The present disclosure relates generally to human limb supports and, in particular, to portable limb supports.
Portable electronic devices such as smartphones and tablets are ubiquitous in the modern era. Most of these devices require both visual and tactile interaction, meaning that the user must be able to both see and touch the device in order to use it. Handheld electronic devices satisfy the tactile requirement by their nature—i.e., the devices are within reach while being held. This means that users must look toward their hands while using such a device, which has led to a variety of relatively new repetitive body motions and positions. Users must extend their arms forward and upward to be able to properly view the handheld device, and/or they must lower their gaze with their arms rested on their laps in a more relaxed position. The results of these body positions when held for prolonged periods may include arm and shoulder fatigue from arm extension, as well as hunched posture and neck fatigue from looking down toward the handheld device. Users in moving vehicles may experience motion sickness while looking down at a handheld device due in part to reduced peripheral vision of vehicle motion.
U.S. patent application publication 2009/0172884 by Semlitsch discloses an arm rest for positioning the arm of a medical patient in relation to an examination table, especially during a tomographic radioscopy examination or an operation. The arm rest includes a base plate that can be pushed under the patient, an inclined support plate extending from the base plate, and an elongated and inclined carrier element on the end of the supporting plate. The carrier element supports the arm of the patient above the examination table and uses the patient's weight to hold the arm rest in place. The arm rest is not portable and is configured for only one arm to be rested off to the side of the patient's body. cl SUMMARY
In accordance with various embodiments, a portable armrest includes a lap portion, an arm portion, and a support portion. The support portion vertically spaces the arm portion from the lap portion when the lap portion is positioned on the lap of a seated user with the armrest in a deployed configuration. In the deployed configuration, the weight of an extended arm of the seated user is transferred to the lap when the arm is rested on the arm portion. The armrest is manually convertible between the deployed configuration and a folded configuration.
In some embodiments, the support portion includes an end wall and a pair of side walls. The end wall extends between an end of the lap portion and the arm portion, and the side walls extend from opposite ends of the end wall to form respective acute angles with the end wall in the deployed configuration.
In some embodiments, the armrest includes a segmented panel having a plurality of flat segments interconnected by hinge joints.
In some embodiments, flat segments of the armrest are arranged in a plurality of parallel planes and overlap each other in the folded configuration so that the portable armrest is flat when in the folded configuration.
In some embodiments, at least one hinge joint of the armrest is configured to provide 360 degrees of relative movement between adjacent flat segments of the armrest.
In some embodiments, at least one hinge joint of the armrest is non-linear so that relative movement between adjacent flat segments of the armrest about the non-linear joint is restricted to only a partial rotational degree of freedom.
In some embodiments, a non-linear hinge joint connects the arm portion to the support portion.
In some embodiments, the armrest includes a foldable connector connecting the lap portion to the support portion. The foldable connector is flat in the folded configuration and folded over on itself in the deployed configuration.
In some embodiments, the armrest includes a foldable connector connecting the arm portion to the support portion. The foldable connector is folded over on itself in the deployed configuration.
In some embodiments, the armrest includes a foldable connector connecting the support portion to the arm portion or to the lap portion via one or more hinge joints. The foldable connector includes a plurality of flat segments interconnected by additional hinge joints.
In some embodiments, a foldable connector of the armrest is folded in a first direction about one of the hinge joints in the deployed configuration and in an opposite second direction in the folded configuration.
In some embodiments, the armrest includes a reversible fastener that engages to couple the arm portion with the support portion in the deployed configuration and is disengaged in the folded configuration.
In some embodiments, the armrest includes an upholstery layer and a segmented layer. The segmented layer includes a plurality of rigid plates spaced apart from each other at fixed locations along the upholstery layer. Each of the rigid plates has an edge that runs parallel with an edge of an adjacent rigid plate along a gap. The upholstery layer spans the gap to at least partly define a hinge joint between the adjacent plates.
In some embodiments, the armrest includes a plurality of hinge joints. Each hinge joint is located along parallel edges of adjacent rigid plates of a segmented layer of the armrest. A first pair of adjacent plates is spaced apart a different amount than a second pair of adjacent plates so that widths of the respective hinge joints are different.
In some embodiments, the armrest includes an additional upholstery layer, and a segmented layer is disposed between upholstery layers. A hinge joint of the armrest includes a portion of both upholstery layers.
In some embodiments, the armrest includes a cushion layer disposed between a segmented layer an upholstery layer.
In some embodiments, a cushion layer of the armrest is segmented so that the cushion layer does not span a hinge joint of the armrest.
In some embodiments, the armrest includes an armrest accessory extending from the arm portion when the portable armrest is in the deployed configuration.
Various aspects, embodiments, examples, features and alternatives set forth in the preceding paragraphs, in the claims, and/or in the following description and drawings may be taken independently or in any combination thereof. For example, features disclosed in connection with one embodiment are applicable to all embodiments in the absence of incompatibility of features.
One or more embodiments will hereinafter be described in conjunction with the appended drawings, wherein like designations denote like elements, and wherein:
The armrest described herein enables seated users to relax their extended arms and maintain an upright posture while bringing a handheld device or other item into viewing range. The armrest can also be folded into a small packaging space for portability and useful deployment in various different scenarios, such as in automobiles, passenger trains, or buses or while seated nearly anywhere. The armrest can have a one-piece unitary construction such that separate components do not have to be assembled together when deploying the armrest from its portable configuration. The one-piece construction can be in the form of a continuous and generally flat panel or sheet divided into segments by hinge joints. The joints allow the panel to be folded back on itself in a manner reminiscent of origami paper art, particularly when the segments are primarily triangular, giving the armrest a desirable aesthetic appeal and a compact and intuitive folding.
With reference to
The arm portion 14 extends laterally along an upper end 26 of the end wall 18 of the support portion 16 and away from the upper end 26 of the support portion in the same longitudinal direction as the lap portion 12 such that the arm portion 14 extends over the lap portion and is within the projected area of the lap portion. It is noted that directional terms such as lateral, longitudinal, vertical, top, bottom, upper, lower, etc. are used here in reference to the armrest 10 in its intended orientation of use. In this orientation of use, the lap portion 12 rests on the lap of the seated user, and the longitudinal end 22 of the lap portion from which the end wall 18 extends is the end of the lap portion that is nearest the torso of the seated user, as depicted in
The illustrated armrest 10 additionally includes upper and lower foldable connectors 28, 30 that facilitate convertibility between the deployed configuration and the folded configuration. Each connector 28, 30 is in a flat configuration when the armrest 10 is in the folded configuration, and each connector is folded when the armrest is in the deployed condition. When in use in the deployed configuration, the connectors 28, 30 also restrict relative movement of the lap, arm, and support portions 12-16.
In particular, the upper foldable connectors 28 connect the arm portion 14 to the side walls 20 of the support portion 16 and restrict relative movement between the side walls and the arm portion. Each upper foldable connector 28 extends from a lateral end of the arm portion 14 and wraps around an upper end of the respective side wall 20, thereby restricting downward movement of the arm portion relative to the support portion 16. A reversible fastener 32, such as a snap, magnet, or hook-and-loop fastener, may be included to reversibly couple the arm portion 14 with the support portion 16 via the foldable connector 28 in the deployed configuration, with the fastener disengaged in the folded configuration. The fasteners 32 further restrict movement of the arm portion 14 relative to the support portion 16, particularly in the vertical direction, which is the direction of applied load during use as an armrest.
The lower foldable connectors 30 connect the lap portion 12 to the side walls 20 of the support portion 16 and restrict relative movement between the side walls and the lap portion. Each lower foldable connector 30 extends from a lateral end of the lap portion 12 and from the bottom end of each side wall 20. In the deployed configuration, each lower foldable connector 30 is folded over on itself in the manner of an origami reverse fold. In particular, each foldable connector 30 is folded in a first direction about a hinge joint 34 between the connector 30 and the side wall 20 in the deployed configuration and in an opposite second direction when the armrest is in the folded configuration, as illustrated further below. The foldable connector 30 restricts horizontal movement of the side walls 20 relative to the lap portion 12 in the deployed configuration.
Each segment 38 has a perimeter, and one of the hinge joints 34 connects each segment to an adjacent segment along the perimeter of the adjacent segment. In the illustrated example, each segment 38 is in the shape of a triangle or a quadrilateral, and each hinge joint 34 is a linear hinge joint that provides a single rotational degree of freedom of movement between the segments that it joins. Each of the lap portion 12, arm portion 14, support portion 16, and foldable connectors 28, 30 includes a plurality of segments 38 and at least one hinge joint 34. Each segment 38 is labeled in
The lap portion 12 includes a pair of adjacent rectangular segments connected by a central hinge joint. The arm portion 14 includes a pair of adjacent quadrilateral segments connected by a central hinge joint. The end wall 18 of the support portion 16 includes four triangular segments, a pair of which are connected to the lap portion 12 by a hinge joint, and another pair of which are connected to the arm portion 14 by a hinge joint. The two pairs of triangular segments of the end wall 18 are connected to each other by diagonal hinge joints, and the pair of triangular segments of the end wall that are connected to the arm portion 14 are connected to each other by a hinge joint. Each side wall 20 includes only one quadrilateral segment and is connected to the end wall 18 by a respective hinge joint. Omission of a hinge joint in the side walls may offer greater arm load support without buckling. Each upper foldable connector 28 is connected to a respective segment of the arm portion 14. Each lower foldable connector 30 is connected to one of the side walls 20 and one of the segments of the lap portion 12. Each foldable connector 28, 30 includes respective pairs of triangular segments connected by hinge joints.
The segmented panel 36 is constructed such that some of the hinge joints 34 maintain a full rotational degree of freedom about an axis parallel with the linear joint, and some of the hinge joints have only a partial rotational degree of freedom. For example, the hinge joints connecting the side walls 20 to the end wall 18 provide 360 degrees of relative rotational movement between the end wall and the side walls. In other words, the side walls can be folded over onto the end wall in both directions—on top of the end wall or under the end wall when laid flat as in
In the illustrated folded configuration, the armrest 10 is portable and occupies significantly less volumetric space than in the deployed configuration. Both the lateral width and the longitudinal length of the folded armrest are approximately one half of the respective width and length in the deployed configuration. The vertical height is decreased even more significantly from the deployed to the folded configuration and may be referred to as the thickness of the armrest in the folded configuration. For example, the thickness of the folded armrest may be only 10-20% of the height of the deployed armrest. In one non-limitimg example, the pattern of
The armrest 10 may include a closure (not illustrated) that engages to prevent the armrest from unfolding when in the folded configuration. One example of a closure is an elastic strap that wraps around the folded armrest when engaged and which can be selectively unwrapped or slid off of the folded armrest when a used wished to convert the armrest to the deployed configuration. Other non-limiting examples of closures include snaps, buckles, ties, zippers, buttons, hooks-and-loops, or magnets, to name a few. Such a closure may be attached to the segmented panel as part of the one-piece construction. In another embodiment, the length and width of the armrest in the folded configuration may be sized to accommodate the outer dimensions of a notebook or tablet computer. For instance, at least one segment of the lap portion may include an additional layer of material and a closure to form a closable storage compartment for such a device.
From the configuration of
After the reverse folds are completed, the segments of the arm portion 14 are folded about folding axes (F) to reach the configuration of
The lap portion 12 includes a pair of adjacent rectangular segments connected by a central hinge joint. One corner of each rectangular segment is rounded. The arm portion 14 includes a pair of adjacent four-sided segments connected by a central linear hinge joint. The end wall 18 of the support portion 16 includes a pair of adjacent four-sided segments connected by a central linear hinge joint. The arm portion 14 and end wall 18 are connected to each other by non-linear hinge joints 34′. Each side wall 20 includes only one quadrilateral segment and is connected to the end wall 18 by a respective hinge joint. Each upper foldable connector 28 includes a pair of triangular segments, one of which is connected to a segment of the arm portion 14 by a hinge joint, and another of which is connected to one of the side walls 20 by a hinge joint. The two triangular segments of each upper foldable portion are connected by a hinge joint as well. Each lower foldable connector 30 includes a pair of triangular segments connected by a hinge joint, a first of which is connected to one of the side walls 20 and a second of which is connected to a segment of the lap portion 12.
The non-linear hinge joints 34′ have only a partial rotational degree of freedom about the joint, and the orientation of the folding axis associated with the non-linear hinge joints may change as the degree of folding changes. These restrictive hinge joints 34′ have a freedom of movement that is more limited than in the corresponding restrictive hinge joints described in conjunction with
In the illustrated folded configuration, the lateral width of the folded armrest is approximately one half of the width in the deployed configuration, and the length of the folded armrest is approximately two-thirds of the length of the deployed configuration. The vertical height is decreased more significantly, with the thickness of the folded armrest being be only 10-20% of the height of the deployed armrest. In one non-limiting example, the pattern of
Conversion of the armrest 10 to the deployed configuration with the pattern of
There are therefore three overlapping segments each lateral end of the arm portion 14 all interconnected by hinge joints, including both triangular segments of the upper foldable connector 28 and the respective sidewall 20. A view from the forward-facing side of the deployed armrest in
Similarly,
The upholstery layers 46, 48 provide the visible outer surfaces of the segmented panel 36 and may have the flexible properties of a fabric—i.e., it is foldable without plastic deformation of the upholstery material and has a negligible flexural modulus. Each upholstery layer may include or be a fabric layer made woven, knit, or spun from synthetic and/or natural fibers, for example. Synthetic microfiber fabrics are one example of suitable upholster layer materials. Nearly any material can be used as the upholstery layers 46, 48 to provide a desired aesthetic and feel, so long as the material has a sufficiently low resistance to bending out of plane in the form of a hinge joint. In some embodiments, the upholstery layers have a thermoplastic component suitable to be laminated together to form the hinge joints 34 between adjacent segments 38 and plates 54, as shown in
The rigid plates 54 of the segmented layer 40 are not foldable or bendable without plastically deforming the plate material and can be made from any suitable material exhibiting such properties, such as filled or unfilled polymeric materials, metals, or ceramics. The thickness of the plates also affects their rigidity, such that the plates can be made thinner from stiffer materials such as metals or polymer composites. An exemplary rigid plate 54 is a glass-filled thermoplastic material having a thickness between 2 mm and 4 mm. The rigid plates 54 are spaced apart from each other at fixed locations along and between the upholstery layers 46, 48. The plate locations can be fixed by lamination, an adhesive layer, stitching, or other suitable means. Each of the rigid plates 54 has an edge 58 that runs parallel with an edge of an adjacent rigid plate along a gap 60. The upholstery layers 46, 48 span the gap 60 to at least partly define the hinge joint 34 between the adjacent plates.
The spacing between adjacent plates 54 of the segmented layer 40 determines a width of the respective hinge joint 34. In some embodiments, the spacing between different pairs of adjacent plates 54 varies such that widths of the respective hinge joints are different. For example, the hinge joints 34 located along the parallel edges of the plates 54 lying along folding axes (C) and (D) may have a width that is greater than the width of other hinge joints of the segmented panel 36. Joint width may be defined in part by the number of interposed layers of segments 38 between the outermost layers when the armrest 10 is in the folded configuration. Hence, the hinge joints lying along folding axes (C) and (D) may be wider than other hinge joints in this example because the final two folds are formed along those joints. The hinge joint lying along the final folding axis, axis (D) in this example, may have the greatest width among the hinge joints. In one non-limiting example, the hinge joint 34 lying along the final folding axis (axis D in the illustrated examples) during conversion to the folded configuration has a width and a spacing between adjacent rigid plates of about 15 mm. The hinge joint 34 lying along the second to last folding axis (axis C in the examples) has a width and a spacing between adjacent rigid plates of about 10 mm, while the remaining hinge joints have a width of about 2 mm.
In some embodiments, not all segments 38 of the segmented panel include a rigid plate 54. In the illustrated example, rigid plates 38 are omitted from the segmented layer 40 along one of the two segments of each foldable connector 28, 30. Since the foldable connectors 28, 30 are folded back on themselves in the deployed configuration, this helps limit the thickness of the connectors 28, 30 when in the deployed configuration. Also, omission of the rigid plate can allow an individual segment of the foldable connectors to be folded in the folded configuration of the armrest, such as with the upper foldable connectors 28 discussed in conjunction with
The optional cushion layer 42 is a layer of foam or other suitable material located between one of the upholstery layers and the segmented layer 40. The cushion layer 42 is provided to help isolated the rigid plates 54 from the arms and legs of the user more than the upholstery layers 36, 38 can on their own and to provide a comfortable arm-resting surface. As such, pieces 56 of the cushion layer 42 are preferably located in the segments 38 corresponding to the lap portion 12 and the arm portion 14 of the armrest, although cushion layer pieces 56 can be included in other segments as well. In some embodiments, all of the rigid plates 54 have a piece 56 of the cushion layer 42 in an overlapping arrangement. The cushion layer 42 preferably does not span the hinge joints 42, as this would impart the hinge joints with excess thickness and an undesirable elastic quality.
The edge trim 50 may be provided along the outer perimeter of the opened-flat pattern to conceal the cut edges of the upholstery layers 36, 38 and/or enclose any rigid plates 54 between the upholstery layers where there is no hinge joint already doing so. The edge trim 50 may be attached via one of the lines of stitching 52, as shown in
The illustrated lines of stitching 52 may be decorative, functional, or both. In the example of
In one manner of making the armrest, the first and second upholstery layers 36, 38 are cut to the desired pattern shape, and the segmented and cushion layers 40, 42 stacked together and laminated between the upholstery layers. Then, the lines of stitching 52 are sewn along the hinge joints 34, and the edge trim is affixed along the perimeter of the pattern. A step of providing the segmented layer 40 and/or the cushion layer 42 may include die cutting each layer from sheet material. In one example, the segmented and cushion layers 40, 42 are die cut simultaneously from stacked layers of the desired materials into rigid plates 54 of the desired size and shape and cushion layer pieces 56 having shapes identical to the rigid plates. The reversible fasteners 32 may be added along the upholstery layer(s) prior to lamination.
Similarly,
In
It is to be understood that the foregoing is a description of one or more preferred exemplary embodiments of the invention. The invention is not limited to the particular embodiment(s) disclosed herein, but rather is defined solely by the claims below. Furthermore, the statements contained in the foregoing description relate to particular embodiments and are not to be construed as limitations on the scope of the invention or on the definition of terms used in the claims, except where a term or phrase is expressly defined above. Various other embodiments and various changes and modifications to the disclosed embodiment(s) will become apparent to those skilled in the art. All such other embodiments, changes, and modifications are intended to come within the scope of the appended claims.
As used in this specification and claims, the terms “for example,” “for instance,” “such as,” and “like,” and the verbs “comprising,” “having,” “including,” and their other verb forms, when used in conjunction with a listing of one or more components or other items, are each to be construed as open-ended, meaning that the listing is not to be considered as excluding other, additional components or items. Other terms are to be construed using their broadest reasonable meaning unless they are used in a context that requires a different interpretation.