KR100575560B1 - Coupling device of compound type connecting board bearer in scaffolding system - Google Patents

Abstract

The present invention relates to a connecting device of the scaffolding system, and in particular, during the installation of certain equipment, the board for supporting the support panel seated on the upper portion in the scaffolding system is installed for the prevention of falling of foreign matters in the installation device and the convenience of work The present invention relates to a connection device of a composite board bearing for a scaffolding system for simultaneously connecting and fixing a bear and a bracing connected diagonally.

The configuration of the present invention for this purpose in the board bearing connecting device 20 for connecting to the footrest pillar 10 for supporting the support panel to form the movement and work space of the worker, the footrest to support the support panel seated on the upper side A board bearing 40 having an insertion portion 433 formed at an end thereof so as to be fixed to an outer circumferential surface of the column 10; A flange coupling surface 26 having an inner surface curved to be fixed to an outer circumferential surface of the scaffolding column 10 and fixed to the scaffolding column 10; At least one coupling extension surface 23 extending horizontally from the flange coupling surface 26;

The through hole 253 is formed on the upper and lower surfaces so as to be connected to the coupling extension surface 23 and to coincide with the insertion portion 433 formed at the end of the board bearing 40 inserted inwardly through the open front surface. It includes a connector 25.

Board Bear, Connector, Scaffold, Hinge, Brass

Description

Coupling device of compound type connecting board bearer in scaffolding system}

1 is a perspective view showing a general scaffolding system,

2 is an enlarged perspective view showing part A of FIG. 1;

Figure 3 is a perspective view showing a connection device of the composite board bearing for the scaffolding system according to the present invention,

Figure 4 is a perspective view of the board bearing in the connection device of the composite board bearing for the scaffolding system according to the present invention,

5 is a perspective view showing a coupling relationship of the connection device of the composite board bearing for the scaffolding system according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10: scaffolding column 20: connecting device

21: upper brass connecting portion 22: lower brass connecting

23: coupling extension surface 24: bracing connector

25: connection portion 26: flange coupling surface

27: flange coupling means 30: taper key

40: Board Bear 41: First Board Bear

42: first board bearing 43: board bearing connecting member

50: bracing 51: bracing coupling portion

52: breathing coupling 251: the upper plate

252: lower plate 253: through hole

431: board bearing coupling portion 432: fastening portion

433: insertion unit

The present invention relates to a connecting device of the scaffolding system, and in particular, during the installation of certain equipment, the board for supporting the support panel seated on the upper portion in the scaffolding system is installed for the prevention of falling of foreign matters in the installation device and the convenience of work The present invention relates to a connection device of a composite board bearing for a scaffolding system for simultaneously connecting and fixing a bear and a bracing connected diagonally.

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 the inner wall and welded a membrane inside the heat dissipation panel. The adhesive is applied to each other to attach them.

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 installed at each of the left and right sides at both ends, the support panel (5) is the working and moving space of the operator, 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, the scaffolding pillars 2 are installed on the left and right sides of both ends, respectively, and the support bearings are connected to predetermined heights of the scaffolding pillars 2, respectively. 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).

Here, the board bearings 4 are fastened and fixed to the hinges formed by welding on the outer circumferential surface of the scaffolding pillars 2, and are connected to the scaffolding pillars 2 at both ends thereof to be horizontally connected to each other. The board bearing 4 supporting the panel 5 and the footrest column 2 fixed to one side and the other side in the middle portion to support the support panel 5 in the vertical direction in the portion A of FIG. Board bearer 4 is included. Here, the connection device of the board bearer connected to the both side scaffold pillar (2) of the middle portion is as shown in FIG.

2 is an enlarged perspective view of a portion A of FIG. 1 showing a conventional guide rail connecting device.

Referring to FIG. 2, a connection device for connecting a plurality of conventional board bearings to a scaffolding pillar is fixed by bolts and screws 2c passing through the scaffolding pillar 2 to be in close contact with the upper surface of the board bearing 4. A lower angle fixed by an upper angle piece 2a and a bolt and a screw 2c penetrating the scaffolding pillar 2 at the lower side of the upper angle piece 2a to support the lower surface of the board bearing 4. Piece 2b. Wherein the upper and lower angle pieces (2a, 2b) are fixed to both sides of the footrest column (2), respectively.

First, in order to connect the board bearer 4 using a conventional board bearer connection device, the lower angle piece 2b is positioned at a predetermined height of the footrest column 2, and the lower angle is used by using a screw 2c. Since the piece 2b and the stepping column 2 are penetrated and fixed using the bolt 2c, the fixing operation of the lower angle piece 2b is completed. Therefore, when the lower angle piece 2b is fixed, the board bearings 4 are respectively seated on the upper surface of the lower angle piece 2b.

Then, the upper angle piece 2a is positioned on the upper surface of the board bearer 4, and the upper angle piece 2a is opened using the bolt 2c by penetrating the scaffolding pillar 2 using the screw 2c. It is fixed to the outer peripheral surface of the scaffolding pillar (2).

In addition, when the board bearer 4 is supported by the upper and lower angle pieces 2a and 2b as described above, the worker adheres the upper and lower angle pieces 2a and 2b to the board bearing 4. Welding is performed on the surface to bond the board bearing 4 and the upper and lower angle pieces 2a and 2b to complete the connection work.

However, the conventional board bearing connecting device for the scaffolding system is cumbersome because the upper and lower angle pieces are fixed by the screws passing through the scaffolding pillars, and thus have to work with a predetermined mechanism, and the upper and lower angle pieces and the board Since the bear is fixed by welding, the installation work of the equipment is completed, when dismantling the scaffolding system, there is a problem that the work is not easy and takes a lot of time.

In addition, the conventional board bearer connection device is to install a separate net, etc. in order to prevent the foreign matter is separated from the side of the scaffold in the scaffolding system to fall on the surface of the storage tank for this purpose connecting the bracing diagonally to the scaffolding pillar And fixed to install a net, etc., but conventionally there is a problem that the work time and cost is increased by adding a separate connection device for connecting the breathing.

The present invention devised to solve the conventional problems as described above comprises a flange-type connection device coupled to the outer peripheral surface of the scaffolding pillar, the board bearing connecting portion and the footrest for easy connection and fixing of the board bear at the same time An object of the present invention is to provide a connecting device of a composite board bearing for a scaffolding system including all of the connecting portions of the bracing connected diagonally to the pillar.

In the configuration of the present invention for achieving the above object is in the board bearing connecting device for connecting the board bearing supporting the support panel to form the movement and work space of the worker to the footrest fixed to the ground, the footrest of the A flange coupling surface having an inner surface curved to be fixed to an outer circumferential surface thereof and fixed to the scaffolding pillar; At least one coupling extension surface extending horizontally from the flange coupling surface; It is connected to the coupling extension surface, and includes a connection portion is formed in the through hole on the upper and lower surfaces to match the insertion hole formed in the end of the board bearing inserted inward through the open front.

The flange coupling surface further includes at least one or more brass connection portions extending from the outer circumferential surface by a predetermined length in the diagonal direction of the upper side and the lower side, respectively, to form a brass coupling hole on the side surface.

Here, the board bearing is coupled to the first board and the first board bearing is coupled to the connecting portion, the board bearing coupling portion is coupled to one side of the first board and the other side of the first board bearing; It is coupled to the front surface of the board bearing coupling portion and the insertion hole is formed on the upper and lower surfaces, respectively, and has a shape coinciding with the inside of the connection portion includes a fastening portion inserted into the inside of the connection portion.

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

Figure 3 is a perspective view showing a connection device of the composite board bearing for the scaffolding system according to the present invention.

Referring to FIG. 3, the scaffolding column 10 is fixed to the ground to support the board bearing 40 and the bracing 50, and the connecting device 20 is the board bearing 40 and the bracing 50. It is fixed to the footrest column (10). In addition, in the connecting device 20, the flange coupling surface 26 is divided into a plurality of inner surfaces are curved to be in close contact with the outer circumferential surface of the scaffolding column 10, the flange coupling means 27 is divided into the flange coupling surface The flange coupling surface 26 is fixed to the outer circumferential surface of the scaffolding column 10 by penetrating a portion where both coupling surfaces are in close contact at 26.

In addition, the upper portion of the connecting portion 21 has a predetermined distance from the flange coupling surface 26 and a plurality of extending is formed by extending a predetermined length in the upper diagonal direction from the flange coupling surface 26 to the upper diagonal bracing ( 50, see Fig. 5) is connected, the lower breathing connecting portion 22 is formed in pairs with the upper breathing connecting portion 21 is formed to extend at a predetermined interval in the diagonal direction in the lower diagonal direction on the flange coupling surface 26 Extends by a lower diagonal direction (50, see Fig. 5) is connected, the bracing connector 24 is formed on the side end of the upper and lower breathing connection portion 22 and the lower portion of the connection (22) The coupling means (52, see Fig. 5) formed at the end of the 50) is matched with a separate coupling means is inserted through the connection between the upper and lower breathing connection (21, 22) and the breathing (50, Fig. 5) .

In addition, the board bearing connecting surface 23 extends horizontally between the upper breathing connector 21 and the lower breathing connector 22 by a predetermined length, and a connecting portion 25 is connected to an end thereof, and the connecting portion 25 is the front surface. Is opened, and the through hole 253 is formed in the center at the upper side and the lower side is connected to the upper plate 251 and the lower plate 252, and the board bearing connecting surface 23 through which the taper key 30 penetrates. It is formed with the back side.

That is, the connection device 20 of the composite board bearing for the scaffolding system according to the present invention is a plurality of upper, lower brushing connecting portion (21, 22) and the board bearing connecting surface 23 is extended at a predetermined interval, the board Connection portions 25 are formed at ends of the bare connection surface 23, respectively.

Figure 4 is a perspective view of the board bearing in the connection device of the composite board bearing for the scaffolding system according to the present invention.

Referring to FIG. 4, the board bearer 40 fastened to the connecting portion 25 may include the first board bearer 41 on one side and the second board bearer 42 on the other side by the board bearer connecting member 43. Is connected from the side and the other side is connected to the plurality of connections 25 at the same time. The board bearer connecting member 43 is coupled to one side of the first board bearer 41 and the other side of the second board bearer 42 and fastened to the connecting unit 25.

The double board bearer coupling part 431 is formed in a rectangular cross section so that one end surface is welded to the other end surface of the second board bear 42 and the other end surface to the one end surface of the first board bear 41. In addition, an insertion portion 433 is formed to form a rectangular cross section on the front surface of the board bearer coupling portion 431, and an empty space is formed to correspond to the through hole 253 of the connection portion 25 inside.

5 is a perspective view showing a coupling relationship of the connection device of the composite board bearing for the scaffolding system according to the present invention.

Referring to Figure 5, as described above, in the flange coupling surface 26 coupled to the outer circumferential surface of the scaffolding column 10, a plurality of connection portions (each at the end of the board bearing connecting surface 23 extending horizontally by a predetermined length ( 25) is formed. In this case, the connection part 25 has an upper surface and an upper surface and a lower surface having a flat surface, and having an upper plate 251 and a lower plate 252 forming a through hole 253 in the center thereof, and forming an empty space therein. .

Accordingly, the fastening part 432 of the board bearing connecting member 43 formed between the first and first board bearings 41 and 42 is inserted inward through the open front surface of the connecting part 25, and the insertion is performed. The portion 433 is inserted to coincide with the through hole 253.

When the fastening part 432 is inserted into the connection part 25 as described above, the taper key 30 is inserted through the through hole 253 of the upper plate 251 to be connected to the fastening part 432. An end protrudes downward through the insertion part 433 and through the through hole 253 of the lower plate 252.

Here, the tapered key 30 is formed such that one side cross section forms a vertical cross section, and the other cross section forms a predetermined sloped surface so that its thickness becomes smaller toward the lower side. Therefore, when the taper key 30 is inserted into the through hole 253 and the insertion part 433 at the position where the taper key 30 is formed to have a width larger than the diameter of the through hole 253 and the insertion part 433. It is stopped, the fastening portion 432 and the connecting portion 25 is fixed by the friction force.

In addition, the upper or lower brass connecting portion (21, 22) installed at the corresponding position on the plurality of upper and lower brass connecting portion (21, 22) extending by a predetermined length in the diagonal direction of the upper side and the lower side on the flange coupling surface (26) Match the bracing connector 24 formed in the cross-section of the bracing connector 24 and the bracing coupling part 51 installed at the end of the bracing 50 of the bracing connector, and the bracing connector 24 and the bracing connector 52 Since the predetermined coupling means is fastened to the footrest column 10 to connect the breathing (50).

In addition, when the bracing 50 is connected to the scaffolding column 10 at a predetermined position as described above, the other end of the bracing 50 above or below the other scaffolding column in a diagonal direction at the position of the scaffolding column 10. While connecting the bracing 50 is installed in the scaffolding system.

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 connection device of the composite board bearing for the scaffolding system according to the present invention is fixed to the outer circumferential surface of the scaffolding pillar as it is formed in a flange type, and the plurality of board bearings are coupled and fixed by a simple configuration to the board bearing and connection. It is easy and time-saving when the device is combined and released. Also, it is possible to simultaneously connect a pair of board bearings connected in different directions to the outer circumferential surface of the scaffolding column, and to simultaneously connect the board bearings in multiple directions. Since two bracing can be connected at the same time, board bearing and bracing are connected at the same time without any additional configuration, thus reducing work time and cost.

Claims (3)

In the board bearer connection device 20 for connecting to the scaffold column 10 fixed to the ground to support the support panel to form the movement of the worker and the work space, A board bearing 40 having an insert portion 433 formed at an end thereof to be fixed to an outer circumferential surface of the scaffold pillar 10 to support a support panel seated on an upper side thereof; A flange coupling surface 26 having an inner surface curved to be fixed to an outer circumferential surface of the scaffolding column 10 and fixed to the scaffolding column 10; At least one coupling extension surface 23 extending horizontally from the flange coupling surface 26; The through hole 253 is formed on the upper and lower surfaces so as to be connected to the coupling extension surface 23 and to coincide with the insertion portion 433 formed at the end of the board bearing 40 inserted inwardly through the open front surface. Connection device of the composite board bearing for the scaffolding system comprising a connection portion (25). The method of claim 1, wherein the flange coupling surface 26 Combination for the scaffolding system characterized in that it further comprises at least one or more bracing connecting portion (21, 22) extending from the outer circumferential surface by a predetermined length in the diagonal direction of the upper and lower sides, respectively, the bracing connector (24) is formed on the side cross-section. Board bearer connection. The method of claim 1, wherein the board bear 40 The first board bear 41 and the second board bear 42 are coupled to the connection portion 25, A board bearing coupler 431 coupled to one side of the first board bearer 41 and the other side of the second board bearer 42; It is coupled to the front surface of the board bearing coupling portion 431, the insertion portion 433 is formed as an empty space on the inside has a shape that matches the inside of the connecting portion 25, so that the inside of the connecting portion 25 Connection device of the composite board bearing for the scaffolding system comprising a fastening portion 432 is inserted.

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