Systems, methods, and devices are described for providing a brace having an inflation control. The control directs fluid flow from an inflation component to one or more inflatable cells of the brace. The inflatable cells are independently inflated and deflated by the inflation component through the
Systems, methods, and devices are described for providing a brace having an inflation control. The control directs fluid flow from an inflation component to one or more inflatable cells of the brace. The inflatable cells are independently inflated and deflated by the inflation component through the control. The control allows a user to create a fluid path between the inflation component and one of the inflatable cells by positioning the control in an orientation corresponding to the desired inflatable cells. Each inflatable cell is independently inflated and deflated in various orientations of the control.
대표청구항▼
1. An orthopedic brace, comprising: a plurality of inflatable cells;a control having a diverter that rotates within a manifold body, an inlet port and a plurality of outlet ports, the control being positionable in two or more orientations, and each outlet port being in fluid communication with a res
1. An orthopedic brace, comprising: a plurality of inflatable cells;a control having a diverter that rotates within a manifold body, an inlet port and a plurality of outlet ports, the control being positionable in two or more orientations, and each outlet port being in fluid communication with a respective one of the plurality of inflatable cells; andan inflation component in fluid communication with the inlet port of the control;wherein positioning of the control to a first orientation creates a fluid path between the inflation component and a first of the plurality of inflatable cells, and positioning of the control to a second orientation creates a fluid path between the inflation component and a second of the plurality of inflatable cells; wherein the first and second fluid paths pass through the center of the control. 2. The brace of claim 1, wherein the diverter comprises an interior channel that directs air from the inlet port to a first outlet port when the control is in the first orientation. 3. The brace of claim 2, wherein the interior channel comprises a funnel inlet. 4. The brace of claim 3, wherein the interior channel comprises an outlet that is narrower than the funnel inlet. 5. The brace of claim 3, wherein the funnel inlet is in fluid communication with the inlet port in each of the first and second orientations of the control. 6. The brace of claim 1, wherein the control comprises an inner cylinder that rotates within an outer bore. 7. The brace of claim 6, wherein the inlet port and the plurality of outlet ports pass through a wall of the outer bore. 8. The brace of claim 7, wherein the inner cylinder comprises a plurality of fluid channels. 9. The brace of claim 8, wherein the fluid paths between the inflation component and the first and second inflatable cells comprise fluid channels of the cylinder aligned with corresponding outlet ports of the outer bore. 10. The brace of claim 1, wherein the control is positionable in a third orientation in which no fluid path is created between the inflation component and the inflatable cells. 11. The brace of claim 10, wherein a wall of the control is positioned adjacent to and blocks the outlet ports of the control when the dial is in the third orientation. 12. The brace of claim 10, wherein a wall of the control is positioned adjacent to and blocks the inlet port of the control when the dial is in the third orientation. 13. The brace of claim 1, wherein the inflation component is a compressible bladder. 14. The brace of claim 1, further comprising a release valve housed by the support portion and positioned in fluid communication with both the inflation component and the control. 15. The brace of claim 14, wherein the release valve is positioned between the inflation component and the control. 16. The brace of claim 15, further comprising a fluid flow tube having a first end in fluid communication with the release valve and a second end in fluid communication with the control. 17. The brace of claim 1, wherein the control includes an indicator that identifies an inflatable cell that is in fluid communication with the inflation component in each orientation. 18. The brace of claim 1, further comprising a tab configured to receive a fastener, hereby coupling the control to a support portion of the brace. 19. The brace of claim 18, wherein the control comprises a manifold body, and the tab extends laterally outward from a lower edge of the manifold body. 20. The brace of claim 1, wherein each of the inlet port and the outlet ports are angled downward toward an interior portion of the brace. 21. The brace of claim 1, wherein the control comprises a dome-shaped body. 22. The brace of claim 1, further comprising a plurality of fluid flow tubes, wherein each of the plurality of fluid flow tubes is in fluid communication with one of the plurality of inflatable cells. 23. The brace of claim 22, wherein each of the plurality of fluid flow tubes has a first end in fluid communication with the control and a second end in fluid communication with one of the plurality of inflatable cells. 24. A method for adjusting an orthopedic brace, comprising: positioning a control in a first orientation that creates a fluid path between an inflation component and a first inflatable cell;actuating the inflation component to inflate the first inflatable cell to a first desired pressure;positioning the control in a second orientation that creates a fluid path between the inflation component and a second inflatable cell;actuating the inflation component to inflate the second inflatable cell to a second desired pressure; andpassing fluid from the inflation component through an anterior channel of the control and into the first inflatable cell; wherein passing the fluid through the interior channel comprises passing the fluid from a first end of the channel to a second end of the channel, the second end being narrower than the first end. 25. The method of claim 24, wherein positioning the control in the second orientation comprises rotating a dial from the first orientation to the second orientation. 26. The method of claim 25, wherein rotation of the dial rotates a diverter positioned within the control. 27. The method of claim 26, wherein rotation of the diverter changes the orientation of an interior channel of the diverter.
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이 특허에 인용된 특허 (5)
Islava, Steve, Inflatable splint and method of using the same.
Zablotsky Theodore J. (44 Miamis Rd. West Hartford CT 06117) Zablotsky Charles (5821 Quiet Oak La. Fort Lauderdale FL 33312) True Jerome M. (5760 SW. 14th St. Plantation FL 33317) Gallo Paul E. (2118, Lumbosacral belt.
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