JP2014512936A - Tension reducing foam and mattress structure - Google Patents

Abstract

Foam parts designed for the mattress reduce tension in the foam and in the horizontal or block plane pieces, improving the conformability and motion splitting characteristics of the foam support system. A strain relief foam pad is a generally rectangular foam piece having a top surface and a bottom surface. The length and width dimensions of the engineered foam piece are approximately equal to those of the mattress used together. Depending on the arrangement of the strain relief foam pads within the mattress structure, either the top or bottom surface includes a plurality of continuous cuts, slits, or openings arranged in a houndstooth or other pattern, The other is a flat surface with no cuts.
[Selection] Figure 1

Description

  This application claims priority of US Provisional Application No. 61 / 485,364, filed on May 12, 2011, the contents of which are incorporated herein in their entirety.

  The present invention relates to the field of repulsive support systems including support systems for humans such as bedding or sitting.

  The present invention provides a surface or structurally modified foam for very local deformation and support, independent movement and reduced tension in the horizontal plane, improved fit, and motion splitting characteristics of the support system. For the mattress. In an exemplary embodiment, the strain relief foam pad is a generally rectangular piece of foam having a top surface and a bottom surface opposite and parallel to the top surface, the top and bottom surfaces being It has four side walls that extend vertically between them. The length and width dimensions of the pad are approximately equal to those of the mattress used together. Depending on the placement of the tension-reducing foam pad within the mattress structure, either the top or bottom surface is provided with a plurality of cuts arranged in a staggered or other pattern, as described in more detail below. And the other surface is substantially planar. These incisions create square or rectangular blocks on the surface of the pad and independent modules with independent support characteristics, which can be connected to other support elements such as springs.

FIG. 1A is a perspective view showing a preferred arrangement of tension reducing foam toppers in other foam layers in a mattress system. FIG. 1B is a perspective view illustrating another arrangement of a tension reducing foam pad in another foam layer in a mattress system. FIG. 2 is a side view showing a tension reducing foam pad and an inner spring in one embodiment. FIG. 3 is a side view showing a tension-reducing foam pad and an inner spring in another embodiment. FIG. 4 is a graph showing surface deflection on a tension reducing foam pad in various arrangements among other foam layers in a mattress system. FIG. 5 is a graph showing surface strain on a tension reducing foam pad in various arrangements among other foam layers in a mattress system. FIG. 6A is a perspective view showing the stress distribution across the pad when a tension reducing foam pad is used as the top layer of the mattress system. FIG. 6B is a perspective view showing the stress distribution across the pad when the tension reducing foam pad is used as the bottom layer of the mattress system. FIG. 7 is a side view showing a tension-reducing foam pad and an inner spring in another embodiment. FIG. 8 is a top view of a strain relief foam pad having non-uniformly sized blocks. FIG. 9 is a side view illustrating an example of a tension relief foam pad having non-uniformly sized blocks. FIG. 10 is a side view showing another example of a tension reducing foam pad having a non-uniformly sized block. FIG. 11 is a side view showing another example of a tension relief foam pad having non-uniformly sized blocks.

  The tension relief foam pad, mattress and support system of the present disclosure and related inventions partially modify the surface to achieve independent local deformation, support and movement, and reduced tension or shear in the horizontal plane. The form used is beneficial to the compatibility and motion splitting characteristics of the system. Various forms of strain relief foam pieces and pads (also referred to herein as “pads” or “foam pads” or “toppers”) 10 described herein face the top surface and the top surface. And a schematic form of a rectangular block plan shape having parallel bottom surfaces. For example, the length and width dimensions of the pad 10 are substantially equal to those of the mattress used together. Although described with reference to specific exemplary embodiments, the concepts of the present disclosure can be applied and implemented in other physical forms of forms. As used herein, the term “tension relief foam” generally refers to each of the various described foam configurations and structures, and more generally reduces stress in the cellular structure of the foam body. Or refers to the foam body configuration to be removed. The design concepts and configurations are equally applicable to any type of foam that includes open cell or closed cell type foams from which such shapes and configurations can be manufactured. As will be described in more detail below, depending on the placement of the tension reducing foam pad 10 within the mattress structure, a plurality of successive cuts in which either the top surface or the bottom surface are arranged in a staggered pattern or other pattern. 18 and the other surface is substantially planar and generally has no notches. The notches 18 create a plurality of square or rectangular blocks 16 on one surface of the pad 10.

  A typical mattress system includes a base or box spring, a support unit, and optionally a comfort unit. The foundation can be of conventional internal design and configuration, has a rectangular frame on which a plurality of spring elements or modules are mounted, thereby providing flexible support for the overlying grid And it defines the surface of the foundation. The plurality of spring modules in the base can be made of wire or made of composite material, or can be in the form of flexible support surfaces rather than using individual spring modules as a whole. The foundation unit is typically supported by a bed frame that may further comprise bilateral boards, head boards, and foot boards. The mattress support unit or inner spring of the present disclosure is dimensioned to be mounted on the foundation surface and is fully supported thereby. The support unit or inner spring can be of conventional design and includes a plurality of interconnected spring coils. Alternatively, the support unit can be a high performance foam core structure with no internal wires or spring elements. The support surface has a relatively small number of layers of material covering the inner spring, such as one or more layers of mat or foam, or other sheet-like woven or non-woven material. The primary purpose of these layers is to provide a smooth surface over the end of the inner spring coil. The comfort unit is dimensioned to be mounted on the support unit. It has a generally horizontal top and bottom and generally vertical or tapered sides extending between the top and bottom and defines a central space that includes support and cushioning components. The comfort unit comprises an additional layer of compressible and consistent inner layer material. The comfort unit may comprise one or more foam core layers and intermediate and outer layers of synthetic or organic mat materials such as cotton or wool fibers, polyester or hybrid material mats. Special materials such as moisture absorption prevention materials, ventilation promoters, linings or frames, or sheet materials such as cotton fabrics, wool fabrics or synthetic fabrics or their hybrid fabrics, or non-hollow or perforated plastic films that can act as heat suppression materials Layers can also be used. The feel of the comfort unit can be adjusted by using different insertion materials such as polyurethane foam, elastic foam, latex foam, fiber, gel, or various combinations thereof. Comfort unit material is enclosed by upholstery and is a durable mattress fabric, eg foam or pad lined with woven or embroidered material, durable fabric for side wall material or mattress, tape end And a reinforcing gusset extending from the pillow top of the support unit to the top. The upholstery of the comfort unit can also be a combination of materials.

  In a preferred embodiment, the top surface of the strain relief pad 10 is generally planar and the bottom surface includes a plurality of cuts 18 arranged in a houndstooth or other pattern. The cuts or voids 18 between the discontinuous island foams can be uniform or non-uniform in size and spacing, generally linear or not, and uniform dimensions or not. The foam structure 16 can be formed by molding, cutting, water jet forming, or other suitable method. When used in combination with the inner spring 15 or spring unit, as shown in FIGS. 1A, 2 and 3, the tension relief foam 10 pad is directly over the inner spring 15 and any other form of mattress or comfort unit. Usually located below layer 12. A thin fabric or fiber layer or barrier layer can be disposed between the tension relief foam pad 10 and the inner spring 15. The individual blocks 16 on the bottom surface of the pad 10 can be aligned or conformally aligned with the position of the upper end rotation of the coil 14 of the mattress inner spring 15 as shown in FIGS. it can. Depending on the size of the block 16, each block can work in combination with two or more springs or coils 14 of the inner spring 15 to enhance the feel of the coil 14 and the coil 14. Offers improved independent movement. Each of the individual blocks 16 can be compressed separately in combination with the inner spring 15 depending on the weight located immediately above it. Placing the tension relief pad 10 directly above the inner spring 15 and below the other foam layer 12, as shown in the graphs of FIGS. 4 and 5, as shown in the stress state mapping shown in FIG. 6B. , Shown to provide higher local follow-up, lower surface strain, and lower composite stress states.

  Representative and non-limiting examples of springs that can be used in the tension reducing foam mattress system of the present invention are commonly assigned U.S. Pat. Nos. 4,535,978, 4,726,572,5. , 558,315, 6,134,729, 6,354,577, 6,406,009, 8,178,187, 7,404,223, 7,908 693, and any other springs or singularities that can be mounted on a frame or platform and that can support a grid or other mattress support structure covering the frame or platform or Includes a plurality of repulsive devices. The springs can be individually pocketed, can be a Marshall type coil, or the coil can be not pocketed or cased. As shown in FIGS. 2, 3, and 7, each individual foam block 16 can be associated with one or more corresponding springs 14 of the spring unit 15. By bringing the upper axial end of each coil 14 into physical or direct contact with the opposing surface of the foam block 16, a hybrid spring combination is provided, thereby adding to a specific foam block 16 region. The force is transmitted in whole or in part to the corresponding spring 14, and the corresponding spring or springs 14 and foam block 16 react together to the applied force. The size of each block 16 in the pattern may be uniform, such as the pad 10 shown in FIG. 7, where each foam block 16 having a uniform size is placed on a single coil unit 14 of the inner spring 15. Correspond. FIG. 3 shows the pad 10 having a uniform-sized foam block 16 corresponding to each of the two coil units 14 of the inner spring 15. Alternatively, the size of the foam block 16 in the pattern can be non-uniform, such as, for example, the pad 10 shown in FIG. 2, where it has a first size corresponding to the three coil units 14 of the inner spring 15. The blocks 16 are distributed between the blocks 16 having the second size corresponding to the two coil units 14 of the inner spring 15. Individual blocks 16 can be partitioned such that the number or size of the blocks 16 varies. For example, the blocks 16 disposed along the short edges of the pad 10 can have a longer width, and the remaining blocks 16 disposed between them can have a uniform width. This uniform width is narrower than the width of the block 16 along the short edge of the pad 10. Any pattern of uniform or non-uniformly sized blocks 16 corresponding to any number of coils 14 can be used to create different zones in the tension relief foam pad 10 and mattress system of the present invention.

  In other embodiments, the bottom surface of the strain relief foam pad 10 is generally planar and the top surface has a plurality of cuts 18 arranged in a staggered pattern or other uniform or non-uniform pattern. In this configuration, as shown in FIG. 1B, the strain relief foam pad 10 is typically disposed between additional foam layers 12 in a mattress configuration. In order to prevent bunching or sticking between the block 16 on the top surface of the strain relief foam pad 10 and the bottom surface of the adjacent foam pad 12, which may be a trace of the body, the strain relief pad is laminated in a thin layer. be able to. The notch 18 can be any width or opening (or no opening, such as in the form of a slit), or can be 1 mm to 10 mm or more in size width. Also, the notch 18 can have a generally planar and parallel wall or taper or other configuration, and can be formed with straight and orthogonal lines as shown, or reduce foam piece tension. Other sequences with similar results can be formed.

  The size, block cut and geometry of the strain relief foam pad 10 affects surface deformation, surface strain, stress conditions on the layer, and the deformation mode of the pad 10. For example, if the height of the block 16 is too large, a weak point may occur between each block 16, and if a force is applied thereto, it will easily tear. If the notch 18 or the gap between each block 16 is too wide, local indentations may occur on the upper surface of the mattress. If the gap 18 is too narrow, adjacent blocks 16 will be in contact with each other, preventing independent movement. If the height of the block 16 is too high, the block 16 may bend or deform. Thus, as a general overall design consideration, the thickness of foam pad 10 or the overall substantial height of foam pad 1- must be greater than or equal to 1 inch and the width of block 16 is The height of the block 16 must be greater than or equal to, or greater than or equal to 2.5 inches, and the gap width should not be less than 15% of the smallest block 16 width or 0.75 inches. Must not.

  In one embodiment, the strain relief foam pad 10 may be about 3 inches thick, and the notch 18 between each block 16 extends about 2 inches deep or about 2/3 into the foam pad 10. . The individual blocks 16 are of a uniform size, such as 3.75 inches wide by 3.75 inches long, and the width of the notch or gap 18 between the blocks 16 is approximately 0.25 inches. Alternatively, the individual blocks 16 can be resized such that the blocks 16 placed on short edges are larger than the blocks 16 placed between them. Here, the blocks 16 located on the short edges of the pad 10 are approximately 7.35 inches wide, and the blocks 16 disposed between them are approximately 5.2 inches wide. The tension relief foam pad 10 in this embodiment allows for a zoned mattress configuration, where different sized blocks 16 are formed and specific areas where different support characteristics are desired, such as the shoulder or waist area of the mattress. Or in the area of the mattress shoulder or waist, structurally because the relatively large size block 16 has a relatively large density and a relatively small degree of freedom of individual movement or deformation. A stiffer support can be provided while retaining the improved fit of the modified foam and the corresponding spring or core unit support. A strain relief foam pad 10 having various thickness dimensions is shown in FIGS. 9, 10, and 11. FIG.

  It will be apparent to those skilled in the art that many modifications and / or variations can be made to the present invention as set forth in the specific embodiments without departing from the spirit or scope of the invention as broadly described. . Accordingly, these examples are merely illustrative in all respects and should not be interpreted in a limited manner. Other features and aspects of the present invention will be apparent to those of ordinary skill in the art upon reading and understanding the present disclosure. Such features, aspects, and expected variations and modifications of the reported results and examples are clearly within the scope of the invention, which is limited only by the claims set forth below.

Claims (20)

A tension-reducing mattress system,
An inner spring unit having a plurality of interconnected coils arranged in rows and columns;
A tension relief pad disposed immediately above the inner spring, the upper surface being substantially planar, and a plurality of squares or rectangles arranged on the upper surface opposite to the upper surface and facing the upper surface; A tension relief pad having a bottom surface with a notch, and
The strain relief pad is at least 1 inch thick, the width of the square or rectangle on the bottom surface is at least 2.5 inches, and the distance between each adjacent square or rectangle is 0.75 inches. Smaller than,
Tension reducing mattress system.   The tension relief mattress system of claim 1, wherein each of the plurality of squares or rectangles on the bottom surface of the tension relief pad is directly above each of the plurality of interconnected coils of the inner spring. The tension relief mattress system of claim 1, wherein each of the plurality of squares or rectangles on the bottom of the tension relief pad is directly over at least one coil of the inner spring.   The tension relief mattress system of claim 1, wherein the plurality of squares or rectangles on the bottom surface of the tension relief pad are uniform in size.   The tension relief mattress system of claim 1, wherein the plurality of squares or rectangles on the bottom surface of the tension relief pad are non-uniform in size.   A first group of squares or rectangles on the bottom surface of the strain relief pad is a first size corresponding to the three coils of the inner spring unit, and squares or rectangles on the bottom surface of the strain relief pad. The tension relieving mattress system according to claim 1, wherein the second group is a second size corresponding to two coils of the inner spring unit.   The tension relief mattress of claim 1, wherein the squares or rectangles disposed on short edges of the bottom surface of the tension relief pad have a greater width than the remaining blocks disposed therebetween.   The tension relief mattress of claim 1, wherein each adjacent pair of squares or rectangles on the bottom surface of the tension relief pad is of uniform size.   The tension-reducing mattress according to claim 1, wherein the tension-reducing pad is made of polyurethane foam.   The tension reducing mattress according to claim 1, wherein a spacer fabric is disposed between the tension reducing pad and the inner spring unit. A tension-reducing mattress system,
An inner spring unit having a plurality of interconnected coils;
A tension relief pad having a top surface that is substantially planar and a bottom surface that faces the top surface and includes a plurality of cuts formed in a plurality of raised blocks;
The plurality of raised blocks are at least 1 inch thick, the width of the plurality of raised blocks is greater than or equal to the block height, and the distance between each adjacent pair of the raised blocks Is about 15% of the smallest block width,
Tension reducing mattress system.   The tension relief mattress system of claim 11, wherein the plurality of raised blocks are uniform in size.   The tension relief mattress system of claim 11, wherein the plurality of raised blocks are non-uniform in size.   The tension reducing mattress system of claim 11, wherein a size of the plurality of foam blocks corresponds to one or more coils of the inner spring unit.   The tension relief mattress system of claim 11, wherein the tension relief pad comprises polyurethane foam. A tension-reducing mattress system,
An inner spring unit having a plurality of interconnected coils;
A comfort unit comprising two or more foam layers and a tension relief pad positioned between the two or more foam layers, wherein the tension relief pads are formed in a plurality of raised blocks. A comfort unit having an upper surface including a notch, and
The strain relief pad is at least 1 inch thick;
The tension reducing foam pad is laminated in a thin layer,
Tension reducing mattress system.   The tension relief mattress system of claim 11, wherein the plurality of raised blocks are uniform in size.   The tension relief mattress system of claim 11, wherein the plurality of raised blocks are non-uniform in size.   The tension relief mattress system of claim 11, wherein the tension relief pad comprises polyurethane foam.   The tension relieving mattress system of claim 11, wherein the height of the plurality of raised blocks is at least 2.5 inches.

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