JPWO2021138527A5 - - Google Patents

Description

Accordingly, while particular implementations of the inventive subject matter have been described, other implementations are within the scope of the following claims. In some cases, the claimed acts may be performed in a different order and still achieve desirable results. Moreover, the processes depicted in the accompanying figures do not necessarily require the particular order or sequential order shown to achieve desirable results. In certain implementations, multitasking and parallel processing may be advantageous.
The claims as filed are as follows.
<Claim 1>
A mattress system,
mattress cover and
a first layer having a top surface and an opposite bottom surface and configured to allow a first amount of airflow;
a heating unit located on the top surface of the first layer and below the mattress cover;
an airflow insertion pad disposed below the bottom surface of the first layer and configured to allow a second airflow amount that is higher than the first airflow amount;
an air controller configured to move air through the airflow insertion pad and through the first layer to reduce the temperature of the top surface of the first layer;
Equipped with
the top surface is covered by the mattress cover;
The heating unit is electrically controlled to increase the temperature
A mattress system characterized by:
<Claim 2>
the heating unit includes a foot warming envelope positioned at the foot of the mattress system;
The airflow insert pad is positioned closer to the head of the mattress system than the foot warming envelope.
The mattress system according to claim 1, characterized in that:
<Claim 3>
The first layer is configured as a foam layer.
The mattress system according to claim 1 or 2, characterized in that:
<Claim 4>
The air controller is configured to draw air from the airflow insertion pad.
The mattress system according to any one of claims 1 to 3, characterized in that:
<Claim 5>
The air controller is configured to supply conditioned air to the airflow insertion pad.
The mattress system according to any one of claims 1 to 4, characterized in that:
<Claim 6>
The conditioned air is heated air.
6. The mattress system of claim 5.
<Claim 7>
The conditioned air is cooled air.
6. The mattress system of claim 5.
<Claim 8>
The airflow insert pad includes a pad cover and an airflow material contained within the pad cover;
the pad cover includes a vent;
The airflow insertion pad is arranged such that the vent faces the bottom surface of the first layer.
8. A mattress system according to any one of claims 1 to 7.
<Claim 9>
the pad cover is made of air-restricting material;
The vent is covered by a mesh material
9. The mattress system of claim 8.
<Claim 10>
The vent includes a window provided within the pad cover.
10. The mattress system according to claim 8 or 9.
<Claim 11>
The vent has an edge spaced within a periphery of the airflow insertion pad to define a perimeter around the vent.
The mattress system according to any one of claims 8 to 10.
<Claim 12>
an air duct fluidly connected to the airflow insertion pad;
further comprising;
The air duct includes an opening connected to a portion of the airflow insertion pad corresponding to the perimeter of the vent.
The mattress system according to any one of claims 8 to 11.
<Claim 13>
The airflow insertion pad has no holes
13. A mattress system according to any one of claims 8 to 12.
<Claim 14>
The airflow insert pad is made of Qshion(TM) material.
14. A mattress system according to any one of claims 1 to 13.
<Claim 15>
The airflow insert pad is manufactured from one of a spacer monofilament material and a reticulated foam.
14. A mattress system according to any one of claims 1 to 13.
<Claim 16>
an expandable chamber positioned below the first layer;
The mattress system according to any one of claims 1 to 13, further comprising:
<Claim 17>
a foam rail structure configured to surround the inflatable chamber, including a top foam rail, a bottom foam rail, and side foam rails extending between the top foam rail and the bottom foam rail;
17. The mattress system of claim 16, further comprising:.
<Claim 18>
The rail is attached to a periphery on the bottom surface of the first foam layer.
18. The mattress system of claim 17.
<Claim 19>
a second foam layer (i.e., a support foam layer) attached to the bottom surface and including a cutout configured to receive the airflow insert pad;
further comprising;
The airflow insert pad is contained within the cutout and surrounded by the second foam layer so that the airflow insert pad is not laterally exposed.
19. A mattress system according to claim 17 or 18.
<Claim 20>
The airflow insert pad is attached to the bottom surface of the first foam layer through the cutout in the second foam layer.
20. The mattress system of claim 19.
<Claim 21>
the foam rail structure is attached to the second foam layer
21. A mattress system according to claim 19 or 20.
<Claim 22>
an air duct extending between the airflow insertion pad and the air controller;
22. The mattress system of claim 21, further comprising:.
<Claim 23>
At least one of the rails has a notch configured to at least partially receive the air duct.
23. The mattress system of claim 22.
<Claim 24>
one or more reinforcing straps attached to the side rails and extending between the side rails;
24. The mattress system according to any one of claims 17 to 23, further comprising:
<Claim 25>
an air chamber at least partially surrounded by the rail;
an air hose extending from the air chamber;
further comprising;
The air hose extends at least partially along the duct.
25. A mattress system according to any one of claims 17 to 24.
<Claim 26>
a base including a duct opening configured to engage an end of the air duct;
26. The mattress system according to any one of claims 22 to 25, further comprising:
<Claim 27>
a sleeve disposed at least partially around the air duct;
27. The mattress system according to any one of claims 22 to 26, further comprising:
<Claim 28>
The heating unit includes:
a layer configured to generate heat in response to electrical current and positioned above the first layer and below the mattress cover at the foot of the mattress system;
including;
The air controller is
an air controller housing defining a housing inlet and a housing outlet;
a fan positioned within the air controller housing;
an air passageway connecting at least one of the housing inlet and the housing outlet of the air controller housing to the airflow insertion pad;
including
28. A mattress system according to any one of claims 1 to 27.
<Claim 29>
The air controller is
a heater positioned within the air controller housing between the housing inlet and the housing outlet;
further including
29. The mattress system of claim 28.
<Claim 30>
the air passageway connects the housing inlet to the airflow insertion pad;
The air controller is configured to draw air from the air flow insertion pad into the air controller housing.
30. A mattress system according to claim 28 or 29.
<Claim 31>
31. A method of operating a mattress system according to any of claims 1 to 30, comprising:
heating via the heating unit;
cooling via the air controller;
A method characterized by comprising:
<Claim 32>
heating a foot portion of the mattress system via the heating unit while cooling a second portion of the mattress system via the air controller;
32. The method of claim 31, further comprising:
<Claim 33>
heating a foot portion of the mattress system via the heating unit before a user enters the mattress system;
ceasing heating of the foot portion of the mattress system via the heating unit either before or at the time a user is sensed to enter the mattress system;
cooling a second portion of the mattress system via the air controller after a user is sensed entering the mattress system;
33. The method according to claim 31 or 32, further comprising:
<Claim 34>
A mattress system,
mattress cover and
a first foam layer having a top surface and an opposite bottom surface and configured to allow a first amount of airflow;
a foot warming envelope containing a heating unit and placed under the mattress cover;
an airflow insertion pad disposed below the bottom surface of the first foam layer and configured to allow a second airflow amount that is higher than the first airflow amount;
an air controller configured to draw air from the airflow insertion pad to increase air distribution through the first foam layer to reduce the temperature of the top surface of the first foam layer;
Equipped with
the top surface is covered by the mattress cover;
the heating unit is electrically controlled
A mattress system characterized by:
<Claim 35>
A mattress system,
a first foam layer configured to allow a first amount of airflow;
an airflow pad disposed below the first foam layer and configured to allow a second airflow amount that is higher than the first airflow amount;
an air controller configured to move air through the airflow pad and through the first foam layer to reduce the temperature of the top surface of the first foam layer;
Equipped with
The airflow pad is made of a water-resistant, breathable, resilient, and supportive airflow material that is different from the first foam layer.
A mattress system characterized by:
<Claim 36>
The airflow material has a three-dimensional structure with elastic polyolefin fibers.
36. The mattress system of claim 35.
<Claim 37>
The airflow material is made of 100% polyolefin
37. A mattress system according to claim 35 or 36.
<Claim 38>
The airflow material includes Qshion(TM) material.
38. A mattress system according to any one of claims 35 to 37.
<Claim 39>
The airflow material has a thickness modulus of greater than 95% after 80,000 cycles of compression.
39. A mattress system according to any one of claims 35 to 38.
<Claim 40>
The airflow pad further includes a pad cover for enclosing the airflow material;
the pad cover includes a vent;
The airflow pad is arranged such that the vent faces a bottom surface of the first foam layer.
8. A mattress system according to any one of claims 1 to 7.
<Claim 41>
the pad cover is made of air-restricting material;
The vent is covered by a mesh material
41. The mattress system of claim 40.
<Claim 42>
The airflow pad has no holes
42. The mattress system of claim 41.
<Claim 43>
A mattress system,
a first foam layer positioned proximate the top of the mattress;
an airflow pad positioned below the first foam layer;
Equipped with
The air flow pad is
a core of Qshion(TM) material;
a plenum chamber substantially surrounding the core of Qshion™ material via a cover material that restricts airflow;
It contains
the cover material is positioned over at least a portion of the top, bottom and sides of the core of Qshion™ material;
the plenum chamber defines a top opening;
a mesh material covers the top opening, allowing air to flow through the top opening;
The mattress system further includes:
an air hose connected to the plenum chamber;
a mattress core positioned below the airflow pad and configured to support a user;
A mattress system characterized by:
<Claim 44>
A mattress,
a first layer having a first layer top and a first layer bottom and extending from a first layer edge to a second layer edge;
a first side rail attached to the bottom of the first layer near the edge of the first layer;
a second side rail attached to the bottom of the first layer near the edge of the second layer;
a core positioned between the first side rail and the second side rail and below the first layer bottom;
a first strap connected to the first side rail and the second side rail at a connection location so as to extend under the core from a bottom of the first side rail to a bottom of the second side rail;
A mattress characterized by being equipped with.
<Claim 45>
A mattress cover including the first layer, the first side rail, the second side rail, the core, and the first strap.
45. The mattress of claim 44, further comprising:
<Claim 46>
a second strap connected to the first side rail and the second side rail to extend under the core from the bottom of the first side rail to the bottom of the second side rail;
further comprising;
The first strap and the second strap are both positioned in the longitudinally central portion of the mattress, and the second strap is spaced apart from the first strap.
46. The mattress according to claim 44 or 45.
<Claim 47>
a second strap connected to the first side rail and the second side rail to extend under the core from the bottom of the first side rail to the bottom of the second side rail;
further comprising;
the first strap intersects with the second strap,
the first strap is connected to the first side rail between the head of the mattress and the second strap;
The first strap is connected to the second side rail between the foot of the mattress and the second strap.
47. The mattress according to any one of claims 44 to 46.
<Claim 48>
a second strap connected to the first side rail and the second side rail to extend under the core from the bottom of the first side rail to the bottom of the second side rail;
further comprising;
The first side rail defines a first notch,
The second side rail defines a second notch,
The first and second side rails are structurally weakened at the first and second notches,
The first and second straps are connected to the first and second side rails on opposite sides of the first and second cutouts.
48. A mattress according to any one of claims 44 to 47.
<Claim 49>
The first side rail defines a first notch,
The second side rail defines a second notch,
The first and second side rails are structurally weakened at the first and second notches,
The first strap is connected to the first and second side rails near the first and second notches.
49. A mattress according to any one of claims 44 to 48.
<Claim 50>
The first layer, the first side rail, and the second side rail include one or more foam materials.
50. The mattress according to any one of claims 44 to 49.
<Claim 51>
The core includes an inflatable air chamber.
51. The mattress according to any one of claims 44 to 50.
<Claim 52>
the first layer, the first side rail and the second side rail are part of an inverted foam tab;
The upside down foam tab includes a foot rail and a head rail.
52. The mattress according to any one of claims 44 to 51.
<Claim 53>
a second strap connected to the first side rail and the second side rail to extend under the core from the bottom of the first side rail to the bottom of the second side rail;
a first air hose extending through the first side rail between the first strap and the second strap;
a second air hose extending through the second side rail between the first strap and the second strap;
53. The mattress according to any one of claims 44 to 52, further comprising:
<Claim 54>
mattress and
multiple straps,
A bed comprising:
The mattress is
a first foam layer having a top surface and an opposite bottom surface;
an inflatable chamber located opposite the top surface of the first foam layer;
a top foam rail, a bottom foam rail, and side foam rails extending between the top foam rail and the bottom foam rail, extending from a periphery of the first foam layer to the inflatable chamber; A foam rail structure configured to surround the
It has
Each of the plurality of straps has opposite ends attached to the side foam rails and extends across the inflatable chamber between the side foam rails.
A bed characterized by:
<Claim 55>
The plurality of straps are arranged to extend between a bottom of the mattress.
55. The bed according to claim 54.
<Claim 56>
a base configured to support said mattress;
further comprising;
The plurality of straps are disposed between a bottom of the mattress and a top of the base.
56. The bed according to claim 54 or 55.
<Claim 57>
a plurality of fastening elements configured to attach the plurality of straps onto the side foam rails;
57. The bed according to any one of claims 54 to 56, further comprising:
<Claim 58>
The plurality of fastening elements include adhesive tape applied between the foam rail structure and ends of the plurality of straps.
58. A bed according to claim 57.
<Claim 59>
the foam rail structure includes a notch;
At least one of the plurality of straps is attached to the foam rail structure adjacent the notch.
59. The bed according to any one of claims 54 to 58.
<Claim 60>
a mattress having a mattress top and a mattress bottom, defining an interior of the mattress between the mattress top and the mattress bottom;
a base sized and configured to be positioned beneath the mattress bottom to support the mattress;
A bed comprising:
The mattress is
a first connecting portion positioned on the mattress bottom and in fluid communication with a first air hole disposed within the mattress and configured to permit airflow therethrough;
an air hose extending from the first air hole and exiting the mattress bottom through the first connecting portion;
It has
The base is
a supporting surface;
a second connecting portion positioned on the support surface;
It has
the second connecting portion defines a second air hole configured to allow airflow through the second connecting portion;
the second connecting portion is positioned on the base in a position configured to align with and connect to the first connecting portion when the mattress is positioned on the base;
the first connecting part so that air can flow between the base and the mattress through the first and second air holes when the first connecting part is connected to the second connecting part; one air hole is fluidly connected to the second air hole.
A bed characterized by:
<Claim 61>
The mattress further includes a mattress cover,
The first connecting portion includes a first portion positioned on the inside of the mattress cover that connects to a second portion positioned on the outside of the mattress cover.
61. A bed according to claim 60.
<Claim 62>
The mattress is
an inflatable air chamber;
an air distribution layer;
a second air hose;
It further includes
both the air hose and the second air hose extend through the first air hole;
the air hose extends to the air distribution layer;
The second air hose extends to an inflatable air chamber.
62. The bed according to claim 60 or 61, characterized in that:
<Claim 63>
The first connecting part connects to the second connecting part via a snap connection.
63. The bed according to any one of claims 60 to 62.
<Claim 64>
The base is an adjustable base configured to selectively raise and lower the head of the mattress and the foot of the mattress.
64. The bed according to any one of claims 60 to 63.
<Claim 65>
The base is
a head panel configured to lift the head of the mattress;
a foot panel configured to lift the foot of the mattress;
an intermediate panel positioned between the head panel and the foot panel;
It contains
the second connecting portion is positioned on the intermediate panel
65. A bed according to claim 64.
<Claim 66>
the intermediate panel remains substantially stationary when the head panel and the foot panel are articulated;
66. A bed according to claim 65.
<Claim 67>
a third connecting portion positioned on the mattress bottom defining a third air hole;
a fourth connecting portion positioned on the support surface defining a fourth air hole;
further comprising;
the fourth connecting portion is positioned on the base in a position configured to align with and connect to the third connecting portion when the mattress is positioned on the base;
the third connecting part so that air can flow between the base and the mattress through the third and fourth air holes when the third connecting part is connected to the fourth connecting part; The third air hole is aligned with the fourth air hole.
67. The bed according to any one of claims 64 to 66.
<Claim 68>
The first, second, third and fourth connecting portions are connected when the base raises the head and foot of the mattress without any additional connectors between the mattress and the base. connected with sufficient strength to retain the mattress to the base
68. The bed of claim 67.
<Claim 69>
The air hose extends through the first air hole and connects to the second connection part.
69. The bed according to any one of claims 60 to 68.
<Claim 70>
The second connecting portion extends upwardly into the first air hole and into the first end of the air hose to provide structural rigidity to the air hose when the first connecting portion is connected to the second connecting portion. Includes a hose support sized and shaped to provide
70. The bed according to any one of claims 60 to 69.
<Claim 71>
a mattress having a mattress top and a mattress bottom, defining an interior of the mattress between the mattress top and the mattress bottom;
a base sized and configured to be positioned beneath the mattress bottom to support the mattress;
A bed comprising:
the mattress includes a first connecting portion defining a first air hole positioned at or near the bottom of the mattress;
The base is
a supporting surface;
a second connecting portion positioned on the support surface;
It has
the second connecting portion defines a second air hole configured to allow airflow through the second connecting portion;
the second connecting portion is positioned on the base in a position configured to align with and connect to the first connecting portion when the mattress is positioned on the base;
the first connecting part so that air can flow between the base and the mattress through the first and second air holes when the first connecting part is connected to the second connecting part; one connecting portion is fluidly connected to the second connecting portion;
The second connecting part has a rib extending into the first connecting part to support the first connecting part.
A bed characterized by:
<Claim 72>
The rib has first and second side walls extending upwardly from the second connecting portion on opposite sides of the second air hole.
72. A bed according to claim 71.
<Claim 73>
The rib has a cross wall extending across the second air hole.
73. The bed system according to claim 71 or 72.
<Claim 74>
mattress and
a base supporting the mattress and including a duct opening;
A bed comprising:
The mattress is
a foam layer configured to allow a first amount of airflow;
an airflow insertion pad disposed below the foam layer and configured to allow a second airflow rate that is higher than the first airflow rate;
an air duct having first and second ends;
It has
the first end is fluidly connected to the airflow insertion pad;
The bed further includes:
a duct connector mounted around the duct opening of the base and configured to mate with the second end of the air duct;
fluidically connected to the duct opening to draw air from the airflow insertion pad through the air duct to increase air distribution through the foam layer and reduce the temperature of the top surface of the foam layer; an air controller configured;
A bed characterized by being equipped with.
<Claim 75>
the duct connector is disposed adjacent to the periphery of the base;
75. The bed of claim 74.
<Claim 76>
The duct connector is
a base fixed to the top surface of the foundation;
a rib extending from the base away from the top surface of the foundation;
including;
The rib is configured to be inserted into the air duct to maintain a width of at least the second end of the air duct when the second end of the air duct is connected to the duct connector. There is
76. The bed according to claim 74 or 75.
<Claim 77>
The duct connector is
a first sub-connector fixed to the top surface of the base;
a second sub-connector fixed to the bottom surface of the mattress;
including;
The second sub-connector is configured to snap connect to the first sub-connector to position the mattress relative to the base.
77. The bed according to any one of claims 74 to 76.
<Claim 78>
The second sub-connector is configured to slide relative to the first sub-connector to lock the position of the mattress relative to the base.
78. The bed of claim 77.
<Claim 79>
a foam layer configured to allow a first amount of airflow;
an airflow insertion pad disposed below the foam layer and configured to allow a second airflow rate that is higher than the first airflow rate;
an air controller configured to draw air from the airflow insertion pad and supply heated air to the airflow insertion pad;
Equipped with
The air controller is
a housing having a connection side opening and a peripheral side opening;
a reversible fan mounted within the housing;
a heating element mounted within the housing;
the reversible fan is configured to operate in a cooling mode to cause air flow through the housing from the connection opening to the ambient opening; and
controlling the air controller in a heating mode in which the heating element is heated and the reversible fan is activated to flow air from the peripheral opening to the connection opening past the heating element; a control unit configured;
have
A mattress system characterized by:
<Claim 80>
The air controller is
a first temperature sensor configured to detect a heating element temperature;
a second temperature sensor configured to detect an exit temperature of air exiting the housing;
further including;
The control unit receives signals from the first and second temperature sensors and controls the heating element based on the signals to achieve a predetermined outlet temperature.
80. The mattress system of claim 79.
<Claim 81>
The air controller is
a third temperature sensor configured to detect the temperature of the air drawn from the airflow insertion pad;
a fourth temperature sensor configured to detect ambient temperature;
further including;
The control unit receives signals from the third and fourth temperature sensors and controls the reversible fan based on the signals.
81. A mattress system according to claim 79 or 80.
<Claim 82>
The control unit calculates the amount of heat extracted from the airflow insertion pad based on the signal.
82. The mattress system of claim 81.
<Claim 83>
The air controller further includes one or more humidity sensors,
The control unit receives a signal from the humidity sensor and controls the reversible fan and the heating element based on the signal.
83. A mattress system according to any one of claims 79 to 82.
<Claim 84>
The housing includes a curved conduit between the connection side opening and the peripheral side opening,
the heating element is disposed in the curved conduit
84. A mattress system according to any one of claims 79 to 83.
<Claim 85>
the heating element is of a smaller size than the cross section of the curved conduit;
85. The mattress system of claim 84.
<Claim 86>
the heating element is located closer to an outer corner of the curved conduit than an inner corner of the curved conduit;
86. The mattress system of claim 85.
<Claim 87>
The reversible fan is disposed in the peripheral opening of the housing.
87. A mattress system according to any one of claims 79 to 86.
<Claim 88>
The housing includes a rib extending from an interior surface of the housing and configured to engage the reversible fan to secure the reversible fan to the peripheral opening of the housing.
88. The mattress system of claim 87.
<Claim 89>
The air controller includes a foam material disposed between the rib and the reversible fan.
89. The mattress system of claim 88.
<Claim 90>
The air controller is
a first screen disposed at the connection side opening of the housing;
a second screen disposed at the peripheral opening of the housing;
further including
90. A mattress system according to any one of claims 79 to 89.
<Claim 91>
The housing includes opposing spacers extending from an interior surface of the housing and configured to provide an interference fit between the heating element.
91. A mattress system according to any one of claims 79 to 90.
<Claim 92>
An air controller configured for use with a mattress, the air controller comprising:
a housing having a mattress side opening and a peripheral side opening;
a reversible fan mounted within the housing;
a heating element including a plurality of fins;
Equipped with
the plurality of fins allow airflow between the fins to be heated by the heating element;
The heating element simultaneously heats the air when the air flows from the peripheral opening toward the mattress opening and when the air flows from the mattress opening toward the peripheral opening. within said housing at a location at least partially spaced from an interior wall of said housing to define a bypass flow path that allows air to flow around said heating element while flowing through said heating element; attached to
An air controller characterized by:
<Claim 93>
a printed circuit board positioned within the housing between the peripheral opening and the heating element;
further comprising;
the reversible fan is positioned within the housing between the peripheral opening and the heating element;
The printed circuit board is electrically connected to both the reversible fan and the heating element and controls operation of the reversible fan and the heating element.
93. The air controller of claim 92.
<Claim 94>
A method for controlling the microclimate of a mattress, the method comprising:
activating a heating element to heat the air;
activating a reversible fan in one direction to supply heated air to the top of the mattress;
controlling the reversible fan in opposite directions to draw a volume of air from the top of the mattress for a predetermined period of time;
detecting the temperature of the amount of air drawn from the top of the mattress;
reactivating the heating element and the reversible fan, whereby activation of at least one of the heating element and the reversible fan is adjusted based on the detected temperature;
A method characterized by comprising:
<Claim 95>
A method for controlling the microclimate of a mattress, the method comprising:
activating a heating element to heat the air;
activating a first fan to supply heated air to the air layer;
controlling a second fan to draw a volume of air from the air layer for a predetermined period of time;
detecting the temperature of the amount of air drawn from the air layer;
adjusting activation of at least one of the heating element and the first fan based on the temperature;
A method characterized by comprising:
<Claim 96>
A method for controlling the microclimate of a mattress, the method comprising:
activating a fan to draw air from the air insertion pad;
detecting the temperature of the air drawn from the air insertion pad;
adjusting activation of the fan based on the temperature;
Equipped with
The air insertion pad is disposed below the top foam layer and is configured to allow an air flow rate that is higher than the air flow rate of the top foam layer.
A method characterized by:
<Claim 97>
A method for controlling the microclimate of a mattress, the method comprising:
activating an air conditioner to adjust the air;
supplying conditioned air to an inlet of the air insertion pad;
detecting a supply characteristic of air entering the inlet of the air insertion pad;
detecting return characteristics of air exiting the outlet of the air insertion pad;
adjusting activation of the air conditioner based on the supply characteristic and the return characteristic;
Equipped with
The air insertion pad is disposed below the top foam layer and is configured to allow an air flow rate that is higher than the air flow rate of the top foam layer.
A method characterized by:
<Claim 98>
The step of supplying the conditioned air includes activating a fan to supply the conditioned air.
98. The method of claim 97.
<Claim 99>
adjusting activation of the fan based on the supply characteristic and the return characteristic;
99. The method of claim 98, further comprising:
<Claim 100>
The supply characteristic and the return characteristic include at least one of temperature and humidity.
100. A method according to any of claims 97 to 99.
<Claim 101>
first, supplying air to the mattress for a first extended period of time to control the microclimate on top of the mattress;
second, sampling the air temperature of the microclimate over a short sampling period by reversing airflow to draw air from the mattress to the temperature sensor;
third, re-airing the mattress for a second extended period of time, whereby the first extended period of time is adjusted as a function of the air temperature sampled while airflow is reversed; a step in which air is supplied in a different manner than in the inside;
A method characterized by comprising:
<Claim 102>
The first and second extension periods have a length of 5 to 300 minutes,
The short sampling period is between 5 and 300 seconds long.
102. The method of claim 101.
<Claim 103>
mattress and
a fan assembly configured to direct air from or toward the mattress;
a temperature sensor configured to sense the temperature of the air flowing from or toward the mattress;
controller and
A bed system comprising:
The controller includes:
activating the fan assembly to supply air to the mattress for a first extended period of time to control a microclimate on top of the mattress;
activating the fan assembly to reverse airflow to draw air from the mattress over a sampling period;
sampling the air temperature based on a signal from the temperature sensor, the signal representing the temperature of the air detected by the temperature sensor;
activating the fan assembly to re-air the mattress for a second extended period, whereby the first extended period as a function of the air temperature sampled while airflow was reversed; Air is supplied in a different manner than inside
is configured as
A bed system characterized by:
<Claim 104>
the temperature sensor is located adjacent to the fan assembly
104. The bed system of claim 103.
<Claim 105>
The temperature sensor is located on the outside of the mattress.
105. The bed system according to claim 103 or 104.
<Claim 106>
The temperature sensor is located in an airflow path between the fan assembly and the mattress.
105. The bed system according to claim 103 or 104.
<Claim 107>
a humidity sensor configured to detect humidity of the air flowing from or toward the mattress;
further comprising;
The humidity of the air can be used to control operation of the fan assembly.
107. The bed system according to any one of claims 103 to 106.
<Claim 108>
1. A method of operating a mattress air controller, the method comprising:
flowing air in a first direction from a housing inlet to a housing outlet through a housing of the mattress air controller during a first mode of operation configured to condition air on top of the mattress;
reversing the flow of air through the housing in a second direction from the housing outlet toward the housing inlet during a filter cleaning mode to blow particles from a filter positioned at the housing inlet;
Equipped with
The filter cleaning mode has a substantially shorter duration than the first mode of operation.
A method characterized by:
<Claim 109>
The method is
sensing the presence of a user on the mattress;
determining that the user has exited the mattress;
activating the filter cleaning mode after determining that the user has exited the mattress;
109. The method of claim 108, further comprising:
<Claim 110>
The filter cleaning mode is activated daily when a user is not on the mattress.
110. A method according to claim 108 or 109.
<Claim 111>
A method of controlling an air controller configured to draw air from an airflow insert pad for a mattress and provide conditioned air to the airflow insert pad, the method comprising:
The air controller is
a housing having a connection side opening and a peripheral side opening;
a reversible fan mounted within the housing;
a heating element mounted within the housing;
a filtering unit disposed in the peripheral opening of the housing;
It has
the connection side opening is in fluid communication with the airflow insertion pad;
The peripheral opening is exposed to the environment,
The method is
providing the air controller;
controlling the air controller in a cooling mode by operating the reversible fan to cause airflow through the housing from the connection opening to the peripheral opening;
controlling the air controller in a cleaning mode for cleaning the filtering unit by blowing air through the filtering unit in the peripheral opening of the housing by operating the reversible fan for a predetermined period of time; and,
A method characterized by comprising:
<Claim 112>
The air controller is configured to periodically execute the cleaning mode.
112. The method of claim 111.
<Claim 113>
The air controller further includes a second filtering unit disposed at the connection side opening of the housing.
113. The method according to claim 111 or 112.
<Claim 114>
controlling the air controller in a heating mode in which the heating element is heated and the reversible fan is activated to flow air from the peripheral opening toward the connection opening and past the heating element; process of doing
114. The method according to any one of claims 111 to 113, further comprising:
<Claim 115>
A method of controlling an air controller configured to draw air from an air distribution layer for a mattress and provide conditioned air to the air distribution layer, the method comprising:
The air controller is
with a reversible fan,
a heating element;
It has
The method is
providing the air controller;
controlling the air controller in a cooling mode that draws air from the air distribution layer by operating the reversible fan;
controlling the air controller in a refresh mode that operates the reversible fan for a predetermined period of time to circulate air through the air distribution layer;
A method characterized by comprising:
<Claim 116>
The air controller is controlled in the refresh mode for a predetermined period of time.
116. The method of claim 115.
<Claim 117>
The predetermined time ranges from 30 minutes to 60 minutes.
117. The method of claim 116.
<Claim 118>
sensing the presence of a user on the mattress;
determining that a user is not on the mattress before controlling the air controller in the refresh mode;
118. The method of any of claims 115-117, further comprising:
<Claim 119>
detecting a humidity level in the air in the refresh mode;
operating the air controller in the refresh mode until the humidity level reaches a predetermined value;
119. The method of any of claims 115-118, further comprising:
<Claim 120>
Controlling the air controller in the refresh mode includes controlling the reversible fan to draw air from the air distribution layer for the predetermined period of time.
120. A method according to any one of claims 115 to 119.
<Claim 121>
Controlling the air controller in the refresh mode includes controlling the reversible fan to supply air to the air distribution layer for the predetermined period of time.
121. A method according to any one of claims 115 to 120.
<Claim 122>
flowing air through a HEPA filter during said refresh mode;
122. The method of any of claims 115-121, further comprising:
<Claim 123>
applying aromatherapy to the circulating air during said refresh mode;
123. The method of any of claims 115-122, further comprising:
<Claim 124>
applying essential oils to air circulated within the mattress during the refresh mode;
124. A method according to any one of claims 115 to 123, further comprising:
<Claim 125>
the mattress does not contain materials treated with antimicrobial chemicals;
The refresh mode is automatically activated periodically at intervals configured to reduce microbial growth.
125. A method according to any one of claims 115 to 124.
<Claim 126>
1. A method of operating a mattress air controller, the method comprising:
determining that the user is in bed;
activating the mattress air controller to heat or cool the user while it is determined that the user is in bed;
determining that the user is not in bed;
operating the mattress air controller in a refresh mode to refresh air within the mattress while it is determined that the user is not in the bed;
A method characterized by comprising:
<Claim 127>
mattress and
mattress air controller,
A bed system comprising:
The mattress air controller is
with fans,
one or more processors;
a computer-readable storage medium coupled to the one or more processors;
It has
the computer readable storage medium has instructions stored thereon;
The instructions, when executed by the one or more processors, cause the one or more processors to:
activating the mattress air controller in a conditioning mode, thereby activating the fan to move air to the top of the mattress to heat or cool the user; and
operating the mattress air controller in a refresh mode, thereby activating the fan to move air to the top of the mattress to refresh the mattress;
perform actions including
A bed system characterized by:
<Claim 128>
The operation further includes:
an operation of determining that the user is in bed;
an operation of determining that the user is not in bed;
including;
the mattress air controller is operated in the conditioning mode while it is determined that the user is in bed;
The mattress air controller is operated in the refresh mode while it is determined that the user is not in bed.
128. The bed system of claim 127.
<Claim 129>
The mattress air controller further includes a heater,
the heater is operated in the conditioning mode;
the heater is not activated in the refresh mode
129. The bed system of claim 128.
<Claim 130>
A method of controlling the microclimate of a mattress, the method comprising:
determining the sleep cycle of the subject on the mattress;
determining one mode from a plurality of modes based on the sleep cycle;
Equipped with
The plurality of modes are:
a cooling mode in which an air controller is activated to cause ambient air to flow through an airflow insert pad of the mattress;
a heating mode in which the air controller is activated to direct heated air to the airflow insert pad of the mattress;
It has
The method further includes:
controlling the air controller in the determined mode;
A method characterized by comprising:
<Claim 131>
the air controller operates in a first mode in response to one or more processors determining that the user is in the N1 stage;
the air controller operates in a second mode in response to the one or more processors determining that the user is in the N2 stage;
the air controller operates in a third mode in response to the one or more processors determining that the user is in the N3 stage;
The air controller operates in a fourth mode in response to the one or more processors determining that the user is in a REM sleep state.
131. The method of claim 130.
<Claim 132>
A method of controlling the microclimate of a mattress, the method comprising:
determining the sleep cycle of the subject on the mattress;
determining one mode from a plurality of modes based on the sleep cycle;
Equipped with
The plurality of modes are:
a cooling mode in which an air controller is activated to draw air from the top of the mattress;
a heating mode in which the air controller is activated to blow heated air onto the top of the mattress;
It has
The method further includes:
controlling the air controller in the determined mode;
A method characterized by comprising:
<Claim 133>
the air controller operates in a first mode in response to one or more processors determining that the user is in the N1 stage;
the air controller operates in a second mode in response to the one or more processors determining that the user is in the N2 stage;
the air controller operates in a third mode in response to the one or more processors determining that the user is in the N3 stage;
The air controller operates in a fourth mode in response to the one or more processors determining that the user is in a REM sleep state.
133. The method of claim 132.
<Claim 134>
the air controller is configured to draw air from the top of the mattress during a first determined sleep stage;
The air controller is configured to blow air onto the top of the mattress during a second determined sleep stage.
133. The method of claim 132.
<Claim 135>
A method of controlling the microclimate of a mattress, the method comprising:
determining a predicted amount of sleep for the user;
sensing whether a user is present on the mattress;
the mattress in a first mode of operation for controlling the microclimate of the mattress while the user is on the mattress in response to sensing a presence during the anticipated time of the user's sleep; The process of letting air flow through the
In response to sensing that the user has exited the mattress during the anticipated time of the user's sleep, air is directed through the mattress in a second mode of operation that is different from the first mode of operation. The process of flowing
resuming the first mode of operation in response to sensing that the user has returned to the mattress during the expected time of the user's sleep;
A method characterized by comprising:
<Claim 136>
The mattress is
one or more air distribution layers;
one or more air controllers fluidly connected to the one or more air distribution layers;
136. The method of claim 135, comprising:
<Claim 137>
The mattress includes a mattress core having one or more air chambers.
137. A method according to claim 135 or 136, characterized in that.
<Claim 138>
adjusting air pressure in the one or more air chambers during the second mode of operation;
138. The method of claim 137, further comprising:
<Claim 139>
a fan of the air controller is operated both during the first mode of operation and during the second mode of operation;
The fan is operated at a different speed in the first mode of operation than in the second mode of operation.
139. A method according to any one of claims 135 to 138.
<Claim 140>
a heater of the air controller is activated both during the first mode of operation and during the second mode of operation;
the heater is operated differently in the first mode of operation than in the second mode of operation;
140. A method according to any one of claims 135 to 139.
<Claim 141>
a heater of the air controller is activated during the first mode of operation and not activated during the second mode of operation;
141. A method according to any one of claims 135 to 140.
<Claim 142>
A method of controlling the microclimate of a mattress, the method comprising:
sensing whether a user is present on the mattress;
determining that the user has been out of the mattress for a predetermined period of time;
drawing air from the air layer of the mattress to increase air distribution through the foam layer above the air layer when determining that the user has exited the mattress for the predetermined period of time; starting the activation of the air controller so as to reduce the temperature of the air controller;
A method characterized by comprising:
<Claim 143>
deactivating the air controller when determining that the user has returned to the mattress;
143. The method of claim 142, further comprising:
<Claim 144>
upon determining that the user has returned to the mattress, activating the air controller in the operating mode that was in effect before the user left the mattress;
144. The method of claim 142 or 143, further comprising:
<Claim 145>
detecting that the user has been on the mattress for the predetermined period of time before determining that the user has left the mattress;
145. A method according to any one of claims 142 to 144, further comprising:
<Claim 146>
The predetermined time ranges from midnight to 6 a.m.
145. The method of claim 144.
<Claim 147>
A mattress having a foam layer and an air layer disposed below the foam layer;
an air controller configured to flow air through the air layer;
a sensor subsystem configured to sense whether a user is on the mattress;
a control subsystem;
A bed system comprising:
The control subsystem includes:
determining that the user has left the mattress for a predetermined time;
drawing air from the air layer of the mattress to increase air distribution through the foam layer above the air layer upon determining that the user has exited the mattress for the predetermined period of time; Start activation of the air controller so as to reduce the temperature of the foam layer
is configured as
A bed system characterized by:
<Claim 148>
The control subsystem includes:
upon determining that the user has returned to the mattress, activating the air controller in the operating mode that was in effect before the user left the mattress;
is configured as
148. The bed system of claim 147.
<Claim 149>
The control subsystem includes:
detecting that the user has been on the mattress for the predetermined period of time before determining that the user has left the mattress;
is configured as
149. A bed system according to claim 147 or 148.
<Claim 150>
a mattress having a first climate control zone and a second climate control zone;
one or more air controllers in fluid communication with the first and second climate control zones;
one or more processors;
a computer-readable storage medium coupled to the one or more processors;
Equipped with
the computer readable storage medium has instructions stored thereon;
The instructions, when executed by the one or more processors, cause the one or more processors to:
an act of receiving a command to supply air to the first climate control zone to be heated;
in response to receiving the command, commanding the one or more air controllers to supply heated air to the first climate control zone and to supply ambient air to the second climate control zone; ,
perform actions including
The flow rate of ambient air to the second climate control zone is configured to reduce the amount of heat transferred from the first climate control zone to the second climate control zone.
A mattress system characterized by:
<Claim 151>
the processor directs the one or more air controllers to supply ambient air to the second climate control zone without receiving a user request to supply air to the second climate control zone; do
151. The mattress system of claim 150.
<Claim 152>
The said operation is
an act of commanding the one or more air controllers to stop supplying ambient air to the second climate control zone in response to sensing the presence of a user in the second climate control zone;
further including
152. A mattress system according to claim 150 or 151.
<Claim 153>
The said operation is
an act of commanding the one or more air controllers to reduce the supply of ambient air to the second climate control zone in response to sensing the presence of a user in the second climate control zone;
further including
153. A mattress system according to any one of claims 150 to 152.
<Claim 154>
The said operation is
In response to sensing the presence of a user in the second climate control zone, the one or more air controllers are configured to stop supplying heated air to the first climate control zone and to control the second climate control zone. An action that commands the supply of ambient air to a zone to stop.
further including
154. A mattress system according to any one of claims 150 to 153.
<Claim 155>
The said operation is
In response to sensing the presence of a user in the second climate control zone, the one or more air controllers are configured to reduce the supply of heated air to the first climate control zone and to reduce the supply of heated air to the second climate control zone. An action that commands a reduction in the supply of ambient air to
further including
155. A mattress system according to any one of claims 150 to 154.
<Claim 156>
The said operation is
In response to sensing the presence of a user in the first climate control zone, the one or more air controllers are configured to stop supplying heated air to the first climate control zone and to control the second climate control zone. An action that commands the supply of ambient air to a zone to stop.
further including
156. A mattress system according to any one of claims 150 to 155.
<Claim 157>
The said operation is
In response to sensing the presence of a user in the first climate control zone, the one or more air controllers are configured to reduce the supply of heated air to the first climate control zone and to reduce the supply of heated air to the second climate control zone. An action that commands a reduction in the supply of ambient air to
further including
157. A mattress system according to any one of claims 150 to 156.
<Claim 158>
The flow rate of ambient air to the second climate control zone is substantially less than the flow rate of heated air to the first climate control zone.
158. A mattress system according to any one of claims 150 to 157.
<Claim 159>
a mattress having a first climate control zone, a second climate control zone, a third climate control zone and a fourth climate control zone;
in fluid communication with each of the first, second, third and fourth climate control zones to independently supply air to each of the first, second, third and fourth climate control zones, or; one or more air controllers configured to draw air independently from each of them;
one or more processors;
a computer-readable storage medium coupled to the one or more processors;
Equipped with
the computer readable storage medium has instructions stored thereon;
The instructions, when executed by the one or more processors, cause the one or more processors to:
commanding the one or more air controllers to operate in a first mode in which heated or cooled air is supplied to the first zone and air is simultaneously drawn from the second zone;
commanding the one or more air controllers to operate in a second mode in which heated or cooled air is supplied to the third zone and air is simultaneously drawn from the fourth zone;
perform actions including
A mattress system characterized by:
<Claim 160>
The said operation is
an act of directing the one or more air controllers to operate in a third mode in which heated air is supplied to the first and third zones and air is simultaneously drawn from the second and fourth zones; and,
for the one or more air controllers in a fourth mode in which heated air is supplied to the first zone, cooling air is supplied to the third zone, and air is simultaneously drawn from the second and fourth zones; Actions that command others to work;
further including
157. A mattress system according to any one of claims 150 to 156.
<Claim 161>
the first and second zones are on a first side of the mattress for supporting a first user;
The third and fourth zones are on a second side of the mattress for supporting a second user.
161. A mattress system according to claim 159 or 160.
<Claim 162>
a mattress core configured to support a user;
an air distribution layer configured to facilitate airflow for climate control over the top of the mattress;
air hose and
an air controller fluidly connected to the air distribution layer via the air hose;
a mattress cover including the mattress core, the air distribution layer, and at least a portion of the air hose;
Equipped with
The mattress cover includes a top surface, a bottom surface, and a plurality of sides,
at least a portion of the mattress cover includes a fabric with yarns having a relatively low first heat capacity;
The top surface of the mattress cover includes stitching through a stitching material having a relatively high second heat capacity compared to the first heat capacity.
A climate controlled mattress system characterized by:
<Claim 163>
The stitching material is polypropylene
163. The climate controlled mattress system of claim 162.
<Claim 164>
the stitching material is nylon
164. A climate controlled mattress system according to claim 162 or 163.
<Claim 165>
a mattress core configured to support a user;
an air distribution layer configured to facilitate airflow for climate control over the top of the mattress;
air hose and
an air controller fluidly connected to the air distribution layer via the air hose;
a gel layer positioned near the top surface of the mattress and having a second heat capacity;
Equipped with
the air distribution layer has a first heat capacity;
the second heat capacity is substantially higher than the first heat capacity
A climate controlled mattress system characterized by:
<Claim 166>
a foam layer positioned above the air distribution layer and below the gel layer;
further comprising;
The foam layer has a third heat capacity that is smaller than the second heat capacity of the gel layer.
166. The climate controlled mattress system of claim 165.
<Claim 167>
A mattress system,
a mattress cover layer comprising a surface with stitches formed of a material having a first thermal mass;
a foam layer having a top surface and an opposite bottom surface and configured to allow a first amount of airflow;
an airflow insertion pad disposed below the bottom surface of the first foam layer and configured to allow a second airflow amount that is higher than the first airflow amount;
an air controller configured to draw air from the airflow insertion pad to increase air distribution through the first foam layer to reduce the temperature of the top surface of the first foam layer;
Equipped with
the top surface is covered by the mattress cover;
The foam layer is formed of a material having a second heat capacity smaller than the first heat capacity.
A mattress system characterized by:
<Claim 168>
The stitches are made of polypropylene thread or nylon thread
168. The mattress system of claim 167.
<Claim 169>
The mattress cover layer includes a layer of material having a heat capacity greater than a predetermined threshold.
169. The mattress system of claim 167 or 168.
<Claim 170>
the layer of material is a gel
170. The mattress system of claim 169.
<Claim 171>
A bed equipped with a mattress,
The mattress is
an inflatable air chamber;
an air distribution layer positioned above the inflatable air chamber;
a foam layer positioned above the air distribution layer and near the top of the mattress;
a first air hose connected to the inflatable air chamber for inflating the inflatable air chamber;
a second air hose connected to the air distribution layer for moving air through the air distribution layer;
including;
both the foam layer and the air distribution layer are configured to allow airflow therethrough;
the air distribution layer resists less air flow than the foam layer;
The second air hose extends from a position lower than the inflatable air chamber, around the first side of the inflatable air chamber, and to the air distribution layer above the inflatable air chamber. There is
A bed characterized by:
<Claim 172>
The mattress further includes a mattress cover,
The first and second air hoses enter the mattress through a common hole in the mattress cover.
172. The bed of claim 171.
<Claim 173>
the inflatable air chamber includes a first inflatable air chamber;
the air distribution layer includes first and second air distribution zones;
the first inflatable air chamber is positioned below the first air distribution zone;
The mattress further includes a second inflatable air chamber positioned below the second air distribution zone.
173. The bed according to claim 171 or 172.
<Claim 174>
The mattress further includes a thermal insulator positioned between the first air chamber and the second air chamber to reduce heat transfer between the first air chamber and the second air chamber.
174. The bed of claim 173.
<Claim 175>
The mattress is positioned between the first and second air chambers and between the first and second air distribution layers to reduce heat transfer between left and right sides of the mattress. further includes a heat insulator
175. The bed according to claim 173 or 174.
<Claim 176>
The mattress is
a third air hose connected to the second inflatable air chamber for inflating the second inflatable air chamber;
a fourth air hose connected to the second air distribution layer for moving air through the second air distribution layer;
further including;
The fourth air hose passes from a second position lower than the second inflatable air chamber, around a second side of the second inflatable air chamber, to the fourth air hose above the second inflatable air chamber. 2 Extends to air distribution layer
176. The bed according to any one of claims 173 to 175.
<Claim 177>
The mattress further includes a mattress cover,
the first and second air hoses enter the mattress through a first common hole in the mattress cover;
The third and fourth air hoses enter the mattress through a second common hole in the mattress cover.
177. The bed according to any one of claims 173 to 176.
<Claim 178>
The mattress is
a first rail positioned on the first side of the first inflatable air chamber;
a second rail positioned on the second side of the second inflatable air chamber;
further including;
the first rail defines a first hose passage;
the first and second hoses enter the mattress near the first hose passage;
the second rail defines a second hose passage;
The third and fourth hoses enter the mattress near the second hose passageway.
178. The bed according to any one of claims 173 to 177.
<Claim 179>
a support platform configured to support the mattress and including a first base opening extending through the support platform and configured to receive the first and second air hoses; The base and
a pump assembly fluidly connected to a hose end of the first air hose and configured to supply fluid to the inflatable air chamber;
an air controller fluidly connected to the second air hose and configured to move air through the air distribution layer;
further including;
the pump assembly is positioned within the foundation;
the air controller is positioned within the base
179. The bed according to any one of claims 173 to 178.
<Claim 180>
A bed equipped with a mattress,
The mattress is
a foam layer configured to allow a first amount of airflow;
an inflatable chamber disposed below the foam layer;
a hose having first and second hose ends;
a foam rail structure configured to surround the inflatable chamber, including a top foam rail, a bottom foam rail, and side foam rails extending between the top foam rail and the bottom foam rail; ,
an airflow insertion pad disposed below the foam layer and configured to allow a second airflow rate that is higher than the first airflow rate;
an air duct having first and second duct ends;
It has
the first hose end is fluidly connected to the inflatable chamber;
the first duct end is fluidly connected to the airflow insertion pad;
The bed further includes:
a base supporting the mattress and including a duct opening configured to engage the second duct end of the air duct;
a pump assembly fluidly connected to the second hose end of the hose and configured to supply fluid to the chamber;
Air fluidly connected to the duct opening and configured to draw air from the airflow insertion pad to increase air distribution through the foam layer to reduce the temperature of the top surface of the foam layer. controller and
A bed characterized by being equipped with.
<Claim 181>
the hose is at least partially routed adjacent to the air duct;
181. The bed of claim 180.
<Claim 182>
The airflow insertion pad includes a pad cover;
The air duct is secured to the pad cover at the first duct end to fluidly connect the air duct with the airflow insertion pad.
182. The bed according to claim 180 or 181.
<Claim 183>
The air duct is stitched to the pad cover at the first duct end.
183. The bed of claim 182.
<Claim 184>
The air duct extending from the airflow insertion pad is routed around the chamber.
184. The bed according to any one of claims 180 to 183.
<Claim 185>
a base fixed to the top surface of the foundation;
a rib extending from the base away from the top surface of the foundation;
further comprising a duct connector including;
The rib is inserted into the air duct and extends adjacent the air duct of at least the second duct end of the air duct when the second duct end of the air duct is connected to the duct connector. Configured to maintain width relative to the hose
185. The bed according to any one of claims 180 to 184.
<Claim 186>
The foam rail structure includes a notch configured to at least partially receive the air duct extending from the air flow insertion pad around the chamber.
186. A bed according to any one of claims 180 to 185.
<Claim 187>
a mattress core configured to support a user;
an air distribution layer configured to facilitate airflow for climate control over the top of the mattress;
an air hose connected to the air distribution layer;
a mattress cover having a mattress cover top surface;
Equipped with
the air distribution layer is positioned above the mattress core;
The mattress cover top surface allows air flow between the air distribution layer and the space above the mattress top surface and allows liquid water to flow into the mattress when the liquid water is positioned on the mattress cover top surface. has a fabric configured to resist inward flow
A mattress characterized by:
<Claim 188>
The fabric substantially prevents the flow of liquid water into the mattress at atmospheric pressure.
188. The mattress of claim 187.
<Claim 189>
The fabric completely prevents the flow of liquid water into the mattress at atmospheric pressure.
189. A mattress according to claim 187 or 188.
<Claim 190>
The mattress cover has a plurality of mattress cover sides,
Each of the plurality of mattress cover sides has one or more second fabrics,
The one or more second fabrics are configured to allow air flow and water flow through the one or more second fabrics.
190. A mattress according to any one of claims 187 to 189.
<Claim 191>
The fabric on the top side of the mattress cover is significantly more liquid resistant than the one or more second fabrics on the sides of the plurality of mattress covers.
191. The mattress of claim 190.
<Claim 192>
The fabric on the top surface of the mattress cover is sufficient to prevent sweat of a user from flowing through the fabric and into the air distribution layer when air is blown through the fabric and out of the air distribution layer. Water resistant
192. A mattress according to any one of claims 187 to 191.
<Claim 193>
The fabric on the top surface of the mattress cover is sufficient to prevent sweat of a user from flowing through the fabric and into the air distribution layer when air is drawn into the air distribution layer from above the fabric. Water resistant
193. A mattress according to any one of claims 187 to 192.
<Claim 194>
A bed system comprising a mattress,
a first air system configured to control a pressure in a first air chamber of the mattress;
a second air system configured to condition air on top of the mattress;
a controller having one or more processors and a computer readable storage medium coupled to the one or more processors;
further comprising;
the computer readable storage medium has instructions stored thereon;
The instructions, when executed by the one or more processors, cause the one or more processors to:
activating the second air system as a function of data from the first air system;
perform actions including
A bed system characterized by:
<Claim 195>
the first air system having a pressure sensor in fluid communication with the first air chamber configured to sense air pressure;
The data includes the air pressure sensed by the pressure sensor of the first air system.
195. The bed system of claim 194.
<Claim 196>
The second air system includes a fan, a heater, and an air distribution layer positioned above the first air chamber.
196. A bed system according to claim 194 or 195.
<Claim 197>
The second air system has a heater,
The heater is activated as a function of pressure data sensed by the first air system.
197. A bed system according to any one of claims 194 to 196.
<Claim 198>
The said operation is
receiving user input of a desired pressure setting for the first air chamber;
activating the first air system to achieve the desired pressure setpoint;
further including;
Activating the second air system as a function of data from the first air system includes activating the second air system to maintain a pressure in the first air chamber near the desired pressure setting. including letting
198. A bed system according to any one of claims 194 to 197.
<Claim 199>
Activating the second air system as a function of data from the first air system operates the second air system to maintain a pressure in the first air chamber near a desired pressure set point. including
200. A bed system according to any one of claims 194 to 198.
<Claim 200>
Activating the second air system as a function of data from the first air system includes controlling the second air system to maintain the pressure in the first air chamber at a pressure within an acceptable range of a desired pressure setpoint. including operating
200. A bed system according to any one of claims 194 to 199.
<Claim 201>
Activating the second air system as a function of data from the first air system includes activating a heater in response to a determination that the pressure within the first air chamber is at or above a threshold. including stopping
201. A bed system according to any one of claims 194 to 200.
<Claim 202>
The mattress is
a first layer above the first air chamber;
an air distribution layer comprising Qshion(TM) material over the first layer;
a second layer above the air distribution layer;
a mattress cover including the first air chamber, the first and second layers, and the air distribution layer;
an air hose connected to the first air chamber;
an air duct connected to the air distribution layer;
have
202. The bed system according to any one of claims 194 to 201.
<Claim 203>
The said operation is
Determining desired pressure settings and pressure limits
further including;
Activating the second air system as a function of data from the first air system includes intermittently activating at least one of a heater and a fan in a manner configured to avoid exceeding the pressure limit. including letting
203. A bed system according to any one of claims 194 to 202.
<Claim 204>
sensing the pressure in the air chamber of the mattress;
controlling operation of an air system as a function of the pressure in the air chamber;
Equipped with
The air system includes an air mover fluidly connected to an air layer positioned outside and above the air chamber.
A method characterized by:
<Claim 205>
The air system includes a fan and a heater,
the heater is activated as a function of the pressure in the air chamber;
205. The method of claim 204.
<Claim 206>
The air chamber is a first air chamber,
The air system is a first air system,
The method further includes:
controlling operation of a second air system as a function of the pressure in the first air chamber;
206. The method of claim 204 or 205, comprising:
<Claim 207>
The air chamber is a first air chamber,
The air system is a first air system,
The method further includes:
receiving user input of a desired pressure setting for the first air chamber;
activating the first air system to achieve the desired pressure setpoint;
activating a second air system to maintain a pressure in the first air chamber near the desired pressure setting;
207. A method according to any one of claims 204 to 206, comprising:
<Claim 208>
The air chamber is a first air chamber,
The air system is a first air system,
The method further includes:
receiving user input of a desired pressure setting for the first air chamber;
activating the first air system to achieve the desired pressure setpoint;
activating a second air system to maintain the pressure in the first air chamber within an acceptable range of a desired pressure setpoint;
208. A method according to any one of claims 204 to 207, comprising:
<Claim 209>
A bed system comprising a mattress,
a first air system configured to control a pressure in a first air chamber of the mattress;
a second air system configured to condition air on top of the mattress;
a controller having one or more processors and a computer readable storage medium coupled to the one or more processors;
further comprising;
the computer readable storage medium has instructions stored thereon;
The instructions, when executed by the one or more processors, cause the one or more processors to:
monitoring the temperature of the air supplied from the second air system;
detecting the presence of a user on the mattress;
generating a signal usable by the second air system to vary the temperature of air supplied from the second air system by an offset value;
perform actions including
The offset value is configured to achieve no or limited deviation of the pressure of the first air chamber of the mattress from a set value.
A bed system characterized by:
<Claim 210>
Detecting the presence of a user on the mattress comprises:
monitoring the pressure in the first air chamber of the mattress;
detecting a change in the pressure in the first air chamber;
including
210. The bed system of claim 209.
<Claim 211>
monitoring the temperature of the air supplied from the second air system;
detecting the presence of a user on the mattress;
changing the temperature of the air supplied from the second air system by an offset value;
Equipped with
The offset value is configured to achieve no or limited deviation of the pressure of the first air chamber of the mattress from a set value.
A method characterized by:
<Claim 212>
Varying the temperature of the air includes varying the temperature of the air by the offset value in a single step.
212. The method of claim 211.
<Claim 213>
The step of changing the temperature of the air includes changing the temperature of the air by the offset value in multiple stages.
213. A method according to claim 211 or 212, characterized in that.
<Claim 214>
The step of changing the temperature of the air includes gradually changing the temperature of the air by the offset value.
214. The method of any of claims 211-213.
<Claim 215>
A bed system comprising a mattress,
a first air system configured to control a pressure in a first air chamber of the mattress;
a second air system configured to condition air on top of the mattress;
a controller having one or more processors and a computer readable storage medium coupled to the one or more processors;
further comprising;
the computer readable storage medium has instructions stored thereon;
The instructions, when executed by the one or more processors, cause the one or more processors to:
detecting the presence of a user on the mattress;
determining a predicted temperature offset associated with the presence of the user;
operating the second air system in a first mode to control the temperature of the top of the mattress when the user is not detected on the mattress;
operating the second air system in a second mode to control the temperature of the top of the mattress when the user is detected on the mattress;
perform actions including
The second mode differs from the first mode by being adjusted according to at least the predicted temperature offset associated with the presence of a user.
A bed system characterized by:
<Claim 216>
the first air system having a pressure sensor in fluid communication with the first air chamber configured to sense air pressure;
the presence of the user is detected by the pressure sensor of the first air system
216. The bed system of claim 215.
<Claim 217>
The second air system includes a fan, a heater, and an air distribution layer positioned above the first air chamber.
217. A bed system according to claim 215 or 216.
<Claim 218>
The second air system has a heater,
the heater is operated in the second mode less than in the first mode as a function of the predicted temperature offset associated with the presence of a user;
218. A bed system according to any one of claims 215 to 217.
<Claim 219>
The second air system has a fan,
the fan is operated less in the second mode than in the first mode as a function of the predicted temperature offset associated with the presence of a user;
219. A bed system according to any one of claims 215 to 218.
<Claim 220>
The mattress is
a first layer above the first air chamber;
an air distribution layer comprising Qshion(TM) material over the first layer;
a second layer above the air distribution layer;
a mattress cover including the first air chamber, the first and second layers, and the air distribution layer;
an air hose connected to the first air chamber;
an air duct connected to the air distribution layer;
have
220. A bed system according to any one of claims 215 to 219.
<Claim 221>
The said operation is
Determining desired pressure settings and pressure limits
further including;
operating the second air system in the second mode in a manner configured to avoid exceeding the pressure limit while taking into account the expected temperature offset associated with the presence of a user; including operating at least one of a heater and a fan.
221. A bed system according to any one of claims 215 to 220.
<Claim 222>
The second air system has a fan,
the fan is operated in the second mode more than in the first mode as a function of the predicted temperature offset associated with the presence of a user;
222. The bed system according to any one of claims 215 to 221.
<Claim 223>
The said operation is
Determining desired pressure settings and pressure limits
further including;
Operating the second air system in the second mode adjusts the intermittent operating frequency or duration of at least one of the heater and fan as a function of the predicted temperature offset associated with the presence of a user. including
223. A bed system according to any one of claims 215 to 222.
<Claim 224>
A bed system comprising a mattress,
a first system configured to consume electrical power;
a second air system configured to condition air on top of the mattress;
a controller having one or more processors and a computer readable storage medium coupled to the one or more processors;
further comprising;
the computer readable storage medium has instructions stored thereon;
The instructions, when executed by the one or more processors, cause the one or more processors to:
monitoring power consumption by the second air system;
calculating an energy cost due to the second air system;
displaying the power consumption and the energy cost of the second air system;
perform actions including
A bed system characterized by:
<Claim 225>
Monitoring the power consumption includes:
detecting the voltage and/or current used in the second air system;
calculating the power consumption based on the detected voltage and/or current;
including
225. The bed system of claim 224.
<Claim 226>
The said operation is
monitoring power consumption by the first system;
calculating an energy cost by the first system;
displaying the power consumption and the energy cost of the first system;
further including
226. A bed system according to claim 224 or 225.
<Claim 227>
The first system is a first air system for controlling air pressure in a first air chamber of the mattress.
227. The bed system of claim 226.
<Claim 228>
Third bed joint control system
228. The bed system according to any one of claims 224 to 227, further comprising:
<Claim 229>
The said operation is
monitoring power consumption by the third bed joint control system;
Calculating the energy cost due to the third bed joint control;
Displaying the power consumption and the energy cost of the third bed joint control;
further including
230. The bed system of claim 228.
<Claim 230>
The said operation is
Displaying the power consumption and the energy cost of the bed system.
further including
230. A bed system according to claim 228 or 229.
<Claim 231>
The said operation is
receiving information about the cost of energy from a utility provider;
further including;
The energy cost is calculated as a function of the cost of energy.
231. A bed system according to any one of claims 224 to 230.
<Claim 232>
A bed system comprising a mattress,
an air system configured to condition air on top of the mattress;
a controller having one or more processors and a computer readable storage medium coupled to the one or more processors;
further comprising;
the computer readable storage medium has instructions stored thereon;
The instructions, when executed by the one or more processors, cause the one or more processors to:
monitoring power consumption by the air system;
controlling the air system as a function of the power consumption;
Displaying the power consumption index;
perform actions including
A bed system characterized by:
<Claim 233>
The air system is controlled as a function of the power consumption to prevent causing a fire.
233. The bed system of claim 232.
<Claim 234>
The said operation is
transmitting a power consumption signal indicating the power consumption of the air system via the Internet;
further including
234. A bed system according to claim 232 or 233.
<Claim 235>
The indicator of power consumption includes the total cost of energy consumed during a single sleep session.
235. A bed system according to any one of claims 232 to 234.
<Claim 236>
The total cost of energy consumed during the single sleep session is calculated as a function of the power consumption and the cost of energy during the single sleep session.
236. A bed system according to any one of claims 232 to 235.
<Claim 237>
The said operation is
displaying an indication of cost savings from using said air system instead of using a second system;
further including
237. A bed system according to any one of claims 232 to 236.
<Claim 238>
The second system is a whole-home system configured for at least heating or air conditioning.
238. A bed system according to any one of claims 232 to 237.
<Claim 239>
The said operation is
sending a signal to a second system to control the second system as a function of the power consumption by the air system;
further including
239. A bed system according to any one of claims 232 to 238.

Claims (33)

A mattress system,
mattress cover and
a first layer having a top surface and an opposite bottom surface and configured to allow a first amount of airflow;
a heating unit located on the top surface of the first layer and below the mattress cover;
an airflow insertion pad disposed below the bottom surface of the first layer and configured to allow a second airflow amount that is higher than the first airflow amount;
an air controller configured to move air through the airflow insertion pad and through the first layer to reduce the temperature of the top surface of the first layer;
Equipped with
the top surface is covered by the mattress cover;
Mattress system, characterized in that the heating unit is electrically controlled to increase the temperature. the heating unit includes a foot warming envelope positioned at the foot of the mattress system;
2. The mattress system of claim 1, wherein the airflow insert pad is positioned closer to the head of the mattress system than the foot warming envelope. Mattress system according to claim 1 or 2, characterized in that the first layer is configured as a foam layer. 4. A mattress system as claimed in any preceding claim, wherein the air controller is configured to draw air from the airflow insertion pad. 5. A mattress system according to any preceding claim, wherein the air controller is configured to supply conditioned air to the airflow insert pad. 6. The mattress system of claim 5, wherein the conditioned air is heated air. 6. The mattress system of claim 5, wherein the conditioned air is chilled air. The airflow insert pad includes a pad cover and an airflow material contained within the pad cover;
the pad cover includes a vent;
8. A mattress system according to any preceding claim, wherein the airflow insert pad is arranged such that the vent faces the bottom surface of the first layer. the pad cover is made of air-restricting material;
9. The mattress system of claim 8, wherein the vent is covered by a mesh material. 10. A mattress system as claimed in claim 8 or 9, wherein the vent comprises a window in the pad cover. 11. The vent as claimed in any one of claims 8 to 10, wherein the vent has an edge spaced within the periphery of the airflow insertion pad to define a perimeter around the vent. mattress system. further comprising an air duct fluidly connected to the air flow insertion pad;
12. A mattress system according to any of claims 8 to 11, wherein the air duct includes an opening connected to a portion of the airflow insertion pad corresponding to the perimeter of the vent. 13. A mattress system according to any of claims 8 to 12, wherein the airflow insert pad is free of holes. 14. A mattress system according to any preceding claim, wherein the airflow insert pad is manufactured from Qshion(TM) material. 14. A mattress system according to any preceding claim, wherein the airflow insert pad is made of one of a spacer monofilament material and a reticulated foam. 14. A mattress system as claimed in any preceding claim, further comprising an inflatable chamber positioned below the first layer. a foam rail structure configured to surround the inflatable chamber, the foam rail structure including a top foam rail, a bottom foam rail, and side foam rails extending between the top foam rail and the bottom foam rail; 17. The mattress system of claim 16, further comprising: a mattress system; 18. The mattress system of claim 17, wherein the rail is attached to a periphery on the bottom surface of the first foam layer. a second foam layer (i.e., a support foam layer) attached to the bottom surface and including a cutout configured to receive the airflow insert pad;
further comprising;
Mattress according to claim 17 or 18, characterized in that the airflow insert pad is contained within the cutout and surrounded by the second foam layer so that the airflow insert pad is not laterally exposed. system. 20. The mattress system of claim 19, wherein the airflow insert pad is attached to the bottom surface of the first foam layer through the cutout in the second foam layer. 21. A mattress system according to claim 19 or 20, wherein the foam rail structure is attached to the second foam layer. 22. The mattress system of claim 21, further comprising an air duct extending between the airflow insert pad and the air controller. 23. The mattress system of claim 22, wherein at least one of the rails has a notch configured to at least partially receive the air duct. 24. A mattress system according to any of claims 17 to 23, further comprising one or more reinforcing straps attached to and extending between the side rails. an air chamber at least partially surrounded by the rail;
an air hose extending from the air chamber;
further comprising;
The air hose extends at least partially along the duct.
25. A mattress system according to any one of claims 17 to 24. 26. A mattress system as claimed in any of claims 22 to 25, further comprising a base including a duct opening configured to engage an end of the air duct. 27. A mattress system according to any of claims 22 to 26, further comprising a sleeve disposed at least partially around the air duct. The heating unit includes:
a layer configured to generate heat in response to electrical current and positioned above the first layer and below the mattress cover at the foot of the mattress system;
including;
The air controller is
an air controller housing defining a housing inlet and a housing outlet;
a fan positioned within the air controller housing;
an air passageway connecting at least one of the housing inlet and the housing outlet of the air controller housing to the airflow insertion pad;
28. A mattress system according to any one of claims 1 to 27, characterized in that it comprises: The air controller is
29. The mattress system of claim 28, further comprising a heater positioned within the air controller housing between the housing inlet and the housing outlet. the air passageway connects the housing inlet to the airflow insertion pad;
30. The mattress system of claim 28 or 29, wherein the air controller is configured to draw air from the air flow insertion pad into the air controller housing. 31. A method of operating a mattress system according to any of claims 1 to 30, comprising:
heating via the heating unit;
cooling via the air controller;
A method characterized by comprising: 32. The method of claim 31, further comprising heating a foot portion of the mattress system via the heating unit while cooling a second portion of the mattress system via the air controller. . heating a foot portion of the mattress system via the heating unit before a user enters the mattress system;
ceasing heating of the foot portion of the mattress system via the heating unit either before or at the time a user is sensed to enter the mattress system;
cooling a second portion of the mattress system via the air controller after a user is sensed entering the mattress system;
Claim 31 or 32, further comprising: