KR20210147147A - Scaffolding structure of foot hold - Google Patents

Abstract

A scaffold structure of a pawl structure is disclosed. The scaffold structure of the footboard structure according to an embodiment of the present invention includes a flat deck plate; A left and right support portion comprising a side coupling portion coupled to a neighboring deck plate extending vertically from the left and right ends of the deck plate to a set length and an inclined support portion provided to be inclined in the inward direction of the deck plate from the side coupling portion; And a plurality of doedoe provided at intervals set on the lower surface of the deck plate at the same height as the left and right support, vertically extending downward from the lower surface, the inner support for supporting the deck plate; includes.

Description

Scaffolding structure of patriarchal structure {SCAFFOLDING STRUCTURE OF FOOT HOLD}

The present invention relates to a scaffold structure for a foot structure.

In the cargo hold, a pawl structure is installed to work as a barrier for storing cryogenic fluid. In addition, in order to perform investigation/maintenance/repair, etc. in the cargo hold, the pawl structure may be installed in multiple layers inside the cargo hold.

1 shows a foothold structure installed in a conventional cargo hold, and FIG. 2 is a separate view of a footrest provided in the foothold structure of FIG. 1 .

Referring to FIG. 1 , the foothold structure 10 installed inside the cargo hold 2 includes a footrest 12 for movement of workers, heat insulators, equipment, etc., and is composed of members such as footrest legs, brackets, and connecting members. .

The footrest 12 may cause local deflection and structural damage due to the movement of the operator and the movement load of the bogie for moving the working panel during the warming operation in the cargo hold 2 .

Referring to FIG. 2 , the scaffold 12 described above supports the lower portion of the plank 14 with a steel pipe 16 placed on the support pipe 20 of the pawl structure. The plank 14 is vulnerable to bending strength due to its characteristics, and since it is manufactured by bonding a plurality of wooden materials and then compressing them, the durability is weak. To compensate for this, the plank 14 and the steel pipe 16 are fixed by a plurality of fixing pins 18 in a state in which the lower part of the plank 14 is supported by a plurality of steel pipes 16 .

However, due to the weak durability of the plank 14 when an external force is applied, it is easy to break and needs to be replaced frequently. In this case, the fixing pins 18 for fixing the plank 14 and the steel pipe 16 are uncoupled, the new plank is placed on the steel pipe 16, and the process of fixing it again must be made, which is very inefficient. There is this.

In addition, since the above-described fixing operation and dismantling operation are performed equally for the plank 14 and other adjacent planks, the amount of work during installation and release is large, and the connection structure between the planks is also weak.

An embodiment of the present invention is to provide a scaffold structure of a footrest structure that can easily be coupled and dismantled between deck plates, and can effectively support the load acting on the deck plate.

According to an aspect of the present invention, a flat deck plate; A left and right support portion comprising a side coupling portion coupled to a neighboring deck plate extending vertically from the left and right ends of the deck plate to a set length and an inclined support portion provided to be inclined in the inward direction of the deck plate from the side coupling portion; And a plurality of doedoe provided at intervals set on the lower surface of the deck plate at the same height as the left and right support parts, vertically extending in the downward direction from the lower surface, the inner support part for supporting the deck plate; Footrest of a foot structure comprising a A structure may be provided.

The left and right support portion may be provided with a protruding reinforcement horizontally extending in the inner direction of the deck plate.

Doedoe disposed between the left and right support and the inner support and between the inner support on both sides, the auxiliary support having a '⊥' shape extending vertically from the lower surface of the deck plate to a set length, and supporting the lower part of the auxiliary support And, it may further include a support pipe for supporting the vertical load of the upper deck plate.

In order to prevent the inner support from buckling by the vertical load of the upper deck plate, it may further include a flange provided at the lower end of the left and right support and the inner support.

The deck plate may be made of an aluminum material.

The scaffold structure of the footboard structure according to an embodiment of the present invention can be easily combined and disassembled between deck plates, and can effectively support the load acting on the deck plate.

In addition, it can be easily installed in the foot structure, and it is possible to effectively support the load by preventing the support members constituting the scaffold structure from buckling.

In addition, by providing a scaffold structure provided with a deck plate made of aluminum by breaking away from the scaffold structure provided with the existing planks, it can be used for a long time, and it can be prevented from being easily broken even when subjected to an external force.

Effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 shows a pawl structure installed in a conventional cargo hold.
FIG. 2 is a separate view of the footrest of the pawl structure of FIG. 1 .
3 is a view showing a scaffold structure of a footboard structure according to an embodiment of the present invention.
Figure 4 shows the form before the coupling between the deck plate and the neighboring deck plate of the scaffold structure shown in FIG.
5 is a perspective view showing the form after coupling between the deck plate and the adjacent deck plate of the scaffold structure shown in FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments introduced below are provided as examples so that the spirit of the present invention can be sufficiently conveyed to those of ordinary skill in the art to which the present invention pertains. The present invention is not limited to the embodiments described below and may be embodied in other forms. In order to clearly explain the present invention, parts irrelevant to the description are omitted from the drawings, and in the drawings, the width, length, diameter, etc. of components may be exaggerated for convenience. Like reference numerals refer to like elements throughout.

3 is a view showing the scaffold structure of the footboard structure according to an embodiment of the present invention, and FIG. 4 is a view showing the form before coupling between the deck plate of the scaffold structure shown in FIG. 3 and the adjacent deck plate. And, Figure 5 is a perspective view showing the form after coupling between the deck plate and the adjacent deck plate of the scaffold structure shown in FIG.

3 to 5 , the scaffold structure 100 of the foothold structure installed in the cargo hold according to an embodiment of the present invention is set from the left and right ends of the flat deck plate 110 and the deck plate 110 . The left and right support parts including the side coupling part 122 and the side coupling part 122 that extend vertically in length and are coupled to the adjacent deck plate 210 and the inclined support part 124 provided to be inclined in the inward direction of the deck plate 110 (120) and a plurality of doedoe provided at intervals set on the lower surface of the deck plate 110 at the same height as the left and right support parts 120, vertically extending downward from the lower surface of the deck plate 110, the deck plate ( It includes an inner support 130 for supporting 110).

Here, the left and right support 120 may be provided with a protruding reinforcement 126 horizontally extending in the inner direction of the deck plate (110).

In addition, it is disposed between the left and right support 120 and the inner support 130 and between the inner support 130 on both sides, vertically extending from the lower surface of the deck plate 110 to a set length to have a '⊥'-shaped auxiliary A support pipe 150 for supporting the lower portion of the support 140 and the auxiliary support 140 and supporting the vertical load on the deck plate 110 may be provided.

In addition, in order to prevent the inner support portion 130 from being buckled by the vertical load on the deck plate 110, the left and right support portions 120 and flanges 121 and 131 provided at the lower ends of the inner support portion 130 may be included.

Hereinafter, each component will be described in detail.

A pawl structure is installed inside the cargo hold to carry out barrier work and inspection/maintenance/repair in the cargo hold. The scaffold structure 100 of the footboard structure installed in the cargo hold according to an embodiment of the present invention can be installed in a foothold structure including various connections and support pipes 20, brackets, etc. of horizontal members, vertical members, diagonal members, etc. have.

The deck plate 110 may be provided with a flat plate of a set size, and is used for the purpose of moving or performing an operation by an operator. In addition, the moving bogie and various materials may be moved on the deck plate 110 .

An anti-skid protrusion groove 111 may be formed in the upper portion of the deck plate 110 for non-slip and smooth operation or movement. A plurality of protrusion grooves 111 may be formed on the upper portion of the deck plate 110 in the longitudinal direction.

In an embodiment of the present invention, the deck plate 110 may be made of an aluminum material, but is not necessarily limited thereto, and may be made of, for example, a steel material. Through this, it is possible to solve the vulnerability of the conventional scaffolding structure provided with planks.

The left and right support units 120 are provided on the left and right sides of the deck plate 110 to support the deck plate 110 .

The left and right support parts 120 are inclined support portions ( 124).

The side coupling portion 122 is coupled to the side coupling portion 222 of the adjacent deck plate 210 of the same scaffolding structure. To this end, the side coupling part 122 has a plurality of coupling grooves 122a formed on the outer surface in the longitudinal direction to engage with the protruding surface 222a formed on the side coupling part 222 of the adjacent deck plate 210. . The coupling method between the deck plates 110 and 210 is by pushing the side coupling part 222 of the deck plate 210 adjacent to the side coupling part 122 of the deck plate 110 in the longitudinal direction, in the coupling groove (122a). A method in which the protrusion surface 222a is inserted may be applied. The grooves and protruding shapes of the engaging grooves 122a and the protruding surfaces 222a corresponding to each other can be modified into various conventionally known combinable shapes.

In this way, by providing the side coupling parts 122 on both sides of the deck plate 110, even if the deck plate 110 is not fixed to the support pipe 150, the vertical movement between the adjacent deck plates 110 is suppressed and the operator Even when stepping on the deck plate 110, the movement of the deck plate 110 is constrained so that the operator can move smoothly.

That is, in the prior art, the planks 14 were fixed to the steel pipe 16 one by one by the fixing pins 18 as in FIG. For this, there was a problem that the installation work took a lot of time.

However, as described above, in an embodiment of the present invention, grooves/projections 122a and 222a are formed in the side coupling portions 122 provided on both sides of the deck plate 110 to fix the adjacent deck plates 110 to each other. can do it Through this, the conventional fixing structure is omitted, and even when the deck plate 110 is placed on the support pipe 150 without a separate fixing device, even if the operator steps on the interface between the deck plate 110 and the deck plate 110, the deck plate (110) can be effectively prevented from bouncing, it is possible to reduce the installation work time.

In addition, efficient coupling and separation of the deck plate 110 made of an aluminum material can be achieved.

The inclined support part 124 is provided to be inclined in the inner direction of the deck plate 110 from the side coupling part 122, and can form a triangular space (S) with the inclined support part 224 of the adjacent deck plate 210. have. Interference between the portion 22 protruding from the upper end of the support pipe 20 and the inclined support portion 124 by the space S may not occur.

In addition, the left and right support portion 120 may be provided with a protrusion-shaped reinforcement 126 horizontally extending in the inner direction of the deck plate (110). The reinforcing material 126 reinforces the weak structure according to the inclination angle. The reinforcing material 126 may be provided on both sides of the upper inner surface of the inclined support part 124 . The reinforcing material 126 may be omitted in another embodiment.

The inner support 130 is provided in plurality at intervals set on the lower surface of the deck plate 110 at the same height as the left and right support parts 120, vertically extending downward from the lower surface of the deck plate 110, the deck plate (110) is supported. The inner support 130 may be provided at set intervals in order to stably support the deck plate 110 .

The lower end of the inner support 130 may be provided as a flat flange 131 . Through this, it is possible to prevent the inner support 130 from being buckled by the vertical load of the upper deck plate 110 . The above-described left and right support part 120 may also be provided with a flange 121 at the lower end.

The auxiliary support 140 is disposed between the left and right support parts 120 and the inner support part 130 and between the inner support parts 130 on both sides, vertically extending from the lower surface of the deck plate 110 to a set length to form a '⊥' have a shape Auxiliary support 140 includes a horizontal plate 142 placed on the lower center portion of the vertical auxiliary plate 141 and the vertical auxiliary plate 141 vertically extended to a length set from the lower surface of the deck plate (110).

The support pipe 150 supports the lower portion of the auxiliary support 140 , and supports the vertical load of the upper deck plate 110 . The support pipe 150 may be provided as, for example, a hollow square pipe, and supports the lower portion of the auxiliary support 140 formed in the longitudinal direction. In the embodiment of the present invention, three support pipes 150 are provided at the lower part of the auxiliary support 140 as an example. One or more may be omitted.

The auxiliary support 140 may be provided at the same height as the reinforcing material 126 , and the support pipe 150 supports the lower horizontal plate 142 of the auxiliary support 140 , and the vertical load of the upper deck plate 110 . will sustain

On the other hand, the above-described deck plate 110, the left and right support portion 120, the reinforcing material 126, the inner support portion 130 and the auxiliary support 140 may be provided integrally or may be provided to be combined and separated.

In addition, as described above, the deck plate 110 is made of an aluminum material, and the left and right support parts 120 , the reinforcing material 126 , the inner support part 130 and the auxiliary support 140 are the same material as the deck plate 110 , or It may be provided with a steel material or the like.

As described above, the scaffold structure 100 of the footboard structure according to an embodiment of the present invention provides a deck plate made of an existing aluminum material, thereby increasing the period of use, enhancing durability, and preventing easy fracture even when subjected to an external force.

In addition, the scaffold structure 100 is easy to couple between the deck plates, it can effectively support the load acting on the deck plate.

In addition, the scaffold structure 100 can be easily installed on the pawl structure, and the durability can be increased by preventing the constituent members from buckling.

In the above, specific embodiments have been shown and described. However, the present invention is not limited to the above embodiments, and those of ordinary skill in the art to which the invention pertains can make various changes without departing from the spirit of the invention described in the claims below. will be able

110: deck plate 120: left and right support
122: side coupling part 124: inclined support part
126: reinforcing material 130: inner support part
140: auxiliary support 150: support pipe

Claims (5)

flat deck plate;
A left and right support portion comprising a side coupling portion coupled to a neighboring deck plate extending vertically from the left and right ends of the deck plate to a set length and an inclined support portion provided to be inclined in the inward direction of the deck plate from the side coupling portion; and
A plurality of doedoe provided at intervals set on the lower surface of the deck plate at the same height as the left and right support parts, the inner support part vertically extending downwardly from the lower surface to support the deck plate; . According to claim 1,
The left and right support portion is a scaffold structure of a footrest structure provided with a protruding reinforcement horizontally extending in the inner direction of the deck plate. According to claim 1,
An auxiliary support having a '⊥' shape that is disposed between the left and right support parts and the inner support part and between the inner support parts on both sides, vertically extended to a set length from the lower surface of the deck plate,
Supporting the lower part of the auxiliary support, the scaffold structure of the footboard structure further comprising a support pipe for supporting the vertical load of the upper deck plate. According to claim 1,
Footrest structure of the footboard structure further comprising a flange provided at the lower end of the left and right support and the inner support to prevent the inner support from buckling by the vertical load of the upper deck plate . 5. The method according to any one of claims 1 to 4,
The deck plate is a scaffold structure of a pawl structure provided with an aluminum material .

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