JPH0666871U - Welding shield gas supply device - Google Patents

Abstract

(57) [Summary] [Purpose] Even if a shield gas cylinder that became empty during welding is replaced with a new shield gas cylinder, air will not be mixed into the shield gas. [Structure] A first joint part 6 capable of connecting or disconnecting a first shield gas cylinder 5 to a first secondary pressure regulator 7, a first secondary pressure regulator 7 capable of adjusting an opening degree, a first For connecting the secondary pressure regulator 7 of No. 1 to the welding shield gas valve 4
Of the shield gas supply pipeline 8 and the first shield gas supply pipeline 8 and the first passage capable of switching the flow passage from the first secondary pressure regulator 7 to the welding shield gas valve 4 or the atmosphere.
Connected to the welding torch 1 via a welding shield gas valve 4 which is connected to the welding torch 1 and supplies or shuts off the shielding gas 3 around the tungsten electrode 2.
Similarly, the second shield gas cylinder 12 is connected to the welding shield gas valve 4, and the first shield gas cylinder 5 and the second shield gas cylinder 5 are connected.
The shield gas cylinder 12 of the above is switched.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a shield gas supply device for welding when welding is performed by sealing the surroundings from air with an inert gas.

[0002]

[Prior art]

 At the time of welding, inert gas welding is used in which the surroundings of the arc are sealed from the air with an inert gas to weld materials and the like.

An example of a welding shield gas supply device that has been conventionally used in such a case will be described with reference to FIG. 2. A tungsten electrode b is provided so as to protrude from the center of the tip of a welding torch a. An inert shield gas c is ejected from the periphery of the arc, and the periphery of the arc is sealed from the air and welded.

A shield gas cylinder d filled with the shield gas c is installed to supply the shield gas c to the welding torch a, and the shield gas cylinder d is passed through a joint part e, a secondary pressure regulator f, and a welding shield gas valve g. The shield gas supply line h is connected to the welding torch a.

The joint part e can connect and disconnect the shield gas cylinder d to and from the secondary pressure regulator f. If the shield gas inside the shield gas cylinder d in use becomes small, it will be used until now. The shield gas cylinder d, which had been used, can be removed and a new shield gas cylinder d filled with shield gas inside can be connected.

The secondary pressure adjuster f is a valve device capable of adjusting the opening, and adjusts the pressure of the shield gas c supplied from the shield gas cylinder d to the welding torch a or closes it. The supply of the shield gas c can be stopped.

The welding shield gas valve g is a solenoid valve, and is adapted to open or close the shield gas supply pipe line h between the secondary pressure regulator f and the welding torch a.

When performing inert gas welding using such a conventional welding shield gas supply device, the opening of the secondary pressure regulator f is adjusted, the welding shield gas valve g is opened, and the shield gas cylinder d is opened. A shield gas c therein is jetted from around the tungsten electrode b, and the periphery of the arc is sealed from the air and welded.

When the shielding gas in the shielding gas cylinder d being used becomes small, the secondary pressure regulator f and the welding shielding gas valve g are closed, and the shielding gas cylinder d that has been used until now is removed from the joint part e, A new shield gas cylinder d filled with gas is connected to the joint e. Then, the opening of the secondary pressure regulator f is adjusted, the welding shield gas valve g is opened, the shield gas c in the new shield gas cylinder d is jetted from around the tungsten electrode b, and welding is performed again.

[0010]

[Problems to be solved by the device]

 In the conventional welding shield gas supply device, the shield gas in the shield gas cylinder d in use is reduced, and when the shield gas cylinder d used up to now is removed from the joint part e, the joint part e and the secondary pressure are removed. When air enters between the adjuster f and a new shield gas cylinder d is connected to the joint part e and welding is restarted, the air that has entered between the joint part e and the secondary pressure adjuster f is mixed. The generated gas spouts from around the tungsten electrode b and causes a welding defect that oxidizes the welded portion, or makes the tungsten electrode b unusable. Further, after the gas cylinder replacement, it was necessary to open the shield gas valve g by inching operation to discharge the air mixed at the time of replacement to the atmosphere via the torch a.

For this reason, conventionally, it was not possible to replace the shielding gas cylinder during welding.

The present invention eliminates the above-mentioned conventional drawbacks and prevents the air from entering the shield gas even if the shield gas cylinder that became empty during welding is replaced with a new shield gas cylinder. The purpose is to provide a supply device.

[0013]

[Means for Solving the Problems]

 The welding shield gas supply device of the present invention comprises a welding torch having an electrode at its tip, a welding shield gas valve connected to the welding torch for supplying or blocking a shield gas around the electrode, and a first shield gas cylinder. A first secondary pressure adjuster capable of adjusting the opening degree; a first joint part capable of connecting or disconnecting the first shield gas cylinder to the first secondary pressure adjuster; From the first secondary pressure regulator, which is provided in the middle of the first shield gas supply pipeline connecting the secondary pressure regulator to the welding shield gas valve and the first shield gas supply pipeline. A first air vent valve capable of switching a flow path to the welding shield gas valve or the atmosphere, a second shield gas cylinder, a second secondary pressure regulator capable of adjusting the opening degree, and the second shield gas cylinder. The above A second joint part that is connectable to or removable from the second secondary pressure regulator, and a second joint part that connects the second secondary pressure regulator to the welding shield gas valve together with the first shielded gas supply line. A second shield gas supply conduit and a second shield gas supply conduit provided in the middle of the second shielded gas supply conduit and capable of switching to the welding shield gas valve or the atmosphere. It is characterized by having the air vent valve of.

[0014]

[Action]

 When the connection is switched from the first shield gas cylinder to the second shield gas cylinder, the second air vent valve is connected to the atmosphere for a predetermined time, and then the second air vent valve is switched to the welding shield gas valve. Even if there is air in the pipe of the joint, after this air is exhausted to the atmosphere, the shield gas in the second shield gas cylinder is supplied to the welding torch, so air is mixed in the shield gas. There is no.

The same applies when the connection is switched from the second shield gas cylinder to the first shield gas cylinder.

[0016]

【Example】

 An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a system diagram of an embodiment of the present invention. A welding torch 1 is provided with a tungsten electrode 2 protruding from the center of the tip thereof, and an inert shield gas 3 is provided around the tungsten electrode 2. Is spouted and the circumference of the arc is sealed from the air and welded. A welding shield gas valve 4 is connected to the welding torch 1, and is a solenoid valve for supplying or shutting off the shield gas 3 around the tungsten electrode 2.

Reference numeral 5 denotes a first shield gas cylinder filled with the shield gas 3, which is connected to the first secondary pressure regulator 7 via the first joint portion 6. The first joint part 6 can connect and disconnect the first shield gas cylinder 5 to and from the first secondary pressure regulator 7. The first secondary pressure regulator 7 is , Which is connected to the welding shield gas valve 4 by the first shield gas supply line 8 and regulates or closes the pressure of the shield gas 3 supplied from the first shield gas cylinder 5 to the welding torch 1. The shield gas 3 can be supplied or stopped.

A first air vent valve 9 is provided in the middle of the first shield gas supply line 8, and the flow path from the first secondary pressure regulator 7 is connected to the welding shield gas valve 4 or the atmosphere. It can be switched.

Further, a first check valve 10 is provided between the first secondary pressure regulator 7 and the first air vent valve 9 in the first shield gas supply pipe line 8. The gas can flow from the first secondary pressure regulator 7 to the first air vent valve 9, but the reverse flow is blocked.

Further, a second check valve 11 is provided between the first air vent valve 9 of the first shield gas supply pipeline 8 and the welding shield gas valve 4, and the first air vent valve 9 is provided. The gas is allowed to flow from the welding shield gas valve 4 to the welding shield gas valve 4, but the opposite flow is blocked.

Reference numeral 12 is a second shield gas cylinder filled with the shield gas 3, and is connected to the second secondary pressure regulator 14 via the second joint portion 13. The second joint portion 13 can connect and disconnect the second shield gas cylinder 12 to and from the second secondary pressure regulator 14, and the second secondary pressure regulator 14 is Is connected to the welding shield gas valve 4 together with the first shield gas supply pipe 8 by the shield gas supply pipe 15 of the second shield gas supply pipe 15, and the pressure of the shield gas 3 supplied from the second shield gas cylinder 12 to the welding torch 1 is changed. It can be adjusted or closed to supply or stop the shield gas 3.

A second air vent valve 16 is provided in the middle of the second shield gas supply pipe 15, and the flow path from the second secondary pressure regulator 14 is connected to the welding shield gas valve 4 or the atmosphere. You can switch to.

Further, a third check valve 17 is provided between the second secondary pressure regulator 14 and the second air bleeding valve 16 of the second shield gas supply line 15, and a third check valve 17 is provided. The gas can flow from the secondary pressure regulator 14 of No. 2 toward the second air bleeding valve 16, but the opposite flow is blocked.

Further, a fourth check valve 18 is provided between the second air vent valve 16 of the second shield gas supply line 15 and the welded shield gas valve 4, and the second air vent valve 16 is provided. To the welding shield gas valve 4, gas can flow, but the reverse flow is blocked.

Next, the operation of the apparatus shown in FIG. 1 will be described.

When the shield gas 3 is supplied from the first shield gas cylinder 5 to the welding torch 1, the first secondary pressure regulator 7 is opened, and the first air vent valve 9 is set to the first secondary pressure. The flow path from the regulator 7 is switched to the state of being connected to the atmosphere, and the welding shield gas valve 4 is left open. The second secondary pressure regulator 14 is closed.

As a result, the shield gas filled in the first shield gas cylinder 5 enters the first secondary pressure regulator 7 through the first joint portion 6, and after the pressure is adjusted, the first shield gas The air flows from the first air vent valve 9 to the atmosphere through the check valve 10. Therefore, even if air enters the conduit between the first joint portion 6 and the first check valve 10, this air is discharged into the atmosphere.

After a lapse of a predetermined time, the air contained in the conduit between the first joint portion 6 and the first check valve 10 is completely discharged to the atmosphere, and the first shield gas cylinder 5 is filled with the air. Since the filled shield gas is discharged to the atmosphere, when the first air vent valve 9 is switched to the welding shield gas valve 4, the shield gas filled in the first shield gas cylinder 5 becomes After the pressure is adjusted by the first secondary pressure regulator 7 through the first joint portion 6, the first check valve 10, the first air bleed valve 9, the second check valve 11, the first check valve 10. Is supplied to the welding torch 1 through the shield gas supply pipe line 8 and the welding shield gas valve 4 and is ejected from the surroundings of the tungsten electrode 2 as a shield gas 3 containing no air, and the periphery of the arc during welding is sealed from the air. To do. At this time, even if the shield gas enters the second shield gas supply line 15 from the first shield gas supply line 8, the fourth check valve 18 does not flow toward the second air vent valve 16. It will prevent you from doing so.

When the number of the first shield gas cylinder 5 is reduced and the second shield gas cylinder 12 is switched to supply the shield gas 3 to the welding torch 1, the second secondary pressure regulator 14 is opened, The second air vent valve 16 is switched to a state in which the flow path from the second secondary pressure regulator 14 is connected to the atmosphere, and the first secondary pressure regulator 7 is closed.

As a result, the shield gas filled in the second shield gas cylinder 12 passes through the second joint portion 13 and enters the second secondary pressure adjuster 14, where the pressure is adjusted, and then the third shield gas is supplied. The air flows from the second air vent valve 16 to the atmosphere through the check valve 17. For this reason, even if air enters the conduit between the second joint portion 13 and the third check valve 17, this air is discharged into the atmosphere.

After a lapse of a predetermined time, the air contained in the conduit between the second joint portion 13 and the third check valve 17 is completely discharged to the atmosphere, and the second shield gas cylinder 1 2 The shield gas filled in the second shield gas cylinder 12 is discharged to the atmosphere. Therefore, when the second air release valve is switched to the welding shield gas valve 4, the shield gas filled in the second shield gas cylinder 12 is Passes through the second joint portion 13, and after the pressure is adjusted by the second secondary pressure regulator 14, the third check valve 17, the second air bleed valve 16, the fourth check valve 18, It is supplied to the welding torch 1 through the second shield gas supply line 15 and the welding shield gas valve 4, and is ejected from the periphery of the tungsten electrode 2 as the shield gas 3 that does not contain air, and the periphery of the arc during welding is discharged. Seal from air It At this time, even if the shield gas enters the first shield gas supply pipe 8 from the second shield gas supply pipe 15, the second check valve 11 does not flow toward the first air vent valve 9. Will be blocked.

During this period, the first shield gas cylinder 5 that has decreased in number is removed from the first joint portion 6, and a new first shield gas cylinder 5 filled with shield gas is connected to the first joint portion 6. deep. When the second shield gas cylinder 12 runs low, the first air vent valve 9 is switched to a state in which it is connected to the atmosphere, the first secondary pressure regulator 7 is opened, and the second secondary pressure regulator 14 is opened. When the first air vent valve 9 is switched to the welding shield gas valve 4 after a predetermined time has passed, the shield gas filled in the first shield gas cylinder 5 is supplied to the welding torch 1 and the tungsten electrode. A shielding gas 3 that does not contain air is jetted from the surroundings of 2 to seal the surroundings of the arc during welding from the air.

[0034]

[Effect of device]

 According to the present invention, even if the shield gas to be supplied to the welding torch is switched from the first shield gas cylinder to the second shield gas cylinder and supplied, a shield gas that does not contain air is supplied to prevent welding defects due to oxidation. It has the effect of being able to perform simple inert gas welding.

[Brief description of drawings]

FIG. 1 is a system diagram of an embodiment of the present invention.

FIG. 2 is a system diagram of a conventional device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Welding torch 2 Tungsten electrode (electrode) 3 Shielding gas 4 Welding shielding gas valve 5 1st shielding gas cylinder 6 1st joint part 7 1st secondary pressure regulator 8 1st shielding gas supply pipeline 9 1st Air vent valve 12 Second shield gas cylinder 13 Second joint part 14 Second secondary pressure regulator 15 Second shield gas supply line 16 Second air vent valve

Claims (1)

[Scope of utility model registration request] 1. A welding torch having an electrode at its tip, a welding shield gas valve connected to the welding torch for supplying or blocking a shield gas around the electrode, a first shield gas cylinder, and an opening degree being adjusted. The first secondary pressure regulator to be obtained, a first joint part capable of connecting or disconnecting the first shield gas cylinder to the first secondary pressure regulator, and the first secondary pressure regulator. The first shield gas supply pipeline connected to the welding shield gas valve and the flow path from the first secondary pressure regulator provided in the middle of the first shield gas supply pipeline are connected to the welding shield gas. Valve or a first air vent valve capable of switching to the atmosphere, a second shield gas cylinder, a second secondary pressure regulator capable of adjusting the opening degree, and the second shield gas cylinder to the second secondary Connect to pressure regulator or A second joint that is removable and a second joint that connects the second secondary pressure regulator to the welding shield gas valve together with the first shield gas supply line.
And a second shield gas supply pipe and a second shield gas supply pipe which is provided in the middle of the second shield gas supply pipe and can switch the flow path from the second secondary pressure regulator to the welding shield gas valve or the atmosphere. A shield gas supply device for welding, comprising an air vent valve.