| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | Substrate processing apparatus and substrate processing method | JP2012058247 | 2012-03-15 | JP2013084884A | 2013-05-09 | KITAGAWA HIROAKI; MIYA KATSUHIKO |
| PROBLEM TO BE SOLVED: To stably provide an excellent removal rate of sticking substance and damage suppression performance, relating to a substrate processing technology in which, after an adhesive member is made to abut on a substrate surface on which a pattern is formed, the adhesive member is stripped off so that the sticking substance is removed from the substrate surface.SOLUTION: Before performing pasting/stripping-off cleaning using an adhesive tape T to a surface Wf of a substrate W, a notch position of the substrate W is detected. And then the substrate W is rotated based on the orientation of a pattern at the time point of notch detection. A relative directional relationship between the orientation of pattern and stripping-off direction is optimized so that the orientation of pattern becomes parallel to stripping-off direction X. Then, a cleaning head 7 is moved in (-X) direction from a notch detection position P2, for performing pasting/stripping-off cleaning using the adhesive tape T. | ||||||
| 142 | AUTONOMOUS FLOOR CLEANING WITH REMOVABLE PAD | EP15195684.4 | 2015-11-20 | EP3069645B1 | 2018-12-26 | LU, Ping-Hong; JOHNSON, Joseph M.; FORAN, Daniel; WILLIAMS, Marcus; GRAZIANI, Andrew |
| An autonomous floor cleaning robot includes a body, a controller supported by the body, a drive supporting the body to maneuver the robot across a floor surface in response to commands from the controller, and a pad holder attached to an underside of the body to hold a removable cleaning pad during operation of the robot. The pad includes a mounting plate and a mounting surface. The mounting plate is attached to the mounting surface. The robot includes a pad sensor to sense a feature on the pad and to generate a signal based on the feature, which is defined in part by a cutout on the card backing. The mounting plate enables the pad sensor to detect the feature. The controller is responsive to the signal to perform operations including selecting a cleaning mode based on the signal, and controlling the robot according to a selected cleaning mode. | ||||||
| 143 | ALL-IN-ONE CLEANER | EP14859534.1 | 2014-11-04 | EP3067007B1 | 2018-05-30 | PARK, Kwang Bum |
| An all-in-one cleaner is disclosed. An all-in-one cleaner, according to an embodiment of the present invention, comprises: a cleaner body; a soaking unit which is provided on one side of the cleaner body and carries out a soaking step on a subject to be cleaned; a washing unit which is provided near the soaking unit and carries out a washing step on the subject to be cleaned, for which the soaking step has been completed; and a rinsing unit which is provided near the washing unit and carries out a rinsing step on the subject to be cleaned, for which the washing step has been completed. | ||||||
| 144 | LAPAROSCOPE AND ENDOSCOPE CLEANING AND DEFOGGING DEVICE | EP15789152 | 2015-05-06 | EP3139812A4 | 2018-01-10 | MILLER MICHAEL J; PEPE GREGORY; BONANO SAMANTHA; LIZAUCKAS ANTHONY L III; KELLNER WILLIAM J |
| A laparascope and endoscope cleaning and defogging device with a port located horizontally that is used to warm the scope prior to insertion into the body cavity/surgical site. The scope punctures the initial membrane and enters the cavity between two bodies of absorbent material that contain fluid. The absorbent material is arranged such that the passage of a scope would be accommodated for different sizes of surgical scopes. A circuit board is located on the bottom of the chamber that has a design element used to warm the liquid to a temperature equal to or greater than the temperature of the proposed surgical environment. When the scope is located between the two absorbent bodies, the heat generated by the circuit board is transferred via the liquid and contacts the scope, warming it in preparation for surgery. | ||||||
| 145 | APPARATUSES FOR CLEANING CATHETER PORTS | EP15842984.5 | 2015-09-19 | EP3194012A1 | 2017-07-26 | DUPONT, Pierre; ATAOLLAHI, Asghar; KHEIR, John; GOLDBERG, Sarah, Ward; POLIZZOTTI, Brian, D. |
| Methods and apparatus for cleaning a central venous catheter port are disclosed. An apparatus includes a body, a coupling configured to connect the body to the hub, a cleaning cap coupled to the body, and an actuator disposed within the body for rotating and translating the cap relative to the hub. The cleaning cap includes a cap body defining a cavity and a cleaning member disposed within the cavity, the cleaning member having threads that engage with the threads on the hub. | ||||||
| 146 | SOLAR MODULE CLEANER | EP15802367.1 | 2015-06-02 | EP3151984A2 | 2017-04-12 | GROSSMAN, Marc; CASTELLUCCI, Devin, Cameron; JEANTY, Cedric; SANCHEZ-GARCIA, Juan; CUMMINS, Erik |
| A photovoltaic (PV) module cleaning system can include a robotic cleaning device and a support system. The support system can be configured to provide a metered fill to the robotic cleaning device. In some embodiments, the robotic cleaning device and include a curved cleaning head. Various techniques for deploying a robotic cleaning device on PV modules include out-and-back, leapfrog, among others. | ||||||
| 147 | ALL-IN-ONE CLEANER | EP14859534 | 2014-11-04 | EP3067007A4 | 2017-03-22 | PARK KWANG BUM |
| An all-in-one cleaner is disclosed. An all-in-one cleaner, according to an embodiment of the present invention, comprises: a cleaner body; a soaking unit which is provided on one side of the cleaner body and carries out a soaking step on a subject to be cleaned; a washing unit which is provided near the soaking unit and carries out a washing step on the subject to be cleaned, for which the soaking step has been completed; and a rinsing unit which is provided near the washing unit and carries out a rinsing step on the subject to be cleaned, for which the washing step has been completed. | ||||||
| 148 | SURFACE-CLEANING APPARATUS | EP14706933.0 | 2014-02-07 | EP3065614A1 | 2016-09-14 | GROVE, Phil |
| The present invention relates to a surface cleaning apparatus including a cleaning head having a body that defines a footprint to sit adjacent a surface to be cleaned, the body including first and second parts that are moveable relative to one another between a first configuration and a second configuration, such that the area of the footprint is greater when in the first configuration than when in the second configuration. | ||||||
| 149 | VORRICHTUNG UND VERFAHREN ZUM REINIGEN VON KUNSTSTOFF IM ZUGE VON KUNSTSTOFFRECYCLING | EP14781869.4 | 2014-10-07 | EP3057751A1 | 2016-08-24 | GERCKE, Alexander; WERMTER, Carsten; HOFMANN, Michael |
| The invention relates to a device for cleaning plastic in the course of plastic recycling, comprising a refiner (10) having two refiner tools facing each other, of which at least one is rotationally driven and which bound a working gap between each other, wherein the refiner has an inlet that opens into the working gap, and comprising an input apparatus connected to the inlet for inputting the plastic to be cleaned into the inlet, wherein the refiner has an outlet, which is likewise connected to the working gap and through which the plastic is led away to an exit, wherein the outlet comprises an outlet pipe (20), which is connected to the working gap and leads to the exit, wherein the outlet pipe is connected to a water pump (32), wherein the water pumped through the outlet pipe by means of the water pump has a suction effect on the working gap during operation, in such a way that cleaned plastic is conveyed from the working gap into the outlet pipe. The invention further relates to a corresponding method. | ||||||
| 150 | SURFACE-CLEANING DEVICE | EP12852706.6 | 2012-11-27 | EP2785234B1 | 2016-06-15 | Woods Ethan |
| 151 | CLEANING DEVICE, CARTRIDGE, METHOD FOR REMANUFACTURING CLEANING DEVICE, AND METHOD FOR REMANUFACTURING CARTRIDGE | EP15193114.4 | 2015-11-05 | EP3018534A1 | 2016-05-11 | HOSHI, Nobuharu |
In a method for remanufacturing a cleaning device (11) including an photosensitive drum (7), a cleaning frame unit (12), a cleaning member (11a) configured to clean a surface of the photosensitive drum, and a blade lower sealing member (14) integrally injection molded with the cleaning frame unit and disposed between the cleaning frame unit and the cleaning member, detaching the cleaning member from the cleaning frame unit, cleaning the sealing member, and attaching the cleaning member to the cleaning frame unit, are sequentially performed.
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| 152 | Absorber for a wind turbine | EP14170346.2 | 2014-05-28 | EP2949926A1 | 2015-12-02 | Carlsen, Peter Kaufmann; Ebbesen, Henning; Lauritsen, Torben |
It is proposed a wind turbine (100), comprising Further, a rotor hub for a wind turbine, an absorber element for a wind turbine and a method for maintaining a clean environment in a wind turbine is suggested.
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| 153 | SURFACE-CLEANING DEVICE | EP12852706.6 | 2012-11-27 | EP2785234A2 | 2014-10-08 | Woods Ethan |
| A device for cleaning a surface, such as a barbeque grill, has a substantially hollow enclosure that has at least a lower side, an upper side, and a peripheral edge, and contains a plurality of motors that each has a rotational shaft selectively fixable with a rotatable brush. At least a portion of bristles of each brush projects below a plane of the lower side of the enclosure. The enclosure further contains a power source and a circuit adapted for connecting power to each of the motors for a preset period of time upon actuation of an electrical switch connected thereto. The circuit is adapted to run each motor in a first direction and then an opposing direction, such that if the device becomes stuck at an obstruction, it will eventually turns around due to the alternating directions of the motors. | ||||||
| 154 | APPARATUS AND METHOD OF USING THE SAME | EP12766130.4 | 2012-09-11 | EP2755542A1 | 2014-07-23 | CORRADINI, Fabio; MOINE, Cecile; QUAGGIA, Sara; WIEDEMANN, Ralf; WONG, Daniel; XIAO, Jenny; XU, Eason |
| A cleaning device comprises a cleaning composition container and a dispensing section. The dispensing section is operable to eject an amount of cleaning composition from the cleaning composition container. The dispensing section comprises a domed surface comprising a plurality of projections adapted to work the cleaning composition into an item to be cleaned. | ||||||
| 155 | EYEGLASS CLEANING APPARATUS | EP10856006 | 2010-08-17 | EP2606395A4 | 2014-05-07 | MEURRENS PETER |
| An eyeglass cleaning apparatus employing a non-liquid cleaning composition is described. In one embodiment, the apparatus comprises a hand-held cleaning instrument and a housing for receiving the cleaning instrument. The cleaning instrument includes at least one cleaning surface containing the cleaning composition and the housing includes at least one replenishment pad which may also contain the cleaning composition. The instrument is movable between a stowed position at least partially inserted within the housing and a deployed position at least partially withdrawn from the housing. The cleaning surface contacts the replenishment surface when the cleaning instrument is moved between the deployed and stowed positions to reorient the cleaning composition particles on the surface of the cleaning surface and hence replenish the cleaning capacity of the cleaning instrument. In one embodiment the cleaning instrument may comprise a pair of cleaning surfaces each mounted on a respective arm. The arms may be operatively coupled together, for example in a tweezer-like fashion at one end thereof. In this embodiment the cleaning instrument may be manually used to enable simultaneous cleaning of inner and outer surfaces of an eyeglass lens. In one particular embodiment of the invention the cleaning composition is a combination of carbon black and a hemihydrate of calcium sulfate. | ||||||
| 156 | Autoclavable bucketless cleaning system | EP13180046.8 | 2008-08-21 | EP2664389A1 | 2013-11-20 | Calio, Rosario Sam; Churchvara, Jeffrey; Vellutato, Arthur L., Jr. |
An autoclavable bucketless cleaning system. The system includes an autoclavable vessel with an inside for storing fluid under pressure and with a first connection point and a second connection point disposed at an outside of the vessel, an autoclavable outlet regulator assembly for dispensing fluid from the vessel and removably connected to the vessel at the first connection point so as to be in fluid communication with the inside of the vessel, and an autoclavable inlet regulator assembly for pressurizing the vessel and removably connected to the vessel at the second connection point to be in fluid communication with the inside of the vessel.
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| 157 | Autoclavable Bucketless Cleaning System | EP08162720.0 | 2008-08-21 | EP2092990A2 | 2009-08-26 | Calio, Rosario Sam; Churchvara, Jeff; Vellutato Jr., Arthur L. |
An autoclavable bucketless cleaning system. The system includes an autoclavable vessel (102) with an inside for storing fluid under pressure and with a first connection point (114) and a second connection point (116) disposed at an outside of the vessel, an autoclavable outlet regulator assembly (120) for dispensing fluid from the vessel (102) and removably connected to the vessel at the first connection point (114) so as to be in fluid communication with the inside of the vessel (102), and an autoclavable inlet regulator assembly (136) for pressurizing the vessel and removably connected to the vessel at the second connection point (116) to be in fluid communication with the inside of the vessel.
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| 158 | SCOURING ARTICLE AND METHODS OF MAKING AND USING | EP15748752.1 | 2015-02-16 | EP3108050B1 | 2018-12-05 | ENDLE, James P.; BRANDNER, John M.; CARLSON, Lauren K.; MAKI, Robert J.; SANOCKI, Stephen M. |
| A scouring article including a monolithic nonwoven pad with a semi-densified fibrous layer that is integral to the monolithic nonwoven pad and that provides a major surface of the monolithic nonwoven pad, and methods of making and using. | ||||||
| 159 | VARIABLE SWEEP ANGLE MOTOR DRIVE | EP16204827.6 | 2016-12-16 | EP3181415B1 | 2018-11-21 | SRIVATSA, Santyar; MAHAPATRA, Guru Prasad |
| A windshield wiper system (1) for an aircraft is provided and includes a motor (2), an output shaft (5), a wrap spring and crank rocker mechanism (WSCRM) (10) to which the motor (2) and the output shaft (5) are coupled and a controller (3). By way of the WSCRM (10), first directional rotation input to the WSCRM (10) from the motor (2) via a two-stage gear reduction is converted such that the output shaft (5) drives wiper blade oscillation through a first sweep angle and second directional rotation input to the WSCRM (10) from the motor (2) is converted such that the output shaft (5) drives wiper blade oscillation through a second sweep angle. The controller (3) is configured to control the motor such that the first directional rotation is continuously or non-continuously input during first or second flight conditions, respectively, and the second directional rotation is continuously input during third flight conditions. | ||||||
| 160 | CONNECTOR CLEANING TOOL | EP16848547.2 | 2016-09-14 | EP3355090A1 | 2018-08-01 | TAKANASHI, Mitsuyoshi; HASHIMOTO, Nobuhiro; GOTO, Yoshihiro; SUZUKI, Masayoshi; GOTO, Makoto |
To provide a connector cleaning tool capable of precisely removing dust even on an end surface of a connector having irregularities. The connector cleaning tool includes a buffer body, and an adhesive body arranged with the buffer body, in which in a case where the connector cleaning tool is pressed toward a connection end surface of a connector on which a guide pin is protrudingly provided, the guide pin is inserted into the buffer body via the adhesive body. |
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