KR101241931B1 - Apparatus to combine torch for multi-function arc welding machine - Google Patents

Abstract

The present invention discloses a torch fastening device for a multifunctional arc welder, which has a structure that can be used for power supply, gas supply, and electrode wire supply in general, by implementing the interface between the main body and the torch as a single port. The apparatus includes a conductive insert having a supply pipe receiving at least one of a welding rod wire and a gas in a center of a trapezoidal cylinder made of a conductive material, and a tightening wrench having an adjustable length exposed to the supply pipe formed at an end of the trapezoidal cylinder. A connector forming an end of the torch including a locking cap rotatably coupled with the conductive insert; And a conductive holder having a trapezoidal cylindrical torch inserting hole for surface contact and a wire inserting hole communicating therewith while receiving a trapezoidal cylinder of the conductive insert of the connector, wherein the inlet of the torch inserting hole of the conductive holder is formed. And a multifunction adapter having screw insulation with the case which is screwed with the locking cap of the connector and forms a power link in a region where the electrode wire insertion hole is formed and is applied with power.

Description

Torch fastening device for multi-function arc welding machine {Apparatus to combine torch for multi-function arc welding machine}

The present invention relates to a torch fastening device of a multi-function arc welder, and more particularly, to a multi-function adapter forming a single port as a multi-function adapter that can be used universally for power supply, gas supply, and electrode wire supply for the interface between the main body and the torch of the arc welder. A torch fastening device for an arc welder.

Arc welding uses the arc heat generated between the electrode and the electrode or the base material to melt the molten material or the base material to form the bonding of the base material. The arc used for welding has relatively low voltage and high current characteristics, and the static and dynamic characteristics of the arc vary depending on the welding method.

Arc welding can be classified into more various types, but in general, sheathed arc welding, TUN (Tunsten Inert Gas Welding, TIG) welding, MIG (Metal Inert Gas Welding, MIG), metal active gas welding (MAG), CO ₂ The welding method, the submerged welding method and the plasma welding method can be divided into various kinds.

Welders implementing these welding methods can be divided manually or automatically according to the state of supply of the electrode or gas.

Among them, the welding arc welding machine is one of the most widely used manual electric welding machines. It uses rod electrodes and does not usually have a welding rod or gas supply automatically. The coated arc welding rod is made by welding an arc between a welding rod coated with a core wire and a base metal, and has a configuration of generating an arc by using a direct current or alternating current power source.

And, the welding machine for TIG welding usually has a configuration of automatically supplying gas without supplying a welding rod, and causing arc welding in an inert gas atmosphere. The TIG welder is widely used for welding non-ferrous metals and has excellent welded quality.

In addition, a welding machine for MIG, MAG, and CO ₂ welding has a configuration of automatically supplying a wire type electrode and automatically supplying gas. MIG, MAG, and CO ₂ welders generate arcs in a carbon dioxide gas or a mixed gas (carbonate gas-inert gas) atmosphere to weld them.

In addition, a welder for submerged arc welding (SAW) has a configuration in which an arc is welded between a wire and a base material continuously supplied.

In addition, the plasma welding method has been developed by improving the TIG welding, and the plasma welding machine has a configuration in which the arc density is increased by restricting the arc mechanically or thermally to reduce the arc diameter.

As described above, various arc welders have a configuration including a main body and a torch, and the main body may be configured to have one, two, or both of a function of supplying a power source, a gas, or a electrode wire required for welding.

The main body of the arc welding machine has a power conversion circuit for converting the power from the outside into an output power suitable for welding by using an inverter or a thyristor (SCR). It may have a structure that is connected to the exposed terminal.

In addition, the arc welder is configured to receive the gas supplied from the outside to the main body or torch to perform a welding method that requires the supply of gas, and when the gas is supplied to the main body, the apparatus for supplying gas from the main body to the torch Can be configured.

In addition, the arc welding machine may be configured to supply a welding rod wire to the torch by driving the motor while receiving the welding rod wire inside the main body to continuously supply the welding rod wire.

As described above, the main body and the torch of the conventional welding machine may have a structure for energizing the adapter, a structure for supplying gas and electricity, or a structure for supplying gas and welding rod, depending on the type of the welder.

Further, even when the main body of the conventional welding machine is configured to enable both energization, gas supply, and wire supply, the main body has a structure in which an adapter for gas supply and wire supply and an adapter for energization are separated.

As such, the conventional welding machine has a problem in that compatibility of the welding machine, the main body, or the torch is inferior as the adapter of the main body has a different structure as the specifications of the main body are changed, such as energization, energization and gas supply or energization, welding rod, and gas supply. .

In order to solve this problem, a welding machine capable of conducting electricity, supplying gas, and supplying wire has been proposed, but in this case, the main body of the welding machine has a structure in which a plurality of adapters are installed for each power, gas, or wire to be supplied. There is a problem that the structure connecting the torch is complicated.

In addition, as a plurality of adapters are installed, a configuration for supplying electricity, gas supply, or wire supply to the inside of the main body of the welder is complicated, and the number of parts required for these configurations increases, thereby increasing the manufacturing cost.

An object of the present invention for solving the above problems is to provide a torch fastening device for a multi-port arc welding machine of a single port structure having an interface that can selectively supply power, gas supply and electrode wire supply from the main body of the arc welder. It is done.

Another object of the present invention is to provide a torch fastening device for a multi-port arc welding machine having a single port structure that interfaces with power for supplying power, gas, and electrode wires from the main body of the arc welding machine to the torch.

It is another object of the present invention to simplify the configuration of the interface for supplying power, gas, and electrode wires from the main body of the arc welder to the torch, and to provide a torch fastening device for a multifunctional arc welder that can easily connect the torch with the main body of the arc welder. It is done.

Torch fastening device of the multi-function arc welding machine according to the present invention, the supply pipe receiving at least one of the welding rod wire and the gas in the center of the trapezoidal cylinder of the conductive material and the tightening wrench to adjust the length exposed to the supply pipe is trapezoidal A connector forming an end of the torch including a conductive insert formed at an end of the cylinder and a locking cap rotatably coupled to the conductive insert; And a conductive holder having a trapezoidal cylindrical torch inserting hole for surface contact and a wire inserting hole communicating therewith while receiving a trapezoidal cylinder of the conductive insert of the connector, wherein the inlet of the torch inserting hole of the conductive holder is formed. A multi-function adapter that is screwed with the lock cap of the connector and is powered by a power link in an area where the electrode wire insertion hole is formed, and has an insulation with a case inserted through the power link; The electric power is supplied through the conductive holder and the conductive insert and the electrode wire which is introduced into the electrode wire insertion hole is supplied through the supply pipe of the conductive insert inserted into the torch insertion hole.

Here, the connector is formed in the center of the trapezoidal cylinder of the conductive material is a supply pipe for receiving at least one of the welding wire and the gas is formed in the end of the trapezoidal cylinder is a tightening wrench is adjusted to the length exposed to the supply tube A conductive insert connected to a power line in a connection line formed of the torch; And a locking cap rotatably coupled to the conductive insert and tightly contacting the conductive insert with the torch insertion hole in the process of locking by screwing the inlet of the torch insertion hole.

In addition, a first gas inlet hole is further formed in the conductive insert and communicates vertically with the introduction tube, and a second gas inlet hole is further formed corresponding to a position where the first gas inlet hole of the conductive holder is formed. The O-ring may be further formed in the space between the conductive insert and the lock cap to contact the inlet of the torch insertion hole of the conductive holder.

In addition, a plurality of first gas inflow holes may be formed along the annular bone formed in the conductive insert.

The multifunctional adapter may further include a conductive holder having a trapezoidal cylindrical torch inserting hole for surface contact and a wire inserting hole communicating with the trapezoidal cylinder of the conductive insert of the connector; A cover fixture formed between the conductive holder and the case while a fixing hole into which the conductive holder is inserted and supported is formed and is installed through the case of the main body such that the torch insertion hole of the conductive holder is exposed to the outside; And a power link unit coupled to an outer side of the portion where the wire insertion hole is formed in the conductive holder to supply power to the conductive holder.

And a gas inlet piece coupled to an end of the electrode wire insertion hole of the conductive holder, and may supply gas to the end of the torch through the wire insertion hole.

The cover fixture is in communication with the first and second insulating fixtures which are assembled in contact with each other from the inside and the outside of the case while having the fixing hole into which the conductive holder is inserted. And a washer and a lock nut in close contact with the insulating fixture, wherein the first insulating fixture is assembled to penetrate the case from the outside of the case while supporting the inserted conductive holder to the outside of the case, and the second The insulating fixture may be assembled with the first insulating fixture inside the case.

The outer wall of the conductive holder has a small step diameter of the area where the electrode wire insertion hole is formed, and the power link part is inserted into the outer wall of the conductive holder where the electrode wire insertion hole is formed while being coupled with a power line for supplying power. It may include a power nut in close contact with the step and a fixing nut for fixing the power nut in close contact with the outer wall of the conductive holder by screwing.

The power link unit may include a pair of fixing nuts screwed to the outer wall of the conductive holder having the electrode wire insertion hole and a power nut fixed between the fixing nuts while being coupled with a power line.

According to the present invention, a single multifunctional adapter may selectively perform energization, gas supply, and electrode wire supply for power supply while forming an interface between the main body of the welder and the torch, and the adapter may be used universally in response to various welding. It works.

According to the present invention, since the energization, gas supply, and electrode wire supply can be made through one port, the structure connecting the main body of the welder and the torch can be simplified, and the required parts required for constructing the welder can be reduced. It is effective to reduce the unit price.

1 is a cross-sectional view showing a preferred embodiment of the torch fastening device of the multi-function arc welding machine according to the present invention.
2 is a cross-sectional view of the connector of FIG.
3 is a cross-sectional view of the multifunction adapter of FIG.
4 is an exploded perspective view of the embodiment of FIG. 1;
5 is a cross-sectional view showing another embodiment of the torch fastening device of the multi-function arc welding machine according to the present invention.
6 is a perspective view of the power link unit of FIG.
Figure 7 is a cross-sectional view showing another embodiment of the torch fastening device of the multifunctional arc welder according to the present invention.
8 is a cross-sectional view showing another embodiment of the torch fastening device of the multifunctional arc welder according to the present invention for supplying gas for plasma welding.

Torch fastening device of the multi-function arc welding machine according to the present invention discloses a configuration including a multi-function adapter to form a port for connecting the torch to the case forming the connector and the main body of the torch.

According to the above configuration, the torch fastening device of the multi-function arc welding machine according to the present invention has a structure in which power, gas, and electrode wires supplied from the main body to the torch are provided through one interface port. As a result, the assembly is simple and can be used universally for power supply, gas supply and electrode wire supply.

The torch fastening device of the multifunction arc welder according to the present invention may be described with reference to FIGS. 1 to 4, FIG. 1 is a cross-sectional view of the torch fastening device of the multifunction arc welder, and FIG. 2 is a cross-sectional view of the connector shown in FIG. 1. 3 is a cross-sectional view of the multifunction adapter shown in FIG. 1, and FIG. 4 is an exploded perspective view of FIG. 1.

Embodiments according to the invention comprise a connector 7 and a multifunction adapter 9 which form the ends of the torch.

First, the connector 7 includes a conductive insert 73 into which a supply pipe 71 is inserted in the center.

The supply pipe 71 is inserted into the center of the conductive insert 73, the supply pipe 71 may transmit the welding rod wire 100 and the gas for welding through the through hole formed therein. Here, the supply pipe 71 forms a connection line for supplying power to the welding point and includes a power line (not shown) connected to the conductive insert 73 therein, and conducts a challenge between the power line and the conductive insert 73. The coupling method for the above may be made in a conventional manner, and thus detailed illustration and description are omitted.

The conductive insert 73 has a trapezoidal cylindrical shape of a conductive material, and a supply pipe 71 for transmitting at least one of the welding wire 100 and a gas is inserted into the center of the trapezoidal cylinder constituting the conductive insert 73.

In addition, a tightening wrench 75 and a gas inflow hole 77 may be formed at an end of the conductive insert 73, and the tightening wrench 75 may have a trapezoidal cylindrical conductive insert 73 and a supply pipe therein. It may be configured to be screwed with the hole formed to penetrate the 71 and the length exposed to the inside of the supply pipe 71 by the screw rotation can be adjusted to adjust the tightening of the welding rod wire (100).

Here, the electrode wire 100 is typically supplied using a spring wire 102, and the electrode wire 100 is guided and inserted into the spring wire 102 in a state where the spring wire 102 is inserted and installed in advance. Therefore, as a result, the tightening wrench 105 serves to tighten and secure the spring wire 102.

In addition, a plurality of gas inlet holes 77 may be formed, and the plurality of gas inlet holes 77 may be connected to an annular valley 78 formed for smooth gas inflow.

In addition, the connector 7 includes a locking cap 40 rotatably coupled to an outer side of the conductive insert 73, and the locking cap 40 is connected to the conductive holder 20 of the multifunction adapter 9 described later. It is screwed with the inlet of the torch insertion hole 29 is formed, the locking cap 40 may be a female threaded portion 44 therein for screwing. Here, the outside of the lock cap 40 may be configured to have a handle shape of a synthetic resin material, and the female screw portion 44 configured in the lock cap 40 may be made of the same metal as the conductive insert 73 or the conductive holder 20. It is preferably composed of a material.

In addition, an O-ring 79 may be configured in the spaced space between the locking cap 40 and the conductive insert 73, and the O-ring 79 may include a torch insertion hole of the conductive holder 20. It is in contact with the end of 29) to prevent the leakage of gas.

On the other hand, the multifunction adapter (9) has a structure for energizing, supplying the welding rod wire (100) and gas supply for power supply while forming a combination with the connector (7) configured as described above.

The multifunction adapter 9 is formed with a trapezoidal cylindrical torch insertion hole 29 and a wire insertion hole 26 communicating therewith while receiving a trapezoidal cylinder of the conductive insert 73 of the connector 7. In the region including the conductive holder 20 and the inlet of the torch insertion hole 29 of the conductive holder 20 is screwed with the locking cap 40 of the connector 7 and the electrode wire insertion hole 26 is formed. Power is applied to form a power link and has insulation with a case inserted through.

Accordingly, the multifunction adapter 9 is coupled to the connector 7, so that power applied to the conductive holder 20 is supplied to the torch through the connector 7, and the electrode wire 100 is connected to the conductive holder 20. Is inserted into the welding rod wire insertion hole 26 of the electrode, and is supplied to the through hole of the conductive insertion hole 73 of the connector 7 via the torch insertion hole 29, and gas is introduced into the gas inlet hole 28 to insert the torch. It can be supplied to the through hole of the conductive insertion hole 73 of the connector 7 via the hole 29.

The multifunction adapter 9 described above includes a conductive holder 20, a cover fixture 10, and a power link unit 60.

The conductive holder 20 has a trapezoidal cylindrical shape that makes surface contact while receiving the trapezoidal cylinder of the conductive insertion portion 73 of the connector 7.

More specifically, the conductive holder 20 has a conductive material and has a configuration in communication with the electrode wire insertion hole 26 and the electrode wire insertion hole 26 penetrated in the longitudinal direction in the longitudinal direction. Here, the torch insertion hole 29 has a trapezoidal cylindrical shape and has a length at which a gap can be formed between the end of the conductive insertion portion 73 and the electrode wire insertion hole 26 in the state where the conductive insertion portion 73 is inserted. It is preferred to be configured to have.

In addition, the conductive holder 20 has a fastening portion 22 exposed to the outside of the case 5 in an assembled state with the cover fixture 10 and an internal extension 24 extending into the case 5. It has a shape integrally formed in the direction.

The fastening portion 22 of the conductive holder 20 has a screw for coupling with the female screw portion 44 of the locking portion 40 is formed on the outer wall.

In addition, the internal extension 24 of the conductive holder 20 has a thread for screwing the lock nut 18 and the power link unit 60 described later. In addition, a gas inlet 28 is formed in the inner extension portion 24 so as to vertically communicate with the electrode wire insertion hole 26 penetrating in the longitudinal direction. They are joined in the same way as screwed together. In addition, the gas inlet hole 28 of the inner extension 24 may be formed adjacent to the position where the torch insertion hole 29 and the electrode wire insertion hole 26 communicate.

The threads of the inner extension 24 of the conductive holder 20 are first threaded portions 24-1 and second threaded portions 24-2, which are stepped and continued as shown in FIGS. 1 to 4 and 7 and 8. ) May be formed, or alternatively, the thread may be extended to have the same diameter as in the embodiment of FIG. 5.

Meanwhile, the cover fixture 10 includes a case 5 of the main body such that a fixing hole 11 into which the conductive holder 20 is inserted and supported is formed, and the torch insertion hole 29 of the conductive holder 20 is exposed to the outside. It is installed to penetrate through and insulates the conductive holder 20 from the case 5.

More specifically, the cover fixture 10 comprises a first insulating fixture 12, a second insulating fixture 14, a washer 16 and a lock nut 18 and the fixing holes 11 are formed to communicate with them. .

The first insulating fixture 12 of the cover fixture 10 is inserted and fixed inward from the outside of the case 5. In addition, the first insulating fixture 12 forms a stepped coupling with the conductive holder 20 to support the conductive holder 20 inserted into its fixing hole in the outward direction of the case 5. Typically, the case 5, which is made of a metallic material, may be insulated from the conductive holder 20 by abutting the inserted portion of the first insulating fixture 12.

In addition, the second insulating fixture 14 is coupled to one surface of the first insulating fixture 12 protruding into the case 5, and the second insulating fixture 14 is locked to the washer 16 and one surface thereof. The state in which the nut 18 is coupled to the first insulating fixture 12 is supported.

Here, the first and second insulating fixtures 12 and 14 are rotated in a fixed state with the case 5 so that the fixing protrusions 13 and the fixing grooves 15 are formed at positions corresponding to each other so that play does not occur. Can be.

In addition, the conductive holder 20 is inserted into the fixing hole 11 which is connected to the first and second insulating fixtures 12 and 14, the washer 16 and the lock nut 18 which constitute the cover fixture 10.

In addition, the power link portion 60 is coupled to the screw portion of the inner extension portion 24 outside the portion where the wire insertion hole 26 of the conductive holder 20 is formed, thereby supplying power to the conductive holder 20. Has the function.

More specifically, in the power link unit 60, as shown in FIGS. 1 to 4, and FIGS. 7 and 8, the inner extension part 24 includes the first thread part 24-1 and the second thread part 24-1. In response to the step having a configuration having a step may include a power nut 64 connected to the power line 62 and the fixing nut 66 in contact with the power nut 64 while being in contact with the step. .

In addition, the power link unit 60 has two fixing nuts 66 for the power nut 64 in response to the case where the thread is extended such that the inner extension 24 has the same diameter as in the embodiment of FIG. 5. It may include a configuration to support.

By the above-described configuration, power supplied to the power line 62 may be transmitted to the conductive holder 20 through the power nut 64.

Embodiment according to the present invention configured as described above can supply the welding rod wire 100 to the torch through the connector (7).

The electrode wire 100 wound on the roll mounted in the main body is inserted into the electrode wire insertion hole 26 of the conductive holder 20 and supplied to the supply pipe 71 of the conductive insertion portion 73 in the connector 7 of the torch. Spring wire 102 may be used to guide the insertion of the electrode wire 100.

The spring wire 102 is formed of the electrode wire insertion hole 26 in the conductive holder 20 of the multifunction adapter 9 and the conductive insert 73 in the connector 7 of the torch before the electrode wire 100 is drawn in. Installed inside the supply pipe 71, the supply of the welding rod wire 100 is guided by a spring wire 102 installed in advance. The spring wire 102 is guided so that a jam does not occur when the electrode wire 100 is supplied through the electrode wire insertion hole 26 and the supply pipe 71. Spring wire 102 is a wire formed with a spring and having a diameter corresponding to the diameter of the electrode wire 100 to be guided may be used.

In addition, the embodiment according to the invention has the function of supplying gas for welding via the multifunction adapter 9 and the connector 7 of the torch coupled to each other.

In the embodiment according to the present invention, a gas inlet 27 of the conductive holder 20 and a gas pipe (not shown) installed in the case 5 to supply gas from the outside may be coupled. Therefore, the gas to be used for welding, such as inert gas or carbon dioxide gas, can be supplied to the torch insertion hole 29 via the gas inlet piece 27 and the gas inlet hole 28. The gas introduced into the torch insertion hole 29 may be delivered to the torch via the supply pipe 71 inside the conductive insertion portion 73 of the connector 7 via the plurality of gas inlet holes 77.

As a result, gas can be supplied to the torch via the conductive holder 20 and the conductive insert 73 of the connector 7. At this time, even when the spring wire 102 is installed in the supply pipe 71 of the conductive insert 73 of the connector 7 and the welding rod wire 100 is supplied, the gas is supplied through the space in which the spring wire 102 is spaced. Can be transferred to the torch.

In addition, the embodiment in which the gas inlet hole 28 formed in the conductive holder 20 is removed in the embodiment of FIGS. 1 to 4 may correspond to the case where no gas is used, as shown in FIG. 7. At this time, the O-ring 79 may also be removed.

In addition, the gas inlet piece 23 may be coupled to the longitudinally extending end of the electrode wire insertion hole 26 to perform plasma welding. It is not necessary to supply the electrode wire for plasma welding. Therefore, the electrode wire insertion hole 26 for electrode wire supply can be used as a gas supply path for plasma welding, and the gas inlet hole 28 can be removed as shown in FIG. 7.

In addition, in the embodiment according to the present invention, power applied to the power line 62 may be transmitted to the connector 7 of the torch through the conductive holder 20. That is, electricity is supplied through the conductive holder 20.

Here, the connector 7 between the conductive holder 20 and the case 5 is insulated by the cover fixture 10 and inserted into the torch insertion hole 29 of the fastening portion 22 of the conductive holder 20. The power supply is applied to the power line 62 via the conductive insertion portion 73 of.

As described above, the embodiment according to the present invention is configured with one port for the interface between the main body and the torch, and can be used for power supply, gas supply, and electrode wire supply for power supply through one port.

That is, when only the electric power for arc formation is supplied, it is possible to conduct electricity by joining the conductive insert 73 of the connector 7 of the torch and the conductive holder 20 of the multifunction adapter 9.

When the electrode wire 100 is to be supplied together with the energization, the energization is performed by joining the conductive insertion portion 73 of the connector 7 of the torch and the conductive holder 20 of the multifunction adapter 9. The welding rod wire insertion hole 26 of the conductive holder 20 of the multifunction adapter 9 and the supply pipe 71 of the conductive insert 73 of the connector 7 communicate with each other to receive the welding rod wire 100.

In addition, when the electrode wire and gas are to be supplied together with the energization, the gas flowing into the torch insertion hole 29 of the multifunction adapter 9 may be additionally supplied into the conductive insert 73 of the adapter 7 of the torch. have.

As described above, an embodiment according to the present invention may form a port capable of selectively supplying electricity, a conductive wire, and a gas to a case with one multifunctional adapter. Therefore, the embodiment according to the present invention may have a versatility to cope with various torch with one multifunction adapter.

And, by using the adapter according to the embodiment according to the present invention can be simplified the internal structure of the main body for the torch and the connection of the welder, and as the structure is simplified, the parts required to configure the main body is reduced, the corresponding manufacturing cost Can be reduced.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

5: body 7: connector
10: cover fixture 12: first fixture
14 second fixing 16 washer
18: lock nut 20: conductive holder
22: fastening portion 24: internal extension
26: welding rod wire insertion hole 28: gas inlet hole
29: torch insertion hole 40: locking cap
60: power link unit 62: power line
64: power nut 66: fixing nut
100: welding rod wire 102: spring wire

Claims (9)

A conductive insert is formed in the center of the trapezoidal cylinder of the conductive material, the supply pipe receiving at least one of the welding wire and the gas, and a tightening wrench for adjusting the length exposed to the supply pipe is formed at the end of the trapezoidal cylinder and the conductive A connector forming an end of the torch, including a locking cap rotatably coupled with the insert; And
A conductive holder having a trapezoidal cylindrical torch inserting hole for surface contact and a wire inserting hole communicating therewith while receiving a trapezoidal cylinder of the conductive inserting portion of the connector, wherein an inlet of the torch inserting hole of the conductive holder is formed; And a multifunctional adapter having an insulation with a casing which is screwed with the locking cap of the connector and forms a power link in a region where the electrode wire insertion hole is formed and is powered and inserted therethrough.
The power applied through the power link is supplied through the conductive holder and the conductive insert and the electrode wire introduced into the welding wire insertion hole is supplied through the supply pipe of the conductive insert inserted into the torch insertion hole. Torch fastening device of multi-function arc welding machine
The method of claim 1, wherein the connector,
In the center of the trapezoidal cylinder of the conductive material, the supply pipe is configured to receive at least one of a welding rod wire and a gas, and a tightening wrench having an adjustable length exposed to the supply pipe is formed at an end of the trapezoidal cylinder and is formed of the torch. A conductive insert connected to the power line; And
And a locking cap rotatably coupled to the conductive insert and locking the conductive insert to the torch insertion hole in the process of screwing and locking the inlet of the torch insertion hole.
The method of claim 2,
A first gas inlet hole is further formed in the conductive insert, which is in vertical communication with the supply pipe, and a second gas inlet hole is further formed corresponding to a position where the first gas inlet hole of the conductive holder is formed. The torch fastening device of the multifunctional arc welder, wherein an O-ring is formed in the space between the insertion portion and the locking cap so that the inlet of the torch insertion hole of the conductive holder is in contact.
The method of claim 3,
Torch fastening device of the multi-function arc welding machine is formed a plurality of the first gas inlet hole along the annular bone formed in the conductive insert.
The method of claim 1, wherein the multifunction adapter,
A conductive holder having a trapezoidal cylindrical torch inserting hole for surface contact and a wire inserting hole communicating therewith while accommodating a trapezoidal cylinder of the conductive inserting portion of the connector;
A cover fixture formed between the conductive holder and the case while a fixing hole into which the conductive holder is inserted and supported is formed and is installed through the case of the main body such that the torch insertion hole of the conductive holder is exposed to the outside; And
And a power link unit coupled to an outer side of the portion where the wire insertion hole is formed in the conductive holder to supply power to the conductive holder.
The method according to claim 1,
And a gas inlet piece coupled to an end of the electrode wire insertion hole of the conductive holder and supplying gas to the end of the torch through the wire insertion hole.
The method of claim 5, wherein the cover fixture is in communication with the first and second insulating fixtures that are assembled in contact with the inner and outer sides with respect to the case having the fixing hole into which the conductive holder is inserted, the conductive holder and screw coupling And a washer and a lock nut in close contact with the second insulating fixture, wherein the first insulating fixture is assembled to penetrate the case from the outside of the case while supporting the inserted conductive holder to push the outside of the case; And the second insulating fixture is assembled with the first insulating fixture inside the case.
The method according to claim 1,
The outer wall of the conductive holder has a small step diameter of the region where the electrode wire insertion hole is formed, and the power link part is inserted into the outer wall of the conductive holder having the electrode wire insertion hole formed while being coupled with a power line for supplying power. Torch fastening apparatus of the multifunctional arc welder including a power nut which is in close contact with the power nut and a fixing nut for fixing the power nut in close contact with the outer wall of the conductive holder.
The method according to claim 1,
The power link unit includes a pair of fixing nuts screwed to the outer wall of the conductive holder in which the welding rod wire insertion hole is formed, and a power nut coupled with the power line and fixed between the fixing nuts. .

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