奥地利专利AT514318A4 Method for carrying out a welding process, welding apparatus and wire roller for such a welding appa

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优先权

专利摘要:
The invention relates to a method and a welding apparatus (1) for carrying out a welding process on a workpiece (14) with a welding torch (7) using a consumable welding wire (9) which is arranged on a wire reel (10) and the welding torch (7 ) can be guided via a hose package (21), wherein different welding wires (9) and different welding parameters (Pi) are used depending on the geometry of the workpiece (14). According to the invention, a welding wire (9 ') formed from the interconnected various welding wires (9) in lengths (Li) dependent on the geometry of the workpiece (14) is arranged on the wire reel (10) so that the welding process can be carried out without interruption with the various welding wires (9 ) and various welding parameters (Pi) is feasible by the welding torch (7) of the welding wires (9 ') formed from the interconnected different welding wires (9) can be fed from the wire reel (10).
公开号:AT514318A4
申请号:T50576/2013
申请日:2013-09-12
公开日:2014-12-15
发明作者:
申请人:Fronius Int Gmbh；
IPC主号:

专利说明:

1
The invention relates to a method for carrying out a welding process on a workpiece with a welding torch using a consumable welding wire, which is supplied to the welding torch from a wire roll, wherein different welding wires and different welding parameters are used depending on the geometry of the workpiece.
Furthermore, the invention relates to a welding apparatus for performing a welding process on a workpiece with a welding torch using a consumable welding wire, which is arranged on a wire reel and the welding torch is supplied via a hose package, depending on the geometry of the workpiece using different welding wires and different welding parameters become.
Finally, the invention also relates to a wire reel with a welding wire for carrying out a welding process with a welding device mentioned above.
When welding some workpieces, it is necessary to achieve certain properties by performing the welding process with different welding wires and different welding parameters, depending on the geometry of the workpiece. For example, rails in the region of the rail foot are welded together with other welding materials and welding parameters other than in the region of the rail head. According to the prior art, the welding process is started with a welding wire, then interrupted, the welding wire is changed and the welding process continues with the new welding wire on the workpiece. The interruption of the welding process leads to a loss of welding quality. In order to keep the gap between the welding processes low, several welding devices with the different welding wires can be used, but this increases the effort of the welding process.
The object of the present invention is therefore to provide a welding process, welding apparatus and a wire roll, by means of which a welding process can be carried out on a workpiece with, depending on the geometry of the workpiece, different welding wires and different welding parameters 2/21 2. The quality of welding should be as high as possible, and the expense of carrying out the welding process as low as possible and cost-effective.
The object of the invention is achieved in terms of the method in that the welding process is carried out without interruption with the various welding wires and different welding parameters, by supplying the welding torch a welding wire formed from the interconnected various welding wires in lengths dependent on the geometry of the workpiece lengths from the wire roll. The invention thus provides that empirical values are used for the welding of workpieces with different materials and parameters, and based on these empirical values, the various welding wires are prefabricated in appropriate lengths and connected to one another, and from this a common welding wire is formed, which is the welding torch of the wire reel is supplied. For the welding of certain workpieces, therefore, wire rolls with certain compositions of welding wires are prefabricated, so that during the welding process, the various welding wires forming the welding wire and the corresponding welding parameters can be used automatically. In this way, an uninterrupted welding process is also possible when welding workpieces with different materials, which has an optimal effect on the welding quality and the welding time. For example, with the wire reel with a welding wire composed of two interconnected different welding wires, a rail can be welded in a welding process, wherein the rail foot is welded to another welding wire and welding parameters other than the rail head to meet the required properties of the workpiece. The only prerequisite for the execution of the welding process is the right direction of the welding process. Since, in a variety of workpieces, which must be welded with different welding materials, the transition from one region to another must not be exact, also a certain tolerance for the transition from one welding wire to the other associated welding wire is allowed. In an automatic robot-controlled Schweißverfah- 3/21 3 ren but also the transition from one welding wire to the other associated welding wire is very precisely adjustable.
Advantageously, during the feeding of the welding wire, a change of the welding wire forming interconnected different welding wires is detected. In this way, the welder or the welding device, the change of the welding wire forming interconnected various welding wires can be communicated, and it may be necessary to take any necessary measures, such as the switching of welding parameters. The type of detection can be different.
When the change in the various welding wires forming the welding wire is displayed, the welder can be given appropriate feedback. The display can be made visually and / or acoustically or mechanically, for example by vibration of the welding torch.
For example, the change of the welding wire forming interconnected welding wires can be detected by an arranged in the region of the transition from one welding wire to the other welding wire indicator. This indicator, which may be formed, for example, by a ring made of a material different from the interconnected welding wires, is fastened in the region of the transition from one welding wire to the other welding wire connected thereto and detected by a corresponding detector. For example, indicators from optically detectable material or magnetically detectable material come into question.
Alternatively, the change of the welding wire forming interconnected welding wires can also be detected indirectly via the welding parameters. Due to the fact that the arc parameters, in particular the arc voltage and the arc current, change within certain limits when changing the different welding wires forming the welding wire, the change of the interconnected welding wires can also be detected via the arc parameters. 4/21 4
This has the advantage that the interconnected welding wires need not be marked or provided with indicators in the region of the transition.
The welding parameters are preferably automatically changed when a change in the welding wire forming interconnected welding wires is detected. This ensures an uninterrupted welding process and thus a high welding quality.
The object according to the invention is also achieved by an above-mentioned welding apparatus, wherein a welding wire formed from the interconnected various welding wires in lengths dependent on the geometry of the workpiece is arranged on the wire reel, so that the welding process can be carried out without interruption with the various welding wires and different welding parameters, by the welding torch of the welding wire formed from the interconnected different welding wires from the wire roll can be fed. Such a welding device does not have to be changed, or only insignificantly, compared to conventional welding devices, whereby a wide application can be ensured. For the achievable advantages, reference is made to the above description of the method.
If an indicator is arranged in the region of the transition of the welding wire forming interconnected welding wires, the transition from one welding wire to another welding wire connected thereto can be reliably detected by a corresponding detector and forwarded to further components of the welding device.
Advantageously, a detector for detecting the change of the welding wire forming interconnected welding wires is provided. Via a corresponding detector, which can be arranged at a suitable point of the welding device, for example in the region of the conveying device or the welding torch, the corresponding indicator is detected in the region of the transition from one welding wire to the other welding wire connected thereto, and corresponding steps can be taken For example, displaying a change in the interconnected welding wires forming the welding wire is communicated to the welder.
This detector can be formed by an optical detector. For example, the indicator can be formed by a ring of reflective material and the optical detector can be formed by a reflection light barrier, which detects the indicator accordingly.
Alternatively, the detector may also be formed by a magnetic detector. In this case, the indicator is formed, for example, by a ring of magnetic material that can be detected by this magnetic detector. But other indicators, such as Notches in the region of the transition from one welding wire to the other welding wire connected thereto, which can be detected by corresponding detectors, would be conceivable.
However, the detector can also be formed by a device for detecting the arc parameters, so that the change of the interconnected welding wires is indirectly detected. In this type of detection, which can be realized, for example, in software in the control device of the welding device, no measures are to be taken on the wire reel or on the welding wire.
The object of the invention is also achieved by an above-mentioned wire roller, wherein the welding wire is formed by interconnected different welding wires whose lengths depend on the geometry of the workpiece to be welded. For the achievable advantages, reference is made to the above description of the welding method and the welding apparatus.
Preferably, the interconnected various welding wires forming the welding wire are welded together on the wire reel. This ensures a rapid and secure connection of the welding wire forming different welding wires together. 6/21 6
In the area of the transition from a welding wire forming the welding wire to the other associated welding wire, a corresponding indicator can be arranged, which can be detected with a corresponding detector.
The indicator may be formed, for example, by a ring around one of the welding wires forming welding wires, of a material different from the welding wires.
Likewise, the indicator may be formed by a marking on one of the welding wires forming the welding wire, which may be realized by a color ring or a notch.
The various welding wires on the wire reel forming the welding wire are preferably of different material and / or diameter. In this way, various properties can be achieved depending on the geometry of the material, for example a softer microstructure in the region of the rail foot of a rail and a harder microstructure in the region of the rail head of a rail.
The present invention will be explained in more detail with reference to the accompanying schematic drawings. Show:
1 shows a structure of a welding machine /
Fig. 2 is a schematic representation of a welding apparatus for
Welding a workpiece using different welding wires and different welding parameters depending on the geometry of the workpiece;
Fig. 3 is a schematic representation of two different mitein other connected welding wires;
4 shows an indicator in the region of the transition from one welding wire to another welding wire; and FIG. 5 shows a marking in the region of the transition from one welding wire to another welding wire.
In Fig. 1, a welding apparatus 1 for a variety of processes or processes, such. MIG / MAG, TIG / TIG, electrode, double wire / tandem welding, plasma or soldering 7/21 7 and so on.
The welding apparatus 1 comprises a power source 2 with a power part 3 arranged therein, a control device 4 and other components and lines, not shown, such as a switching element, control valves, etc. The control device 4 is connected, for example, to a control valve which is in a supply line for a Shielding gas 5 is arranged between a gas reservoir 6 and a welding torch 7.
In addition, a device 8 for conveying a welding wire 9 from a wire reel 10 into the area of the welding torch 7 can still be activated via the control device 4, as is customary, for example, for MIG / MAG welding. Of course, the conveyor device 8 in the welder 1, in particular in the housing 11 of the power source 2, integrated and not, as shown in Fig. 1, be positioned as an additional device on a carriage 12. The conveying device 8 for the welding wire 9 can also be placed directly on the welding device 1, wherein the housing 11 of the power source 2 is formed at the top for receiving the conveyor device 8, and the carriage 12 can be omitted.
The welding wire 9 can also be supplied to the processing station outside the welding torch 7 by a conveying device 8, wherein a non-consumable electrode is preferably arranged in the welding torch 7, as is usual in TIG / TIG welding.
The current for forming an arc 13 between the welding wire 9 and a workpiece 14 formed of one or more parts is supplied to the welding torch 7 via a welding line (not shown) from the power part 3 of the power source 2. The workpiece 14 is connected via a further welding line (not shown) for the further potential, in particular a ground cable, to the power source 2, which can be constructed via the arc 13, a circuit for a process. 8/21 8
For cooling the welding torch 7, this is connected via a cooling device 15 with the interposition of any components, such as a flow monitor, with a liquid container, in particular a water tank 16 with a level indicator 17. When starting the welding torch 7, the cooling device 15, in particular a liquid pump used for the liquid arranged in the water tank 16, is started, whereby a cooling of the welding torch 7 is effected. As shown in the illustrated embodiment, the cooling device 15 is positioned on the carriage 12, on which then the power source 2 is placed. The individual components of the welding device 1, that is, the current source 2, the wire feed device 8 and the cooling device 15, are designed such that they have corresponding projections or recesses, so that they can be stacked or stacked on each other.
The welding device 1, in particular the current source 2, further comprises an input and / or output device 18, via which the most varied welding parameters, operating modes or welding programs can be set or called up and displayed. The welding parameters, operating modes or welding programs set via the input and / or output device 18 are forwarded to the control device 4, and then the individual components of the welding device 1 are controlled or corresponding setpoint values for regulation or control are specified by the latter. When using a corresponding welding torch 7 also adjustment operations can be made via the welding torch 7, to which the welding torch 7 is equipped with a welding torch input and / or output device 19. In this case, the welding torch 7 is preferably connected via a data bus, in particular a serial data bus, to the welding device 1, in particular the current source 2 or the conveying device 8. To start the welding process, the welding torch 7 usually has a start switch (not shown), by the actuation of which the arc 13 can be ignited. In order to be protected against the radiant heat emanating from the arc 13, the welding torch 7 can be equipped with a heat shield 20. 9/21 9
In the illustrated embodiment, the welding torch 7 is connected via a hose package 21 with the welding device 1, wherein the hose package 21 may be attached via a bend protection 22 on the welding torch 7. In the hose package 21, the individual lines, such as the supply line, lines for the welding wire 9, the protective gas 5, the cooling circuit, the data transmission, etc., arranged by the welding device 1 to the welding torch 7, whereas the ground cable preferably separately to the power source 2 is connected. The hose package 21 is preferably connected via a coupling device, not shown, to the power source 2 or the conveyor device 8, whereas the individual lines are secured in the hose assembly 21 with a kink protection on or in the welding torch 7. In order for a corresponding strain relief of the hose assembly 21 is ensured, the hose assembly 21 may be connected via a strain relief device to the housing 11 of the power source 2 or the conveyor device 8 (not shown).
In principle, not all previously named components must be used or used for the different welding methods or welding devices 1. The welding torch 7 can also be designed as an air-cooled welding torch 7 and the cooling device 15 is omitted. The welding device 1 is formed at least by the power source 2, the conveying device 8 and possibly the cooling device 15, wherein these components can also be arranged in a common housing 11. There may be other parts or components, such as a grinding contactor 23 on the wire feeder 8 or an option carrier 24 on a holding device 25 for the gas storage 6, etc., are arranged.
The embodiment of a welding apparatus 1 illustrated in FIG. 1 represents only one of many possibilities. In particular, the welding apparatuses 1 can be used with regard to the supply of the welding wire 9, the length of the hose assembly 21, the type, position and number of conveying apparatuses 8 for the welding wire 9, the presence of a wire buffer (not shown) and much more. 10/21 10
Fig. 2 shows a schematic representation of a welding apparatus 1 for welding a workpiece 14 using a welding wire 9 ', which is formed of interconnected different welding wires 9 in corresponding lengths Li depending on the geometry of the workpiece 14, using different welding parameters Pi Example of a workpiece 14 is shown the cross-section of a rail which is to be welded in the region of the rail foot with another welding wire 9 and welding parameters Pi other than in the region of the rail head. Accordingly, the welding process in the region of the rail foot is started and the welding torch 7, the welding wire 9 ', which consists of the interconnected various welding wires 9, fed from a wire reel 10. In the region of the rail head, another welding wire 9 is automatically fed to the welding torch 7, and the welding parameters Pi are at most adapted, so that a different workpiece structure can be achieved in the region of the rail head. The change from one welding wire 9 'forming welding wire 9 to the other associated welding wire 9 can be detected by a detector 27 and forwarded to the control device 4 of the welding device 1 and the current source 2. Upon detection of the change of the welding wire 9 'forming welding wires 9, which can also be done indirectly by changing the welding parameters Ρ ±, the welder, for example, acoustically or visually, the change is displayed so that it is informed about the change.
3 shows a schematic representation of a welding wire 9 'formed from two different interconnected welding wires 9. In this example, for welding a workpiece 14, a welding wire 9 'formed of two different welding wires 9 is used, which is disposed on the wire roller 10 or the like. The lengths Li and L2 of the various welding wires 9 forming the welding wire 9 'are correspondingly adapted to the geometry of the workpiece 14 to be welded. For example, when welding a rail, the length Lx of the first welding wire 9 corresponds, for example, to the length required for welding the rail foot. The length L2 of the second welding wire 9 for welding the rail head 11/21 11 corresponds to the experience necessary length of the welding wire 9 for welding the rail head. Of course, a plurality of welding wires 9 with different material and / or different diameter to form the common welding wire 9 'connected to each other and arranged on the wire reel 10. Also, the respective welding wires 9 'forming welding wires 9 corresponding welding parameters Pi are deposited with which the welding of the respective geometry of the workpiece 14 is to take place.
4 shows an example of an indicator 26 in the region of the transition from a welding wire 9 forming the welding wire 9 'to another welding wire 9 connected thereto. For example, the indicator 26 of a welding rod 9 can be detected by a ring of reflectable material or a color ring or a ring of magnetic material. The detector 27 is formed according to the variant of the indicator 26, for example by an optical sensor, a magnetic sensor, capacitive sensor, inductive sensor or the like.
5 shows a marking 28 in the region of the transition from a welding wire 9 forming the welding wire 9 to another welding wire 9 connected thereto. In the example shown, this marking 28 is defined by a notch formed in the region of the transition from a welding wire 9 '. forming welding wire 9 to the other associated welding wire 9 is formed, which can be detected by a corresponding detector 27, for example, an optical detector. 12/21

权利要求:
Claims (18)
[1]
Claims 1. A method of performing a welding process on a workpiece (14) with a welding torch (7) using a consumable welding wire (9) supplied to the welding torch (7) from a wire reel (10) depending on Geometry of the workpiece (14) different welding wires (9) and different welding parameters (PJ are used, characterized in that the welding process is performed without interruption with the various welding wires (9) and different welding parameters by the welding torch (7) one of the interconnected various welding wires (9) in accordance with the geometry of the workpiece (14) dependent lengths (Li) formed welding wire (9 ') of the wire roll (10) is supplied.
[2]
2. The method according to claim 1, characterized in that during the feeding of the welding wire (9 ') a change of this welding wire (9') forming interconnected different welding wires (9) is detected.
[3]
3. The method according to claim 2, characterized in that the change of the welding wire (9 ') forming interconnected different welding wires (9) is displayed.
[4]
4. The method according to claim 2 or 3, characterized in that the change of the welding wire (9 ') forming interconnected welding wires (9) arranged in the region of the transition from a welding wire (9) to the other welding wire (9) Indicator (26) is detected.
[5]
5. The method according to claim 2 or 3, characterized in that the change of the welding wire (9 ') forming interconnected welding wires (9) is detected via the welding parameters.
[6]
6. Method according to claim 2, characterized in that the welding parameters (PJ are automatically changed when a change of the welding wires (9) forming the welding wire (9 ') is detected
[7]
7. Welding apparatus (1) for carrying out a welding process on a workpiece (14) with a welding torch (7) using a consumable welding wire (9) which is arranged on a wire reel (10) and the welding torch (7) via a hose package ( 21), wherein depending on the geometry of the workpiece (14) different welding wires (9) and different welding parameters (PJ are used, characterized in that one of the interconnected various welding wires (9) in the geometry of the workpiece (14 ) is arranged so that the welding process can be carried out without interruption with the various welding wires and different welding parameters (Pi) by the welding torch (7) being made of the different connected ones Welding wire (9) formed by the wire roller (10) can be supplied to welding wires (9).
[8]
8. Welding apparatus (1) according to claim 7, characterized in that in the region of the transition of the welding wire (9 ') forming interconnected welding wires (9) an indicator (26) is arranged.
[9]
9. welding apparatus (1) according to claim 7 or 8, characterized in that a detector (27) for detecting the change of the welding wire (9 ') forming interconnected welding wires (9) is provided.
[10]
10. Welding apparatus (1) according to claim 9, characterized in that the detector (27) is formed by an optical detector.
[11]
11. Welding apparatus (1) according to claim 9, characterized in that the detector (27) is formed by a magnetic detector
[12]
12. Welding apparatus (1) according to claim 9, characterized in that the detector (27) is formed by a device for detecting the arc parameters. 14/21 14
[13]
13. A wire roll (10) with a welding wire (9) for carrying out a welding process with a welding apparatus (1) according to one of claims 7 to 12, characterized in that the welding wire (9 ') is formed by interconnected different welding wires (9) whose lengths (LJ depend on the geometry of the workpiece (14) to be welded.
[14]
14, roller (10) according to claim 13, characterized in that the welding wire (9 ') forming interconnected various welding wires (9) are welded together.
[15]
15, wire roller (10) according to claim 13 or 14, characterized in that in the region of the transition from a welding wire (9 ') forming welding wire (9) on the other associated welding wire (9) an indicator (26) is arranged.
[16]
16. The wire reel (10) according to claim 15, characterized in that the indicator (26) is formed by a ring around one of the welding wire (9 ') forming welding wires (9) of one of the welding wires (9) different material.
[17]
17, wire roller (10) according to claim 15, characterized in that the indicator (26) by a mark on one of the welding wire (9 ') forming welding wires (9) is formed.
[18]
18. A wire roll (10) according to any one of claims 13 to 17, characterized in that the welding wire (9 ') forming interconnected different welding wires (9) have different material and / or different diameters. 15/21

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同族专利:

公开号 | 公开日

CN104439625B|2016-09-14|

US20150069031A1|2015-03-12|

DE102014218186A1|2015-03-12|

CN104439625A|2015-03-25|

AT514318B1|2014-12-15|

US9545683B2|2017-01-17|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

GB233199A|1924-07-14|1925-05-07|Harry Dean Morton|Improvements in and relating to welding strips or rods for metallic arc welding|

CA1022627A|1974-05-23|1977-12-13|Joseph C. Leonard|Flux-cored welding wire junction|

US3980859A|1974-05-23|1976-09-14|Huntington Alloys, Inc.|Cored wire junction|

US7032814B2|1999-06-21|2006-04-25|Lincoln Global, Inc.|Coded welding consumable|

US6267291B1|1999-06-21|2001-07-31|Lincoln Global, Inc.|Coded and electronically tagged welding wire|

AT411878B|2000-10-17|2004-07-26|Fronius Schweissmasch Prod|METHOD FOR CONTROLLING AND / OR REGULATING A WELDING PROCESS|

AT413954B|2000-11-02|2006-07-15|Fronius Int Gmbh|DETECTION ELEMENT FOR A WELDING DEVICE|

AT508147B1|2009-06-18|2010-11-15|Fronius Int Gmbh|ADJUSTMENT AID FOR A COMPONENT OF A WELDING MACHINE|

US8766132B2|2009-07-06|2014-07-01|Lincoln Global, Inc.|Synergistic welding and electrode selection and identification method|

US8569625B2|2009-12-22|2013-10-29|W. C. Heraeus Gmbh|Joined dissimilar materials|

US9144862B2|2012-11-30|2015-09-29|Illinois Tool Works Inc.|System and method for determining welding wire diameter|JP6975090B2|2018-04-03|2021-12-01|株式会社ダイヘン|Welding system|

CN111162445B|2019-12-31|2021-08-17|芯思杰技术股份有限公司|Welding method and welding apparatus|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA50576/2013A|AT514318B1|2013-09-12|2013-09-12|Method for carrying out a welding process, welding apparatus and wire roller for such a welding apparatus|ATA50576/2013A| AT514318B1|2013-09-12|2013-09-12|Method for carrying out a welding process, welding apparatus and wire roller for such a welding apparatus|

CN201410457714.5A| CN104439625B|2013-09-12|2014-09-10|For carrying out the method for welding process, welding equipment and the drum for described welding equipment|

US14/483,320| US9545683B2|2013-09-12|2014-09-11|Method for performing a welding process, welding device and wire coil for such a welding device|

DE102014218186.0A| DE102014218186A1|2013-09-12|2014-09-11|Method for carrying out a welding process, welding apparatus and wire roller for such a welding apparatus|

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