KR20140028250A - Base assembly and scaffold having the same - Google Patents

Abstract

The present invention relates to a unit assembly for a scaffold and the scaffold provided with the unit assembly, the scaffold is composed of multiple unit structures which are vertically combined with each other, wherein each unit structure has a hexahedral shape including four unit assemblies for the scaffold which are connected to each other. The unit assembly comprises: a reference pipe; an upper fixing member combined with the upper part of the reference pipe; a lower fixing member combined with the lower part of the reference pipe; an upper connection member having one side rotatably connected to the upper fixing member; an inclination connection member which is rotatably connected to the other side of the upper connection member and whose length is adjustable; and a lower connection member having one side rotatably connected to the lower fixing member to have a 90 degrees of phase difference from the upper connection member based on the reference pipe as a reference. The scaffold according to the present invention is provided to be easily and simply assembled and disassembled and to have structural strength improved.

Description

[0001] DESCRIPTION [0002] BASE ASSEMBLY AND SCAFFOLD HAVING THE SAME [0003]

The present invention relates to a scaffolding unit assembly and a scaffold comprising it.

In general, a scaffold is installed inside or outside the building to securely and efficiently perform work on a high part of the building during new construction or maintenance work of the building.

The scaffold consists of a vertical scaffold, a horizontal scaffold and a scaffold. When the scaffold is installed, the vertical scaffolds are arranged at predetermined intervals, the vertical scaffolds are arranged on the vertical scaffold rods, and the scaffolds are connected to each other by the connecting means, and the scaffolds are placed on the horizontal scaffold rods. Since the horizontal scaffolds and scaffolds are connected to each other by connecting them to each other when the scaffold is installed, the components frequently fall down when transporting the horizontal and vertical scaffolds and scaffold, causing safety accidents, Do. In addition, disassembly work is very difficult and dangerous when dismantling scaffolding.

If the worker constructs the building in the scaffold after the installation of the scaffold is completed, or if the scaffold connection means are not firmly connected during the maintenance work, the scaffold collapses in part or in whole, causing a safety accident. Especially, when an unskilled person installs a scaffold, scaffold collapse often occurs.

SUMMARY OF THE INVENTION An object of the present invention is to provide a simple scaffolding unit assembly and a scaffold provided with the unit assembly.

It is a further object of the present invention to provide a scaffolding unit assembly for increasing structural strength and a scaffold having the same.

In order to achieve the above-mentioned object of the present invention, An upper fixing member coupled to an upper portion of the reference pipe; A lower fixing member coupled to a lower portion of the reference pipe; An upper connecting member, one of which is rotatably coupled to the upper holding member; A slant connection member rotatably coupled to the other of the upper connection members and adjustable in length; And a lower connecting member rotatably coupled to the lower fixing member so as to have a phase difference of 90 degrees from the upper connecting member with respect to the reference pipe.

The upper fixing member includes a cylindrical portion into which the reference pipe is inserted and coupled, a first fixing portion extending from one side of the outer circumference of the cylindrical portion, and a second fixing portion extending from the other side of the outer circumference of the cylindrical portion to have a phase difference of 90 degrees with the first fixing portion It is preferable to include the extended second fixing portion.

Wherein the lower fixing member includes a cylindrical portion into which the reference pipe is inserted and coupled, a first fixing portion extending from one side of the outer circumference of the cylindrical portion, and a second fixing portion extending from the other side of the outer circumference of the cylindrical portion to have a phase difference of 90 degrees with the first fixing portion It is preferable to include the extended second fixing portion.

The reference pipe, the upper connecting member, and the inclined connecting member are located on the same line when the upper connecting member, the inclined connecting member, and the lower connecting member are positioned parallel to the reference pipe, And the lower connecting member has a phase difference of 90 degrees with respect to the upper connecting member with respect to the reference pipe.

And a coupling member detachably coupled to an upper portion of the reference pipe adjacent to the lower end of the reference pipe.

In order to achieve the object of the present invention, a plurality of hexahedral unit structures formed by connecting the same four scaffolding unit assemblies to each other are coupled in a vertical direction, and the scaffolding unit assembly includes a reference pipe; An upper fixing member coupled to an upper portion of the reference pipe; A lower fixing member coupled to a lower portion of the reference pipe; An upper connecting member, one of which is rotatably coupled to the upper holding member; A slant connection member rotatably coupled to the other of the upper connection members and adjustable in length; And a lower connecting member rotatably coupled to the lower fixing member so as to have a phase difference of 90 degrees from the upper connecting member with respect to the reference pipe.

The two first and second scaffold assembly units adjacent to each other are arranged such that one side of the upper link member of the first scaffold unit assembly is connected to the upper stationary member of the first scaffold unit assembly, Wherein one end of the inclined connecting member of the first scaffold unit assembly is connected to the other side of the upper connecting member of the first scaffolding unit assembly and the other end of the inclined connecting member is connected to the first fixed member of the unit assembly, And the other side of the lower linking member is connected to the lower fixing member of the scaffolding unit assembly such that one side of the lower linking member of the second scaffolding unit assembly is connected to the lower fixing member of the second scaffolding unit assembly, 1 subassembly for subassembly.

Since the scaffold according to the present invention is formed by connecting four scaffold unit assemblies to each other to form a unit structure and connecting the unit structures to each other, various scaffolds can be implemented. Accordingly, it is possible to implement an appropriate form of scaffold according to the working conditions, thereby enhancing work efficiency.

In addition, the scaffold according to the present invention is constructed by transporting scaffolding unit assemblies and connecting the scaffolding unit assemblies to each other, transporting scaffolding unit assemblies on the unit structure, The unit structure is formed by connecting them to each other, so that the manufacturing is easy and simple. Further, since the scaffolding unit assembly includes the reference pipe, the upper connecting member, the lower connecting member, and the inclined connecting member, and the component parts are transported in parallel to each other, the operator is convenient to carry the scaffolding unit assembly The weight is not excessive. Therefore, it is possible to minimize the occurrence of safety accidents during scaffolding.

The scaffold of the present invention is characterized in that four scaffold unit assemblies including a reference pipe, an upper connecting member, a lower connecting member, and a slant connecting member are connected to each other to form a unit structure, , Which minimizes the risk of structural damage and breakage.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front view showing one embodiment of a scaffolding unit assembly and a scaffold having the scaffolding unit according to the present invention, Fig.
FIG. 2 is a front view showing a unit structure in which four unit units for scaffolding are connected according to an embodiment of the present invention. FIG.
3 is a plan view showing a unit structure in which four units for scaffolding units are connected according to an embodiment of the present invention,
FIG. 4 is a perspective view illustrating a scaffolding unit assembly according to an embodiment of the present invention,
5 is a front view showing a length adjusting unit of an inclined connecting member constituting a scaffolding unit assembly according to an embodiment of the present invention;
FIGS. 6, 7 and 8 are a plan view, a front view, and a side view, respectively, showing a gathered state of a scaffolding unit assembly according to an embodiment of the present invention;
9 is a perspective view illustrating a scaffold according to an embodiment of the present invention,
10 is a plan view of a scaffold according to another embodiment of the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a scaffolding unit assembly and a scaffold with the scaffold assembly according to the present invention will be described with reference to the accompanying drawings.

1 is a front view showing an embodiment of a scaffolding unit assembly and scaffolding according to the present invention. FIG. 2 is a front view showing a unit structure in which four units for a scaffolding unit according to an embodiment of the present invention are connected. 3 is a plan view showing a unit structure in which four units for scaffolding units are connected according to an embodiment of the present invention.

1, 2 and 3, an embodiment of the scaffolding unit assembly according to the present invention and a scaffold having the scaffolding unit according to the present invention includes a hexahedral unit structure (100) are coupled in a vertical direction.

It is preferable that the four scaffold unit assemblies U have the same configuration and size.

4, the reference unit 10 includes an upper fixing member 20, a lower fixing member 30, an upper connecting member 40, a lower fixing member 30, A connecting member 50, and an inclined connecting member 60. [

The reference pipe 10 has a uniform outer diameter, a linear shape, and a predetermined length.

The upper fixing member 20 is coupled to the upper portion of the reference pipe 10. The upper fixing member 20 includes a cylindrical portion 21 into which the reference pipe 10 is inserted and coupled and a cylindrical portion 21 which is formed on one side of the outer peripheral surface of the cylindrical portion 21 And a second fixing part 23 formed on the other side of the outer circumferential surface of the cylindrical part 21 so as to have a phase difference of 90 degrees with the first fixing part 22. The first fixing part 22 extends from the first fixing part 22, The first fixing part 22 is formed in the shape of a rectangular plate having a predetermined thickness and area, and has an insertion groove P1 having a predetermined width and depth at its end. The insertion groove P1 of the first fixing part 22 is formed at the end of a rectangular plate in a longitudinal direction of the reference pipe 10. The second fixing part 23 is formed in a rectangular plate shape having a predetermined thickness and area, and has an insertion groove P2 having a predetermined width and depth at its end. The insertion groove P2 of the second fixing part 23 is formed in the longitudinal direction of the reference pipe 10 at the end of a rectangular plate shape. The length of the first fixing part 22 is longer than the length of the second fixing part 23 and the width of the first fixing part 22 is shorter than the width of the second fixing part 23 do. The length of the first and second fixing portions 22 and 23 is a length perpendicular to the longitudinal direction of the reference pipe 10 and the width of the first and second fixing portions 22 and 23 is a length of the reference pipe 10 ).

The lower fixing member 30 is coupled to the lower portion of the reference pipe 10. The lower fixing member 30 may include a cylindrical portion 31 into which the reference pipe 10 is inserted and coupled and a cylindrical portion 31 on the outer circumferential surface of the cylindrical portion 31, And a second fixing part 33 formed on the other side of the outer circumferential surface of the cylindrical part 31 so as to have a phase difference of 90 degrees with the first fixing part 32. [ The first fixing part 32 is formed in a rectangular plate shape having a predetermined thickness and area, and has an insertion groove P2 having a predetermined width and depth at its end. The insertion groove P1 of the first fixing part 32 is formed in the longitudinal direction of the reference pipe 10 at the end of a rectangular plate shape. The second fixing part 33 is formed in the shape of a rectangular plate having a predetermined thickness and area, and has an insertion groove P2 having a predetermined width and depth at its end. The insertion groove P2 of the second fixing part 33 is formed to pass through the end of the rectangular plate in the longitudinal direction of the reference pipe 10. The length of the first fixing part 22 is equal to the length of the second fixing part 23 and the width of the first fixing part 22 is longer than the width of the second fixing part 23 do. The length of the first and second fixing portions 22 and 23 is a length perpendicular to the longitudinal direction of the reference pipe 10 and the width of the first and second fixing portions 22 and 23 is a length of the reference pipe 10 ).

The upper connecting member 40 is linear and has a predetermined length. The upper connecting member 40 is preferably formed of a pipe. The upper connecting member 40 may be formed as a round bar filled with the inside. The upper connecting member 40 has a cylindrical rod portion 41 having a predetermined outer diameter and a predetermined length and a first connecting portion 42 formed on one side of the rod portion 41 so as to have a predetermined thickness and area, And a second connection part 43 formed on the other side of the second connection part 41 so as to have a predetermined thickness and area. The first connection part 42 is formed in a straight shape and the second connection part 43 is formed in a diagonal shape. The first connection portion 42 of the upper connection member 40 is rotatably connected by the first connection means C1 in a state of being inserted into the first fixing portion insertion groove P1 of the upper fixing member 20, do. The first connection means C1 preferably includes a pin. The first connecting means C1 may include a bolt and a nut. The first connection means C1 may be implemented in various forms. When the first connecting means C1 includes a pin, the first connecting portion 42 of the upper connecting member 40 is inserted into the first fixing portion insertion groove P1 of the upper fixing member 20 A through hole is formed in the first fixing portion 22 and the first connection portion 42 in the through hole and the pin is coupled to the through hole.

The lower linking member 50 is linear and has a predetermined length. The lower connection member 50 is preferably formed of a pipe. The lower connecting member 50 may be formed as a round bar filled with the inside. The lower connection member 50 has a cylindrical rod portion 51 having a predetermined outer diameter and a length and a first connection portion 52 formed on one side of the rod portion 51 so as to have a predetermined thickness and area, 51 and the second connection portion 53 is formed to have a certain thickness and area on the other side. The first and second connection portions 52 and 53 are each formed in a straight shape. The first connection portion 52 of the lower connection member 40 is rotatably connected to the second fixing member insertion groove P2 of the lower fixing member 30 by the second connection means C2, do. The second connecting means C2 preferably includes a pin. The first connecting means C2 may include a bolt and a nut. The second connection means C2 may be implemented in various forms. When the first connecting means C2 includes a pin, the first connecting portion 52 of the lower connecting member 50 is inserted into the second fixing portion insertion groove P2 of the lower fixing member 30 A through hole is formed in the second fixing portion 32 and the first connection portion 52, and a pin is coupled to the through hole.

The inclined connecting member 60 is linear and has a predetermined length. The inclined connecting member 60 is preferably formed of a pipe. The inclined connecting member 60 includes a cylindrical rod portion 61 having a predetermined outer diameter and a predetermined length and a first connecting portion 62 extending to have a predetermined thickness and area on one side of the rod portion 61, And a second connection portion 63 formed on the other side of the second connection portion 61 so as to have a predetermined thickness and an area. The rod portion 61 is provided with a length adjusting unit E and the length adjusting unit E adjusts the length of the rod portion 61 or the inclined connecting member 60. The first and second connection portions 62 and 63 are each formed in a straight shape. The first connecting portion 62 of the inclined connecting member 60 is rotatably connected to the first fixing portion insertion groove P1 of the lower fixing member 30 by the third connecting means C3, And the second connection portion 63 is rotatably connected to the end of the second connection portion 43 of the upper connection member 40 by the fourth connection means C4. The third connecting means C3 preferably includes a bolt and a nut. And may include pins in other embodiments of the third connecting means C3. The fourth connecting means C4 preferably includes a pin. Another embodiment of the fourth connecting means C4 may include bolts and nuts. The inclined connecting member 60 has a phase difference of 90 degrees from the lower connecting member 50 with respect to the reference pipe 10 and is located on the same line as the upper connecting member 40.

As an example of the length adjusting unit E of the inclined connecting member 60, as shown in FIG. 5, the bar portion is divided into two pipes, that is, first and second pipes 61PA and 6PB, The pipe 61PA is slidably inserted into the second pipe 61PB. A pin 64 is coupled to one end of the first pipe 61PA and a guide groove 65 of the second pipe 61PB is formed and the pin 64 is inserted into the guide groove 65. [ The guide groove 65 includes a linear portion 65a having a predetermined length in the longitudinal direction, a first engaging portion 65b formed at one end of the linear portion 65a so as to be bent, And a second latching portion 65c formed to be bent at one end. When the length of the inclined connecting member 60 is shortened when the pin 64 is located at the first engaging portion 65b and when the pin 64 is positioned at the second engaging portion 65c, 60) is long.

In another example of the length adjusting unit E, the length adjusting unit E includes a turnbuckle. At this time, the inclined connecting member 60 is divided into two pipes, and the two pipes are connected to the turn buckle. The length of the inclined connecting member 60 is adjusted by rotating the turn buckle.

The length adjusting unit E may be implemented in various forms.

And a coupling member 70 detachably coupled to an upper portion of the reference pipe 10 adjacent to the lower end of the reference pipe 10. The coupling member 70 may be coupled to the upper end of the reference pipe 10.

The four scaffolding unit assemblies U constituting the unit structure 100 are referred to as first, second, third and fourth scaffolding unit assemblies U1, U2, U3 and U4, Each reference pipe 10 of the four scaffolding unit assemblies U is positioned at each corner of the imaginary square when viewed from the plane of the scaffold assembly 100. The second, third, and fourth scaffold unit assemblies U2, U3, and U4 are positioned counterclockwise with respect to the first scaffold unit assembly U1. The first connection part 42 of the upper connection member 40 of the first scaffold unit assembly U1 is connected to the first fixing part 22 of the upper fixing member 20 of the first scaffold unit assembly U1 And the second connecting portion 43 of the upper connecting member 40 is connected to the second fixing portion 23 of the upper fixing member 20 of the second scaffolding unit assembly U2. The second connection portion 43 of the upper connection member 40 of the first scaffold assembly U1 is connected to the second fixing portion 23 of the upper fixing member 20 of the second scaffold unit assembly U2, And is connected by the fifth connecting means C5 in a state of being inserted into the insertion groove P2 of the second connecting means. The second connection portion 63 of the inclined connection member 60 of the first subassembly unit U1 is connected to the second connection portion 43 of the upper connection member 40, The first connecting portion 62 is connected to the first fixing portion 32 of the lower fixing member 30 of the first scaffolding unit assembly U1. The first connecting portion 52 of the lower connecting member 50 of the first scaffold unit assembly U1 is connected to the second fixing portion 33 of the lower fixing member 30 of the first scaffold unit assembly U1 And the second connection portion 53 of the lower connection member 50 is connected to the first fixing portion 32 of the lower fixing member 30 of the fourth scaffold unit assembly U4 by the sixth connection means C6 Lt; / RTI >

In this manner, the second scaffold unit assembly U2 is connected to the first and third scaffold unit assemblies U1 and U3, and the third scaffold unit assembly U3 is connected to the second and fourth scaffold units U3 and U3. Assembly U2 and the fourth scaffold unit assembly U4 are connected to the third and first scaffold assembly U3 and U1.

6, 7 and 8, the scaffolding unit assembly U is assembled in a state where the scaffolding unit assemblies U constituting the unit structure 100 are not connected to each other, Are collected or transported. That is, the upper connecting member 40, the inclined connecting member 60, and the lower connecting member 50 are positioned parallel to the reference pipe 10, respectively. A sloped connecting member 60 is positioned adjacent to the reference pipe 10 and the upper connecting member 40 is located adjacent to the sloped connecting member 60 and the lower connecting Member is located. The reference pipe 10 and the upper connecting member 40 and the inclined connecting member 60 are located on the same line and the reference pipe 10 and the lower connecting member 50 are located on the same line, The member 50 has a phase difference of 90 degrees with the upper connecting member 40 with respect to the reference pipe 10.

Since the scaffolding unit assembly U is assembled so that the upper connecting member 40, the lower connecting member 50 and the inclined connecting member 60 are parallel to each other with respect to the reference pipe 10, Not only is this easier, but it also takes up less space.

As shown in FIG. 9, the scaffold according to the present invention includes a plurality of unit structures 100 assembled in a vertical direction. The two unit structures 100A and 100B adjacent to each other are referred to as first and second unit structures 100A and 100B and the unit structure 100 positioned below is referred to as a first unit structure 100A The unit structure 100 located at the upper side is referred to as a second unit structure 100B and the joining member 70 provided at each lower end of the four reference pipes 10 of the second unit structure 100B is divided into the first unit Is detachably coupled to each upper end of four reference pipes (10) of the structure (100). The scaffold is formed by connecting the unit structures 100 in the above-described manner in accordance with the height to be worked. The scaffold further includes a ladder (80) and a foot plate (90).

In addition, scaffolds can be implemented in various forms according to working conditions. For example, as shown in FIG. 10, a plurality of unit vertical scaffolds are connected to each other by a plurality of unit vertical scaffolds arranged in a rectangular shape and a plurality of unit vertical scaffolds connected to each other by a connecting plate 200 .

Hereinafter, the operation and effects of the scaffold unit assembly (U) and the scaffold provided with the scaffold unit assembly (U) according to the present invention will be described.

Since the scaffold according to the present invention is formed by connecting the four scaffold unit assemblies U to each other to form the unit structure 100 and connecting the unit structures 100 to each other, various scaffolds can be implemented. Accordingly, it is possible to implement a scaffold of an appropriate shape according to working conditions, thereby improving work efficiency.

The scaffold according to the present invention is constructed by transporting scaffolding unit assemblies U and then connecting the scaffolding unit assemblies U to each other when the unit structure 100 is manufactured. Since the unit assemblies U are transported and then the scaffolding unit assemblies U are connected to each other to form the unit structure 100, the installation work becomes easy and simple. It is also possible that the scaffolding unit assembly U includes the reference pipe 10, the upper connecting member 40, the lower connecting member 50, and the inclined connecting member 60, So that it is convenient for the operator to carry the scaffolding unit assembly U and the weight is not excessive. This makes it easier to install scaffolding, and minimizes the occurrence of safety accidents during scaffolding.

The scaffold of the present invention is also constructed such that four scaffolding unit assemblies U including a reference pipe 10, an upper connecting member 40, a lower connecting member 50, and a slant connecting member 60 are connected to each other Since the unit structure 100 is formed and the unit structures 100 are vertically connected, the risk of structural damage or breakage is increased.

10; A reference pipe 20; The upper fixing member
30; A lower fixing member 40; The upper connecting member
50; A lower connecting member 60; The inclined connecting member
70; [0034]

Claims (7)

A reference pipe;
An upper fixing member coupled to an upper portion of the reference pipe;
A lower fixing member coupled to a lower portion of the reference pipe;
An upper connecting member, one of which is rotatably coupled to the upper holding member;
A slant connection member rotatably coupled to the other of the upper connection members and adjustable in length; And
And a lower connection member rotatably coupled to one of the lower fixing members so as to have a phase difference of 90 degrees with respect to the reference pipe. [2] The apparatus according to claim 1, wherein the upper fixing member comprises: a cylindrical portion into which the reference pipe is inserted and coupled; a first fixing portion extending on one side of the outer circumferential surface of the cylindrical portion; And a second fixing part extended to have a phase difference of 90 degrees with the first fixing part. [2] The apparatus according to claim 1, wherein the lower fixing member comprises: a cylindrical portion into which the reference pipe is inserted and coupled; a first fixing portion extending on one side of the outer circumferential surface of the cylindrical portion; And a second fixing part extended to have a phase difference of 90 degrees with the first fixing part. According to claim 1, wherein when the upper connecting member, the inclined connecting member and the lower connecting member is positioned in parallel with the reference pipe, respectively, the reference pipe, the upper connecting member and the inclined connecting member are located on the same line, and the reference pipe The lower connecting member is positioned on the same line, and the lower connecting member has a phase difference of 90 degrees with the upper connecting member with respect to the reference pipe. The scaffold assembly according to claim 1, further comprising an engaging member detachably coupled to an upper portion of the reference pipe adjacent to a lower end of the reference pipe. A plurality of hexahedral unit structures formed by connecting the same four scaffolding unit assemblies to each other are coupled in a vertical direction,
The scaffolding unit assembly
A reference pipe;
An upper fixing member coupled to an upper portion of the reference pipe;
A lower fixing member coupled to a lower portion of the reference pipe;
An upper connecting member, one of which is rotatably coupled to the upper holding member;
A slant connection member rotatably coupled to the other of the upper connection members and adjustable in length; And
And a lower connecting member rotatably coupled to one of the lower fixing members so as to have a phase difference of 90 degrees with respect to the upper connecting member with respect to the reference pipe. The method according to claim 6, wherein the two first and second scaffold assembly assemblies adjacent to each other are arranged such that one side of the upper connecting member of the first scaffold assembly is connected to the upper stationary member of the first scaffold assembly, The other side of the upper connecting member is connected to the upper fixing member of the second scaffolding unit assembly,
Wherein one side of the inclined connecting member of the first scaffolding unit assembly is connected to the other side of the upper connecting member of the first scaffolding unit assembly and the other side of the inclined connecting member is connected to the lower stationary member of the first scaffolding unit assembly And,
One side of the lower linking member of the second scaffolding unit assembly is connected to the lower stationary member of the second scaffolding unit assembly and the other side of the lower linking member is connected to the lower stationary member of the first scaffolding unit assembly .

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