MATTRESSES WITH HEAT DISSIPATION

Abstract

In one embodiment, a mattress comprises a core and a cushion layer positioned above the core. A fibrous air spacer layer is positioned above the cushion layer, and a layer of visco-elastic foam is positioned above the fibrous layer. This permits the fibrous layer to be sandwiched between the cushion layer and the layer of visco-elastic material.

Description

BACKGROUND OF THE INVENTION

This invention relates generally to the field of mattresses, and in particular with mattresses having various layers, including a fibrous air circulation layer disposed between separate cushion layers.

It is becoming more common to provide cushion layers on top of a mattress core. Examples of such cushion layers include foam materials, such as visco, latex and polyurethane. However, when laminating such layers together, the glue being placed between the layers may result in a “hard spot” where the two layers are joined by the glue. Moreover, the glue prevents the layers from adequately stretching. The mattresses of the invention address these and other issues.

BRIEF SUMMARY OF THE INVENTION

The invention provides a wide variety of mattresses having various cushion layers with a fibrous air spacer layer positioned between at least one of the cushion layers. For example, in one embodiment a mattress is constructed of a core and cushion layer that is positioned above the core. A fibrous air spacer layer (also referred to as an air spacer layer or spacer fabric) is positioned above the cushion layer, and a layer of visco-elastic foam is positioned above the fibrous layer. In this way, the fibrous layer is sandwiched between the cushion layer and the layer of visco-elastic material. In some cases, cushion layer may comprise a polyurethane foam. Also, in certain embodiments, an air spacer layer could also be positioned between the core and the cushion layer, and the core in some cases could have a modified surface layer.

In certain embodiments, the fibrous air spacer layer may be positioned between various layers in a mattress. For instance, the fibrous air spacer layer may be positioned between layers of cushion layers, such as between two layers of viscoelastic foam. As another example, the fibrous air spacer layer may sit between two layers of latex foam, or between combinations of various foams, such a viscoelastic, latex, polyurethane and the like. As yet another example, the air spacer layer could sit atop essentially any type of firm core (spring, foam, latex or the like) and a topper layer (which may comprise any type of cushioning material configured to loosely rest on the core). In other embodiments, the layers between which the fibrous air spacer layer sits could have their surfaces modified (so that they are not planar). The surfaces of these layers could be altered using SMT (surface modified technology) or by profile cutting.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates a perspective view of one embodiment of a fibrous air spacer layer according to the invention.

FIG. 2 is a side view of the fibrous air spacer layer of FIG. 1

FIG. 3 is an exploded perspective view of one embodiment of a mattress having a fibrous air spacer layer according to the invention.

DETAILED DESCRIPTION OF THE SPECIFIC EMBODIMENTS

The invention provides a wide variety of mattresses that may be constructed of a variety of materials. The mattresses may be constructed of a wide variety of cores, such as box spring cores, individually wrapped spring cores, spring steel cores, latex rubber cores, air cores, gel cores, and the like. However, it will be appreciated that the invention is not limited to the specific type of core that is used, but rather on the layers that are positioned above or beneath such a core. Also, it will be appreciated that in some cases a core may not be needed and the various cushion layers as described herein may provide adequate cushioning to function as a mattress or support layer for a user. In most applications, the mattress will be a typical bed mattress that is long and wide enough to support a user while sleeping. However, it will be appreciated that the principles of the invention may be used with other types of cushioning, such as seat cushions, couches, chairs, and the like.

Positioned above or beneath the core are one or more cushion layers which provide additional comfort to the user. Examples of such layers are visco-elastic foams, latex foams, polyurethane foams, gels, coils, air, and the like. Such foam layers may have a wide variety of densities, hardnesses, indentation deflection pressures, thicknesses and the like. However, for visco-elastic layers, the thickness will typically be in the range from about 0.5 inch to about 8 inches. For latex foams, the thicknesses will generally be in the range from about 0.5 inch to about 6 inches, and for polyurethane foams, the thickness will typically be in the range from about 0.25 inch to about 15 inches.

One important feature of the invention is that the fibrous air spacer layer is positioned between two of the cushion layers and/or between the cushion layer and the core. One example of a fibrous cushion layer 10 is illustrated in FIGS. 1 and 2. As shown, fibrous air spacer layer 10 is constructed of multiple strands of fibers 12 and which sit between a honey comb layer 14. The fibers are loosely arranged so that air may circulate between the fibers. Also, honey comb layer 14 provides a convenient way to bond the fibrous air spacer layer 10 between other layers. In one specific embodiment, fibrous air spacer layer 10 may be constructed of a three-dimensional spacer or polyester fabric that is constructed of two warp-knitted layers which are connected by pile mono filaments in a single knitting process. In another embodiment, fibrous air spacer layer 10 may be constructed of two covering layers that are held apart from each other by a pile layer. In turn, the pile layer is made up of pile threads which provide a degree of elasticity to the layer. A textile construction process is used to make the layer, with its physical properties being determined by the material used to make the pile and the thread composition. One example of spacer fabrics that can be used include the Space Air®, Flex and Space Com textiles, available from Pressless GmbH. Another type of material that can be used for layer 22 is commercially available from Mueller Textile of Wiehl, Germany. Further, one specific type of fibrous air spacer layer is described in published U.S. Application No. 2007/021705, incorporated herein by reference. Typically, fibrous air spacer layer 10 will have a thickness in the range from about 1/16 inch to about 2 inches. In certain embodiments, other fibrous materials may be used. For example, fiberballs, such as those described in copending U.S. patent application Ser. No. 12/619,286, filed Nov. 16, 2009 and incorporated herein by reference could be used. Also, in some cases the air spacer layer 10 can be constructed to have different degrees of firmness. For example, some could be more firm while others are more plush. This helps with the overall posture of the mattress, affecting the degree how firm or how plush the mattress feels to the user. Further, different air spacer layers could be used in combination, with some being more firm while others are more plush. In some cases, air spacer layer 10 could include a gel material incorporated into part of the fibers, such as in a bottom portion of the layer Such a gel material serves to transfer heat away from the adjacent cushion layers while also permitting airflow through the fibers in the air layer that do not have the gel. This has the benefit of using two heat transfer mechanisms to remove heat from the adjacent cushion layers.

Referring now to FIG. 3, one specific embodiment of a mattress 20 will be described. Mattress 20 is constructed of a polyurethane layer 22 which may optionally have a surface modified top surface 24. This may be accomplished using a SMT process, by profile cutting and the like. Also, it will be appreciated that any of the layers of mattress 20 could be surface modified or planar or combinations thereof. Polyurethane layer 22 may be positioned on top of a core or may alternatively function as the core itself. Examples of cores to which layer 22 may be attached include traditional spring coil cores, pocket spring cores, air cores, latex cores and the like. Typically, polyurethane layer 22 will have a thickness in the range from about 1 inch to about 12 inches. Laminated to polyurethane layer 22 is a visco layer 26 which may have a thickness in the range from about 0.5 inch to about 4 inches and may optionally have a surface modification. Laminated to visco layer 26 is a fibrous air spacer layer 28. Optionally, or in addition to, an air spacer layer may be placed between layers 22 and 26. Finally, laminated to air spacer layer 28 is another visco layer 30. Air spacer layer 28 will typically have a thickness in the range from about 1/16 inch to about 2 inches, and visco layer 30 will have a thickness in the range from about 0.5 inch to about 3 inches.

While one specific embodiment has been described in connection with FIG. 3, it will be appreciated that fibrous air spacer layer 28 could be placed in other locations as well, such as between polyurethane layer 22 and visco layer 26. Also, each of the cushion layers in FIG. 3 could also be made of different materials. For example, polyurethane layer 22 could be constructed of latex, visco, a gel, an inflatable bladder, or the like. Similarly, visco layers 26 and/or 30 could be constructed on a polyurethane, latex, gel, an inflatable bladder, or the like. Hence, in one arrangement, layers 22 and 26 could both be made of latex, with air spacer layer 28 positioned between them. Further, some of these layers could be eliminated, such as layer 22. As another example, layers 22 and 26 could be used, with layer 28 placed between them, and with layer 30 being eliminated. In other cases, air spacer layer 28 could be placed between the core and a topper layer. This topper layer is loosely held on top of a firm core and may comprise one or more layers of padding materials. In some cases, the air spacer layer 28 could also be included in the topper layer itself.

By using fibrous air spacer layer 28, a number of significant advantages are achieved.

First, by using fibrous air spacer layer 28, improved air circulation is provided between the various layers. With the mattress of FIG. 3, air circulation is provided between the two visco layers 26 and 28. However, as previously described, air circulation could be provided between other layers, such as between a visco layer, latex layer and/or polyurethane foam layers. This provides for a more hygienic and comfortable sleeping environment.

Another significant advantage is that air spacer layer 28 provides improved heat dissipation through and around the various cushion layers, including layers 22, 26 and 30. This also provides for a more hygienic and comfortable sleeping environment. Fibrous air spacer layer is particularly useful when placed adjacent one of the visco layers as the visco foam material tends to trap the user's body heat. By providing air circulation beneath the other surface of the visco layer, heat is able to travel through the visco foam and to be dissipated from the other surface, thereby providing a cooler sleeping environment.

Another feature is that moisture transported and dissipated through the layers is increased, leading to a more sanitary and hygienic sleeping environment.

Further, because most laminating methods involve gluing multiple layers of foams, viscose and latex together in the cushion or support layers, “hard spots” result where the two layers are joined together. This is uncomfortable for the user and also prevents the layers from stretching. By gluing the various comfort or support layers to fibrous air spacer layer 28, fibrous air spacer layer 28 functions as a stretchable spacer fabric and also eliminates the hard spot where the foams would normally be attached to each other. Because fibrous air spacer layer 28 is stretchable, it functions as a stretchable spacer fabric to allow the layers to be more pliable.

The invention has now been described in detail for purposes of clarity and understanding. However, it will be appreciated that certain changes and modifications may be practiced within the scope of the appended claims.

Claims

1. A mattress, comprising: a core;a cushion layer positioned above the core;a fibrous air spacer layer positioned above the cushion layer; anda layer of visco elastic foam position above the fibrous layer such that the fibrous layer is sandwiched between the cushion layer and the layer of visco elastic material.

2. A mattress as in claim 1, wherein the cushion layer comprises polyurethane.

3. A mattress as in claim 1, wherein the fibrous air spacer layer comprises multiple strands of fibers positioned between a honey comb layer.

4. A mattress as in claim 1, wherein the fibrous air spacer layer comprises a two warp-knitted layers which are connected by pile mono filaments in single knitting process.

5. A mattress as in claim 1, wherein the fibrous air spacer layer has a thickness that is in the range from about 1/16 inch to about 2 inches.

6. A mattress as in claim 1, wherein the at least one of the cushion layer and the layer of visco elastic foam has a surface that has been modified to be non-planar.

7. A mattress as in claim 1, wherein the core comprises at least one of a spring coil, a pocket spring, an air bladder, and latex.

8. A mattress as in claim 1, wherein the layer of visco elastic foam has a thickness that is in the range from about 0.5 inch to about 3 inches, and wherein the cushion layer has a thickness in the range from about 1 inch to about 12 inches.

9. A mattress, comprising: a core;at least one cushion layer positioned above the core; anda fibrous air spacer layer positioned between the cushion layer and the core.

10. A mattress as in claim 9, wherein the cushion layer comprises a layer of visco elastic foam positioned, with the fibrous layer being sandwiched between the cushion layer and the core.

11. A mattress as in claim 9, wherein the cushion layer comprises a first cushion layer, and further comprising a second cushion layer, and wherein the fibrous air spacer layer is positioned between the first cushion layer and the second cushion layer.

12. A mattress as in claim 11, wherein the first and second cushion layers are constructed of a material selected from a group consisting of viscoelastic foam, polyurethane foam, latex, air and a gel.

13. A mattress as in claim 9, wherein the fibrous air spacer layer comprises multiple strands of fibers positioned between a honey comb layer.

14. A mattress as in claim 9, wherein the fibrous air spacer layer comprises a two warp-knitted layers which are connected by pile mono filaments in single knitting process.

15. A mattress as in claim 9, wherein the fibrous air spacer layer has a thickness that is in the range from about 1/16 inch to about 2 inches.

16. A mattress as in claim 9, wherein the at least one of the cushion layer has a surface that has been modified to be non-planar.

17. A mattress as in claim 9, wherein the core comprises at least one of a spring coil, a pocket spring, an air bladder, and latex.