| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | Mattress system and method | US12037220 | 2008-02-26 | US08117700B2 | 2012-02-21 | John Hunter Howard |
| A mattress system and method according to which a custom mattress is built according to customer-specific parameters. In several exemplary embodiments, the custom mattress includes one or more removable core cartridges and/or one or more removable topper cartridges. | ||||||
| 102 | RESILIENT CORES WITH CONVECTION BARRIERS PARTICULARLY FOR INFLATABLE BODIES AND METHODS FOR MAKING THE SAME | US13181420 | 2011-07-12 | US20110311765A1 | 2011-12-22 | John LINCOLN; Douglas JACOT; Jay GUTKA; Brandon BOWERS; James MARSON |
| Resilient cores preferably for inflatable bodies having resilient slabs that define a plurality of generally columnar holes or resilient arrays of generally columnar solids, methods for making such slabs and arrays, and articles incorporating the same wherein the cores further includes thermal transmission mitigation means for improving a core's resistance to heat transfer beyond the core's innate insulative properties. Non-exclusive and non-exhaustive examples of such thermal transmission mitigation means in slab core embodiments include consideration to hole or bore geometric cross section, frequency, pattern and orientation, the introduction of a thermal barrier at or within at least some holes or bores, and/or slab material selection/treatment. Non-exclusive and non-exhaustive examples of such thermal transmission mitigation means in array core embodiments include consideration to the geometric cross section, frequency (density), pattern and orientation of the solids, the introduction of thermal barriers within inter-solid spaces and/or solid material selection/treatment. | ||||||
| 103 | CHANNEL-CUT CUSHION SUPPORTS | PCT/US0333014 | 2003-10-17 | WO2004034843A9 | 2004-07-22 | GLADNEY RICHARD F |
| The support characteristics within a foam mattress body may be varied by inserting reinforcements into channels cut or otherwise formed within the foam. | ||||||
| 104 | CHANNEL-CUT CUSHION SUPPORTS | PCT/US0333014 | 2003-10-17 | WO2004034843A3 | 2004-09-02 | GLADNEY RICHARD F |
| The support characteristics within a foam mattress body may be varied by inserting reinforcements (20) into channels (19) cut or otherwise formed within the foam. | ||||||
| 105 | CELLULAR CUSHION | EP16170039.8 | 2012-11-12 | EP3090658B1 | 2018-09-26 | SUGANO, Eric; METZER, Collin; FOLEY, Peter; DiFELICE, Eric; HADDEN, Bryant R. |
| A cellular cushioning system (200) includes cells or support units (204) arranged in one or more stacked arrays (206, 208). The cells are hollow chambers that resist deflection due to compressive forces, similar to compression springs. The arrays are attached to one or more intermedial binding layers (210). The intermedial binding layer(s) links the cells together while allowing the cells to deform independently of one another. An external load compresses of one of the void cells within an independent compression range without significantly compressing at least one void cell adjacent the compressed void cell. The independent compression range is the displacement range of the compressed void cell that does not significantly affect the compression of adjacent void cells (205, 207). If the void cell is compressed beyond the independent compression range, the intermedial binding layers may be deflected and/or the void cells adjacent the compressed void cell may be compressed. | ||||||
| 106 | CYLINDRICAL FOAM BODY, USE THEREOF AND METHOD FOR PRODUCING THIS | EP16707371.7 | 2016-01-28 | EP3253258B1 | 2018-09-12 | POPPE, Willy |
| Cylindrical foam body with a central cavity, whereby the foam body is formed by a curved flexible foam strip of which two opposite ends are fastened together, whereby the foam body has a height, whereby the strip 2 has a length, a height and a width, whereby after forming the foam body the longitudinal direction of the strip 2 is the height direction of the foam body, whereby the foam body has an outside and an inside. The foam body is provided on its outside with two or more grooves that extend over the height of the foam body and which only cut into the foam body over a part of the distance between the outside and the inside. | ||||||
| 107 | CONTOURING SYSTEM AND COMPONENTS | EP16852154.0 | 2016-09-23 | EP3355746A1 | 2018-08-08 | MASCULL, Roger Thomas |
| The invention provides a contouring system configured to be modified to provide a support surface, such as a backrest, seat base, or mattress, having contours to suit the needs of its user. | ||||||
| 108 | CELLULAR CUSHION | EP16170039.8 | 2012-11-12 | EP3090658A1 | 2016-11-09 | SUGANO, Eric; METZER, Collin; FOLEY, Peter; DiFELICE, Eric; HADDEN, Bryant R. |
A cellular cushioning system (200) includes cells or support units (204) arranged in one or more stacked arrays (206, 208). The cells are hollow chambers that resist deflection due to compressive forces, similar to compression springs. The arrays are attached to one or more intermedial binding layers (210). The intermedial binding layer(s) links the cells together while allowing the cells to deform independently of one another. An external load compresses of one of the void cells within an independent compression range without significantly compressing at least one void cell adjacent the compressed void cell. The independent compression range is the displacement range of the compressed void cell that does not significantly affect the compression of adjacent void cells (205, 207). If the void cell is compressed beyond the independent compression range, the intermedial binding layers may be deflected and/or the void cells adjacent the compressed void cell may be compressed.
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| 109 | CUSHION FOR SEATING | EP14790938.6 | 2014-10-14 | EP3062756A1 | 2016-09-07 | ANDERSON, Vaughn R.; CALL, Evan W.; RANE, Darshan P. |
| A hybrid seating cushion made up of a cushion base and a cushion insert. The cushion base has a seating surface in which a void in or extending through the cushion base is formed. A cushion insert such as an air bladder or fluid sack is positioned within the void. A lip or upper surface around an opening in the void overhangs at least a portion of the cushion insert, thereby minimizing the size and corresponding negative effects of a transition area where the base and the insert overlap. | ||||||
| 110 | MATTRESS AND BED DEVICE | EP12850390 | 2012-11-13 | EP2781172A4 | 2015-08-19 | KATOH ATSUSHI; OHNO KENTA |
| In order to provide a mattress that has punched holes of the same number and the same area as conventional products, is easy to contract thanks to efficient application of shearing stress to the punched holes of the mattress without the need of corrugation forming, and will neither deteriorate in strength nor increase the number of processing steps compared to conventional products, as well as a bed device using the mattress, a mattress 10 has such a structure that the (core of) foot section 18 is formed with a plurality of linear shaped holes 28 that are penetrated at regular intervals in the thickness direction of the foot section with the orientation of the linear-shape inclined relative to the width direction of mattress 10, and the plurality of holes 28 are arranged in the mattress 10 in a staggered layout when viewed from top. | ||||||
| 111 | CELLULAR CUSHION | EP12847856 | 2012-11-12 | EP2775885A4 | 2015-06-03 | SUGANO ERIC W; METZER COLLIN; FOLEY PETER M; DIFELICE ERIC T; HADDEN BRYANT R |
| A cellular cushioning system (200) includes cells or support units (204) arranged in one or more stacked arrays (206, 208). The cells are hollow chambers that resist deflection due to compressive forces, similar to compression springs. The arrays are attached to one or more intermedial binding layers (210). The intermedial binding layer(s) links the cells together while allowing the cells to deform independently of one another. An external load compresses of one of the void cells within an independent compression range without significantly compressing at least one void cell adjacent the compressed void cell. The independent compression range is the displacement range of the compressed void cell that does not significantly affect the compression of adjacent void cells (205, 207). If the void cell is compressed beyond the independent compression range, the intermedial binding layers may be deflected and/or the void cells adjacent the compressed void cell may be compressed. | ||||||
| 112 | FOAM SEAT ELEMENT, AND PROCESS AND MOLD FOR PRODUCING SAME | EP12811813 | 2012-07-16 | EP2731907A4 | 2015-03-11 | ROSSI PASQUALE; SAN MIGUEL EDGARDO A |
| There is described a padded element comprising a foam substrate having disposed therein a first internal surface and a second internal surface opposed to the first internal surface, the first internal surface being interposed between an outer surface of the foam substrate and the second internal surface, at least one of the first internal surface and the second internal surface comprising a textured portion. In a highly preferred embodiment, the pair of internal surfaces disposed within the body of the foam substrate combine to form one or more cavities in the foam substrate (e.g., by the provision of one internal surface have a textured portion and the other internal surface being untextured). The provision of such a textured surface creates a contacting interface (either at rest or when an occupant sits on the seat) between below or remote from the A-surface of the foam element. This interface has different properties than the exposed surface of the seating element. By adopting this internal interface approach to one or more zones of foam element, it is possible to confer different qualities of comfort and feel to the outer surface of the foam element (e.g., A-surface of a vehicular seat element) even though the appearance of that outer surface may be relatively non-textured. In this manner, the occurrence of “read through” described above is obviated or mitigated. A process and mold for produce the padded element are also described. | ||||||
| 113 | CELLULAR CUSHION | EP12847856.7 | 2012-11-12 | EP2775885A1 | 2014-09-17 | SUGANO, Eric W.; METZER, Collin; FOLEY, Peter M.; DIFELICE, Eric T.; HADDEN, Bryant R. |
| A cellular cushioning system (200) includes cells or support units (204) arranged in one or more stacked arrays (206, 208). The cells are hollow chambers that resist deflection due to compressive forces, similar to compression springs. The arrays are attached to one or more intermedial binding layers (210). The intermedial binding layer(s) links the cells together while allowing the cells to deform independently of one another. An external load compresses of one of the void cells within an independent compression range without significantly compressing at least one void cell adjacent the compressed void cell. The independent compression range is the displacement range of the compressed void cell that does not significantly affect the compression of adjacent void cells (205, 207). If the void cell is compressed beyond the independent compression range, the intermedial binding layers may be deflected and/or the void cells adjacent the compressed void cell may be compressed. | ||||||
| 114 | RESILIENT CORES WITH CONVECTION BARRIERS PARTICULARLY FOR INFLATABLE BODIES AND METHODS FOR MAKING THE SAME | EP09700804.9 | 2009-01-12 | EP2234518A2 | 2010-10-06 | LINCOLN, John, S.; JACOT, Douglas, S.; BOWERS, Brandon, W.; GUTKA, Jay; MARSON, James, E. |
| Resilient cores preferably for inflatable bodies having resilient slabs that define a plurality of generally columnar holes or resilient arrays of generally columnar solids, methods for making such slabs and arrays, and articles incorporating the same wherein the cores further includes thermal transmission mitigation means for improving a core's resistance to heat transfer beyond the core's innate insulative properties. Non-exclusive and non-exhaustive examples of such thermal transmission mitigation means in slab core embodiments include consideration to hole or bore geometric cross section, frequency, pattern and orientation, the introduction of a thermal barrier at or within at least some holes or bores, and/or slab material selection/treatment. Non-exclusive and non-exhaustive examples of such thermal transmission mitigation means in array core embodiments include consideration to the geometric cross section, frequency (density), pattern and orientation of the solids, the introduction of thermal barriers within inter-solid spaces and/or solid material selection/treatment. | ||||||
| 115 | RESILIENT CORES WITH CONVECTION BARRIERS PARTICULARLY FOR INFLATABLE BODIES AND METHODS FOR MAKING THE SAME | PCT/US2009000206 | 2009-01-12 | WO2009089077A3 | 2009-08-20 | LINCOLN JOHN S; JACOT DOUGLAS S; BOWERS BRANDON W; GUTKA JAY; MARSON JAMES E |
| A resilient core of material comprising: a mechanically unitary slab; a plurality of holes or bores defined by the slab; thermal transmission mitigation means for improving the core's resistance to heat transfer. | ||||||
| 116 | SUPPORT STRUCTURES AND METHODS | PCT/US2007082053 | 2007-10-22 | WO2008051890A2 | 2008-05-02 | CALLSEN KEVIN F; TRACHTMAN DAVID H |
| A support structure includes a first layer of foam material and a second layer of elastomeric gel material. In accordance with one example, the first layer of foam material includes a first side with a plurality of protrusions and a plurality of channels with the second layer of elastomeric gel material disposed within the plurality of channels. In accordance with another example, the first layer of foam material includes a first side with a plurality of protrusions and a network of channels surrounding at least one of the plurality of protrusions with the second layer of elastomeric gel material disposed within the network of channels. A third layer extends over the first support surface of the protrusions and the second support surface of the second layer of gel material. In accordance with yet another example, the first layer of foam material includes a first side with a plurality of protrusions extending through corresponding Shapertures of the second layer. In accordance with further examples, methods of making a support structure with a first layer of foam material and a second layer of elastomeric gel material are provided. | ||||||
| 117 | 원통형 발포체, 이의 사용 및 제조 방법 | KR1020177024533 | 2016-01-28 | KR1020170138392A | 2017-12-15 | 포페,윌리 |
| 본발명은중앙캐비티(9)를구비한원통형발포체(1)에관한것으로, 발포체(1)는 2개의대향단부(3)가함께체결고정되는만곡식연질폼 스트립(2)에의해형성되고, 발포체는높이(H)를갖고, 스트립(2)은길이(L), 높이(h) 및폭(b)을가지며, 발포체(1)의형성후 스트립(2)의길이방향(L)이발포체(1)의높이방향(H)이되고, 발포체(1)는외측(5) 및내측(8)을가지며, 발포체(1)의외측(5)에는, 발포체(1)의높이(H)에걸쳐연장되고외측(5)과내측(8) 사이의거리의일부분에대해서만발포체(1) 안쪽으로절단되도록구성된 2개이상의그루브(7)가제공되는것을특징으로한다. | ||||||
| 118 | 폼 시트 요소, 이의 제조 방법 및 몰드 | KR1020147002371 | 2012-07-16 | KR1020140044882A | 2014-04-15 | 로시파스칼; 산미구엘에드가르도에이 |
| 내부에 제1 내면과 제1 내면에 대향하는 제2 내면을 배치한 폼 기재를 포함하는 패딩 요소가 기재되어 있으며, 제1 내면은 상기 폼 기재의 외면과 제2 내면 사이에 개재하고, 제1 내면과 제2 내면 중 하나 이상은 텍스처드 부분을 포함한다. 매우 바람직한 실시형태에서, 폼 기재 본체 내에 배치된 한 쌍의 내면은 결합하여 폼 기재에 하나 이상의 공동을 형성한다(예, 한 내면의 제공에 의해 텍스처드 부분을 갖고 다른 내면은 텍스처드되어 있지 않음). 이러한 텍스처드 표면의 제공으로 폼 요소의 A-표면 아래 또는 이로부터 멀리 접촉 인터페이스를 생성한다(휴식 또는 사용자가 시트에 착석할 때). 이 인터페이스는 시트 요소의 노출면과 다른 특성을 가지고 있다. 폼 요소의 하나 이상의 영역에 이 내부 인터페이스 수단을 채택함으로써, 폼 요소의 외면(예, 차량 시트 요소의 A-표면) 모양이 비교적 텍스처드되어 있지 않다하더라도 외면에 다른 품질의 안락과 감촉을 부여할 수 있다. 이러한 방식으로, 상기한 "리드 쓰루"(read through)의 발생을 방지하거나 줄인다. 패딩 요소의 제조 방법 및 몰드가 또한 기재되어 있다.
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| 119 | 스프링이 내장된 쿠션 매트 | KR1020090048440 | 2009-06-02 | KR1020100129868A | 2010-12-10 | 이석안; 이원재 |
| PURPOSE: A cushion mat equipped with a spring is provided, which can sustain elastic force and cushion for a long time. CONSTITUTION: A cushion mat equipped with a spring comprises a main body(3) of cushion material in which a convex part(1) and a concave part(2) are alternately formed at a constant interval. In multiple places among the convex parts and concave parts of the main body, a cone type of compressed spring(4) with the shape of the concave part and convex part is built. The compressed spring is inserted into a mold frame when molding the main body. The main body and compressed spring are integrally formed. | ||||||
| 120 | 릴랙싱매트 | KR1020080080604 | 2008-08-18 | KR1020100021931A | 2010-02-26 | 김태목 |
| PURPOSE: A relaxing mat is provided, which makes the whole muscle relieved by evenly dispersing the whole weight. CONSTITUTION: A relaxing mat comprises a curved surface supporting the skull, cervical spine, thoracic vertebra, lumbar vertebra, pelvis, and femoral regions. In the skull site(101), the concave declining curve is formed. In the cervical spine(102), the swollen upward curve is formed. The thoracic vertebrae(103) is formed into the concave declining curve. The lumbar part(104) is formed into the swollen upturn convex surface. The pelvis region(105) is formed into the concave declining curve surface. The femoral region(106) is formed into the swollen upturn convex surface. | ||||||
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