Control for pressurized bladder in a patient support apparatus
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G05D-009/00
A47C-027/08
A61G-007/057
출원번호
US-0132761
(2013-12-18)
등록번호
US-9107511
(2015-08-18)
발명자
/ 주소
Skinner, Andrew F.
Richards, Sandy M.
Lubbers, David P.
Dixon, Steven A.
Stacy, Richard B.
Bhai, Aziz A.
출원인 / 주소
Hill-Rom Services, Inc.
대리인 / 주소
Barnes & Thornburg LLP
인용정보
피인용 횟수 :
0인용 특허 :
145
초록▼
An apparatus for supporting a patient, such as a hospital bed, is provided. The apparatus includes a patient support surface and at least one fluid containing bladder. A pressure control assembly is operably coupled with the bladder. When the fluid pressure within the bladder falls outside of an acc
An apparatus for supporting a patient, such as a hospital bed, is provided. The apparatus includes a patient support surface and at least one fluid containing bladder. A pressure control assembly is operably coupled with the bladder. When the fluid pressure within the bladder falls outside of an acceptable range of pressure values, the active adjustment of the pressure within the bladder is initiated by the pressure control assembly if the pressure does not return to the acceptable range of pressure values within a time period, e.g., a time delay, that has a variable length.
대표청구항▼
1. An air delivery system for a patient support including an inflatable support zone, the air delivery system comprising: an air supply, a valve coupled to the air supply,a pressure sensor operable to produce pressure signals indicative of air pressure with the support zone and an air system control
1. An air delivery system for a patient support including an inflatable support zone, the air delivery system comprising: an air supply, a valve coupled to the air supply,a pressure sensor operable to produce pressure signals indicative of air pressure with the support zone and an air system controller programmed to:determine a target pressure for the support zone,receive the pressure signals,determine whether pressure in the support zone deviates from the target pressure based on the pressure signals,if the fluid pressure is detected outside an acceptable range, determine a time period to elapse after the fluid pressure is detected outside the acceptable range and before adjusting pressure in the support zone, andwhen the determined time period elapses and the fluid pressure has not returned to the acceptable range initiate a pressure adjustment in the support zone,wherein the air system controller is programmed to regulate the fluid within the support zone by defining a first range of pressures bounded by a first lower pressure limit and a first upper pressure limit and defining a second range of pressures bounded by (i) the first lower pressure limit and a second lower pressure limit that is lower than the first lower pressure limit or (ii) the first upper limit and a second upper pressure limit that is higher than the first upper limit, and comparing the pressure in the support zone to the first and second ranges of pressures. 2. The air delivery system of claim 1, wherein the target pressure includes an acceptable tolerance. 3. The air delivery system of claim 2, wherein the target pressure is determined based at least in part on a weight of a patient. 4. The air delivery system of claim 2, further comprising an angle sensor operable to produce an angle signal indicative of a value of an angle of the support zone relative to a longitudinal axis of the support zone, wherein the target pressure is determined based at least in part on the angle signal. 5. The air delivery system of claim 4, wherein the controller is further programmed to determine, based on at least one of the pressure signals and the angle signal, whether a person being at least partially supported by the support zone has changed positions. 6. The air delivery system of claim 1, wherein the air system controller is programmed to monitor the fluid pressure within at least one fluid containing bladder configured to support at least a portion of the weight of a patient. 7. The air delivery system of claim 6, wherein the air system controller is programmed to regulate the fluid pressure within the at least one bladder by defining an acceptable range of fluid pressures; and adjusting the fluid pressure within the at least one bladder only when a fluid pressure value has been detected outside the acceptable range of fluid pressures and the time period following the detection of the fluid pressure value has elapsed without the fluid pressure within the at least one bladder returning to the acceptable range of fluid pressure values. 8. The air delivery system of claim 7, wherein the air system controller is programmed to regulate the fluid pressure within the at least one bladder by defining the time period to have a length that is greater than zero and variable up to a maximum value, and determining a difference between the fluid pressure value and the acceptable range of pressure values. 9. The air delivery system of claim 7, wherein the air system controller is programmed to regulate the fluid pressure within the at least one bladder by dynamically determining the length of the time period based on the difference between the fluid pressure value and the acceptable range of pressure values, and determining the length of the time period differently based on the amount of the difference between the fluid pressure value and the acceptable range of pressure values. 10. The air delivery system of claim 1, wherein the air system controller is programmed to set the time period to a first value based on the second range of pressures and only adjust the pressure in the support zone if the pressure falls outside of the first range of pressures for the time period and the pressure falls in the second range of pressures for the time period. 11. The air delivery system of claim 1, wherein the air system controller is programmed to regulate the fluid within the support zone by defining a third range of pressures bounded by a third lower pressure limit that is lower than the second lower pressure limit and a third upper pressure limit that is higher than the second upper pressure limit, and comparing the pressure in the support zone to the first, second, and third ranges of pressures. 12. The air delivery system of claim 11, wherein the air system controller is programmed to regulate the fluid within the support zone by defining the time period for the third range of pressures to be shorter than the time period for the second range of pressures. 13. The air delivery system of claim 11, wherein the air system controller is programmed to regulate the fluid within the support zone by defining the time period for the second range of pressures to vary as a function of the stability of the pressure signals and defining the time period for the third range of pressures as a fixed value. 14. The air delivery system of claim 13, wherein the air system controller is programmed to regulate the fluid within the support zone by adjusting the pressure in the support zone only if the pressure maintains a stable value in the second range of pressures for the time period associated with the second range of pressures or the time period associated with the second range of pressures elapses without the pressure returning to the first range of pressures. 15. The air delivery system of claim 1, wherein the air system controller is programmed to regulate the fluid within the support zone by defining a plurality of ranges of pressures each bounded by a lower pressure limit and an upper pressure limit, defining a different time period for each of the plurality of ranges, and comparing the pressure in the support zone to the each of the plurality of ranges of pressures using the time period for the respective range. 16. The air delivery system of claim 1, wherein the air system controller is programmed to regulate the fluid within the support zone by changing the lower and upper pressure limits for each of the plurality of ranges over time in response to changes in one or more of: a weight of a patient positioned on the support zone, an angular position of the patient support, and a location of the patient on the patient support. 17. The air delivery system of claim 1, wherein the air system controller is programmed to regulate the fluid within the support zone by, after adjusting the fluid pressure, measuring the pressure, and in response to determining that the measured pressure deviates from an acceptable range of pressures for a second time period, initiating an adjustment of the pressure by a second amount. 18. The air delivery system of claim 1, wherein the air system controller is programmed to regulate the fluid within the support zone by defining the target pressure by a lower boundary value that is less than the target pressure and an upper boundary value that is greater than the target pressure, determining if the pressure needs to be increased or decreased to return the pressure to the target value, adjusting the pressure to the lower boundary value if the pressure needs to be decreased, and adjusting the pressure to the upper boundary value if the pressure needs to be increased. 19. The air delivery system of claim 1, wherein the air system controller is programmed to regulate the fluid within the support zone by setting the target pressure to a value that is not equidistant from the first upper and lower pressure limits.
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