KR100581684B1 - Coupling device consisted of all style in scaffolding system - Google Patents

Abstract

The present invention relates to an integrated connection device of a scaffolding system that can be moved to and detachable from the scaffolding pillar and is easily removable and connected for the connection and fixing between the scaffolding pillar and other components fixed to the ground.

The configuration of the present invention for this purpose in the connecting device of the scaffolding system for connecting the board bearing 30 and the guide rail 40 to the scaffolding column 10 fixed to the ground, the inner side is formed through the up and down the scaffolding column 10 ) Is inserted into the inner side and the sliding movement unit 21 is moved up and down by sliding the outer peripheral surface of the scaffolding column (10); A plurality of the sliding fixing parts 26 which are fixed to the scaffolding column 10 through the outer circumferential surface of the sliding moving part 21 to fix the sliding moving part 21 to the scaffolding column 10; An upper plate 22 formed in a plane having a predetermined area on an outer circumferential surface of the sliding moving part 21; A lower plate 23 formed in a plane having a predetermined area spaced apart from the lower side of the upper plate 22 by a predetermined distance; It includes a plate through-hole 24 formed in the plane of the upper plate 22 and the lower plate 23, respectively.

Board Bear, Guide Rail, Scaffold, Scaffolding Column, Connecting Device

Description

Coupling device consisted of all style in scaffolding system}

1 is a perspective view showing a general scaffolding system,

Figure 2 is a perspective view of a conventional foothold hinge;

3 is a perspective view showing an integrated connection device of the scaffolding system according to the present invention;

4 is a perspective view showing a coupling relationship of the integrated connection device of the scaffolding system according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: scaffolding column 20: connecting device

21: sliding moving part 22: the upper plate

23: lower plate 24: plate through hole

25: combining means 26: sliding fixing

30: Board Bear 40: Guide Rail

31, 41: fastening portion 32, 42: fastening hole

The present invention relates to a connecting device of the scaffolding system, and in particular, during the installation of certain equipment, between the scaffolding column and the other components fixed to the ground in the scaffolding system is installed for the prevention of falling of foreign substances in the installation device and the convenience of work. The present invention relates to an integrated connection device of a scaffolding system that can be moved to a scaffolding column for connection and fixation, and is easily removable and connected.

In general, liquefied natural gas refers to a cryogenic liquid which is reduced by compressing its volume to 1/600 by cooling a natural gas mainly composed of methane to minus 162 degrees. As liquefied natural gas emerges as an energy resource, an efficient transportation method that can transport a large amount from the production base to the receiving site is considered to use this gas as energy, and the result is liquefaction for sea transportation of liquefied natural gas. It appeared as a natural gas (Liquefied Natural Gas) LNG carrier.

LNG carriers need to design and build tanks that can withstand ultra-low temperatures of minus 162 degrees and require the highest level of drying technology for the entire shipbuilding industry, and classify LNG carriers according to the most characteristic type of tank. It can be divided into independent type and membrane type.

The liquefied natural gas storage tank of such a liquefied natural gas carrier has a heat dissipation panel made of two layers of urethane foam attached to an inner wall and welded a membrane inside thereof, where the heat dissipation panels are closely adhered to each other to maintain mutual adhesion and robustness. The adhesive is applied to the surface to be attached to each other.

The storage tank of the liquefied natural gas transport ship is formed of a very thin membrane, and the height thereof is considerable, so that the scaffolding system does not fall or come into contact with the storage tank during installation work of the storage tank and surrounding facilities. You should work by configuring it. This general scaffolding system is as shown in Figure 1 below.

1 is a perspective view showing a general scaffolding system.

Referring to Figure 1, the storage tank (1) stores the liquefied natural gas, the scaffolding pillars (2) are respectively installed on the left and right sides and the middle portion at both ends, the support panel (5) is a worker's work and moving space The board bearer 4 supports the support panel, and the guide rail 3 guides the space when the worker moves or works and supports the worker.

In one side space in which the storage tank 1 is installed, scaffolding pillars 2 are installed at the left and right sides and the central portions of both ends, respectively, and the board bearings 4 are connected to predetermined heights of the scaffolding pillars 2, respectively. do. And the support panel 5 is seated on the upper side of the board bearing 4, the support panel 5 is fixed to the board bearing (4). In addition, the guide rail (3) is fixed to the footrest column (2) on one side and the other side at a height that can guide or support the operator to the upper side of the support panel (5).

Figure 2 is a perspective view showing the connection device of the scaffolding pillar in the scaffolding system.

Referring to FIG. 2, the conventional footrest column connecting device is welded to the outer circumferential surface of the foothold column 2 to be bent to cover the front and left and right sides except the upper side and the lower side and the penetrating portion inside. A hinge 2a on which 2b is formed is formed on the front and rear sides and both sides of the scaffolding pillar, respectively.

Looking at the connection configuration of the guide rail (3) and the board bearing (4) using the connection device of the scaffolding column (2), the upper side of each of both ends of the guide rail (3) or the board bearing (4) An upper surface plate 3a forming a plane, a lower surface plate 3b forming a plane from the lower side, an insertion hole 3c formed through the planes of the upper plate 3a and the lower surface plate 3b, respectively, and the upper surface And a taper key 3d inserted into the plate 3a and the insertion hole 3c of the lower plate 3b. Here, the upper plate 3a and the lower plate 3b are spaced apart from each other on one side and bent at the other side to be connected to each other to open a front surface to form a predetermined space in the center.

In the above configuration, the board bearing 4 and the guide rail 3 are connected to each other such that the hinge 2a is positioned inward through an open space at the front, and the upper plate 3a is connected thereto. The upper surface of the hinge (2a), the lower plate 3b is in close contact with the lower side of the hinge (2a), the insertion hole (3c) of the upper plate 3a and the lower plate (3b) is the connection It coincides with the penetrating portion 2b of the metal 2a.

An operator inserts the taper key 3d into the insertion hole 3c of the upper plate 3a, penetrates through the through portion 2b of the hinge 2a, and inserts the insertion hole of the lower plate 3b ( 3c) is fixed to the scaffolding pillar 2 by protruding through it.

However, in the conventional foothold column connection device as described above, as the hinge is fixed to the footboard by welding, the position at which the board and guide rails connected thereto are fixed, is supported and supported by the board and guide rails. When the support panel to be guided to change the height, etc. in the surrounding environment, there is a problem that the work is cumbersome because the height of the scaffolding pillar to be changed by using a separate support member in the scaffolding pillar.

The present invention devised to solve the conventional problems as described above is an integrated connection device of the scaffolding system which can be moved up and down on the outer circumferential surface of the scaffolding pillar to adjust the height of the support panel, which is the movement of the operator and the working space according to the environment of the workplace. The purpose is to provide.

The configuration of the present invention for achieving the above object in the connecting device of the scaffolding system for connecting the board and the guide rail to the scaffolding column fixed to the ground, the inner side is formed through the upper and lower so that the scaffolding column is inserted inside A sliding moving part which is moved up and down by sliding the outer circumferential surface of the scaffolding pillar; A plurality of the sliding fixing parts that penetrate the outer circumferential surface of the sliding moving part and fixed to the scaffolding pillar to fix the sliding moving part to the scaffolding pillar; An upper plate formed in a plane having a predetermined area on an outer circumferential surface of the sliding movement part; A lower plate formed in a plane having a predetermined area spaced apart from the lower side of the upper plate by a predetermined distance; It characterized in that it comprises a plate through-hole formed in the plane of the upper plate and the lower plate, respectively.

Here, the board bearing is a plane having a predetermined shape is characterized in that the fastening portion is formed at the end of the fastening hole is formed to match the plate through hole is inserted between the upper plate and the lower plate is fixed.

In addition, the guide rail is a plane having a predetermined shape is characterized in that the fastening portion is formed at the end of the fastening hole is formed to match the plate through hole is inserted between the upper plate and the lower plate is fixed.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the integrated connection device of the scaffolding system according to the present invention will be described in detail.

3 is a perspective view showing an integrated connection device of the scaffolding system according to the present invention.

Referring to FIG. 3, the sliding moving part 21 is vertically penetrated inward to move the outer circumferential surface of the scaffolding column 10 because the scaffolding column 10 is inserted into the inner side, and the upper plate 22 slides. The outer circumferential surface of the moving part 21 is formed in a plane having a predetermined area, and the lower plate 23 is formed in a plane having a certain area under the upper plate 22. In addition, the plate through-hole 24 is formed through the plane of the upper plate 22 and the lower plate 23, respectively. Here, the upper plate 22 and the lower plate 23 are formed in pairs on a plurality of upper plates 22 and lower plates 23 on the outer circumferential surface of the sliding moving part 21. In addition, the coupling means 25 is inserted into the plate through-hole 24 to fix the fastening portions 31, 41 of the board bearing 30 or guide rail 40 to be described later, the sliding fixing part 26 is Through slidingly coupled to the outer circumferential surface of the sliding portion 21 to fix the sliding portion 21 to the outer circumferential surface of the scaffolding column (10).

In addition, the guide rails 40 or the board bearings 30 connected to and fixed to the scaffolding column 10 have fastening portions 31 and 41 formed at their respective ends, and the fastening portions 31 and 41 are formed on the upper plate. It is formed in a plane of a predetermined shape corresponding to the thickness and the area of each plate as the spaced interval between the 22 and the lower plate 23, the plate through hole 24 in the plane of the fastening portion (31, 41) And fastening holes 32 and 42 are formed.

4 is a perspective view showing a coupling relationship of the integrated connection device of the scaffolding system according to the present invention.

Referring to FIG. 4, first, the sliding moving part 21 is inserted into the upper end of the scaffolding column 10 through a through hole therein to slide the outer circumferential surface of the scaffolding column 10 to slide the slide at a predetermined position. The sliding moving part 21 is fixed to the outer circumferential surface of the scaffolding column 10 by using a plurality of sliding fixing parts 26 installed on the outer circumferential surface of the moving part 21. Here, the plurality of sliding fixing parts 26 penetrates the outer circumferential surface of the sliding moving part 21 to be in close contact with the outer circumferential surface of the scaffolding pillar 10 to move the sliding moving part 21 in each direction to the scaffolding pillar ( 10) to the outer circumferential surface.

In addition, the fastening portions 31 and 41 formed in a plane having a predetermined area at the front end of the board bearer 30 or the guide rail 40 are disposed in a space between the upper plate 22 and the lower plate 23. The bottom surface of the coupling parts 31 and 41 is inserted into the top surface of the lower plate 23. At this time, the fastening portions 31 and 41 are such that the fastening holes 32 and 42 formed in the plane coincide with the plate through holes 24 formed in the upper plate 22 and the lower plate 23, respectively.

Therefore, as described above, when the fastening portions 31 and 41 are seated between the upper plate 22 and the lower plate 23, the coupling means 25 is formed in the upper plate 22. Inserted into the 24 to penetrate through the plate through hole 24 of the lower plate 23 through the fastening holes (32, 42) to protrude downward. Therefore, the board bearings 30 and the guide rails 40 are fixed to the scaffolding column 10 so that the height of the support panel and the like can be adjusted and installed according to the environment of the workplace.

The present invention is not limited to the preferred embodiments of the above-described features, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention as claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the integrated connecting device of the scaffolding system according to the present invention slides the outer circumferential surface of the scaffolding column so as to be fixed at the desired position by the operator, thereby positioning the position of the board bearing and guide rail connected to and fixed to the connecting device. The height can be installed according to the easy installation work of the scaffolding system.

Claims (3)

In the connecting device of the scaffolding system for connecting the board bearing 30 and the guide rail 40 to the scaffolding column 10 fixed to the ground, Since the inside is formed up and down through the scaffolding pillar 10 is inserted into the inner side sliding sliding portion 21 which is moved up and down by sliding the outer peripheral surface of the scaffolding pillar 10; A plurality of the sliding fixing parts 26 which are fixed to the scaffolding column 10 through the outer circumferential surface of the sliding moving part 21 to fix the sliding moving part 21 to the scaffolding column 10; An upper plate 22 formed in a plane having a predetermined area on an outer circumferential surface of the sliding moving part 21; A lower plate 23 formed in a plane having a predetermined area spaced apart from the lower side of the upper plate 22 by a predetermined distance; Integral connection device of the scaffolding system, characterized in that it comprises a plate through-holes (24) formed through each of the plane of the upper plate (22) and the lower plate (23). The method of claim 1, wherein the board bear 30 As a plane having a predetermined shape, a fastening portion 31 having a fastening hole 42 corresponding to the plate through-hole 24 is formed at an end thereof and inserted between the upper plate 22 and the lower plate 23. Integral connection device of the scaffolding system, characterized in that fixed. The method of claim 1, wherein the guide rail 40 As a plane having a predetermined shape, a fastening portion 41 having a fastening hole 42 corresponding to the plate through-hole 24 is formed at an end thereof and inserted between the upper plate 22 and the lower plate 23. Integral connection device of the scaffolding system, characterized in that fixed.

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