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EP0275618A1 - Fluidized hospital bed - Google Patents

Fluidized hospital bed
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Publication number
EP0275618A1
EP0275618A1EP87300613AEP87300613AEP0275618A1EP 0275618 A1EP0275618 A1EP 0275618A1EP 87300613 AEP87300613 AEP 87300613AEP 87300613 AEP87300613 AEP 87300613AEP 0275618 A1EP0275618 A1EP 0275618A1
Authority
EP
European Patent Office
Prior art keywords
air
patient
air bags
bags
air supply
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP87300613A
Other languages
German (de)
French (fr)
Inventor
Jack H. Hess
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Air Plus Inc
Original Assignee
Air Plus Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority to US06/719,874priorityCriticalpatent/US4638519A/en
Application filed by Air Plus IncfiledCriticalAir Plus Inc
Priority to EP87300613Aprioritypatent/EP0275618A1/en
Publication of EP0275618A1publicationCriticalpatent/EP0275618A1/en
Withdrawnlegal-statusCriticalCurrent

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Abstract

Fluidized hospital bed (10) is provided incorporating a segmented, adjustable patient support structure having a plurality of flexible air impervious air bags (30) releasably secured thereto. An air supply (56) is provided for maintaining controllable inflation of selected groups of the air bags (30) with air pressure therein being selectively and automatically adjustable for patient comfort and for emergency patient care. Each of the air bags (30) has a single air inlet in communication with the air supply (56) and multiple air vent holes (54) along the upper side portions thereof or ventilation, patient heating or cooling and removal of moisture. Convex upper surface portions (34, 36, 38) of the air bags (30) facilitate support of the patient without wrapping of air bag material about the patient. The fluidized hospital bed system (10) is powered electrically with both AC and DC current, enabling battery override in the event of failure of the AC power supply. The power supply system also permits the hospital bed to be disconnected from the AC power supply and transported to other areas of the hospital facility while continuous operation is maintained by the self contained DC supply. Patient support and positioning apparatus enables the bed structure (10) to support patients of virtually any size and weight. A movable footboard (210) and collapsible bed-rail (150) assembly are provided which promote patient comfort and easy access such as for emergency patient care treatment.

Description

Claims (10)

1. A fluidized hospital bed system comprising:
(a) patient support means being adjustably positionable for the comfort of a patient and defining adjustable bed segments;
(b) a plurality of generally identical patient supporting air bags being positioned in side-by-­side relation on said patient support means and defining elongated crevices therebetween, said air bags being formed of air and water impervious, water vapor permeable material, said air bags each defining a bottom surface, an upper surface, side surfaces and end surfaces, each of said air bags having a single air inlet opening in said bottom surface and defining elongate air distribution bands located in said crevices, said elongate air distribution bands being located generally along the upper portion of at least one of said side surfaces and being defined by a plurality of small air vent openings disposed along the upper portion of at least one of said defining upper side surfaces of said air bags, said small air vent openings being located in spaced relation to establish a condition of continuous evenly distributed air circulation from said air bags along the length of said crevices and immediately beneath the patient; and
(c) air supply means being in communication with said air supply opening means of said air bags and being operative to maintain said air bags suitably inflated for patient support and comfort and to compensate for air flow from said small air vent openings into said crevices.
4. A fluidized hospital bed system as recited in Claim 1, wherein said air supply means comprises:
(a) a plurality of air inlet manifolds each having a plurality of air bag openings adapted for connection with respective air bags;
(b) a plurality of valved air distribution lines connected to respective ones of said air inlet manifolds, the valves thereof being adjustable to control the air pressure of the air bags of the respective air inlet manifolds.
(c) a single air supply line being in communication with all of said valved air distribution lines;
(d) a source of pressurized air being in supplying communication with said single air supply
(e) said patient support means is defined by a plurality of substantially flat support segments being adjustably positionable to a coplanar or relatively inclined relation and capable of cooperatively defining a substantially flat support surface on which said air bags are positioned; and
(f) means for simultaneously deflating said air bags and lowering the patient onto said substantially flat support surface to accommodate emergency medical treatment of the patient requiring a stable flat patient support surface.
5. A fluidized hospital bed system comprising:
(a) patient support means being adjustably positionable for the comfort of a patient and defining adjustable bed segments:
(b) a plurality of generally identical patient supporting air bags being positioned in side-by-­side relation on said patient support means, said air bags being formed of air and water impervious, water vapor permeable material, said air bags each defining a bottom surface and, an upper surface, side surfaces and end surfaces, each of said air bags having an entry opening means in said bottom surface and a plurality of small air vent openings in at least one of an upper portion of said side surfaces of said air bags, said small air vent openings means being located in spaced relation to establish a condition of evenly distributed air circulation from said air bags and immediately beneath the patient;
(c) air supply means being in communication with said air supply opening means of said air bags and being operative to maintain said air bags suitably inflated for patient support and comfort;
(d) a plurality of air inlet manifolds each having a plurality of air bag openings adapted for connection with respective air bags;
(e) a plurality of valved air distribution lines connected to respective ones of said air inlet manifolds, the valves thereof being adjustable to control the air pressure of the air bags of the respective air inlet manifolds; and
(f) pressure control means being provided for automatically increasing air pressure in the air bags supporting the pelvic area of the patient responsive to the elevation of the head and torso positions of the patient toward a sitting position, thereby compensating for weight concentration of the patient in the pelvic area, said pressure control means returning air bag pressure to a normal pressure responsive to lowering of the head and torso portions of the patient.
6. A fluidized hospital bed system as recited in Claim 5, wherein said air supply means includes:
(a) a plurality of air distribution manifolds located in end to end relation along one of the sides of said patient support means and being associated with respective ones of said bed segments each of said air distribution manifolds forming a plurality of air inlet openings in spaced relation along the upper portion thereof; and
(b) flanged air connector means extending through said air supply opening means of respective air bags and forming a passage communicating air from respective air distribution manifolds into respective ones of said air bags, the flange of each of said air connector means securing and sealing the material of said respective one of said air bags with its respective air distribution manifold.
9. A fluidized hospital bed system as recited in Claim l, wherein said air supply means includes:
(a) alternating current electrical power supply means normally controlling said air supply;
(b) direct current electrical power supply means;
(c) AC/DC converter means converting direct current to alternating current and providing an alternating current output; and
(d) means sensing discontinuity of said alternating current electrical power supply means and automatically switching said alternating current output of said AC/DC concerter means to controlling relation with said air supply, whereby said air supply means may be disconnected from a source of alternating current for transportation of said fluidized hospital bed system with its operation being maintained by said direct current electrical power supply means.
10. A fluidized hospital bed system comprising:
(a) patient support means being adjustably positionable for the comfort of a patient;
(b) a plurality of generally identical patient supporting air bags each being defined by a bottom wall, a top wall, end walls and side walls, said side walls, of adjacent air bags being positioned in side-by-­ side relation on said patient support means and forming elongated crevices therebetween, said air bags being formed of air impervious material and having air entry opening means in said bottom wall, each of said air bags defining a plurality of small spaced air vent openings means being located in said side walls and being positioned for even distribution of air into the respective one of said crevices to establish a condition of air circulation beneath the patient; and
(c) air supply means being in communication with said air supply opening means of said air bags and being operative to maintain said air bags suitably inflated for patient support and comfort, said air supply means comprising:
(1) a plurality of air inlet manifolds each having a plurality of air bag openings adapted for connection with respective air bags;
(2) a plurality of valved air distribution lines connected to respective ones of said air inlet manifolds, the valves thereof being adjustable to control the air pressure of the air bags of the respective air inlet manifolds; and
(3) pressure control means being provided for automatically increasing air pressure in the air bags supporting the pelvic area of the patient responsive to the elevation of the head and torso positions of the patient toward a sitting position, thereby compensating for weight concentration of the patient in the hip area, said pressure control means returning air bag pressure to a normal pressure responsive to lowering of the head and torso portions of the patient, said pressure control means comprising:
(i) an exhaust valve disposed in said single air supply line and including electrical control means for moving said exhaust valve from an air supply position to an exhaust position; and
(ii) electrical circuit means including switch means operatively interconnected with said exhaust valve and said air supply upon selective actuation of said switch means said exhaust valve being actuated to its exhaust position and said air supply is terminated.
EP87300613A1985-04-041987-01-23Fluidized hospital bedWithdrawnEP0275618A1 (en)

Priority Applications (2)

Application NumberPriority DateFiling DateTitle
US06/719,874US4638519A (en)1985-04-041985-04-04Fluidized hospital bed
EP87300613AEP0275618A1 (en)1987-01-231987-01-23Fluidized hospital bed

Applications Claiming Priority (1)

Application NumberPriority DateFiling DateTitle
EP87300613AEP0275618A1 (en)1987-01-231987-01-23Fluidized hospital bed

Publications (1)

Publication NumberPublication Date
EP0275618A1true EP0275618A1 (en)1988-07-27

Family

ID=8197759

Family Applications (1)

Application NumberTitlePriority DateFiling Date
EP87300613AWithdrawnEP0275618A1 (en)1985-04-041987-01-23Fluidized hospital bed

Country Status (1)

CountryLink
EP (1)EP0275618A1 (en)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
GB2267217A (en)*1992-05-291993-12-01Kenneth Caldwell"Air support systems"
US5606754A (en)1989-03-091997-03-04Ssi Medical Services, Inc.Vibratory patient support system
US5983429A (en)1994-02-151999-11-16Stacy; Richard B.Method and apparatus for supporting and for supplying therapy to a patient
RU2299719C1 (en)*2005-12-012007-05-27Павел Николаевич МанташьянMassage device
US8429774B2 (en)2009-08-312013-04-30Hill-Rom Industries SaLateral tilt device
CN114828698A (en)*2020-02-102022-07-29希尔-罗姆服务公司Personal support system including a personal support surface with an integrated air mover for microclimate management
US12042453B2 (en)2019-02-262024-07-23Hill-Rom Services, Inc.Patient positioning apparatus and mattress

Citations (7)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
GB1341325A (en)*1971-07-091973-12-19Scales J TInflatable support appliance
GB1474018A (en)*1974-05-241977-05-18Watkins Watson LtdBeds or like support appliances
GB1545806A (en)*1976-09-231979-05-16Hopkins LFluid mattresses
EP0034954A2 (en)*1980-02-261981-09-02Mediscus Products LimitedMattress and bed construction
GB1601808A (en)*1978-03-171981-11-04Watkins & Watson LtdAutomatic compensator valve
WO1986006624A1 (en)*1985-05-101986-11-20Mediscus Products LimitedPatient support appliances
US4638519A (en)*1985-04-041987-01-27Air Plus, Inc.Fluidized hospital bed

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
GB1341325A (en)*1971-07-091973-12-19Scales J TInflatable support appliance
GB1474018A (en)*1974-05-241977-05-18Watkins Watson LtdBeds or like support appliances
GB1545806A (en)*1976-09-231979-05-16Hopkins LFluid mattresses
GB1601808A (en)*1978-03-171981-11-04Watkins & Watson LtdAutomatic compensator valve
EP0034954A2 (en)*1980-02-261981-09-02Mediscus Products LimitedMattress and bed construction
US4638519A (en)*1985-04-041987-01-27Air Plus, Inc.Fluidized hospital bed
WO1986006624A1 (en)*1985-05-101986-11-20Mediscus Products LimitedPatient support appliances

Cited By (11)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US5606754A (en)1989-03-091997-03-04Ssi Medical Services, Inc.Vibratory patient support system
US6098222A (en)1989-03-092000-08-08Hill-Rom Company, Inc.Vibratory patient support system
US6820640B2 (en)1989-03-092004-11-23Hill-Rom Services, Inc.Vibratory patient support system
GB2267217A (en)*1992-05-291993-12-01Kenneth Caldwell"Air support systems"
GB2267217B (en)*1992-05-291996-12-11Kenneth CaldwellZero-loss, multi-pressure air support systems
US5983429A (en)1994-02-151999-11-16Stacy; Richard B.Method and apparatus for supporting and for supplying therapy to a patient
RU2299719C1 (en)*2005-12-012007-05-27Павел Николаевич МанташьянMassage device
US8429774B2 (en)2009-08-312013-04-30Hill-Rom Industries SaLateral tilt device
US8601622B1 (en)2009-08-312013-12-10Hill-Rom Industries S.A.Patient support apparatus including a lateral tilt device
US12042453B2 (en)2019-02-262024-07-23Hill-Rom Services, Inc.Patient positioning apparatus and mattress
CN114828698A (en)*2020-02-102022-07-29希尔-罗姆服务公司Personal support system including a personal support surface with an integrated air mover for microclimate management

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Legal Events

DateCodeTitleDescription
PUAIPublic reference made under article 153(3) epc to a published international application that has entered the european phase

Free format text:ORIGINAL CODE: 0009012

AKDesignated contracting states

Kind code of ref document:A1

Designated state(s):AT DE FR GB IT NL

STAAInformation on the status of an ep patent application or granted ep patent

Free format text:STATUS: THE APPLICATION IS DEEMED TO BE WITHDRAWN

18DApplication deemed to be withdrawn

Effective date:19890128

RIN1Information on inventor provided before grant (corrected)

Inventor name:HESS, JACK H.


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