| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 手持式工具机开关装置 | CN200780047689.1 | 2007-10-24 | CN101568412A | 2009-10-28 | M·霍费尔; H·凯泽; T·曲米 |
| 本发明涉及一种手持式工具机开关装置,尤其用于锯割用的手持式工具机(12),具有一第一操作元件(14),该第一操作元件具有至少一个用于开关手持式工具机(12)的转换功能。提出,该手持式工具机开关装置具有至少一个另外的操作元件(16),该另外的操作元件至少具有第一操作元件(14)的用于开关该手持式工具机(12)的转换功能。 | ||||||
| 2 | 发动机驱动式作业机用控制装置 | CN200410086782.1 | 2004-10-29 | CN1611768A | 2005-05-04 | 饭田道博; 上村健二 |
| 一种发动机驱动式作业机用控制装置。遥控操作装置(9)的起动开关(90)与发电机主体侧的起动开关可以并行操作,遥控操作装置(9)的停止开关(91)与发电机主体侧的停止开关可以并行操作。停止开关(91)和油位开关(26)并联连接。在发电机主体侧的组合开关(12)处于接通位置的状态下,可以分别操作遥控操作装置(9)的起动开关(90)和停止开关(91)。通过与遥控操作并行操作主体侧的开关,可以进行发动机(2)的起动和停止。由此可提高具有遥控操作装置的发动机驱动式发电机的操作性。 | ||||||
| 3 | 包括固定紧急停止按钮和移动紧急停止按钮的控制系统 | CN201380067593.7 | 2013-11-18 | CN104871276B | 2017-10-24 | T.梅塔; F.查维特; D.本尼 |
| 本发明涉及一种控制系统,包括:固定的控制台(1,10,100)和安置在所述控制台上第一紧急停止按钮(AUF),包括移动支撑件(2,20,200)的移动控制单元布置在所述移动支撑件上的第二紧急停止按钮(AUM),所述控制台包括至少一个空腔(4,40,400),所述移动支撑件(2,20,200)可呈现第一位置,其中所述第二紧急停止按钮(AUM)位于所述空腔(4,40,400)内从而从使用者的视角隐藏,以及,可呈现第二位置,其中,所述第二紧急停止按钮(AUM)在所述空腔以外。 | ||||||
| 4 | 包括固定紧急停止按钮和移动紧急停止按钮的控制系统 | CN201380067593.7 | 2013-11-18 | CN104871276A | 2015-08-26 | T.梅塔; F.查维特; D.本尼 |
| 本发明涉及一种控制系统,包括:固定的控制台(1,10,100,1000)和安置在所述控制台上第一紧急停止按钮(AUF),包括移动支撑件(2,20,200,2000)的移动控制单元布置在所述移动支撑件上的第二紧急停止按钮(AUM),所述控制台包括至少一个空腔(4,40,400,4000),所述移动支撑件(2,20,200,2000)可呈现第一位置,其中所述第二紧急停止按钮(AUM)位于所述空腔(4,40,400)内从而从使用者的视角隐藏,以及,可呈现第二位置,其中,所述第二紧急停止按钮(AUM)在所述空腔以外。 | ||||||
| 5 | 手持式工具机开关装置 | CN200780047689.1 | 2007-10-24 | CN101568412B | 2012-11-28 | M·霍费尔; H·凯泽; T·曲米 |
| 本发明涉及一种手持式工具机开关装置,尤其用于锯割用的手持式工具机(12),具有一第一操作元件(14),该第一操作元件具有至少一个用于开关手持式工具机(12)的转换功能。提出,该手持式工具机开关装置具有至少一个另外的操作元件(16),该另外的操作元件至少具有第一操作元件(14)的用于开关该手持式工具机(12)的转换功能。 | ||||||
| 6 | 发动机驱动式作业机用控制装置 | CN200410086782.1 | 2004-10-29 | CN1611768B | 2010-05-05 | 饭田道博; 上村健二 |
| 一种发动机驱动式作业机用控制装置。遥控操作装置(9)的起动开关(90)与发电机主体侧的起动开关可以并行操作,遥控操作装置(9)的停止开关(91)与发电机主体侧的停止开关可以并行操作。停止开关(91)和油位开关(26)并联连接。在发电机主体侧的组合开关(12)处于接通位置的状态下,可以分别操作遥控操作装置(9)的起动开关(90)和停止开关(91)。通过与遥控操作并行操作主体侧的开关,可以进行发动机(2)的起动和停止。由此可提高具有遥控操作装置的发动机驱动式发电机的操作性。 | ||||||
| 7 | Control system including a stationary emergency stop button and a mobile emergency stop button | US14650419 | 2013-11-18 | US09750143B2 | 2017-08-29 | Tewfik Meftah; Francis Chauvet; Dominique Benni |
| A control system including: a stationary control console and a first emergency stop button positioned on the control console, a mobile control unit including a mobile holder and a second emergency stop button arranged on the mobile holder, the control console including at least one cavity, the mobile holder configured to assume a first position in which the second emergency stop button is located inside the cavity to be hidden from a view of a user, and a second position in which the second emergency stop button is outside the cavity. | ||||||
| 8 | SWITCH ASSEMBLY AND HAND-HELD DEVICE | US14937885 | 2015-11-11 | US20170133175A1 | 2017-05-11 | Yu-Yu Lin; Hung-Chi Shui; Jen-Tsung Chang |
| A switch assembly is adapted to be disposed in a holding portion of a hand-held device. The switch assembly includes first and second keys, first and second connecting portions, a switch element and a plunger. The first and second keys are exposed on the surface of the holding portion and respectively disposed on the opposite sides thereof. The first and second connecting portions respectively connect the first and second keys and the holding portion. The first and second connecting portions are disposed for allowing the first key having a displacement toward the second key along their connecting direction. The switch element is located inside of the holding portion, and the first key has a first backside toward the second key. The second key has a second backside toward the first key. The plunger is adapted to press and activate the switch element through the displacement. | ||||||
| 9 | Controller having reduced control key set and method for operating same in a learning, macro, or cloning mode | US12417084 | 2009-04-02 | US08086759B2 | 2011-12-27 | Paul Anson Brown; Aaron Daniel Thieme |
| In some embodiments, a wall-mountable, configurable controller having control keys (e.g., less than eight keys or another small number of keys), a subassembly including circuitry, and a control key insert removably mountable to the subassembly and including at least one of the control keys. The circuitry can include a limit switch that is biased in a default state but moveable into a learning state in response to user-exerted force. In some embodiments, the controller includes an IR emitter and an IR receiver and is operable to clone another device by sending configuring radiation from the emitter to the other device's IR receiver. Preferably, the emitter and receiver are positioned so that a controller's IR emitter aligns with the IR receiver of an identical controller when the controllers are positioned face to face. In some embodiments, the controller provides audible and visual feedback to users when operating in a learning mode. | ||||||
| 10 | Controller Having Reduced Control Key Set and Method for Operating Same in a Learning, Macro, or Cloning Mode | US12417084 | 2009-04-02 | US20090195406A1 | 2009-08-06 | Paul Anson Brown; Aaron Daniel Thieme |
| In some embodiments, a wall-mountable, configurable controller having control keys (e.g., less than eight keys or another small number of keys), a subassembly including circuitry, and a control key insert removably mountable to the subassembly and including at least one of the control keys. The circuitry can include a limit switch that is biased in a default state but moveable into a learning state in response to user-exerted force. In some embodiments, the controller includes an IR emitter and an IR receiver and is operable to clone another device by sending configuring radiation from the emitter to the other device's IR receiver. Preferably, the emitter and receiver are positioned so that a controller's IR emitter aligns with the IR receiver of an identical controller when the controllers are positioned face to face. In some embodiments, the controller provides audible and visual feedback to users when operating in a learning mode. | ||||||
| 11 | Controller Having Reduced Control Key Set and Method for Operating Same in a Learning, Macro, or Cloning Mode | US12417078 | 2009-04-02 | US20090195405A1 | 2009-08-06 | Paul Anson Brown; Aaron Daniel Thieme |
| In some embodiments, a wall-mountable, configurable controller having control keys (e.g., less than eight keys or another small number of keys), a subassembly including circuitry, and a control key insert removably mountable to the subassembly and including at least one of the control keys. The circuitry can include a limit switch that is biased in a default state but moveable into a learning state in response to user-exerted force. In some embodiments, the controller includes an IR emitter and an IR receiver and is operable to clone another device by sending configuring radiation from the emitter to the other device's IR receiver. Preferably, the emitter and receiver are positioned so that a controller's IR emitter aligns with the IR receiver of an identical controller when the controllers are positioned face to face. In some embodiments, the controller provides audible and visual feedback to users when operating in a learning mode. | ||||||
| 12 | Control apparatus of engine operated machine | US10973445 | 2004-10-27 | US07204221B2 | 2007-04-17 | Michihiro Iida; Kenji Kamimura |
| It is an object of the invention to provide the operability of an engine power generator having a remote controller. A starting switch 90 of a remote controller 9 and a starting switch on a power generator body's side can be operated in parallel. A stopping switch 91 of the remote controller 9 and a stopping switch on the body's side can be operated in parallel. The stopping switch 91 and an oil level switch 26 are connected to each other in parallel. The starting switch 90 and the stopping switch 91 can be operated when a combination switch 12 is in ON position. An engine 2 can be started and stopped by switching operation on the body's side in parallel to remote control operation. | ||||||
| 13 | Controller having reduced control key set and method for operating same in a learning, macro, or cloning mode | US11146393 | 2005-06-06 | US20050269196A1 | 2005-12-08 | Paul Brown; Aaron Thieme |
| In some embodiments, a wall-mountable, configurable controller having control keys (e.g., less than eight keys or another small number of keys), a subassembly including circuitry, and a control key insert removably mountable to the subassembly and including at least one of the control keys. The circuitry can include a limit switch that is biased in a default state but moveable into a learning state in response to user-exerted force. In some embodiments, the controller includes an IR emitter and an IR receiver and is operable to clone another device by sending configuring radiation from the emitter to the other device's IR receiver. Preferably, the emitter and receiver are positioned so that a controller's IR emitter aligns with the IR receiver of an identical controller when the controllers are positioned face to face. In some embodiments, the controller provides audible and visual feedback to users when operating in a learning mode. | ||||||
| 14 | Light Switch Adapter | US15962958 | 2018-04-25 | US20180315562A1 | 2018-11-01 | Keith Kentigern Fenrich |
| A light switch adapter for actuating a light switch having a switch actuator movable between on and off positions includes an adapter stationary member removably mountable in fixed relation to the light switch, an adapter actuator movably attached to the adapter stationary member for moving relative to the adapter stationary member between on and off positions, and a pair of cords that engage the adapter actuator. The adapter actuator is responsive to pressure applied to its surfaces, and to increased tension in the cords to move to its off and on positions. The adapter actuator engages the switch actuator to urge the switch actuator to its off and on positions as the adapter actuator moves to its off and on positions. An adaptive interface member facilitates the application of increased tension to the cords. A computer system allows for monitoring use of the light switch adapter. | ||||||
| 15 | Controller having reduced control key set and method for operating same in a learning, macro, or cloning mode | US11146393 | 2005-06-06 | US07515062B2 | 2009-04-07 | Paul Anson Brown; Aaron Daniel Thieme |
| In some embodiments, a wall-mountable, configurable controller having control keys (e.g., less than eight keys or another small number of keys), a subassembly including circuitry, and a control key insert removably mountable to the subassembly and including at least one of the control keys. The circuitry can include a limit switch that is biased in a default state but moveable into a learning state in response to user-exerted force. In some embodiments, the controller includes an IR emitter and an IR receiver and is operable to clone another device by sending configuring radiation from the emitter to the other device's IR receiver. Preferably, the emitter and receiver are positioned so that a controller's IR emitter aligns with the IR receiver of an identical controller when the controllers are positioned face to face. In some embodiments, the controller provides audible and visual feedback to users when operating in a learning mode. | ||||||
| 16 | Programmable controller having reduced control key set | US10859851 | 2004-06-03 | US20060028236A1 | 2006-02-09 | Paul Brown; Aaron Thieme |
| In some embodiments, a wall-mountable, programmable controller having control keys (e.g., less than eight keys or another small number of keys), a subassembly including circuitry, and a control key insert removably mountable to the subassembly and including at least one of the control keys. The controller can have first and second key sets in distinct regions of the controller's surface and programmable switches that are actuatable by pressing control keys in the key sets. At least one switch actuatable by pressing a key of the first key set is programmed to perform a control operation of a first type (e.g., a power control operation), at least one switch actuatable by pressing a key of the second key set is programmed to perform a control operation of a second type (e.g., a source selection operation), no switch actuatable by pressing a key of the first key set is programmed to perform a control operation of the second type, and no switch actuatable by pressing a key of the second key set is programmed to perform a control operation of the first type. In some embodiments, the controller is configured to control a projector. | ||||||
| 17 | Control apparatus of engine operated machine | US10973445 | 2004-10-27 | US20050093369A1 | 2005-05-05 | Michihiro Iida; Kenji Kamimura |
| It is an object of the invention to provide the operability of an engine power generator having a remote controller. A starting switch 90 of a remote controller 9 and a starting switch on a power generator body's side can be operated in parallel. A stopping switch 91 of the remote controller 9 and a stopping switch on the body's side can be operated in parallel. The stopping switch 91 and an oil level switch 26 are connected to each other in parallel. The starting switch 90 and the stopping switch 91 can be operated when a combination switch 12 is in ON position. An engine 2 can be started and stopped by switching operation on the body's side in parallel to remote control operation. | ||||||
| 18 | Electronic device | US10026829 | 2001-12-27 | US20020079745A1 | 2002-06-27 | Hideshi Ishiyama; Kazuo Yabe |
| An electronic device does not carry out control operation corresponding to a signal from an operation button which is kept in pressed state when electric power is supplied. When electric power is supplied, the voltage changing depending on open and closed state of switches SW1 to SW4 corresponding to operation buttons to be manipulated is judged to be a specified value or not. When the voltage is not judged to be specified value, the control unit does not carry out control operation corresponding to the signal from the operation button that has been in pressed state. | ||||||
| 19 | Home entertainment device remote control | US09524299 | 2000-03-14 | US06396523B1 | 2002-05-28 | Jack A. Segal; William Allen Yates; Steven B. Branton; Jeff Mossontte |
| A remote control for controlling a home entertainment device having a display screen provided with a movable object includes a touch pad. The touch pad is operable with the display screen such that the display screen is mapped to the touch pad area. The touch pad generates a signal in response to an operator touching the touch pad. The signal is indicative of the location of the touch on the touch pad. A controller is operable with the touch pad for receiving a signal from the touch pad in response to an operator touching the touch pad. In response to an operator touching the touch pad the controller moves the movable object on the display screen to the location on the display screen corresponding to the location of the touch on the touch pad. The touch pad also generates a gesture signal in response to a gesture performed on the touch pad. The gesture signal is indicative of the gesture performed on the touch pad. Each gesture performed on the touch pad corresponds to a control function. The controller is operable with the touch pad for receiving a gesture signal from the touch pad in response to an operator performing a gesture on the touch pad. In response to an operator performing a gesture on the touch pad the controller controls the home entertainment device to enable the control function corresponding to the gesture performed on the touch pad. | ||||||
| 20 | Home entertainment device remote control | US09893562 | 2001-06-28 | US20010035860A1 | 2001-11-01 | Jack A. Segal; WiIliam Allen Yates; Steven B. Branton; Jeff Mossontte |
| A remote control for controlling a device having a display screen provided with a movable object includes a touch pad. The pad is operable such that the screen is mapped to the pad area. The pad generates a signal indicative of an operator's touch on the pad. A controller moves the object on the screen to the location on the screen corresponding to the location of the touch on the pad. The pad generates a gesture signal indicative of a gesture performed on the pad corresponding to a control function. In response to an operator performing a gesture on the pad the controller controls the device to enable the control function corresponding to the gesture performed on the pad. | ||||||
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