WO2018070365A1

WO2018070365A1 - Welding machine remote controller and welding torch

Info

Publication number: WO2018070365A1
Application number: PCT/JP2017/036596
Authority: WO
Inventors: 昌良植田; 宏太堀江; 英樹井原
Original assignee: パナソニックＩｐマネジメント株式会社
Priority date: 2016-10-11
Filing date: 2017-10-10
Publication date: 2018-04-19
Also published as: CN109803782A; JPWO2018070365A1; CN109803782B; JP7012206B2

Abstract

A wireless welding machine remote controller (1) which is used for arc welding and is attachable to/detachable from a welding torch (19) that performs arcing, is provided with: a wireless transmission/reception unit (2) that wirelessly transmits/receives a signal directly or indirectly to/from a welding power supply; an operation unit (3) that sets a welding condition; a display (7) that is provided above the operation unit (3) and displays a setting value of the welding condition; a photovoltaic element unit (4) that is provided on the back surface side opposed to the display (7) and is capable of generating electric power by light; a charging unit (6) in which the electric power generated by the photovoltaic element unit (4) is charged; and an attachment part (10) that is provided on the back surface side opposed to the operation unit (3) and below the photovoltaic element unit (4) and that is attachable to/detachable from the welding torch (19) or a pocket (23) of an operator.

Description

Remote controller and welding torch for welding machine

The present invention relates to a wireless remote controller for a welding machine that can be attached to and detached from a welding torch used for arc welding and to which a remote controller for a welding machine is attached.

In welding work that requires readjustment of welding conditions, the conventional remote controller as a remote controller for a welding machine is a wired type, and the operator places the remote controller adjuster close to the welding conditions during welding work. It is necessary to adjust the welding conditions by placing a remote control adjuster near the worker, stopping the welding work every time it is adjusted, and moving to the side of the remote control adjuster. It was a heavy burden on the person.

As a solution to this, a welding torch with a built-in welding condition adjuster that has a welding condition adjuster that adjusts the welding conditions to a conventional welding torch and that can be adjusted during welding at the operator's hand is known. (For example, refer to Patent Document 1).

Japanese Patent Laid-Open No. 2007-21542

However, the welding torch incorporating the welding condition adjuster imposes a heavy burden on the operator due to, for example, an increase in the size of the welding torch handle itself.

A remote controller for a welding machine according to one aspect of the present invention is a wireless remote controller for a welding machine that can be attached to and detached from a welding torch that irradiates an arc used for arc welding, and directly or indirectly signals to a welding power source. A wireless transmission / reception unit that wirelessly transmits and receives, an operation unit that sets welding conditions, a display unit that is provided above the operation unit, displays a set value of welding conditions, and is provided on the back side facing the display unit, Photovoltaic element unit capable of generating electricity by light, charging unit for charging the electric power generated by the photovoltaic element unit, and provided on the back side facing the operation unit below the photovoltaic element unit, a welding torch or And an attachment portion that is attachable to and detachable from the operator's pocket.

The operation unit may include a plurality of operation switches arranged in a line up and down, and a protruding mark unit disposed on the left and right of each operation switch as a mark of the position of the operation switch.

The operation unit may include a plurality of operation switches arranged in a row on the top and bottom, and a protruding mark part as a mark of the position of the operation switch as a separate body separated from each operation switch. .

The display unit may be an electronic paper type or a memory liquid crystal type capable of holding the display content once displayed even when electricity is not flowing. The charging unit may be a capacitor, a lithium capacitor, or a lithium secondary battery.

The welding torch according to one aspect of the present invention attaches a remote controller for a welding machine in a detachable manner. The remote controller for a welding machine is a wireless remote controller for a welding machine that can be attached to and detached from a welding torch that irradiates an arc, and is used for arc welding. An operation unit for setting welding conditions, a display unit provided on the upper side of the operation unit, for displaying a set value of the welding conditions, and a photovoltaic power generation unit provided on the back side facing the display unit and capable of generating electricity by light. An element part, a charging part for charging the electric power generated by the photovoltaic element part, and a lower side of the photovoltaic element part on the back side facing the operation part, with respect to the welding torch or the operator's pocket A detachable attachment portion. The welding torch is equipped with a torch bracket that detachably attaches the remote controller for the welding machine to the side of the welding torch, and that opposes the photovoltaic power generation element of the remote controller for the welding machine to the welding location during arc welding. The arc light from the welding point is received by the photovoltaic element part of the remote controller for the welding machine.

The welding torch according to another aspect of the present invention attaches a remote controller for a welding machine in a detachable manner. The remote controller for a welding machine is a wireless remote controller for a welding machine that can be attached to and detached from a welding torch that irradiates an arc, and is used for arc welding. An operation unit for setting welding conditions, a display unit provided on the upper side of the operation unit, for displaying a set value of the welding conditions, and a photovoltaic power generation unit provided on the back side facing the display unit and capable of generating electricity by light. An element part, a charging part for charging the electric power generated by the photovoltaic element part, and a lower side of the photovoltaic element part on the back side facing the operation part, with respect to the welding torch or the operator's pocket A detachable attachment portion. The welding torch includes a torch bracket for detachably attaching the remote controller for the welding machine to the welding torch, and the torch bracket is fixed to the welding torch so as to sandwich the torch handle portion of the welding torch from the left and right. And a second bracket that includes an angle adjustment portion that is attached to the first bracket and adjusts the attachment angle, and the first bracket includes a fixing portion that fixes the second bracket in cooperation with the angle adjustment portion. The angle adjustment part has a plurality of reference fixing parts serving as a rotation base axis and a plurality of arc-shaped elongated hole fixing parts that slide and fix in the rotation direction.

The second bracket may hold a remote controller for the welder. The fixing portion may be a long hole that can slide the second bracket in the front-rear direction.

Two arc-shaped elongated hole fixing portions may be arranged between the two reference fixing portions.

The remote controller for the welding machine may have a protrusion provided below the photovoltaic element part on the back side facing the operation part. The attachment part of the welding machine remote controller may be a clip part. The torch bracket may be attached to the torch bracket in a detachable manner by engaging the clip portion and the projection portion so that the clip portion and the projection portion of the remote controller for the welder are sandwiched in the vertical direction. .

The clip part may have an opening part and a folded back part located on the opposite side of the opening part. The second bracket may have an attachment piece to which the welding machine remote controller is attached. The distance from the folded portion to the protrusion may be the same as or longer than the length of the mounting piece.

According to the present invention, the burden on the operator can be reduced.

FIG. 1A is a perspective view showing a remote controller for a welding machine as seen from the operation side of the surface. FIG. 1B is a perspective view showing the remote controller for the welding machine as viewed from the light receiving side on the back surface. FIG. 2A is a front view showing a remote controller for a welding machine. FIG. 2B is a right side view showing the remote controller for the welding machine. FIG. 2C is a rear view showing the remote controller for the welding machine. FIG. 2D is a bottom view showing the remote controller for the welding machine. FIG. 3A is a perspective view showing a welding torch to which a remote controller for a welding machine is attached for right-handed use. FIG. 3B is a perspective view showing a welding torch to which a remote controller for a welding machine is attached for left-handed use. FIG. 4A is a schematic diagram showing a state in which the controller for the welding machine attached to the welding torch receives arc light. FIG. 4B is a cross-sectional view showing the welding machine remote controller attached to the second bracket of the torch bracket, and is a cross-sectional view taken along the line AA of FIG. 4A. FIG. 5 is a perspective view showing the appearance of the torch bracket. FIG. 6 is a schematic diagram showing a remote controller for a welding machine attached to a worker's pocket.

Hereinafter, a remote controller for a wireless welding machine and a welding torch, which are detachable from a welding torch for irradiating an arc, used for arc welding in this embodiment will be described with reference to the drawings.

The welding torch 19 to which the remote controller 1 for welding machine and the remote controller 1 for welding machine of the present embodiment are attached will be described with reference to the drawings. 1A and 1B are perspective views showing a remote controller for a welding machine. 2A, 2B, 2C, and 2D are a front view, a right side view, a back view, and a bottom view of the remote controller for the welding machine, respectively. 3A and 3B are perspective views showing a welding torch to which a remote controller for a welding machine is attached.

FIG. 4A is a schematic diagram showing a state where the remote controller for the welding machine attached to the welding torch is receiving arc light. FIG. 4B is a cross-sectional view showing the remote controller for the welder attached to the second bracket of the torch bracket. FIG. 5 is a perspective view showing the appearance of the torch bracket. FIG. 6 is a schematic diagram showing a remote controller for a welding machine attached to a worker's pocket.

1A, 1B, 2A, 2B, 2C, and 2D, the remote controller 1 for a welding machine is for a wireless welding machine that can be attached to and detached from the welding torch 19 shown in FIGS. 3A, 3B, and 4A. This is a remote controller 1. The welding machine remote controller 1 includes a wireless transmission / reception unit 2, an operation unit 3, a display 7 as a display unit, and a photovoltaic device unit 4. The wireless transmission / reception unit 2 wirelessly transmits / receives a signal directly or indirectly to a welding power source (not shown). The operation unit 3 sets display switching and welding conditions. The indicator 7 is provided above the operation unit 3 and displays a set value of the welding conditions. The photovoltaic element unit 4 is disposed on the back side facing the display unit 7 and is light 22 such as arc light generated by arc irradiation 21 (see FIG. 4A) of the welding torch 19 or illumination light such as standby light. Can generate electricity.

The remote controller 1 for a welding machine further includes an external connection unit 5 and a charging unit 6. The external connection unit 5 is wired to an external charger or an external device when the remaining amount of power in the charging unit 6 is low and urgent charging is required, or when communication via a wired connection with an external device is required. Connected. The charging unit 6 charges the power generated by the photovoltaic element unit 4 or charges the power received from the external device via the external connection unit 5.

In the present embodiment, the photovoltaic element section 4 is arranged in parallel to the display device 7 arranged on the surface side. However, the present invention is not limited to this, and an inclination is provided so that the light 22 generated by the arc irradiation 21 or light such as standby illumination light or sunlight can be efficiently received so as to approach the light 22 in the vertical direction. You may do it.

Further, the remote controller 1 for the welding machine is further provided below the photovoltaic element unit 4 on the back side facing the operation unit 3 and is attached to the welding torch 19 or the operator's pocket 23 (see FIG. 6). On the other hand, the clip part 10 which is a detachable attachment part is provided. The clip part 10 has an opening 25 and a folded back part 24 located on the opposite side of the opening 25. The photovoltaic element portion 4 is disposed above the upper end (folded bent portion 24) of the clip portion 10 so as not to be shielded by the clip portion 10.

Further, the welding machine remote controller 1 on the opening 25 side of the clip part 10 is configured so that the welding machine remote controller 1 and the mounting piece 26 of the second bracket 14 can be engaged by the elastic force of the clip part 10. A position where the distance from the apex of the folded bent portion 24 of the clip portion 10 is substantially the same on the back surface side of the second bracket 14 according to the mounting length L of the mounting piece 26 of the remote controller 1 for the welding machine of the second bracket 14. Is provided with a semi-cylindrical protrusion 11.

Thereby, the clip part 10 and the protrusion part 11 can be engaged so that the torch bracket 12 is sandwiched between the clip part 10 and the protrusion part 11 in the vertical direction. As a result, the protrusion 11 is held down by the elastic force of the clip 10 and the remote controller 1 for the welding machine can be stably attached to the torch bracket 12 with three-point support. Specifically, with respect to the welding torch 19 in which the welding machine remote controller 1 is attached to the torch bracket 12, the position of the welding machine remote controller 1 is shifted due to the operation of the operation switch 8 of the operation unit 3, or inadvertent. The fall from the welding torch 19 can be prevented.

In the present embodiment, the distance from the folded back portion 24 of the clip portion 10 to the projection portion 11 is the same as the length L of the mounting piece 26 of the second bracket 14. However, the present invention is not limited to this, and the distance from the folded portion 24 to the protrusion 11 may be longer than the length L of the mounting piece 26 as long as the clip 26 can hold the mounting piece 26 of the second bracket 14. . In any case, when the welding machine remote controller 1 is attached to the torch bracket 12, the attachment piece 26 of the second bracket 14 is disposed in the internal space of the clip portion 10 (between the folded bent portion 24 and the protruding portion 11. In space). At this time, the protrusion 11 functions as a stopper that prevents the attachment piece 26 of the second bracket 14 from moving from the internal space of the clip portion 10 to the outside. Therefore, careless dropping from the welding torch 19 of the remote controller 1 for the welding machine can be prevented.

The operation unit 3 includes a plurality of operation switches 8 arranged in a line in the vertical direction, and a projecting mark unit 9 that serves as a mark of the position of the operation switch 8.

Although each operation switch 8 is not limited to this, it is substantially flush with the surface of the casing 27 of the remote controller 1 for the welding machine. That is, the surface of each operation switch 8 and the surface of the housing 27 are in substantially the same plane. On the other hand, the mark portion 9 protrudes from the surface of the housing 27. In other words, it protrudes relatively to the extent that it can be recognized with respect to the surface of each operation switch 8. As a result, the operator can easily recognize the mark portion 9 even when wearing leather gloves, and as a result, the operator can easily recognize the position of each operation switch 8.

In the present embodiment, the plurality of operation switches 8 are arranged in a vertical line. Thereby, the remote controller 1 for welding machines can be made slim. In general, the operator holds the torch handle 20 of the welding torch 19 with one hand and holds the welding mask with the other hand during the welding operation. The operation switch 8 is operated with the thumb of the hand holding the torch handle portion 20. By slimming the remote controller 1 for the welding machine, each operation switch 8 can be arranged in a range where the operator's thumb can easily reach. In addition, by arranging the plurality of operation switches 8 in a single row, the size of each operation switch 8 can be increased as compared to the arrangement in a plurality of rows. Therefore, the operator can easily operate the operation switch 8 even when wearing leather gloves.

In the present embodiment, the mark portions 9 are arranged on the left and right sides of each operation switch 8. Therefore, in either the right-handed setting shown in FIG. 3A or the left-handed setting shown in FIG. 3B, either one of the left and right portions of the mark portion 9 should be arranged within a range where the operator's thumb can easily reach. Can do.

In the present embodiment, the mark portion 9 is arranged separately from each operation switch 8 at a position separated from each operation switch 8. That is, the mark portion 9 is not integral with each operation switch 8. As a result, it is possible to avoid a situation in which the operation switch 8 is erroneously operated when the operator confirms the position of the mark portion 9 by groping.

The shape of the protruding mark portion 9 is a quadrangular shape in the present embodiment, but may be a semicircular shape or a triangular shape.

In addition, the operation unit 3 further includes a display 7 that is a display unit that displays a set value of welding conditions, an actual output at the time of welding, a remaining charge power of the charging unit 6, and the like. This display device 7 is an electronic paper type that can be electrically rewritten and can hold the display even when the power is turned off, or holds the display even when the liquid crystal pixel has a memory effect and the power is turned off. It consists of possible memory liquid crystal type. Thereby, since the display 7 can hold the display content once displayed even when electricity is not flowing, low power consumption can be realized. The charging unit 6 includes a capacitor, a lithium capacitor, a lithium secondary battery, or the like, and has a small size, a thin shape, and a light weight.

Next, the torch bracket 12 for attaching the remote controller 1 for the welding machine of the present embodiment to the welding torch 19 will be described with reference to FIGS. 3A, 3B, 4A, 4B and 5. FIG.

In FIG. 3A, FIG. 3B, FIG. 4A, FIG. 4B, and FIG. 5, the torch bracket 12 for attaching the welding machine remote controller 1 to the welding torch 19 is arranged so that the welding machine remote controller 1 matches the handedness of the operator. The torch bracket 12 can be attached to the remote controller 1 for the welding machine on either the left or right side of the welding torch 19. The torch bracket 12 is detachably attached to the welding controller remote controller 1 on the side of the welding torch 19, and the photovoltaic element 4 provided on the back side of the display 7 of the welding machine remote controller 1 is arc-welded. It is made to oppose to the welding part.

Thereby, the welding torch 19 can receive the arc light from the welded part at the time of arc welding to the photovoltaic element portion 4 of the remote controller 1 for the welding machine, and can perform highly efficient charging. Further, during the welding operation, the operator holds the welding torch 19 and easily changes the welding conditions by operating the operation unit 3 of the remote controller 1 for the welding machine while being charged with arc light in the vicinity of the welding point. Is possible.

As described above, the welding machine remote controller 1 is attached to the side, not the upper side or the lower side of the welding torch 19. Thereby, it can prevent that the remote controller 1 for welding machines obstructs work.

Also, the remote controller 1 for the welding machine is detachably attached to the welding torch 19. Thereby, when the remote controller 1 for welding machines is unnecessary, the remote controller 1 for welding machines can be removed. For example, the remote controller 1 for a welder is used when attempting welding under several different welding conditions in order to obtain optimum welding conditions. On the other hand, when optimum welding conditions are obtained and welding is performed under the welding conditions, the remote controller 1 for the welding machine is not necessary. The workability of welding can be improved by removing the remote controller 1 for the welding machine.

The torch bracket 12 includes a first bracket 13 that is fixed to the welding torch 19 so as to sandwich the torch handle portion 20 of the welding torch 19 from the left and right, and an arc irradiation 21 that is attached to the first bracket 13 and irradiated from the welding torch 19. And the second bracket 14 including the angle adjusting unit 16 that adjusts the mounting angle so that the light 22 generated by the above can be received efficiently.

The first bracket 13 has a first clamping piece 28 and a second clamping piece 29 that face each other at a distance equal to or shorter than the lateral width of the welding torch 19. The 1st clamping piece 28 and the 2nd clamping piece 29 are connected with the connection piece 30 by each lower end. The first bracket 13 is made of an elastically deformable material such as metal, for example. Accordingly, the first bracket 13 can be fixed to the welding torch 19 so that the welding torch 19 is sandwiched between the first clamping piece 28 and the second clamping piece 29.

The first clamping piece 28 and the second clamping piece 29 each have a fixing portion 15 that fixes the second bracket 14 in cooperation with the angle adjusting portion 16. That is, the 1st bracket 13 has the fixing | fixed part 15 on the right-and-left both sides. As a result, the second bracket 14 can be selectively fixed to either the left or right side of the first bracket 13.

The first sandwiching piece 28 and the second sandwiching piece 29 are further fitted with fitting portions (for example, holes or holes) respectively fitted to fitted portions (for example, convex portions) respectively arranged on the left and right side surfaces of the welding torch 19. Notch) 31 is provided. Thereby, the position shift with respect to the welding torch 19 of the 1st bracket 13 can be prevented. In addition, it is good also considering the to-be-fitted part as a recessed part and the fitting part 31 as a convex part.

The angle adjustment portion 16 of the second bracket 14 has a plurality of reference fixing portions 17 serving as a rotation base shaft and a plurality of arc-shaped elongated hole fixing portions 18 that are slid and fixed in the rotation direction.

A second bracket on which the fixing unit 15 of the first bracket 13 to which the angle adjusting unit 16 and the reference fixing unit 17 of the second bracket 14 are attached is adapted to hold the remote controller 1 for the welding machine according to the length of the operator's finger. It is the shape of the long hole which can slide 14 back and forth.

Further, the angle adjusting unit 16 has a structure in which two arc-shaped elongated hole fixing portions 18 are disposed between the two reference fixing portions 17.

As described above, the wireless welding machine remote controller 1 that can be attached to and detached from the welding torch 19 that irradiates the arc of the present embodiment, and the welding torch 19 to which the welding machine remote controller 1 is attached are used during welding work. It has a photovoltaic power generation element section 4 that can generate electricity using light such as arc light and illumination light during standby, and can be charged / communication by connecting to electricity generated by the photovoltaic power generation element section 4 or an external device. A rechargeable charging unit 6 is provided via the external connection unit 5.

Further, the remote controller 1 for the welding machine is operated by electricity charged in the charging unit 6, and transmits / receives a signal directly or indirectly to the welding power source, welding conditions, output values, and the charging unit 6. The display 7 which is a display part which displays a charge remaining amount etc., and the operation part 3 which adjusts display switching and welding conditions are provided.

Further, the remote controller 1 for the welding machine has a protruding mark portion 9 for recognizing the arrangement of the operation switch 8 of the operation unit 3 with leather gloves attached, in the vicinity of the left and right of the operation switch 8 of the operation unit 3. Have.

Further, the remote controller 1 for the welding machine can adjust the welding conditions at the hand of the torch even during the welding operation, and can be easily detached from the welding torch 19 and is inadvertently removed when attached to the welding torch 19. However, it has the clip part 10 which can be inserted in a pocket etc. at the time of carrying.

Further, the second bracket 14 for attaching the remote controller 1 for the welding machine to the welding torch 19 is recombined with the torch handle portion 20 and can be attached to the left and right according to the dominant hand of the operator. In accordance with this, the angle / front / rear position tilt adjustment is possible. Therefore, it is possible to provide the remote controller 1 for a welding machine that is excellent in small size, light weight, operability, portability, and ease of use, and can reduce the burden on the operator by adding a welding condition adjustment function to the welding torch 19.

This makes it compact, lightweight, easy to operate, portable and easy to use, and can reduce the burden on the operator by adding a welding condition adjustment function to the welding torch 19. And since the remote controller 1 for welding machines is a separate and independent structure with respect to the welding torch 19, it is easy to attach or detach and can be purchased separately when it is useful.

In a conventional welding torch with a built-in welding condition adjuster, the welding torch handle becomes larger, and the control line and power line for the welding condition adjuster are added to the welding torch cable part. The mass of the cable increases, and the control and power lines for the adjuster are added to the welding torch cable, so the welding torch cable becomes thicker and harder, making the cable easier to handle, and the welding operation can be continued for a long time. It becomes difficult and workability falls. Furthermore, the setting part of the welding condition adjuster built in the welding torch is small, and when adjusting the welding conditions with a leather glove, it is difficult to adjust, and the operator removes the leather gloves and adjusts the welding conditions. It is necessary and workability is reduced. That is, a heavy burden is imposed on the worker. The remote controller for a welding machine and the welding torch according to the present embodiment can reduce such a burden. Also, a welding torch with a built-in welding condition adjuster becomes very expensive even though the welding torch itself is positioned close to a consumable item. The welding torch according to the present embodiment can reduce such problems.

According to the present invention, it is possible to reduce the burden due to the increase in the mass of the welding torch to the worker and the handling of the cable due to the enlargement of the shape, etc., and without losing workability, welding with a leather glove at hand during welding You can adjust the conditions. In addition, since it can be easily detached from the welding torch, it can be carried, held and operated by hand, and the burden on the operator can be reduced by adding the welding condition adjustment function. In addition, it is industrially useful because it is an independent structure that can be attached to and detached from a conventional welding torch.

DESCRIPTION OF SYMBOLS 1 Remote controller for welding machines 2 Wireless transmission / reception part 3 Operation part 4 Photovoltaic element part 5 External connection part 6 Charging part 7 Indicator 8 Operation switch 9 Mark part 10 Clip part (attachment part)
DESCRIPTION OF SYMBOLS 11 Protrusion part 12 Torch bracket 13 1st bracket 14 2nd bracket 15 Fixing part 16 Angle adjustment part 17 Reference | standard fixing part 18 Arc-shaped long hole fixing part 19 Welding torch 20 Torch handle part 21 Arc irradiation 22 Light 23 Pocket 24 Folding Part 25 opening part 26 attachment piece 27 housing 28 first clamping piece 29 second clamping piece 30 connecting piece 31 fitting part

Claims

A wireless remote controller for a welding machine that is attachable to and detachable from a welding torch used for arc welding,
A wireless transmission / reception unit that wirelessly transmits and receives signals directly or indirectly to the welding power source;
An operation unit for setting welding conditions;
A display unit that is provided above the operation unit and displays a set value of the welding condition;
A photovoltaic element part provided on the back side facing the display part and capable of generating electricity by light;
A charging unit for charging the electric power generated by the photovoltaic element unit;
An attachment part that is provided below the photovoltaic element part on the back side facing the operation part, and is attachable to and detachable from the welding torch or an operator's pocket;
Remote controller for welding machine equipped with.
The operation unit includes a plurality of operation switches arranged in a line up and down, and a protruding mark unit disposed on the left and right of each operation switch as a mark of the position of the operation switch. Item 2. A remote controller for a welding machine according to item 1.
The operation unit includes a plurality of operation switches arranged in a row in the vertical direction, and a projecting mark part as a mark of the position of the operation switch as a separate body separated from each operation switch. The remote controller for a welding machine according to claim 1 or 2, including the remote controller.
2. The display unit is an electronic paper type or a memory liquid crystal type capable of holding display contents once displayed even when no electricity is flowing, and the charging unit is composed of a capacitor, a lithium capacitor, or a lithium secondary battery. Remote controller for welding machine as described in.
A welding torch in which the remote controller for a welding machine according to claim 1 is detachably attached,
The welding machine remote controller is detachably attached to the side of the welding torch, and includes a torch bracket that opposes the photovoltaic element portion of the welding machine remote controller to a welding location during arc welding. A welding torch that causes the photovoltaic element portion of the remote controller for the welding machine to receive arc light from the welding point.
A welding torch in which the remote controller for a welding machine according to claim 1 is detachably attached,
A torch bracket for detachably attaching the welding machine remote controller to the welding torch;
The torch bracket includes a first bracket fixed to the welding torch so as to sandwich a torch handle portion of the welding torch from the left and right;
A second bracket that is attached to the first bracket and includes an angle adjustment unit that adjusts an attachment angle;
Each of the first brackets has a fixing portion for fixing the second bracket in cooperation with the angle adjustment portion on each of the left and right sides of the first bracket,
The angle adjusting section is a welding torch having a plurality of reference fixing sections serving as rotation bases and a plurality of arc-shaped elongated hole fixing sections that are slid and fixed in the rotation direction.
The welding torch according to claim 6, wherein the second bracket holds the remote controller for the welder, and the fixing portion is an elongated hole that can slide the second bracket in the front-rear direction.
The welding torch according to claim 6 or 7, wherein the two arc-shaped elongated hole fixing portions are disposed between the two reference fixing portions.
The welding machine remote controller has a protrusion provided below the photovoltaic element part on the back side facing the operation part,
The mounting part of the remote controller for the welder is composed of a clip part,
The clip part and the projection part are engaged so that the clip part and the projection part of the remote controller for the welder are sandwiched between the clip part and the remote controller for the welder, and the remote controller for the welder is detachable. The welding torch according to claim 6, wherein the welding torch is attached to a torch bracket.
The clip portion has an opening, and a folded portion positioned on the opposite side of the opening,
The second bracket has an attachment piece to which the remote controller for the welder is attached,
The welding torch according to claim 9, wherein a distance from the folded portion to the projection is equal to or longer than a length of the attachment piece.