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Method and System for Forming an Improved Bed

20170340134 · 2017-11-30

    Inventors

    Cpc classification

    International classification

    Abstract

    An improved bed and method of forming with the required profile and localised support for a user by the improved bed at various sections of the bed including shoulder (A), lumbar (B) hip and lower body (C) such as by the mattress (15) having selected forms or voids a Shoulder Pressure Attenuation Area (SPAAM) a Lumbar Pressure Attenuation Area (LPAAM) a Hip Pressure Attenuation Area (HPAAM) and the base (26) having a Shoulder Pressure Attenuation Area (SPAAB) a Lumbar Pressure Attenuation Area (LPAAB) a Hip Pressure Attenuation Area (HPAAB) locatable at different locations along the longitudinal extension of the bed (32,42,52) with a Shoulder Pressure variation means (31) a Lumbar Pressure variation means (41) and a Hip Pressure variation means (51) comprising adjustable slats driven by electric motors.

    Claims

    1: A method of forming a support structure to match a user comprising the steps of a) determining a plurality of essential positions along the profile of the user; b) determining required support needs at the essential positions of the profile of the user; and c) forming a support structure with differing support characteristics along the length of the support structure wherein the matching of the support structure to the user matches the required support needs of the user at the essential positions of the profile of the user.

    2: The method of forming a support structure to match a user according to claim 1 wherein the differing support characteristics matching required support needs comprises one or more of: a. depression, being positive or negative depression, to allow varying width of portion of user body at essential positions along the profile of the user; b. support to support the portion of user body at essential positions along the profile of the user; and c. pressure attenuation to vary the pressure on the width of portion of user body at essential positions along the profile of the user to match: i. the weight at the width of portion of user body at essential positions along the profile of the user; or ii. the cushioning contact need at the width of portion of user body at essential positions along the profile of the user.

    3: The method of forming a support structure to match a user according to claim 1 wherein the essential positions of the profile of the user comprises at least one or more of: a. Shoulder shoulder area; b. Lumbar lumbar area; and c. Hip hip area.

    4: The method of forming a support structure to match a user according to claim 1 wherein the forming of the support structure with differing support characteristics along the length of the support structure comprises the steps of: a. using the measured essential positions along the profile of the user, create corresponding essential positions along the length of a support structure matching the longitudinal spacing along the profile of the user; b. using the detected required support needs at the essential positions and creating the support structure at the corresponding positions matching along the user profile; c. completing the formation of the support structure along its length.

    5: The method of forming a support structure to match a user according to claim 1 wherein the forming of the support structure with differing support characteristics along the length of the support structure comprises the steps of: a. providing a general structure of a bed having a plurality of essential positions along the support structure; b. using the measured essential positions along the profile of the user, moving longitudinally corresponding essential positions along the length of a support structure to match the longitudinal spacing along the profile of the user; and c. using the detected required support needs at the essential positions modifying the plurality of essential positions to match the required support at the corresponding positions matching along the user profile.

    6-7. (canceled)

    8: The method of forming a support structure to match a user according to claim 4 wherein the weight support at each essential position is formed to give support proportional to P/D where P is weight and D is depression.

    9: The method of forming a support structure to match a user according to claim 1 wherein shoulder, waist and lumbar pressure attenuation areas, respectively Ks, Kw, Kh, are ‘inter-related’ as per the equations
    Kw=Pw/Dw,
    Kh=Ph/Dh=Ph/I+H
    Ks=Ps/Ds=Ps/I+L+S wherein I is Indentation into mattress; H is Hip protrusion past waist; P is the weight; D is the depression; and S is Shoulder protrusion past hip.

    10: The method of forming a support structure to match a user according to claim 1 wherein the support structure comprises: one or more pressure variation blocks being located at the essential positions of the profile of a user; and a plurality of supports receivable by the one or more pressure variation blocks.

    11: The method of forming a support structure according to claim 10 wherein the support structure further comprises a location variation system adapted to move the one or more pressure variation blocks in a longitudinal direction of the support structure, and wherein in forming the support structure the one or more plurality of supports and the one or more pressure variation blocks is adjusted vertically and longitudinally of the support structure separately or together to provide required support needs to suit a user's profile.

    12-49. (canceled)

    50: An improved support structure for a bed or chair comprising one or a series of mattresses/cushions or an adjustable base/under-structure comprising: a. a shoulder support locatable at a shoulder pressure attenuation area providing a shoulder pressure attenuation in order to improve the posture of the user of the support structure, i. wherein portions of the shoulder support are located in shoulder pressure attenuation areas in the mattress or cushions of a support structure and/or in a base or under-structure of the support structure; and ii. wherein the shoulder pressure attenuation area in both the base/under-structure and the mattress/cushions of the support structure being separately alignable to each other and separately including shoulder supports but coordinating to provide a combined shoulder pressure attenuation area; b. a shoulder pressure variation location means for providing a variation along the support structure to suit different users of the location of the shoulder pressure attenuation area in the mattress/cushions or the base/under-structure of the support structure; i. wherein parts of a shoulder pressure variation location means are located in the base/under-structure and/or the mattress/cushions of the base/under-structure and mattress/cushions of the support structure; and ii. wherein the mattress/cushions shoulder pressure variation location means and the base/under-structure shoulder pressure variation location means being separately movable longitudinally along the support structure relative to each other but coordinating to provide location of the combined shoulder pressure attenuation area to suit different users.

    51: The improved a support structure for the bed according to claim 50 wherein the shoulder pressure attenuation area is a lower density material to the other bed support parts of the mattress portion of a base and mattress bed.

    52. (canceled)

    53: The improved support structure for the bed according to claim 50 wherein the shoulder pressure attenuation area has a movable support that can be altered in vertical direction to provide a variation in height of the shoulder pressure attenuation area of the mattress relative to the support of other bed support parts of the mattress portion of a base and mattress bed.

    54: The improved support structure for the bed according to claim 50 further comprising a shoulder pressure recess in order to allow receipt of the breadth of the user at the shoulder position improve the posture of the user of the bed.

    55: The improved support structure for the bed according to claim 50 further comprising a shoulder pressure variation in a direction to the vertical at a shoulder receiving portion and a variation of the location of the shoulder receiving portion along the bed to suit different users.

    56: The improved support structure for the bed according to claim 50 further comprising the shoulder pressure attenuation area providing variation of the “shoulder area” in a localised area from the top surface of the mattress, which is easily opened or the topmost layer of which is able to be lifted off, to produce the desired depression (Ds) in a direction to the vertical at a shoulder receiving portion and a variation of the location of the shoulder receiving portion along the bed to suit different users.

    57: The improved support structure for the bed according to claim 50 further comprising a shoulder pressure attenuation area providing variation of the “shoulder area” in a localised area can be varied from the ‘side wall of the mattress’ to the desired depression (Ds).

    58: The improved support structure for the bed according to claim 50 further comprising a shoulder pressure attenuation area providing variation of the “shoulder area” in a localised area may vary from the side wall of the mattress to the desired depression (Ds).

    59: The improved support structure for the bed according to claim 50 further comprising: a. a lumbar support locatable at a lumbar pressure attenuation area providing a lumbar pressure attenuation in order to improve the posture of the user of the bed, i. wherein portions of the lumbar support are located in lumbar pressure attenuation areas in the mattress of a bed and/or in a base of the bed; and ii. wherein the lumbar pressure attenuation area in both the base and the mattress of the bed being separately alignable to each other and separately including lumbar supports but coordinating to provide a combined lumbar pressure attenuation area; b. a lumbar pressure variation location means for providing a variation along the bed to suit different users of the location of the lumbar pressure attenuation area in the mattress or the base of the bed; i. wherein parts of a lumbar pressure variation location means are located in the base and/or the mattress of the base and mattress of the bed; and ii. wherein the mattress lumbar pressure variation location means and the base lumbar pressure variation location means being separately movable longitudinally along the bed relative to each other but coordinating to provide location of the combined lumbar pressure attenuation area to suit different users.

    60: The An improved support structure for the bed according to claim 50 further comprising: a. a hip support locatable at a hip pressure attenuation area providing a hip pressure attenuation in order to improve the posture of the user of the bed, i. wherein portions of the hip support are located in hip pressure attenuation areas in the mattress of a bed and/or in a base of the bed; and ii. wherein the hip pressure attenuation area in both the base and the mattress of the bed being separately alignable to each other and separately including hip supports but coordinating to provide a combined hip pressure attenuation area; and b. a hip pressure variation location means for providing a variation along the bed to suit different users of the location of the hip pressure attenuation area in the mattress or the base of the bed, i. wherein parts of a hip pressure variation location means are located in the base and/or the mattress of the base and mattress of the bed; and ii. wherein the mattress hip pressure variation location means and the base hip pressure variation location means being separately movable longitudinally along the bed relative to each other but coordinating to provide location of the combined hip pressure attenuation area to suit different users.

    61: The improved support structure for the bed according to claim 50 comprising a lumbar support locatable at a lumbar pressure attenuation area providing lumbar pressure attenuation in order to improve the posture of the user of the bed.

    62-63. (canceled)

    64: The improved support structure for the bed according claim 50 wherein the lumbar pressure attenuation area is in both the base portion and the mattress portion of a base and mattress bed.

    65-68. (canceled)

    69: The improved support structure for the bed according to claim 50 further comprising: a lumbar pressure variation location means for providing a variation of the location of the lumbar receiving portion along the bed to suit different users; and a shoulder pressure variation location means for providing a variation of the location of the shoulder receiving portion along the bed to suit different users.

    70: The improved support structure for the bed according to claim 50 further comprising: a lumbar pressure variation in a direction to the vertical at a lumbar supporting portion and a variation of the location of the lumbar supporting portion along the bed to suit different users; and a shoulder pressure variation in a direction to the vertical at a shoulder supporting portion and a variation of the location of the shoulder supporting portion along the bed to suit different users.

    71: The improved support structure for the bed according to claim 50 wherein in the case of a shoulder, hip and lumbar pressure attenuation areas, Ks, Kw, Kh, are ‘interrelated’ as per the above equations
    Kw=Pw/Dw,  i.
    Kh=Ph/Dh=Ph/I+H and  ii.
    Ks=Ps/Ds=Ps/I+L+S  iii. by relative adjustment of the firmness of the support materials (springs, foam, latex, gas bag, liquid bag, etc) but which vary within the mattress and within the limits set as: a. positive or negative Indentation I to vary between 1 mm and 50 mm, b. Hips to protrude past waist by L: 1 mm to 70 mm and c. Shoulders to protrude past hips by S: −30 mm (smaller width than hips) to 100 mm.

    72: The improved support structure for the bed according to claim 50 wherein the mattress or a series of mattresses further comprising the shoulder pressure attenuation area providing variation of the “shoulder area” in a localised area by one or more of: a. the “shoulder area” varied in a localised area from the ‘top surface of the mattress’ (easily opened or the topmost layer of which is able to be lifted off) to produce the desired depression (Ds); b. the “shoulder area” varied from the ‘top surface of the mattress’ to produce the desired depression (Ds) and the lumbar area varied from the ‘side wall of the mattress’ to the desired depression (Dw); and c. the “shoulder area” varied from the top surface of the mattress' to produce the desired depression (Ds), the lumbar area may be varied from the ‘side wall of the mattress’ to the desired depression (Dw) and the hip area may be varied from the ‘side wall of the mattress’ to the desired depression (Dh).

    73: The improved support structure for the bed according to claim 50 having an adjustable base which comprises one or more of: i. a means of causing vertical displacement +ve or −ve under the shoulder, lumbar or hip area(s) by raising or lowering the support member(s) either manually or by powered means or by turning a rod/shaft which in turn turns some cams which lower or raise a supporting member at that area; ii. the mattress may also have a means of moving the means that causes vertical displacement at the shoulder, lumbar, hip, and any other area(s) to be moved horizontally towards the head or the feet of the user; iii. the base has a means of causing vertical displacement +ve or −ve under the lumbar area by raising or lowering the support member(s) using motors (powered by electricity, magnetic field, pressure means, other) or a series of levers at that area; iv. the base may also have a means of moving the ‘means that causes vertical displacement’ at the lumbar area horizontally towards the head or the feet of the user; v. a base with a means of causing vertical displacement +ve or −ve under the hip, and any other area of the body and a by raising or lowering the support member(s) either manually or by powered means or by turning a rod/shaft which in turn turns some cams which lower or raise a supporting member at that area; vi. a means of moving the ‘means that causes vertical displacement’ horizontally towards the head or the feet of the user; vii. a further means of causing vertical displacement +ve or −ve under the any other area of the body by either manually or by powered means or by turning a rod/shaft which in turn turns some cams which lower or raise a supporting member at that area; and viii. a means of moving all such means that causes +tve or −tve vertical displacement horizontally towards the head or the feet of the user.

    74: The improved support structure for the bed according to claim 50 comprising: one or more pressure variation blocks being located at predetermined shoulder, waist and lumbar pressure attenuation areas providing a shoulder, waist and lumbar attenuation according to the profile of a user, the pressure variation blocks being linked together by knuckles at knuckle joints to form a chain, whereby a knuckle joint allows angular adjustment of one knuckle relative to its neighbour to alter the positioning of the pressure variation blocks and thereby configuration of the base; one or more movable supports mounted on the one or more pressure variation blocks; a shoulder pressure variation location means for providing a variation of the one or more movable supports on the one or more pressure variation blocks in a direction to the vertical at a shoulder receiving portion; a waist pressure variation location means for providing a variation of the one or more movable supports on the one or more pressure variation blocks in a direction to the vertical at a waist receiving portion; and a lumbar pressure variation location means for providing a variation of the one or more movable supports on the one or more pressure variation blocks in a direction to the vertical at a lumbar receiving portion; wherein the one or more pressure variation blocks of the base of the support structure are separately adjustable in the predetermined pressure attenuation areas relative to the mattress to suit different users of the support structure.

    75: An improved support structure having a plurality of supports locatable at a plurality of pressure attenuation areas in each or all its planes to improve posture of a user and adjustability of the bed comprising: a mattress and base support therefor; and a support system adjustably locatable at predetermined pressure attenuation areas of the mattress and base of the bed, wherein portions of the support system in the predetermined pressure attenuation areas of the base of the bed comprise a carriage movably mounted on a longitudinal track in the base, wherein the carriage is adapted to receive an adjustable platform or arms supporting one or more slats or layers at varying heights, and one or more drive means for moving the carriage along the track in a longitudinal direction and/or altering the height of the one or more support members separately or together by the platform or arms; wherein the predetermined pressure attenuation areas of the base of the bed are separately adjustable in the predetermined pressure attenuation areas relative to the mattress to suit different users of the bed.

    76: An improved bed having a plurality of supports locatable at a plurality of pressure attenuation areas in each or all its planes to improve posture of a user and adjustability of the bed comprising: a mattress and base support therefor; and a shoulder support system adjustably locatable at a shoulder pressure attenuation area, wherein portions of the shoulder support are located in shoulder pressure attenuation areas of the mattress and base of the bed; wherein portions of the shoulder support system in the shoulder attenuation area of the base of the bed comprise a carriage movably mounted on a longitudinal track located in the base, wherein the carriage is adapted to receive an adjustable platform supporting one or more shoulder support members (slats or layers) at varying heights, and one or more drive means for moving the carriage along the track in a longitudinal direction and/or altering the height of the one or more shoulder support members separately or together by the platform; wherein the shoulder attenuation area of the base of the bed is adjustable relative to the portions of the shoulder support located in shoulder pressure attenuation areas of the mattress to suit different users of the bed; and wherein both the base and the mattress of the bed being separately alignable to each other and separately comprising shoulder support members but coordinating to provide a combined shoulder pressure attenuation area.

    Description

    BRIEF DESCRIPTION OF THE DRAWINGS

    [0144] Notwithstanding any other forms which may fall within the scope of the present invention, a preferred embodiment/preferred embodiments of the invention will now be described, by way of example only, with reference to the accompanying drawings in which:

    [0145] a) FIG. 1 is a diagrammatic view of a user on a bed;

    [0146] b) FIGS. 2 and 3 are diagrammatic views of locations of essential positions on profile of user and relative widths, spacing and weight at these locations;

    [0147] c) FIG. 4 is a diagrammatic flow diagram of the steps of method of forming a bed to match a user in accordance with a preferred embodiment of the present invention;

    [0148] d) FIG. 5 is a diagrammatic flow diagram of the steps of forming the bed directly from the determined characteristics of the user in accordance with a preferred embodiment of the present invention;

    [0149] e) FIG. 6 is a diagrammatic flow diagram of the steps of forming the bed from a pre-formed structure modified to the determined characteristics of the user in accordance with a preferred embodiment of the present invention;

    [0150] f) FIG. 7 is an diagrammatic side view of an improved bed having a mattress and a base in accordance with a preferred embodiment of the present invention; and FIG. 7 is the required profile of support for a user by the improved bed at various sections of the bed including shoulder (A), lumbar (B) and lower body (C);

    [0151] g) FIG. 8 is a diagrammatic flow diagram of the steps of detecting and determining the determined characteristics of the user so as to form the bed in accordance with a preferred embodiment of the present invention;

    [0152] h) FIG. 9 is a diagrammatic flow diagram of the steps of determining the differing support characteristics needed to match the determined characteristics of the user so as to form the bed in accordance with a preferred embodiment of the present invention;

    [0153] i) FIGS. 10 and 11 are illustrative longitudinal cross-sectional views of an improved bed in accordance with another preferred embodiment of the present invention with a mattress having a Shoulder Pressure Attenuation Area (SPAAM) locatable at different locations along the longitudinal extension of the bed;

    [0154] j) FIG. 12 is an illustrative longitudinal cross-sectional view of an improved bed in accordance with another preferred embodiment of the present invention with a base having a Shoulder Pressure Attenuation Area (SPAAB) locatable at different locations along the longitudinal extension of the bed;

    [0155] k) FIG. 13 is an illustrative longitudinal cross-sectional view of an improved bed in accordance with another preferred embodiment of the present invention with [0156] i) a mattress having a Shoulder Pressure Attenuation Area (SPAAM) locatable at different locations along the longitudinal extension of the bed and a Lumbar Pressure Attenuation Area (LPAAM) locatable at different locations along the longitudinal extension of the bed and a Hip Pressure Attenuation Area (HPAAM) locatable at different locations along the longitudinal extension of 25 the bed; and [0157] ii) a base having a Shoulder Pressure Attenuation Area (SPAAB) locatable at different locations along the longitudinal extension of the bed and a Lumbar Pressure Attenuation Area (LPAAB) locatable at different locations along the longitudinal extension of the bed and a Hip Pressure Attenuation Area (HPAAB) locatable at different locations along the longitudinal extension of the bed;

    [0158] l) FIGS. 14 and 15 are diagrammatic views of alternative supporting means that can be used at the Shoulder Pressure Attenuation Area (SPAAB) or the Lumbar Pressure Attenuation Area (LPAAB) or the Hip Pressure Attenuation Area (HPAAB)

    [0159] m) FIGS. 16 and 17 are plot comparisons of pressures recorded of users with or without the bed of the invention.

    DESCRIPTION OF PREFERRED EMBODIMENTS

    [0160] It should be noted in the following description that like or the same reference 10 numerals in different embodiments denote the same or similar features.

    a) General Structure Requirements

    [0161] Referring to the drawings and particularly FIGS. 1 to 3 and 7 there is shown 15 an improved bed with the required profile of support for a user by the improved bed at various sections of the bed including shoulder (A), lumbar (B) hip and lower body (C).

    [0162] In order to provide a further level of macro adjustment, height adjustment of individual slats in a platform base would provide clear advantages. Whilst some prior art devices are known which provide slating adjustment for bed bases incorporating individual transverse slats, none of the known prior art devices provide a ready means of adjusting individual slats in a quantitative and calibrated manner so as to allow the user or a medical adviser a satisfactory means of making suitable adjustment to confidently meet an individual's particular requirements.

    [0163] If such individual height adjustment could be provided and could be operated 25 external to the bed base, a means of ready and convenient alteration of a bed's macro support would be achieved.

    [0164] Since people have unique body shapes and weight distribution along the length of their bodies, mattress and bed ensembles need some means of variable support along the length of the mattress. In particular the adjustment is required from the shoulder down to the waist, lower back, hip, under the knees and ultimately at the lower leg and feet.

    [0165] Of prime importance is the correct support of a person in a bed, particularly if a person is in bed for a long period such as in the case of incapacitated people or 21 patients in hospitals. It is well recognized throughout the health fraternity that ‘a person's bed plays a significant part in the person's health and well-being’. Health experts tell us that for the human body to rest well, it needs to be supported in its natural shape. This natural/neutral posture imposes the least amount of stress on 5 muscles, joints and the spinal/vertebral column. The user can get distortion from this position, as stresses can occur in muscles, nerves, joints and wedging can occur in the 10 spinal disks.

    b) Requirements of the User

    [0166] A principal object of a bed mattress is to provide optimal support for the user commensurate with their physical and medical requirements. Such optimal support requires the mattress to conform substantially to the shape of the user's body when resting on the mattress. Unfortunately, most available mattresses react proportionally to the weight distribution of the user's body, compressing most where the body is heaviest and least where the body is lightest. This results in mattress conformation which does not reflect the actual physical shape of the user's body, but rather reflects a shape imposed on the mattress by the weight distribution of the body. Accordingly, the user's body adopts a shape, which results from the weight distribution of body segments, which does not reflect the actual body shape when resting on a standard mattress. The user's skeleton is then twisted and distorted to fit the shape of the mattress as it has reacted to the user's weight distribution.

    [0167] The areas of greatest distortion are the shoulder and lumbar/hip regions. The shoulders are usually the widest part of the human body but occur at the lightest region of the torso. Accordingly the shoulders, when a user is resting on their side, do not push a mattress down much in accordance with the body shape resulting in a degree of twisting of the body when the user is sleeping on their side. In contrast to the shoulder and upper torso region, the hips and lumbar region of the torso are generally much heavier and this region of the user's body will compress that part of a mattress disproportionately. In standard mattresses of uniform stiffness this results in the pelvis region being the lowest supported part of the body.

    [0168] Furthermore, the close proximity of the hip region to the waist region of the user tends to deprive the waist, and important lumbar region, of the user with adequate support as the mattress is highly compressed at the hip region and the adjoining area of the mattress leading into the lumbar region is also compressed where it should actually be providing support.

    c) Designing of the Bed.

    [0169] Referring to FIGS. 4 and 5 According to the present invention, there is provided a method of forming a bed to match a user including the steps of

    [0170] a) Determining a plurality of essential positions along the profile of the user;

    [0171] b) Determining required support needs at the essential positions of the profile of the user; and

    [0172] c) Forming a bed with differing support characteristics along the length of the bed wherein the matching of the bed to the user matches the required support needs of the user at the essential positions of the profile of the user.

    [0173] Preferably the differing support characteristics matching required support needs includes one or more of:

    [0174] a) Depression, being positive or negative depression, to allow varying width of 15 portion of user body at essential positions along the profile of the user;

    [0175] b) Support to support the portion of user body at essential positions along the profile of the user; and

    [0176] c) Pressure attenuation to vary the pressure on the width of portion of user body at essential positions along the profile of the user to match: [0177] i) The weight at the width of portion of user body at essential positions along the profile of the user; or [0178] ii) The cushioning contact need at the width of portion of user body at essential positions along the profile of the user.

    [0179] The essential positions of the profile of the user can include at least one or more of Shoulder area, Lumbar area and Hip area.

    [0180] The forming of the bed with differing support characteristics along the length of the bed can include the steps of:

    [0181] a) Using the measured essential positions along the profile of the user, create corresponding essential positions along the length of a bed matching the longitudinal spacing along the profile of the user;

    [0182] b) Using the detected required support needs at the essential positions and creating 5 the bed at the corresponding positions matching along the user profile;

    [0183] c) Completing the formation of the bed along its length.

    [0184] In order to provide optimal support a bed mattress should be able to react independently to the different regions of the users body and at least able to provide dedicated support for the upper, middle and lower torso regions, which all have quite distinct weight distribution and support requirements.

    [0185] An analysis of these three regions designated Region “C” for upper torso; Region “B” for middle torso; and Region “P” for lower torso, highlights the different requirements needed to provide optimal support.

    [0186] Given that the weight of the lower torso (pelvis region “P”) Wp is about 130% 15 of the weight of the middle torso (Belly region “B”) Wb; and the weight of the upper torso (chest region “C”) We is about 50% of the weight of Wb. Then Wb=Wp/I. 3=0.77 Wp Wc=0.5Wb=0.39 Wp

    [0187] If the mattress deflection at region B is minimal-say 15 mm and the lumbar curve of a user's spine is about 60 mm then for a mattress of uniform stiffness or 20 elasticity, deflection at region P and region C should be about 15+60 mm=75 mm. Such a deflection will require a spring stiffness Kb of (75/15)×[(1.0/1.3)×Kp]=385% Kp The spring stiffness Kc at region C should be (0.5/1.3)×Kp=39% Kp In summary, in order to provide optimal support over the region C, B and P the following general variation in firmness of the support material would be desirable.

    TABLE-US-00002 Upper Middle Lower Torso Kc Torso Kb Torso Kp 0.4 Kp 3.8 Kp Kp Kc 9.5 Kc  2.5 Kc 0.1 Kb Kb 0.26 Kb

    [0188] Such variation in firmness of the support material is not usually available in production mattresses. The high cost of producing a mattress with such degrees of variation in stiffness plus the differing height of the end user necessitating different placement of regions C, B and P has prohibited the manufacture and availability of mattresses with such performance characteristics to date.

    [0189] In order to provide a mattress or bed base or combination, which can be considered as a ‘whole body support structure’ in one embodiment, it is necessary to calculate the requirements it needs to fulfill in order to minimize distortion of the body being supported. There are three main areas that have very different and specific needs:

    a) a first corresponding with the waist and lumbar,
    b) a second corresponding with the hip, and
    c) a third corresponding with the shoulders.

    [0190] If we virtually consider the body as transverse slices from head to toe, if we define that: [0191] i) The weight of a transverse slice “n” is Pn [0192] ii) The depression of the mattress for natural alignment of transverse slice “n” is Dn [0193] iii) The width differential of the hips to the waist is “L” [0194] iv) The width differential of the shoulder to the hips is “S” [0195] v) The embedment/insertion of the body at the waist (or narrowest part of the torso) is “I” [0196] vi) The firmness of spring or support material at point “n” is Kn [0197] Then


    Pn=Kn*Dn and Dn=Pn/Kn

    [0198] Further if we define that:

    [0199] a) the depression of the mattress at the waist/lumbar as Dw, the weight of a unit area at that part of the body as Pw,

    [0200] b) the depression of the mattress at the shoulders as Ds, the weight of a unit area at that part of the body as Ps,

    [0201] c) the depression of the mattress at the hips Dh, the weight of a unit area at that part of the body as Ph,

    [0202] d) the stiffness/supportive ability of the mattress of a unit area at that part of the body as Ks (shoulder), Kw (waist/lumbar), and Kh (hips).

    [0203] e) and that


    At the waist Dw=I Kw=Pw/I


    At the hip Dh=I+L Kh=Ph/I+L


    At the shoulder Ds=I+L+S Ks=Ps/I+L+S


    Then


    Ks=Kh(Ps/Ph)*{(I+L)/I+L+S)}


    Kw=Kh*(Pw/Ph)*{(I+L)/I)}.


    And at point “n” along the torso Kn=Wn/I+Ln+Sn

    [0204] Calculations have been carried out for such range of values as:

    a) L or lumbar curve=20, 35, 50, 65)
    b) Pw the weight/unit area at the Waist as being Double the weight that at the Shoulders and =(2*Ps), and the weight per unit area at the hips Ph as 2.5 times that at 15 the shoulders=(2.5*Ps)
    c) The depression on the bed at the waist/lumbar: Dw as 1 to 30 mm, (calculate for Dw=to 1, 5, 10, 20, 30) 20 ix) the shoulders to be wider than the hips by S which can be from 0 to 100 mm (calculate for S=to 0, 25, 50, 75, 100) x) it should be noted that for stomach sleepers, L refers to the vertical difference between the compressed stomach and upper thighs, and S as the vertical difference between the compressed stomach and the outer part of the body (usually the chest).

    [0205] Since the depression Dn of the bed at a point ‘n’ is given by the equation Dn=Pn/Kn, conversely: Kn=Pn/Dn (Where Pn is the weight supported by the bed at point ‘n’ and Kn is the effective firmness of the bed at point ‘n’)

    [0206] Also it is important to note that if the bed comprises a mattress and a base then the equation Dn=Wn/Kn becomes Dn=Wn/Kn of mattress material+Kn of Base material)

    [0207] Tabulating values for these different combinations gives a picture of the values and inter-relationship between these factors.

    [0208] For a MALE, one not-so-extreme situation would be:

    a) Weight at stomach approx.=2*that at shoulders, Weight at hips and upper thighs approx.=to weight at stomach so Pw=2*Ps, Ph=Pw=2*Ps
    b) A Lumbar curve or hips wider than waist of say: 35 mm and shoulders wider than hips 75 mm
    c) TOTAL VARATION 110 mm. This body shape is very common with athletes and tradesmen.

    [0209] For a FEMALE, one not-so-extreme situation would be:

    a) Weight at stomach approx.=2.0*that at shoulders,
    b) Weight at hips and upper thighs approx. 15% extra to weight at stomach so Pw=2*Ps, AND Ph=1.15*Pw=2.3*Ps
    c) A Lumbar curve or hips wider than waist of say: 65 mm and shoulders wider than hips −15 mm

    d) TOTAL VARATION 50 mm

    [0210] d) Designing of the Bed from a Pre-Formed

    [0211] Referring to FIG. 6 in another form the method of forming a bed to match a user can include the step of pre-forming of the bed with differing support characteristics along the length of the bed includes the steps of: [0212] a) Providing a general structure of a bed having a plurality of essential positions along the bed; [0213] b) Using the measured essential positions along the profile of the user, moving longitudinally corresponding essential positions along the length of a bed to match the longitudinal spacing along the profile of the user; and [0214] c) Using the detected required support needs at the essential positions modifying the plurality of essential positions to match the required support at the corresponding positions matching along the user profile.

    [0215] 3 examples of how to shape the bed for each (male and female) on their own or on each respective side of the bed if they were a couple:

    [0216] We have the various equations:


    Kn=Pn/Dn which means that ‘at point n’,

    [0217] the Depression=the weight of the body at point n/firmness of the mattress at point n

    [0218] Specifically, at the waist, shoulders and hips—


    Kw=Pw/Dw,


    Kh=Ph/Dh=Ph/I+H


    Ks=Ps/Ds=Ps/I+L+S

    [0219] As described before, the values for Ks, Kw, Kh, can range for

    [0220] a) Indentation into mattress I=1, 20, 40 1<I<40

    [0221] b) Hip protrusion past waist H=40, 60, 75 1<L<75

    [0222] c) Shoulder protrusion past hip S=−30, 0, 25, 50, 75, 100−30<S<45

    [0223] The equations become a little more complex when ‘Body Alignment’ is arrived at by [0224] i)—varying the firmness within and along the mattress (head to toe) and by [0225] ii)—varying the surface profile of the base/mattress support

    [0226] This is shown in the following tables and examples and particularly Example 3.

    [0227] It should be noted that the equations for firmness at a point “n” or waist, hip and shoulder are where the stiffness of the BED as a whole is Kn. It should be understood though that


    Kn total=Kn base+Kn mattress

    which affects the way the calculations are done in Examples 1, 2 and 3

    [0228] Kn is a function of the properties of the material or combination of materials used at that point to provide the required support required at that point. i.e. K of soft foam is low. K is therefore a constant and a Kn can be determined for particular materials, thickness of materials, combination of materials and form a particular Kn that is a constant for that particular material or combination of materials. Therefore when needing a Kn it is possible to know which material or combination of materials will provide that Kn and use it at the required location.

    TABLE-US-00003 TABLE 1 for Depression/embedment at the waist of: Dw = 1 mm 5 mm 10 mm 20 mm 30 mm ‘L’ Ks Kw Kh ‘L’ Ks Kw Kh ‘L’ Ks Kw Kh ‘L’ Ks Kw Kh ‘L’ Ks Kw Kh Shoulder wider than waist by: S = 0 mm 20 0.4 16.8 1 20 0.4 4 1 20 0.4 2.4 1 20 0.4 1.6 1 20 0.4 1.3 1 35 0.4 28.8 1 35 0.4 6.4 1 35 0.4 3.6 1 35 0.4 2.2 1 35 0.4 1.7 1 50 0.4 40.8 1 50 0.4 8.8 1 50 0.4 4.8 1 50 0.4 2.8 1 50 0.4 2.1 1 65 0.4 52.8 1 65 0.4 11 1 65 0.4 6 1 65 0.4 3.4 1 65 0.4 2.5 1 S = 25 mm 20 0.18 16.8 1 20 0.2 4 1 20 0.2 2.4 1 20 0.2 1.6 1 20 0.4 1.3 1 35 0.24 28.8 1 35 0.3 6.4 1 35 0.3 3.6 1 35 0.2 2.2 1 35 0.4 1.7 1 50 0.27 40.8 1 50 0.3 8.8 1 50 0.3 4.8 1 50 0.3 2.8 1 50 0.4 2.1 1 65 0.29 52.8 1 65 0.3 11 1 65 0.3 6 1 65 0.3 3.4 1 65 0.4 2.5 1 S = 60 mm 20 0.12 16.8 1 20 0.2 4 1 20 0.2 2.4 1 20 0.2 1.6 1 20 0.2 1.3 1 35 0.17 28.8 1 35 0.2 6.4 1 35 0.2 3.6 1 35 0.2 2.2 1 35 0.2 1.7 1

    TABLE-US-00004 TABLE 2 for Depression/embedment at the waist of: Dw = 1 mm 5 mm 10 mm 20 mm 30 mm ‘L’ Ks Kw Kh ‘L’ Ks Kw Kh ‘L’ Ks Kw Kh ‘L’ Ks Kw Kh ‘L’ Ks Kw Kh S = 75 mm 20 0.09 16.8 1 20 0.1 4 1 20 0.1 2.4 1 20 0.1 1.6 1 20 0.1 1.3 1 35 0.13 28.8 1 35 0.2 6.4 1 35 0.2 3.6 1 35 0.1 2.2 1 35 0.1 1.7 1 50 0.16 40.8 1 50 0.2 8.8 1 50 0.2 4.8 1 50 0.2 2.8 1 50 0.2 2.1 1 65 0.19 52.8 1 65 0.2 11 1 65 0.2 6 1 65 0.2 3.4 1 65 0.2 2.5 1 S = 100 mm 20 0.07 16.8 1 20 0.1 4 1 20 0.1 2.4 1 20 0.1 1.6 1 20 0.1 1.3 1 35 0.11 28.8 1 35 0.1 6.4 1 35 0.1 3.6 1 35 0.1 2.2 1 35 0.1 1.7 1 50 0.14 40.8 1 50 0.1 8.8 1 50 0.1 4.8 1 50 0.1 2.8 1 50 0.1 2.1 1 65 0.16 52.8 1 65 0.2 11 1 65 0.2 6 1 85 0.2 3.4 1 65 0.2 2.5 1

    Example Bed 1. (Corrective Shaping is Affected Fully within the Mattress)

    [0229] The mattress for each is made with a hybrid of varying firmness along the bed such that the depression at the 3 key points are appropriate for each.

    i) for the male, for a mattress on which the Dw (depression at waist)=20 mm,


    Ks,m=Kh×(20+35)/(20+35+75)×½=0.21*Kh,m and  (1)


    Kw,m=Kh×(20+35)/20×1/1=2.75*Kh,m  (2)

    ii) for the female, for a mattress on which the Dw (depression at waist)=20 mm,


    Ks,f=Kh,f×(20+65)/(20+65−15)×1/2.3=0.74*Kh,f  (1)


    Kw,f=Kh,f×(20+65)/(20)×2/2.3=3.70*Kh,f  (2)

    b) The mattress is manufactured with the 3 important zones at theses calculated values and the areas in between are blended to smoothen the curves produced at the shoulders to waist to hips.

    Example Bed 2. (Corrective Shaping is Affected Fully from Means Under the Mattress

    [0230] The mattress is entirely of uniform firmness for both the Male and the Female.

    [0231] a) The Male compresses the mattress by 40 mm at the waist and therefore only 40/2 20=20 mm at the shoulders (Ps=1/2 Pw). The shoulders are now 20 mm above the 25 waist instead of 110 mm below, and compresses the mattress also 40 mm at the Hips 30 (Ph=Pw) which should be 35 mm below the waist,—so the base system (using blocks or some other means) or ‘hump and through system’ under the bottom surface of the mattress has to correct the vertical displacement the mattress top surface by

    i) 10 mm lower at the hips, (now −40−10=−50 mm)
    ii) 25 mm raised at waist, (now −40+25=−1 5 mm) net compression at waist, and (25+10=35 mm above hips which is correct)
    iii) 105 mm lower at the shoulders so they are (−20−105−(−40)+25=−110 mm below waist).
    b) The female also happens to compress the mattress at the waist by 40 mm but (because of her weight) only 40/2=20 mm at the shoulders, and 40*1.15=46 mm at the hips.—so the base system (using blocks or some other means) or ‘hump and through system’ under the bottom surface of the mattress has to correct the vertical displacement the mattress top surface by
    i) 24 mm raised at the waist (this is now a nett −40+24=−16 mm depression at the waist)
    ii) 35 mm lower at the hips (this is now 6+24+35=65 mm below the waist)
    iii) 46 mm lower at the shoulders (this is now −20+16−(−40)+24=−50 mm below the waist)

    Example Bed 3. (Corrective Shaping is Affected Fully by a Hybrid of Means: from i) within the Mattress, ii) Underneath the Bottom Surface of the Mattress but Above the Top Surface of the Base, and iii) by Shaping of the Top Surface of the Base Means Under the Mattress)

    [0232] The user can use a full combination of Zoning (shaping) within the mattress and applying the nett applicable corrections by the mattress supportive system.

    a) Using a zoned mattress with voids and other predetermined compressible support means such that its properties are—as follows: Dw=20 mm, L=35, Ks=0.2, Kw−2.2, S=25 mm. (for Pw=2Ps and Ph=2.5Ps) Then:
    i) The Male compresses the mattress at the waist by 20 mm, L=35*(2/2.5)=28 mm, so hips are 28 mm below the waist and S 25 mm so the shoulders are 25 mm below the 30 waist
    b) So the—base system (using blocks or some other means) or ‘hump and through system’ under the bottom surface of the mattress is able to correct the vertical displacement the mattress top surface as follows:
    i) place a +ve 25 mm shape (flat in this case) from below the shoulder area to the 5 feet, this means that the shoulders are now −25−25=−50 mm below the waist
    ii) −ve 7 mm vertical displacement of the hips (−28−7=−35 mm) which aligns the hips correctly with the waist.
    iii) −ve 60 mm vertical displacement at the shoulder area so shoulders are aligned,
    c) The Female compresses the Mattresses at the waist by 20 mm, L=35*(I.15*2/2.5)=32 mm, so hips are 32 mm below the waist and S 25 mm so the shoulders are 25 mm below the waist
    i) So the base system (using blocks or some other means) or ‘hump and through system’ under the bottom surface of the mattress has to correct the vertical displacement the mattress top surface by placing a +ve 25 mm shape (flat in this case) 15 from below the shoulder area to the feet, this means that the shoulders are now −25−25=−50 mm below the waist which is correct, depressing the hip area only by the base supportive surface by −ve 33 mm this now makes the hips (−33−32=)−65 mm below the waist.

    e) General Shoulder Support Structure

    [0233] Referring to FIGS. 10 and 11 it can be seen that the invention provides an improved bed which includes a zoned support with a combination of one or more of the following features:

    a) a shoulder pressure attenuation area
    b) a recess or void providing a shoulder pressure attenuation area; and
    c) a variation of the longitudinal location of the shoulder receiving portion along the bed to suit different users

    [0234] In one form an improved bed includes a shoulder pressure attenuation area 30 SPAAM in order to improve the posture of the user of the bed. This can be my means of a resilient means 16 that is less resilient than the material or structure of the rest of the 32 bed. In this way the shoulder of the user is able to sink into the bed over the shoulder pressure attenuation area SPAAM.

    [0235] In another form the invention includes an improved bed including shoulder pressure attenuation area SPAAM having a shoulder pressure recess formed by a void 17 or unsupporting material block over a shape retaining block 18 in order to allow receipt of the breadth of the user at the shoulder position improve the posture of the user of the bed.

    [0236] However the bed is a single element and the mattress has a head portion and a body portion joined together but allowing the shoulder pressure recess or void. The mattress has a head portion and a body portion are joined peripherally. Also, or instead, the mattress has a head portion and a body portion which are joined peripherally along an underside. In both forms the head 15H of the mattress can be connected to the body 15B of the mattress by under joining connection 15J. Further peripheral joins can also be used to provide a continuous circumference to the mattress.

    [0237] This can be achieved in which an improved bed includes the shoulder support locatable at the shoulder pressure attenuation area by providing a shoulder pressure attenuation in order to improve the posture of the user of the bed. The shoulder pressure attenuation area is in the mattress portion of a base and mattress bed with the shoulder support locatable at the shoulder pressure attenuation area is a shoulder pressure recess or void in order to allow receipt of the breadth of the user at the shoulder position to improve the posture of the user of the bed.

    [0238] In order to provide a feeling of a solid bed but to provide the benefits of shoulder pressure recess or void the mattress can have a head portion and a body portion joined together by a loose top surface 151 allowing the shoulder of the user to be able to be received in the shoulder pressure recess or void.

    [0239] Referring to FIG. 13 the base 26 of the improved bed includes a shoulder pressure attenuation area SPAAB in order to improve the posture of the user of the bed. This can be my means of a resilient means electric motor driving a cam and raising a platform that can support slats 28 at varying heights. The height at the shoulder level can be lower than at the head or torso level. In this way the shoulder of the user is able to sink into the bed over the shoulder pressure attenuation area SPAAB.

    [0240] In other forms the base can have cams that are manually driven and instead of slats can have supporting layers within the base that are moved or compressed to provide the shoulder pressure attenuation.

    f) Multiple Pressure Attenuation Areas

    [0241] As well as a shoulder pressure attenuation are SPAA, there can be provided a variation of an improved bed having a plurality of supports locatable at a plurality of pressure attenuation areas in order to improve the posture of the user of the bed. One of the plurality of supports locatable at a plurality of pressure attenuation area can be a lumbar pressure attenuation area LPAA. Another of the plurality of supports locatable at a plurality of pressure attenuation area can be a hip pressure attenuation area HPAA.

    [0242] The at least one of the plurality of supports locatable at a plurality of pressure attenuation area is adjustable in location. This can be at least one of the plurality of supports locatable at a plurality of pressure attenuation area being adjustable along the length of the bed. However at least one of the plurality of supports locatable at a plurality of pressure attenuation area can be adjustable in a direction substantially orthogonal to the plane of the top surface of the bed which will be substantially vertical in normal use.

    [0243] However the location of the various pressure variation areas can have a variation of the longitudinal location of the shoulder, hip or lumbar receiving portion along the bed to suit different users.

    g) General Longitudinal Variation of Pressure Attenuation Areas

    [0244] A shoulder pressure variation means 31 can be provided to vary support in a direction to the vertical at a shoulder receiving portion SPAA. However the location of that shoulder pressure variation or shoulder pressure attenuation 31 can have a variation of the longitudinal location of the shoulder receiving portion by allowing a movement to alter position along the bed to suit different users. This can be by fillers 19 allowing manual rearrangement or by automatic means 32.

    [0245] Referring to FIGS. 11 and 12 there is shown a mattress 15 having a Shoulder Pressure Attenuation Area (SPAAM) locatable at different locations along the 34 longitudinal extension of the bed. In FIGS. 2A and 2B there is the use of voids and resilient blocks which can be arranged so as to provide the variability. The shoulder pressure attenuation area SPAAM having the shoulder pressure recess formed by a void 17 or non-supporting material block over a shape retaining block 18 can be moved. Referring to FIG. 2B in a recess there is located a filler block 19 which has resilience similar to the rest of the mattress which then moves the void 17 or non-supporting material block over a shape retaining block 18 further along the longitudinal length of the bed. In this way the position of the shoulder pressure attenuation area SPAAM is moved along the longitudinal direction of the bed order to allow suitable alignment for the particular user at the shoulder position improve the posture of the user of the bed.

    [0246] Similarly in FIG. 13 there is shown a base 16 of a bed having a Shoulder Pressure Attenuation Area (SPAAB) locatable at different locations along the longitudinal extension of the bed. In FIG. 13 electric motors 27 can drive an arm that supports a slat 28 at various heights. However the plurality of can be located on a carriage 31 and that carriage as a whole can be moved by electric motor 32 in the longitudinal direction.

    [0247] Preferably as shown in FIG. 14 there can be the combination of shoulder support in the mattress and in the base. This can be achieved in which there an improved bed is comprising a shoulder support locatable at a shoulder pressure 20 attenuation area providing a shoulder pressure attenuation in order to improve the posture of the user of the bed. Portions of the shoulder support are located in shoulder pressure attenuation areas (SPAAM, SPAAB) in the mattress of a bed and in a base of the bed and wherein the shoulder pressure attenuation areas (SPAAM, SPAAB) in both the base and the mattress of the bed being separately alignable to each other and separately including shoulder supports but coordinating to provide a combined shoulder pressure attenuation area.

    [0248] There is also included a shoulder pressure variation location means 32 for providing a variation along the bed to suit different users of the location of the shoulder pressure attenuation area (SPAAM, SPAAB) in the mattress or the base of the bed. Parts of a shoulder pressure variation location means 32 are located in the base and/or the mattress of the base and mattress of the bed and wherein the mattress shoulder pressure variation location means and the base shoulder pressure variation location means being separately movable longitudinally along the bed relative to each other but coordinating to provide location of the combined shoulder pressure attenuation area to suit different users.

    [0249] Similar arrangement can occur for the lumbar pressure attenuation areas 5 (LPAAM, LPAAB) of the mattress and the base. A lumbar pressure variation means 41 can be provided to vary support in a direction to the vertical at a shoulder receiving portion SPAA. However the location of that lumbar pressure variation or lumbar pressure attenuation 41 can have a variation of the longitudinal location of the lumbar receiving portion by allowing a movement to alter position along the bed to suit different 10 users. This can be by fillers allowing manual rearrangement or by automatic means 42.

    [0250] Also similar arrangement can occur for the hip pressure attenuation areas (HPAAM, HPAAB) of the mattress and the base. However the location of that hip pressure variation or hip pressure attenuation 51 can have a variation of the longitudinal location of the hip receiving portion by allowing a movement to alter position along the 15 bed to suit different users. This can be by fillers allowing manual rearrangement or by automatic means 52.

    [0251] The adjustability of the shoulder pressure attenuation area (SPAAM) in the mattress can be achieved by an improved bed wherein the mattress having a head portion 15H and a body portion 15B joined together with adjacent movable blocks 16, 20 17, 18 and 19 allowing for variable location of the shoulder pressure recess or void along the longitudinal length of the bed.

    [0252] The adjustability of the shoulder pressure attenuation area (SPAAB) in the base can be achieved by mounting of the shoulder supports 27, 28 along a longitudinal support track and with movable means allowing for variable location of the shoulder pressure attenuation area along the longitudinal length of the bed. The movable means can be manual, ratchet means or electric drives. Preferably a plurality of support means forming the shoulder support are locatable on a carriage 31 and the carriage is movable In this way the plurality of support means together provide the vertical adjustment of support to provide the single support shape and the carriage is moved as a whole to thereby move the supporting shape as a whole along the longitudinal direction of the bed.

    [0253] It must be understood that the longitudinal adjustability of the location of the shoulder pressure attenuation area or the lumbar pressure attenuation area is not the same as merely differing the heights of differing vertically adjusting supporting means along the length of the bed.

    [0254] In particular in supporting the posture correctly as shown in FIG. 1 there is a particular relative vertical support provided by either differing heights of support or by differing densities of supporting material or a combination thereof. This in effect provides a supporting shape. This supporting shape is generally formed by support elements that are discrete sizes and could be of the order of 30 millimetres or more.

    [0255] Three or more of these support elements could be needed along the longitudinal length of the bed to form the supporting shape. Therefore this full support of the shoulder could be 120 millimetres or more. Clearly the adjustability by merely the differences in the in the posture of a person 30 millimetres is a substantial difference and does not provide adequate variation. Moving to smaller support elements is impractical but even if you do results in a very complex alignment to define the shape.

    [0256] Theoretically if you had 5 millimetres support elements you would have to adjust 24 elements to obtain the 120 millimetres supporting shape. To move such shape along a bed would require adjustment of all 24 supporting elements plus others at either end plus others laterally across the bed. Overall, this is unacceptable as it requires a complex control means, is extremely expensive for so many support elements and substantially increases failure rate due to the multitude of elements.

    [0257] The present invention solves the adjustment requirement without these disadvantages. In particular there are other substantial benefits to the use of a pressure variation location means including: [0258] i) Firstly you can define your supporting shoulder shape and locate it precisely relative to the shoulder of the user; [0259] ii) Secondly you can define your lumbar support shape and locate it precisely to the lumbar of the user and relative to the supporting shoulder shape [0260] iii) The user does not need to conform to the bed but the bed conforms to the user. This is even further emphasized for double, queen and king sized beds usable by couples. The bed can be alterable in separate contiguous longitudinal halves for bed 37 sharing by couples and the shoulder pressure variation location means and the lumbar pressure variation location means allowing for: [0261] (1) particular location of shoulder and lumbar positions of first user; [0262] (2) particular location of shoulder and lumbar positions of second user; and [0263] (3) particular relative locations of first and second users. This can be both at head height or one having head height at shoulder height of the other. [0264] Thereby the different heights and supporting profiles of different users are adjustable.

    h) Comparison Details

    [0265] Referring to FIGS. 16 and 17 there is shown a comparative pressure attenuation graph showing the effectiveness of the design.

    Interpretation

    Embodiments

    [0266] Reference throughout this specification to “one embodiment” or “an embodiment” means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, appearances of the phrases “in one embodiment” or “in an embodiment” in various places throughout this specification are not necessarily all referring to the same embodiment, but may. Furthermore, the particular features, structures or characteristics may be combined in any suitable manner, as would be apparent to one of ordinary skill in the art from this disclosure, in one or more embodiments.

    [0267] Similarly it should be appreciated that in the above description of example embodiments of the invention, various features of the invention are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure and aiding in the understanding of one or more of the various inventive aspects. This method of disclosure, however, is not to be interpreted as reflecting an intention that the claimed invention requires more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive aspects lie in less than all features of a single foregoing disclosed embodiment. Thus, the claims following the Detailed Description of Specific Embodiments are hereby expressly incorporated into this Detailed Description of Specific Embodiments, with each claim standing on its own as a separate embodiment of this invention.

    [0268] Furthermore, while some embodiments described herein include some but not other features included in other embodiments, combinations of features of different embodiments are meant to be within the scope of the invention, and form different embodiments, as would be understood by those in the art. For example, in the following claims, any of the claimed embodiments can be used in any combination.

    Different Instances of Objects

    [0269] As used herein, unless otherwise specified the use of the ordinal adjectives “first”, “second”, “third”, etc., to describe a common object, merely indicate that different instances of like objects are being referred to, and are not intended to imply that the objects so described must be in a given sequence, either temporally, spatially, in ranking, or in any other manner.

    Specific Details

    [0270] In the description provided herein, numerous specific details are set forth. However, it is understood that embodiments of the invention may be practiced without these specific details. In other instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description.

    Terminology

    [0271] In describing the preferred embodiment of the invention illustrated in the drawings, specific terminology will be resorted to for the sake of clarity. However, the invention is not intended to be limited to the specific terms so selected, and it is to be understood that each specific term includes all technical equivalents which operate in a similar manner to accomplish a similar technical purpose. Terms such as “forward”, “rearward”, “radially”, “peripherally”, “upwardly”, “downwardly”, and the like are used as words of convenience to provide reference points and are not to be construed as limiting terms.

    Bed

    [0272] The term Bed is wide ranging and includes single layer beds, mattresses on supports including slats, springs, adjustable beds having mechanical or electric moving parts.

    Comprising and Including

    [0273] In the claims which follow and in the preceding description of the invention, except where the context requires otherwise due to express language or necessary implication, the word “comprise” or variations such as “comprises” or “comprising” are used in an inclusive sense, i.e. to specify the presence of the stated features but not to preclude the presence or addition of further features in various embodiments of the invention.

    [0274] Any one of the terms: including or which includes or that includes as used herein is also an open term that also means including at least the elements/features that follow the term, but not excluding others. Thus, including is synonymous with and means comprising.

    SCOPE OF INVENTION

    [0275] Thus, while there has been described what are believed to be the preferred embodiments of the invention, those skilled in the art will recognize that other and further modifications may be made thereto without departing from the spirit of the invention, and it is intended to claim all such changes and modifications as fall within the scope of the invention. For example, any formulas given above are merely representative of procedures that may be used. Functionality may be added or deleted from the block diagrams and operations may be interchanged among functional blocks. Steps may be added or deleted to methods described within the scope of the present invention.

    [0276] Although the invention has been described with reference to specific examples, it will be appreciated by those skilled in the art that the invention may be embodied in many other forms.

    INDUSTRIAL APPLICABILITY

    [0277] It is apparent from the above, that the arrangements described are applicable to the bedding industries and healthy sleep or patient posture support industries.