FIELD OF THE INVENTION
[0001] The invention relates to an office chair with an improved chair back and more particularly,
to a chair back with a peripheral frame and a suspension fabric secured thereto.
BACKGROUND OF THE INVENTION
[0002] Preferably, conventional office chairs are designed to provide significant levels
of comfort and adjustability. Such chairs typically include a base which supports
tilt control assembly to which a seat assembly and back assembly are movably interconnected.
The tilt control mechanism includes a back upright which extends rearwardly and upwardly
and supports the back assembly rearwardly adjacent to the seat assembly. The tilt
control mechanism serves to interconnect the seat and back assembly so that they may
tilt rearwardly together in response to movements by the chair occupant and possibly
to permit limited forward tilting of the seat and back. Further, such chairs typically
permit the back to also move relative to the seat during such rearward tilting.
[0003] The back assembly of such office chairs may have a variety of constructions wherein
one type of construction includes an annular back frame which defines an open interior
in which the chair occupant's back is supported. This central open area is enclosed
by a suspension mesh which spans the opening and has the outer peripheral edge thereof
affixed to the annular frame. An example is disclosed in the publication
WO 03/032780.
[0004] The back frame further has a section thereof rigidly connected to an upright of the
chair. The upright is connected to a tilt control mechanism, which mechanism supports
the seat assembly and governs rearward tilting of the upright. As such, the back assembly
moves in combination with the upright when the occupant reclines within the chair.
[0005] It is an object of the invention to provide an office chair having a chair back arrangement
which is improved relative to prior chair back constructions.
[0006] Therefore, the invention relates to an office chair and more particularly, to the
construction of a chair back assembly and the mounting of this chair back assembly
to an upright.
[0007] The back assembly comprises an annular frame having a suspension fabric which spans
the central opening of the back and has the periphery of the suspension fabric connected
to the frame. Preferably, the suspension fabric comprises a single layer of suspension
material which connects to the frame by a plastic spline that is press fitted into
an annular spline channel formed about the periphery of the back frame.
[0008] The back frame is defined by side frame rails, which extend vertically, and transverse
cross rails, which extend horizontally between the side rails at the top and bottom
thereof. The back frame has a contoured shape wherein the side frame rails curve rearwardly
and outwardly in the side-to-side direction, while the cross rails also curve in the
front-to-back direction to provide a contoured shape for the back frame that comfortably
conforms to the chair back of the chair occupant.
[0009] To form the spline channel, the back frame is constructed of molded front and back
ring sections which are grooved about their respective peripheries to define front
and rear channel portions. The front channel portion defines the front wall of the
spline channel while the rear channel portion defines the rear channel wall. The front
and rear ring sections overlie each other in opposing relation and are rigidly secured
together by suitable fastening means such as ultrasonic welding, adhesives or even
threaded fasteners. When the two frame sections are rigidly joined together, the grooved
portions align with each other and define the spline channel. In this manner, complex
contours may be formed in a molded back frame while still permitting the formation
of a spline channel about the periphery thereof.
[0010] Once the frame is assembled, the suspension fabric is fastened to the frame by a
spline which is press fitted into the spline channel and traps the edge portions of
the suspension fabric within this channel.
[0011] The back frame also has an upright frame column which extends into the central opening
of the chair and terminates at its upper end in transverse support arms which extend
outwardly and are rigidly affixed to the middle of the side frame members to thereby
provide further support to the back frame. The lower end of the support column rigidly
joins to the upright while the remainder of the support column has a vertically elongate
slot which separates the support column into left and right halves. Since the back
frame flexes during use as a result of loads applied thereto when the occupant leans
against the back assembly, this separation slot provides for increased independent
movement of the upper corners of the chair back relative to the other.
[0012] The lower end of the support column also includes an improved bayonet connection
which rigidly joins the back frame to the uprights.
[0013] In particular, the uprights are formed as independent arms which are each independently
connected to the tilt control mechanism and move together in unison. The rearmost
ends of the uprights are disposed adjacent to each other and define a connector hub
with an upward opening socket into which the bayonet connector is slidably inserted.
Each upright defines one-half of the socket and includes ribs projecting into the
socket that are then slidably received within a corresponding tapered slot of the
bayonet connector wherein this connector slot of the bayonet connector serves to hold
the rear ends of the upright sidewardly together and prevent separation thereof. A
further fastener is provided vertically between the upright hub and the back frame
to draw these components vertically together such that the separate uprights are rigidly
held together by the bayonet connector and as such move together in unison.
[0014] The foregoing features provide an improved back frame arrangement, wherein other
objects and purposes of the invention, and variations thereof, will be apparent upon
reading the following specification and inspecting the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
[0015] Figure 1 is a front elevational view of an office chair having an inventive back
assembly arrangement.
[0016] Figure 2 is a side elevational view of the office chair.
[0017] Figure 3 is a rear isometric view thereof.
[0018] Figure 4 is a front isometric view thereof.
[0019] Figure 5 is a side view of a back assembly.
[0020] Figure 6 is a front view thereof.
[0021] Figure 7 is an exploded isometric view of the back assembly with a fastener for mounting
the back frame on the tilt control mechanism of the chair.
[0022] Figure 8 is an enlarged exploded view of the mounting section of the back frame.
[0023] Figure 9 is an exploded isometric view of the back components forming the back assembly.
[0024] Figure 10 is a side cross-sectional view of the back assembly as taken along the
centerline of the back assembly.
[0025] Figure 11 is a rear view of the back frame.
[0026] Figure 12 is a front view of the back frame.
[0027] Figure 13 is a diagrammatic view illustrating the manufacture of sheets of suspension
fabric from a stock material.
[0028] Figure 14 is a top cross-sectional view of a side frame member as taken along line
14-14 of Figure 6.
[0029] Figure 15 is a side cross-sectional view of the top frame member as taken along line
15-15 of Figure 6.
[0030] Figure 16 is a side cross-sectional view of the bottom frame member as taken along
line 16-16 of Figure 6.
[0031] Figure 17 is a front view of a cushion adapted for mounting to the back assembly
over the suspension fabric.
[0032] Figure 18 is an exploded isometric view of the cushion components.
[0033] Figure 19 is an enlarged side cross-sectional view of the bottom frame member with
a bayonet connection along with a pelvic support member mounted to the bottom frame
member.
[0034] Figure 20 is an enlarged, partial front view of the back frame.
[0035] Figure 21 is a rear view of the pelvic support.
[0036] Figure 22 is a side view of the pelvic support.
[0037] Figure 23 is a side cross-sectional view of the pelvic support.
[0038] Figure 24 is an enlarged partial isometric view of the back assembly, seat assembly
and tilt control mechanism.
[0039] Figure 25 is an enlarged rear view of the bayonet connector.
[0040] Figure 26 is an enlarged side view of the bayonet connector.
[0041] Figure 27 is a top cross-sectional view of the bayonet connector as taken along line
27-27 of Figure 26.
[0042] Figure 28 is a top cross-sectional view of the bayonet connector as taken along line
28-28 of Figure 26.
[0043] Figure 29 is an interior side view of a support upright.
[0044] Figure 30 is a front view of the upright.
[0045] Figure 31 is a top cross-sectional view of a hub section of the upright as taken
along line 31-31 of Figure 29.
[0046] Figure 32 is a top cross-sectional view of the hub section as taken along line 32-32
of Figure 29.
[0047] Figure 33 is a top cross-sectional view of the bayonet connector seated within a
socket defined by a hub of the uprights.
[0048] Figure 34 is an exploded isometric view of the second embodiment of a back assembly.
[0049] Figure 35 is a top cross-sectional view of the back frame of the second embodiment
of Figure 34.
[0050] Figure 36 is an isometric view of the suspension fabric assembly for covering the
back frame.
[0051] Figure 37 is a front view of a spline adapted for attachment to a suspension fabric
of Figure 36.
[0052] Figure 38 is a top view of a first spline section.
[0053] Figure 39 is a top view of a second spline section.
[0054] Certain terminology will be used in the following description for convenience and
reference only, and will not be limiting. For example, the words "upwardly", "downwardly",
"rightwardly" and "leftwardly" will refer to directions in the drawings to which reference
is made. The words "inwardly" and "outwardly" will refer to directions toward and
away from, respectively, the geometric center of the arrangement and designated parts
thereof. Said terminology will include the words specifically mentioned, derivatives
thereof, and words of similar import.
DETAILED DESCRIPTION
[0055] Referring to Figures 1-4, the invention generally relates to an office chair 10 which
includes various inventive features therein which accommodate the different physical
characteristics and comfort preferences of a chair occupant and also improve the assembly
of the chair 10.
[0056] Generally, this chair 10 includes improved height-adjustable arm assemblies 12 which
are readily adjustable. The structure of each arm assembly 12 is disclosed in
U.S. Provisional Patent Application Serial No. 60/657 632, filed March 1, 2005, entitled ARM ASSEMBLY FOR A CHAIR, which is owned by Haworth, Inc., the common assignee
of this present invention. The disclosure of this patent application is incorporated
herein in its entirety by reference.
[0057] The chair 10 is supported on a base 13 having radiating legs 14 which are supported
on the floor by casters 15. The base 12 further includes an upright pedestal 16 which
projects vertically and supports a tilt control mechanism 18 on the upper end thereof.
The pedestal 16 has a pneumatic cylinder therein which permits adjustment of the height
or elevation of the tilt control mechanism 18 relative to a floor.
[0058] The tilt control mechanism 18 includes a control body 19 on which a pair of generally
L-shaped uprights 20 are pivotally supported by their front ends. The uprights 19
converge rearwardly together to define a connector hub 22 on which is supported the
back frame 23 of a back assembly 24. The structure of this tilt control mechanism
is disclosed in
U.S. Provisional Patent Application Serial Nos. 60/657 541, filed March 1, 2005 and
60/689 723, filed June 10, 2005, both entitled TILT CONTROL MECHANISM FOR A CHAIR, and
U.S. Provisional Patent Application Serial No. 60/657 524, filed March 1, 2005, entitled TENSION ADJUSTMENT MECHANISM FOR A CHAIR, which applications are owned
by Haworth, Inc.
[0059] The back assembly has a suspension fabric 25 supported about its periphery on the
corresponding periphery of the frame 23 to define a suspension surface 26 against
which the back of a chair occupant is supported.
[0060] To provide additional support to the occupant, the back assembly 24 also includes
a lumbar support assembly 28 which is configured to support the lumbar region of the
occupant's back and is adjustable to improve the comfort of this support. The structure
of this lumbar support assembly 28 and pelvic support structure is disclosed in
U.S. Provisional Patent Application Serial No. 60/657 312, filed March 1, 2005, entitled. CHAIR BACK WITH LUMBAR AND PELVIC SUPPORTS, which is also owned by Haworth,
Inc.
[0061] Additionally, the chair 10 includes a seat assembly 30 that defines an upward facing
support surface 31 on which the seat of the occupant is supported.
[0062] More particularly as to the back assembly 24, the back assembly 24 is generally illustrated
in Figures 5-7. The back frame 23 comprises a pair of vertical side frame rails 35,
a top frame rail 36, and a bottom frame rail 37 which are joined together at the upper
corners 38 of the back assembly 24 as well as the lower corners 39 to define an annular
or endless frame having a central opening 40.
[0063] As can be seen in Figures 5-7, the back frame 23 has a contoured shape which ergonomically
supports the back of the user. In particular, the side rails 35 curve backwardly as
seen in Figures 5 and 7 as well as outwardly (Figure 6) relative to the bottom portions
of the side rails 35. Further, the top rail 36 and bottom rail 37 each have a respective
curvature to closely conform to the curvature of a typical chair occupant.
[0064] To support the occupant, the back assembly 24 includes the suspension fabric 25 which
is secured taughtly on the frame. Specifically, the back frame 23 includes a peripheral
spline channel 42, in which is fixed the peripheral edge of the suspension fabric
25 as will be discussed in further detail herein.
[0065] The back frame 23 also generally includes a support structure 43 to which the side
rails 35 and bottom rail 37 are rigidly interconnected. This support structure 43
comprises an upright support column 44 which extends along the chair centerline 41
(Figure 7) to an elevation located just below the middle of the side rails 35. The
upper end of the support column 44 includes a pair of support arms 45 which extend
sidewardly and have each respective outer end connected rigidly to one of the side
rails 35.
[0066] The lower end of the support column 43 includes a generally L-shaped connector flange
46 (Figures 5 and 7) which projects forwardly and then downwardly into fixed engagement
with the lower cross rail 37. Still further, this lower column end includes a bayonet
connector 49 which projects downwardly for rigid connection to the uprights 20 by
fastener bolt 50 and nut 51 as will be described in further detail hereinafter.
[0067] Referring more particularly to the components of the back assembly 24, Figure 9 illustrates
these components in an exploded view thereof. In particular, the frame 23 comprises
a molded rear frame unit 55 that includes the support structure 44 described above
as well as a rear frame ring 56 which is supported on the support arms 45 of the support
structure 44. The back frame 24 further includes a molded front frame ring 57 which
is adapted to be mounted to the rear frame ring 56 in overlying relation to define
the spline channel 42 about the periphery thereof. Further, the back assembly 24 includes
the above-described suspension fabric 25 and an elastomeric spline 58.
[0068] Referring to Figures 11 and 12, the rear frame unit 55 comprises the support structure
43 and the rear frame ring 56. Both the support structure 43 and the rear frame ring
56 are molded simultaneously together in a one-piece monolithic construction having
the contoured shape described above. To facilitate molding of this contoured shape
while still possessing the spline channel 42 mentioned above, the rear frame ring
56 and front frame ring 57 are molded separate from each other and then affixed together.
[0069] Turning to the support structure 43, the support column 44 thereof is located centrally
within the lower half of the central frame opening 40. The support column 44 has a
base end 59 and a pair of column halves 60 and 61 which are separated from each other
by a vertically elongate column slot 62. The column 44 therefore is formed as a split
column by the slot 62 which extends along a substantial portion of the length of the
column 44 with the column halves 60 and 61 being joined together by the solid base
section 59. As such, the column halves 60 and 61 are supported in cantilevered relation
by the base section 59. The rear frame unit 55 and front frame ring 57 are formed
from a glass filled nylon material that is molded into the desired shapes wherein
this material has limited flexure so as to permit flexing of the various areas of
the frame when placed under load by a chair occupant. Since the column halves 60 and
61 are separated from each other by the slot 62, these column halves 60 and 61 may
articulate independently of each other to facilitate flexing and movement of the various
frame corners 38 and 39.
[0070] The upper ends of the frame halves 60 and 61 join integrally to the transverse arms
45. The outer ends of the arms 45 extend outwardly and are molded integral with the
vertical sides of the rear frame ring 56. As seen in Figure 12, the inside faces of
the column halves 60 and 61 and the support arms 45 have an appropriate pattern of
ribbing 64 to selectively rigidify the support structure 43 while still permitting
flexure thereof.
[0071] In the column base 59, this column base 59 terminates at a bottom wall 65 (Figures
9, 10 and 12), which is formed with a bore 66 extending vertically therethrough. The
bottom wall 65 further is formed integral with the bayonet connector 49 wherein the
bore 66 extends vertically through this bottom wall 65 and the bayonet 49 as seen
in Figure 10. When joining the back frame 23 to the chair uprights 20, the fastener
50 extends upwardly from the uprights 20 as will be described in further detail herein
and extends through the fastener bore 66 so that it projects vertically above the
bottom column wall 65. The upper end of the fastener 50 is engaged by the threaded
nut 51 as seen in Figure 10 to thereby secure the back frame 23 to the uprights 20.
This interconnection between these components will be described in further detail
hereinafter.
[0072] Further as to the bottom wall 65, this wall extends forwardly to define a horizontal
leg 68 of the L-shaped flange 46, which flange 46 then turns downwardly to define
a vertical leg 69 (Figures 5, 7 and 10). The bottom column section 59 serves to rigidly
support the bottom cross rail 37 of the back frame 23. As such, the bottom frame rail
37 is more rigidly supported and has less relative movement under occupant loads than
the middle frame areas supported by the support arms 45 or even the upper frame corners
38 which have the greatest amount of displaceability. In this manner, the rear frame
unit 55 provides for controlled flexing of the entire back frame 23.
[0073] Referring to Figures 11 and 12, the rear frame ring 56 comprises top and bottom ring
sections 71 and 72 and left and right ring sections 73 which extend vertically. As
seen in Figure 14, each side ring section 73 includes raised connector ribs 74 and
75 as well as an additional rib 76 which defines the inside end of the spline channel
42 and is also located directly adjacent to a spline groove 77 that is adapted to
accommodate the thickness of the spline 58. The outer edge of the ring side section
73 includes a thinner portion 78 and essentially defines the rear side portion of
the spline channel 42.
[0074] As to the horizontal rail section 71, this rail section 71 includes an interior rib
80, a channel rib 81 and an intermediate connector face 82. Adjacent to the channel
rib 81, a spline groove 83 is provided to accommodate the thickness of the spline
58 while the outer edge portion 73 continues across the top ring section 71.
[0075] Referring to Figures 16 and 20, the lower rail section 72 includes a spline channel
85 along its entire lateral width so as to accommodate the spline 58. Here again,
the outer edge portion 78 continues through this region to define the back portion
of the spline channel 42. In the middle of the lower ring section 72, a recessed pocket
87 is defined which opens upwardly and is located vertically adjacent to a locking
post 88, the function of which will be described in further detail hereinafter.
[0076] The pocket 87 is defined by side walls 89 which side walls 89 include notches 90
at the bottom end thereof directly adjacent to the spline groove 85. It is noted that
all of the spline grooves 77, 83 and 85 are arranged in end-to-end relation so as
to define a continuous groove for continuously accommodating the spline 58 therein.
Further, the channel ribs disposed directly adjacent to these spline grooves 77, 83
and 85 are formed continuously in end-to-end relation.
[0077] Turning next to the front frame ring 57, this frame ring 57 has a front face 92 which
faces forwardly and a rear face 93 which faces rearwardly towards the rear frame ring
56 and is adapted to abut thereagainst and be fixedly secured thereto. This frame
ring 57 is defined by vertical ring sections 94 and a top ring section 95 and a bottom
ring section 96.
[0078] As to the side ring sections 94 (Figure 14), these ring sections 94 include a rearwardly
projecting connector rib 98 and an interior edge portion 99 which are adapted to abut
against and be fixedly secured to the connector ribs 75 on the rear frame ring 56.
Preferably, the front and rear frame rings 57 and 56 respectively are joined together
by ultrasonic welding of these components with the faces disposed in contact being
welded together. The front ring sections 94 are molded with a channel rib 99 disposed
directly adjacent to a spline groove 100, which spline groove 100 is disposed in opposing
relation with the other spline groove 77 to define an enlarged interior portion in
which the spline 58 may be received. The outer edge portion 101 of the front ring
57 is disposed adjacent to but spaced apart from the other edge portion 78 to thereby
define the entry portion of the spline channel 42.
[0079] As to the top ring section 95 (Figure 15), this is formed similar in that it includes
a channel rib 102 and a spline groove 103 which is disposed directly adjacent to the
outer edge portion 101 to thereby form the spline channel 42 in cooperation with the
spline groove 83 and outer edge portion 78 of the rear frame ring 56. The outer edge
portion 101 of the front frame ring 57 furthermore extends downwardly along the other
vertical ring section 93 and then across the bottom ring section 96.
[0080] The bottom ring section 96 (Figure 16) is formed with a spline groove 105 extending
thereacross in alignment with the opposing rear spline groove 85. In this manner,
the rear frame ring 56 defines a rear portion of the spline groove 42 while the front
frame ring 57 defines a front portion thereof which said frame rings 56 and 57 when
disposed in opposing relation define the channel 42 so that it opens radially outwardly
and has an enlarged interior groove in which the spline 58 and associated fabric material
may be received in non-removable engagement. As best seen in Figure 14, the fabric
25 is wrapped around the spline 58 to essentially define a folded hem which folded
hem is then pressed into the spline channel 42 by an appropriate tool or tooling.
[0081] In this manner, the suspension fabric 25 is tightly fitted onto the back frame 23
so that the fabric material 25 is stretched taut as generally illustrated in Figure
10 and then angles away from the back frame 23 and spans the central frame opening
40.
[0082] The suspension fabric 25 is formed of any suitable suspension material which preferably
is elasto-meric and preferably has an open weave that provides for breathability.
Figure 13 generally illustrates the formation of the pieces of suspension fabric 25
wherein Figure 13 illustrates an initial stock material 110 from which is cut multiple
pieces of the suspension fabric 25. The suspension fabric 25 preferably is formed
as a single layer but may have multiple overlying layers and may also include cushioning
included therein.
[0083] In the office chair 10 of the invention, the chair 10 may be provided with a separate
cushioned pad 111 (Figures 17 and 18) that covers the suspension fabric 25. The pad
111 has an upper pocket 112 and a lower pocket 113 that are adapted to be pulled over
and fitted onto the back frame 23. The pad 111 is formed as a composite pad having
a rear fabric layer 114, an intermediate cushion 115 and a front fabric layer 116
which layers 114, 115 and 116 are all sewn together about their peripheral edges.
[0084] To define the upper pocket 112, upper and lower pocket walls 117 and 118 are provided
which are formed of a flexible fabric material and are sewn on three sides to the
adjacent peripheral edges of the composite pad 111. The pad 111 is installed by first
placing one of the pockets 112 or 113 over the associated horizontal edge of the back
frame 23 and then pulling the other pocket vertically and fitting this on the opposite
horizontal frame edge.
[0085] More particularly as to the frame mounting pocket 87 formed in the back frame ring
56, the front side of the pocket 87 is enclosed by the front frame ring 57. This pocket
87 is provided to support the lower end of a pelvic support unit or pusher 120 which
faces forwardly and is adapted to press against the rear pelvic region of a chair
occupant. Referring to Figures 21-23, the pelvic support 120 has an enlarged panel
or pad 121 that is supported on a cantilevered support arm 122. The lower end of the
support arm 122 has a plug portion 123 which is forked to define a pair of locking
legs 124. The distal ends of the legs 124 include nubs 125 that project sidewardly
or outwardly for engagement with the notches 90 formed in the pocket 87. Also the
plug portion 123 includes a locking recess 126 which opens rearwardly and essentially
is defined by a blind bore.
[0086] When the front and rear frame rings 56 and 57 are fixed together such as by welding,
the support pocket 87 still opens upwardly from between the interface between these
two ring sections. This permits the plug portion 123 of the pelvic support 120 to
be plugged downwardly into the pocket 87. During this downward insertion, the connector
legs 124 deflect inwardly toward each other until the nubs 125 align with the corresponding
pocket notches and then return to their undeflected condition with the nubs 125 seated
in the notches 90.
[0087] Since the pelvic support 120 is formed of a resiliently deflectable material such
as plastic, the support arm 122 is able to be bent forwardly during insertion or even
for removal to permit the pocket post 88 to slide along the face of the pelvic support
120 until it aligns with the corresponding locking recess 126, after which the support
arm 122 returns to its undeflected condition with the post 88 seated within the recess
126. These cooperating components prevent unintentional vertical displacement of the
pelvic support 120. Since the resiliently deflectable suspension fabric 25 lies against
the front face 127 of the support panel 121, the fabric 25 tends to press the pelvic
support 120 rearwardly so that the stop post 88 is most effective in preventing removal
of the pelvic post 120. However, since the suspension fabric 25 also is stretchable,
the pelvic support 120 may still be bent forwardly to permit removal of same from
the support pocket 87.
[0088] Turning to the connection of the back assembly 24 to the tilt control mechanism 19,
this is accomplished through the bayonet connector 49 referenced above. The tilt control
mechanism 19 has two separate uprights 20 which project rearwardly from opposite sides
of the chair and have their upper ends aligned in side by side relation to define
the aforementioned connector hub 22. The above-described central column of the back
assembly 24 fits into this hub 22 and rigidly holds the uprights 20 in aligned side
by side relation through use of the aforementioned bolt 50.
[0089] Referring to Figures 25-28, the bayonet connector 49 projects downwardly from a lower
surface 130 of the column base 59. As seen in Figure 25, the downwardly projecting
bayonet connector 49 has the fastener bore 66 extending through the vertical length
thereof. The lateral sides 131 of the bayonet connector 49 have a shallow taper wherein
the sides 131 converge inwardly downwardly. In the middle of the bayonet back face
132, a vertically elongate slot 133 is provided along the entire length of the bayonet
connector 49. This slot 133 has a bottom opening 134 and convergent slot edges 135
which taper inwardly upwardly.
[0090] Referring to Figure 26, the bayonet front face 136 also is tapered relative to the
back face 132 although the taper of the back face 132 is shallower than the taper
of the front face 136. Hence, the bayonet 49 is tapered in both the front to back
plane and the side to side plane. The lowermost corners of this front face 136 are
provided with reliefs or cutouts 137.
[0091] Figures 27 and 28 are cross-sectional views as taken through the bayonet connector
49. As can be seen, the central bore 66 extends vertically therethrough. The front
face 136 faces forwardly and has facets that curve generally sidewardly until terminating
in the reliefs 137 in the bottom area thereof.
[0092] In the center portion of the front face 136, a front groove 138 is provided between
a pair of protuberances 139. When comparing Figures 27 and 28, the groove 138 is deeper
near the top of the bayonet connector 49 as seen in Figure 27 and is shallower at
the lower end (Figure 28). The protuberances 139 also decrease in height when comparing
the top end (Figure 27) and the lower end (Figure 28).
[0093] As to the slot 133, this slot 133 is shallower at the lower end (Figure 28) as compared
to the upper end (Figure 27). This slot 133 as well as the groove 138 tend to draw
the upper ends of the uprights 20 sidewardly together and hold these ends in side
by side relation. At the same time, the tapered side faces 131 and the tapered front
and back faces 132 and 136 facilitate a snug fit when these components are drawn together
by the bolt 50.
[0094] More particularly as to the upright 20, Figures 29 and 30 illustrate a left side
upright 20. The opposite right side upright 20 is formed substantially as a mirror
image relative to the upright of Figures 29 and 30 and hence, a detailed discussion
thereof is not required.
[0095] More particularly, the front end of the upright 20 includes a hexagonal hole 141
which fits onto the end of a pivot shaft disposed within the tilt control housing
19. The opposite upright 20 also mounts onto the opposite end of this pivot shaft
so that both of the uprights 20 pivot downwardly in unison during rotation of the
shaft.
[0096] The intermediate section of each upright 20 includes a seat mount 142 on which the
back end of the seat assembly 30 is supported.
[0097] Most importantly, at the back end of the upright 20, a hub section 143 is provided
which defines one-half of the hub 22 mentioned above. The hub section 143 includes
a chamber 144 that has an open upper end 145 and an open inner side 146. On the left
side upright 20 illustrated in Figures 29 and 30, a locator knob 145 projects sidewardly
from the inside face 146 of the hub section 143. With respect to the right side upright
20, this locator knob 145 is instead replaced with a shallow locator bore in which
the knob 145 is received in tight-fitting engagement. The illustration of the inside
face of this right side upright 20 is identical to Figure 29 except it is a mirror
image thereof wherein the illustrated knob 145 of Figure 29 would in fact be a circular
recess.
[0098] Referring to Figures 31 and 32, the shape of the socket section 144 has an interior
profile as illustrated in Figures 31 and 32 which is substantially a negative image
of the exterior profile of the bayonet connector 49 illustrated in Figures 27 and
28.
[0099] More particularly, the socket section 144 has a bottom wall 150 that has one-half
of a bore 151 formed therein adjacent to the inside hub face 147. When two hub sections
143 are joined side by side, the bore sections 151 align sidewardly adjacent to each
other to define a circular bore through which the bolt 50 passes. These bore sections
151 open downwardly adjacent to a bottom wall face 152 against which the head 153
of the bolt 50 abuts as illustrated in Figure 19.
[0100] The socket sections 144 also each include a socket side face 155 which tapers upwardly
outwardly, and a back face 156 which also tapers upwardly outwardly. The front socket
face 157 has a curved profile and tapers upwardly outwardly with a more pronounced
taper as compared to the back face 156. This front face then curves to define a projection
158 that is progressively thicker in the upward direction as seen in Figures 32 and
31. Further, the back face 156 terminates at a central rib section 160.
[0101] Referring to Figure 33, when the two hub sections 143 are joined side by side to
each other the two socket sections 144 are aligned sidewardly in registry to define
an upward opening socket 162 of the hub 22, and the rib sections 160 essentially define
a vertically elongate rib 161. This rib 161 slidably fits within the corresponding
slot 133 of the bayonet connector 49. Since the slot 133 is tapered, this draws the
rib sections 160 sidewardly together and prevents any sideward displacement of the
hub sections 143 away from each other once the back assembly 24 is installed within
the hub 22. Similarly, the projections 158 define a shallow rib 164 which fit into
the groove 138 to further assist in drawing these hub sections 143 sidewardly together.
[0102] The tapered shape of the bayonet connector 49 and the corresponding socket 162 provides
for a snug fit between the opposing faces of these components. It will be understood
that Figure 33 includes some clearance space between these spaces for diagrammatic
purposes to assist in the illustration thereof but that the spacing between such surfaces
is much closer in practice to prevent any undesirable looseness in the back assembly
24. Referring to Figure 19, the hub 22 is generally depicted by the bottom wall 150
thereof. During assembly, the bayonet connector 49 is fitted into the socket 162 of
the hub 22 and then these components are drawn tightly together by insertion of the
bolt 50 through the bore 66 and then the nut 51 is threaded thereon to place these
components in compression. A Bellville washer 165 or other resilient or mechanical
locking means may be provided to prevent any loosening of the bolt 50 and nut 51.
[0103] As an additional feature of this connector arrangement, this arrangement also may
be used to secure the lumbar assembly 28 in place. Referring to Figure 10, this lumbar
assembly 28 may include an upright support bracket 170 having a bottom bracket wall
171. As seen in Figure 19, this bottom bracket wall 171 includes a rearward opening
slot 172 to permit the bracket 170 to be slid around or straddle the bolt 50 wherein
the nut 51 then presses directly downwardly on this bracket wall 171 to secure the
lumbar assembly 128 in place. Alternatively, as generally depicted in Figure 7, this
lumbar assembly 28 also need not be provided wherein the nut 51 would be positioned
directly onto the upper face of the column wall 65.
[0104] Hence, the bayonet connection 49 not only serves to join the bayonet connector 49
to the hub 22, but also serves as the connector arrangement for the lumbar assembly
28 which optionally may be installed on this chair 10.
[0105] With respect to the above-described chair 10, the back frame 24 is assembled by first
joining the rear frame ring 56 to the front frame ring 57 by ultrasonic welding. Thereafter,
the suspension fabric 25 is resiliently stretched over the back frame 23 with the
peripheral edges of the fabric 25 being affixed into the spline groove 42 by the spline
58. If desired, the pelvic support 120 may be plugged into the appropriate pocket
87 formed in the bottom frame rail 37.
[0106] Thereafter, to mount the back assembly 24 to the tilt control mechanism 19, the frame
bayonet connector 49 is plugged into the socket 162 of the hub 22. The appropriate
fastener 50 with its associated Bellville washer 165 are inserted upwardly through
the fastener bore 60 and then nut 51 is threaded on the upper end of the bolt 50.
If the lumbar assembly 28 is being provided, this would then be positioned by sliding
its bracket 170 onto the bolt 50 after which the nut 51 would then be tightened to
secure all of these components together. In this manner, the back assembly 24 is rigidly
connected to the uprights 20 and tilts rearwardly therewith.
[0107] As an alternative to the above described frame construction, Figures 34 and 35 illustrate
a multi-component back frame 180 which comprises a rear frame unit 181 and a front
frame ring 182. The rear frame unit 181 and front frame ring 182 are substantially
similar to the components described above and thus a detailed discussion of these
components is not believed to be required with the following discussion primarily
relating to additional modifications to this frame construction.
[0108] In this regard, these frame components 181 and 182 would include appropriate fastener
bores 183 such that the rear frame unit 181 and front frame ring 182 could be fastened
together by screws 184. Once these two frame sections 181 and 182 are joined together,
they essentially define a spline groove 185 in a manner substantially similar to that
described above. Thereafter, the back frame 180 also includes an elastomeric pad ring
190 which generally conforms to the shape of the front frame ring 182 but is formed
of a compressible material such as a spongy foam. Figure 35 illustrates in phantom
outline the initial cross-sectional profile of this pad ring 190 when secured to the
front frame ring 182.
[0109] The back frame 180 also includes a suspension fabric 191 that has a spline 192 sewn
to its periphery by threads 193 or other suitable fastening means. This spline 192
fits into the spline channel 185 to secure the suspension fabric 191 in place.
[0110] The suspension fabric 191 preferably is an elastomeric material which is tensioned
when installed. To facilitate tensioning of this suspension fabric 191, the pad ring
190 preferably is compressed as illustrated in solid outline in Figure 35 wherein
the compression of the pad 190 adds an additional outward biasing force to the suspension
fabric 191 to increase the tension therein. As an additional function, the pad ring
190 also overlies the screws 184 and hides these components from view.
[0111] Referring to Figure 35 as well as additional Figures 36-39, the spline 192 also has
an improved inventive construction. More particularly, the suspension fabric 191 comprises
an initial pattern of sheet material 195 formed of an elastomeric fabric cut to an
appropriate shape as seen in Figure 36. The spline itself comprises two U-shaped spline
sections 196 and 197. Initially as seen in Figures 38 and 39, these spline sections
196 and 197 are formed in a straight configuration with V-shaped cut-outs provided
therein. In particular, these V-shaped cut-outs facilitate bending of the spline sections
196 and 197.
[0112] Referring to Figure 35, it is noted that the spline section has a relatively wide
cross-sectional shape defined by a bulbous end portion 200 and an interior edge 201.
One side of the spline section 196 includes slide ribs 202 while the opposite side
includes a locking rib 203 thereon. This locking rib 203 projects outwardly and inwardly
into the groove to tightly squeeze the material of the suspension fabric against the
interior side wall of the spline groove 185.
[0113] Because of this wide shape, it is necessary to provide the patterns of cut-outs to
facilitate bending of this wide plastic spline piece. More particularly, each of the
spline sections 196 and 197 as illustrated in Figures 38 and 39 include first and
second groups of V-shaped cut-outs 205, 206, 207 and 208 which correspond to the corners
of the back frame, as well as additional individual cut-outs 209. The patterns of
cut-outs at the corners 205, 206, 207 and 208 provide for a significant amount of
bending while the additional individual cut-outs 209 are only needed to provide gentle
curvature.
[0114] As seen in Figures 36 and 37 the splines 196 and 197 initially have the cut-outs
facing outwardly after which the spline sections 196 and 197 are sewn directly onto
the fabric material 195 by the threads 193. These threads 193 pierce directly through
the fabric material as well as the plastic of the spline sections 196 and 197.
[0115] To effect insertion of the spline 192 into the spline groove 185, the spline sections
196 and 197 are then flipped or folded inwardly wherein the edge 201 initially starts
at the outside of the fabric 195 as seen in Figure 36 and then is folded inwardly
so that it is seated within the inner end of the spline groove 185. The various cut-outs
therefore first serve to permit bending to the shape illustrated in Figures 36 and
37 wherein the cut-outs are located along the outer edge and then are flipped inwardly
and permits a reverse bend in the spline sections 196 and 197 with the cut-outs now
being located on the inside end of the spline groove 185. In this manner, the spline
192 is installed by folding the spline inwardly and inserting same into the peripheral
spline groove 185 formed in the back frame 180.
[0116] Although particular preferred embodiments of the invention have been disclosed in
detail for illustrative purposes, it will be recognized that variations or modifications
of the disclosed apparatus, including the rearrangement of parts, lie within the scope
of the present invention, as defined by the claims.
1. Stuhl, der Folgendes umfasst: eine Sitzbaugruppe (30) mit einem Sitzrahmen, einer
Rückenlehnenbaugruppe (24), die hinten neben der genannten Sitzbaugruppe (30) gelagert
ist und einen peripheren Rückenlehnenrahmen (23) aufweist, der über dem Sitzrahmen
(30) vorsteht und eine Ringform mit einer Innenperipherie und einer Außenperipherie
hat und einen von der genannten Innenperipherie begrenzten offenen Bereich (40) definiert,
wobei die Rückenlehnenbaugruppe ferner ein Bespannungsgewebe (25) aufweist, das über
dem offenen Bereich liegt und mit seiner Peripherie an der Außenperipherie des Rückenlehnenrahmens
befestigt ist, dadurch gekennzeichnet, dass der Rückenlehnenrahmen (23) vordere und hintere Rückenlehnenrahmensektionen (57,
55) mit hinteren und vorderen Innenflächen umfasst, die in voneinander abgewandter
Beziehung an ihrer Grenzfläche übereinander passen und aneinander befestigt sind,
und dadurch, dass ein peripherer Kanal (42) in der Außenperipherie zwischen der vorderen
und hinteren Rahmensektion an der Grenzfläche dazwischen definiert wird, der radial
zur Seite des genannten Rückenlehnenrahmens nach außen öffnet, um die Peripherie des
Bespannungsgewebes (25) in einem straffen Zustand über eine vordere Außenfläche des
Rückenlehnenrahmens verlaufend aufzunehmen.
2. Stuhl nach Anspruch 1, dadurch gekennzeichnet, dass die genannte vordere und hintere Rahmensektion konturierte Formrahmen mit einer solchen
Kontur sind, dass die genannten gegenüberliegenden Innenflächen der genannten vorderen
und hinteren Rahmensektion (57, 55) eine dreidimensionale Form haben, so dass jede
der genannten Innenflächen gekrümmt ist.
3. Stuhl nach Anspruch 1 oder 2, dadurch gekennzeichnet, dass die genannten Innenflächen in ständigem Kontakt miteinander um die Peripherie des
genannten Rückenlehnenrahmens (23) aneinander anliegen.
4. Stuhl nach einem der vorherigen Ansprüche, wobei das genannte Gewebe (25) kontinuierlich
um seine Peripherie an der entsprechenden peripheren Kante des genannten Rückenlehnenrahmens
befestigt ist.
5. Stuhl nach einem der vorherigen Ansprüche, wobei das genannte Bespannungsgewebe (25)
in einen straffen Zustand gespannt wird, wenn die genannte Peripherie des genannten
Gewebes an den genannten Rückenlehnenrahmen angefügt wird.
6. Stuhl nach einem der vorherigen Ansprüche, dadurch gekennzeichnet, dass der genannte Rückenlehnenrahmen (23) auf der genannten Sitzbaugruppe (30) durch eine
Säulenstruktur (43) gelagert ist, die eine aufrechte Tragsäule (44) umfasst, deren
unteres Ende mit einem Basisverbinder an die genannte Sitzbaugruppe angefügt ist,
so dass die genannte Tragsäule in einer freitragenden Beziehung mit Bezug auf die
genannte Sitzbaugruppe (30) gelagert ist, wobei ein oberer Endabschnitt der genannten
Tragsäule transversale Säulenarme (45) aufweist, die sich seitlich von der genannten
Tragsäule (44) erstrecken und äußere Seitenenden aufweisen, die an den genannten Rückenlehnenrahmen
(23) zwischen der Ober- und Unterkante des genannten Rückenlehnenrahmens angefügt
sind, wobei die genannte Tragsäule (44) getrennte linke und rechte Säulenhälften (60,
61) hat, die jeweils einen jeweiligen einen der genannten transversalen Arme (45)
darauf tragen, so dass die genannten Säulenhälften und die genannten Arme getrennt
voneinander am oberen Endabschnitt der genannten Tragsäule (44) beweglich sind, während
die genannten Säulenhälften (60, 61) am unteren Ende der genannten Tragsäule in der
Nähe des genannten Basisverbinders aneinander gefügt sind, wobei die genannten Säulenhälften
eine Trennbewegung des genannten Rückenlehnenrahmens auf der linken und rechten Seite
davon zulassen.
7. Stuhl nach einem der vorherigen Ansprüche, dadurch gekennzeichnet, dass der genannte Rückenlehnenrahmen mit einem Basisverbinder an die genannte Sitzbaugruppe
gefügt ist, wobei der genannte Basisverbinder ein Bajonettverbinder (49) ist, der
nach unten vorsteht und eine sich in Abwärtsrichtung einwärts verjüngende konische
Form hat; und
die genannte Sitzbaugruppe einen Pfosten mit einem an die genannte Sitzbaugruppe gefügten
vorderen Ende und einem nach hinten verlaufenden und an den genannten Bajonettverbinder
des genannten Rückenlehnenrahmens gefügten hinteren Ende umfasst, wobei der genannte
Pfosten separate Rahmensektionen auf gegenüberliegenden Seiten des genannten Stuhls
umfasst, die jeweils vordere Enden haben, die an die genannte Sitzbaugruppe gefügt
sind, und jeweilige hintere Enden, die zueinander hin konvergieren und aneinander
anliegen und so eine Verbindernabe definieren, wobei die genannte Verbindernabe eine
nach oben öffnende Fassung aufweist, in der der genannte Bajonettverbinder gleitend
aufgenommen und befestigt wird.
8. Stuhl nach Anspruch 1, dadurch gekennzeichnet, dass die genannte Peripherie des genannten Bespannungsgewebes in einem nicht entfernbaren
Eingriff mit dem genannten peripheren Kanal ist.