Component module for a reduced pressure treatment system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01H-047/00
A61M-001/00
A61H-009/00
A61M-005/14
A61N-001/04
A61N-005/06
F16M-011/04
F16M-013/02
G01F-023/14
G06F-003/041
출원번호
US-0073327
(2016-03-17)
등록번호
US-9545466
(2017-01-17)
발명자
/ 주소
Locke, Christopher Brian
Robinson, Timothy Mark
Beard, Mark Stephen James
Tout, Aidan Marcus
출원인 / 주소
KCI Licensing, Inc.
인용정보
피인용 횟수 :
0인용 특허 :
88
초록▼
A reduced pressure treatment system includes a control unit having a control system and a reduced pressure source. The reduced pressure treatment system further includes a manifold unit in fluid communication with the reduced pressure source and a component module to augment treatment. The component
A reduced pressure treatment system includes a control unit having a control system and a reduced pressure source. The reduced pressure treatment system further includes a manifold unit in fluid communication with the reduced pressure source and a component module to augment treatment. The component module is configured to communicate with the control system of the control unit, and the component module includes a first mounting region configured to be coupled to a complimentary mounting region of the control unit. The component module further includes a second mounting region identical to the complimentary mounting region of the control unit to allow a second component module to be coupled to the first component module.
대표청구항▼
1. A reduced-pressure treatment system, comprising: a dressing; anda reduced-pressure source configured to be fluidly coupled to the dressing, the reduced-pressure source having a control unit, a component module, and a canister. 2. The reduced-pressure treatment system of claim 1, wherein the contr
1. A reduced-pressure treatment system, comprising: a dressing; anda reduced-pressure source configured to be fluidly coupled to the dressing, the reduced-pressure source having a control unit, a component module, and a canister. 2. The reduced-pressure treatment system of claim 1, wherein the control unit comprises: a treatment controller having one or more processors configured to execute software; anda graphical user interface controller. 3. The reduced-pressure treatment system of claim 2, wherein the treatment controller further comprises a memory and an input/output unit in communication with the processors. 4. The reduced-pressure treatment system of claim 3, wherein the input/output unit is configured to communicate with an external module. 5. The reduced-pressure treatment system of claim 2, wherein the software is configured to control tissue treatment, monitor sensors, generate alarms, and perform communications with devices external to the control unit. 6. The reduced-pressure treatment system of claim 2, further comprising a storage unit in communication with the treatment controller, the storage unit having databases configured to store treatment information, the databases being relational databases. 7. The reduced-pressure treatment system of claim 2, further comprising: a display and touch screen assembly in communication with the graphical user interface controller; anda backlight inverter connected to the graphical user interface controller and the display and touch screen assembly, the backlight inverter configured to illuminate the display and touch screen assembly. 8. The reduced-pressure treatment system of claim 2, further comprising a speaker in communication with the graphical user interface controller. 9. The reduced-pressure treatment system of claim 2, further comprising: a unified display interface having a digital video interface; andat least one communication port configured to permit an external device to communicate with the treatment controller. 10. The reduced-pressure treatment system of claim 9, wherein the at least one communication port comprises a controller area network port having a controller area network controller configured to send a message and request a message from the external device. 11. The reduced-pressure treatment system of claim 2, further comprising a battery and a direct current socket connected to the treatment controller. 12. The reduced-pressure treatment system of claim 2, further comprising a manifold controller connected to the treatment controller, the manifold controller configured to receive feedback information from one or more sensors configured to be disposed on the dressing and communicate the feedback information to the treatment controller. 13. The reduced-pressure treatment system of claim 12, further comprising: a vacuum pump connected to the manifold controller;a valve connected to the manifold controller;a pump valve connected to the manifold controller, the valve and the pump valve configured to control air being moved within a manifold unit; andwherein the one or more sensors comprise: a flow sensor, an ambient pressure sensor, a feedback pressure sensor, and a pump pressure sensor. 14. The reduced-pressure treatment system of claim 1, wherein the control unit further comprises: a housing having a rim, a recessed end surface, and an extension;a mounting assembly fixed to the recessed end surface, the mounting assembly comprising a fastener bar that is substantially flush with the rim when a first latch and a second latch are not extended;a first aperture through the mounting assembly and recessed end surface; anda second aperture through the extension. 15. The reduced-pressure treatment system of claim 14, wherein the extension comprises a first ridge and a second ridge opposite the first ridge. 16. The reduced-pressure treatment system of claim 14, wherein the second latch is configured to pivot about an axis to extend the fastener bar. 17. The reduced-pressure treatment system of claim 14, further comprising: the component module being removably coupled to the control unit through a communication port;a first housing that encloses the control unit, the first housing comprising a shoulder and an extension surface;a second housing that encloses the component module, the second housing comprising a rim and a recessed end surface;a mounting assembly having a latch;a first aperture through the mounting assembly and the recessed end surface; anda second aperture through which the communication port is exposed to the extension surface, the second aperture aligned with the first aperture; andwherein the recessed end surface receives the extension surface and the latch fastens to the extension surface to secure the second housing to the first housing. 18. The reduced-pressure treatment system of claim 17, wherein the extension surface comprises a ridge and the latch fastens to the ridge to secure the second housing to the first housing. 19. The reduced-pressure treatment system of claim 17, wherein the extension surface comprises a ridge and the latch comprises a fastener bar that overlaps the ridge to secure the second housing to the first housing. 20. The reduced-pressure treatment system of claim 17, wherein the extension surface comprises a first ridge and a second ridge, and the mounting assembly comprises a first fastener bar and a second fastener bar that overlap the first ridge and the second ridge to secure the second housing to the first housing. 21. The reduced-pressure treatment system of claim 17, wherein the first housing and second housing are substantially elliptic cylinders. 22. A control unit for a tissue treatment system, the control unit comprising: a communication controller;a communication controller port coupled to the communication controller; anda component module. 23. The control unit of claim 22, further comprising: a housing, the communication controller being disposed in the housing;an extension coupled to the housing and having an end surface, the extension configured to engage the component module; andthe communication controller port being exposed through an aperture in the end surface. 24. The control unit of claim 23, further comprising: a first ridge located on the end surface; anda second ridge located on the end surface opposite the first ridge. 25. The control unit of claim 24, wherein the first ridge and the second ridge are configured to engage a fastener bar of the component module. 26. The control unit of claim 22, wherein the component module is configured to communicate with the communication controller through the communication controller port. 27. The control unit of claim 22, wherein the component module comprises: a module housing having a rim, a recessed end surface, and an extension;a mounting assembly fixed to the recessed end surface, the mounting assembly comprising:a first latch, anda second latch, wherein the first latch and the second latch each comprise a fastener bar that is substantially flush with the rim when the first latch and the second latch are not extended; anda control system contained within the module housing, the control system having a module communication controller configured to communicate with the communication controller of the control unit. 28. The control unit of claim 27, wherein the communication controller and the module communication controller are controller area network controllers. 29. The control unit of claim 28, wherein the second latch pivots about an axis to extend the fastener bar. 30. A component module for treating a tissue site, the component module comprising: a control system having a communication controller;a communication plug coupled to the communication controller; anda communication port coupled to the communication controller. 31. The component module of claim 30, further comprising: a housing having a rim, a recessed end surface, and an extension, the control system contained within the housing;a mounting assembly fixed to the recessed end surface, the mounting assembly comprising an extendable first latch and an extendable second latch;a first aperture through the mounting assembly and the recessed end surface, the communication plug protruding through the first aperture; anda second aperture through the extension, the communication port exposed to the second aperture. 32. The component module according to claim 31, wherein the extension comprises a first ridge and a second ridge opposite the first ridge. 33. The component module according to claim 31, wherein the extendable second latch pivots about an axis to extend a fastener bar. 34. The component module according to claim 30, wherein the communication controller is a controller area network controller.
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이 특허에 인용된 특허 (88)
Ward William J. (Hull GBX) Shorthouse Joanne (Hull GBX), Adhesive dressing for retaining a cannula on the skin.
Locke, Christopher Brian; Robinson, Timothy Mark; Beard, Mark Stephen James; Tout, Aidan Marcus, Component module for a reduced pressure treatment system.
Locke, Christopher Brian; Robinson, Timothy Mark; Beard, Mark Stephen James; Tout, Aidan Marcus, Component module for a reduced pressure treatment system.
Errede Louis A. (North Oaks MN) Stoesz James D. (St. Paul MN) Winter ; deceased George D. (late of St. Paul MN by Jenny Upton ; personal representative), Composite wound dressing.
Todd Robert J. (Salt Lake City UT) Yagge Jaime E. (Salt Lake City UT) Lowe James E. (Durham NC) Wonder Terry M. (Salt Lake City UT), Medical suction apparatus.
Ferdman Ariel (12 Hillside Ave. Melrose MA 02176) Kuo Jing-wen (Boxboro MA) Miller David (Brookline MA) Pinsky Vladimir (Brighton MA) Richards William D. (Medway MA) Swann David (Cambridge MA), Method and device for wound closure.
Moriuchi Yousuke (Fujinomiya JPX) Ishida Toshinobu (Fujinomiya JPX) Kousai Tadashi (Fujinomiya JPX), Method of securing a catheter body to a human skin surface.
Luheshi Abdul B. N. (Hull GB3) Smalley Robert K. (Urmston GB3) Kennewell Peter D. (Okus GB3) Westwood Robert (Kingston Bagpuize GB3), Process for the preparation of azabicyclo compounds.
Kashmer James S. (Budd Lake NJ) Klimbach John K. (Wayne NJ) Vendetti Randall P. (Lincoln Park NJ), Suction canister with unitary shut-off valve and filter features.
Richmond James W. (Kalamazoo MI) Tice Robert G. (Portage MI) Booth ; III William M. (Paw Paw MI), Vacuum wound drainage system and lipids baffle therefor.
McNeil Charles B. (5960 Arbour Ave. Edina MN 55436) McEvoy Thomas J. (13103 Baker Trail Minnetonka MN 55343), Wearable, variable rate suction/collection device.
Lock Peter M. (327 Lordswood La. Petrosa ; Walderslade ; Chatham ; Kent GB2) Webb David R. (9 Lambourn Way Lordwood ; Chatham ; Kent GB2), Wound dressing materials.
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