KR101820955B1 - Pole device for suspension scaffold - Google Patents

Abstract

A device for constructing a suspended scaffold on an H beam of a deck, the apparatus comprising: a body (30) having an opening to one side of the fixed table (31) to allow partial entry of the H beam; And a support member 50 coupled to the main body 30 so as to be spaced apart from the fixing table 31 and causing clamping (grasping) of the H beam by application of rotational force.
As a result, it is possible to improve the convenience and promptness of the task of assembling the poles equally to the deck located at a relatively high place in installing and dismantling the external work scaffold on the basis of the modular scaffolding and the indoor hanger scaffolding in the offshore plant have.

Description

[0001] Pole device for suspension scaffold [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a scaffold for installation / operation / inspection of an offshore plant, and more particularly, to a scaffold scaffolding mechanism for easily accessing and dismantling an external work scaffold.

Typically, the scaffold system of an offshore plant is divided into an external scaffold installed vertically and an internal scaffold installed horizontally. In the case of a three-stage modular offshore plant, the height of one stage is approximately 5 to 6 meters, and the total height is approximately 15 to 20 meters on the basis of a three-stage module. In total, several tens of thousands of footsteps are required. Under such design conditions, there is an urgent need to improve the convenience of the footrest installation.

Korean Patent Registration No. 0598028 (Prior Art 1) and Korean Patent Registration No. 1099396 (Prior Art 2) are known as prior art documents which can be referred to in connection with scaffolding scaffold installation.

In the prior art reference 1, a clamp body is integrally formed at the other end of the footrest support, and a vertical plate having an inclined plate and a rubber pad is fixedly installed on the inner front and rear surfaces of the clamp body. A guide pin is interposed between the inclined plate and the vertical plate And a clamping plate having a rubber pad on its inner surface is inserted and installed so as to be movable forward and backward. Therefore, it is expected that the time and effort required for the installation and disassembly of the scaffolds are shortened.

In the case of a hanging scaffold having a shelf, a hanging material, a cross beam, a joist, a flooring material, and a connecting means, the hanging scaffold shelf is mounted and separated between a plurality of strut members and adjacent strut members And a mounting member to a support member is provided on both sides of the protection panel. Thus, an effect of assuring a safe and easy assembly of the hanging scaffold in a short time is expected.

However, according to the above-mentioned prior art documents, it is necessary to secure the convenience of installing scaffolding scaffolds. However, there is a lot of room for improvement in order to increase the efficiency of equipment / time saving by applying to the offshore plant scaffolding system.

1. Korean Registered Patent No. 0598028 entitled " Suspension Scaffolding Stand for Hull Block Work "(Open date: Jun. 23, 2004) 2. Korean Patent Registration No. 1099396 entitled "Suspension Scaffolding, Suspension Scaffolding Shelf, and Assembly and Construction Method" (Published on Mar. 23, 2005).

It is an object of the present invention to overcome the above-mentioned problems of the prior art by providing a method of installing and disassembling an external work scaffold on the basis of a modular scaffolding and an internal hanger scaffolding in an offshore plant, Thereby ensuring the convenience and promptness of the joining operation.

In order to achieve the above object, the present invention provides a mechanism for constructing a suspended scaffold on an H beam of a deck, comprising: a body having an opening to one side of the fixed table to allow partial entry of the H beam; And a support member coupled to the main body so as to be spaced apart from the fixing table so as to be spaced apart from each other and causing clamping (grasping) of the H beam by application of rotational force.

In a detailed configuration of the present invention, the support member is provided with an operation plate and a spiral bar at the upper end, and is engaged with the spiral hole of the main body through the spiral bar.

As a detailed configuration of the present invention, the main body further includes a movable base at a position facing the fixed base, and causes rotation of the movable base via the locking means.

As a detailed configuration of the present invention, the locking means causes an increase in the gripping force due to the rotation of the movable base through the operation base interlocked with the upward movement of the support member.

At this time, the operating rod is connected to the end of the movable base by a first connecting pin, and the second connecting pin is connected to a link adjacent to the moving rod, thereby constituting a four-bar link mechanism.

As described above, according to the present invention, in the case of installing and dismantling an external work scaffold on the basis of a modular scaffold and an internal hanger scaffold in an offshore plant, the convenience and speed of the operation of equally arranging the poles at a relatively high deck .

1 is a schematic view showing a scaffold system of an offshore plant to which the present invention is applied;
Fig. 2 is a schematic view showing a state in which the pole mechanism according to the present invention is installed
Fig. 3 is a schematic view showing a main portion of the pole mechanism according to the present invention in an exploded view
Fig. 4 is a schematic view showing a state of construction using the pole mechanism according to the present invention. Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention proposes a mechanism for constructing a scaffold scaffold on an H beam of a deck. FIG. 1 illustrates a state where a multi-layered deck (DK) is provided in a marine plant composed of three stages of production modules (MD). In the method of the present invention, the conventional external scaffold 11 and internal scaffold 12 are reduced or eliminated. Utilizes but is not necessarily limited to a number of H beams 15 included in the deck.

On the other hand, in FIG. 1, reference numerals SF denote the positions of the footrests 25 to be applied to the scaffold of the present invention.

According to the present invention, a scaffolding module 20, which is formed in a multi-layer structure to reduce or replace the external scaffold 11, is installed adjacent to the side surface of the deck to assist movement of personnel and materials. The scaffolding module 20 may include a fixture bound to a deck or the like of an offshore structure, and a ladder for lifting and lowering the operator.

According to the present invention, the main body 30 is a structure having an opening to one side of the fixing table 31 so as to allow partial entry of the H beam. The main body 30 has a fixing base 31 coupled to an upper end of a support member 50 to be described later. The fixing table 31 is formed in a cross-sectional shape and has an opening at one side. The opening of the retention base 31 allows entry into the flange portion of the H beam and induces clamping with respect to the H beam with the support member 50 described below.

On the other hand, the main body 30 and the support member 50 having such a structure serve as a kind of pole that constitutes the string of the current acceptance.

According to the present invention, the support member 50 is coupled to the main body 30 so as to be able to vary the gap with respect to the fixing table 31, and causes a clamping (grasping) of the H beam by applying a rotational force. The supporting member 50 is preferably a structure based on a standard steel pipe, but other pipe members or rod members may be used. The main body 30 and the support member 50 are combined such that relative motion occurs in the set region. Relative motion causes a variation in the spacing in the opposite region between the fixing member 31 and the supporting member 50 of the main body 30 so as to maintain the clamping or unclamping state with respect to the H beam. At the lower end of the support member (50), an operator (53) for rotating the workpiece with a rod or a tool interposed therebetween is formed.

The support member 50 is provided with an operation plate 51 and a spiral bar 55 at the upper end and is fitted to the spiral hole 35 of the main body 30 through the spiral bar 55 . 2 illustrates a state in which a disc-shaped operation plate 51 is fixed to the upper end of the support member 50 and a spiral rod 55 is formed concentrically at the center of the operation plate 51. [ At the upper end of the spindle 55, a close contact piece 57 for increasing the abrasion resistance in contact with the H beam is detachably provided. The spiral hole 35 formed on the main body 30 switches the rotary motion of the support member 50 to the rotation and vertical movement of the spindle 55. Thus, clamping or unclamping is performed while the gripping force against the H beam is interrupted according to the rotation direction of the support member 50.

As a detailed configuration of the present invention, the main body 30 further includes a movable base 32 at a position opposite to the fixed base 31, and is configured to rotate the movable base 32 via the locking means 40 . In FIG. 2, a fixing base 31 is disposed on one side of the H beam and a movable base 32 is disposed on the other side. The movable base 32 is formed in a cross-sectional shape like the fixed base 31 and is mounted on the fixed base 31 with the hinge shaft 33 interposed therebetween. The movable base 32 is actuated by the locking means 40 to assist clamping between the fixed base 31 and the spiral bar 55. [ The pivotal movement of the movable base 32 is to sufficiently secure the opening of the fixed base 31 at the initial stage of clamping to avoid interference.

As a detailed configuration of the present invention, the locking means (40) is characterized in that the gripping force is raised by the rotation of the movable base (32) through the operating rod (41) interlocked with the upward movement of the supporting member . In order to apply the electric method using the motor as the locking means 40, it is preferable to apply the mechanical method excluding the motor since the electric wire should be disposed. That is, the upward movement accompanying the rotational motion of the support member 50 is used to cause the movable base 32 to rotate. 2 is a clamping state in which the movable base 32 is in an elevated state, and Fig. 3 is an unclamping state in which the movable base 32 is lowered.

The operating rod 41 is connected to the end of the movable base 32 by a first connecting pin 42 and the link 45 connected to the movable base 32 by a second connecting pin 43) so as to constitute a four-bar link mechanism type. 3, the four-bar linkage mechanism is exemplified by a fixed base 31, a movable base 32, an operation base 41, and a link 45. The outer end (left end) of the operating member 41 is in contact with the operating plate 51 of the supporting member 50. [ When the outer end of the operation pedestal 41 is raised, the first connection pin 42 is rotated about the second connection pin 43. The first connection pin 42 is lowered to cause the movable stand 32 to rise and closely contact the H beam.

Of course, since the operation table 41 is in a simple contact state with the operation plate 51, the movable table 32 for preventing separation is held in a lowered state by its own weight as shown in FIG.

On the other hand, it is preferable to adhere the abutting piece 37 having abrasion resistance to the portion of the movable base 32 which is in contact with the H beam. It is advantageous to increase the gripping force with respect to the H beam when the contact piece 37 is formed with concavities and convexities rather than in a flat state.

4, an upper end of the support member 50 is approached to the H beam in a state where the opening of the support table 31 is kept at the maximum, The supporting member 50 is lifted and the spiral rods 55 are lifted to clamp one side of the H beam and at the same time the movable base 32 is raised and the other side is brought into close contact. Since the support member 50 is held tightly by the fixing table 31 and the movable table 32, the foot plate 25 described above can be installed on the lower side.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

10: Scaffolding system 11: External scaffolding
12: inner scaffold 15: H beam
20: Footstep module 25: Footstep
30: main body 31:
32: movable stand 33: hinge shaft
35: Spiral ball 37:
40: locking means 41:
42, 43: connecting pin 45: link
46: Hinge shaft 50: Support member
51: operating plate 53: operating ball
55: spiral bar 57: close contact piece

Claims (5)

An apparatus for constructing a scaffold of a suspension system on an H beam of a deck comprising:
A body (30) having an opening to one side of the fixing table (31) to allow partial entry of the H beam;
And a support member 50 coupled to the main body 30 so as to be spaced apart from the fixing table 31 and causing clamping (grasping) of the H beam by application of rotational force,
The main body 30 further includes a movable base 32 at a position facing the fixed base 31 and causes the movable base 32 to rotate through the locking means 40,
Characterized in that the locking means (40) causes an increase in gripping force due to the rotation of the movable base (32) via the operating base (41) interlocked with the upward movement of the supporting member (50). The method according to claim 1,
Characterized in that the support member (50) is provided with an operation plate (51) and a spiral bar (55) at the upper end and engaged with the spiral hole (35) of the main body (30) For example. delete delete The method according to claim 1,
The operating rod 41 is connected to the end of the movable base 32 by a first connecting pin 42 and a second connecting pin 43 is connected to a link 45 which is connected to the movable base 32. [ To form a four-bar linkage configuration.

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