41 |
Foam spring mattress with replaceable foam springs |
US13449811 |
2012-04-18 |
US09003584B2 |
2015-04-14 |
Martin B. Rawls-Meehan; Teng-An Chang |
An aspect of the present invention relates to a method and system of receiving information of a user's support facility comfort requirements; using a software application to determine a proper support facility firmness configuration to match the user's requirement; selecting foam springs with the proper user required firmness as determined by the software application; and configuring the selected foam springs within the support facility to match the user's firmness requirements. |
42 |
FOAM SPRING MATTRESS CONFIGURED WITH VARIABLE FIRMNESS |
US14285083 |
2014-05-22 |
US20140251219A1 |
2014-09-11 |
Martin B. Rawls-Meehan |
An aspect of the present invention relates to a method and system of providing a bed using a plurality of interchangeable adjustable firmness springs to provide localized comfort and support to the user of the bed. The plurality of interchangeable springs may have a plurality of different firmnesses to provide customizable local comfort to a user. The foam springs are color coded based on the firmness associated with the foam spring. The foam springs have markings and/or health devices attached to an end of the foam spring. |
43 |
Foam spring mattress with replaceable foam springs |
US13087228 |
2011-04-14 |
US08181296B2 |
2012-05-22 |
Martin B Rawls-Meehan |
An aspect of the present invention relates to a method and system of receiving information of a user's support facility comfort requirements; using a software application to determine a proper support facility firmness configuration to match the user's requirement; selecting foam springs with the proper user required firmness as determined by the software application; and configuring the selected foam springs within the support facility to match the user's firmness requirements. |
44 |
USING A SOFTWARE APPLICATION TO CONFIGURE A FOAM SPRING MATTRESS |
US13095171 |
2011-04-27 |
US20110258784A1 |
2011-10-27 |
Martin B. Rawls-Meehan |
An aspect of the present invention relates to a method and system of receiving information of a user's support facility comfort requirements; using a software application to determine a proper support facility firmness configuration to match the user's requirement; selecting foam springs with the proper user required firmness as determined by the software application; and configuring the selected foam springs within the support facility to match the user's firmness requirements. |
45 |
Foam spring mattress using a foam containment facility |
US12912929 |
2010-10-27 |
US08028363B2 |
2011-10-04 |
Martin B. Rawls-Meehan |
An aspect of the present invention relates to a method and system of receiving information of a user's support facility comfort requirements; using a software application to determine a proper support facility firmness configuration to match the user's requirement; selecting foam springs with the proper user required firmness as determined by the software application; and configuring the selected foam springs within the support facility to match the user's firmness requirements. |
46 |
Foam spring mattress with substantially horizontal straps |
US11876753 |
2007-10-22 |
US08020230B2 |
2011-09-20 |
Martin B Rawls-Meehan |
An aspect of the present invention relates to a method and system of receiving information of a user's support facility comfort requirements; using a software application to determine a proper support facility firmness configuration to match the user's requirement; selecting foam springs with the proper user required firmness as determined by the software application; and configuring the selected foam springs within the support facility to match the user's firmness requirements. |
47 |
FOAM SPRING MATTRESS USING A FOAM CONTAINMENT FACILITY |
US12912929 |
2010-10-27 |
US20110094041A1 |
2011-04-28 |
Martin B. Rawls-Meehan |
An aspect of the present invention relates to a method and system of receiving information of a user's support facility comfort requirements; using a software application to determine a proper support facility firmness configuration to match the user's requirement; selecting foam springs with the proper user required firmness as determined by the software application; and configuring the selected foam springs within the support facility to match the user's firmness requirements. |
48 |
USING A SOFTWARE APPLICATION TO CONFIGURE A FOAM SPRING MATTRESS |
US11876686 |
2007-10-22 |
US20100025900A1 |
2010-02-04 |
Martin B. Rawls-Meehan |
An aspect of the present invention relates to a method and system of receiving information of a user's support facility comfort requirements; using a software application to determine a proper support facility firmness configuration to match the user's requirement; selecting foam springs with the proper user required firmness as determined by the software application; and configuring the selected foam springs within the support facility to match the user's firmness requirements. |
49 |
USING A SOFTWARE APPLICATION TO CONFIGURE A FOAM SPRING MATTRESS |
US11876728 |
2007-10-22 |
US20090064420A1 |
2009-03-12 |
Martin B. Rawls-Meehan |
An aspect of the present invention relates to a method and system of receiving information of a user's support facility comfort requirements; using a software application to determine a proper support facility firmness configuration to match the user's requirement; selecting foam springs with the proper user required firmness as determined by the software application; and configuring the selected foam springs within the support facility to match the user's firmness requirements. |
50 |
USING A SOFTWARE APPLICATION TO CONFIGURE A FOAM SPRING MATTRESS |
US11876753 |
2007-10-22 |
US20090018858A1 |
2009-01-15 |
Martin B. Rawls-Meehan |
An aspect of the present invention relates to a method and system of receiving information of a user's support facility comfort requirements; using a software application to determine a proper support facility firmness configuration to match the user's requirement; selecting foam springs with the proper user required firmness as determined by the software application; and configuring the selected foam springs within the support facility to match the user's firmness requirements. |
51 |
USING A SOFTWARE APPLICATION TO CONFIGURE A FOAM SPRING MATTRESS |
US11876748 |
2007-10-22 |
US20080288272A1 |
2008-11-20 |
Martin B. Rawls-Meehan |
An aspect of the present invention relates to a method and system of receiving information of a user's support facility comfort requirements; using a software application to determine a proper support facility firmness configuration to match the user's requirement; selecting foam springs with the proper user required firmness as determined by the software application; and configuring the selected foam springs within the support facility to match the user's firmness requirements. |
52 |
USING A SOFTWARE APPLICATION TO CONFIGURE A FOAM SPRING MATTRESS |
US11876712 |
2007-10-22 |
US20080281612A1 |
2008-11-13 |
Martin B. Rawls-Meehan |
An aspect of the present invention relates to a method and system of receiving information of a user's support facility comfort requirements; using a software application to determine a proper support facility firmness configuration to match the user's requirement; selecting foam springs with the proper user required firmness as determined by the software application; and configuring the selected foam springs within the support facility to match the user's firmness requirements. |
53 |
Process for the production of synthesis gas |
US09557158 |
2000-04-25 |
US06833013B1 |
2004-12-21 |
Domenico Sanfilippo; Alberto Paggini; Ivano Miracca; Carlo Rescalli |
Process for the production of synthesis gas, by means of catalytic partial oxidation or autothermal reforming of light hydrocarbons, which comprises partially oxidizing the hydrocarbon with oxygen coming from the reduction of at least one metal oxide selected from hexavalent chromium oxide, supported on an inert carrier and modified with an alkaline and/or earth-alkaline metal, and metal oxides capable of autonomously sustaining the catalytic partial oxidation reaction by means of redox cycles. |
54 |
Seating suspension assembly and method |
US205308 |
1998-12-04 |
US6056278A |
2000-05-02 |
Larry I. Bullard; Allen Sigmon; Roger Tornero |
A seating suspension assembly provides efficiency in the manufacture of upholstered furniture such as chairs, sofas or the like. The preferred form of the invention comprises a pair of flexible, durable fabric straps having coil springs fixedly positioned therebetween. The fabric can be attached to a rigid wooden chair seat frame and the suspension assembly stapled or tacked thereto. The coil springs are thus suspended between the front and back of the frame. Upon upholstering, the suspension assembly provides a comfortable, crowned seat for the user. A method of forming the seating suspension assembly is also disclosed. |
55 |
Seating suspension assembly |
US693702 |
1996-08-07 |
US5700060A |
1997-12-23 |
Larry I. Bullard; Allen Sigmon; Roger Tornero |
A seating suspension assembly provides efficiency in the manufacture of upholstered furniture such as chairs, sofas or the like. The preferred form of the invention comprises a pair of flexible, durable fabric straps having coil springs fixedly positioned therebetween. The fabric can be attached to a rigid wooden chair seat frame and the suspension assembly stapled or tacked thereto. The coil springs are thus suspended between the front and back of the frame. Upon upholstering, the suspension assembly provides a comfortable, crowned seat for the user. |
56 |
Seat spring assembly (torque-coil) |
US82104 |
1979-10-05 |
US4303232A |
1981-12-01 |
Lawton H. Crosby |
A coil seat spring assembly wherein spring coils are mounted on a plurality of sinuous spring bands extending between the front and back rails of a furniture seat frame. The axes of the coils are substantially vertical. The coils on each band are clamped to each other and to adjacent coils and adjacent bands at their uppermost coil turns and at their lowermost coil turns. The coils are approximately two-thirds the axial length of conventional coil springs. |
57 |
Spring |
US22373851 |
1951-04-30 |
US2646108A |
1953-07-21 |
NORMAN HARRY H |
|
58 |
Spring mounting for chair seats and the like |
US70344546 |
1946-10-15 |
US2570396A |
1951-10-09 |
MILTON SIMMONS |
|
59 |
Spring seat and back structure |
US65846546 |
1946-03-30 |
US2532884A |
1950-12-05 |
FREDERICK BENSON CHARLES |
|
60 |
Upholstery construction |
US23687938 |
1938-10-25 |
US2272807A |
1942-02-10 |
JACOB KRONHEIM |
|