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公开(公告)号:US09604302B2
公开(公告)日:2017-03-28
申请号:US15010985
申请日:2016-01-29
Applicant: ILLINOIS TOOL WORKS INC.
Inventor: Randall J. DuVal , Daniel C. Fosbinder , Nathan J. Jochman , Christopher J. Wierschke , John C. Leisner
CPC classification number: B23K9/1006 , B23K9/095 , B23K9/32
Abstract: An engine-driven welder generator is controlled based upon power draw for welding and other applications. Once a welding arc is initiated, the power draw is monitored. The engine speed, and therefore the power output of the generator, may be increased or maintained based upon the power draw. The power draw may include both welding power draw and auxiliary power draw. The engine speed is increased in increments. The initial engine speed and subsequent increments may depend upon particular welding processes or regimes.
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公开(公告)号:US09266183B2
公开(公告)日:2016-02-23
申请号:US13910061
申请日:2013-06-04
Applicant: Illinois Tool Works Inc.
Inventor: Randall J. DuVal , Daniel C. Fosbinder , Nathan J. Jochman , Christopher J. Wierschke , John C. Leisner
CPC classification number: B23K9/1006 , B23K9/095 , B23K9/32
Abstract: An engine-driven welder generator is controlled based upon power draw for welding and other applications. Once a welding arc is initiated, the power draw is monitored. The engine speed, and therefore the power output of the generator, may be increased or maintained based upon the power draw. The power draw may include both welding power draw and auxiliary power draw. The engine speed is increased in increments. The initial engine speed and subsequent increments may depend upon particular welding processes or regimes.
Abstract translation: 发动机驱动的焊机发电机基于焊接和其他应用的牵引力来控制。 一旦开始焊接电弧,就监视功率消耗。 发动机转速,因此发电机的功率输出可以基于功率消耗而增加或维持。 功率消耗可以包括焊接功率消耗和辅助功率消耗两者。 发动机转速增加。 初始发动机转速和随后的增量可能取决于特定的焊接过程或制度。
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公开(公告)号:US20160151851A1
公开(公告)日:2016-06-02
申请号:US15010985
申请日:2016-01-29
Applicant: ILLINOIS TOOL WORKS INC.
Inventor: Randall J. DuVal , Daniel C. Fosbinder , Nathan J. Jochman , Christopher J. Wierschke , John C. Leisner
CPC classification number: B23K9/1006 , B23K9/095 , B23K9/32
Abstract: An engine-driven welder generator is controlled based upon power draw for welding and other applications. Once a welding arc is initiated, the power draw is monitored. The engine speed, and therefore the power output of the generator, may be increased or maintained based upon the power draw. The power draw may include both welding power draw and auxiliary power draw. The engine speed is increased in increments. The initial engine speed and subsequent increments may depend upon particular welding processes or regimes.
Abstract translation: 发动机驱动的焊机发电机基于焊接和其他应用的牵引力来控制。 一旦开始焊接电弧,就监视功率消耗。 发动机转速,因此发电机的功率输出可以基于功率消耗而增加或维持。 功率消耗可以包括焊接功率消耗和辅助功率消耗两者。 发动机转速增加。 初始发动机转速和随后的增量可能取决于特定的焊接过程或制度。
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公开(公告)号:US20140027428A1
公开(公告)日:2014-01-30
申请号:US13910061
申请日:2013-06-04
Applicant: Illinois Tool Works Inc
Inventor: Randall J. DuVal , Daniel C. Fosbinder , Nathan J. Jochman , Christopher J. Wierschke , John C. Leisner
IPC: B23K9/10
CPC classification number: B23K9/1006 , B23K9/095 , B23K9/32
Abstract: An engine-driven welder generator is controlled based upon power draw for welding and other applications. Once a welding arc is initiated, the power draw is monitored. The engine speed, and therefore the power output of the generator, may be increased or maintained based upon the power draw. The power draw may include both welding power draw and auxiliary power draw. The engine speed is increased in increments. The initial engine speed and subsequent increments may depend upon particular welding processes or regimes.
Abstract translation: 发动机驱动的焊机发电机基于焊接和其他应用的牵引力来控制。 一旦开始焊接电弧,就监视功率消耗。 发动机转速,因此发电机的功率输出可以基于功率消耗而增加或维持。 功率消耗可以包括焊接功率消耗和辅助功率消耗两者。 发动机转速增加。 初始发动机转速和随后的增量可能取决于特定的焊接过程或制度。
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