THE BOARD OF REGENTS OF THE UNIVERSITY OF TEXAS SYSTEM
대리인 / 주소
Norton Rose Fulbright US LLP
인용정보
피인용 횟수 :
0인용 특허 :
6
초록▼
This disclosure includes bubble actuator arrays and methods for making and using the same. Some bubble actuator arrays include a first flexible layer having a substantially flat first portion and a plurality of second portions that protrude away from the first portion to define chambers, a flexible
This disclosure includes bubble actuator arrays and methods for making and using the same. Some bubble actuator arrays include a first flexible layer having a substantially flat first portion and a plurality of second portions that protrude away from the first portion to define chambers, a flexible second layer sealed to the first layer to define a plurality of cells in the chambers and between the layers, and where the array can be coupled to a fluid source such that the internal pressures of the cells can be varied. Some of the present methods include adjusting with a processor and fluid source the pressure in the cells of an array. Others of the present methods include placing sacrificial material into chambers of a molded first layer such that a plurality of cells is formed when a second layer is molded coincident to the first and the sacrificial material is removed.
대표청구항▼
1. An apparatus comprising: a flexible first layer comprising a substantially flat first portion and a plurality of second portions each protruding away from the first portion to define a chamber, a majority of which is surrounded by a boundary lying on the first portion;a flexible second layer that
1. An apparatus comprising: a flexible first layer comprising a substantially flat first portion and a plurality of second portions each protruding away from the first portion to define a chamber, a majority of which is surrounded by a boundary lying on the first portion;a flexible second layer that is substantially flat;where the first layer comprises a plurality of coupling members protruding from the first portion opposite the second portions, the plurality of coupling members embedded in the second layer;where the first layer is sealed in fixed relation to the second layer along the boundaries to define a plurality of cells between the first layer and the second layer in the chambers and such that the first layer has a surface overlying the cells; andwhere the apparatus is configured to be coupled to a fluid source such that the fluid source can deliver fluid to vary internal pressures of the plurality of cells. 2. The apparatus of claim 1, where at least a portion of the surface is smooth such that cells underlying the smooth portion of the surface are configured to deflect the smooth portion of the surface outwardly in at least a lateral and an axial direction under an increased internal pressure of the cells underlying the smooth portion of the surface. 3. The apparatus of claim 1, where at least a portion of the surface is corrugated such that cells underlying the corrugated portion of the surface are configured to deflect the corrugated portion of the surface outwardly in a substantially axial direction under an increased internal pressure of the cells underlying the corrugated portion of the surface. 4. The apparatus of claim 1, where the apparatus is configured such that an internal pressure in at least one of the plurality of cells can be varied independently of an internal pressure in another one of the plurality of cells. 5. The apparatus of claim 1, where at least one of the plurality of cells has a transverse dimension that is different than a corresponding transverse dimension of another one of the plurality of cells. 6. The apparatus of claim 5, where at least some of the plurality of cells sequentially decrease in size along at least one transverse direction of the flexible layers. 7. The apparatus of claim 1, further comprising a plurality of sensors coupled to the apparatus and configured to detect one or more physical characteristics. 8. The apparatus of claim 7, where at least some of the sensors are configured to detect at least one parameter selected from the group consisting of: pressure, shear force, temperature, and pH. 9. The apparatus of claim 7, further comprising a processor configured to control the fluid source to adjust the internal pressure in the plurality of cells at least partly based on data detected by the sensors. 10. The apparatus of claim 1, further comprising: a memory configured to store pressure patterns; anda processor in communication with the memory and configured to control the fluid source to adjust the internal pressure in the plurality of cells at least partly based on the pressure patterns. 11. The apparatus of claim 1, where the apparatus is configured to be coupled to a bed or a seat. 12. An apparatus comprising: a flexible first layer comprising a first side that is substantially flat and a second side having a substantially flat first portion and a plurality of second portions each protruding inward toward the first side to define a recess, a majority of which is surrounded by a boundary lying on the first portion;a flexible second layer;where the first layer comprises a plurality of coupling members protruding from the first portion opposite the second portions, the plurality of coupling members embedded in the second layer;where the first layer is sealed in fixed relation to the second layer along the boundaries to define a plurality of cells between the first layer and the second layer in the recesses and such that a surface of either the first layer or the second layer overlies the cells; andwhere the apparatus is configured to be coupled to a fluid source such that the fluid source can deliver fluid to vary internal pressures of the plurality of cells. 13. The apparatus of claim 12, where a surface of the first layer overlies at least some of the plurality of cells and a surface of the second layer overlies at least some of the plurality of cells. 14. An apparatus comprising: a flexible first layer comprising a substantially flat first portion and a plurality of second portions each protruding away from the first portion to define a chamber, a majority of which is surrounded by a boundary lying on the first portion;a flexible second layer that is substantially flat;where the first layer is sealed in fixed relation to the second layer along the boundaries to define a plurality of cells between the first layer and the second layer in the chambers and such that the first layer has a surface overlying the cells;where the apparatus is configured to be coupled to a fluid source such that the fluid source can deliver fluid to vary internal pressures of the plurality of cells; andwhere the apparatus is configured such that a maximum displacement of the surface overlying at least one of cells is between 2% and 15% of a transverse dimension of the cell for each pound per square inch (psi) increase in internal pressure between 1 psi and 5 psi. 15. An apparatus comprising: a flexible first layer comprising a substantially flat first portion and a plurality of second portions each protruding away from the first portion to define a chamber, a majority of which is surrounded by a boundary lying on the first portion;a flexible second layer that is substantially flat;where the first layer is sealed in fixed relation to the second layer along the boundaries to define a plurality of cells between the first layer and the second layer in the chambers and such that the first layer has a surface overlying the cells; anda fluid source configured to be coupled to the layers and to deliver fluid to vary internal pressures in the plurality of cells. 16. An apparatus comprising: a flexible first layer comprising a substantially flat first portion and a plurality of second portions each protruding away from the first portion to define a chamber, a majority of which is surrounded by a boundary lying on the first portion;a flexible second layer that is substantially flat;where the first layer is sealed in fixed relation to the second layer along the boundaries to define a plurality of cells between the first layer and the second layer in the chambers and such that the first layer has a surface overlying the cells;where the apparatus is configured to be coupled to a fluid source such that the fluid source can deliver fluid to vary internal pressures of the plurality of cells; andwhere the apparatus is configured to be coupled to at least one item selected from the group consisting of: a prosthesis socket, a helmet, seat cushion, bed, mattress, pillow, and a prosthetic limb. 17. A manipulator comprising: at least two opposing grasping members configured to move relative to one another to grasp an object; andan apparatus disposed on at least one of the grasping members such that the apparatus will contact an object grasped between the grasping members, the apparatus comprising: a flexible first layer comprising a substantially flat first portion and a plurality of second portions each protruding away from the first portion to define a chamber, a majority of which is surrounded by a boundary lying on the first portion;a flexible second layer that is substantially flat;where the first layer is sealed in fixed relation to the second layer along the boundaries to define a plurality of cells between the first layer and the second layer in the chambers and such that the first layer has a surface overlying the cells; andwhere the apparatus is configured to be coupled to a fluid source such that the fluid source can deliver fluid to vary internal pressures of the plurality of cells. 18. The manipulator of claim 17, further comprising a second apparatus, the second apparatus comprising: a flexible first layer comprising a substantially flat first portion and a plurality of second portions each protruding away from the first portion to define a chamber, a majority of which is surrounded by a boundary lying on the first portion;a flexible second layer that is substantially flat;where the first layer is sealed in fixed relation to the second layer along the boundaries to define a plurality of cells between the first layer and the second layer in the chambers and such that the first layer has a surface overlying the cells; andwhere the second apparatus is configured to be coupled to a fluid source such that the fluid source can deliver fluid to vary internal pressures of the plurality of cells. 19. A system comprising: robotic gripper or prosthetic, where the robot gripper or prosthetic comprises a manipulator, the manipulator comprising: at least two opposing grasping members configured to move relative to one another to grasp an object; andan apparatus disposed on at least one of the grasping members such that the apparatus will contact an object grasped between the grasping members, the apparatus comprising: a flexible first layer comprising a substantially flat first portion and a plurality of second portions each protruding away from the first portion to define a chamber, a majority of which is surrounded by a boundary lying on the first portion;a flexible second layer that is substantially flat;where the first layer is sealed in fixed relation to the second layer along the boundaries to define a plurality of cells between the first layer and the second layer in the chambers and such that the first layer has a surface overlying the cells; andwhere the apparatus is configured to be coupled to a fluid source such that the fluid source can deliver fluid to vary internal pressures of the plurality of cells.
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이 특허에 인용된 특허 (6)
Gusakov Ignaty (1361 Underhill Rd. East Aurora NY 14052), Active mechanical patient support system.
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