The present disclosure generally relates to structural configurations of a seating unit with a backrest, where that backrest may include a device for retaining accessory articles, such as a bag, jacket, whiteboard, or other item. More particularly, the present disclosure provides a seating unit including a hook assembly that secures to and protrudes outwardly from a backrest, the seating unit having a structural design that permits a compact, secure, and visually inconspicuous connection therebetween.
Additional considerations of the present disclosure relate to dynamic support structures for seating units. Specifically, some embodiments for seating units of the disclosure include a backrest that is dynamically connected to a seat via an intermediate support member. The support member is configured to permit rearward deflection of the backrest in response to forces applied by the back of a user, and a horizontal portion of the support member extends beneath the seat and is shaped to provide a load distribution function.
The need for learning is a fundamental rule of business, and a critical element of success. In an information age, effective, technology-driven learning is required not only in school, but also on the job. In part, effective learning depends on an environment which promotes interaction and collaboration with other students or coworkers and accommodates the use or storage of multimedia technology. As new interactive technologies and multimedia training programs emerge, the use of seating designed to support the necessary amount of collaboration and self-direction is important. For example, it has been recognized that relatively small whiteboards can be used in a classroom setting for expressing individual and small group thoughts to facilitate various types of learning activities. However, traditional seating options are often not equipped with means for conveniently storing or displaying such accessories.
Traditional classrooms, lecture halls, auditoriums, and meeting rooms often provide comfortable seating that allows individuals to concentrate and take notes. However, traditional seating options are not sufficiently flexible to adapt to a variety of seating arrangements that foster interactions required for group learning, and they also do not provide storage and easy access to personal belongings. Whether they are using or storing a whiteboard, backpack, computer, briefcase, purse, etc., people want their belongings to accompany them and be readily accessible.
A number of known seating units for classrooms include bins or wireframe racks disposed beneath the seat and being provided to accommodate the storage of accessory articles or extraneous classroom materials. Such bins have a relatively limited storage capacity and are therefore typically not able to retain bulkier items, like backpacks or jackets, with the chair. To the extent that such bins permit article storage, their configuration may not permit quick or easy access to the articles, e.g., to remove a book from a backpack, particularly if seats are positioned close to one another, thereby limiting a user's comfortable range of motion. Further, such bins are not configured to provide stored items with a high degree of visibility from the perspective of individuals throughout classroom. Seating units including storage bins beneath the seat also are typically incapable of being stacked due to the obstruction provided by the bin.
Some known seating units provide alternate devices for retaining accessories with the backrest of a chair in the form of a hook (or hook assembly) attached to the backrest, wherein accessory articles may be suspended from the hook. For example, Canadian Patent No. 2,962,171 discloses a garment hanger that is clampably mounted upon an upper edge of the backrest of a chair, and U.S. Pat. No. 10,219,631 discloses a chair having a backrest-mounted hook that is movable between extended and retracted positions. However, hook structures known in the prior art have deficiencies that stand to be improved.
A first type of known hook assembly for a chair removably attaches (i.e., clamps) upon a rear surface or upper edge of the backrest. Many users find the assembly of such structures to be cumbersome. Additionally, the associated mounting structures can mar the chair's exterior surfaces, and the hook assembly, itself, can often detract from the chair's aesthetic design.
Another known hook assembly for a chair securely couples to the backrest using threaded fasteners inserted horizontally into the rear surface of the backrest. Unfortunately, the practical implementation of such hook assemblies is limited to chairs having relatively bulky backrests that are thick enough to accommodate an inserted fastener without protrusion through the opposing (occupant-facing) surface. Also, a fastener that is over-inserted during assembly could crack, split, or otherwise damage the backrest.
Alternatively, some chairs include hook structures that are integrally formed with the backrest, but these structures cannot be replaced if damaged during use, short of replacing the entire backrest.
Seating must also be comfortable for persons of different sizes and accommodate a range of seated postures. In recent years, there has been a large amount of research surrounding the health benefits of maintaining good posture, especially while remaining seated for prolonged periods of time.
Generally, conventional adjustable seating includes a seat and a pivotally attached backrest which can be reclined, as desired. The recline feature is usually spring-biased up to a hard stop so that when selected, the user may lean back against the backrest and gently recline, continuously supported by the spring-bias, up to the hard stop. How far back the backrest reclines (i.e., the angular location of the hard stop) is usually adjustable from a vertical position (or approximately vertical), where the user does not want the backrest to recline at all and prefers to have full support when he or she leans back (sitting up straight).
Thus, a seating unit which provides one or more of comfort, convenience, durability, and flexibility in learning and collaborating environments is desired.
It is a primary object of the present disclosure to overcome one or more of the deficiencies of the prior art.
In one aspect, the present disclosure provides a seating unit comprising a backrest extending substantially vertically above a seat and attached to the seat by an intermediate support member. The backrest includes an outwardly protruding rim formed integrally with a rear surface, and a hook assembly is configured to securely couple with the backrest at the rim.
In another aspect, a seating unit comprises a backrest having a rim extending outward from a rear surface, and a hook assembly is configured to be securely coupled to the rear surface of the backrest at an attachment region, and the attachment region is at least partially circumscribed by the rim.
In another aspect, the hook assembly comprises a cover plate, a hook, and a weldment, all of which are configured to securely couple with the rear surface of the backrest at an outwardly protruding rim or within an attachment area being at least partially circumscribed by the rim. When coupled with the backrest, the weldment is disposed between the cover plate and the rear surface, and the hook assembly is configured to allow accessory articles to be retained with the backrest.
In still another aspect, a seating unit includes a backrest and a hook assembly. The hook assembly comprises a cover plate, a hook, and a weldment, wherein the hook is formed integrally with the cover plate and extends generally outward and upward from an exterior surface thereof, and the hook assembly is configured to allow accessory articles to be retained with the backrest.
In yet another aspect, the hook assembly comprises a cover plate, a hook, and a weldment, wherein the hook is materially distinct and separate from the cover plate. In such cases, the hook may include a first portion disposed between the weldment and the rear surface, a second portion extending below a bottom surface of the cover plate, and a third portion extending upwards from the second portion and being spaced apart from an exterior surface of the cover plate.
A secure coupling may be formed between the hook assembly and the backrest via insertion of a fastener substantially vertically through coaxially aligned apertures disposed on one-or-both of the hook assembly or the backrest. The fastener is inserted along a substantially vertical insertion axis, such that, following assembly, the body of the fastener is aligned substantially parallel to the rear surface of the backrest. The seating unit may be configured such that heads of substantially vertical fasteners are inset from a bottom surface of the hook assembly and thereby hidden from the line of sight of a user.
In some aspects, the hook assembly and backrest include cooperative mounting structures including a first mounting structure extending from the backrest, and a second mounting structure extending from the hook assembly. The cooperative mounting structures abut during assembly to facilitate proper alignment of the hook assembly upon the backrest.
The first mounting structure may include at least one rib formed integrally with and extending outward from a rear surface of a backrest, wherein the at least one rib is disposed within an attachment region being at least partially circumscribed by an outwardly protruding rim extending from the rear surface. The second mounting structure may include at least one protrusion formed integrally with and extending outward from an interior surface of the cover plate, and the at least one protrusion extends generally towards the rear surface of the backrest. During assembly, the at least one protrusion abuts against the at least one rib to facilitate proper alignment of the hook assembly upon the backrest.
In still another aspect, a seating unit comprises a hook assembly securely coupled to a rear surface of a backrest, wherein first and second mounting structures respectively extend from the backrest and the hook assembly and abut against one another to facilitate proper alignment of the hook assembly upon the backrest. The hook assembly comprises a cover plate and a weldment, wherein a secure coupling between the hook assembly and the backrest is formed via insertion of fastener along a substantially vertical insertion axis. Following insertion, the fastener body is aligned substantially parallel to a rear surface of the backrest, and the fastener extends through coaxially aligned apertures on the cover plate and weldment.
In yet another aspect, a seating unit comprises a backrest and a hook assembly that is securely coupled to a rear surface of a backrest. First and second mounting structures respectively extend from the rear surface of backrest and an interior surface of the hook assembly, wherein the second mounting structure abuts against a planar upper surface of the first mounting structure during assembly. The hook assembly may be pivotably mounted upon the rear surface. Further, a fastener extending through an aperture in the hook assembly is aligned substantially parallel with the rear surface.
In a further aspect, a seating unit comprises a backrest and a hook assembly. The backrest includes first mounting structure comprising a rib having a substantially L-shaped cross section, wherein a gap is formed between the rib and the rear surface. During assembly, a portion of the hook assembly is slotted with the gap formed between the rib and a rear surface of the backrest.
The following description and annexed drawings set forth in detail certain illustrative aspects of the present invention. These aspects are indicative, however, of but a few of the various ways in which the principles of the invention may be employed. Other advantages and novel features will become apparent from the following detailed description when considered in conjunction with the drawings.
The invention will hereafter be described with reference to the accompanying drawings, wherein like reference numerals denote like elements, and:
One or more specific embodiments of the present invention will be described below. It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions must be made to achieve the developers' specific goals, such as compliance with system-related and business related constraints, which may vary from one implementation to another. Moreover, it should be appreciated that such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure.
For purposes of description herein, the terms “rear,” “front,” “vertical,” “horizontal,” and derivatives thereof shall relate to the seating unit as oriented in
Further, the term “substantially parallel,” as used within the context of this disclosure, describes the general angular relationship between two structures extending largely in the same direction. This inclusion of this term should therefore not be interpreted as being limiting exclusively to objects that are geometrically parallel. Instead, it is contemplated that an angular displacement of up to ±12° could exist between any two objects described herein to be “substantially parallel.” Further, the term could also apply to structures extending largely in the same direction that do not intersect and pass through one another.
Some seating units produced in accordance with the present disclosure comprise a backrest and a hook assembly being secured to, and protruding outward from, a rear surface of the backrest. Although the present disclosure is thought to encompass a wide variety structural configurations, exemplary hook assemblies produced in accordance with the present disclosure are, owing in part to the constructional form of cooperative mounting structures extending therebetween, adapted to unostentatiously couple with the backrest using hidden fasteners inserted substantially parallel to the rear surface.
Additional aspects of the present disclosure may further relate to seating unit assemblies including an intermediate support member that extends between the backrest and a seat, provides dynamic support for backrest, and includes shaped arms extending beneath the seat to perform a load distribution function.
Hook Assemblies
Referring now to the drawings, wherein like reference numbers correspond to similar elements throughout the several views, and, more specifically, referring to
Many novel aspects of the present disclosure are described in the context of exemplary of hook assemblies 110, 210, 310, and 410, which are primarily shown in
The exemplary hook assemblies 110, 210, 310, and 410 shown in
Each exemplary hook assembly 110, 210, 310, or 410 is configured to couple with the backrest 104 at an attachment region 126, 226, or 326. With reference to
Referring again to
The hook assembly 110 includes a cover plate 111 having an integrally formed hook 115 extending generally outward and upward from an exterior surface 165 of the cover plate 111. An interior surface 113 of the cover plate 110, being disposed opposite the exterior surface 165, is secured to the backrest 104 at the attachment region 126 located proximate the rim 124. With specific reference to
Some seating units produced in accordance with the present disclosure may not necessarily include one or more portions of the outwardly protruding rim 124. For example, in
Returning to
The cover plate 111 of
The hook assemblies 110, 210, 310, and 410, shown in
The hook assemblies 110, 210, 310, and 410 each comprise a weldment 146, 246, or 346 and a cover plate 111, 211, 311, or 411. Although shown as separate components in
With reference to
In many embodiments, proper alignment of the cover plate 111 within the attachment region 126 causes aperture 151 to align coaxially with one or more apertures 251 being defined upon either or both of the weldment 146 or the rib 154. Referring collectively to
With reference to
Likewise, the protrusions 148, 248, 348, or 448 extending from the interior surfaces 113, 213, 313, or 413 of the exemplary hook assemblies may comprise planar protrusions 148 (as seen in
Although not shown in
Referring to
The process of attaching the hook assembly 210 to the attachment region 226 of the backrest 104 first involves sliding the weldment 246 vertically upward or the seat back downward until portion 247 slots within the gap formed between the upper rib 254 and the rear surface 106. Fastener 152 (not visible in
Rotational mounting of the cover plate 211 comprises placing the concave upper surface 249 of protrusion 248 against the upper loop 120 prior to pivotally rotating the cover plate 211 clockwise (with respect to
More specifically,
Although not visible in the cross-sectional plane of
Referring now to
In addition to the cross-sectional views of
Turning to
Seat and Backrest Support Structure
Referring again to
The support member 108 is generally formed from a single wire being bent in a way that forms two arms 122 joined at an upper loop 120 joining upper ends of the upright portions 116, where the upper loop 120 seats against the rim 124 extending from the rear surface 106 of the backrest 104, as discussed above.
The support member 108, 208 or 308 may be formed from high carbon steel or spring steel. In other embodiments the support member may be formed from another suitable material(s), such as, for example, aluminum, polyvinyl chloride (PVC), Acrylonitrile butadiene styrene (ABS), HDPE (high-density polyethylene), or bamboo, among others. Importantly, materials from which the support member 108 is manufactured should be flexible enough to allow for pivotal deflections to occur when a user leans against the backrest 104, and the material must also be strong enough to withstand typical loads applied to the seat 102 and backrest 104 by a user.
In one aspect, the support member 108 generally comprises a single tube or wireframe, which is generally cylindrical and may be formed from bent metal. With reference to
The upper loop 120 may be secured to the backrest 104 in a wide variety of ways, as would be appreciated by those of ordinary skill in the relevant art, but in some embodiments, the weldment 146 of the hook assembly is welded in between the arms 122 in the upright portion 116 proximate the upper loop 120, as shown in
Referring to
The sinusoidal shape of each arm 122 may functionally increase the load-bearing capacity of the back shell or backrest 104 and/or to reduce stress concentrations in the distribution of force when a user pushes on the back shell 104. The winding path of the shaped portions 128 increases the overall surface area through which forces applied to the seat by a user are distributed, which may reduce average peak stress concentrations across the back shell body to mitigate wear, and increasing user comfortability by preventing the manifestation of high-pressure zones on the back shell's surface.
In the exemplary embodiments shown in
Still further, alternative embodiments for a support structure may include a horizontal portion 114 having shaped portions 128 that are configured differently that the exemplary embodiments shown in the figures. For example, the shaped portions 128 may have a greater or reduced periodicity (i.e., there may be fewer or more undulations along the length of shaped portions 128), or the shaped portions 128 may extend over and back across a central longitudinal plane, at least once, or the shaped arms may intersect one another. Referring to
Thus, the shape of the arms in the horizontal portion of the support structure may improve the dynamic performance of the chair, increase a seating unit's load bearing capacity, influence the backrest's flexibility, and/or improve load distribution across a back shell.
At the transition portions 118, the two arms 122 wrap curvilinearly around the rear side of the frame to join with the upright portions 116. When a user leans back into the backrest, the upright portions 116 of the support member 108 may be designed to rotate rearward until being impeded by a hard stop.
Referring to
With reference to
The seat 102 may optionally include flanges (best shown in
In exemplary seating units 100 and 200 (shown in
The housing 140 conceals various connections between the frame 156, the seat 102, the legs 136, 138, and the horizontal portion 114 of support structure 108 (including shaped portions 128).
It should be noted that the housing 140 is drawn as a transparent structure in
Referring to
The housing 140 envelops the base 156, and a plurality of clips 144 may couple the housing 140 to the base 156. The housing 140 is generally rectangular when observed from the bottom view of
Both exemplary seating units 100, 200 (shown in
In the first exemplary embodiment for the seating unit 100, shown in
In a second embodiment, a seating unit 200, as shown in
Referring to
Optionally, a footrest 137 may be secured between the front legs 136, and casters 145 may be optionally secured to distal ends of the legs 136, 138 to increase the seating unit's mobility.
What has been described above includes examples of the present invention. It is, of course, not possible to describe every conceivable combination of components or methodologies for purposes of describing the present invention, but one of ordinary skill in the art may recognize that many further combinations and permutations of the present invention are possible. Accordingly, the present invention is intended to embrace all such alterations, modifications, and variations that fall within the spirit and scope of the appended claims.
To apprise the public of the scope of this invention, the following claims are made:
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Written Opinion of International Application No. PCT/US2022/027475, dated Jul. 29, 2022, 4 pages. |