(19)
(11)EP 1 750 555 B1

(12)EUROPEAN PATENT SPECIFICATION

(45)Mention of the grant of the patent:
15.07.2015 Bulletin 2015/29

(21)Application number: 05713316.7

(22)Date of filing:  11.02.2005
(51)International Patent Classification (IPC): 
A47C 27/10(2006.01)
A61G 7/057(2006.01)
(86)International application number:
PCT/US2005/004293
(87)International publication number:
WO 2005/079283 (01.09.2005 Gazette  2005/35)

(54)

DISCRETE CELL BODY SUPPORT AND METHOD FOR USING THE SAME

DISKRETER ZELLKÖRPERTRÄGER UND VERFAHREN ZUR VERWENDUNG DAVON

SUPPORT DE CORPS PRESENTANT DES CELLULES DISCRETES ET PROCEDE D'UTILISATION DE CE DERNIER


(84)Designated Contracting States:
BE DE FR GB IT NL

(30)Priority: 13.02.2004 US 544366 P

(43)Date of publication of application:
14.02.2007 Bulletin 2007/07

(73)Proprietor: WCW Inc.
Manchester, VT 05255 (US)

(72)Inventors:
  • WILKINSON, John W.
    Lady Lake, FL 32159 (US)
  • WILKINSON, John C.
    Hoosick Falls, NY 12090 (US)

(74)Representative: Bittner, Thomas L. 
Boehmert & Boehmert Anwaltspartnerschaft mbB Patentanwälte Rechtsanwälte Pettenkoferstrasse 20-22
80336 München
80336 München (DE)


(56)References cited: : 
WO-A1-97/45038
US-A- 4 852 195
US-A- 5 029 939
US-A1- 2003 159 219
WO-A2-03/073825
US-A- 5 029 939
US-A1- 2002 116 766
US-B1- 6 370 716
  
      
    Note: Within nine months from the publication of the mention of the grant of the European patent, any person may give notice to the European Patent Office of opposition to the European patent granted. Notice of opposition shall be filed in a written reasoned statement. It shall not be deemed to have been filed until the opposition fee has been paid. (Art. 99(1) European Patent Convention).


    Description

    Field of the Invention



    [0001] The present invention relates generally to a body support or another type of support surface which allows for discrete manipulation of the pressure. In particular, the present invention includes fluid cells that are resilient, grouped to allow discrete control of the pressure exerted on a body.

    Background of the Invention



    [0002] A person confined to a surface for extended periods of time often suffers from the effects of excess pressure transmitted to their bodies. Continuous pressure applied to a body can cause soft tissue damage. When the exerted pressure exerted on the skin causes blood carrying capillaries to close, soft tissue degeneration may occur. This soft tissue damage may lead to the formation of pressure sores. For example, continuous pressure applied to a person's heel can cause a pressure sore to develop on the heel. Thus, a need exists to address the problems heretofore discussed.

    [0003] In US 5,029,939 A, a vehicle seat construction is disclosed that alternately supports the vehicle seat occupant upon different portions of the vehicle occupant's body. The vehicle seat construction has a base fixably attached a vehicle seat support structure, first cushion cells and second cushion cells, a filler and a seat cover.

    [0004] In US 2003/0159219 A1, an overlay mattress is disclosed that has a plurality of internal elevating means, such as inflatable bladders. A fluid is supplied to inflate the bladders. A fluid distribution system controls the flow of fluid to desired bladders.

    [0005] In US 6,370,716 B1, a cushioning device for a body support is disclosed, in which support is obtained from a fluid. The cushioning device is self-inflating, self-adjusting, and provides a low interface pressure under the entire contact surface of a patient. The cushioning device includes a tilting apparatus that provides assistance in rotating the patient from one position to another.

    [0006] Moreover, US 2002/0116766 A1 discloses a mattress support element that comprises a fluid filled bladder and a fluid container substantially surrounded by the bladder. The fluid container is in constant fluid communication with ambient fluid outside the bladder. The fluid container is configured to deform from its original shape when an external force is applied to the bladder and to reform to its original shape upon removal of the external force from the bladder.

    [0007] US 4,852,195 A discloses a hollow, air filled body support cushion that is formed from three interfitting matrices each comprising a set of hollow cells formed from natural or synthetic rubber or rubber-like plastic. The cells of each matrix are spaced apart to accommodate between them cells of each of the other matrices to define a body support surface made up of the tops of all of the cells. Each matrix has separate fluid ducts between its cells. A fluid pressurizing and control means such as air pumps is used to inflate and deflate the matrices in sequence to shift body support from one set of cells to another for promoting blood circulation and enhancing comfort.

    [0008] In WO 03/073825 A2, a cushioning device is disclosed that includes a first fluid bladder support structure having a first surface and an opposing second surface, a second fluid bladder support structure having a first surface and an opposing second surface, and at least one fluid accumulation reservoir. The first and second fluid bladder support structures deform under application of a load and reform upon removal of the load. A fist conduit interconnects the first fluid bladder support structure in fluid communication with the second fluid bladder support structure.

    [0009] In WO 97/45038 A1, a cushion system for supporting a body is disclosed. An array of foam members is biased such that each foam member exhibits a substantially constant force per unit area when supporting the body. The bias may be passive, by choice of foam characteristics, and additionally may be applied actively by providing a gas to the foam and controlling the pressure of the gas in response to the pressure condition at the interface with the supported body.

    Summary of the Invention



    [0010] It is thus an object of the present invention to provide a body support that is customizable for different patients. This problem is solved by the body support apparatus of claim 1 and the method of claim 23. Preferred embodiments are addressed in the depending claims.

    [0011] The present invention provides a body support apparatus for discrete manipulation of pressure on a body according to claim 1.

    [0012] A second general aspect of the present invention provides a method of manipulating the pressure provided by a body support apparatus according to claim 23.

    Brief Description of Drawings



    [0013] Some of the embodiments of this invention will be described in detail, with reference to the following figures, wherein like designations denote like members, wherein:

    FIG. 1 illustrates a side view of an embodiment of the spring biased fluid cells interconnected with a harnessing system and installed in a casing;

    FIG. 2 illustrates a perspective view of a cushioning device in accordance with an embodiment of the present invention;

    FIG. 3A illustrates a side view of one embodiment of a fluid cell including the double-helix construction, single port, and an entrapment device;

    FIG. 3B illustrates the top view of one embodiment of a fluid cell including an entrapment device;

    FIG. 3C illustrates the bottom view of one embodiment of a fluid cell including an entrapment device;

    FIG. 4 illustrates a perspective view of a coiled spring resilient support;

    FIG. 5 illustrates a perspective view of a bellows resilient support;

    FIG. 6 side view of one embodiment of a fluid cell including the double-helix construction and multiple ports;

    FIG. 7 illustrates a cross sectional view of an embodiment of a fluid cell of the present invention having a multiple port air distribution system including multiple ports;

    FIG. 8 illustrates a cross sectional view of the support system apparatus of an embodiment of the present invention, including the fluid cells, casing, conduits, and a topper cushion which rests on top of the casing;

    FIG. 9 illustrates a side view of an embodiment of the casing;

    FIG. 10 illustrates a plan view of an embodiment of the harnessing system;

    FIG. 11 illustrates a plan view of an embodiment of the fluid cells and harnessing system including an electronic pressure controller;

    FIG. 12 illustrates a bottom view of one embodiment of the fluid cells and harnessing system including an electronic pressure controller and an exhaust control system;

    FIG. 13 illustrates a plan view of one embodiment of the fluid cells and harnessing system which allows for manual inflation of the body support; and

    FIG. 14 illustrates a cross-sectional view of a person lying on the mattress.


    Detailed Description of the Invention



    [0014] Although certain embodiments of the present invention will be shown and described in detail, it should be understood that various changes and modifications may be made without departing from the scope of the appended claims. The scope of the present invention will in no way be limited to the number of constituting components, the materials thereof, the shapes thereof, the relative arrangement thereof, etc., and are disclosed simply as an example of an embodiment. Although the drawings are intended to illustrate the present invention, the drawings are not necessarily drawn to scale.

    [0015] FIG. 1 shows a first embodiment a body support apparatus 12 of the present invention. The body support apparatus 12 is for discrete manipulation of pressures on a body. The manipulation may be such that the body support apparatus 12 provides the body with dynamic massage of the whole body or specific parts of the body. In other words, portions of the apparatus 12 can be discretely controlled to manipulate the pressure on individual parts of a body 56 supported on the body support apparatus 12 as shown in FIG. 14. The body support apparatus 12 can be used in combination with any support device where dynamic pressure control or manipulation of a person such as a patient 56 is required. For example, the body support 12 may include a mattress, sofa, seat, etc. or may be used in conjunction with a bed, sofa, seat, etc. The body support apparatus 12 shown in FIG. 1 includes a plurality of self-inflating fluid cells 14 affixed together to form a support surface, wherein each of said plurality of self-inflating fluid cells 14 has at least one port 46, an exterior 560, and an interior 562 (FIG. 7), and wherein said interior 562 is defined by an open area, or air space, for receiving fluid, which may be air. In addition, the body support apparatus 12 has a harnessing system, or manifold system, 30 that controls the direction and flow volume of air into the self-inflating fluid cells 14 such that the pressure in one or a group of the plurality of self-inflating cells may be discretely controlled. The harnessing system, or manifold system, 30 may be operatively attached to the ports of an interconnected group of self-inflating fluid cells of the plurality of self-inflating fluid cells.

    [0016] The support system apparatus 12 includes at least one self-inflating fluid cell, or reforming element, 14 such as an air spring, pod, or cartridge, having a spring bias, 14 for providing lifting support and discrete manipulation of a patient 56. As shown in FIG. 2, the greater the number of fluid cells 14, the greater the dynamic response will be to a weight or load. The fluid cells 14 are preferably constructed such that several fluid cells 14 are utilized to form a matrix in the body support 12 or such that the body support 12 includes a sufficient number of fluid cells 14 to allow for manipulation of specific parts of the body or pressure on a specific part of the body. The ability to manipulate pressures on specific parts of the body on the support 12 is dependent on the number of fluid cells 14 that are present and will typically improve when the number of fluid cells 14 is increased. For example, there can be at least three fluid cells 14 across the portion of the support 12 which would support a person's back so that when the fluid cells 14 are manipulated, discrete control of pressure in the fluid cells 14 would transfer to discrete manipulation of pressure on the body on the support 12. If, for example, ten, fluid cells 14 were present across the portion of the support which would support a person's back, the manipulation of the pressure on the back could be more discretely managed than if there were only three fluid cells.

    [0017] FIG. 3A illustrates a side view of a typical fluid cell 14 having a double helical pattern 530, a vertical rotational axis 540, and a single port 46.

    [0018] The fluid cells 14 may have a single helical pattern or a double helical pattern. However, the fluid cell 14 may also be any fluid cell which has a spring bias which effects the reformation of the fluid cell 14 such that the fluid cell 14 collapses when loaded with a load having a force which is greater than the sum of the forces within the fluid cell 14, including the pressure of the fluid inside the fluid cell 14 multiplied by the area of the fluid cell 14 supporting the load, plus the reforming force of the fluid cell 14, and said fluid cell 14 reforms when said load is reduced to a load having a force which is less than the sum of the force within the fluid cell and the reforming force of the fluid cell 14. In other words, the fluid cell acts as a reforming element such that once the fluid cell 14 is compressed with the weight of a person or article, the fluid cell 14 will reform when the weight is reduced. Equilibrium is achieved when the forces within the fluid cell, including the pressure of the fluid within the fluid cell multiplied by the area of the fluid cell supporting the load, plus the force provided by the spring bias of the fluid cell equal the weight of the load.

    [0019] The application of an external load on the fluid cell 14 causes the fluid cell 14 to deform into a compressed form. The fluid cell 14 provides a reforming force which causes the fluid cell 14 to return to its original form when the external load is removed from the fluid cell 14. The fluid cell 14 is a resilient material that can contain a fluid such as air, water or nitrogen. The fluid cell 14 may be formed from plastic or any elastomeric material that may be compression molded. The fluid cells 14 may be formed from foam or be constructed of a non-foam material.

    [0020] A fluid cell 14 that contains air is an air spring. The air spring 14 maybe a cartridge that can be releasably attached, or quickly changed, by insertion and removal from a harnessing system 30. In this manner, if the air spring 14 needs to be changed, it can be done so with a friction slot or quick release mechanism.

    [0021] The fluid cell 14 could have an exterior defined by folds along which the fluid cell collapses when loaded as described herein. For example, the fluid cell 14 could be a bellows 520 (FIG. 5) which is formed from a pliable resilient material such as plastic and filled with fluid such as air. The embodiment in FIG. 3 shows a cylindrical fluid cell 14 having a double or twin helix pattern 530. The double helix design 530 controls stability and deflection of the fluid cell 14 such that the fluid cell 14 closely maintains its alignment parallel to its vertical rotational axis 540 during compression and reformation.

    [0022] The air spring may have an external spring, but may also have an internal spring. The fluid cell 14 could be a coiled spring 500 (FIG. 4) which is surrounded by a resilient material 502 as a surface cover. The surface cover 502 maybe fabric, waterproof material, rubber, plastic, moisture wicking material, microfiber, or any material which would resiliently or yieldingly cover the spring and be resiliently or yieldingly supported by the spring 500.

    [0023] In addition, the fluid cell may be restrained by an entrapment device 550 which restrains the expansion of at least one of the plurality of self-inflating fluid cells 14. An embodiment of an entrapment device is shown in FIGs. 3A, 3B, and 3C. The entrapment device 550 may be a strap constructed of fabric, plastic, rubber, leather, or any material that would restrict the movement of the fluid cell 14.

    [0024] Similarly, the entrapment device 550 may be any device which restricts the expansion of the fluid cell. A body support apparatus 12 may contain one or more fluid cells 14 that are restrained from applying pressure to a body on the body support and some fluid cells 14 that are not restrained, and thus free to be used to manipulate the pressures on the body. Restraining one or more cells would allow the unrestrained cells to adjust more quickly, which would allow the body support 12 to respond more rapidly to changes in pressure.

    [0025] The firmness of the fluid cells can be controlled by the height of the fluid cell 14, the diameter of the fluid cell 14, the wall thickness of the fluid cell 14, the type of resin used to form the fluid cell 14, and the pitch or angle of the helix coupled with the OD and ID radius of the helix. In addition, the harnessing system 30, which allows control of the flow direction and volume, contributes to controlling the firmness of the fluid cells 14. Likewise, as shown in FIG. 10, any pressurized fluid supply 130 or pressure control valve 132 connected to the fluid cells 14 will control the firmness of the fluid cells 14.

    [0026] FIG. 6 and FIG. 7 show that each fluid cell 14 may have a multiple port air distribution system 140 which has multiple connections or ports 40A, 40B, 40C, 40D incorporated in, or integral to, the fluid cell 14 and can control intake flow, outflow, sound and speed of fluid movement. Alternatively, the multiple port air distribution system 140 may be connected to a single port 46 on the fluid cell 14, and include a T-plex, 3-plex, or 4-plex connector which allows the connecting lines which are a part of the harnessing system 30 to be attached to the fluid cell 14 in a variety of configurations. The multiple port air distribution system 140 provides the freedom to direct fluid into selected zones of fluid cells as illustrated in FIGs. 10 - 13. The multiple port air distribution system 140 has at least two ports 40. One of the ports is an inlet port 40A which may have an intake check valve 42 and the other port is an exhaust port 40B. The intake check valve 42 allows fluid to flow into the fluid cell 14, while preventing fluid from flowing out of the fluid cell 14. A flow restrictor 44 may be included in the exhaust port 40B to control the volume of air flowing through the exhaust port. In addition, the multiple port air distribution system 140 may include one or more ports that allow the bilateral flow of fluid 40C, 40D. These ports may be included on the fluid cell 14 and be capped to prevent fluid exchange if fluid exchange is not desired for that location of the fluid cell 14 in the harnessing configuration. The embodiment shown in FIG. 7 shows four ports: an intake port 40A having a check valve 42, an exhaust port 40B having a flow restrictor 44, and two open ports 40C, 40D which allow the bilateral flow of fluid, in or out of the fluid cell 14. The open ports 40C, 40D may be connected to a constant pressure. Although the ports shown in FIG. 7 are positioned equidistant from each adjacent port, the ports maybe positioned at any distance from one another.

    [0027] FIG. 7 shows that the multiple port air distribution system 140 includes a sound control batten 48 in the ports that allow fluid to flow in either direction 40C, 40D. The sound control batten 48 is for reducing the sound during intake and exhaust of the fluid cell 14. The sound control batten 48 can be reticulated foam, a variegated surface, or any material that would fit within the port or a conduit or connection extending from the port and function to reduce the sound of air movement during intake and exhaust. In addition, the sound control batten 48 may be formed from a flexible or rigid material.

    [0028] The body support, or cushioning device 12 includes a harnessing system 30 that controls the direction and flow volume of air into the self-inflating fluid cells 14 such that the pressure in one or a group of the plurality of self-inflating cells may be discretely controlled. Examples of embodiments of the harnessing system 30 of a body support 12 are illustrated in FIGs. 10-13. These embodiments show that the support cells 14 can be inter-connected with one or more networks of connecting lines, or conduits, 36 to provide the support system apparatus 12 with zoned pressure control. FIGs. 10 and 11 show a mattress having a plurality of fluid cells 14 that are interconnected to form support zone "A" and support zone "B." There can be any number of support zones created by a harnessing system 30 which interconnects the fluid cells 14 in a multidirectional pattern achieved by the alignment of the fluid cells 14.

    [0029] The fluid cells 14 may be rotatable about a vertical axis 540 such that they may rotate in the casing 20 to allow them to be connected with the harnessing system 30 in various harnessing configurations. For example, the fluid cells 14 can be aligned such that the ports 40 are set at a 45 degree angle to the edge of the support apparatus 12 as may be required to interconnect the fluid cells 14 in the harnessing configuration shown in FIG 11. In addition, the harnessing system 30 may be releasably attached to the fluid cells 14 such that a plurality of harnessing configurations is possible. More specifically, the conduits, or connecting lines, 36 of the harnessing system 30, may be released from the ports 40 to which they are attached in a first harnessing configuration and reattached to another port on the same or another fluid cell 14 to create a second harnessing configuration.

    [0030] The harnessing system 30 allows for inflow of air to the fluid cell for reinflation speed and controllable and directional flow of air from the fluid cell 14. FIGs. 10 through 14 indicate embodiments that show various ways that the fluid cells can be interconnected. For example, as shown in FIG. 10, the harnessing system 30 controls and facilitates the directions and flow volume of air into the fluid cells creating selected zones 36A and 36B. Similarly, zones or loops "A" 36A and "B" 36B shown in FIG. 11 are another embodiment of how a group of fluid cells can be interconnected. In FIG. 11, fluid cells are connected on either a series of fluid cells marked "A" or a series of fluid cells marked "B." All the series marked "A" can be tied, or manifolded together and the series marked "B" can be separately tied, or manifolded together. The series can be tied together using conduits 36 between the exhaust port 40B and intake port 40A of adjacent fluid cells 14 in the same series. In addition, the open ports 40C, 40D may be manifolded or connected together in a similar manner. The fluid cells 14 can also be joined using a tube, flexible joint, manifold, conduit, or be molded together. The intake port 40A of at least one fluid cell 14 in the series is connected to an intake conduit 36, which may be ambient air or a pressurized air supply. There can be any number of series, each one creating a support zone, or pressure zone.

    [0031] FIG. 10 also shows that in addition to zoned pressure control, the fluid cells 14 can be inter-connected to provide the body support 12 with alternating pressure support and movement to a person lying on the body support 12. An electronic pressure control system 130 attached to the harnessing system 30 allows for selective manipulation of the fluid cells via selective supply of fluid pressure to the pressure zones. The computerized control system, or pressure control system 131 included in the electronic pressure controller 130 may be programmed by a user to supply alternating pressures to the network of connecting lines connected to the plurality of the fluid cells 14 in any sequence that is desired by the user. Similarly, the computerized control system 131 may allow for a user to select a first sequence for one patient and a second sequence for a second patient. The computerized control system 131 may allow a user to create new sequences customized to accommodate the needs of a patient. The pressure control system 131 may also apply pressure randomly to the pressure zones.

    [0032] The harnessing system 30 maybe powered, but may also be non-powered, free of expensive blowers, pumps or microprcessors. By configuring the harnessing system such that the cells are in all the zones are allowed to equalize to an identical pressure, in the event of turning off or the failure of the pressurized fluid supply, the patient will be slowly and safely lowered to a stable level position.

    [0033] One embodiment of the present invention is illustrated in FIG. 12. A fluid supply reservoir 60 is available to supply fluid to the self-inflating fluid cells 14. The fluid supply reservoir 60 may be ambient air or a powered fluid supply. Each self-inflating fluid cell has an inlet port 40A and an exhaust port 40B as shown in FIG. 7 or a single port 46 connected to a T-plex, 3-plex, or 4-plex connector on a connecting line 36. The fluid cells maybe connected in series to form one or more pressure zones. A check valve 42 is provided between the fluid supply reservoir 60 and an inlet port 40A of at least one of the self-inflating fluid cells in the pressure zone such that fluid will only be able to flow into the self-inflating fluid cell 14 from the fluid supply reservoir 60 and will not be able to flow back into the fluid supply reservoir 60. A controllable pressure relief valve 132 is operatively attached to the exhaust port 40B of at least one of the fluid cells 14 in each pressure zone. There may be one controllable pressure relief 132 valve to which all the zones are attached, or there may be a separate controllable pressure relief valve 132 for each zone. In addition, a check valve 43 may be located between the exhaust port 40B and the controllable pressure relief valve 132 such that once fluid flows out of the series or zone of fluid cells 14, the fluid may not flow back into that series or zone of fluid cells. Thus, fluid flows from a fluid supply 60 through a check valve 42 on a first fluid cell in a series of fluid cells, and continues though each cell in the series until the pressure in the fluid cells is equal to the pressure set by the controllable pressure relief valve, 132. The fluid cells may be connected, or harnessed, in multiple configurations depending on the needs of the patient. For example, FIG. 12 shows the cells harnessed such that some cells have two ports (220) of the multiple port air distribution system 140 connected to the connecting lines 36 of the harnessing system 30 and one cells has four ports (230) of the multiple port air distribution 140 system connected to the connecting lines 36 of the harnessing system 30. In addition, FIG. 12 shows that some of the fluid cells 14 may be connected to an inlet check valve 42 or an exhaust check valve 43 and some of the fluid cells may contain open ports such as 40C and 40D shown in FIG. 7. The releasability of the harnessing system 30, and the various configurations of the multiple port air distribution system 140 allow the system to be customized for different patients.

    [0034] FIG. 13 shows another example of an embodiment of the present invention. Similar to FIG. 12, the fluid cells are connected in series to form pressure zones. A check valve 42 is provided before the inlet port 40A of at least one of the self-inflating fluid cells 14 in the pressure zone. A controllable pressure relief valve 132 is operatively attached to the exhaust port 40B of at least one of the fluid cells 14 in each pressure zone. There may be one controllable pressure relief 132 valve to which all the zones are attached, or there may be a separate controllable pressure relief valve 132 for each zone (FIG. 10). A check valve 43 is located between the exhaust port 40B and the controllable pressure relief valve 132 such that once fluid flows out of the series, or zone of fluid cells, the fluid may not flow back into the zone of fluid cells. In addition, FIG. 13 shows that a third check valve, also an inlet port check valve 45, may be placed in the middle of a series of fluid cells to create a first zone 310 of fluid cells located on the foot end, or first side, of the body support 12 and a second zone of fluid cells 320 located on the head end, or second side, of the body support 14. The third check valve 45 allows air to flow from the first zone of fluid cells to the second zone of cells and prevents air from flowing from the second zone of fluid cells to the first zone of fluid cells 14. Although FIG. 13 shows three check valves in the series, any number of check valves may be included within the series of fluid cells. The embodiment illustrated in FIG. 13 allows for manual inflation of the body support. When a user sits on the first end 310 of the body support, the second end 320 of the body support is inflated because the air from the first end 310 is forced into the second end 320 and prevented from returning to the first end 310.

    [0035] An example of a support system apparatus 12 for a mattress includes a plurality of fluid cells 14A, 14B, 14C, 14D, 14E, 14F, 14G, 14H, 14I, 14J, 14K, 14L, 14M, 14N, and 140 as is illustrated in FIG. 2. The fluid cells 14 are held together by a holding mechanism or base housing 20 which is adapted to receive the fluid cells. The base housing may be a foam casing, plastic webbing, or any configuration that affixes the fluid cells together to form a mattress, seat, or sofa construct. FIG. 2 shows a base housing 20 that is a foam casing including bays 22 for receiving the fluid cells 14. The base housing 20 is composed of air or foam or other porous or non-porous materials. The base housing 20 functions as a fluid cell receiver and is a means of affixing the fluid cells 14 together to form a mattress or other body support construct. The base housing 20 provides fluid cell 14 stability by utilizing variable heights of the base, by altering the ILD, density and air pressure of the mass of the base housing (not limited to foam), and the relationship of base material to the number of fluid cells 14 in a given area. The base housing supports, houses, and prevents movement of the fluid cells 14 and the harnessing system 30.

    [0036] FIG. 8 shows a side view of the base housing 20 with the fluid cells 14 installed, and FIG. 9 shows a side view of the base housing 20 without the fluid cells 14 installed. Dotted lines indicate that the base housing 20 in the foam embodiment of FIG. 9 can be made of various heights (H). For example, the fluid cells 14 can extend vertically significantly higher than the base housing. Conversely, as shown in FIG. 2, the base housing foam 20 can extend vertically up to, or near to, the same height as the fluid cell 14. In order to hold the fluid cell 14 within the base housing 20, the base housing 20 can include threaded constructs 24 (FIG. 9) in various openings to receive a threaded (i.e., helical) exterior of the fluid cells 14.

    [0037] FIG. 1 shows another embodiment of a casing 20 having a plurality of pads. At least one of the pads, in this embodiment the top pad, or first pad, 26, is adapted to accept the plurality of fluid cells. For example, as shown in FIG. 1, the pad includes openings or bays 22 that generally conform to the shape of the fluid cells 14 and secure the fluid cells 14 during use of the apparatus 12. The casing 20 may have one or more side walls 28, and a bottom pad, or second pad 27 located on a separate side of the fluid cells 14 than the top pad, or first pad, 26.

    [0038] FIG. 2 shows that the support system apparatus 12 has a topper cushion 50 and an outer cover 52. The topper cushion 50 rests above of the fluid cells 14 and base housing 20 to provide further cushioning. The topper cushion 50 may be formed from a layered fiber filled material, foam, wool, a moisture wicking material, or any other suitable material that provides cushioning. The base housing 20, fluid cells 14, harnessing system 30, and topper cushion 50 are contained by an outer cover 52 which has a low friction and low shear surface for further protecting the patient from frictional tissue damage. Additionally, the outer cover 52 provides a waterproof and stain resistant surface. The outer cover 52 can be expandable, waterproof, or moisture wicking. For medical uses, the outer cover 52 can be made from an anti-microbial type material.

    [0039] The foregoing description of the present invention has been presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise form disclosed, and many modifications and variations are possible in light of the above teaching. For example, the cushioning device of the present invention is suitable for providing discrete manipulation of the pressure on a body, which is customizable by a user to meet the needs of a particular patient. Also, the cushioning device of the present invention is suitable for any application where low interface pressure is required between the cushioning device and the surface of the body being supported. Such modifications and variations that may be apparent to a person skilled in the art are intended to be included within the scope of this invention as defined by the accompanying claims.

    Appendix A



    [0040] Appendix A includes calculations related to the properties of the air leaving and entering the fluid cells.

    Appendix A



    [0041] Variables affecting velocity of air leaving air cell:

    Volume (V)

    Pressure (P)

    Temperature (T)

    Force of patient on air cell (FW)

    Spring Force (FS)

    Spring Constant (k)

    Area of escape Valves (a)

    Number of valves open (v)



    [0042] *The square root of the sum of the forces times the area of the escape valves divided by the weight acting on the air cell is equal to the average velocity of the air leaving the cell.



    [0043] Force of Weight of patient + Force of Pressure inside the air cell - Force of Spring = Sum of the Forces



    [0044] Force of Spring is equal to the spring constant times the distance it is from equilibrium.



    [0045] The Spring constant depends on the type of material, and the shape of the spring. It lessens with time and use.

    [0046] Volume is equal to the number of moles of air in the cell times the gas constant (R) times the absolute temperature of the cell all over the pressure in the cell.



    [0047] Absolute temperature is the number of degrees above absolute zero.

    [0048] The area of the escape valves is equal to pi times the radius squared times the number of open valves.




    Claims

    1. A body support apparatus (12) for discrete manipulation of pressure on a body comprising:

    - a plurality of self-inflating fluid cells (14) affixed together to form a support surface, wherein each of said plurality of self-inflating fluid cells has at least one port (46), an exterior (560), and an interior (562), and wherein said interior is defined by an open area for receiving fluid; and

    - a harnessing system (30) that controls the direction and flow volume of fluid into the self-inflating fluid cells such that the pressure in one or a group of the plurality of self-inflating cells may be discretely controlled;

    characterized in that said harnessing system (30) is configured to releasably interconnect said plurality of self-inflating fluid cells (14) in a plurality of harnessing configurations.
     
    2. The body support apparatus of Claim 1, wherein each of said plurality of self-inflating fluid cells (14) is a reforming element that collapses when loaded with a load having a force which is greater than the sum of the forces within the self-inflating fluid cell (14), including the pressure of the fluid inside the self-inflating fluid cell multiplied by the area of the self-inflating fluid cell (14) supporting the load, plus the reforming force of the self-inflating fluid cell, and said self-inflating fluid cell reforms when said load is reduced to a load having a force which is less than the sum of the forces within the self-inflating fluid cell and the reforming force of the self-inflating fluid cell.
     
    3. The body support apparatus of any preceding claim, wherein the harnessing system (30) includes a plurality of networks of connecting lines which create a plurality of pressure zones.
     
    4. The body support apparatus of any preceding claim, wherein said harnessing system (30) is non-powered, and/or said self-inflating fluid cells are cylindrical and/or said self-inflating fluid cells are not constructed of foam, and/or said self-inflating fluid cells (14) are selected from the group consisting of single helix springs, twin helix springs, and bellows, and/or said self-inflating fluid cells are formed of molded plastic.
     
    5. The body support apparatus of claim 1, further comprising means for supplying fluid to said harnessing system (30).
     
    6. The body support apparatus of claim 1, further comprising an electronic pressure control system (130) for selective manipulation of said self-inflating fluid cells, wherein said electronic pressure controller is attached to said harnessing system (30).
     
    7. The body support apparatus of any preceding claim, wherein said self-inflating fluid cells (14) have a helical pattern on the outer construct such that said self-inflating fluid cells collapse when loaded with force which is greater than the sum of the force of pressure inside the self-inflating fluid cell and the reforming force of the self-inflating fluid cell and inherently expand when the load is reduced.
     
    8. The body support apparatus of any preceding claim, wherein said self-inflating fluid cells (14) are releasably attached to said harnessing system.
     
    9. The body support apparatus of any preceding claim further comprising an entrapment device (550) which restrains the expansion of at least one of the plurality of self-inflating fluid cells (14).
     
    10. The body support apparatus of claim 1, further comprising: a casing which accepts said self-inflating fluid cells (14) and affixes said self-inflating fluid cells (14) together to form at least one of a mattress, seat, or sofa construct.
     
    11. The body support apparatus of Claim 10, wherein said casing is plastic or foam.
     
    12. The body support apparatus of Claim 10 or 11, wherein said casing includes bays for accepting said self-inflating fluid cells (14) preferably wherein said bays include threaded constructs to receive a self-inflating fluid cell having corresponding threads.
     
    13. The body support apparatus of Claim 10, 11 or 12, further including a topper positioned above the cells (14) to provide further cushioning preferably wherein the topper is wool and/or further including an outer cover having a low friction and low shear surface preferably wherein the outer cover is expandable.
     
    14. The body support apparatus of any preceding claim, wherein said at least one port (46) includes a sound control batten (48) for reducing the sound during intake and exhaust of the fluid cell (14).
     
    15. The body support apparatus of claim 1, further comprising: a spring bias in said plurality of self-inflating fluid cells (14) to reform said plurality of self-inflating fluid cells (14) such that each said self-inflating fluid cell (14) collapses when loaded with a load having a force which is greater than the sum of the forces within the self-inflating fluid cell (14), including the pressure of the fluid inside the self-inflating fluid cell (14) multiplied by the area of the self-inflating fluid cell (14) supporting the load, plus the reforming force of the self-inflating fluid cell (14), and said self-inflating fluid cell (14) reforms when said load is reduced to a load having a force which is less than the sum of the forces within the self-inflating fluid cell (14) and the reforming force of the self-inflating fluid cell (14), wherein said at least one port is releasably attached to the harnessing system (30) that controls the direction and flow volume of fluid into the plurality of self-inflating fluid cells (14) of the support surface such that the pressure in the plurality of self-inflating cells (14) may be discretely controlled.
     
    16. The body support apparatus of Claim 15, wherein said plurality of self-inflating fluid cells (14) each has a circular diameter; and / or includes an outer construct selected from the group consisting of a single helix, a double helix, or a bellows; and/or said plurality of self-inflating fluid cells (14) each further comprises a spring and a resilient material, wherein said resilient material is yieldingly supported by said spring; and/or said surface cover is selected from the group consisting of fabric, waterproof material, rubber, plastic, moisture wicking material, or microfiber; and/or said plurality of self-inflating cells (14) is each constructed from the group consisting of elastomeric material and compression molded material; and/or further including an inlet port and an outlet port extending from each of said plurality of self-inflating fluid cells.
     
    17. The body support apparatus of Claim 15, wherein said fluid cell includes a vertical rotational axis and wherein said fluid cell collapses and reforms in a direction parallel to said vertical rotational axis.
     
    18. The body support apparatus of claim 1, wherein each said self-inflating fluid cell has a spring bias to reform said self-inflating fluid cell and at least one port; and the support surface further comprising a casing adapted to receive said plurality of self-inflating fluid cells, wherein said casing affixes said self-inflating fluid cells together to form a mattress construct.
     
    19. The body support apparatus of Claim 18, further comprising a sound control batten for reducing the sound during intake and exhaust of the self-inflating fluid cell.
     
    20. The body support apparatus of Claim 18 or 19, wherein the sound control batten is selected from the group consisting of flexible material and rigid material.
     
    21. The body support apparatus of Claim 19, wherein the sound control batten is reticulated foam.
     
    22. The body support apparatus of Claim 19, wherein the sound control batten is a variegated surface.
     
    23. A method of manipulating the pressure provided by a body support apparatus comprising:

    - providing a support apparatus (12) having a plurality of molded air springs, wherein each of said molded air springs has an exterior configured to reform said molded air spring;

    - attaching a harnessing system (30) to said plurality of molded air springs, wherein said harnessing system (30) includes conduits that interconnect the plurality of molded air springs to create a first harnessing configuration, wherein said first harnessing configuration includes a plurality of pressure zones; and

    - selectively manipulating the pressure in the support apparatus (12) by selectively filling at least one of said plurality of pressure zones;

    characterized by releasing any one of said conduits of said harnessing system (30) from said molded air spring, and attaching said any one of said conduits to any one of said molded air springs to create a second harnessing configuration.
     
    24. The method of Claim 23 further comprising; providing an electronic pressure control system (130) for selectively supplying fluid pressure to the plurality of pressure zones, and / or further comprising: sequentially applying pressure to said plurality of pressure zones and / or further comprising: providing a casing adapted to receive said molded air springs.
     
    25. The method of Claim 23, further comprising: providing a fluid supply reservoir; providing an inlet port and an exhaust port for each molded air spring; attaching a first check valve between said fluid supply reservoir and an inlet port of at least one of said molded air springs in each of said plurality of pressure zones, such that fluid will only be able to flow into said molded air spring; providing a controllable pressure relief valve, wherein said controllable pressure relief valve is operatively attached to the exhaust port of at least one molded air spring in each of said plurality of pressure zones.
     
    26. The method of Claim 23, further comprising: attaching a second check valve between said exhaust port and said controllable pressure relief valve, such that fluid is prevented from entering said exhaust port.
     
    27. The method of manipulating the pressure in the body support apparatus of Claim 23, further comprising: providing a first zone of molded air springs and second zone of molded air springs; and attaching a third check valve between said first zone of molded air springs and said second zone of molded air springs such that air may flow from said first zone of molded air springs to said second zone of molded air springs and air is prevented from flowing from said second zone of molded air springs into said first zone of molded air springs.
     


    Ansprüche

    1. Körperstützvorrichtung (12) zur diskreten Handhabung von Druck auf einen Körper, umfassend:

    - mehrere selbstaufblasende Fluidzellen (14), die zum Ausbilden einer Stützfläche aneinander angebracht sind, wobei jede der mehreren selbstaufblasenden Zellen zumindest eine Einlassöffnung (46), eine Außenseite (560) und eine Innenseite (562) aufweist, und wobei die Innenseite durch einen offenen Bereich zum Aufnehmen von Fluid definiert ist; und

    - ein Geschirrsystem (30), das die Richtung und das Flussvolumen von Fluid in die selbstaufblasenden Zellen derart steuert, dass der Druck in einer oder einer Gruppe der mehreren selbstaufblasenden Zellen diskret gesteuert sein kann;

    dadurch gekennzeichnet, dass das Geschirrsystem (30) zum lösbaren Verbinden der mehreren selbstaufblasenden Fluidzellen (14) in mehreren Geschirrkonfigurationen konfiguriert ist.
     
    2. Körperstützvorrichtung nach Anspruch 1, wobei jede der mehreren selbstaufblasenden Fluidzellen (14) ein sich zurückbildendes Element ist, das zusammenfällt, wenn es mit einer Last mit einer Kraft belastet ist, die größer als die Summe der Kräfte innerhalb der selbstaufblasenden Fluidzelle (14) ist, darunter den Druck des Fluids innerhalb der selbstaufblasenden Fluidzelle multipliziert mit dem Bereich der selbstaufblasenden Fluidzelle (14), die die Last stützt, plus der Zurückbildungskraft der selbstaufblasenden Fluidzelle, und wobei sich die selbstaufbauende Fluidzelle zurückbildet, wenn die Last auf eine Last mit einer Kraft verringert ist, die geringer als die Summe der Kräfte innerhalb der selbstaufblasenden Fluidzelle und der Zurückbildungskraft der selbstaufblasenden Fluidzelle ist.
     
    3. Körperstützvorrichtung nach einem der vorhergehenden Ansprüche, wobei das Geschirrsystem (30) mehrere Netzwerke von Verbindungslinien enthält, die mehrere Druckzonen schaffen.
     
    4. Körperstützvorrichtung nach einem der vorhergehenden Ansprüche, wobei das Geschirrsystem (30) nicht kraftbetrieben ist und/oder die selbstaufblasenden Fluidzellen zylindrisch sind und/oder die selbstaufblasenden Fluidzellen nicht aus Schaum gebaut sind und/oder die selbstaufblasenden Zellen (14) aus der Gruppe ausgewählt sind, die aus einzelnen Spiralfedern, zweifachen Spiralfedern und Bälgen besteht, und/oder die selbstaufblasenden Fluidzellen aus geformtem Kunststoff ausgebildet sind.
     
    5. Körperstützvorrichtung nach Anspruch 1, ferner umfassend Mittel zum Zuführen von Fluid zum Geschirrsystem (30).
     
    6. Körperstützvorrichtung nach Anspruch 1, ferner umfassend ein elektronisches Drucksteuersystem (130) zur selektiven Handhabung der selbstaufblasenden Fluidzellen, wobei die elektronische Drucksteuerung am Geschirrsystem (30) angebracht ist.
     
    7. Körperstützvorrichtung nach einem der vorhergehenden Ansprüche, wobei die selbstaufblasenden Fluidzellen (14) ein spiralförmiges Muster am äußeren Bau aufweisen, sodass die selbstaufblasenden Fluidzellen zusammenfallen, wenn sie mit einer Kraft belastet sind, die größer als die Summe der Kraft von Druck innerhalb der selbstaufblasenden Zelle und der Zurückbildungskraft der selbstaufblasenden Zelle ist, und sich inhärent ausdehnen, wenn die Last verringert ist.
     
    8. Körperstützvorrichtung nach einem der vorhergehenden Ansprüche, wobei die selbstaufblasenden Fluidzellen (14) lösbar am Geschirrsystem angebracht sind.
     
    9. Körperstützvorrichtung nach einem der vorhergehenden Ansprüche, ferner umfassend eine Einschlussvorrichtung (550), die die Ausdehnung von zumindest einer der mehreren selbstaufblasenden Fluidzellen (14) zurückhält.
     
    10. Körperstützvorrichtung nach Anspruch 1, ferner umfassend:

    ein Gehäuse, das die selbstaufblasenden Fluidzellen (14) annimmt und die selbstaufblasenden Fluidzellen (14) zum Ausbilden von zumindest einem von einem Matratzen-, Sitzoder Sofa-Bau aneinander anbringt.


     
    11. Körperstützvorrichtung nach Anspruch 10, wobei das Gehäuse Kunststoff oder Schaum ist.
     
    12. Körperstützvorrichtung nach einem der Ansprüche 10 oder 11, wobei das Gehäuse Abteilungen zum Annehmen der selbstaufblasenden Zellen (14) enthält, vorzugsweise wobei die Abteilungen Gewindebauten zum Aufnehmen einer selbstaufblasenden Zelle mit entsprechendem Gewinde enthalten.
     
    13. Körperstützvorrichtung nach einem der Ansprüche 10, 11 oder 12, ferner enthaltend eine Auflage, die über den Zellen (14) angeordnet ist, um weiteres Polstern vorzusehen, vorzugsweise wobei die Auflage Wolle ist und/oder ferner eine Außenabdeckung mit geringer Reibung und geringer Scherfläche enthält, vorzugsweise wobei die Außenabdeckung dehnbar ist.
     
    14. Körperstützvorrichtung nach einem der vorhergehenden Ansprüche, wobei die zumindest eine Einlassöffnung (46) eine Geräuschregelleiste (48) zum Dämpfen des Geräuschs während des Einlassens und des Auslassens der Fluidzelle (14) enthält.
     
    15. Körperstützvorrichtung nach Anspruch 1, ferner umfassend:

    eine Federvorspannung in den mehreren selbstaufblasenden Fluidzellen (14) zum Zurückbilden der mehreren selbstaufblasenden Fluidzellen (14), sodass jede der selbstaufblasenden Fluidzellen (14) zusammenfällt, wenn sie mit einer Last mit einer Kraft belastet ist, die größer als die Summe der Kräfte innerhalb der selbstaufblasenden Fluidzelle (14) ist, darunter den Druck des Fluids innerhalb der selbstaufblasenden Fluidzelle (14) multipliziert mit dem Bereich der selbstaufblasenden Fluidzelle (14), die die Last stützt, plus der Zurückbildungskraft der selbstaufblasenden Fluidzelle (14), und sich die selbstaufbauende Fluidzelle (14) zurückbildet, wenn die Last auf eine Last mit einer Kraft verringert ist, die geringer als die Summe der Kräfte innerhalb der selbstaufblasenden Fluidzelle (14) und der Zurückbildungskraft der selbstaufblasenden Fluidzelle (14) ist, wobei die zumindest eine Einlassöffnung lösbar am Geschirrsystem (30) angebracht ist, das die Richtung und das Flussvolumen von Fluid in die mehreren selbstaufblasenden Zellen (14) der Stützfläche derart steuert, dass der Druck in den mehreren selbstaufblasenden Zellen (14) diskret gesteuert sein kann.


     
    16. Körperstützvorrichtung nach Anspruch 15, wobei die mehreren selbstaufblasenden Fluidzellen (14) jede einen kreisförmigen Durchmesser aufweist und/oder einen äußeren Bau aufweist, der aus der Gruppe ausgewählt ist, die aus einer einzelnen Spiralfeder, zweifachen Spiralfeder oder einem Balg besteht; und/oder wobei die mehreren selbstaufblasenden Fluidzellen (14) jede ferner eine Feder und ein elastisches Material umfassen, wobei das elastische Material nachgebend durch die Feder gestützt ist; und/oder wobei die Oberflächenabdeckung aus der Gruppe ausgewählt ist, die aus Stoff, wasserdichtem Material, Kautschuk, Kunststoff, Feuchtigkeit transportierendem Material oder Mikrofaser besteht; und/oder wobei die mehreren selbstaufblasenden Fluidzellen (14) jede aus der Gruppe gebaut sind, die aus Elastomermaterial und Pressformmaterial besteht; und/oder ferner enthaltend eine Einlassöffnung und eine Auslassöffnung, die von jeder der mehreren selbstaufblasenden Fluidzellen verlaufen.
     
    17. Körperstützvorrichtung nach Anspruch 15, wobei die Fluidzelle eine vertikale Drehachse enthält, und wobei die Fluidzelle in einer parallel zur vertikalen Drehachse verlaufenden Richtung zusammenfällt und sich zurückbildet.
     
    18. Körperstützvorrichtung nach Anspruch 1, wobei jede selbstaufblasende Fluidzelle eine Federvorspannung zum Zurückbilden der selbstaufblasenden Fluidzelle und zumindest eine Einlassöffnung aufweist; und die Stützfläche ferner ein Gehäuse umfasst, das zum Aufnehmen der mehreren selbstaufblasenden Fluidzellen geeignet ist, wobei das Gehäuse die selbstaufblasenden Fluidzellen zum Ausbilden eines Matratzenbaus aneinander anbringt.
     
    19. Körperstützvorrichtung nach Anspruch 18, ferner umfassend eine Geräuschregelleiste zum Dämpfen des Geräuschs während des Einlassens und des Auslassens der Fluidzelle.
     
    20. Körperstützvorrichtung nach Anspruch 18 oder 19, wobei die geräuschregelleiste aus der Gruppe ausgewählt ist, die aus flexiblem Material und starrem Material besteht.
     
    21. Körperstützvorrichtung nach Anspruch 19, wobei die Geräuschregelleiste Netzschaum ist.
     
    22. Körperstützvorrichtung nach Anspruch 19, wobei die Geräuschregelleiste eine variierende Oberfläche ist.
     
    23. Verfahren zum Handhaben des Drucks, der durch eine Körperstützvorrichtung vorgesehen ist, umfassend:

    - Vorsehen einer Stützvorrichtung (12) mit mehreren geformten Luftfedern, wobei jede der geformten Luftfedern eine Außenseite aufweist, die zum Zurückbilden der geformten Luftfeder konfiguriert ist;

    - Anbringen eines Geschirrsystems (30) an den mehreren geformten Luftfedern, wobei das Geschirrsystem (30) Leitungen enthält, die die mehreren geformten Luftfedern zum Herstellen einer ersten Geschirrkonfiguration miteinander verbinden, wobei die erste Geschirrkonfiguration mehrere Druckzonen enthält; und

    - selektives Handhaben des Drucks in der Stützvorrichtung (12) durch selektives Füllen von zumindest einer der mehreren Druckzonen;

    gekennzeichnet durch Lösen einer beliebigen der Leitungen des Geschirrsystems (30) aus der geformten Luftfeder und Anbringen der beliebigen der Leitungen an einer beliebigen der geformten Luftfedern zum Herstellen einer zweiten Geschirrkonfiguration.
     
    24. Verfahren nach Anspruch 23, ferner umfassend: Vorsehen eines elektronischen Drucksteuersystems (130) zum selektiven Zuführen von Fluiddruck zu den mehreren Druckzonen, und/oder ferner umfassend: sequentielles Ausüben von Druck auf die Druckzonen, und/oder ferner umfassend: Vorsehen eines Gehäuses, das zum Aufnehmen der geformten Luftfedern geeignet ist.
     
    25. Verfahren nach Anspruch 23, ferner umfassend: Vorsehen eines Fluidzufuhrbehälters; Vorsehen einer Einlassöffnung und einer Auslassöffnung für jede geformte Luftfeder; Anbringen eines ersten Rückschlagventils zwischen dem Fluidzufuhrbehälter und einer Einlassöffnung von zumindest einer der geformten Luftfedern in jeder der mehreren Druckzonen, sodass Fluid nur in die geformte Luftfeder strömen kann; Vorsehen eines regelbaren Druckentlastungsventils, wobei das regelbare Druckentlastungsventil betriebsfähig an der Auslassöffnung von zumindest einer geformten Luftfeder in jeder der mehreren Druckzonen angebracht wird.
     
    26. Verfahren nach Anspruch 23, ferner umfassend: Anbringen eines zweiten Rückschlagventils zwischen der Auslassöffnung und dem regelbaren Druckentlastungsventil, sodass verhindert ist, dass Fluid in die Auslassöffnung eindringt.
     
    27. Verfahren zum handhaben des Drucks in der Körperstützvorrichtung nach Anspruch 23, ferner umfassend:

    Vorsehen einer ersten Zone von geformten Luftfedern und einer zweiten Zone von geformten Luftfedern; und Anbringen eines dritten Rückschlagventils zwischen der ersten Zone von geformten Luftfedern und der zweiten Zone von geformten Luftfedern, sodass Luft von der ersten Zone von geformten Luftfedern zur zweiten Zone von geformten Luftfedern strömen kann, und verhindert ist, dass Luft von der zweiten Zone von geformten Luftfedern zur ersten Zone von geformten Luftfedern strömt.


     


    Revendications

    1. Appareil de support de corps (12) destiné à manipuler discrètement la pression sur un corps, comprenant :

    - une pluralité de cellules de fluide auto-gonflantes (14) fixées ensemble pour former une surface de support, sachant que chacune de la pluralité de cellules de fluide auto-gonflantes présente au moins un port (46), un extérieur (560) et un intérieur (562), et sachant que l'intérieur est défini par une zone ouverte pour recevoir du fluide ; et

    - un système de harnachement/aménagement (30) qui commande la direction et le débit volumique du fluide dans les cellules de fluide auto-gonflantes de telle sorte que la pression dans l'une ou un groupe de cellules de fluide auto-gonflantes peut être commandée discrètement ;

    caractérisé en ce que le système de harnachement (30) est configuré pour interconnecter de façon libérable la pluralité de cellules de fluide auto-gonflantes (14) dans une pluralité de configurations de harnachement.
     
    2. Appareil de support de corps selon la revendication 1, dans lequel chacune de la pluralité de cellules de fluide auto-gonflantes (14) est un élément à reformation qui s'effondre lorsqu'il est chargé avec une charge présentant une force supérieure à la somme des forces à l'intérieur de la cellule de fluide auto-gonflante (14), y compris la pression du fluide à l'intérieur de la cellule de fluide auto-gonflante multipliée par l'aire de la cellule de fluide auto-gonflante (14) supportant la charge, plus la force de reformation de la cellule de fluide auto-gonflante, et la cellule de fluide auto-gonflante se reforme lorsque ladite charge est réduite à une charge présentant une force inférieure à la somme des forces à l'intérieur de la cellule de fluide auto-gonflante et de la force de reformation de la cellule de fluide auto-gonflante.
     
    3. Appareil de support de corps selon l'une quelconque des revendications précédentes, dans lequel le système de harnachement (30) comprend une pluralité de réseaux de lignes de connexion qui créent une pluralité de zones de pression.
     
    4. Appareil de support de corps selon l'une quelconque des revendications précédentes, dans lequel le système de harnachement (30) est non-motorisé, et/ou les cellules de fluide auto-gonflantes sont cylindriques et/ou les cellules de fluide auto-gonflantes ne sont pas construites en mousse, et/ou les cellules de fluide auto-gonflantes (14) sont sélectionnées dans le groupe composé de ressorts hélicoïdaux simples, ressorts hélicoïdaux doubles, et soufflets, et/ou les cellules de fluide auto-gonflantes sont en plastique moulé.
     
    5. Appareil de support de corps selon la revendication 1, comprenant en outre un moyen pour fournir du fluide au système de harnachement (30).
     
    6. Appareil de support de corps selon la revendication 1, comprenant en outre un système de commande de pression électronique (130) pour la manipulation sélective des cellules de fluide auto-gonflantes, dans lequel la commande de pression électronique est fixée aux système de harnachement (30).
     
    7. Appareil de support de corps selon l'une quelconque des revendications précédentes, dans lequel les cellules de fluide auto-gonflantes (14) ont un modèle hélicoïdal sur la construction extérieure de telle sorte que les cellules de fluide auto-gonflantes s'effondrent lorsqu'elles sont chargées avec une force qui est supérieure à la somme de la force de la pression à l'intérieur de la cellule de fluide auto-gonflante et de la force de reformation de la cellule de fluide auto-gonflante, et se dilatent de façon inhérente lorsque la charge est réduite.
     
    8. Appareil de support de corps selon l'une quelconque des revendications précédentes, dans lequel les cellules de fluide auto-gonflantes (14) sont fixées de façon libérable au système de harnachement.
     
    9. Appareil de support de corps selon l'une quelconque des revendications précédentes, comprenant en outre un système de piégeage (550) qui restreint l'expansion d'au moins une de la pluralité de cellules de fluide auto-gonflantes (14).
     
    10. Appareil de support de corps selon la revendication 1, comprenant en outre : un caisson qui reçoit les cellules de fluide auto-gonflantes (14) et fixe les cellules de fluide auto-gonflantes (14) ensemble pour former au moins une construction de matelas, de siège ou de sofa.
     
    11. Appareil de support de corps selon la revendication 10, dans lequel le caisson est du plastique ou de la mousse.
     
    12. Appareil de support de corps selon la revendication 10 ou 11, dans lequel le caisson comprend des compartiments pour recevoir les cellules de fluide auto-gonflantes (14), de préférence dans lequel les compartiments comprennent des constructions filetées pour recevoir une cellule de fluide auto-gonflante ayant des filetages correspondants.
     
    13. Appareil de support de corps selon la revendication 10, 11 ou 12, comprenant en outre une garniture positionnée au-dessus des cellules (14) pour fournir un rembourrage supplémentaire, de préférence dans lequel la garniture est de la laine et/ou comprend en outre une couverture extérieure ayant une surface à faible frottement et à faible cisaillement, de préférence dans lequel la couverture extérieure est extensible.
     
    14. Appareil de support de corps selon l'une quelconque des revendications précédentes, dans lequel au moins un port (46) comprend une lame de contrôle sonore (48) pour réduire le son pendant le le gonflage et le dégonflage de la cellule de fluide (14).
     
    15. Appareil de support de corps selon la revendication 1, comprenant en outre : un décalage par ressort dans la pluralité de cellules de fluide auto-gonflantes (14) pour reformer la pluralité de cellules de fluide auto-gonflantes (14) de telle façon que chaque cellule de fluide auto-gonflante (14) s'effondre lorsqu'elle est chargée avec une charge présentant une force supérieure à la somme des forces à l'intérieur de la cellule de fluide auto-gonflante (14), y compris la pression du fluide à l'intérieur de la cellule de fluide auto-gonflante (14) multipliée par l'aire de la cellule de fluide auto-gonflante (14) supportant la charge, plus la force de reformation de la cellule de fluide auto-gonflante (14), et la cellule de fluide auto-gonflante (14) se reforme lorsque ladite charge est réduite à une charge présentant une force inférieure à la somme des forces à l'intérieur de la cellule de fluide auto-gonflante (14) et de la force de reformation de la cellule de fluide auto-gonflante (14), sachant que l'au moins un port est fixé de façon libérable au système de harnachement (30) qui commande la direction et le débit volumique du fluide dans la pluralité de cellules de fluide auto-gonflantes (14) de la surface de support de telle sorte que la pression dans la pluralité de cellules de fluide auto-gonflantes (14) peut être commandée discrètement.
     
    16. Appareil de support de corps selon la revendication 15, dans lequel la pluralité de cellules de fluide auto-gonflantes (14) présente chacune un diamètre circulaire ; et/ou inclut une construction extérieure sélectionnée dans le groupe consistant en un ressort hélicoïdal simple, ressort hélicoïdal double, ou un soufflet ; et/ou la pluralité de cellules de fluide auto-gonflantes (14) comprend en outre chacune un ressort et un matériau résilient, sachant que le matériau résilient est supporté avec une récupération par le ressort ; et/ou la couverture de surface est sélectionnée dans le groupe consistant en du tissu, du matériau étanche à l'eau, du caoutchouc, du plastique, du matériau drainant l'humidité ou des microfibres ; et/ou la pluralité de cellules auto-gonflantes (14) est construite chacune dans le groupe consistant en du matériau élastomère et du matériau moulé par compression ; et/ou comprenant en outre un port d'entrée et un port de sortie s'étendant depuis chacune de la pluralité de cellules de fluide auto-gonflantes.
     
    17. pareil de support de corps selon la revendication 15, dans lequel la cellule de fluide comprend un axe de rotation vertical et dans lequel la cellule de fluide s'effondre et se reforme dans une direction parallèle à l'axe de rotation vertical.
     
    18. Appareil de support de corps selon la revendication 1, dans lequel chaque cellule de fluide auto-gonflante présente un décalage par ressort pour reformer ladite cellule de fluide auto-gonflante et au moins un port ; et la surface de support comprend en outre un caisson adapté pour recevoir la la pluralité de cellules auto-gonflantes, sachant que le caisson fixe les cellules de fluide auto-gonflantes ensemble pour former une construction de matelas.
     
    19. Appareil de support de corps selon la revendication 18, comprenant en outre une lame de contrôle sonore pour réduire le son pendant le gonflage et le dégonflage de la cellule de fluide.
     
    20. Appareil de support de corps selon la revendication 18 ou 19, dans lequel la lame de contrôle sonore est sélectionnée dans le groupe consistant en du matériau flexible et du matériau rigide.
     
    21. Appareil de support de corps selon la revendication 19, dans lequel la lame de contrôle sonore est de la mousse réticulée.
     
    22. Appareil de support de corps selon la revendication 19, dans lequel la lame de contrôle sonore est une surface bigarrée.
     
    23. Procédé de manipulation de la pression fournie par un appareil de support de corps comprenant :

    - la fourniture d'un appareil de support (12) présentant une pluralité de ressorts pneumatiques moulés, dans lequel chacun des ressorts pneumatiques moulés présente un extérieur configuré pour reformer le ressort pneumatique moulé ;

    - la fixation d'un système de harnachement (30) à la pluralité de ressorts pneumatiques moulés, dans lequel le système de harnachement (30) comprend des conduits qui interconnectent la pluralité de ressorts pneumatiques moulés pour créer une première configuration de harnachement, sachant que la première configuration de harnachement comprend une pluralité de zones de pression ; et

    - la manipulation sélective de la pression dans l'appareil de support (12) en remplissant de façon sélective au moins une de la pluralité de zones de pression ;

    caractérisé par la libération de n'importe lequel des conduits d'air du système de harnachement (30) du ressort pneumatique moulé, et la fixation de n'importe lequel des conduits d'air à n'importe lequel des ressorts pneumatiques moulés pour créer une deuxième configuration de harnachement.
     
    24. Procédé selon la revendication 23, comprenant en outre : la fourniture d'un système de commande de pression électronique (130) pour fournir de la pression fluidique de façon sélective à la pluralité de zones de pression et/ou comprenant en outre : l'application séquentielle de pression à la pluralité de zones de pression et/ou comprenant en outre : la fourniture d'un caisson adapté pour recevoir les ressorts pneumatiques moulés.
     
    25. Procédé selon la revendication 23, comprenant en outre : la fourniture d'un réservoir d'alimentation de fluide ; la fourniture d'un port d'entrée et d'un port de sortie pour chaque ressort pneumatique moulé ; la fixation d'un premier clapet anti-retour entre le réservoir de fourniture de fluide et un port d'entrée d'au moins un des ressorts pneumatiques moulés dans chacune de la pluralité de zones de pression, de telle sorte que le fluide ne pourra s'écouler que dans le ressort pneumatique moulé ; la fourniture d'une soupape de décharge pouvant être commandée, sachant que la soupape de décharge pouvant être commandée est fixée de façon opérationnelle au port de sortie d'au moins un ressort pneumatique moulé dans chacune de la pluralité de zones de pression.
     
    26. Procédé selon la revendication 23, comprenant en outre : la fixation d'une deuxième soupape de décharge entre le port de sortie et la soupape de décharge pouvant être commandée, de telle sorte que le fluide ne puisse pas pénétrer dans le port de sortie.
     
    27. Procédé de manipulation de la pression dans l'appareil de support de corps selon la revendication 23, comprenant en outre : la fourniture d'une première zone de ressorts pneumatiques moulés et d'une seconde zone de ressorts pneumatiques moulés ; et la fixation d'une troisième soupape de décharge entre la première zone de ressorts pneumatiques moulés et la seconde zone de ressorts pneumatiques moulés de telle façon que l'air puisse s'écouler de la première zone de ressorts pneumatiques moulés vers la seconde zone de ressorts pneumatiques moulés et que l'air ne puisse pas s'écouler de la seconde zone de ressorts pneumatiques moulés dans la première zone de ressorts pneumatiques moulés.
     




    Drawing















































    Cited references

    REFERENCES CITED IN THE DESCRIPTION



    This list of references cited by the applicant is for the reader's convenience only. It does not form part of the European patent document. Even though great care has been taken in compiling the references, errors or omissions cannot be excluded and the EPO disclaims all liability in this regard.

    Patent documents cited in the description