(19)
(11)EP 2 836 099 B1

(12)EUROPEAN PATENT SPECIFICATION

(45)Mention of the grant of the patent:
04.11.2020 Bulletin 2020/45

(21)Application number: 13775831.4

(22)Date of filing:  11.04.2013
(51)International Patent Classification (IPC): 
A47G 9/10(2006.01)
F16K 15/20(2006.01)
(86)International application number:
PCT/AU2013/000389
(87)International publication number:
WO 2013/152404 (17.10.2013 Gazette  2013/42)

(54)

Valve assembly and inflatable cushion comprising the valve assembly

Ventilanordnung und aufblasbares Kissen mit der Ventilanordnung

Valve et coussing gonflable comprenant cette valve


(84)Designated Contracting States:
AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR

(30)Priority: 11.04.2012 AU 2012901425

(43)Date of publication of application:
18.02.2015 Bulletin 2015/08

(73)Proprietor: IPX Pty Ltd
Neutral Bay, New South Wales 2089 (AU)

(72)Inventor:
  • HELOU, Mohammed
    Neutral Bay, New South Wales 2089 (AU)

(74)Representative: Murgitroyd & Company 
Murgitroyd House 165-169 Scotland Street
Glasgow G5 8PL
Glasgow G5 8PL (GB)


(56)References cited: : 
WO-A1-99/51899
FR-A1- 2 612 450
JP-A- 2003 135 223
US-A- 4 478 587
BE-A- 708 501
JP-A- 2001 087 107
US-A- 3 220 695
  
  • SRS LUCISANO: ""Push-Psuh": the inflatable Boat Valves", , 12 April 2009 (2009-04-12), XP002750591, Retrieved from the Internet: URL:https://web.archive.org/web/2009041206 0535/http://marine.srslucisano.com/pushpus h.php [retrieved on 2015-11-06]
  
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 to a valve assembly, to an inflatable cushion comprising the valve assembly and to a mattress having an inflatable cushion comprising the valve assembly.

Background of the invention



[0002] Cushions, including pillows, are extensively used in domestic, recreational and therapeutic applications. The demand for comfortable cushions is very great and this demand is increasing as the standard of living continues to rise, particularly in Western societies.

[0003] Cushions also have many uses in the healthcare fields, particularly in relation to persons who have chiropractic, orthopaedic or similar complaints.

[0004] As is well understood, typical cushions incorporate an external coating (or skin) which encloses a soft inner core. This inner core is generally formed of feathers, soft foam or other similar materials.

[0005] Inflatable cushions have also been developed. Such cushions generally consist of an inflatable bladder, an internal chamber, and a sealable air valve for enabling air to enter (and exit from) the chamber. In these products, air is typically blown or pumped into the chamber, via the air valve, by the user. Such products have become popular in camping applications because of their light weight, ability to be deflated into a small volume, and their ease of use.

[0006] Such products also have been used in chiropractic and orthopaedic fields. For instance, US 6,047,025, in the name of Adnan Khazaal, discloses an 'orthopaedic pillow' which incorporates a hollow inflatable bladder which is able to be inflated by means of a hand pump.

[0007] Similarly, US 6,327,725, describes a 'pillow with adjustable neck support' which includes a foam pillow having 'an inflatable airtight chamber... for providing adjustable support to the user's neck'. The hollow chamber is adapted to be inflated by a manual hand pump.

[0008] Another US patent, no. 4,829,614, discloses a pillow having an adjustable neck support which includes a number of separately inflatable hollow chambers within the pillow.

[0009] A further US patent, no. 6,397,415, discloses an 'orthopaedic pillow' having an inflatable hollow air chamber and a separate water chamber.

[0010] A benefit of inflatable cushions is that they can, generally, be inflated to any desired level according to the requirements or desires of a user. For instance, if a firmer cushion is desired, it can be inflated up to (or near) its full capacity. If, however, a softer cushion is desired, it may only need to be partially inflated. This can be particularly advantageous in the fields of chiropracty and orthopaedics where it is beneficial to be able to select and alter the degree of firmness/softness of a cushion for use with a patient.

[0011] In more recent times, self-inflatable products (such as mattresses and cushions) have been developed. These products typically consist of an inflatable bladder, an internal chamber with a compressible foam substance within the chamber, and an air valve. When not in use, air is expelled from the product and the foam within the internal chamber is compressed and the air valve is sealed shut. When the product is to be used (e.g. as a mattress), the air valve is opened, enabling air to enter into the chamber. This then enables the foam substance to expand to its natural expanded state. As the foam expands, this causes further air to enter into the internal chamber, thereby causing the product to self inflate. Such a product is disclosed in US 6,016,582 in the name of Lynn D. Larson.

[0012] A problem associated with existing inflatable cushions (including pillows) is that they tend to exhibit a bouncy feel when in use. For instance, when fully inflated, the cushion is hard and uncomfortable to lie on. When under-inflated, the cushion tends to provide inadequate support. Somewhere in-between the fully inflated and the under-inflated states, there may be a state which is reasonably comfortable for a user. However, it is time-consuming and awkward for a user to try and indentify this state as it involves manually opening the valve (typically by rotating a rotatable cap), expelling air or blowing air in, re-trying the cushion (for comfort) and if not comfortable, repeating the process (perhaps several times).

[0013] Also, inflatable cushions tend not to provide any resistance - and therefore no real support - against any sideways or rotational movement of the head (or other part of the body). Accordingly, such inflatable cushions can be rather uncomfortable. Also, and for similar reasons, such inflatable cushions may be disadvantageous to persons suffering orthopaedic or chiropractic problems.

[0014] In the fields of chiropractic and orthopaedic treatments, it is desirable to have cushions which do provide adequate support to a user's head (or other body part). It is further desirable to have a cushion which is adapted to vary in firmness depending on the size of the user, the user's particular condition, or the degree of firmness of the cushion which is desired by the user. Alternatively, quite a wide range of cushions, of different sizes and/or differing firmness, need to be produced to satisfy the various needs of different users or the same user at different times. None of the products described above satisfy these criteria.

[0015] Accordingly, one aspect of the present invention is directed to an inflatable cushion which at least ameliorates some of the problems and/or deficiencies of some of the existing products described above. In particular, this aspect of the present invention is directed to an improved self-inflatable cushion which is adapted to vary in firmness according to a user's requirements.

[0016] Another aspect of the present invention is directed to a mattress comprising (as part of the mattress) an inflatable cushion according to the first aspect of the invention, whereby the firmness of a portion of the mattress is able to be varied according to a user's requirements.

[0017] As noted above, self-inflatable products (such as mattresses and cushions) incorporate air valves to enable air to be selectively inserted into, or expelled from, the relevant product.

[0018] Typically, such air valves generally include a rotatable cylindrical outer wall which is adapted to rotate between a valve-open position and a valve-closed position (and vice versa). In order to enable air to enter through the air valve, the cylindrical outer wall is positioned in its valve-open position. Once the desired amount of air has been inserted into the inflatable product, the cylindrical outer wall is manually rotated in one direction to its valve-closed position. Similarly, when the air valve needs to be re-opened (e.g. to allow air to be expelled from the product) the cylindrical outer wall is manually rotated in the opposite direction to a valve-open position.

[0019] Although such air valves work reasonably well, the manual rotation of the cylindrical outer wall between the valve-open and the valve-closed positions can be somewhat awkward and time consuming, particularly for aged or infirm persons who may lack manual dexterity or strength. This can be particularly problematic or frustrating when the air valve needs to be opened and closed numerous times in a relatively short period of time. WO9951899 A1 discloses a known air-valve and US3220695 discloses a valve assembly according to the preamble of claim 1.

[0020] As noted above, one of the beneficial uses of inflatable cushions is in the field of chiropracty and orthopaedics where cushions of variable firmness/softness may be required. In this field, in particular, it would be desirable to have a cushion in which the firmness/softness can be easily and readily varied to accommodate the differing needs of one or more patients. The abovementioned known and commonly used air valves are inconvenient in such situations owing to the need to rotate manually the outer cylindrical wall, between the valve-open and valve-closed positions, each time one wishes to change the firmness/softness of the cushion.

[0021] Accordingly, a further aspect of the present invention is directed to an air-valve, adapted for use in an inflatable cushion, which at least ameliorates some of the problems and/or deficiencies of the existing air valves discussed above. In particular, this further aspect of the present invention is directed to an air-valve which is adapted to transition between a valve-open position and a valve-closed position without having to manually rotate an outer cylindrical wall of the air valve.

Summary of the invention



[0022] According to the invention, there is provided a valve assembly as defined in claim 1.

[0023] The first open end of the first chamber can be opposed to the second open end of the second chamber.

[0024] The valve actuating means can include a pushing surface; and the valve plug can include a pushed surface adapted to be pushed by the pushing surface, wherein, when the valve actuating means is pushed, the pushing surface of the valve actuating means pushes against the pushed surface of the valve plug.

[0025] The first end of the valve actuation means is located within the second chamber of the housing.

[0026] The valve plug includes a plurality of ribs extending radially from the intermediate section; and the valve actuation means includes a plurality of radially extending ribs adjacent said first end; and the second chamber includes an internal surface having a plurality of substantially uniform chambers adapted to receive the ribs of the valve plug and the ribs of the valve actuation means.

[0027] The channels, the ribs of the valve plug and the ribs of the valve actuation means are configured so as to enable the ribs to move along said channels when valve actuating means is pushed.

[0028] The valve assembly has a first biasing means adapted to bias the valve actuating means back towards its original position after being pressed by a user.

[0029] The channels and the ribs of the valve plug are configured so that, when the valve plug moves a predetermined distance along the channels the ribs of the valve plug exit the channels and, under the influence of a second biasing means, the valve plug is caused to rotate within the second chamber.

[0030] The second biasing means can be adapted to bias the valve plug towards the valve actuation means.

[0031] The valve plug includes a set of inclined surfaces positioned between the first end and the intermediate section of the valve plug, and exposed ends of the ribs of the valve actuation means press against said inclined surfaces under the influence of the second biasing means.

[0032] The inclined surfaces of the valve plug and the exposed ends of the ribs of the valve actuation means are adapted so that when, upon pushing of the valve actuation means, the ribs of the valve plug exit the channels, the valve plug is caused to rotate relative to the valve actuation means, under the influence of the second biasing means.

[0033] The internal surface of the second chamber can include a set of inclined ledges in between openings of said channels.

[0034] The inclined ledges can include adapted to abut the exposed ends of the ribs of the valve actuation means after the valve plug has been caused to rotate and, under the influence of the first biasing means, guide each of the ribs into an adjoining channel of the second chamber.

[0035] In order to facilitate the securing of the valve assembly to the impermeable skin of an inflatable pillow or an inflatable cushion, a surface of the valve body may comprise a threaded section. This threaded section is adapted to engage with a corresponding threaded section of a surface of a nozzle arrangement of the impermeable skin so that the valve assembly can be 'screwed' into and secured within the nozzle arrangement.

[0036] The invention further provides an inflatable cushion as defined in claim 6.

[0037] The invention further provides a mattress as defined in claim 7.

Brief description of the drawings



[0038] An embodiment or embodiments of the aspects of the present invention will now be described, by way of example only, with reference to the accompanying drawings, in which:

Figure 1 is a perspective view of an inflatable cushion not forming part of the present invention (with open side), in a deflated formation.

Figure 2 is a perspective view of the inflatable cushion of Figure 1, in an inflated formation.

Figure 3 is a perspective view of the inflatable cushion of Figure 2 (with closed side).

Figure 4 is a perspective view of the inflatable cushion of Figure 3 (with closed side) showing internal inflatable body in broken lines.

Figure 5 is a perspective view of the inflatable cushion of Figure 1, with the internal inflatable body removed.

Figure 6 is a perspective view of the inflatable cushion of Figure 1, with the internal inflatable body in position, prior to the closing up of the cushion (during manufacture).

Figures 7a to 7d are perspective views of an inflatable cushion not forming part of the present invention.

Figures 8a to 8c are schematic representations of mattresses, showing different orientations of components thereof, not forming part of the present invention.

Figures 9a to 9c are schematic representations of mattresses, showing different orientations of components thereof, not forming part of the present invention.

Figure 10 is a sectional view in perspective, of a valve assembly, according to a preferred embodiment of the present invention, fitted onto the inflatable cushion of any one of Figures 1 to 7.

Figure 11 is a perspective view in section, of the valve assembly of Figure 10.

Figure 12 is a cross section of the housing of the valve assembly of Figure 10.

Figure 13 is a cross section of the actuating means in the valve assembly of Figure 10.

Figures 14A and 14B show lower and upper perspective views of the actuating means of the valve assembly of Figure 10.

Figure 15 is a perspective view of the valve in the valve assembly of Figure 10.

Figure 16 is cross section of the valve of Figure 15.

Figure 17 is cross section of the valve assembly of Figure 7, positioned within an inflatable cushion of Figure 7, with the valve in the open position.

Figure 18 is cross section of the valve assembly of Figure 10, with the valve in the open position.

Figure 19 is a cross section of the housing of the valve assembly of Figure 10.

Figure 20 is a cross section of the valve assembly of Figure 10, with the valve in the closed position.

Figure 21 is a cross section of the housing of the valve assembly of Figure 10.

Figure 22 is a partial perspective view of the housing, the valve, and the first biasing means of the valve assembly of Figure 10.

Figure 23 is a bottom perspective view of the housing and the actuating means of the valve assembly of Figure 10.


Detailed description of the embodiment or embodiments



[0039] A preferred embodiment of the invention will now be described with reference to the above drawings.

The Inflatable Cushion



[0040] Figures 1, 2 and 4 show an inflatable cushion 1, not forming part of the invention, having an internal inflatable body 2 and an external elastic foam layer 3. The inflatable body 2 has an upper surface 24 (shown in Figure 6) and a lower surface (not clearly shown in the drawings). The inflatable body 2 also includes an air-impermeable skin 20, which defines an internal chamber, and a sealable air valve 21. This sealable air valve 21 is located at an end of the inflatable body 2 and extends from the side 33 of the cushion 1.

[0041] The external elastic foam layer 3 covers the upper and lower surfaces of the inflatable body 2. This foam layer 3 is adhered to these upper and lower surfaces of the inflatable body 2.

[0042] An upper portion 30 of the foam layer 3, which covers the upper surface 24 of the inflatable body 2, is corrugated, having a series of ridges 31 and channels 32 which extend transversely between opposed sides 33, 34 of the cushion 1. These ridges 31 and channels 32 facilitate ventilation between a user's head (or other body part) and the cushion 1.

[0043] A lower portion 35 of the foam layer 3, which covers the lower surface of the inflatable body 2, is also corrugated, having a series of smaller ridges and channels which, again, extend transversely between opposed sides 33, 34 of the cushion 1. These ridges and channels facilitate ventilation around the pillow.

[0044] The cushion 1 has a forward end 11 and a rearward end 12. The rearward end 12 is slightly thicker than the forward end 11, typically by about 1.5cm. The forward end 11 also includes a cut-out section 13 adapted to receive the neck or shoulder of a user.

[0045] Figure 3a shows the above described cushion 1 also having a foam side panel 14. Preferably, both sides of the cushion 1 have side panels 14. These side panels effectively close the cushion 1 and retain the inflatable body 2 within the external foam layer 3. In this example, the sealable air valve 21 extends through an aperture in the adjoining side panel 14.

[0046] Figure 4 shows the above inflatable cushion 1 with the inflatable body 2 in position (shown in broken lines) surrounded by the elastic foam layer 3.

[0047] Figure 5 shows the above inflatable cushion 1 (without side panel 14) prior to insertion of the inflatable body 2.

[0048] Figure 6 shows the above inflatable cushion 1, during the manufacture of same, after insertion of the inflatable body 2 into position, but prior to closure of the cushion. The lower surface of the inflatable body 2 is adhered to an adjoining surface of the foam layer 3. The cushion is then closed and the upper surface 24 of the inflatable body 2 is then adhered to an adjoining surface of the foam layer 3.

[0049] Figures 7a to 7d show an alternative preferred example of the inflatable cushion 1. In this example not forming part of the present invention, only one face, being the upper face, of the cushion has corrugations for providing improved air flow around the vicinity of a user's head. The opposite face, being the lower face, is substantially flat.

[0050] Figures 7a, 7b and 7d show side faces of the inflatable cushion comprising foam walls having an aperture 121 adapted to enable a portion of the valve assembly to extend through. Figure 7c shows a portion (being an actuating portion) of the valve assembly located outside the aperture 121.

[0051] Figures 8a to 8c show schematic representations of a single-bed mattress having portions: A; A and B; or A, B and C. These portions represent positions in which an inflatable cushion, (such as described above) may be located.

[0052] In Figure 8a, the inflatable cushion is located in position A, being the only available position.

[0053] In Figure 8b, the inflatable cushion may be located in position A or position B. When in either of these positions, a removeable foam piece is generally located in the other position. Alternatively, inflatable cushions could be placed in both positions A and B.

[0054] In Figure 8c, the inflatable cushion may be located in position A, position B or position C. When in one of these positions, a removeable foam piece is typically located in each of the other positions. Alternatively, inflatable cushions could be placed in one or both of these other positions.

[0055] Figures 9a to 9c show schematic representations of a two-person mattress having portions: A and A'; A, A', B and B'; or A, A', B, B', C and C'. These portions represent positions in which an inflatable cushion (such as described above) may be Iocated. Generally, a two-person mattress will be made symmetrically in the sense that an equal number of portions, for location of the inflatable cushion, will be formed on each half of the mattress.

[0056] In Figure 9a, the inflatable cushions are located in positions A and/or A', being the only available positions.

[0057] In Figure 9b, the inflatable cushions may be located in one or more of the positions A, A', B and/or B'. When in any of these positions, a removeable foam piece is typically located in the other position(s).

[0058] In Figure 9c, the inflatable cushion may be located in one or more of the positions A, A', B, B', C and/or C'. When in any of these positions, a removeable foam piece is typically located in the other position(s).

[0059] Figures 8a to 8c also show the location 21a of the actuating portion of the valve assembly of the inflatable cushion (when said cushion is located at the adjoining position).

The Valve assembly



[0060] Figures 10 to 13 depict a valve assembly (or a part thereof) for use with the inflatable cushion described above. For ease of reference, the end of the valve assembly which is located on the outside of the cushion will be referred to as the upper or outer end, and the opposite end will be referred to as the lower or inner end.

[0061] With reference to Figure 10, the valve assembly 21 includes a body or housing 50 that is supported on the side 33 of the cushion 1, and also by the inflatable body 2. The housing 50 contains and supports a valve plug or valve member 52 which engages a valve seat 50.1 provided around an opening 50.2, to open and close the airflow path between the outside of the cushion 1 and the inflatable body 2. The valve member 52 is moved by an actuating means 54 which is user accessible from outside the cushion 1. In the drawings the actuating means 54 is shown as a push button. However it is understood that other actuating means 54 may be used.

[0062] The housing 50 is open ended, having a first open end 51 that is adjacent to the exterior of the cushion 1. An opposite second open end 53 is located toward the interior of the cushion 1. A first chamber 50A extends from the first open end, and a second chamber 50B extends from the second open end, the two chambers being in open communication with each other. The actuating means 54 is partially located in the first chamber, and the valve 52 is partially located in the second chamber.

[0063] As shown in Figures 10 and 11, the housing 50 has a generally cylindrical main body 57 and a flange 56 which is provided around the first open end 51 of the housing 50.

[0064] When assembled the flange 56 is supported by the outside surface of the cushion 1. The main body 51 is sized to fit into an opening in the cushion which accommodates the valve assembly 51. The outer diameter of the flange 56 is larger than the diameter of the opening in the cushion 1, thereby supporting the housing 50 on the external elastic foam layer 3. The lower portion of the inside surface of the main body 51 is threaded. As will be described, this is to help secure the housing 50 onto a neck which is supported on the internal inflatable body 2 of the cushion 1.

[0065] The housing 50 also includes an interior wall 58 which extends transversely into the interior of the housing 50. The interior wall 58 is located between the free ends of the main body 51, and can be considered as dividing the housing 50 into its first and second chambers 50A and 50B. The interior wall 58 extends from the inside wall of the main body 51, into a longitudinal interior tube 60.

[0066] As shown in Figures 12 and 23, the tube 60 has a plurality of, in this case eight, ribs 62 provided along its internal surface. The ribs 62 are evenly spaced apart, so that a plurality of grooves or channels 64 and 64A are interspersed between the ribs 62. Each of the ribs 62 has a chamfered or bevelled lower edge 63. The plurality of channels include the same number of deeper channels 64 and shallower channels (or "obstructed channels") 64A which are alternately arranged. Every other channel is a shallower channel 64A that has a floor 65A (best seen in Figure 20) that is raised with respect to the internal surface of the tube 60. The raised floor 65A also has a lower end 63A that is chamfered to the same angle as the lower edges 63 of the ribs 62. Therefore, the channels 64 alternate between having a raised end chamfered base and not having a raised and chamfered base. The ribs 62 extend through the whole length of the tube 60 but this is a preferment. The internal wall of the tube 60 gradually thins out toward the lower end of the tube 60, so as to provide the valve seat 50.1

[0067] As best seen in Figure 23, the housing 50 can optionally include formations 67 extending radially from the internal surface of the tube 60. The formations 67 are located in the alternate deeper channels 64, and are located adjacent the first housing chamber 50A. In use, the formations 67 help guide and centre the actuating means 54 with respect to the housing 50, so that the actuating means can better maintain its central location as it travels in the channels 64 and 64A. As will be explained, the deeper channels 64 are provided so that fins 86 provided on the valve member 52 can travel longitudinally within these channels. Therefore, the deeper channels 64 need to have sufficient length to allow the movements of the valve member 52 in closing and opening the valve assembly. In embodiments where the formations 67 are provided, the deeper channels 64 need to have sufficient length to allow a full range of the movement of the valve member and also accommodate the formations.

[0068] Figures 13, 14A and 14B depict the actuating means 54 in more detail. The actuating means 54 has a head 68. The head 68 in this embodiment has an annular shape, with an inner perimeter 100 and an outer perimeter 102. In other embodiments the head 68 can assume a different configuration. A downwardly depending skirt 104 extends from the outer perimeter 102 and toward the interior of the cushion 1 (not shown). A shaft 70 extends from the inner perimeter 100. The shaft 70 and skirt 104 are approximately perpendicular to the annular head 68. The inner perimeter 100 defines an opening for the central through hole 72 that runs through the shaft 70. One or more apertures or holes 74 are provided around the inner perimeter 100 and through the head 68.

[0069] A flange 73 extends transversely from the inside surface of the shaft 70 into the central through hole 72. As will be explained later the flange 73 serves to partially narrow or restrict the central through hole or passage 72. Structures other than a flange can be used. For instance, a plurality of stubs or arcs, or the like, which extend transversely into the through hole or passage 72 can be used. The outside surface of the shaft 70 has a series of axially extending, circumferentially located, ribs 103. As will be explained later, the shaft 70 is sized to fit into the tube 60 of the housing 50. The ribs 103 on the shaft 70 are dimensioned to slide freely in all of the channels 64 and 64A formed into the inside surface of the tube 60. When assembled, the head 68 of the actuating button 54 is located within the first chamber 50A of the housing 50. A spring 76 (shown in Figure 8) is provided around the shaft 70, and has one end which is held within the space defined between the outer circumference of the shaft 70 and the inner circumference of the flange 104. In use, the spring bias is held between the head 68 of the actuating button 54 and the interior wall 58 of the housing 50.

[0070] Figures 15 and 16 depict the valve member (or "valve plug") 52. The valve member 52 includes a clicker formation 78. One end of the clicker formation 78 extends axially from a stem 80 that is smaller in diameter than the clicker formation 78. The stem 80 has a blind hole 84. This blind hole 84 is threaded, and is located through the end of the stem 80 that is located away from the clicker formation 78. The opposite end of the clicker formation 78 includes a circumferential skirt 82 provided around the perimeter of that end of the clicker formation 78. The skirt can be angled and so flares outwardly from the clicker formation 78. However the skirt 82 does not need to be angled.

[0071] The clicker formation 78 has a plurality of, in this case four, axially extending and evenly spaced, exterior fins 86 which are evenly spaced around the stem 80. There are half as many fins 86 as there are internal ribs 62 in the housing 50. Each fin 86 extends generally axially along the base of the stem 80. The free end of each fin 86 also has a chamfered or inclined surface 86A, which is chamfered to the same angle as the chamfered edges 63 of the housing 50. A zigzag or sinusoidal formation 90 is formed around the stem 80 of the valve member 52 and located adjacent to the clicker formation 78. Each alternate surface of the zigzag formation 90 is also chamfered to approximately the same angle as the inclined surfaces of the fins 86. Referring to each rising and falling surface of the zigzag formation 90 as a tooth, there are twice as many teeth in the zigzag or sinusoidal formation 90 as there are fins 86 on the clicker formation 78. Said another way, there are as many teeth in formation 90, as internal ribs 62.

[0072] Referring again to Figure 11, the clicker formation 78 is sized to fit into the tube 60 of the housing 50. The fins 86 are sized to slide freely in the deeper channels 64, but cannot fit into the shallower channels 64A. The stem 80 is sized to fit through the interior wall 58 and extends into the central through hole 72 of the shaft 70 of the actuating means 54, so that the ends 55 of the ribs 103 on the shaft 70 abut the zigzag formation 90 on the clicker formation 78.

[0073] As shown in Figs 12, 17, 18, 19 and 20, the valve body 50 includes an annular cavity 110 having a threaded wall 111, This annular cavity 110 is adapted to receive an annular nozzle 112 of the air-impermeable skin of an inflatable pillow or cushion. The annular nozzle 112 includes a threaded surface 113, as shown in Fig 17.

Assembly of the Valve Components



[0074] Referring to Figure 17, when the components are assembled, the actuating button 54 is at least partially located in the first chamber 50A of the housing 50. The head 68 of the actuating button 54 fits within the space defined by the flange 56 of the housing 50. The shaft 70 of the actuating button 54 fits through the interior wall 58 and into the tube 60 of the housing main body 51. The valve member 52 is inserted into the main housing after the actuating means 54 has been appropriately positioned in the housing 50. The shaft 70 of the actuating means 54 fits through the intermediate housing interior wall 58, i.e. the outer dimension of the shaft 70 of the actuating means 54 is the same as the inner dimension of the housing interior wall 58. Also, the shaft of the screw 92 seals the intermediate ring 73 of the actuating means 54.

[0075] The valve stem 80 (i.e. first end of the valve) is accommodated in the central through hole 72 of the shaft 70, and the opposed end of the valve member 52 seals the second chamber 50B of the housing 50 by engaging the valve seat 50.1. The ribbed end 55 of the shaft 70 abuts and engages zigzag formation 90 on the clicker formation 78. The shaft's ribbed end 55 is considered a pushing surface of the actuating means 54, and the zigzag or sinusoidal formation 90 is considered a pushed surface of the valve member 52. The tension spring 76 is biased between the head 68 of the button 54 and the interior wall 58 of the housing 50.

[0076] The screw 92 fits through the central through hole 72 of the actuating means 54 and is received by the blind hole 84 in the valve stem 80. Only the shaft of the screw 92 is dimensioned to fit through the ring 73 provided inside the actuating means 54. The head 93 of the screw 92 is larger in diameter than the inner diameter of the ring 73 and cannot pass through the ring. A second tension spring 96 is provided around the shaft of the screw and tensioned between the ring 73 and the enlarged head 93 of the screw. The screw 92 can be a shoulder screw, where the threaded portion of the shoulder screw engages the internal thread of the blind hole 84 of the valve stem 80. The second tension spring 96 is provided around the shaft of the shoulder screw, and the shoulder indirectly engages the ring 73 via the second spring 96.

[0077] The larger spring 76 provided around the shaft 70 of the actuating means 54 biases the actuating means 54 toward the outside of the cushion. The second and smaller spring 96 biases the valve 52, toward the first chamber 50A.

The Air Path



[0078] In use, an O-ring 98 is provided around the base of the valve member 52, so that it is retained between the skirt 82 of the valve member 52 and the valve seat 50.1. The bias of the second spring 96 urges the valve member 52 to close the opening 50.2 by pushing the O-ring 98 onto the valve seat 50.1. When the valve member 52 is in its closed position, the skirt 82 presses against the O-ring 98, which is in turn pressed against the valve seat 50.1, sealing off the air pathway between the inflatable cushion body and the outside.

[0079] With reference to Figures 18 and 20, air can enter the holes 74 in the actuating means 54, and then enter the second chamber 50B via the space provided between the exterior ribs 103 of the actuating means 54. The second chamber 50B is sealed by the O-ring 98 when the valve 52 is in the closed position. When the valve 52 is in the open position the second chamber 50B is unsealed, allowing air to enter into the cushion to inflate the cushion.

Operation of the Valve Assembly



[0080] As shown in Figures 17 to 20, to open the valve 52 so as to allow the cushion to inflate, the user pushes on the actuating means 54 once, to move the actuating means 54 from an extended position (see Figure 17) into a retracted position (see figure 15). As the actuating means 54 is pushed toward the second chamber 50B, the head 68 of the actuating means 54 compresses the first biasing means 76. Also the intermediate ring 73 of the actuating means 54 is moved toward the second chamber 50B, permitting the second biasing means 96 provided around the screw 92 to expand.

[0081] As the second biasing means 96 expands, it biases the valve member 52 toward the first chamber 50A, causing the zigzag formation 90 of the valve 52 to abut the ribbed end 55 of the actuating means 54. At this point, the user has not released the actuating means 54, therefore an actuation force is still applied upon the actuating means 54. The ribbed end (i.e. pushing surface) 55, moved by the actuation force, pushes on the zigzag pattern or formation 90 (i.e. pushed surface) 90 of the valve 52. The valve fins 86 are therefore pushed to exit the deeper interior channels 64 in the housing 50. As the valve fins 86 exit the channels 64, the valve 52 is permitted to move in a direction away from the first chamber 50A. The valve skirt 82, and hence the O-ring 98, are therefore moved away from the valve seat 50.1, thereby unsealing the opening 50.2 and thus the air path into the cushion.

[0082] The ends 55 of the ribs 103 of the actuating means 54 have a chamfered or bevelled profile, and the zigzag formation 90 which includes a similarly inclined surface. Therefore as the ribbed ends 55 contact the zigzag formation 90, they tend to slide down, and around, the inclined surface of the zigzag formation 90. This movement causes the valve 52 and the actuating means 54 to slightly rotate with respect to each other. This first slight rotation does not occur whilst the fins 86 of the valve member 52 are constrained by the walls of the housing's channels 64. Upon the fins 86 existing the channels 64, however, the valve member 52 is permitted to rotate by an amount that allows the ribs 103 to travel down and around one inclined surface of the zigzag formation 90.

[0083] Upon a release of the actuation force by the user, the first biasing means 76 biases the actuating means 54 to return toward the first chamber 50A. The valve member 52 is carried by the actuating means 54 because the head of the screw 92 is carried by the actuating means 54. Therefore the valve 52 also tends to return toward the direction of the first chamber 50A.

[0084] With reference to Figure 19, as the return motion of the valve member 52 is initiated by a pushing force; the inclined surfaces 86A of the valve fins 86 abut and travel along the inclined edges 63 of the housing ribs 62. The travel continues as the valve fins 86 move along the raised floors 63A of the shallower channels 64A The valve fins 86 cannot re-enter the shallower channels 64A as they are blocked by the raised floors 63A. The movement of the fins 86 is then stopped by the sidewall 63B of the shallower channels 64A. Therefore, the valve member 52 rotates, whilst inclined surface 86A travels along the inclined edges 63, 63A of the housing ribs 62 and the shallower channels 64A, with respect to the actuating means 54. The rotation is stopped when the movement of the valve fins 86 is stopped. As the fins 86 cannot enter the shallower channels 64A, the valve member 52 is retained in its open position. Consequently, the actuating means 54 is retained in a retracted position.

[0085] As shown in Figure 20 and 21, to close the valve member 52 the user applies a second actuation force on the actuating means 54. Again, the same actions which lead to first relative rotational movement of the valve 52 are repeated, consequently there is a second relative rotational movement of the valve 52. Also the valve fins 86 are now pushed down sufficiently so as to be clear of the internal ribs 62 of the housing 50. The inclined surface 86A of the valve fins 86 now clear the obstructing sidewalls 63B of the shallower channels 64A.

[0086] When the user releases the actuating means 54, again the valve member 52 tends to return toward the first chamber 50A. As the valve member 52 returns, the inclined surfaces 86A of the valve fins travel along the inclined edge 63 of the housing ribs 62. The valve member 52 therefore rotates with respect to the actuating means 54 and housing 50 again. The rotation is stopped when the fins 86 enter the deeper channels 64 (also shown in Figure 19), at which point the valve 52 is permitted to return fully to its closed position where the O-ring 98 (not shown) engages the valve seat 50.1 to seal of the air path. The actuating means 54 therefore is also returned to its fully extended position.


Claims

1. A valve assembly adapted to move to a valve-closed position upon a push of a valve actuating means, and to a valve-open position upon another push of the valve actuating means, including:

• a housing having a first chamber (50A) extending from a first open end and a second chamber (50B) extending from a second open end, said second chamber being in open communication with the first chamber;

• a valve plug, at least a portion of the valve plug is located within the second chamber, and which is adapted to seal the second open end; and

• a valve actuating means (54), at least a portion of which is located within the first chamber, wherein the assembly further comprises a first biasing means (76) acting against pushing of the valve actuating means and adapted to bias the valve actuating means back towards its original position after being pressed by a user,
a second biasing means (96) influencing the valve plug to rotate within the second chamber towards the valve actuating means,
wherein the valve plug includes a first end, an intermediate section and an aperture sealing end opposed to the first end,
wherein the valve actuating means includes a first end located within the second chamber of the housing and an opposed exposed end wherein the aperture sealing end of the valve plug is adapted to seal the second open end of said second chamber and the exposed end of the valve actuation means is adapted to be pushed by a user, characterised in that the valve actuating means includes a plurality of radially extending ribs (103) adjacent said first end and the valve plug includes a plurality of ribs extending radially from the intermediate section, and the second chamber of the housing has an internal surface having channels (64A, 64) adapted to receive the ribs of the valve plug and the ribs of the valve actuation means to constrain the valve plug and the valve actuating means, when pushed to move to the valve-open position, to translate by the ribs moving along said channels and then to allow the valve member to rotate by engagement between surfaces of the valve plug and the valve actuating means under influence of the second biasing means to move to the valve-open position, and to rotate and then translate under influence of the first biasing means when pushed again to move to the valve-closed position,
wherein the channels and the ribs of the valve plug are configured so that, when the valve plug moves a predetermined distance along the channels the ribs of the valve plug exit the channels and, under the influence of the second biasing means, the valve plug is caused to rotate within the second chamber; and
wherein the valve plug includes a set of inclined surfaces positioned between the first end and the intermediate section of the valve plug, and exposed ends of the ribs of the valve actuating means press against said inclined surfaces under the influence of the second biasing means.


 
2. A valve assembly according to claim 1, wherein the first open end of the first chamber is opposed to the second open end of the second chamber.
 
3. A valve assembly according to claim 1, wherein:

• the valve actuating means includes pushing surface; and

• the valve plug includes a pushed surface adapted to be pushed by the pushing surface;
wherein when the valve actuating means is pushed, the pushing surface of the valve actuating means pushes against the pushed surface of the valve plug.


 
4. A valve assembly according to claim 1, wherein the internal surface of the second chamber includes a set of inclined ledges in between openings of said channels.
 
5. A valve assembly according to claim 4, wherein the inclined ledges are adapted to abut the exposed ends of the ribs of the valve actuating means after the valve plug has been caused to rotate and, under the influence of the first biasing means, guide each of the ribs into an adjoining channel of the second chamber.
 
6. An inflatable cushion including:

• an inflatable body, having an upper surface and a lower surface, said body including an air-impermeable skin defining a chamber, an elastic foam core within said chamber and a sealable air valve; and

• an external elastic foam layer substantially covering at least one of said upper and lower of surfaces; wherein:

• the foam core is formed of a foam having a density of between about 15 kg/m3 and about 35 kg/m3 and a hardness of between about 25 newtons and about 45 newtons;

• the foam layer is formed of a foam having a density of between about 35 kg/m3 and about 65 kg/m3 and a hardness of between about 35 newtons and about 95 newtons; and

• the sealable air valve comprises a valve assembly according to claim 1.


 
7. A mattress comprising:

• a mattress body; and

• an inflatable cushion, having an inflatable body which includes an air-impermeable skin defining a chamber, an elastic foam core within said chamber and a sealable air valve, said inflatable cushion being positioned within said mattress body;
wherein the sealable air valve comprises a valve assembly according to claim 1 and said valve is accessible at an external surface of said mattress.


 


Ansprüche

1. Ventilanordnung, die ausgelegt ist, sich bei einem Drücken einer Ventilbetätigungseinrichtung in eine geschlossene Ventilposition und bei einem weiteren Drücken der Ventilbetätigungsanordnung in eine offene Ventilposition zu bewegen, beinhaltend:

• ein Gehäuse mit einer ersten Kammer (50A), die sich von einem ersten offenen Ende erstreckt, und einer zweiten Kammer (50B), die sich von einem zweiten offenen Ende erstreckt, wobei die zweite Kammer mit der ersten Kammer in offener Kommunikation steht;

• einen Ventilkegel, wobei sich mindestens ein Abschnitt des Ventilkegels innerhalb der zweiten Kammer befindet, und der ausgelegt ist, um das zweite offene Ende abzudichten; und

• eine Ventilbetätigungseinrichtung (54), von der sich mindestens ein Abschnitt innerhalb der ersten Kammer befindet, wobei die Anordnung ferner Folgendes umfasst:

eine erste Vorspanneinrichtung (76), die gegen das Drücken der Ventilbetätigungseinrichtung wirkt und ausgelegt ist, um die Ventilbetätigungseinrichtung zurück in Richtung ihrer Ausgangsposition vorzuspannen, nachdem sie durch einen Benutzer gedrückt wurde,

eine zweite Vorspanneinrichtung (96), die den Ventilkegel beeinflusst, damit er sich innerhalb der zweiten Kammer in Richtung der Ventilbetätigungseinrichtung dreht,

wobei der Ventilkegel ein erstes Ende, einen Zwischenbereich und ein eine Öffnung abdichtendes Ende gegenüber dem ersten Ende beinhaltet,

wobei die Ventilbetätigungseinrichtung ein erstes Ende, das sich innerhalb der zweiten Kammer des Gehäuses befindet, und ein gegenüberliegendes freiliegendes Ende beinhaltet, wobei das eine Öffnung abdichtende Ende des Ventilkegels ausgelegt ist, um das zweite offene Ende der zweiten Kammer abzudichten, und das freiliegende Ende der Ventilbetätigungseinrichtung ausgelegt ist, durch einen Benutzer gedrückt zu werden,

dadurch gekennzeichnet, dass die Ventilbetätigungseinrichtung eine Vielzahl von sich radial erstreckenden Rippen (103) benachbart zu dem ersten Ende beinhaltet und der Ventilkegel eine Vielzahl von Rippen, die sich radial von dem Zwischenbereich erstreckt, beinhaltet, und die zweite Kammer des Gehäuses eine Innenfläche mit Kanälen (64A, 64) aufweist, die ausgelegt sind, um die Rippen des Ventilkegels und die Rippen der Ventilbetätigungseinrichtung aufzunehmen, um den Ventilkegel und die Ventilbetätigungseinrichtung einzuschränken, wenn sie gedrückt werden, um sich in die offene Ventilposition zu bewegen, um durch die Rippen, die sich entlang der Kanäle bewegen, versetzt zu werden, und dann zu ermöglichen, dass sich das Ventilelement durch Eingriff zwischen Flächen des Ventilkegels und der Ventilbetätigungseinrichtung unter Einfluss der zweiten Vorspanneinrichtung dreht, um sich in die offene Ventilposition zu bewegen, und um sich zu drehen und dann unter Einfluss der ersten Vorspanneinrichtung versetzt zu werden, wenn es wieder gedrückt wird, um sich in die geschlossene Ventilposition zu bewegen,

wobei die Kanäle und die Rippen des Ventilkegels derart konfiguriert sind, dass, wenn sich der Ventilkegel um eine vorbestimmte Entfernung entlang der Kanäle bewegt, die Rippen des Ventilkegels aus den Kanälen austreten und der Ventilkegel unter dem Einfluss der zweiten Vorspanneinrichtung veranlasst wird, sich innerhalb der zweiten Kammer zu drehen; und

wobei der Ventilkegel einen Satz von geneigten Flächen beinhaltet, der zwischen dem ersten Ende und dem Zwischenbereich des Ventilkegels positioniert ist, und freiliegende Enden der Rippen der Ventilbetätigungseinrichtung unter dem Einfluss der zweiten Vorspanneinrichtung gegen die geneigten Flächen drücken.


 
2. Ventilanordnung nach Anspruch 1, wobei das erste offene Ende der ersten Kammer gegenüber dem zweiten offenen Ende der zweiten Kammer liegt.
 
3. Ventilanordnung nach Anspruch 1, wobei:

• die Ventilbetätigungseinrichtung eine Druckfläche beinhaltet; und

• der Ventilkegel eine gedrückte Fläche beinhaltet, die ausgelegt ist, um durch die Druckfläche gedrückt zu werden; wobei die Druckfläche der Ventilbetätigungseinrichtung, wenn die Ventilbetätigungseinrichtung gedrückt wird, gegen die gedrückte Fläche des Ventilkegels drückt.


 
4. Ventilanordnung nach Anspruch 1, wobei die Innenfläche der zweiten Kammer einen Satz von geneigten Leisten zwischen Öffnungen der Kanäle beinhaltet.
 
5. Ventilanordnung nach Anspruch 4, wobei die geneigten Leisten ausgelegt sind, um an den freiliegenden Enden der Rippen der Ventilbetätigungseinrichtung anzuliegen, nachdem der Ventilkegel veranlasst wurde, sich zu drehen, und unter dem Einfluss der ersten Vorspanneinrichtung jede der Rippen in einen angrenzenden Kanal der zweiten Kammer zu führen.
 
6. Aufblasbares Kissen, beinhaltend:

• einen aufblasbaren Körper, der eine obere Fläche und eine untere Fläche aufweist, wobei der Körper eine luftundurchlässige Haut, die eine Kammer definiert, einen elastischen Schaumstoffkern innerhalb der Kammer und ein abdichtbares Luftventil beinhaltet; und

• eine äußere elastische Schaumstoffschicht, die im Wesentlichen mindestens eine von der oberen und unteren Fläche bedeckt;

wobei:

• der Schaumstoffkern aus einem Schaumstoff mit einer Dichte zwischen ungefähr 15 kg/m3 und ungefähr 35 kg/m3 und einer Härte zwischen ungefähr 25 Newton und ungefähr 45 Newton gebildet ist;

• die Schaumstoffschicht aus einem Schaumstoff mit einer Dichte zwischen ungefähr 35 kg/m3 und ungefähr 65 kg/m3 und einer Härte zwischen ungefähr 35 Newton und ungefähr 95 Newton gebildet ist; und

• das abdichtbare Luftventil eine Ventilanordnung nach Anspruch 1 umfasst.


 
7. Matratze, umfassend:

• einen Matratzenkörper; und

• ein aufblasbares Kissen, das einen aufblasbaren Körper aufweist, der eine luftundurchlässige Haut, die eine Kammer definiert, einen elastischen Schaumstoffkern innerhalb der Kammer und ein abdichtbares Luftventil beinhaltet, wobei das aufblasbare Kissen innerhalb des Matratzenkörpers positioniert ist;
wobei das abdichtbare Luftventil eine Ventilanordnung nach Anspruch 1 umfasst und das Ventil an einer Außenfläche der Matratze zugänglich ist.


 


Revendications

1. Valve adaptée pour se déplacer vers une position fermée de valve lors d'une poussée d'un moyen d'actionnement de valve, et vers une position ouverte de valve lors d'une autre poussée d'un moyen d'actionnement de valve, comportant :

• un boîtier ayant une première chambre (50A) s'étendant depuis une première extrémité ouverte et une seconde chambre (50B) s'étendant depuis une seconde extrémité ouverte, ladite seconde chambre étant en communication ouverte avec la première chambre ;

• un clapet de valve, au moins une partie du clapet de valve est située à l'intérieur de la seconde chambre, et qui est adapté pour sceller la seconde extrémité ouverte ; et

• un moyen d'actionnement de valve (54), dont au moins une partie qui est située à l'intérieur de la première chambre, dans lequel l'ensemble comprend en outre :

un premier moyen de sollicitation (76) agissant contre la poussée du moyen d'actionnement de valve et adapté pour solliciter le moyen d'actionnement de valve vers sa position d'origine après avoir été pressé par un utilisateur,

un second moyen de sollicitation (96) amenant le clapet de valve à tourner à l'intérieur de la seconde chambre en direction du moyen d'actionnement de valve,

dans lequel le clapet de valve comporte une première extrémité, une section intermédiaire et une extrémité d'étanchéité d'ouverture opposée à la première extrémité,

dans lequel le moyen d'actionnement de valve comporte une première extrémité située à l'intérieur de la seconde chambre du boîtier et une extrémité exposée opposée, dans lequel l'extrémité d'étanchéité d'ouverture du clapet de valve est adaptée pour sceller la seconde extrémité ouverte de ladite seconde chambre et l'extrémité exposée du moyen d'actionnement de valve est adaptée pour être poussé par un utilisateur,

caractérisée en ce que le moyen d'actionnement de valve comporte une pluralité de nervures s'étendant radialement (103) adjacentes à ladite première extrémité et le clapet de valve comporte une pluralité de nervures s'étendant radialement à partir de la section intermédiaire, et la seconde chambre du boîtier a une surface interne ayant des canaux (64A, 64) adaptés pour recevoir les nervures du clapet de valve et les nervures du moyen d'actionnement de valve pour contraindre le clapet de valve et le moyen d'actionnement de valve, lorsqu'ils sont poussés pour se déplacer vers la position de valve ouverte, pour se translater par le déplacement des nervures le long desdits canaux et ensuite pour permettre à l'élément de valve de tourner par mise en prise entre les surfaces du clapet de valve et le moyen d'actionnement de valve sous l'influence du second moyen de sollicitation pour se déplacer vers la position de valve ouverte, et pour tourner et ensuite se translater sous l'influence du premier moyen de sollicitation lorsqu'ils sont à nouveau poussés pour se déplacer vers la position de valve fermée,

dans lequel les canaux et les nervures du clapet de valve sont configurés de sorte que, lorsque le clapet de valve se déplace sur une distance prédéterminée le long des canaux, les nervures du clapet de valve sortent des canaux et, sous l'influence du second moyen de sollicitation, le clapet de valve est amené à tourner à l'intérieur de la seconde chambre ; et

dans lequel le clapet de valve comporte un ensemble de surfaces inclinées positionnées entre la première extrémité et la section intermédiaire du clapet de valve, et les extrémités exposées des nervures du moyen d'actionnement de valve se pressent contre lesdites surfaces inclinées sous l'influence du second moyen de sollicitation.


 
2. Valve selon la revendication 1, dans lequel la première extrémité ouverte de la première chambre est opposée à la seconde extrémité ouverte de la seconde chambre.
 
3. Valve selon la revendication 1, dans lequel :

• le moyen d'actionnement de valve inclut une surface de poussée ; et

• le clapet de valve comporte une surface poussée adaptée pour être poussée par la surface de poussée ;
dans laquelle, lorsque le moyen d'actionnement de valve est poussé, la surface de poussée du moyen d'actionnement de valve pousse contre la surface poussée du clapet de valve.


 
4. Valve selon la revendication 1, dans lequel la surface interne de la seconde chambre comporte un ensemble de rebords inclinés entre les ouvertures desdits canaux.
 
5. Valve selon la revendication 4, dans lequel les rebords inclinés sont adaptés pour venir en butée contre les extrémités exposées des nervures du moyen d'actionnement de valve après que le clapet de valve a été amené à tourner et, sous l'influence du premier moyen de sollicitation, à guider chacune des nervures dans un canal adjacent de la seconde chambre.
 
6. Coussin gonflable comportant :

• un corps gonflable, ayant une surface supérieure et une surface inférieure, ledit corps comportant une peau imperméable à l'air définissant une chambre, un noyau en mousse élastique à l'intérieur de ladite chambre et une valve à air pouvant être scellée ; et

• une couche externe de mousse élastique recouvrant sensiblement au moins l'une desdites surfaces supérieure et inférieure ;

dans lequel :

• l'âme en mousse est formée d'une mousse ayant une densité comprise entre environ 15 kg/m3 et environ 35 kg/m3 et une dureté comprise entre environ 25 newtons et environ 45 newtons ;

• la couche en mousse est formée d'une mousse ayant une densité comprise entre environ 35 kg/m3 et environ 65 kg/m3 et une dureté comprise entre environ 35 newtons et environ 95 newtons ; et

• la valve à air pouvant être scellée comprend une valve selon la revendication 1.


 
7. Matelas comprenant :

• un corps de matelas ; et

• un coussin gonflable, ayant un corps gonflable qui comporte une peau imperméable à l'air définissant une chambre, un noyau en mousse élastique à l'intérieur de ladite chambre et une valve à air pouvant être scellée, ledit coussin gonflable étant positionné à l'intérieur dudit corps de matelas ;
dans lequel la valve à air pouvant être scellée comprend une valve selon la revendication 1 et ladite valve est accessible au niveau d'une surface externe dudit matelas.


 




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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