KR20130006813U - Welding gas distributer - Google Patents

Abstract

The present invention relates to a welding gas distribution device for distributing welding gas to a plurality of gas welding apparatus, one end of which is connected to the gas supply line provided in the gas supply and the other end of the main supply pipe and the main supply pipe of a predetermined length It is installed on the outer circumferential surface of the plurality of distribution pipes are arranged to be spaced apart along the longitudinal direction of the main supply pipe and coupled to each of the distribution pipe is connected to the gas welding line of the gas welding device, thereby adjoining the gas welding device The present invention relates to a welding gas distribution device that can be installed at a convenient position to stably supply gas by minimizing the length of a CO2 gas injection line.

Description

Welding gas distributer {Welding gas distributer}

The present invention relates to a welding gas distribution device for distributing welding gas to a plurality of gas welding device, more specifically, to be installed on the rear of the fixed frame in which a plurality of gas welding device is arranged to weld to each gas welding device It is related with the welding gas distribution apparatus which can supply CO2 gas stably by making it possible to distribute the gas.

Generally, the ship is manufactured by cutting the steel material according to the design, assembling it in blocks and painting it, and installing various equipments and equipment required for the ship on the ship when the basic design of the hull structure and the bulkhead is completed And a process of assembling the steel plates of the block unit on the ship, and then finishing painting is carried out, and the test runs are carried out by launching in the sea.

Here, the processes such as the mounting process of various equipments and equipment and the processes such as the iron plate assembly are performed in the dock, and then, when the manufacturing of the ship is completed, the ship in the dock is towed by sea using the tugboat, will be.

Therefore, the manufacture of the vessel is to combine the steel to form the outer plate or the basic structure of the vessel in units of blocks, a lot of welding work is made in the process of mounting a variety of equipment on such a structure.

In this case, the CO2 gas welding operation generally collects a plurality of gas welding apparatuses in a specific position, and then supplies the CO2 gas to the gas welding apparatus using a gas distribution apparatus, respectively, and connects the torch to the gas welding apparatus for welding work. Was carried out.

Here, the gas welding apparatus was used to arrange a plurality of lines in a fixed frame for each work site that requires welding work.

Hereinafter, a conventional gas distribution apparatus will be briefly described with reference to FIG. 1.

Figure 1 shows a photograph of a conventional gas distribution device.

As shown in the drawing, the conventional gas distribution device used a large diameter main supply pipe 100 in which a plurality of distribution pipes 150 were radially installed on an outer circumferential surface of the gas distribution device.

At this time, the water supply line 200 of the gas supply unit is connected to the main supply pipe 100, the distribution pipe 150 is connected to the gas injection line provided in the gas welding apparatus.

Therefore, the gas distribution device is to supply the CO 2 gas to the gas welding device through each distribution pipe (150).

In general, a plurality of gas distribution devices are installed in a specific place as shown in FIG. 1 in consideration of the efficiency of gas distribution, and each gas welding device is densely packed in a separate fixed frame for each work site requiring welding work. It is installed.

Therefore, the main supply pipe is formed to have a large diameter to supply CO 2 gas to a plurality of gas welding devices arranged at each of these work sites, it is connected to each gas welding device through a distribution pipe.

However, the conventional gas distribution device as described above has the following problems.

First, since gas is supplied to a plurality of gas welding apparatuses arranged at each work site from a main supply pipe installed at a specific place, there is a problem that space utilization of the work site is degraded due to the installation of the main supply pipe. The gas injection line connecting the distribution pipe and the gas welding device reaches several meters to several tens of meters, which lowers workability and increases the risk of damage, breakage, or air bubbles in the gas injection line. .

The present invention has been made to solve the above problems, the object of the present invention is to allow the gas distribution device to be installed in the rear of the fixed frame in which a plurality of gas welding apparatus is installed, to facilitate the installation of the main supply pipe. At the same time, to improve the space utilization of the work site, and to minimize the length of the gas injection line to provide a gas distribution device that can prevent damage or breakage or bubbles of the gas injection line.

In order to achieve the above object, the present invention provides a welding gas distribution device for distributing welding gas to a plurality of gas welding devices.

One end is connected to the gas supply line provided in the gas supply unit and the other end of the main supply pipe of a predetermined length configured to be sealed, a plurality of distribution pipes are installed on the outer peripheral surface of the main supply pipe spaced apart along the longitudinal direction of the main supply pipe, And a coupler coupled to each of the distribution pipes to connect a gas injection line of the gas welding device.

Here, the distribution pipe is preferably arranged on the same line at equal intervals along the longitudinal direction of the main supply pipe.

In addition, the main supply pipe may be provided with an elbow pipe at one end so that the gas supply line can be connected in the lateral direction.

As described above, the present invention is not only easy and easy to install the gas distribution device, but also can increase the space utilization of the work site, thereby improving workability, and also damaging the gas injection line. In addition to preventing damage and to minimize the occurrence of bubbles in the gas injection line has the effect of ensuring the stability of the gas supply.

1 is an installation photograph of a conventional welding gas distribution device,
2 is a block diagram of a welding gas distribution device of the present invention,
3 is a working view of the welding gas distribution device of the present invention connected to the gas welding device.

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

Figure 2 shows the configuration of the welding gas distribution device of the present invention, Figure 3 shows a working diagram of the welding gas distribution device of the present invention connected to the gas welding device.

As shown in FIG. 2, the welding gas distribution device of the present invention includes a main supply pipe 10, a distribution pipe 30, and a coupler 50.

The main supply pipe 10 is connected to the gas supply line 90 provided in the gas supply unit (not shown) and serves to distribute the CO 2 gas to each gas welding device 1, and has a predetermined length and diameter. It is configured in the form of a hollow pipe (pipe), one end is connected to the gas supply line 90 of the gas supply portion and the other end is configured to be sealed.

Here, as shown in FIG. 3, the main supply pipe 10 is installed in a fixed frame 5 in which a plurality of gas welding devices 1 are installed, and a diameter and a length correspond to the number of gas welding devices 1. It may be set appropriately.

At this time, the main supply pipe 10 is to be installed on the fixed frame 5 to be located behind the gas welding device (1).

Here, one end of the main supply pipe 10 is connected to the gas supply line 90 for supplying the welding CO2 gas, the gas supply line 90 is connected to the CO2 gas supply (not shown).

In this case, the main supply pipe 10 may have an elbow pipe 40 having a 'b' shape at one end thereof so that the gas supply line 90 may be connected to the side.

Therefore, the gas supply line 90 is connected to one end of the elbow pipe 40, and the main supply pipe 10 is connected to the other end thereof.

The elbow pipe 40 may be connected to the main supply pipe 10 and the gas supply line 90 by using a general sealing member to prevent leakage of CO 2 gas, and various types of flange coupling structures applied to pipe joints. May be applied.

On the other hand, the distribution pipe 30 communicates with the main supply pipe 10 and serves to guide the CO 2 gas to each gas welding device 1, and is installed to protrude on the outer circumferential surface of the main supply pipe 10.

Distribution pipe 30 is installed on the outer circumferential surface of the main supply pipe 10, a plurality is arranged so as to be spaced apart along the longitudinal direction of the main supply pipe (10).

At this time, since the gas welding device 1 is typically arranged in a row on the fixed frame 5, the distribution pipe 30 is preferably arranged on the same line at equal intervals along the longitudinal direction of the main supply pipe 10.

The distribution pipe 30 is installed to correspond to the number of the gas welding device 1 and is connected one-to-one with the gas injection line 70 provided in the gas welding device 1.

In addition, the distribution pipe 30 is not limited to the arrangement structure as described above, and may be applied to various arrangement structures according to the number or installation position of the gas welding device (1).

On the other hand, the distribution pipe 30 is composed of a branch (35) having one end coupled to the main supply pipe (10) and a connection portion (36) extending to the tip of the branch (35) and coupled to the gas injection line (70). do.

The connection part 36 may be screwed to one end of the coupler 50 using a sealing member or the like.

On the other hand, the coupler 50 connects the distribution pipe 30 and the gas injection line 70 of the gas welding device 1, and has a general shape of a tube joint structure connecting two tubes in an axial direction. May be applied.

Therefore, the coupler 50 has one end connected to the distribution pipe 30 and the other end connected to the gas injection line 70 provided in the gas welding apparatus 1.

Hereinafter, a working state of the welding gas distribution device of the present invention will be described with reference to FIG. 3.

As shown, the main supply pipe 10 is installed in a horizontal state on the fixed frame (5) so as to be located behind the plurality of gas welding device (1), it is installed adjacent to the gas welding device (1) gas injection line ( 70) can minimize the length.

In this case, the main supply pipe 10 may be fixed to the fixed frame 5 by using the support bracket 80.

The support bracket 80 is provided with a connection ring 85 at a fixed end 82 of a predetermined size, and can be installed between the distribution pipes 30.

At this time, the connecting ring 85 may be provided in a 'U' shape so that the main supply pipe 10 can be supported through.

Therefore, the operator welds or bolts the fixed end 82 of the support bracket 80 installed between the distribution pipes 30 of the main supply pipe 10 along the transverse frame provided at the rear of the fixed frame 5. Supply pipe 10 may be installed.

Here, one end of the main supply pipe 10 is connected to the gas supply line 90 through the elbow pipe 40, and each distribution pipe 30 is connected to the gas welding device 1 through the gas injection line 70. , The CO 2 gas is supplied to each gas welding device 1 via the main supply pipe 10, the distribution pipe 30, and the gas injection line 70 sequentially.

Therefore, the present invention is the main supply pipe is installed adjacent to the rear of the gas welding device is connected to the gas injection line provided in each gas welding device, not only easy to install the main supply pipe, but also increase the space utilization of the work site In addition, it is possible to minimize the length of the gas injection line is to prevent damage or breakage or bubble generation of the gas injection line is to enable a stable supply of CO2 gas.

The foregoing embodiments are merely illustrative examples for convenience of description and do not limit the scope of claims for utility model registration, and various modifications may be made within the technical scope of the present invention.

Description of the Related Art [0002]
1: gas welding device 5: fixed frame
10,100: Main supply pipe 30,150: Distribution pipe
35: branch port 36: connection portion
40: elbow tube 50: coupler
70: gas injection line 80: support bracket
82: fixed end 85: connecting ring
90,200: Gas supply line

Claims (3)

In the welding gas distribution device for distributing the welding gas to a plurality of gas welding device,
One end is connected to the gas supply line provided in the gas supply and the other end of the main supply pipe of a predetermined length configured to be closed;
A plurality of distribution pipes installed on an outer circumferential surface of the main supply pipe and disposed to be spaced apart along the longitudinal direction of the main supply pipe; And
Couplers coupled to the distribution pipes to connect gas injection lines of the gas welding apparatus;
Welding gas distribution device configured to include. The method of claim 1,
The distribution pipe is weld gas distribution apparatus, characterized in that arranged on the same line at equal intervals along the longitudinal direction of the main supply pipe. 3. The method according to claim 1 or 2,
The main supply pipe is a welding gas distribution device, characterized in that the elbow pipe is installed at one end so that the gas supply line can be connected in the lateral direction.

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