The present invention relates to a seating apparatus. More particularly, it relates to a seat supported by a seat post.
Typically, a stool seat may be supported by a single seat post attached to the center of the bottom of the seat and fixed to the ground, the floor of a building, or some other relatively stable or massive object. In particular, an institutional cafeteria-style table may include stool seating supported by vertical seat posts connected to a table frame. In one known arrangement, the seat post is inserted into a neck and secured to the neck by a bolt passing transversely through the neck and seat post.
However, it has been discovered that stool seats can fail due to repeated use, the weight of the seat occupants and abuse such as where the person on the seat repeatedly and aggressively attempts to rotate or twist the seat. The neck of the seat is particularly vulnerable to failure.
A need therefore exists for a more durable stool seat.
In one aspect of the invention, a seating device is provided. The seating device has a seat having a generally horizontal upper seating surface for supporting a person and may also have a downwardly extending rim along the periphery of the seat. The seating device has a lower support member for supporting the seat and contacting the seat adjacent at least a portion of or around the entire rim or periphery of the seat for providing support for the seat and a person seated on the seat. The seating device also has a generally vertically extending post support mount for securing a seat post on one of the seat and the lower support member. Additionally, the seating device may also have a generally vertically extending brace structure on the other of the seat and the lower support member. The brace structure, the post support mount and the seat post are matingly engageable to permit the brace structure, the post support mount and the seat post to be secured together. These elements may be secured together in any suitable manner, such as by a mechanical fastener, e.g., a nut and bolt, an adhesive or by any other suitable manner.
The brace structure, the post support mount and the seat post may be configured to partially nest within each other. For example, the seat post can be partially nested within the post support mount, which is partially nested within brace structure. The post support mount can be partially nested within the seat post and the seat post partially nested within the brace structure. Typically, the brace structure is matingly engageable with the support mount and securable with the support mount to the seat post.
In one embodiment, the lower support member substantially covers the bottom of the seat.
In another embodiment, the post support mount is on the bottom of the seat.
Typically, a substantially vertical extent of the post support mount has a non-circular cylindrical surface and the seat post can have a corresponding non-circular cylindrical surface at least where the seat post mates with the post support, to substantially prevent rotational movement of the seat relative to the seat post.
The brace structure may have a non-circular cylindrical surface that corresponds on opposed sides to the non-circular cylindrical surface of the post support mount. Typically, a generally horizontal aperture extends through the non-cylindrical surface of the post support and the brace structure to permit insertion of a bolt or other suitable fastener member, substantially horizontally through the post, the post support and the brace structure to secure the post to the post support and the brace structure. Preferably, the brace structure has two spaced apart generally vertically extending members. These vertically extending members each have the generally horizontal aperture. The brace structure may also be in the form of a collar.
In one embodiment, the seat also has a plurality of generally vertically disposed ribs extending from the bottom of the seating surface and extending radially typically from proximate the center of the seat to proximate the rim, and the lower support member contacts at least a portion of at least some of the ribs proximate to the rim. The seat may also have concentric ribs extending from the bottom of the seating surface.
The post support mount and the brace structure may be integral to the lower support member and the seat, respectively. Alternatively, they may be separate elements from one or both of the lower support member and the seat.
In another aspect of the invention, a seating apparatus for a person is provided. The apparatus has a seat, a lower support member for supporting the seat, and a post. The seat has an upper surface for sitting on, a rim extending downwardly along the periphery of the seat, and a downwardly extending neck for receiving the post. The lower support member has a downwardly extending collar, the collar at least partially covering the neck. The collar may be substantially frustoconical in shape. The lower support member is located below the seat and contacts the seat proximate to the rim for supporting the seat and the weight of the person. The post is attached to the seat and the lower support member and extends upwardly into the neck.
Typically, the seat also has a plurality of radial support ribs on the bottom of the seat. The lower support member typically contacts at least a portion of some of the radial support ribs. Typically, at least some and preferably all of the radial support ribs extend to the rim.
The lower support member may have a first support hole and a first support mounting surface through which the first support hole passes and the neck may have a first seat hole and a first seat mounting surface through which the first seat hole passes. The lower support member may be attached to the seat by a fastener located in the first support hole and the first seat hole, the first support mounting surface in contact with the first seat mounting surface and the first support mounting surface substantially conforming to the first seat mounting surface for transferring weight supported by the lower support member to the neck. Typically, the post has a first post hole and the fastener also passes through the first post hole. The post typically has a first post mounting surface through which the first post hole passes and the neck has a second mounting surface through which the first seat hole passes. The first post mounting surface may be in contact with the second seat mounting surface and can substantially conform to the first post mounting surface for transferring weight supported by the neck to the post. In one embodiment, the first support mounting surface and the first seat mounting surfaces are substantially flat. For providing additional strength, the seating apparatus advantageously may have a plurality of radial ribs of which one or more extends to the first seat mounting surface.
The collar may also have a second support hole and a second support mounting surface through which the second support hole passes and the neck also has a second seat hole and a second seat mounting surface through which the second seat hole passes. Also, the lower support member may be attached to the seat by a fastener located in the second support hole and the second seat hole and the second support mounting surface is in contact with the second seat mounting surface and the second support mounting surface substantially conforms to the second seat mounting surface for transferring weight supported by the support to the neck. The post may also have first and second post holes and the fastener passes through the first and second post holes.
In one embodiment, the lower support member has an upwardly extending support rim located internally of the seat rim. The support rim may contact the seat for providing support for the seat and the weight of the person.
In another aspect of the invention, a folding table is provided. It has a tabletop, a frame supporting the tabletop, and one or more of the inventive seating devices or stools as previously described herein suitably attached to the table, such as to the table frame, for example. The folding table may also have a plurality of non-rolling feet and a plurality of casters. Some of the feet or casters may be attached to the bottom of the seat posts to which the seats are attached.
A durable and safe seating apparatus having a seat supported by a seat post is described in this section.
Referring to the Figures generally and in particular to
Stool seat 12 has an upper surface 18 for sitting on (as seen in
Support 14 has a brace structure 56, one or more ribs 58 and a support body 60. Brace 56 can be an integral part of support 14. This may typically be the case if support 14 is molded plastic, for example. Brace structure 56 has a bottom opening 62 for receiving post support mount 26 and one or more holes 64, preferably two or four, and most preferably one or two opposed pairs, for attachment to seat 12 and seat post 16. Brace structure 56 (which may be referred to herein as collar 56) has an interior surface 66 having one or more mounting surfaces 67 corresponding to mounting surfaces 46 around a corresponding number of holes 64. Mounting surfaces 67 and mounting surfaces 46 preferably have complementary shapes to improve the mating engagement of brace structure 56 and post support mount 26. Mounting surfaces 67 are provided on mounting blocks 68. Mounting blocks 68 reinforce brace structure 56. Brace structure 56 has an exterior surface 69. Exterior surface 69 need not match interior surface 66. Indeed, as illustrated exterior surface 69 has a circular cross-section which is part of a frustoconical surface and which matches the circular periphery 22 of seat 12. Brace structure 56 has recessed surfaces 70 around holes 64 for recessing a fastener. As illustrated brace structure 56 surrounds post 16 on four sides, but alternatively could surround post 16 on two sides. Brace structure 56 extends downwardly from body 60 while ribs 58 extend upwardly from body 60. As illustrated, support member 14 has a peripheral rib or rim 72 located at the periphery of support body 60. Support 14 may have additional ribs (not shown) for supporting seat 12. Such ribs could be radially or circularly oriented, including as illustrated with respect to ribs 28 and 30 of stool seat 12. Support body 60 also has vertical holes 76 aligned with screw holes 48 of seat 12.
Seat post 16 is dimensioned for insertion into post support mount 26. Seat post 16 has an exterior surface 80 and one or more attachment holes 82 corresponding to holes 36 and holes 64. Surface 80 has mounting surfaces 84 around holes 82. Post 16 may have any suitable cross-sectional shape including circular and non-circular including square.
Seating device 10 and its assembly will now be discussed as a whole, including as shown in
Fastener 90 is inserted through each of these holes 36, 64 and 82. Preferably, holes 36, 64 and 82 are provided as one or two opposed pairs so that a single fastener passes through a pair of holes 36, 64 and 82 as illustrated.
Seating device 10 once fully assembled provides improved support and durability compared to prior stools. In particular, support member 14 contacts underside 24 of seat 12 proximal to rim 20 to provide support to seat 12. More specifically, upwardly extending rim 72 contacts underside 24 at radial ribs 30. Alternatively, support member 14 could be dished more such that rim 72 need not be upwardly extending. In another alternative, rib 58 could be located inwardly and proximal to support the periphery and contact underside 24. As will be explained, the various mounting surfaces transfer the weight supported by support member 14 to post 16. Fastener 90 urges or clamps one or two mounting surfaces 84 of support member 14 against one or two mounting surfaces 46 thereby creating frictional engagement between these surfaces and transferring the weight supported by support member 14 to post support mount 26. In turn, fastener 90 urges or clamps one or two mounting surfaces 42 of post support mount 26 against one or two mounting surfaces 84 of post 16 thereby creating frictional engagement between these surfaces and transferring the weight supported by post support mount 26 to post 16.
As previously described, some of the load from a person or occupant located on seat 12 is transferred to support member 14 to post 16 through support mount 26. Preferably, seat post 16 also directly or indirectly contacts underside 24 of seat 12 thereby transferring some of a stool occupant's weight from seat 12 to post 16 without passing through post support mount 26. For example, stool 10 may have a metal spacer 96 shown in
In addition to providing support, support member 14 covers underside 24 of seat 12 providing a cleaner look. Support 14 also provides customization options because seat 12 and support member 14 can be the same or different color to better match a purchaser's preference or school colors.
Additionally, recessed surfaces 70 of brace structure 56 permit fastener 90 to be recessed making it more difficult for vandals and pranksters without a socket wrench to loosen fastener 90.
Seat 12 and support member 14 are typically made of a suitable plastic including ABS. They may be made by any suitable molding technique including injection molding. Seat post 16 is typically made of a suitable metal such as steel tubing.
Turning to
Stool 110 has as major components a stool seat 112, a support member 114 (which may be referred to herein as a support) and a seat post 116. Seat 112 has a brace structure 156 while support member 114 has post support mount 126 that accepts post 180 therein. Brace structure 156 has mounting surfaces 167 while post support mount 126 has mounting surfaces 142. Post 116 has mounting surfaces 184. Brace structure 156 is urged against post support mount 126, which is urged against seat post 116 by a fastener 190 (illustrated as a nut 192 and a bolt 194). Fastener 190 matingly engages mounting surfaces 167 to mounting surfaces 142 and mounting surfaces 142 to mounting surfaces 184. Suitable access ports (not shown) may be provided to allow easy insertion of fastener 190 and assembly.
Turning to
Stool 210 has as major components a stool seat 212, a support member 214 (which may be referred herein as a support) and a seat post 216. Seat 212 has a post support mount 226 while support member 214 has a brace structure 256. Brace structure 256 has mounting surfaces 267 while post support mount 226 has mounting surfaces 242. Post 216 has internal mounting surfaces 284a and external surface mounting surfaces 284b. Brace structure 256 is urged against post 216 by fastener 290 (illustrated as a nut 292 and a bolt 294). Post support mount 226 is inserted into post 216 and is secured by fastener 290. Fastener 290 matingly engages mounting surfaces 267 to mounting surfaces 284b. Mounting surfaces 242 are matingly engaged with mounting surfaces 284a by any suitable structure including making post support mount 226 a tight fit in post 216.
Turning to
While the invention has been described with respect to certain embodiments, as will be appreciated by those skilled in the art, it is to be understood that the invention is capable of numerous changes, modifications and rearrangements, and such changes, modifications and rearrangements are intended to be covered by the following claims.
Number | Name | Date | Kind |
---|---|---|---|
6065802 | Bue | May 2000 | A |
6386628 | Bue | May 2002 | B2 |
7393049 | Chase | Jul 2008 | B2 |
7758113 | Hanusiak | Jul 2010 | B2 |
8181583 | Rivera, Jr. et al. | May 2012 | B2 |
8182032 | Dickey | May 2012 | B2 |
8205937 | Rivera, Jr. et al. | Jun 2012 | B2 |
8479667 | Rivera, Jr. et al. | Jul 2013 | B2 |
8820826 | Dickey | Sep 2014 | B2 |
9101218 | Bradley | Aug 2015 | B2 |
D763029 | Dickey | Aug 2016 | S |
10039382 | Dickey | Aug 2018 | B2 |
20110057483 | Dickey | Mar 2011 | A1 |
20130313868 | Dickey | Nov 2013 | A1 |
20160302576 | Dickey | Oct 2016 | A1 |
Number | Date | Country | |
---|---|---|---|
20190098999 A1 | Apr 2019 | US |