[특허]Motorized traction device for a patient support

Motorized traction device for a patient support 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	B62D-051/04
출원번호	US-0243627 (2011-09-23)
등록번호	US-8267206 (2012-09-18)
발명자 / 주소	Vogel, John David Hanson, Thomas W. Crandall, Craig Kummer, Joseph A. Frondorf, Michael M. Lubbers, David P. Kappeler, Ronald P. Wilson, Bradley T. Metz, Darrell L. Smith, Doug K. Ruschke, Jeffrey A. Vodzak, John Stratman, Terry J. Oberhaus, Eric W.
출원인 / 주소	Hill-Rom Services, Inc.
대리인 / 주소	Barnes & Thornburg LLP
인용정보	피인용 횟수 : 3 인용 특허 : 190

초록

A patient support including a traction device for powered movement of the patient support.

대표청구항 ▼

1. A patient support, comprising: a frame configured to support a person in at least a horizontal position,a motor,a propulsion device coupled to the motor and coupled to the frame, the propulsion device including a rolling support to propel the patient support from one location to another location in response to output from the motor,a traction engagement controller coupled to the propulsion device and coupled to the frame, configured to:move the propulsion device from a first position in which the propulsion device is unable to propel the patent support to a second position in which the propulsion device is able to propel the patient support in response to user input, andmove the propulsion device toward or away from the floor to compensate for changes in elevation of the patient support and allow the propulsion device to remain in contact with the floor as the patient support is propelled by the propulsion device over the changes in elevation, anda plurality of casters supporting the frame and a caster mode detector operable to detect a mode of operation of the casters, wherein the traction engagement controller is configured to initiate movement of the propulsion device to the second position if the caster mode detector determines that the casters are in a steer mode. 2. The patient support of claim 1, wherein the traction engagement controller comprises a rolling support mount coupled to the frame and supporting the propulsion device, and a rolling support mount mover coupled to the rolling support mount and coupled to the frame. 3. The patient support of claim 2, wherein the rolling support mount mover is configured to move the rolling support mount from the first position to the second position and to move the rolling support mount in response to the changes in elevation of the patient support. 4. The patient support of claim 3, wherein the rolling support mount mover comprises an actuator configured to move the rolling support mount from the first position to the second position. 5. The patient support of claim 4, wherein the rolling support mount mover comprises at least one spring configured to move the rolling support mount in response to the changes in elevation of the patient support. 6. The patient support of claim 5, wherein the at least one spring is coupled to the rolling support mount. 7. The patient support of claim 1, wherein the rolling support is at least one of a wheel, roller, track, or belt. 8. The patient support of claim 1, comprising a user input device operably coupled to the propulsion device. 9. The patient support of claim 1, comprising a speed controller configured to control the motor output based on user input. 10. A patient support, comprising: a frame configured to support a person in at least a horizontal position,a motor,a propulsion device coupled to the motor and coupled to the frame, the propulsion device including a rolling support to propel the patient support from one location to another location in response to output from the motor, anda traction engagement controller coupled to the propulsion device and coupled to the frame, configured to:move the propulsion device from a first position in which the propulsion device is unable to propel the patent support to a second position in which the propulsion device is able to propel the patient support in response to user input, andmove the propulsion device toward or away from the floor to compensate for changes in elevation of the patient support and allow the propulsion device to remain in contact with the floor as the patient support is propelled by the propulsion device over the changes in elevation,wherein the traction engagement controller comprises a rolling support mount coupled to the frame and supporting the propulsion device, and a rolling support mount mover coupled to the rolling support mount and coupled to the frame,wherein the rolling support mount mover is configured to move the rolling support mount from the first position to the second position and to move the rolling support mount in response to the changes in elevation of the patient support,wherein the rolling support mount mover comprises an actuator configured to move the rolling support mount from the first position to the second position,wherein the rolling support mount mover comprises at least one spring configured to move the rolling support mount in response to the changes in elevation of the patient support,wherein the at least one spring is coupled to the rolling support mountwherein the at least one spring is coupled to the actuator by a shuttle. 11. The patient support of claim 10, wherein the shuttle is coupled to the actuator by a linkage system. 12. The patient support of claim 11, wherein the linkage system comprises a plurality of links. 13. The patient support of claim 12, wherein the plurality of links comprises a first link pivotably coupled to the actuator and the frame, and a second link pivotably coupled to the first link and the shuttle. 14. A patient support, comprising: a frame configured to support a person in at least a horizontal position,a motor,a propulsion device coupled to the motor and coupled to the frame, the propulsion device including a rolling support to propel the patient support from one location to another location in response to output from the motor, anda traction engagement controller coupled to the propulsion device and coupled to the frame, configured to:move the propulsion device from a first position in which the propulsion device is unable to propel the patent support to a second position in which the propulsion device is able to propel the patient support in response to user input, andmove the propulsion device toward or away from the floor to compensate for changes in elevation of the patient support and allow the propulsion device to remain in contact with the floor as the patient support is propelled by the propulsion device over the changes in elevation,wherein the traction engagement controller comprises a rolling support mount coupled to the frame and supporting the propulsion device, and a rolling support mount mover coupled to the rolling support mount and coupled to the frame,wherein the rolling support mount mover is configured to move the rolling support mount from the first position to the second position and to move the rolling support mount in response to the changes in elevation of the patient support,wherein the rolling support mount mover comprises an actuator configured to move the rolling support mount from the first position to the second position,wherein the rolling support mount mover comprises at least one spring configured to move the rolling support mount in response to the changes in elevation of the patient support,wherein the at least one spring has a first end pivotably coupled to the shuttle and a second end coupled to the rolling support mount. 15. A patient support, comprising: a frame configured to support a person in at least a horizontal position,a motor,a propulsion device coupled to the motor and coupled to the frame, the propulsion device including a rolling support to propel the patient support from one location to another location in response to output from the motor, anda traction engagement controller coupled to the propulsion device and coupled to the frame, configured to:move the propulsion device from a first position in which the propulsion device is unable to propel the patent support to a second position in which the propulsion device is able to propel the patient support in response to user input, andmove the propulsion device toward or away from the floor to compensate for changes in elevation of the patient support and allow the propulsion device to remain in contact with the floor as the patient support is propelled by the propulsion device over the changes in elevation,wherein the traction engagement controller comprises a rolling support mount coupled to the frame and supporting the propulsion device, and a rolling support mount mover coupled to the rolling support mount and coupled to the frame,wherein the rolling support mount mover is configured to move the rolling support mount from the first position to the second position and to move the rolling support mount in response to the changes in elevation of the patient support,wherein the rolling support mount mover comprises an actuator configured to move the rolling support mount from the first position to the second position,wherein the rolling support mount mover comprises at least one spring configured to move the rolling support mount in response to the changes in elevation of the patient support,wherein the rolling support mover is configured such that the actuator is in a retracted position and the spring is in a compressed position when the propulsion device is in the second position. 16. A patient support, comprising: a frame configured to support a person in at least a horizontal position,a motora propulsion device coupled to the motor and coupled to the frame, the propulsion device including a rolling support to propel the patient support from one location to another location in response to output from the motor, anda traction engagement controller coupled to the propulsion device and coupled to the frame, configured to:move the propulsion device from a first position in which the propulsion device is unable to propel the patent support to a second position in which the propulsion device is able to propel the patient support in response to user input, andmove the propulsion device toward or away from the floor to compensate for changes in elevation of the patient support and allow the propulsion device to remain in contact with the floor as the patient support is propelled by the propulsion device over the changes in elevation,wherein the traction engagement controller comprises a rolling support mount coupled to the frame and supporting the propulsion device, and a rolling support mount mover coupled to the rolling support mount and coupled to the frame,wherein the rolling support mount mover is configured to move the rolling support mount from the first position to the second position and to move the rolling support mount in response to the changes in elevation of the patient support,wherein the rolling support mount mover comprises an actuator configured to move the rolling support mount from the first position to the second position,wherein the rolling support mount mover comprises at least one spring configured to move the rolling support mount in response to the changes in elevation of the patient support,wherein the rolling support mover is configured such that the actuator is in an extended position and the spring is in an uncompressed position when the propulsion device is in the first position. 17. A patient support, comprising: a frame configured to support a person in at least a horizontal position,a motor,a propulsion device coupled to the motor and coupled to the frame, the propulsion device including a rolling support to propel the patient support from one location to another location in response to output from the motor, anda traction engagement controller coupled to the propulsion device and coupled to the frame, configured to:move the propulsion device from a first position in which the propulsion device is unable to propel the patent support to a second position in which the propulsion device is able to propel the patient support in response to user input, andmove the propulsion device toward or away from the floor to compensate for changes in elevation of the patient support and allow the propulsion device to remain in contact with the floor as the patient support is propelled by the propulsion device over the changes in elevation,wherein the traction engagement controller comprises a rolling support mount coupled to the frame and supporting the propulsion device, and a rolling support mount mover coupled to the rolling support mount and coupled to the frame,wherein the rolling support mount mover is configured to move the rolling support mount from the first position to the second position and to move the rolling support mount in response to the changes in elevation of the patient support,wherein the rolling support mount mover comprises an actuator configured to move the rolling support mount from the first position to the second position,wherein the rolling support mount mover comprises at least one spring configured to move the rolling support mount in response to the changes in elevation of the patient support,wherein the rolling support mover is configured such that the actuator is in an extended position and the spring is in an compressed position when the propulsion device is in the second position. 18. A patient support, comprising: a frame configured to support a person in at least a horizontal position,a motor,a propulsion device coupled to the motor and coupled to the frame, the propulsion device including a rolling support to propel the patient support from one location to another location in response to output from the motor, anda traction engagement controller coupled to the propulsion device and coupled to the frame, configured to:move the propulsion device from a first position in which the propulsion device is unable to propel the patent support to a second position in which the propulsion device is able to propel the patient support in response to user input, andmove the propulsion device toward or away from the floor to compensate for changes in elevation of the patient support and allow the propulsion device to remain in contact with the floor as the patient support is propelled by the propulsion device over the changes in elevation,wherein the traction engagement controller comprises a rolling support mount coupled to the frame and supporting the propulsion device, and a rolling support mount mover coupled to the rolling support mount and coupled to the frame,wherein the rolling support mount mover is configured to move the rolling support mount from the first position to the second position and to move the rolling support mount in response to the changes in elevation of the patient support,wherein the rolling support mount mover comprises an actuator configured to move the rolling support mount from the first position to the second position,wherein the rolling support mount mover comprises at least one spring configured to move the rolling support mount in response to the changes in elevation of the patient support,wherein the rolling support mover is configured such that the actuator is in a retracted position and the spring is in an uncompressed position when the propulsion device is in the first position. 19. A patient support, comprising: a frame configured to support a person in at least a horizontal position,a motor,a propulsion device coupled to the motor and coupled to the frame, the propulsion device including a rolling support to propel the patient support from one location to another location in response to output from the motor,a traction engagement controller coupled to the propulsion device and coupled to the frame, configured to:move the propulsion device from a first position in which the propulsion device is unable to propel the patent support to a second position in which the propulsion device is able to propel the patient support in response to user input,move the propulsion device toward or away from the floor to compensate for changes in elevation of the patient support and allow the propulsion device to remain in contact with the floor as the patient support is propelled by the propulsion device over the changes in elevation, andan external power detector operable to determine if external power is supplied to the patient support, wherein the traction engagement controller is configured to initiate movement of the propulsion device to the second position if the external power detector determines that external power is not supplied to the patient support.

이 특허에 인용된 특허 (190)

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Vogel, John David; Hanson, Thomas W.; Crandall, Craig; Kummer, Joseph A.; Frondorf, Michael M.; Lubbers, David P.; Kappeler, Ronald P.; Wilson, Bradley T.; Metz, Darrell L.; Smith, Doug K.; Ruschke, , Motorized traction device for a patient support.
상세보기
Vogel, John David; Hanson, Thomas W.; Crandall, Craig; Kummer, Joseph A.; Frondorf, Michael M.; Lubbers, David P.; Kappeler, Ronald P.; Wilson, Bradley T.; Metz, Darrell L.; Smith, Doug K.; Ruschke, , Motorized traction device for a patient support.
상세보기
Vogel,John David; Hanson,Thomas W.; Crandall,Craig; Kummer,Joseph A.; Frondorf,Michael M.; Lubbers,David P.; Kappeler,Ronald P.; Wilson,Bradley T.; Metz,Darrell L.; Smith,Doug K.; Ruschke,Jeffrey A.;, Motorized traction device for a patient support.
상세보기
Vogel,John David; Hanson,Thomas W.; Crandall,Craig; Kummer,Joseph A.; Frondorf,Michael M.; Lubbers,David P.; Kappeler,Ronald P.; Wilson,Bradley T.; Metz,Darrell L.; Smith,Doug K.; Ruschke,Jeffrey A.;, Motorized traction device for a patient support.
상세보기
Vogel,John David; Hanson,Thomas W.; Crandall,Craig; Kummer,Joseph A.; Frondorf,Michael M.; Lubbers,David P.; Kappeler,Ronald P.; Wilson,Bradley T.; Metz,Darrell L.; Smith,Doug K.; Ruschke,Jeffrey A.;, Motorized traction device for a patient support.
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Vogel,John David; Hanson,Thomas W.; Crandall,Craig; Kummer,Joseph A.; Frondorf,Michael M.; Lubbers,David P.; Kappeler,Ronald P.; Wilson,Bradley T.; Metz,Darrell L.; Smith,Doug K.; Ruschke,Jeffrey A.; Vodzak,John; Stratman,Terry J.; Oberhaus,Eric W., Motorized traction device for a patient support.
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Fernie Geoffrey R. (29 Blaketon Road Islington ; Ontario CAX M9B 4W4) Griggs Gerald T. (77 Shrewsbury Square Scarborough ; Ontario CAX M1T 1L4), Multi-directional motorized wheelchair.
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Coleman Raquel, Multi-feature automated wheelchair.
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Yu Cheng-Nan (No. 128 ; Chung Cheng Rd. Chu-Tung Town ; Hsin Chu Hsien TWX) Wu Chin-Jun (5F ; No. 7 ; Lane 118 ; Sec. 2 ; Chung Cheng Rd. Shi-Lin District ; Taipei TWX), Multipurpose sickbed.
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Beeler Jimmy A. (2867 Cedar St. Sutter CO 95982), Nested cart pusher.
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Marliac Patrick (Courrance Lacapelle-Biron 47150 FRX), Off-highway motor vehicle for paraplegic handicapped persons.
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Ferrand Robert J. (Burlingame CA) Thomas Marc M. (Portola Valley CA) Alvord Lincoln J. (Redwood City CA) Smith Stephen D. (San Francisco CA) Roe Steven N. (Los Altos CA) O\Connor Richard W. (Palo Alt, Patient care system.
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Ferrand Robert J. ; Thomas Marc M. ; Alvord Lincoln J. ; Smith Stephen D. ; Roe Steven N. ; O'Connor Richard W. ; Gilmartin William A. ; Loh William ; Fish William R. ; Salzedo Jonathan ; Neder Charl, Patient care system.
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Heimbrock,Richard H.; Webster,Thomas M.; Vogel,John, Patient support apparatus having a motorized wheel.
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Heimbrock,Richard H.; Webster,Matt; Vogel,John, Patient support apparatus with powered wheel.
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Schrager James E. (Flossmoor IL), Patient transporting vehicle.
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Heimbrock, Richard H., Patient-support apparatus having grippable handle.
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Kramer DuWayne E. (Mission KS), Personal mobility vehicle.
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Edmondson Jonathan L., Personal transporter having multiple independent wheel drive.
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Owens Lester J. (Titusville FL) Fedor Otto H. (Satellite Beach FL), Personnel emergency carrier vehicle.
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Reeder Ryan A. (Brookville IN), Pivoting handles for hospital bed.
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Bohannan William D. (E. 11122 Ferret Spokane WA 99206), Portable golf cart.
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Bleicher Joel N. (Rte. 3 ; P.O. Box 70 Council Bluffs IA 51503), Powdered maneuverable hospital cart.
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Broadhead Douglas G. (Scarborough CAX) Hobson Blaine M. (King City CAX), Power assist device for a wheelchair.
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Waters, Keith; Reed, Dennis; Friedman, Mark; Mulder, Craig; Nichols, Steve, Power assisted wheeled carriage.
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Edmonson Orvan D. (Apple Valley MN) Wood William D. (Minneapolis MN), Power equipment starting system.
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Velke James D. ; Wright William R., Power mower with riding platform for supporting standing operator.
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Walker Thomas E. (333 S. Euclid Ave. San Diego CA 92114), Power operated chair.
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Finch Thomas E. (HCR1 ; Box 3482 Springbranch TX 78070) Finch James A. (HCR1 ; Box 3482 Springbranch TX 78070), Power operated wheelchair.
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Mackintosh Charles (3838 Oakwood Ave. Los Angeles CA 90004), Power operated wheelchair.
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Perry Dale E. (3915 N. Park Ave. ; Studio #1 Tucson AZ 85719), Power stand-up and reclining wheelchair.
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Johnson Richard N. (484 Whistleberry Dr. Marstons Mills MA 02648), Power wheelchair with torsional stability system.
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Fujiwara Shigeki,JPX ; Yamashita Hideki,JPX ; Maeda Hiroshi,JPX, Power-assisted cart.
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Yuki Hitoshi,JPX ; Hirose Yoshihisa,JPX, Power-assisted wheelbarrow.
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Reimers Eric W., Powered cart for golf bag.
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Immel Erich (6525 Fairmount Ave. El Cerrito CA 94530), Powered load carrier.
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Berg David W. ; Berg Joseph D. ; Johnson Dennis R., Powered utility cart having engagement adapters.
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Masse James H. (Rte. 2 DePere WI 54115) Masse Patrick J. (920 4th St. DePere WI 54115), Powered wheel chair.
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Kauffmann Ricardo M.,MXX, Prosthetic apparatus for supporting a user in sitting or standing positions.
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Huempfner David F. (Kewaunee WI), Rail system for bed or stretcher.
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Turk Daniel J. ; King Kevin D., Safety cut-off system for use in walk-behind power tool.
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Fisher Robert E. (Berkeley CA), Scaffold propulsion unit.
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Johnson Raymond R. (P.O. Box 964 Wenatchee WA 98801), Scaffolding power attachment.
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Sengel Michael P. (110 S. Lorraine Rd. Wheaton IL 60187-5833), Self powered variable direction wheeled task chair.
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Lenkman,Thomas E., Self propelled gurney and related structure confidential and proprietary document.
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Dale ; Jr. James L. (Conway AR), Self-calibrating wheel alignment apparatus and method.
상세보기
Louit Claude (Riscle FRX), Self-contained module for intensive care and resuscitation.
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Jennings Frederick R. (7740 Obsidian Court Cupertino CA 95014) Moritz James O. (15830 Rica Vista San Jose CA 95127), Self-guided automatic load transporter.
상세보기
Forster Lloyd M. (1827 Golf Ridge Bloomfield Hills MI 48013), Self-propelled roller drive unit.
상세보기
Matsuura Takashi,JPX ; Matsuura Reiko,JPX, Sick or wounded patient bed having separable frame and moving/lifting apparatus for the separable frame.
상세보기
Finden Per O. (Skarer NOX), Steerable and motor-driven undercarriage.
상세보기
Pioth Michael J. (5900 Center Rd. Valley City OH 44280), Stretcher.
상세보기
Heimbrock Richard H. ; Moore William K., Stretcher base shroud and pedal apparatus.
상세보기
Heimbrock Richard H. ; Moore William K. ; Smith Donald E. ; Blyshak William M. ; Turner Joanthan T., Stretcher center wheel mechanism.
상세보기
Heimbrock Richard H. ; Moore William K. ; Smith Donald E. ; Blyshak William M. ; Turner Joanthan T., Stretcher center wheel mechanism.
상세보기
Heimbrock, Richard H.; Moore, William K.; Smith, Donald E.; Blyshak, William M.; Turner, Joanthan T., Stretcher center wheel mechanism.
상세보기
Heimbrock Richard H. ; Moore William K. ; Smith Donald E. ; Blyshak William M. ; Turner Joanthan T., Stretcher controls.
상세보기
Hines C. Haywood (Caruthersville MO), Stretcher foot pedal mechanical linkage system.
상세보기
Heimbrock Richard H. ; Webster Matt ; Vogel John, Stretcher having a motorized wheel.
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Harada Junichi,JPX, Stretcher mounting unit.
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Davidson Wayne, Stroller including a motorized wheel assembly.
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Heimbrock Richard H. ; Minnelli Patrick J. ; Walke James L., Surgical stretcher.
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Kamen Dean L. ; Ambrogi Robert R. ; Duggan Robert J. ; Heinzmann Richard Kurt ; Key Brian R. ; Skoskiewicz Andrzej ; Kristal Phyllis K., Transportation vehicles and methods.
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Franco Jose, Trash collector for exfiltration drain system.
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Heimbrock Richard H. ; Howell Charles A., Trauma stretcher apparatus.
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Hannant Keith (Rustington GB2), Trolleys.
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Okuda Genzaburo (Minami Kawachi JPX), Truck with a hand-operatable bed.
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Park Young-Go (Apt. #NA-305 Dong-A Apt.s No. 902 Daechi-Dong Kangnam-Ku Seoul KRX 135-280), Twist rolling bed.
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Meier Gunther (Porta Westfalica DEX), Two-motor wheelchair with battery space.
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Hanson James R. ; McDaniel Richard L. ; Bartow Richard J. ; North Geary A., Unitary pedal control of brake and fifth wheel deployment via side and end articulation with additional unitary pedal control of height of patient support.
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Coleman John J. (Gold Coast AUX), Vehicle for conveying trolleys.
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Foster L. Dale (Brookville IN) Reeder Ryan A. (Brookville IN), Ventilator, care cart and motorized transport each capable of nesting within and docking with a hospital bed base.
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Splittstoesser Clair D. ; Eisenbart Ronald J., Walk-behind traction vehicle having variable speed friction drive transmission.
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Nitzberg Leonard R. (1413 Buckeye La. Knoxville TN 37919), Wheel chair.
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DiMatteo ; Paul ; Diaferia ; Henry V., Wheel chair arrangement.
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Frycek Charles E. (602 N. Carroll St. Horseheads NY 14845), Wheel chair handle extension assembly.
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Kan Yuji,JPX ; Kitano Minoru,JPX ; Tomoshige Kazuhiro,JPX ; Nakamura Hideo,JPX, Wheelchair.
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Behrendts Mickey J.,SEX, Wheelchair combination.
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Goldenfeld Ilia V. (14/16 Rehov Meir Nakar Jerusalem ILX) Mautner Yehezkel (Hamapilim Street 18 Jerusalem ILX) Mastov Eduard (Rivka Street ; 5a/3 Jerusalem ILX), Wheelchair drive.
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Kozicki Michael N. (Tempe AZ), Wheelchair for controlled environments.
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Degonda Andre,CHX ; Wuthrich Thomas,CHX, Wheelchair for transporting or assisting the displacement of at least one user, particularly for handicapped person.
상세보기
Zwaan Paul (Auckland NZX) Nyberg Peter A. (Auckland NZX), Wheelchair power system.
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Chen Sen-Jung (No. 236 ; Sec. 3 ; Ho-Ping W. Rd. Taipei City TWX), Wheelchair with belt transmission.
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Hopper, Christopher J.; Bartow, Richard Jay; Gentile, Christopher; Newsome, Randy; Hayes, Michael Joseph; Beyer, Patrick; McDaniel, Richard L., Wheeled carriage having a powered auxiliary wheel, auxiliary wheel overtravel, and an auxiliary wheel drive and control system.
상세보기
Bartow Richard J. ; Hanson James R. ; McDaniel Richard L., Wheeled carriage having auxiliary wheel spaced from center of gravity of wheeled base and cam apparatus controlling deployment of auxiliary wheel and deployable side rails for the wheeled carriage.
상세보기
Engman Bo H. S. (Sunds Bruk SEX), Wheeled chassis.
상세보기
Stryker Martin W. (Kalamazoo MI), Zero clearance support mechanism for hospital bed siderail, IV pole holder, and the like.
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이 특허를 인용한 특허 (3)

Thodupunuri, Mahesh Kumar; Guthrie, Brian; Byers, John G., Person support apparatus power drive system.
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Bhai, Aziz A.; Hamberg, Stephen R.; Reinke, Christian H.; McCaig, Steven V., Powered transport system and control methods.
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Parker, Andrew, System, method, and computer readable medium for a force-based wheelchair joystick.
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IPC	Description
A	생활필수품
A62	인명구조; 소방(사다리 E06C)
A62B	인명구조용의 기구, 장치 또는 방법(특히 의료용에 사용되는 밸브 A61M 39/00; 특히 물에서 쓰이는 인명구조 장치 또는 방법 B63C 9/00; 잠수장비 B63C 11/00; 특히 항공기에 쓰는 것, 예. 낙하산, 투출좌석 B64D; 특히 광산에서 쓰이는 구조장치 E21F 11/00)
A62B-1/08	.. 윈치 또는 풀리에 제동기구가 있는 것

내보내기 구분	파일저장 인쇄 메일전송
구성항목	기본정보 상세정보 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표IPC 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 공고번호, 공고일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표출원인, 출원인국적, 출원인주소, 발명자, 발명자E, 발명자코드, 발명자주소, 발명자 우편번호, 발명자국적, 대표IPC, IPC코드, 요약, 미국특허분류, 대리인주소, 대리인코드, 대리인(한글), 대리인(영문), 국제공개일자, 국제공개번호, 국제출원일자, 국제출원번호, 우선권, 우선권주장일, 우선권국가, 우선권출원번호, 원출원일자, 원출원번호, 지정국, Citing Patents, Cited Patents
저장형식	Text(ASCII format) Excel format PIAS분석(.xls)
메일정보	받는사람 (필수) @ 보내는사람 (선택) @ 제목 내용 KISTI 검색결과 이메일 서비스
안내	총 건의 자료가 검색되었습니다. 다운받으실 자료의 인덱스를 입력하세요. (1-10,000) 검색결과의 순서대로 최대 10,000건 까지 다운로드가 가능합니다. 데이타가 많을 경우 속도가 느려질 수 있습니다.(최대 2~3분 소요) 다운로드 파일은 UTF-8 형태로 저장됩니다. 파일의 내용이 제대로 보이지 않을실 때는 웹브라우저 상단의 보기 -> 인코딩 -> 자동선택 여부를 확인하십시오. ~ Text(ASCII format) Excel format

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Motorized traction device for a patient support 원문보기

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