Patent Grant
7363668
1. Field of the Invention
The present invention relates to a mattress containing active carbon and cocofiber that can serve as a floating and life-saving device.
2. Description of the Related Art
Bedding products have been developed with individualization and diversity. Additionally, bedding products have been designed to make the one third of human life—sleeping in bed—more comfortable and healthy.
Chinese Patent No. ZL 94222654.2, Natural Cocofiber Mattress, discloses cocofiber materials processed by certain techniques that can be used to make bedding with cocofiber mattresses as the upper and bottom bases and a sponge sandwiched in between. The cocofiber mattress maintains a natural scent of cocofiber and prevents people from developing decubitus ulcers when the mattress is used for a long time. The mattress also has health preserving effects of relieving rheumatism, chills, etc.
Cocofibers are produced abundantly in Hainan Island, Guangxi, and Guangdong. Because of abundant raw material resources, various popular cocofiber products with excellent quality and reasonable price can be manufactured, after the manufacturing technique is improved. For example, Chinese Patent No. ZL 95225715.7, entitled Natural Active Carbon Cocofiber Mattress discloses advantages of cocofiber products. Chinese Patent No. ZL 97229087.7, entitled Multifunctional Natural Cocofiber Wavy Mattress discloses features such as air permeable, damp-proof, anti-bacterial, and deodorizing to a cocofiber mattress. Chinese Patent Application No. 2004 1000 5800.9 discloses a cocofiber mattress that can serve as floating and life saving device, which can be folded to act as a boat, with a special purpose of being a floating bed.
The embodiments provide a multifunctional mattress comprising:
a mattress core comprising an upper rigid cocofiber layer, a lower rigid cocofiber layer, an ultra-thick layer sandwiched between the upper and lower cocofiber layers, with specific gravity less than about 1;
a high elastic cocofiber layer on one of said rigid cocofiber layers;
a prefabricated active carbon layer on said mattress core; and
prefabricated holes disposed within the cocofiber mattress core.
The embodiments provide a method of converting a mattress into a floating device, wherein the mattress comprises at least three regions, Regions A, B, and C, each region comprising:
a mattress core comprising an upper rigid cocofiber layer, a lower rigid cocofiber layer, an ultra-thick layer sandwiched between the upper and lower cocofiber layers, with specific gravity less than about 1;
a high elastic cocofiber layer on one of said rigid cocofiber layers;
a prefabricated active carbon layer on said mattress core; and
prefabricated holes disposed within the cocofiber mattress core.
wherein Region B is adjacent to Region A on one side and adjacent to Region C on the opposite side;
wherein the method comprises:
folding Region A upwards perpendicularly from Region B;
folding Region C upwards perpendicularly from Region B; and
securing the positions of Regions A and C.
The preferred embodiments comprise advantages of the above-mentioned bedding products comprising cocofiber and active carbon. At the same time, the preferred embodiments comprise improvements to the structure of the cocofiber mattress with a function of life saving. The preferred embodiments have buoyancy so as to serve as a rescuing resource in conditions, such as a natural disaster. At the same time, preferred embodiments comprise a comfortable mattress which is top grade, damp-proof, anti-bacterial, deodorizing, and air permeable.
The embodiment can be described with the following reference numerals:
In a preferred embodiment, a thick sandwiched layer 6 is sandwiched between cocofiber mattresses 5 and 7. Preferably, the combined layers of the thick sandwiched layer and the cocofiber mattresses have a specific gravity of less than about 1. A high elastic cocofiber mattress 4 can be fitted on any of the cocofiber mattress. The embodiment can further comprise prefabricated active carbon layers 2 and 9. The embodiment can further comprise prefabricated holes within the sandwiched layer. In a preferred embodiment, the prefabricated holes within the sandwiched layer include air holes 10 and 13 and channels 11 and 12 that can be filled with active carbon.
In a preferred embodiment, the thick sandwiched layer 6 can be made of EPE (enhanced polyethylene) composite material. Within the thick sandwiched layer 6, there can be provided upright air holes 10 and 13, and channels 11 and 12 that can be filled with active carbon. The thick sandwiched layer 6 can be set between two solid and rigid cocofiber mattresses 5 and 7 and adhered thereto.
In a preferred embodiment, a high elastic cocofiber mattress 4 can be adhered to a cocofiber mattress, thereby forming a cocofiber mattress core. Preferably, the high elastic cocofiber mattress 4 is adhered to cocofiber mattress 5. Prefabricated active carbon layers 2 and 9 can cover the surface of the cocofiber mattress core, thereby forming an active carbon-cocofiber mattress core. Preferably, the prefabricated active carbon layers 2 and 9 completely cover the surface of the cocofiber mattress core.
In a preferred embodiment, the prefabricated active carbon layers 2 and 9 can be formed by selecting fine active carbon of a grain shape or a strip shape, distributing the active carbon evenly on an upper layer and a lower layer of non-woven fabric, and integrating these materials together, thereby forming a prefabricated active carbon layer.
In a preferred embodiment, the active carbon-cocofiber mattress core can be divided into three separate regions. With three separate regions, the preferred embodiment is a flat, foldable integrity. As shown in
In a preferred embodiment, the active carbon-cocofiber mattress core wrapped with outside packaging materials 3 and 8 can be reinforced with a webbing 1 at the periphery of the mattress, as shown in
The three regions comprise a middle region B, a side regions A and C. The side regions can be able to be folded towards one surface, and flanks thereof can be mounted with a safety belt 14 thereon. Preferably, the thicknesses of the mattress cores in the three regions of the mattress are about the same.
As shown in
Accordingly, a preferred embodiment provides a method of converting a mattress into a floating device, wherein the mattress comprises three regions, Regions A, B, and C, wherein Region B is adjacent to Region A on one side and adjacent to Region C on the opposite side; wherein the method comprises: folding Region A upwards perpendicularly from Region B; folding Region C upwards perpendicularly from Region B; and securing the positions of Regions A and C. In a preferred embodiment, the securing position is performed by fastening safety belts positioned on Regions A and C.
Referring to
The prefabricated active carbon layers 2 and 9 cover the surfaces of the cocofiber mattress core. Outside materials 3 and 8 are for packaging. Webbing 1 is for fixing the mattress edges. Air holes 10 and 13 pass through the sandwiched layer 6 and can enhance the air permeability of the mattress. Channels 11 and 12 are channels passing through sandwiched layer 6 and can be filled with active carbon of grain shape or strip shape. Thus, channels 11 and 12 provide the embodiment with features, such as moisture-proof, anti-bacterial, and deodorization.
In
Some advantages of the embodiments include providing a mattress for sleeping, which is environmentally conscious, moisture-proof, anti-bacterial, deodorizing, cool and ventilating, flat, and comfortable, and can be used variably as a soft or hard surface. As a life saving resource, the embodiment can float and can function as a boat. The embodiment can be characterized as not needing to be inflated, puncture-resistant, and resistant to collisions, as well as being able to be folded and unfolded quickly.
A preferred embodiment provides a mattress comprising a foldable mattress core. The mattress core is formed by two prefabricated solid and rigid cocofiber mattresses, with an ultra-thick polyvinyl EPE composite material layer, which has a high density and a specific gravity of less than about 1. The ultra-thick polyvinyl EPE composite material layer comprises air holes and channels filled with active carbon. The sandwiched layer comprising EPE composite material and the prefabricated upper and lower solid and rigid cocofiber mattresses can be integrated.
A specially-made high elastic cocofiber mattress can be adhered firmly onto one of the solid and rigid cocofiber mattresses, thereby forming a cocofiber mattress core. The solid and rigid cocofiber mattress can be adjusted with regard to support with avoidance of sinking of the mattress. Another specially-made high elastic cocofiber mattress can be added to customize the embodiment with proper softness according to varying desires of the consumers.
A prefabricated active carbon layer can be formed by distributing the fine active carbon of a grain shape or a strip shape evenly on the upper surface and lower surface of non-woven fabrics and integrating the materials. The prefabricated active carbon layer can cover the surface of the cocofiber mattress core to form an active carbon-cocofiber mattress core. Preferably, the prefabricated active carbon layer can cover the whole surface of the cocofiber mattress core.
The mattress core can be wrapped with outside packaging materials. The wrapping of mattress core with the outside packaging materials results in the embodiment being able to be flat or folded. In an embodiment, the active carbon-cocofiber mattress core can be divided into three regions. The active carbon-cocofiber mattress core can become a flat, foldable integrity by utilizing the three regions. As shown in
The embodiment is divided into several regions, with a middle region and the two smaller flanks as the left region and the right region. On the left and right regions of the back of the unfolded mattress, body-fastening safety belts are provided. Moreover, the left and right regions can be folded upwards and the safety belts can be fastened together, thus forming a boat-shaped lifesaving mattress. Preferably, the thicknesses of the three regions can be the same, and the width of the right and left flanks can be at least larger than the thickness of the mattress, and both regions can be distributed on the long side of the middle region.
The safety belt has multiple functions. When the mattress is folded into a boat, it can serve as safety belts. When the mattress is unfolded, it can serve as an elastic band for tightening the two flanks and the middle portion from the back.
Many modifications and variations of the embodiments described herein may be made without departing from the scope, as is apparent to those skilled in the art. The specific embodiments described herein are offered by way of example only.
As light, flexible, and slightly elastic, EPE foaming material was chosen to be used in the embodiments. Cocofiber, a coconut fiber, which was processed by purification and sanitization, was prefabricated into solid and rigid bulk cocofiber mattresses 5 and 7, which meet the national hygienic and environmental standards. A prefabricated EPE composite material mattress served as sandwiched layer 6 with a certain requirements for density, rigidity, and thickness and was sandwiched and fixed between the two solid and rigid cocofiber mattresses 5 and 7. Said two solid and rigid cocofiber mattresses and the sandwiched layer 6 were adhered firmly into a whole. Then, a specially made high elastic cocofiber mattress was added onto the solid and rigid cocofiber mattress 5, and both are adhered together into a whole, thus forming a mattress core. The mattress core is designed to be divided into three regions A, B, and C, with the left and right regions A and C having a width of about 200 mm, with the middle region B about 1100 mm. Further, the prefabricated active carbon layers (formed by distributing the fine active carbon of a grain shape or a strip shape evenly on the upper and lower non-woven fabrics, and sticking them together as a whole) cover the whole surfaces of the three mattress regions A, B, and C, thus forming into an active carbon cocofiber mattress core. The three mattress regions are wrapped with mattress outside materials 3 and 8, and then reinforced with a webbing 1 at the periphery. Accordingly, the three mattress regions A, B, and C are connected as a whole, with the left and right regions being foldable or unfoldable. When unfolded, the three regions form one flat mattress. When folded from two sides, the embodiment acts as a lifesaving boat. The left and right sides of the back of the mattress were mounted with two safety belts 14. When employed at the back of the mattress, safety belts 14 are used for securing the left, middle, and right regions and serve as elastic bands. Though, in an emergency situation, the elastic bands 14 are loosened, and the two regions A and C are folded accordingly. Then the elastic bands 14 are fastened to act as safety belts.
A water-proof cover prefabricated with water-proof cloth, was provided. The water-proof cover was matched with the life-saving boat, provided by folding the mattress. The waterproof cover is made with tough and water-proof cloth. Two cloth paths are made beside the bar filling, for mounting the elastic bands and inelastic safety ropes respectively, to lock the bar filling, thus avoiding bar filling falling off. The “lifesaving boat” covered by the waterproof cover can prevent water from entering the cabin or reduce the water amount, so that the occupants feel more comfortable. In addition, it can increase the buoyancy of the lifesaving mattress, and decrease the traveling resistance of the lifesaving mattress.
Specifications of an embodiment are provided: length about 1900 mm; width about 1500 mm; thickness about 180 mm. Test Place: terrace of a building with an area of about 330 square meters. Depth of water: about 300 mm. The sample was soaked in water for about 6 months. The temperature of the water was between about 4-35° C. The manned buoyancy test was carried out through three steps in deep water of about 300 mm, with three people weighing about 200 kg standing on the embodiment, and the density of the EPE buoyancy material is about 28 kg/m3. The data is shown in the following table:
The sample was soaked in water outdoors for about 6 months with a load of about 400 kg, the draught depth of about 165 mm, and a bearing safety standard setting to about 500 kg/m3. After being exposed to wind, rain, and sunlight for a long time, when checked, the sample is found to be almost the same as before, except that the mattress body was slightly softer than its state before soaking. The sample maintained a lifesaving function. With high-impact, puncture, and tension tests, the material is proven to be an ideal material for manufacturing the lifesaving mattress.
The embodiment comprises a foldable lifesaving mattress, with two pairs of safety belts mounted on both sides of the bottom. Specifications of an embodiment are provided: length of mattress: about 1900 mm; width: about 1500 mm; thickness: about 180 mm; the length of left and right regions: about 1900 mm, width: about 200 mm, thickness: about 180 mm.
Many modifications and variations of embodiments described herein may be made with departing from the scope, as is apparent to those skilled in the art. The specific embodiments described herein are offered by way of example only.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2004 1 0077316 | Dec 2004 | CN | national |
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| Number | Date | Country |
|---|---|---|
| ZL 94222654.2 | Feb 1996 | CN |
| ZL 95225715.7 | Feb 1997 | CN |
| ZL 97229087.7 | May 1999 | CN |
| 200410005800.9 | Feb 2004 | CN |
| Number | Date | Country | |
|---|---|---|---|
| 20060117487 A1 | Jun 2006 | US |
