

Scaffolding is a temporary construction installed to work in high places during construction work, and it is a scaffold for material transportation or worker's passage and work. In terms of horizontal scaffolding, moon scaffolding, simple scaffolding, ladder scaffolding, and construction methods, it is divided into single file scaffolding, double scaffolding, and double file scaffolding.

Such scaffolding should be firmly installed with suitable materials and methods according to the type, scale, and location of the construction so as to be convenient and safe for construction and supervision.

In the scaffolding pipe according to the prior art, a pipe 1 and a straight coupler 4 having a strength of 350 to 400 MPa and having passed the Korean standard KS F8002 are used as shown in FIG. 1. The scaffolding pipe 1 has a simple tube shape with an outer diameter of 48.6 mm, thicknesses of 2.9 mm and 2.4 mm, lengths of 1.8 m, 2.7 m, and 4.5 m, and a galvanized film 2 is formed on its outer surface.

At the end of such a pipe 1, a pin 3 is arranged in a hole penetrated in the radial direction so as to be pinned to the coupler 4.

In addition, the coupler (4) used in place of the iron wire for fastening the pipe (1) in each of the two directions is formed in a straight and cross shape, the coupling groove 5 of the cramp shape is coupled to the pin (3) of the pipe (1) ) Are formed at both ends, and a circular jaw-shaped flange 6 is formed in the middle.

The pipe 1 and the coupler 4 of the conventional scaffold formed as described above are clamped to be coupled to the pin 3 of the pipe 1 while inserting the coupler 4 in the axial direction at the inner diameter of the end of the pipe 1. It will be assembled by rotating the coupler (4) to be caught in the coupling groove (5).

The pipe 1 and the coupler 4 of the scaffold according to the prior art are used to form the vertical part of the scaffold, and further pipes forming the horizontal and diagonal parts of this scaffold are orthogonal clamps and swivels which are well known in the art. (swivel) clamped together.

As described above, since the weight of a conventional scaffold is 4.5m in length and is heavy to be handled by a worker with a physique of 14.6kg, there are many difficulties in handling the scaffold when the scaffold is assembled and dismantled.

Conventional scaffolding is a galvanized steel pipe, but relatively weak to moisture, and has a problem of corrosion when left in the building for a long time.

In addition, since a straight coupler is used when connecting the vertical direction, and an orthogonal clamp and a swivel clamp are used when connecting the horizontal portion and the diagonal direction, respectively, the clamping is complicated and difficult.

The present invention has been made to solve the above problems,

The hollow pipe is formed inside, and the hollow pipe is formed in the inner pipe, and the hollow pipe is formed inside, and the groove pipe is formed so that the protrusion of the one pipe can be fitted. An auxiliary pipe having an auxiliary groove formed to be fitted into the hollow part is provided, and by using a connection pipe formed with a protrusion bundle to be fitted into the groove of the main pipe without coupling the one pipe, it is structurally safer than a conventional scaffolding pipe. It is an object of the present invention to provide a scaffolding pipe which is light in weight and excellent in impact characteristics.

Therefore, in order to achieve the above object, a hollow part is formed inside the hollow body, and a hollow part is formed inside the body pipe and the body pipe is formed with a groove part in the inward direction, and can be fitted into the hollow part of the body pipe. An auxiliary pipe formed with an auxiliary groove and a connecting pipe formed with a protrusion bundle so as to be fitted into the groove of the main pipe to be axially fastened to the main pipe and the outer surface of the main pipe are inserted into the groove of the main pipe. It should consist of one pipe each formed with a protrusion to be fitted with.

The one-pipe, the main pipe, the auxiliary pipe and the connecting pipe is formed of a magnesium material, the one-pipe, the main pipe is characterized in that it can be used individually according to use.

In addition, it is characterized in that the ball is configured on one side of the hollow portion of the auxiliary pipe is operated by the buffer action of the spring between each auxiliary groove formed in the auxiliary pipe. The ball has a hole formed to penetrate the outer circumferential surface of the auxiliary pipe, and the auxiliary hole is formed so that the ball penetrating the outer circumferential surface of the auxiliary pipe can be caught inside the hollow portion of the main pipe. do.

And the center of the hollow portion formed in the auxiliary pipe is characterized in that the through groove is formed so that the strand can pass in the longitudinal direction.

The groove portion and the auxiliary groove portion formed in the main pipe and the auxiliary pipe are characterized in that the cross section becomes wider toward the inner side of the pipe.

Protruding bunch formed in the connecting pipe may be configured integrally with the connecting pipe, it is characterized in that it may be configured as a detachable bolt rotation type. In addition, it is characterized in that it can also be used to extend the length by connecting the individual connection pipe with a bolt-rotating connector.

The connecting pipe may be formed in a circle, a square, or the like according to use, and the protruding bundle formed in the connecting pipe may have a rectangular shape, and the cross section may increase toward the outside.

When the light weight safety system scaffolding pipe according to the present invention is used, it is formed of magnesium material, which is significantly reduced in weight than the conventional scaffolding pipe, and thus, the operator is easy to work on the scaffolding, and thus, moisture and It has strong resistance to corrosion and has excellent impact characteristics by inserting the one-pipe, the main pipe and the auxiliary pipe structurally. According to the usage, when the main pipe is inserted into the one-pipe, it has the same structure as the conventional scaffolding pipe. It is an invention which can be used.

1 is a side view showing a coupling relationship of the prior art
2 is a sectional view and a perspective view showing the present invention scaffolding pipe
3 is a cross-sectional view and perspective view showing the present inventors connection pipe
4 is a sectional view and a perspective view showing a one-pipe of the configuration of the present invention
5 is a cross-sectional view and a perspective view of the main body pipe of the configuration of the present invention
6 is a sectional view and a perspective view showing the auxiliary pipe of the configuration of the present invention;
Figure 7 is a perspective view showing the connection of the present invention scaffolding pipe
8 is a side cross-sectional view and a cross-sectional view showing another embodiment of the main body pipe and the auxiliary pipe of the configuration of the present invention;
9 is a cross-sectional view showing a main pipe and an auxiliary pipe for showing the cross-sectional view of FIG.
10 is a plan view showing a preferred embodiment of the present invention
11 is a cross-sectional view showing another embodiment of the present invention connecting pipe.
12 is a cross-sectional view showing the assembly of FIG.
Figure 13 is a cross-sectional view showing another embodiment of the present invention connecting pipe
14 is a cross-sectional view showing the assembly of FIG.

The present invention will be described in detail with reference to the drawings.

2 to 9 are formed of a magnesium material, but the hollow portion is formed therein, and the hollow portion is formed inside the body pipe 10 and the body pipe 10 formed with a recess 11 inwardly concave. It is formed, and can be fitted into the hollow portion of the main pipe 10, the main pipe (10) for fastening in the axial direction with the main pipe (10) and the main pipe (10) in which the auxiliary groove (21) recessed inwardly. Inserted into the outer surface of the connecting pipe 30 and the main pipe 10 in which the protruding bundle 31 is formed so as to fit in the groove 11 of the axial direction (11) inside the groove of the main pipe 10 ( 11) and the one-pipe 40 formed with the projection 41 to be fitted should be configured respectively.

The main pipe 10 has a groove 11 formed in an inner direction in which the hollow part is formed, and the four directions of the main pipe 10 should be formed, and the groove 11 has a hollow part formed from an outer circumferential surface of the main pipe 10. It should be formed to be wider in the inward direction.

The auxiliary pipe 20 is formed to be smaller than the main pipe 10 to be fitted to the hollow portion of the main pipe 10, the hollow portion is formed inside the main pipe 10, the groove 11 Auxiliary groove 21, such as the shape should be formed in the inner four directions of the auxiliary pipe (20). And, like the groove portion 11 of the main pipe 10, the auxiliary groove portion 21 should also be formed so as to widen toward the inner direction from which the hollow portion is formed from the outer peripheral surface.

The ball (b) is configured on one side of the auxiliary pipe 20 and acts as a buffering action of the spring 23 between each auxiliary groove 21 formed in the auxiliary pipe 20 of the auxiliary pipe 20 It should be constructed to penetrate the outer circumferential surface.

In addition, the through hole 22 should be formed in the center of the hollow portion formed in the auxiliary pipe 20 so that the strand 50 can pass in the longitudinal direction.

The one-pipe 40, the main pipe 10, the auxiliary pipe 20 may be used as a scaffolding pipe by fitting to each other according to the use of the operator, but the one-pipe 40 and the main pipe 10 are individually It can also be used as.

In order to fasten the main pipe 10 in the axial direction, the protruding bundle 31 formed in the connecting pipe 30 has a rectangular shape and should be larger toward the outer side of the connecting pipe 30. It is inserted into the groove 11 of the body pipe 10 in the longitudinal direction of the protruding bundle 31 formed in a rectangular shape so as to fit in the groove 11 of the body pipe 10, the connection pipe 30 Due to the rotation (90 °) of the longitudinal direction is to be vertically fitted to the groove portion 11 of the main pipe (10).

Protruding bundle 31 formed in the connecting pipe 30 may be integral, but may be of a bolt rotation type (b ').

In addition, the connecting pipe 30 may be provided with a rotatable bolt-type connecting body 32 to extend the length of the connecting pipe 30.

Referring to the operation according to the scaffolding pipe for lightweight safety system of the present invention configured as described above are as follows.

First, the hollow part is formed in the inside, and extends in the longitudinal direction, and the auxiliary groove part 21 is formed in the inner four directions in which the hollow part is formed, and in the auxiliary pipe 20 in which the through groove 22 is formed in the center of the hollow part. The hollow pipe is formed so as to fit the auxiliary pipe 20 in the longitudinal direction, extends in the longitudinal direction, the main body pipe is formed with a groove portion 11 is also fitted to the auxiliary groove portion 21 of the auxiliary pipe (20) Fit (10).

In order to fasten the body pipe 10 in the axial direction, the connection pipe 30 having the protrusion bundle 31 formed thereon may be fastened to the groove 11 of the body pipe 10.

When the protrusion bundle 31 is fitted into the groove 11, the protrusion bundle 31 having a rectangular shape is transversely longitudinally inserted into the groove 11 of the main pipe 10, and then the connection pipe ( Due to the rotation of 30, the horizontal protrusions 31 may be vertical.

8 to 10 illustrating another embodiment of the main pipe 10 and the auxiliary pipe 20, a hollow part is formed therein, extends in a longitudinal direction, and an inner yarn having the hollow part formed therein. Auxiliary groove 21 is formed in the direction, the ball (b) which is configured on one side and acts as a buffering action of the spring 23 between each auxiliary groove 21 passes through the outer peripheral surface of the auxiliary pipe 20 The hole (h) is configured to, and the hollow portion is formed so as to fit the auxiliary pipe 20 in the longitudinal direction to the auxiliary pipe 20, the through-pipe 22 is formed in the center of the hollow portion, the longitudinal direction It is extended, and the main pipe 10 is formed by inserting the body pipe 10 is formed with the groove 11 is also fitted to the auxiliary groove 21 of the auxiliary pipe (20). In this case, an auxiliary hole h 'must be formed in the body pipe 10 so that the ball b of the auxiliary pipe 20 can be fitted.

In order to fasten the body pipe 10 in the axial direction, the connection pipe 30 having the protrusion bundle 31 formed thereon may be fastened to the groove 11 of the body pipe 10.

When the protrusion bundle 31 is fitted into the groove 11, the protrusion bundle 31 having a rectangular shape is transversely longitudinally inserted into the groove 11 of the main pipe 10, and then the connection pipe ( Due to the rotation of 30, the horizontal protrusions 31 may be vertical.

As shown in FIG. 10, when the other main pipe 10 is connected to the other side of the connection pipe 30 connected as described above, a scaffold pipe having an 'H' shape may be realized. Here, after inserting the strand 50 through the through grooves 22 formed in the auxiliary pipe 20 fitted with the main pipe 10, if a plurality of connections in the longitudinal direction of the main pipe 10, Figure 10 As shown in the figure can be implemented in a ladder shape, it is to be fixed by a fixing member 51 for fixing the strand 50 connected through the through grooves 22 to both ends of the body pipe (10).

When the auxiliary pipe 20 is fitted with the one-pipe 40 formed therein, the protrusion 41 which can be fitted into the groove 11 of the main pipe 10 is fitted into the main pipe 10 to which the auxiliary pipe 20 is fitted. You can also implement a circular scaffolding pipe.

The main pipe 10 and the auxiliary pipe 20 are fitted into the inside of the one-pipe 40 to have a structurally stronger characteristic than the conventional scaffolding pipe.

11 to 14, the connection pipe 30 is fitted into the groove 11 of the main pipe 10, but formed with a rectangular protrusion protrusion 31 is formed of a protrusion bundle 31 integrally. You can do this, but you can also configure the bolt rotation type (b ').

In addition, the connection pipe 30 is configured to form a protrusion bundle 31 on one side, and the other side is provided with a bolt-type connecting body 32 that can be rotated on both sides to combine a plurality of the connection pipe (30).

When using the lightweight safety system scaffolding pipe 100 as described above, the weight is significantly reduced compared to the conventional scaffolding pipe (1) is molded of magnesium material, and thus the worker is working in handling the scaffolding pipe (1) It becomes easier, and the resistance to moisture and corrosion is stronger than before, and the one-pipe 40, the main pipe 10, and the auxiliary pipe 20 are inserted into the structurally excellent impact characteristics, depending on the use The invention relates to the body pipe 10 can be used in the same structure as the conventional scaffolding pipe 100 if the one pipe 40 is fitted.

1: pipe 2: plating film 3: pin
4: coupler 5: coupling groove 6: flange
100: scaffolding pipe
10: main body pipe 11: groove
20: auxiliary pipe 21: auxiliary groove 22: through groove 23: spring
30 connection pipe 31 protrusion bundle 32 connection body
40: one pipe 41: protrusion
50: stranded wire 51: fixing member
b: ball h: hole h ': auxiliary hole

Claims (9)

Molded from magnesium
A hollow body having a hollow portion formed therein and having a groove portion formed in an inward direction thereof;
A hollow pipe is formed inside the main pipe, the auxiliary pipe can be fitted into the hollow of the main pipe, the auxiliary pipe formed with an auxiliary groove;
A one-pipe which is fitted into the outer surface of the main pipe but has a protruding portion fitted into the groove of the main pipe;
A connecting pipe formed with a protrusion bundle to be fitted to the groove of the main pipe so as to be fastened to the main pipe in an axial direction; Scaffolding pipe for lightweight safety system, characterized in that consisting of
The method of claim 1,
Scaffolding pipe for lightweight safety system, characterized in that the ball is configured on one side of the hollow portion of the auxiliary pipe, the ball acting as a buffering action of the spring between each auxiliary groove formed in the auxiliary pipe
The method of claim 2,
The auxiliary pipe is formed with a hole so that the ball can protrude to the outer peripheral surface of the auxiliary pipe, the auxiliary hole is formed so that the ball protruding to the outer peripheral surface of the auxiliary pipe can be caught inside the hollow portion of the body pipe. Scaffolding pipes for lightweight safety systems
The method of claim 1,
Scaffolding pipe for lightweight safety system, characterized in that the cross-sectional area of the groove portion and the auxiliary groove formed in the main pipe and the auxiliary pipe becomes wider toward the inner side of the pipe.
The method of claim 1,
Light weight safety system scaffolding pipe, characterized in that the through groove is formed in the center of the hollow portion formed in the auxiliary pipe so that the strand can pass in the longitudinal direction
The method of claim 1,
The connecting pipe may be formed in a circular or rectangular shape according to use, and the protrusion bundle formed in the connecting pipe has a rectangular shape, and the cross-sectional area of the lightweight safety system is increased as the outside thereof increases.
The method of claim 1,
The one-pipe, the body pipe is a scaffold pipe for lightweight safety system, characterized in that can be used in the longitudinal connection with each other
The method of claim 1,
Protruding bundles formed in the connecting pipe may be configured integrally with the connecting pipe, or may be configured as a detachable bolt rotating type scaffolding pipe for light safety system.
The method of claim 1,
The connection pipes are provided with a bolt-rotating connector to connect the individual connection pipes to extend the length of the light weight safety system scaffolding pipe, characterized in that it can be used.

Images