US2978569A - Method and apparatus for forming holes in sheet metal - Google Patents
Method and apparatus for forming holes in sheet metal Download PDFInfo
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- US2978569A US2978569A US772536A US77253658A US2978569A US 2978569 A US2978569 A US 2978569A US 772536 A US772536 A US 772536A US 77253658 A US77253658 A US 77253658A US 2978569 A US2978569 A US 2978569A
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- 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
- B23K9/013—Arc cutting, gouging, scarfing or desurfacing
Definitions
- This invention relates to forming holes in sheet metal for insertion of rivets, threaded fasteners, etc.
- the invention provides for forming such holes in a novel manner by the use'of an electric arc to melt a section of the desired hole size in the sheet, ⁇ followed by forceably displacing the molten metal through the sheet with gas under pressure.
- ⁇ Other objects relate to means for establishing the proper length of arc, shielding the heated parts from the atmosphere during maintenance of the arc, and the means for automatically controlling the arc duration and timing of the gaseous blast so as to produce cleanly defined holes in the sheet metal.
- Figure 1 is a generally diagrammatic view of the apparatus shown in relation to the sheet metal work to be pierced.
- Figure 2 is -a circuit diagram of the control unit indicated in Figure l.
- Figure 3 is arstructural View of the gun type housing unit indicated in Figure 1 and shown in position preparatory to forming a hole in the work, parts being broken away and in section.
- Figure 4 is a transverse sectional view of the head of the gun unit, taken substantially along the line 4 4 of Figure 3.
- Figures 5, 6 and 7 are fragmentary views of the head in hole-forming association with the work, parts being broken away and in section to illustrate the stages in the hole forming operation.
- the portable gun unit 2 comprises a generally pistol shaped housing 3 of electrically non-conducting material having a handle 4 and mounting a non-consumable electrode 5 within the main body portion.
- the electrode extends outwardly thereof through a head 6 which forms a concentric chamber 7 and terminates at its forward end with a tubular portion 8 adapted to abut one side of the sheet metal to be pierced.
- the opposite end of the electrode is connected by a lead wire 9 of high current carrying capacity and which preferably extends out of the housing through the handle portion.
- the tubular head portion 8 extends beyond the electrode Sunicient distance to provide for maintaining the necessary gap 10 for an electric arc to be established and maintained between the electrode and the work.
- Inlet passages 11 and 12 extend through the head 6 to the chamber 7 for introduction or yargon and carbon dioxide gases, later herein referred to, and coolant passages 13 and 14 are also provided in the head for introduction and return of coolant via inlet and outlet tubes 15, 16 which likewise extend through the handle and main body portion of the housing 3.
- 17 indicates one of the two hose connections between these coolant tubes and the head 6.
- a normally open control switch 18 with its lead-in terminals 19, 20 extending through the handle, and a finger actuatable push button 21 for closing the switch 18.
- Spring 22 reacts between the push button and the body of switch to effect return of the push button when finger pressure is released.
- FIG. l diagrammatically shows the other units of the hole forming apparatus.
- 22 indicates a source of argon gas under pressure which is connected by conduit means 23 to the head 6 (at inlet 11, Figure 3) of the gun unit 2. Flow of this argon gas to the head is controlled by a normally closed valve 24, openable by a solenoid 25.
- a source of carbon dioxide gas under pressure 26 is connected to the head 6 (at inlet passage 12, Figure 3) by conduit means 27 and flow is controlled by a normally closed valve 28, openable by a solenoid 29.
- Check valves 30 and 31 serve to prevent reverse llow through these conduits from the head.
- the heavy electrical current required for establishing ⁇ and maintaining the arc between the electrode 5 and the sheet metal 1 and the control current therefor may be supplied from a common electricity source.
- the are current is supplied by a suitable arc Welder unit 32 connected in series with the sheet metal 1 and the electrode 5 via circuit lines 33, 34, normally open switch 35 and the electrode lead-in wire 9 to the gun 2.
- a high frequency generator 36 for facilitating initial establishment of the are is shown connected to the welder by leads 37 and 38.
- the control circuit includes the switch 18 ( Figure 3), switch leads 19 and 20, and 110 volt supply lines 39 and 40 which connect with switch leads 19, 20 through a control unit ⁇ 41. Also connectible with the volt supply through the control unit are a contacter coil 42 and the solenoids 25 and 29 for opening the argon and carbon dioxide valves 24, 28, respectively.
- a relay 42 connectible across the lli) volt supply lines 39, 40 by lines 43, 44 when the push button switch 18 is closed.
- the armature of this relay is linked as indicated by broken lines 45, 46 and 46', respectively, to close normally-open switches 47, 48 and 48 when the relay is energized.
- Switch 47 is connected in series with a normally closed switch 49 and the contactor coil 42 by lines 50, 51, 52 and 53 across the ll() volt supply.
- the argon control valve solenoid 2S Connected in parallel with the contactor coil, by lines 52 and 53', is the argon control valve solenoid 2S.
- Switch 48 is connected in series Iwith an arc timer 54 (an electrically activated clock-like device of standard commercial form for actuating switches and the like at the begining and/or end of a pre-set time period) and a normally closed switch 5S across the ilO volt supply by lines 56, 57, 58, 59 and 60.
- Switch 4S' when closed, interconnects lines 43 and 58 to maintain energization of relay 42 pending opening of switch 55.
- Closable by the arc timer 54 when its pre-set time period has elapsed is a normally open switch 61 which is linked to the timer 54 as indicated by broken line 62.
- normally closed switch 49 Linked as indicated by broken line 63 to this switch 61 so as to open when it closes, is the normally closed switch 49.
- Closing of normally open switch 61 connects a CO2 timer 65 (a device like timer 54) across the llOl volt supply via lines 66, 67 and 68.
- a normally open switch 69 and the normally closed switch 55 Respectively closable by the timer 65 at the beginning of its pre-set time period, and openable thereby at the end of such period, are a normally open switch 69 and the normally closed switch 55 which are linked to the timer as indicated by broken lines 70 and 71.
- the normally open'switch 35 in the arc circuit is closable by the armature of the contacter coil which is linked thereto as indicated by the broken line 72.
- this timer After its pre-set time period this timer times out, closing switch 6i and opening switch 49, with the result that the contactor coil 42 is now deenergized (extinguishing the arc) and the C02 timer is started on its pre-set time period.
- Starting of this timer 65 in turn causes immediate closing of switch 69, energizing solenoid 29 to open the CO2 control valve 28 to supply CO2 gas to the gun head 6r.
- switch 69 energizing solenoid 29 to open the CO2 control valve 28 to supply CO2 gas to the gun head 6r.
- timer 65 timing out it reopens normally open switch 69 to shut otf the CO2 gas ilow, and opens normally closed switch 55 to break the control current supply via lines 57, 58, switch 48 and line 43 toA the relay 4Z.
- Figure 5 shows the gun head 6 with its tubular portion 8 in abutment with the sheet metal work 1 when the arc (indicated at 73) is initiated. Simultaneously therewith, argon gas (indicated as at 74) entering the head via the conduit 23 fills the chamber surrounding the electrode 5. Such inert gas shielding of the arc and the heated end of the electrode has the particular advantage of preventing oxidation of the latter. A metallic electrode, such as tungsten, may accordingly be used with its attendant well known advantages in electric arc work.
- Figure 6 shows the parts after cessation of the arc and while the carbon dioxide gas indicated by the arrows 7S is owing at high velocity through the tube 8, displacing the molten metal 76 through the sheet 1.
- Figure 7 shows the parts after completion of the carbon dioxide blast, the nished hole 77 having been formed in the sheet met-al.
- melt, molten, etc. are used herein broadly to include reducing the heated portion of the metal worlopiece from its normal solid state to one in which it is rendered sufficiently soft or plastic that it can be displaced under the force of the carbon dioxide or other blasting gas to be used.
- the method of forming a hole in sheet metal comprising the steps of establishing an electrical arc between one side of the metal and a source of electric current of suii'icient intensity and duration to melt the metal in the immediate vicinity of the arc, simultaneously shielding said arc #from the surrounding atmosphere with a layer of inert gas extending between the metal and the current source, and subsequently directing a column of gas substantially coaxially of said arc and against said molten metal to displace the latter from the remainder of the sheet.
- the method of forming a hole in sheet metal comprising the steps of establishing an electrical arc between one side of the metal and a source of electric current of suicient intensity and duration to melt the metal in the vicinity of the arc, simultaneously directing inert gas toward said side of the metal in a column coaxially of and embracing the arc to shield the arc and molten metal from the surrounding atmosphere, discontinuing said arc and inert gas direction, and then similarly directing a coaxial column of carbon dioxide gas against the molten metal with suicient force to displace it through the sheet.
- Apparatus for forming holes in sheet metal comprising a generally pistol shaped body of electrically nonconductive material including a handle with a fingerY closable normally open switch mounted thereon, an electrode mounted in the body and projecting from the end thereof remote from the handle, a tubular head concentrically spaced about the projecting portion of the electrode and extending beyond the same to space the adjacent end of the electrode a predetermined distance from the work, a
- conduit means each including a normally closed valve connecting said argon and carbon dioxide sources respectively to the interior of said head for flow of said gases therethrough coaxially of the electrode and toward the work, a source of electricity, electrical circuit means including an arc current circuit for connecting said electricity source in series to the electrode and work and a control current circuit connectible in series with said electricity source by said finger closable switch, said arc circuit including a normally open switch, relay means energizable by current flow in said control circuit to simultaneously close said last named switch and open said valve in said argon conduit means, timer means responsive to energization of said relay means a predetermined period of time to simultaneously open said last named switch, close said argon valve and open said valve in said carbon dioxide conduit means.
- Apparatus for forming holes in sheet metal comprising an electrode, an electric current source for establishing an arc between the electrode and sheet metal of suicient intensity to melt a section of the desired hole size in the sheet, a source of gas under suflicient pressure to force the molten metal through the sheet when directed thereagainst, means including selectively openable and closable switch means for electrically connecting said current source in series with the electrode and sheet metal, means defining a chamber extending substantially coaxially of the electrode, said chamber being open at its end adjacent the arc establishing end of the electrode, means for conducting gas from said gas source to said chamber including a chamber inlet, valve means controlling gas flow to said inlet, and means operatively connecting said valve means and switch means effective to open said valve means after a predetermined time in response to closing said switch means.
- Apparatus for forming holes in sheet metal comprising'an electrode, an electric current source for estabf lishing an yarc between the electrode and sheet metal of 5 6 end adjacent the arc establishing end of the electrode, References Cited in the file of this patent means for conducting gas from said gas source to said chamber including a chamber inlet, and a source of inert UNITED STATES PATENTS lgals under pressure, means for conducting said inert gas 2,059,236 HOlSlag NOV- 3, 1936 from its source to the chamber ⁇ for discharge through said 5 2,125,172 KHZCI 11115 26, 193 8y chamber open end to form a shield about the arc, said 2,527,490 Adams 00t- 24, 1950 last means including a valve between said chamber and 2,706,236 Sieplth Apr. 12, 1955 the inert gas source, and means to open and close said 2,751,482 Stepath June 19, 1956 valve simultaneously with closing and opening said switch 2,798,145 Vogel July 2, 1957 means respectively. 10
Description
April 4, 1961 N. P. BORETTI ET AL 2,978,569
METHOD AND APPARATUS FOR FORMING HOLES IN SHEET METAL Filed NOV. 7, 1958 2 Sheets-Sheet 1 2,978,569 METHOD AND APPARATUS FOR FORMING HOLES IN SHEET METAL Filed Nov. 7, 1958 April 4, 1961 N. P. BORETTI ET AL 2 Sheets-Sheet 2 INVENTORJ ATTORNEY United States Patent METHOD AND APPARATUS FOR FORMING HOLES IN SHEET METAL Napoleon l. Boretti and Arthur F. Hessler, Detroit, and
Thomas W. Shearer, Jr., Auburn Heights, Mich., assignors to General Motors Corporation, Detroit, Mich., a corporation of Delaware Filed Nov. 7, 1958, Ser. No. 772,536
6 Claims. (Cl. 219-69) This invention relates to forming holes in sheet metal for insertion of rivets, threaded fasteners, etc.
In conventional sheet metal piercing operations, such as drilling or punching, it is necessary that the adjacent area of the sheet be supported in order that substantial thrust may be applied by the hole forming tool. In many situations, however, it is difficult or impractical to pro- Vide such adequate support for the sheet metal, with the result that'the hole forming must be done at a relatively slow rate or with the sheet metal member removed from other parts associated with it. It is accordingly `among the principal objects of this invention to provide an improved method and apparatus for forming holes in sheet metal which does not require any backing force applied to the Work during the piercing operation.
More specifically, the invention provides for forming such holes in a novel manner by the use'of an electric arc to melt a section of the desired hole size in the sheet, `followed by forceably displacing the molten metal through the sheet with gas under pressure.
`Other objects relate to means for establishing the proper length of arc, shielding the heated parts from the atmosphere during maintenance of the arc, and the means for automatically controlling the arc duration and timing of the gaseous blast so as to produce cleanly defined holes in the sheet metal.
The invention will be more clearly described with reference to the drawings which show a preferred embodiment wherein:
Figure 1 is a generally diagrammatic view of the apparatus shown in relation to the sheet metal work to be pierced.
Figure 2 is -a circuit diagram of the control unit indicated in Figure l.
Figure 3 is arstructural View of the gun type housing unit indicated in Figure 1 and shown in position preparatory to forming a hole in the work, parts being broken away and in section.
Figure 4 is a transverse sectional view of the head of the gun unit, taken substantially along the line 4 4 of Figure 3.
Figures 5, 6 and 7 are fragmentary views of the head in hole-forming association with the work, parts being broken away and in section to illustrate the stages in the hole forming operation.
Referring now to the drawings, and first to Figures 3 and 4, a section of sheet metal to be pierced is indicated at 1, and opposite one side thereof is shown the portable gun unit 2. The latter comprises a generally pistol shaped housing 3 of electrically non-conducting material having a handle 4 and mounting a non-consumable electrode 5 within the main body portion. The electrode extends outwardly thereof through a head 6 which forms a concentric chamber 7 and terminates at its forward end with a tubular portion 8 adapted to abut one side of the sheet metal to be pierced. The opposite end of the electrode is connected by a lead wire 9 of high current carrying capacity and which preferably extends out of the housing through the handle portion. As shown, the tubular head portion 8 extends beyond the electrode Sunicient distance to provide for maintaining the necessary gap 10 for an electric arc to be established and maintained between the electrode and the work. Inlet passages 11 and 12 extend through the head 6 to the chamber 7 for introduction or yargon and carbon dioxide gases, later herein referred to, and coolant passages 13 and 14 are also provided in the head for introduction and return of coolant via inlet and outlet tubes 15, 16 which likewise extend through the handle and main body portion of the housing 3. 17 indicates one of the two hose connections between these coolant tubes and the head 6. Also mounted in the housing is a normally open control switch 18 with its lead-in terminals 19, 20 extending through the handle, and a finger actuatable push button 21 for closing the switch 18. Spring 22 reacts between the push button and the body of switch to effect return of the push button when finger pressure is released.
Figure l diagrammatically shows the other units of the hole forming apparatus. 22 indicates a source of argon gas under pressure which is connected by conduit means 23 to the head 6 (at inlet 11, Figure 3) of the gun unit 2. Flow of this argon gas to the head is controlled by a normally closed valve 24, openable by a solenoid 25. Similarly, a source of carbon dioxide gas under pressure 26 is connected to the head 6 (at inlet passage 12, Figure 3) by conduit means 27 and flow is controlled by a normally closed valve 28, openable by a solenoid 29. Check valves 30 and 31 serve to prevent reverse llow through these conduits from the head. The heavy electrical current required for establishing `and maintaining the arc between the electrode 5 and the sheet metal 1 and the control current therefor may be supplied from a common electricity source. However in the arrangement shown, the are current is supplied by a suitable arc Welder unit 32 connected in series with the sheet metal 1 and the electrode 5 via circuit lines 33, 34, normally open switch 35 and the electrode lead-in wire 9 to the gun 2. A high frequency generator 36 for facilitating initial establishment of the are is shown connected to the welder by leads 37 and 38. The control circuit includes the switch 18 (Figure 3), switch leads 19 and 20, and 110 volt supply lines 39 and 40 which connect with switch leads 19, 20 through a control unit `41. Also connectible with the volt supply through the control unit are a contacter coil 42 and the solenoids 25 and 29 for opening the argon and carbon dioxide valves 24, 28, respectively.
Within the control unit 41, as shown in Figure 2, is a relay 42 connectible across the lli) volt supply lines 39, 40 by lines 43, 44 when the push button switch 18 is closed. The armature of this relay is linked as indicated by broken lines 45, 46 and 46', respectively, to close normally-open switches 47, 48 and 48 when the relay is energized. Switch 47 is connected in series with a normally closed switch 49 and the contactor coil 42 by lines 50, 51, 52 and 53 across the ll() volt supply. Connected in parallel with the contactor coil, by lines 52 and 53', is the argon control valve solenoid 2S. Switch 48 is connected in series Iwith an arc timer 54 (an electrically activated clock-like device of standard commercial form for actuating switches and the like at the begining and/or end of a pre-set time period) and a normally closed switch 5S across the ilO volt supply by lines 56, 57, 58, 59 and 60. Switch 4S', when closed, interconnects lines 43 and 58 to maintain energization of relay 42 pending opening of switch 55. Closable by the arc timer 54 when its pre-set time period has elapsed is a normally open switch 61 which is linked to the timer 54 as indicated by broken line 62. Linked as indicated by broken line 63 to this switch 61 so as to open when it closes, is the normally closed switch 49. Closing of normally open switch 61 connects a CO2 timer 65 (a device like timer 54) across the llOl volt supply via lines 66, 67 and 68. Respectively closable by the timer 65 at the beginning of its pre-set time period, and openable thereby at the end of such period, are a normally open switch 69 and the normally closed switch 55 which are linked to the timer as indicated by broken lines 70 and 71. The normally open'switch 35 in the arc circuit is closable by the armature of the contacter coil which is linked thereto as indicated by the broken line 72.
In operation, closing of the push button switch 18 energizes relay 42 to close normally open switches 47, 48 and 48. Closing of these switches results in energizing solenoid 25 to open the argon control valve 24, closing the arc current switch 35 through the contactor coil 42 to start the arc, and starting the arc timer 54.
After its pre-set time period this timer times out, closing switch 6i and opening switch 49, with the result that the contactor coil 42 is now deenergized (extinguishing the arc) and the C02 timer is started on its pre-set time period. Starting of this timer 65, in turn causes immediate closing of switch 69, energizing solenoid 29 to open the CO2 control valve 28 to supply CO2 gas to the gun head 6r. Finally, upon timer 65 timing out, it reopens normally open switch 69 to shut otf the CO2 gas ilow, and opens normally closed switch 55 to break the control current supply via lines 57, 58, switch 48 and line 43 toA the relay 4Z. 'This deenergizes the relay, reopening switches 47, 48 and 48. Such reopening of switch 4S deactivates the arc timer 54, reopening and reclosing switches 61 yand 49, respectively, deactivating timer 65 to reclose switch 55, thus completing the cycle.
Figure 5 shows the gun head 6 with its tubular portion 8 in abutment with the sheet metal work 1 when the arc (indicated at 73) is initiated. Simultaneously therewith, argon gas (indicated as at 74) entering the head via the conduit 23 fills the chamber surrounding the electrode 5. Such inert gas shielding of the arc and the heated end of the electrode has the particular advantage of preventing oxidation of the latter. A metallic electrode, such as tungsten, may accordingly be used with its attendant well known advantages in electric arc work. Figure 6 shows the parts after cessation of the arc and while the carbon dioxide gas indicated by the arrows 7S is owing at high velocity through the tube 8, displacing the molten metal 76 through the sheet 1. Figure 7 shows the parts after completion of the carbon dioxide blast, the nished hole 77 having been formed in the sheet met-al.
The terms melt, molten, etc., are used herein broadly to include reducing the heated portion of the metal worlopiece from its normal solid state to one in which it is rendered sufficiently soft or plastic that it can be displaced under the force of the carbon dioxide or other blasting gas to be used. In fact, we find superior results in obtaining cleanly defined holes enures from heating the metal to a temperature slightly less than that which would reduce it to the liquid state.
While only a single preferred embodiment of the invention has been disclosed, it is appreciated that numerous minor changes in the construction and arrangement of the parts may be made without departing from the spirit and scope of the invention as hereinafter claimed.
We claim:
l. The method of forming a hole in sheet metal, comprising the steps of establishing an electrical arc between one side of the metal and a source of electric current of suii'icient intensity and duration to melt the metal in the immediate vicinity of the arc, simultaneously shielding said arc #from the surrounding atmosphere with a layer of inert gas extending between the metal and the current source, and subsequently directing a column of gas substantially coaxially of said arc and against said molten metal to displace the latter from the remainder of the sheet.
2. The method of claim l, wherein said arc is extinguished prior to directing said column of gas against the molten metal. v l
3. The method of forming a hole in sheet metal, comprising the steps of establishing an electrical arc between one side of the metal and a source of electric current of suicient intensity and duration to melt the metal in the vicinity of the arc, simultaneously directing inert gas toward said side of the metal in a column coaxially of and embracing the arc to shield the arc and molten metal from the surrounding atmosphere, discontinuing said arc and inert gas direction, and then similarly directing a coaxial column of carbon dioxide gas against the molten metal with suicient force to displace it through the sheet.
4. Apparatus for forming holes in sheet metal, comprising a generally pistol shaped body of electrically nonconductive material including a handle with a fingerY closable normally open switch mounted thereon, an electrode mounted in the body and projecting from the end thereof remote from the handle, a tubular head concentrically spaced about the projecting portion of the electrode and extending beyond the same to space the adjacent end of the electrode a predetermined distance from the work, a
source of argon gas under pressure externally o'f the body,
y a source of carbon dioxide gas under pressure externally of the body, conduit means each including a normally closed valve connecting said argon and carbon dioxide sources respectively to the interior of said head for flow of said gases therethrough coaxially of the electrode and toward the work, a source of electricity, electrical circuit means including an arc current circuit for connecting said electricity source in series to the electrode and work and a control current circuit connectible in series with said electricity source by said finger closable switch, said arc circuit including a normally open switch, relay means energizable by current flow in said control circuit to simultaneously close said last named switch and open said valve in said argon conduit means, timer means responsive to energization of said relay means a predetermined period of time to simultaneously open said last named switch, close said argon valve and open said valve in said carbon dioxide conduit means.`
5. Apparatus for forming holes in sheet metal, comprising an electrode, an electric current source for establishing an arc between the electrode and sheet metal of suicient intensity to melt a section of the desired hole size in the sheet, a source of gas under suflicient pressure to force the molten metal through the sheet when directed thereagainst, means including selectively openable and closable switch means for electrically connecting said current source in series with the electrode and sheet metal, means defining a chamber extending substantially coaxially of the electrode, said chamber being open at its end adjacent the arc establishing end of the electrode, means for conducting gas from said gas source to said chamber including a chamber inlet, valve means controlling gas flow to said inlet, and means operatively connecting said valve means and switch means effective to open said valve means after a predetermined time in response to closing said switch means. Y
6. Apparatus for forming holes in sheet metal, comprising'an electrode, an electric current source for estabf lishing an yarc between the electrode and sheet metal of 5 6 end adjacent the arc establishing end of the electrode, References Cited in the file of this patent means for conducting gas from said gas source to said chamber including a chamber inlet, and a source of inert UNITED STATES PATENTS lgals under pressure, means for conducting said inert gas 2,059,236 HOlSlag NOV- 3, 1936 from its source to the chamber `for discharge through said 5 2,125,172 KHZCI 11115 26, 193 8y chamber open end to form a shield about the arc, said 2,527,490 Adams 00t- 24, 1950 last means including a valve between said chamber and 2,706,236 Sieplth Apr. 12, 1955 the inert gas source, and means to open and close said 2,751,482 Stepath June 19, 1956 valve simultaneously with closing and opening said switch 2,798,145 Vogel July 2, 1957 means respectively. 10 2,852,658 Keiter Sept. 16, 1958
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US772536A US2978569A (en) | 1958-11-07 | 1958-11-07 | Method and apparatus for forming holes in sheet metal |
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US772536A US2978569A (en) | 1958-11-07 | 1958-11-07 | Method and apparatus for forming holes in sheet metal |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3371190A (en) * | 1964-07-24 | 1968-02-27 | Meyer Edgar | Apparatus and method for perforating sheet plastic by means of an electron beam |
US4508950A (en) * | 1982-03-25 | 1985-04-02 | Inoue-Japax Research Incorporated | EDM Method and apparatus using liquid hydrocarbon decomposition yielded gases and a deionized water liquid |
US5618449A (en) * | 1995-03-29 | 1997-04-08 | A. Clifford Losee | Compact portable hand-held EDM tool |
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US2059236A (en) * | 1932-08-13 | 1936-11-03 | Electric Arc Cutting & Welding | Method of machining by electric current |
US2125172A (en) * | 1932-07-29 | 1938-07-26 | Union Carbide & Carbon Corp | Process of treating the defective surface metal of billets or the like |
US2527490A (en) * | 1949-01-31 | 1950-10-24 | Kwik Arc Inc | Method of removing portions of metal bodies |
US2706236A (en) * | 1953-11-27 | 1955-04-12 | Arcair Co | Cutting and gouging electrode holder and method |
US2751482A (en) * | 1952-05-10 | 1956-06-19 | Stepath Myron Davis | Cutting and gouging torches and electrodes therefor |
US2798145A (en) * | 1955-02-03 | 1957-07-02 | Liquid Carbonic Corp | Arc welding torch with adjusting means for non-depositing electrode |
US2852658A (en) * | 1956-01-24 | 1958-09-16 | Keiter Webster Franklin | Electron-air-metal disintegrator |
-
1958
- 1958-11-07 US US772536A patent/US2978569A/en not_active Expired - Lifetime
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2125172A (en) * | 1932-07-29 | 1938-07-26 | Union Carbide & Carbon Corp | Process of treating the defective surface metal of billets or the like |
US2059236A (en) * | 1932-08-13 | 1936-11-03 | Electric Arc Cutting & Welding | Method of machining by electric current |
US2527490A (en) * | 1949-01-31 | 1950-10-24 | Kwik Arc Inc | Method of removing portions of metal bodies |
US2751482A (en) * | 1952-05-10 | 1956-06-19 | Stepath Myron Davis | Cutting and gouging torches and electrodes therefor |
US2706236A (en) * | 1953-11-27 | 1955-04-12 | Arcair Co | Cutting and gouging electrode holder and method |
US2798145A (en) * | 1955-02-03 | 1957-07-02 | Liquid Carbonic Corp | Arc welding torch with adjusting means for non-depositing electrode |
US2852658A (en) * | 1956-01-24 | 1958-09-16 | Keiter Webster Franklin | Electron-air-metal disintegrator |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3371190A (en) * | 1964-07-24 | 1968-02-27 | Meyer Edgar | Apparatus and method for perforating sheet plastic by means of an electron beam |
US4508950A (en) * | 1982-03-25 | 1985-04-02 | Inoue-Japax Research Incorporated | EDM Method and apparatus using liquid hydrocarbon decomposition yielded gases and a deionized water liquid |
US5618449A (en) * | 1995-03-29 | 1997-04-08 | A. Clifford Losee | Compact portable hand-held EDM tool |
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