IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0560765
(2006-11-16)
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등록번호 |
US-9180544
(2015-11-10)
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발명자
/ 주소 |
- Luck, John A.
- Ferkel, Stephen P.
|
출원인 / 주소 |
|
대리인 / 주소 |
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인용정보 |
피인용 횟수 :
1 인용 특허 :
39 |
초록
▼
A method and apparatus of communicating control signals to a welding power source from a remote location includes a welding system operated by control signals transmitted by a wireless remote control that can be remotely located from the welding power source. A plurality of welding parameters in the
A method and apparatus of communicating control signals to a welding power source from a remote location includes a welding system operated by control signals transmitted by a wireless remote control that can be remotely located from the welding power source. A plurality of welding parameters in the welding system are set and adjusted in response to wireless command signals transmitted to a receiver that is connected to the welding power source via a connection port and is further connected to a controller in the welding power source. In this regard, an operator is able to quickly and efficiently control a welding system from a remote location, with no more cables than are necessary to perform the intended task.
대표청구항
▼
1. A welding-type system comprising: a power source having a controller to regulate welding operation;a welding torch connected to the power source;a wireless remote control configured to remotely transmit a signal for controlling at least one of a plurality of welding parameters in the welding-type
1. A welding-type system comprising: a power source having a controller to regulate welding operation;a welding torch connected to the power source;a wireless remote control configured to remotely transmit a signal for controlling at least one of a plurality of welding parameters in the welding-type system;a wireless receiver connected to the controller remote from the wireless remote control and configured to receive the signal and allow the controller to regulate at least one of the plurality of welding parameters in response thereto; andwherein the wireless receiver is further configured to engage an existing connection port located on an exterior of the power source, the existing connection port configured to engage both a control cable coupled to a wired control device when the wireless receiver is not engaged and the wireless receiver in place of the control cable when the control cable is not engaged. 2. The welding-type system of claim 1 wherein the existing connection port is a 14-pin connector. 3. The welding-type system of claim 1 wherein the plurality of welding parameters includes current, voltage, inductance, and pulse commands. 4. The welding-type system of claim 1 wherein the wireless receiver is operatively connected to the power source and the controller to relay signals therebetween. 5. The welding-type system of claim 1 wherein the wireless remote control communicates with the wireless receiver via one of a radio control (RC), radio frequency (RF), cellular digital packet data, high speed circuit switched data, packet data cellular, general packet radio service, radio transmission technology, Bluetooth, IrDA, multichannel multipoint distribution service, local multipoint distribution service, WiMAX, 802.11 Wi-Fi, infrared, UHF, VHF, and RIM. 6. The welding-type system of claim 1 wherein the wireless remote control is further configured to be one of a handheld control, a footpedal control, and a fingertip control. 7. The welding-type system of claim 1, wherein the existing connection port is configured to engage both the control cable and the wireless receiver via matching male and female connectors. 8. A wireless remote control kit to retrofit a welding-type apparatus comprising: a wireless control configured to transmit a signal to control a plurality of welding parameters in a welding-type apparatus suitable for producing a welding-type power;a wireless receiver remote from the wireless control and configured to receive and relay the signal to the welding-type apparatus; andwherein the wireless receiver is configured to be operatively connected to a controller housed in a power source of the welding-type apparatus by connection to an existing control cable connection port located on an exterior of the power source, the existing control cable connection port being configured to be connected to a control cable coupled to a wired control device when the wireless receiver is not engaged and the wireless receiver in place of the control cable when the control cable is not engaged. 9. The wireless remote control kit to retrofit a welding-type apparatus of claim 8 wherein the existing control cable connection port is a 14-pin connector. 10. The wireless remote control kit to retrofit a welding-type apparatus of claim 7 wherein the wireless control is further configured to be one of a handheld control, a footpedal control, and a fingertip control. 11. The wireless remote control kit to retrofit a welding-type apparatus of claim 7 wherein the plurality of welding parameters includes current, voltage, inductance, and pulse commands. 12. The wireless remote control kit to retrofit a welding-type apparatus of claim 7 wherein the wireless control communicated with the receiver via one of a radio control (RC), radio frequency (RF), cellular digital packet data, high speed circuit switched data, packet data cellular, general packet radio service, radio transmission technology, Bluetooth, IrDA, multichannel multipoint distribution service, local multipoint distribution service, WiMAX, 802.11 Wi-Fi, infrared, UHF, NHF, and RIM. 13. The wireless remote control kit to retrofit a welding-type apparatus of claim 8, wherein the existing control cable connection port is configured to engage both the control cable and the wireless receiver via matching male and female connectors. 14. A method for adapting an existing welding-type system for use with a wireless remote control including the steps of: connecting a wireless receiver to a welding-type power source by way of an existing control cable connection port located on an exterior of the welding-type power source, wherein the existing control cable connection port is configured to be connected to a control cable coupled to a wired control device when the wireless receiver is not engaged and the wireless receiver in place of the control cable when the control cable is not engaged;wirelessly transmitting a signal from the wireless remote control indicative of desired operational parameters of the welding-type system;receiving the signal remotely by way of the wireless receiver; andcontrolling the welding-type system in accordance with data embodied in the received wirelessly transmitted signal. 15. The method of claim 12 wherein the desired operational parameters include at least one of current, voltage, inductance, pulse commands, voltage feedback, current feedback, and output activation. 16. The method of claim 14 wherein the step of wirelessly transmitting the signal further includes the step of wirelessly transmitting the signal via one of a radio control (RC), radio frequency (RF), cellular digital packet data, high speed circuit switched data, packet data cellular, general packet radio service, radio transmission technology, Bluetooth, IrDA, multichannel multipoint distribution service, local multipoint distribution service, WiMAX, 802.11 Wi-Fi, infrared, UHF, VHF, and RIM. 17. The method of claim 14 wherein the step of connecting the wireless receiver to the welding-type power source by way of the existing control cable connection port further includes the step of connecting the wireless receiver via a 14-pin connector. 18. The method of claim 14, wherein the existing control cable connection port is configured to engage both the control cable and the wireless receiver via matching male and female connectors. 19. A wireless remote control kit to retrofit a welding-type apparatus comprising: a wireless receiver configured to receive and relay a signal to the welding-type apparatus to control a plurality of welding parameters in the welding-type apparatus, wherein the wireless receiver is configured to be operatively connected to a controller housed in a power source of the welding-type apparatus by connection to an existing control cable connection port located on an exterior of the power source, the existing control cable connection port being configured to be connected to a control cable coupled to a wired control device when the wireless receiver is not engaged and the wireless receiver in place of the control cable when the control cable is not engaged. 20. The wireless remote control kit to retrofit a welding-type apparatus of claim 19, wherein the existing control cable connection port is a 14-pin connector.
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