KR102054706B1 - Hybrid scaffolding stricture, and integrated connector for the same - Google Patents

Abstract

The present invention relates to a hybrid scaffolding structure and an integrated connector therefor. The integrated connector therefor includes: a horizontal pipe connector (120) formed for fixing a scaffolding horizontal pipe (300); and a vertical pipe connector (110) formed for fixing a scaffolding vertical pipe (200), allowing the scaffolding vertical pipe (200) to be inserted into an inner circumferential surface, and performing a hub structural function supporting the wing-shaped horizontal pipe connector (120) having four grooves in every direction of a side surface. Therefore, the present invention is simple for operation when forming a scaffolding structure and can precisely implement verticality and horizontality with respect to the scaffolding pipe by fastening the connector to the pipe by an integrated body.

Description

HYBRID SCAFFOLDING STRICTURE, AND INTEGRATED CONNECTOR FOR THE SAME

The present invention relates to a hybrid scaffolding structure, an integrated connector therefor, and more particularly, by being formed as an integral unit that can be fastened with a scaffolding pipe, the scaffolding structure is easy to work with, and vertical and horizontal to the scaffolding pipe are The invention relates to a hybrid scaffolding structure, to provide a fastening strength that can be made precisely and to withstand loads sufficiently, and an integral connector therefor.

Conventionally, a scaffolding pipe connecting device for connecting two scaffolding pipes corresponding to horizontal and vertical pipes to be connected at right angles is formed separately.

 Here, the scaffolding pipe coupling unit combines two scaffolding pipes at right angles to allow easy and solid coupling by fitting, but the scaffolding pipe coupling unit is not integrated with the vertical pipe and horizontal pipe for the scaffolding. By being formed as an element, not only has the disadvantages of complicated work and poor fastening force, but also has a limitation that can not bear enough load because the horizontal and vertical is not precisely made.

Accordingly, in the technical field, to solve the conventional problems, it is required to develop a technology for improving the convenience of work, load resistance, and fastening strength by forming integrally, without separately connecting the connector for connecting the vertical pipe and the horizontal pipe. It is becoming.

Korean Patent Application No. 10-2008-0057255 "Scaffold frame for installing crane to construct road crossing structure and making method of the scaffold"

The present invention is to solve the above problems, by fastening the connector with an integrated body of the pipe, it is easy to work when forming the scaffolding structure, hybrid scaffolding so that the vertical and horizontal to the scaffolding pipe can be made precisely To provide a structure, an integral connector for this.

In addition, the present invention provides a complex fixed structure of two or more, with a zero correction function for the horizontal and vertical, it is possible to secure the fastening to withstand the load by the scaffolding structure itself, so that the scaffolding structure to the load by the scaffolding structure To provide a hybrid scaffolding structure for preventing collapse, an integral connector therefor.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, an integrated connector for a hybrid scaffolding structure according to an embodiment of the present invention includes a horizontal pipe connector 120 formed to fix the horizontal pipe 300 for the scaffolding; And a hub which is formed to fix the vertical pipe 200 for the scaffolding, the vertical pipe 200 for the scaffolding is inserted into the inner circumferential surface, and supports the wing-shaped horizontal pipe connector 120 having four grooves in the lateral directions. (hub) a vertical pipe connector 110 to serve as a structure; Characterized in that it comprises a.

At this time, the vertical pipe connector 110, the vertical pipe fastening hole 112; And four corners formed in a square shape having a predetermined height in a round shape, thereby forming a vertical pipe fastening hole 112 having an auxiliary fastening hole 113 corresponding to a stepped shape as an inner circumferential surface 111. ); Characterized in that it comprises a.

In addition, the vertical pipe fastening hole 112, the diameter has the diameter of the outer circumferential surface of the vertical pipe for scaffold 200 or a predetermined length is formed long to serve to fix the vertical pipe 200 for the scaffold. It is done.

In addition, the present invention, the vertical pipe fastening hole 112 corresponding to the central groove portion of the vertical pipe connecting body 111 is fastened to the vertical pipe 200 for the scaffolding and welding after the vertical pipe 200 for the scaffolding by welding. A weld unit 130 formed; It characterized in that it further comprises.

In addition, the welding unit 130 is perpendicular to the vertical pipe connector 110 corresponding to two orthogonal regions perpendicular to the contact point when the vertical pipe connector 110 and the scaffolding vertical pipe 200 are fastened. It is characterized in that formed on the connector contact end 210 of the pipe connection body 111 upper surface and the vertical pipe for scaffold 200.

In addition, the horizontal pipe connector 120, the horizontal pipe fastening hole 122; And a horizontal pipe connecting body 121 having four corners formed in a rectangular shape having the same height as the vertical pipe connecting body 111 in a round shape to form a horizontal pipe fastening hole 122 as an inner circumferential surface thereof. Characterized in that it comprises a.

In addition, the horizontal pipe fastening hole 122 is characterized in that it is formed to insert the dummy insert 420 of the complex fixing module 400.

In addition, the horizontal pipe connecting body 121 is characterized in that the relatively short side of the four sides is formed in a form that is connected to the central region of the four sides of the vertical pipe connection body 111.

Hybrid scaffolding structure according to an embodiment of the present invention to achieve the above object, the vertical pipe for scaffold 200; Scaffolding horizontal pipes 300; And in the hybrid scaffolding structure comprising a one-piece connector 100, the one-piece connector 100, the horizontal pipe connector 120 is formed to secure the horizontal pipe 300 for the scaffolding; And a hub which is formed to fix the vertical pipe 200 for the scaffolding, the vertical pipe 200 for the scaffolding is inserted into the inner circumferential surface, and supports the wing-shaped horizontal pipe connector 120 having four grooves in the lateral directions. (hub) a vertical pipe connector 110 to serve as a structure; Characterized in that it comprises a.

At this time, the vertical pipe connector 110, the vertical pipe fastening hole 112; And four corners formed in a square shape having a predetermined height in a round shape, thereby forming a vertical pipe fastening hole 112 having an auxiliary fastening hole 113 corresponding to a stepped shape as an inner circumferential surface 111. ); Characterized in that it comprises a.

Hybrid scaffolding structure according to an embodiment of the present invention, an integral connector for this, by fastening the connector with a pipe integral body, it is easy to work when forming the scaffolding structure, the vertical and horizontal to the scaffolding pipe can be made precisely Provide the effect of doing so.

In addition, the hybrid scaffolding structure according to another embodiment of the present invention, an integral connector therefor, together with the zero and horizontal correction for the scaffolding structure, by providing a double or more complex fixed structure, thereby tightening the fastening Sufficient to withstand the load by the scaffold structure itself provides an effect that can prevent the scaffold structure to collapse to the load by the scaffold structure.

1 is a perspective view showing an integrated connector 100 for a hybrid scaffolding structure 1 according to an embodiment of the present invention.
2 is a plan view showing an integrated connector 100 for a hybrid scaffolding structure 1 according to an embodiment of the invention.
3 to 5 are views for explaining the process of generating a hybrid scaffolding structure 1 using the integrated connector 100 according to an embodiment of the present invention.
FIG. 6 illustrates a strength reinforcement fastening structure using a composite fixing module 400 and a bolt / nut group 500 for a hybrid scaffolding structure 1 using an integrated connector 100 according to an embodiment of the present invention. It is for the drawing.
7 is a view showing two embodiments of the composite fixed module 400 used for the hybrid scaffolding structure 1 utilizing the integrated connector 100 according to the present invention.
FIG. 8 is a view showing the strength-reinforced fastening structure of the hybrid scaffolding structure 1 using the integrated connector 100 using the complex fixing module 400 according to the second embodiment of FIG. 7 (FIG. 7B).

Hereinafter, the detailed description of the preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, detailed descriptions of well-known functions or configurations will be omitted when it is deemed that they may unnecessarily obscure the subject matter of the present invention.

1 is a perspective view showing an integrated connector 100 for a hybrid scaffolding structure 1 according to an embodiment of the present invention. 2 is a plan view showing an integrated connector 100 for a hybrid scaffolding structure 1 according to an embodiment of the invention. 3 to 5 are views for explaining the process of generating a hybrid scaffolding structure 1 using the integrated connector 100 according to an embodiment of the present invention. FIG. 6 illustrates a strength reinforcement fastening structure using a composite fixing module 400 and a bolt / nut group 500 for a hybrid scaffolding structure 1 using an integrated connector 100 according to an embodiment of the present invention. It is for the drawing. 7 is a view showing two embodiments of the composite fixed module 400 used for the hybrid scaffolding structure 1 utilizing the integrated connector 100 according to the present invention. FIG. 8 is a view showing the strength reinforcement fastening structure of the hybrid scaffolding structure 1 using the integrated connector 100 using the complex fixing module 400 according to the second embodiment of FIG. 7.

First, referring to FIGS. 1 and 2, the integrated connector 100 includes a vertical pipe connector 110, a horizontal pipe connector 120, and a welding unit 130, thereby simplifying work in forming a scaffold structure. In addition, the vertical and horizontal with respect to the scaffold vertical pipe 200 and the scaffold horizontal pipe 300 is made precisely, and can withstand the load enough to solve problems such as collapse by the load by the scaffold structure. .

Looking at the specific configuration for this, the vertical pipe connector 110 includes a vertical pipe connecting body 111, vertical pipe fastening hole 112, auxiliary fastening hole 113, thereby fixing the vertical pipe 200 for the scaffold. It is formed to make, and integrally formed with the vertical pipe 200 for the scaffolding, and serves as a hub (hub) structure for supporting the wing-shaped horizontal pipe connector 120 having four grooves on the side.

The vertical pipe connection body 111 has four corners formed in a square shape having a predetermined height in a round shape, thereby forming a vertical pipe fastening hole 112 having an auxiliary fastening hole 113 corresponding to a stepped shape as an inner circumferential surface. Can be formed.

The vertical pipe fastening hole 112 corresponds to the inner circumferential surface of the vertical pipe connection pipe 111, and the diameter thereof is formed to have the diameter of the outer circumferential surface of the vertical pipe 200 for the scaffolding or is formed to have a predetermined length (3 mm to 5 mm) longer, It may serve to fix the vertical pipe 200 for the scaffold.

That is, the vertical pipe fastening hole 112 corresponding to the central groove of the vertical pipe connection body 111 is fastened to the vertical pipe 200 for the scaffold and the vertical pipe 200 for the scaffold is fixed after welding, such that the welding unit 130 may be further formed.

Here, the welding unit 130 is a vertical pipe connector 110 corresponding to two orthogonal regions perpendicular to the contact point when the vertical pipe connector 110 and the scaffolding vertical pipe 200 are fastened as shown in FIG. 3. The upper surface of the vertical pipe connecting body 111 is preferably formed on the connector contact end 210 of the vertical pipe 200 for the scaffold.

The auxiliary fastening hole 113 corresponds to an area in which the central areas of the four side portions of the vertical pipe connection body 111 forming the vertical pipe fastening hole 112 protrude and are formed in the stepped shape. Fastening of the orthogonal fastening end 410 and the dummy insert 420 of the scaffold horizontal pipe 300 through the insertion of the vertical protrusion 430 (see Fig. 7b, 8) to form the composite fixed module 400 Improves the strength of the coupling between the scaffolding vertical pipe 200 and the scaffold horizontal pipe 300 through the composite fixed module 400, while providing a function of maintaining the horizontal level of the secondary while maintaining the first horizontal through the It can also provide a function.

Next, the horizontal pipe connector 120 is formed to fix the horizontal pipe 300 for the scaffold by including a horizontal pipe connecting body 121, the horizontal pipe fastening hole 122.

The horizontal pipe connection body 121 is formed in a rectangular shape having four corners having the same height as the vertical pipe connection body 111 in a round shape, thereby forming a horizontal pipe fastening hole 122 as an inner circumferential surface.

Here, the horizontal pipe connecting body 121 is preferably formed in a form in which a relatively short side of the four sides are connected to the central region of the four sides of the vertical pipe connecting body 111.

More specifically, four horizontal pipe connecting body 121 is formed in a shape that protrudes forward in the central area of each side of the vertical pipe connecting body 111, each horizontal pipe connecting body 121 is a vertical pipe connection It is formed at intervals of right angles (90 °) along the outer circumferential surface of the vertical pipe connection body 111 with respect to the center on the horizontal surface of the body 111.

Meanwhile, the outer circumferential surface may be inserted into the horizontal pipe connection body 121 into the horizontal insertion hole 330 corresponding to the inner circumferential surface of the horizontal pipe 300 for the scaffold having a rectangular cross section as shown in FIG. 6A.

To this end, the diameter of the outer circumferential surface of the horizontal pipe connecting body 121 is preferably formed to be shorter than the diameter of the inner surface of the horizontal pipe 300 for the scaffolding or by a predetermined length (3 mm to 5 mm).

The horizontal pipe fastening hole 122 may be formed to insert the dummy insert 420 of the complex fixing module 400.

More specifically, the complex fixing module 400 may include an orthogonal fastening end 410, a dummy insert 420, and a vertical protrusion 430.

Here, the orthogonal fastening end 410 is a 'b-shape' shape, two are formed around the hexahedral dummy insert 420, the dummy insert in each of the upper and lower surfaces of the dummy insert 420 The body 420 may be attached in a symmetrical shape.

When the inner peripheral surface of the scaffold horizontal pipe 300 is inserted into the end outer circumferential surface of the horizontal pipe connector 120, the dummy insert 420 has an end portion of the scaffold horizontal pipe 300 which is coupled to the horizontal pipe connector 120 of the scaffold horizontal pipe 300. It is formed to be inserted over the vertical insertion hole 340 formed in the upper surface and the lower surface, and the horizontal pipe fastening hole 122 located in the center on the vertical surface of the two vertical insertion holes 340. On the other hand, the opening area of the vertical insertion hole 340 on the horizontal plane and the opening area of the horizontal pipe fastening hole 122 is preferably formed in the same.

As such, the dummy insert 420 may include a vertical insertion hole 340 on the upper surface of the horizontal pipe 300 for scaffolding, a horizontal pipe fastening hole 122, and a vertical insertion hole on the lower surface of the horizontal pipe 300 for scaffolding. When the one-piece connector 100 and the scaffold horizontal pipe 300 are fixed to each other through the 340 in sequence, two orthogonal fastening ends 410 divided into upper and lower parts about the dummy insert 420. At least one or more orthogonal fastening end 410 of the dummy insert 420 to the surface of the upper and lower surfaces through the vertical bolt / nut 520, respectively, or through the dummy insert 420 Fastening through the vertical bolt / nut 520 can be fixed to the secondary coupling 100 and the scaffold horizontal pipe 300 in the secondary.

Meanwhile, the scaffold horizontal pipe 300 fixed through the vertical bolt / nut 520 and the first connector unit of the integrated connector 100 are connected to the scaffold vertical pipe 200 through the horizontal bolt / nut 510. ), The second connector unit fastened to the first connector unit and the scaffolding vertical pipe 200 can be completed.

In one embodiment of the present invention, the vertical pipe for scaffold 200 may be provided with a connector contact end 210, the fastening end insertion groove 220 as shown in FIG. That is, each of the four side surfaces of the vertical pipe for scaffold 200 may have a structure in which two connector contact ends 210 are formed at both sides of the fastening end insertion groove 220 formed in the longitudinal direction.

The structure divided into the connector contact end 210 and the fastening end insertion groove 220 on each side of the vertical pipe 200 for the scaffolding is the same as the connector contact end 310 and the fastening end 310 similarly to the scaffold horizontal pipe 300. When formed with the insertion groove 320 (refer to FIG. 6A), one plate of the orthogonal fastening end 410 formed in the orthogonal plate shape of the 'b-shape' shape described above is a vertical pipe 200 for scaffolding. By inserting the other end into the fastening end insertion groove 220, and inserting the other plate into the fastening end insertion groove 330 of the horizontal pipe 300 for the scaffold, the orthogonal fastening end 410 is not protruded as a whole scaffolding By providing a structure integrated with the vertical pipe 200 for the scaffold and the horizontal pipe 300 for scaffolding, it is possible to enhance the strength by the external force, and to facilitate the construction.

That is, by using the integrated connector 100, which is a connector for vertically and horizontally connecting the pipes used in the scaffolding structure used in the building construction by the above-described structure, it is easy to fasten between the components including the vertical and horizontal pipes, The operation is simple and the strength can be provided with excellent effect.

That is, in the related art, since the vertical pipe and the horizontal pipe connector for scaffolding are formed as separate components instead of integrally with the vertical pipe and the horizontal pipe for scaffolding, the work is complicated and the fastening force is reduced, as well as horizontal and vertical. This is not done precisely to overcome the limitations of not being able to withstand sufficient loads.

As described above, the present specification and drawings have been described with respect to preferred embodiments of the present invention, although specific terms are used, it is only used in a general sense to easily explain the technical contents of the present invention and to help the understanding of the present invention. It is not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention can be carried out in addition to the embodiments disclosed herein.

1: hybrid scaffolding structure
100: integrated connector
110: vertical pipe connector
120: horizontal pipe connector
130: welding unit
200: vertical pipe for scaffolding
300: horizontal pipe for scaffolding

Claims (10)

A horizontal pipe connector 120 formed to fix the scaffold horizontal pipe 300; And
It is formed to fix the scaffold vertical pipe 200, the scaffold vertical pipe 200 is inserted into the inner circumferential surface, the hub for supporting the wing-shaped horizontal pipe connector 120 having four grooves on the side ( hub) vertical pipe connector 110 to serve as a structure; Including;
Vertical pipe connector 110,
Vertical pipe fastening holes 112; And four corners formed in a square shape having a predetermined height in a round shape, thereby forming a vertical pipe fastening hole 112 having an auxiliary fastening hole 113 corresponding to a stepped shape as an inner circumferential surface 111. ),
Vertical pipe fastening hole 112,
The diameter has a diameter of the outer circumferential surface of the vertical pipe for scaffold 200 or a predetermined length is formed to serve to fix the vertical pipe 200 for the scaffolding,
Welding unit 130 is formed by the vertical pipe fastening hole 112 corresponding to the central groove of the vertical pipe connection body 111 is formed by welding after the vertical pipe 200 for the scaffold is fastened and the vertical pipe 200 for the scaffold is fastened. ); Including,
The welding unit 130,
When the vertical pipe connector 110 and the scaffolding vertical pipe 200 are fastened, the upper surface of the vertical pipe connecting body 111 of the vertical pipe connecting member 110 corresponding to the orthogonal two-way region around the contact point and Is formed in the connector contact end 210 of the vertical pipe for scaffolding 200,
Horizontal pipe connector 120,
Horizontal pipe fastening holes 122; And a horizontal pipe connecting body 121 having four corners formed in a rectangular shape having the same height as the vertical pipe connecting body 111 in a round shape to form a horizontal pipe fastening hole 122 as an inner circumferential surface.
Horizontal pipe fastening hole 122,
Integral connector for a hybrid scaffolding structure, characterized in that it is formed to insert the dummy insert 420 of the composite fixed module 400. delete delete delete delete delete delete delete delete delete

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