The present disclosure generally relates to mattress assemblies, and more particularly, to mattress assemblies including an adjustable foundation.
Adjustable mattress assemblies, also commonly referred to as articulating beds are commonly used in the healthcare field and in residential applications. A typical adjustable mattress assembly includes a base and an adjustable mattress frame or support, which is divided into a head and back section, an intermediate seat section, and a leg and foot section. The mattress frame sections are pivotally interconnected and have a continuous range of adjustment. The sections are moveable from a flat, user resting position to a seated position with the legs bent or the legs straight and the patient's back angled upwardly with respect to the seat section. The sections are pivoted by motor drives, hand operated cranks or through the user's weight.
Disclosed herein is an adjustable mattress assembly dimensioned to support a mattress configured to accommodate two prone users and process of operation. In one or more embodiments, the adjustable mattress assembly dimensioned to support a mattress configured to accommodate two prone users includes a foundation frame including side frame members and transverse frame members attached at respective ends of the side frame members to define a generally rectangular shape, and at least one cross rail extending between the side frame members; a mattress support surface configured to support a mattress dimensioned to accommodate two prone users, the mattress support surface including a head and back section hingedly connected to an intermediate seat section at one end and a leg and foot section hingedly connected to the intermediate seat section at another end, wherein the intermediate seat section includes a first portion and a second portion, wherein the first portion is hingedly connected to the head and back section and the second portion is hingedly connected to the leg and foot section; and a first actuator having an extending and retracting member operatively coupled to a linkage assembly to effect inclination or declination of the head and back section relative to the intermediate seat section and inclination or declination of the foot and leg section, wherein the first actuator is further operative to effect an increase or decrease in a length of the intermediate seat section by movement of the first portion relative to the second portion; and wherein the head and back section further comprises movable rectangular shaped lumbar support members disposed within complementary shaped openings in the head and back section, wherein each of the lumbar support members is positioned to provide adjustable lumbar support for a selected one of the users, and wherein each of the lumbar support members is hingedly connected at a top end and independently operative with a lumbar member actuator coupled thereto to pivot upwardly relative to a plane defined by the head and foot section.
In one or more embodiments, the adjustable foundation is dimensioned to support a mattress configured to accommodate two prone users. The adjustable foundation includes a head and back section hingedly connected to an intermediate seat section at one end and a leg and foot section hingedly connected to the intermediate seat section at another end, wherein the intermediate seat section includes a first portion and a second portion, wherein the first portion is hingedly connected to the head and back section and the second portion is hingedly connected to the leg and foot section, wherein the head and back section comprises movable rectangular shaped lumbar support members disposed within complementary shaped openings in the head and back section, wherein each of the lumbar support members is positioned to provide adjustable lumbar support for a selected one of the users, and wherein each of the lumbar support members is hingedly connected at a top end and independently operative with an actuator coupled thereto to pivot upwardly relative to a plane defined by the head and foot section.
The process for operating an adjustable mattress assembly dimensioned to support a mattress configured to accommodate two prone users includes providing the adjustable foundation with a foundation frame including side frame members and transverse frame members attached at respective ends of the side frame members to define a generally rectangular shape, and at least one cross rail extending between the side frame members; and a mattress support surface configured to support the mattress dimensioned to accommodate the two prone users, the mattress support surface including a head and back section hingedly connected to an intermediate seat section at one end and a leg and foot section hingedly connected to the intermediate seat section at another end, wherein the intermediate seat section includes a first portion and a second portion, wherein the first portion is hingedly connected to the head and back section and the second portion is hingedly connected to the leg and foot section; wherein the head and back section further comprises movable rectangular shaped lumbar support members disposed within complementary shaped openings in the head and back section, wherein each of the lumbar support members is positioned to provide adjustable lumbar support for a selected one of the users, and wherein each of the lumbar support members is hingedly connected at a top end and independently operative with a lumbar member actuator coupled thereto to pivot upwardly relative to a plane defined by the head and foot section; and independently raising or lowering the lumbar support members relative to the plane defined by the head and foot section.
The disclosure may be understood more readily by reference to the following detailed description of the various features of the disclosure and the examples included therein.
Referring now to the figures wherein the like elements are numbered alike:
Referring now to
The adjustable mattress foundation 10 includes a generally rectangular foundation frame 12, a mattress support surface 14, and a linkage assembly 16 (shown more clearly in
As shown in
As shown more clearly in
In another embodiment, the head and back section 18 includes a powered head tilt as is generally shown in
Referring back to
The second portion 68 includes u-shaped rigid frame 80 and is hingedly connected to the leg and foot section 36 at one end. The other end includes an opening defined by the u-shaped rigid frame. During operation, the first portion 66 is dimensioned to laterally move within the u-shaped opening provided in the second portion 68, wherein the second portion 68 is stationary. The rigid frame 80 may further include a plurality of transverse and longitudinal wires 82, 84, respectively, coupled to a top surface thereof. Coupled thereto are support members 85, which are configured to seat upon the side members 24, 26 of the foundation frame 12 when assembled so as to provide additional support.
The leg and foot section 22 includes first and second portions 86, 88 hingedly connected to one another, wherein first portion 86 is also hingedly connected to the intermediate seat section 20 as described above. Similar to the sections 18, 20 above, the first and second portions 86, 88 of the leg and foot section 22 include rigid frames 90, 92, respectively, and a plurality of transverse and longitudinal wires 94, 96, respectively, coupled to a top surface thereof.
Referring now to
As shown more clearly in
Referring now to
Link arms 134 include an end pivotally connected to the other end of the crank arms 130 and pivotally connected at the other end to crank arm 136. The other end of crank arm 136 is coupled to torsional member 116. As a result, upon extension/retraction of the linear actuator 120, torsional member 116 will rotate in addition to torsional member 114. Crank arms 138 are coupled to the torsional member 116 and is pivotally connected at the other end to link arm 140, wherein the other end of the link arm 140 is hingedly coupled to either the first portion 86 or the second portion 88 of the leg and foot section 22 at about the hinged connection such that rotation of the torsional member 116 indirectly via linear actuator 120 will move the selected portion 86 or 88 of the leg and foot section 22 upwards or downwards depending on whether the leg and foot section is being raised or lowered. In the above described embodiment, the single actuator will provide simultaneous tilting (inclination/declination) of the head and back section 18 and tilting of the foot and leg section 22, wherein the intermediate or seat section 20 is lengthened relative to the flat position upon moving to a tilt position or shortened upon declination. Moreover, the above mechanism and configuration permits “wall hugging” placement of the mattress since the head and back section 18 pivots about a fixed axis defined by torsional member 114 and the motion and extension of the first portion 66 of the intermediate seat section 20 causes the head and back section 18 to slide towards the wall, i.e., towards a head end of the adjustable foundation assembly. By doing so, the adjustable mattress assembly, if having the head end abutting a wall, will cause the head and back section 18 to “wall hug”, i.e., stay in close proximity to the wall regardless of inclination angle. Advantageously, this permits constant and easy access to a night table that may be disposed adjacent to the head and back section.
In another embodiment shown in
In this embodiment, the first linear actuator 120 is free of crank arms 136, 138 and link arms 134, which were operable to articulate the leg and foot section 22 in the embodiment described above. As a result, selective actuation of the first linear actuator 120 is operative to move the first portion 66 of the intermediate or seat section 20 and effect inclination or declination of the head and back section 18. The end user then has the choice of selective actuation of the first and/or second linear actuators 120 and/or 204, respectively, to provide the desired positioning of the mattress support surface 14.
In still another embodiment shown in
The optional vibratory unit 300 generally includes a variable speed motor with a shaft and an eccentric weight attached to the shaft causing the motor to vibrate when in use. The frequency of the vibrations produced within the mattress may be controlled by varying the speed of each motor. The amplitude of the vibration may be controlled by re-positioning the eccentric weight. Operation of the individual vibrating units thusly imparts a resonating effect to the mattress and to a person reclining upon the mattress. By varying the frequencies of the vibratory impulses and the level of resonance, a person may recline upon the mattress for its comforting effects or, alternatively, be slowly lulled to sleep.
As shown more clearly in
It should be apparent that any of the section 18, 20, and 22 of the adjustable foundation can be modified to include a vibratory unit such as described above. By way of example, vibratory units can be coupled to the first portion 86 of the leg and foot section 22.
In yet another embodiment shown in
In order to provide the two movable lumbar supports 502, 504, the head and back section 18 shown in
As shown more clearly in the perspective rear view of
It should be apparent that each movable lumbar support 502, 504 in the adjustable foundation configured to accommodate two prone users can be modified to include a vibratory unit such as described above.
This written description uses examples to disclose the invention, including the best mode, and also to enable any person skilled in the art to make and use the invention. The patentable scope of the invention is defined by the claims, and may include other examples that occur to those skilled in the art. Such other examples are intended to be within the scope of the claims if they have structural elements that do not differ from the literal language of the claims, or if they include equivalent structural elements with insubstantial differences from the literal languages of the claims.
The present application is a Continuation-In-Part-Application of and claims priority to U.S. patent application Ser. No. 15/051,972, filed Feb. 24, 2016, the contents of which are incorporated by reference in its entirety.
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Number | Date | Country | |
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Number | Date | Country | |
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Parent | 15051972 | Feb 2016 | US |
Child | 15687840 | US |