CA2391149A1 - A cleaning system for welding torches which effects cleaning by means of cold temperature - Google Patents
A cleaning system for welding torches which effects cleaning by means of cold temperature Download PDFInfo
- Publication number
- CA2391149A1 CA2391149A1 CA 2391149 CA2391149A CA2391149A1 CA 2391149 A1 CA2391149 A1 CA 2391149A1 CA 2391149 CA2391149 CA 2391149 CA 2391149 A CA2391149 A CA 2391149A CA 2391149 A1 CA2391149 A1 CA 2391149A1
- Authority
- CA
- Canada
- Prior art keywords
- cleaning
- welding torch
- cleaning system
- torch
- subjecting
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K9/00—Arc welding or cutting
- B23K9/32—Accessories
- B23K9/328—Cleaning of weld torches, i.e. removing weld-spatter; Preventing weld-spatter, e.g. applying anti-adhesives
Landscapes
- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Plasma & Fusion (AREA)
- Mechanical Engineering (AREA)
- Arc Welding In General (AREA)
Abstract
A cleaning system process and apparatus for welding torches performs the cleaning by subjecting the welding torch, including the weld tip, nozzle and gas diffusers, to cooling. The cooling provides a temperature shock sufficient to loosen the weld spatter from the torch. In one embodiment the loosened spatter may then be carried away from the torch by either or both of positive or negative fluid pressure, for example an air blast or a vacuum line, respectively. The cooling maybe done by subjecting the torch to a pressurized flow of coolant medium such as dry ice pellets or the like. The system may further cleanse the torch with an anti-spatter compound which can be applied by mixture with the coolant medium if desired. The cleaning system process is thorough, quick, subjects the torch to little stress, and improves performance of the nozzle including operation time between cleanings.
Description
A CLEANING SYSTEM FOR WELDING TORCHES WHICH EFFECTS
CLEANING BY MEANS OF COLD TEMPERATURE
FIELD OF THE INVENTION
The present invention relates to means and methods for cleaning welding torches.
SUMMARY OF THE INVENTION
The purpose of the cleaning system of the present invention is for cleaning of weld spatter over the entire area inside arid outside of the nozzle assembly of a welding torch including the weld tip and gas diffusers: The system is suitable for welding guns used with special purpose welding machines; robotic welding systems and manual welding units.
During the cleaning cycle; the welding gun is positioned proximal to the cleaning unit and subjected to a cooling medium sufficient to cause thermal shock effective to loosen orseparate the spatterfrom the nozzle assembly. This may be accomplished in one embodiment by the-application of dry ice pellets to the nozzle assembly.
Mechanical loosening may also be affected by this process. Advantageously, the cleaning effects a cooling of the nozzle assembly which aids in efficient welding operations.
Further the cleaning gives little mechanical or abrasive strain to the nozzle assembly thus promoting longer life and economical cleaning of the nozzle assembly.
The cleaning unit may be a box and clamp assembly constructed to hold the nozzle assembly and- contain the cooling medium: The box may be pneumatically or hydraulically operated to provide the delivery of the cooling medium under pressure. The loosened weld spatter may be subjected to fluid pressure, e:g. high pressure air, forced through the nozzle assembly from an air line attached to the torch and a second air stream directed forwardly to the torch assembly from the box to further remove the loosened weld spatter from the nozzle assembly area. The box may ~so be connected to a vacuum line to aid in the removal of debris or residual cleaning media; or both.
Additionally an anti-spatter compound such as known detergents or the like may be added to the coolant medium; or separately applied, to further clean and protect the nozzle assembly if desired l BRIEF DESCRIPTION OF THE DRAWINGS
Fig. l illustrates a known welding torch nozzle assembly.
Fig. 2 illustrates a cleaning station and alternative nozzle assembly according to the present invention.
Fig. 3 illustrates a cut-away side view of the cleaning station with a welding torch nozzle assembly therein.
DETAILED DESCRIPTION
Fig. 1 shows a cutaway view of a known MIGLMag welding torch 11 familiar to those in the art, which may be cleaned by using the ystem of the present invention. The torch includes a nozzle assembly i 3 having a nozzle l S; a weld tip 17, and gas diffusers 19.
Modification of the torch according to the present invention may include additional tubing (Fig. 2) affixed to the rear end 2i of the torch 11 which provides a fluid under pressure to help clean the nozzle assembly l3 as further explained below.
Fig. 2 illustrates a cleaning station 23 of the present invention: In an 15 automated embodiment of the present invention, insertion of the nozzle assembly 13 into the cleaning station 23 will initiate the cleaning cycle by ecuring the nozzle 15 and initiating cooling by objecting the warm nozzle assembly 13 to a pressure,spray of coolant medium in and around the nozzle 15. Details of automating the apparatus and assembly, such as sensing and control apparatus and fluid routing, have been omitted for clarity of explanation 20 and are considered with the ordinary skilLof the art. With the application ofthe coolant medium, the resulting temperature shock effected on the surfaces of the nozzle assembly 13 aids in separating spatter from the nozzle assembly 13 without damage to the nozzle assembly surfaces.
The cleaning station 23, according to one embodiment of the invention comprises a pneumatic clamp assembly 25 such as known in the art for securing the nozzle assembly 13, a cleaning box 27 open to the clamp assembly 25, and a coolant delivery box 29 for supplying the coolant medium, if necessary or desired. The cleaning box 27 and pneumatic clamp assembly 25 may share an air supply 31. The air supply 31 may provide pneumatic force necessary to operate the pneumatic clamp assembly 25 through a first line 32 and may provide air as a pressurized cleaning or drying fluid to the cleaning box 27. The coolant delivery box 29 may be provided for accepting and routing pelletized cleaning medium such as dry ice pellets, granules or the like, as indicated by the coolant supply line 33 labeled "C02", into the cleaning box 27. It will be appreciated that other coolant media may be used which are suitable to the task wi#hin the spirit of the present invention, such as a liquid nitrogen source, super-chilled air, etcThe cleaning media will preferably not leave a residue or source of free oxygen an the nozzle assembly 13 which might interfere with subsequent welding operations. Dry ice pellets or other solids may have an additional advantage of providing some mechanical action for removal' of loosened spatter. 'The additional anti-spatter detergents or the like as mentioned above may be introduced anywhere in the coolant media flowpath if desired. Cleaning box 27 may further be provided with a vacuum line 35 for removal of used coolant media and associated spatter.
Alternatively, another embodiment of the present invention need not include the clamp assembly 25 as indicated by phantom line 37, leaving the-cleaning box 27 largely open at the top: The cleaning box 2? may then be emptied of coolant media and spatter by pivoting it downward about a hinge:39. In such case the vacuum Line 35 may not be required.
Fig. 3 illustrates a schematic interior view of the cleaning box 27 of the present invention with a coolant medium 41 being applied to the nozzle assembly 13. The nozzle assembly 13 is placed in the cleaning box 27 with the welding tip 17 facing the coolant supply line 33. Once the nozzle assembly 13 is in place in the cleaning box 27 adjacent the outlet 43 of the coolant supply line 33the coolant medium 41 is applied to the area occupied by the nozzle assembly 13 to effect the temperature shock which will loosen and remove the spatter from all parts of the nozzle assembly 13. Blow-out air may then be introduced through the coolant supply line 33 or an additional line (not shown). Referring again to Fig. 2; the nozzle assembly 13 may further be in communication with a source of pressurized fluid, such as air or the like, provided through the nozzle assembly 13 such as by an additional air feed line 20 attached to the torch 11.
Having thus described a system including methods and apparatus for effecting a cleaning of weld spatter from a welding torch by means of cold temperature, it will be 3.
appreciated that many variations thereon will occur to the artisan upon an understanding of the present invention, which is therefore not to be limited to the described embodiments.
CLEANING BY MEANS OF COLD TEMPERATURE
FIELD OF THE INVENTION
The present invention relates to means and methods for cleaning welding torches.
SUMMARY OF THE INVENTION
The purpose of the cleaning system of the present invention is for cleaning of weld spatter over the entire area inside arid outside of the nozzle assembly of a welding torch including the weld tip and gas diffusers: The system is suitable for welding guns used with special purpose welding machines; robotic welding systems and manual welding units.
During the cleaning cycle; the welding gun is positioned proximal to the cleaning unit and subjected to a cooling medium sufficient to cause thermal shock effective to loosen orseparate the spatterfrom the nozzle assembly. This may be accomplished in one embodiment by the-application of dry ice pellets to the nozzle assembly.
Mechanical loosening may also be affected by this process. Advantageously, the cleaning effects a cooling of the nozzle assembly which aids in efficient welding operations.
Further the cleaning gives little mechanical or abrasive strain to the nozzle assembly thus promoting longer life and economical cleaning of the nozzle assembly.
The cleaning unit may be a box and clamp assembly constructed to hold the nozzle assembly and- contain the cooling medium: The box may be pneumatically or hydraulically operated to provide the delivery of the cooling medium under pressure. The loosened weld spatter may be subjected to fluid pressure, e:g. high pressure air, forced through the nozzle assembly from an air line attached to the torch and a second air stream directed forwardly to the torch assembly from the box to further remove the loosened weld spatter from the nozzle assembly area. The box may ~so be connected to a vacuum line to aid in the removal of debris or residual cleaning media; or both.
Additionally an anti-spatter compound such as known detergents or the like may be added to the coolant medium; or separately applied, to further clean and protect the nozzle assembly if desired l BRIEF DESCRIPTION OF THE DRAWINGS
Fig. l illustrates a known welding torch nozzle assembly.
Fig. 2 illustrates a cleaning station and alternative nozzle assembly according to the present invention.
Fig. 3 illustrates a cut-away side view of the cleaning station with a welding torch nozzle assembly therein.
DETAILED DESCRIPTION
Fig. 1 shows a cutaway view of a known MIGLMag welding torch 11 familiar to those in the art, which may be cleaned by using the ystem of the present invention. The torch includes a nozzle assembly i 3 having a nozzle l S; a weld tip 17, and gas diffusers 19.
Modification of the torch according to the present invention may include additional tubing (Fig. 2) affixed to the rear end 2i of the torch 11 which provides a fluid under pressure to help clean the nozzle assembly l3 as further explained below.
Fig. 2 illustrates a cleaning station 23 of the present invention: In an 15 automated embodiment of the present invention, insertion of the nozzle assembly 13 into the cleaning station 23 will initiate the cleaning cycle by ecuring the nozzle 15 and initiating cooling by objecting the warm nozzle assembly 13 to a pressure,spray of coolant medium in and around the nozzle 15. Details of automating the apparatus and assembly, such as sensing and control apparatus and fluid routing, have been omitted for clarity of explanation 20 and are considered with the ordinary skilLof the art. With the application ofthe coolant medium, the resulting temperature shock effected on the surfaces of the nozzle assembly 13 aids in separating spatter from the nozzle assembly 13 without damage to the nozzle assembly surfaces.
The cleaning station 23, according to one embodiment of the invention comprises a pneumatic clamp assembly 25 such as known in the art for securing the nozzle assembly 13, a cleaning box 27 open to the clamp assembly 25, and a coolant delivery box 29 for supplying the coolant medium, if necessary or desired. The cleaning box 27 and pneumatic clamp assembly 25 may share an air supply 31. The air supply 31 may provide pneumatic force necessary to operate the pneumatic clamp assembly 25 through a first line 32 and may provide air as a pressurized cleaning or drying fluid to the cleaning box 27. The coolant delivery box 29 may be provided for accepting and routing pelletized cleaning medium such as dry ice pellets, granules or the like, as indicated by the coolant supply line 33 labeled "C02", into the cleaning box 27. It will be appreciated that other coolant media may be used which are suitable to the task wi#hin the spirit of the present invention, such as a liquid nitrogen source, super-chilled air, etcThe cleaning media will preferably not leave a residue or source of free oxygen an the nozzle assembly 13 which might interfere with subsequent welding operations. Dry ice pellets or other solids may have an additional advantage of providing some mechanical action for removal' of loosened spatter. 'The additional anti-spatter detergents or the like as mentioned above may be introduced anywhere in the coolant media flowpath if desired. Cleaning box 27 may further be provided with a vacuum line 35 for removal of used coolant media and associated spatter.
Alternatively, another embodiment of the present invention need not include the clamp assembly 25 as indicated by phantom line 37, leaving the-cleaning box 27 largely open at the top: The cleaning box 2? may then be emptied of coolant media and spatter by pivoting it downward about a hinge:39. In such case the vacuum Line 35 may not be required.
Fig. 3 illustrates a schematic interior view of the cleaning box 27 of the present invention with a coolant medium 41 being applied to the nozzle assembly 13. The nozzle assembly 13 is placed in the cleaning box 27 with the welding tip 17 facing the coolant supply line 33. Once the nozzle assembly 13 is in place in the cleaning box 27 adjacent the outlet 43 of the coolant supply line 33the coolant medium 41 is applied to the area occupied by the nozzle assembly 13 to effect the temperature shock which will loosen and remove the spatter from all parts of the nozzle assembly 13. Blow-out air may then be introduced through the coolant supply line 33 or an additional line (not shown). Referring again to Fig. 2; the nozzle assembly 13 may further be in communication with a source of pressurized fluid, such as air or the like, provided through the nozzle assembly 13 such as by an additional air feed line 20 attached to the torch 11.
Having thus described a system including methods and apparatus for effecting a cleaning of weld spatter from a welding torch by means of cold temperature, it will be 3.
appreciated that many variations thereon will occur to the artisan upon an understanding of the present invention, which is therefore not to be limited to the described embodiments.
Claims (21)
1. A cleaning system for a welding torch, comprising:
means for subjecting the welding torch to a cooling sufficient to cause a temperature shock sufficient to loosen weld spatter from the welding torch.
means for subjecting the welding torch to a cooling sufficient to cause a temperature shock sufficient to loosen weld spatter from the welding torch.
2. The cleaning system of Claim 1 wherein the means for subjecting includes means for subjecting a weld tip, nozzle and gas diffusers of the welding torch to said cooling.
3. The cleaning system of Claim 1 further including means for carrying away loosened weld spatter.
4. The cleaning system of Claim 3 wherein the means for carrying away further includes at least one of a positive and a negative fluid pressure.
5. The cleaning system of Claim 1 wherein the means for subjecting further includes means for subjecting the welding torch to a pressurized flow of a pelletized cleaning medium.
6. The cleaning system of Claim 5 wherein the pelletized cleaning medium includes dry ice pellets.
7. The cleaning system of Claim 1 further including means for cleansing the torch with an anti-spatter compound.
8. The cleaning system of Claim 7 further including means for applying the anti-spatter compound by mixture with a coolant medium.
9. The cleaning system of Claim 1 further including a cleaning station for automatically securing the nozzle and initiating a pressure spray of coolant medium in and around the nozzle.
10. The cleaning system of Claim 9 wherein the cleaning station further comprises a pneumatic clamp assembly for securing the nozzle assembly.
11. The cleaning system of Claim 10 wherein the cleaning station further comprises a cleaning box open to the clamp assembly.
12. The cleaning system of Claim 9 wherein the cleaning station further comprises a coolant delivery box for supplying the coolant medium.
13. The cleaning system of claim 9 wherein the cleaning station further comprises an air supply to provide at least one of a pneumatic force for operating a pneumatic clamp assembly and a pneumatic force for providing air as a pressurized cleaning or drying fluid for the welding torch.
14. The cleaning system of Claim 1 further comprising a fluid supply line attached to the welding torch to provide a fluid force for providing a pressurized cleaning or drying fluid to the welding torch.
15. A method of cleaning a welding torch comprising: subjecting the welding torch to a cooling sufficient to cause a temperature shock sufficient to loosen weld spatter from the welding torch.
16. The method of cleaning a welding torch of Claim 15 further comprising carrying away loosened weld spatter.
17. The method of cleaning a welding torch of Claim 15 further comprising subjecting the welding torch to a pressurized flow of a pelletized cleaning medium.
18. The method of cleaning a welding torch of Claim 17 further comprising subjecting the welding torch to a pressurized flow of dry ice pellets.
19. The method of cleaning a welding torch of Claim 15 further comprising cleansing the torch with an anti-spatter compound.
20. The method of cleaning a welding torch of Claim 19 further comprising applying the anti-spatter compound by mixture with a coolant medium.
21. The method of cleaning a welding torch of Claim 15 further comprising drying the welding torch with a source of pressurized fluid.
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE20110155.6 | 2001-06-21 | ||
DE20110155 | 2001-06-21 | ||
US30661301P | 2001-07-19 | 2001-07-19 | |
US60/306,613 | 2001-07-19 |
Publications (1)
Publication Number | Publication Date |
---|---|
CA2391149A1 true CA2391149A1 (en) | 2002-12-21 |
Family
ID=26057049
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA 2391149 Abandoned CA2391149A1 (en) | 2001-06-21 | 2002-06-21 | A cleaning system for welding torches which effects cleaning by means of cold temperature |
Country Status (1)
Country | Link |
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CA (1) | CA2391149A1 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114147391A (en) * | 2021-12-01 | 2022-03-08 | 合肥常青机械股份有限公司 | Automobile parts processing welding is with spare part cooling arrangement |
-
2002
- 2002-06-21 CA CA 2391149 patent/CA2391149A1/en not_active Abandoned
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114147391A (en) * | 2021-12-01 | 2022-03-08 | 合肥常青机械股份有限公司 | Automobile parts processing welding is with spare part cooling arrangement |
CN114147391B (en) * | 2021-12-01 | 2023-11-10 | 合肥常青机械股份有限公司 | Spare part cooling arrangement is used in automobile parts processing welding |
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Legal Events
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FZDE | Dead |