US20050168017A1 - Auditorium seating - Google Patents
Auditorium seating Download PDFInfo
- Publication number
- US20050168017A1 US20050168017A1 US11/094,310 US9431005A US2005168017A1 US 20050168017 A1 US20050168017 A1 US 20050168017A1 US 9431005 A US9431005 A US 9431005A US 2005168017 A1 US2005168017 A1 US 2005168017A1
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- US
- United States
- Prior art keywords
- upright
- swing arm
- seat
- cam
- arm
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
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Classifications
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47B—TABLES; DESKS; OFFICE FURNITURE; CABINETS; DRAWERS; GENERAL DETAILS OF FURNITURE
- A47B83/00—Combinations comprising two or more pieces of furniture of different kinds
- A47B83/02—Tables combined with seats
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47C—CHAIRS; SOFAS; BEDS
- A47C1/00—Chairs adapted for special purposes
- A47C1/12—Theatre, auditorium, or similar chairs
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47C—CHAIRS; SOFAS; BEDS
- A47C7/00—Parts, details, or accessories of chairs or stools
- A47C7/002—Chair or stool bases
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47C—CHAIRS; SOFAS; BEDS
- A47C9/00—Stools for specified purposes
- A47C9/02—Office stools not provided for in main groups A47C1/00, A47C3/00 or A47C7/00; Workshop stools
- A47C9/022—Office stools not provided for in main groups A47C1/00, A47C3/00 or A47C7/00; Workshop stools movably mounted on a working-table or the like
Definitions
- This invention relates to a seating apparatus for use in auditoriums, lecture halls, cafeterias, meeting rooms, and the like.
- Seating systems that provide seating with attached desks or work surfaces are often convenient for use in lecture halls, classrooms, meeting rooms, or similar facilities.
- Some existing seating systems of this type have desks or work surfaces supported above a floor by structural support elements.
- Seats are attached to the support elements by a pivot arm extending from the support element, so that the seat can be stowed under the desk when not in use.
- biasing means in these seating systems to bias the swing arm to the stowed position.
- the biasing means in known seating systems comprises a tension spring having one end fixed to the structural member, and the other end fixed at a point along the length of the arm.
- the tension springs can be difficult to install, and generally remain exposed so that they are prone to damage and/or premature wear.
- the angular position of the pivot arm relative to the structural member defining the stowed position is not adjustable once the seating system has been manufactured and assembled. Accordingly, due to variations in the manufacturing and assembly of the seating systems, adjacent seats in a row of seating may not have uniform stowed positions. In other words, some seats may be spaced away from the work surface when in the stowed position, while other seats may touch the work surface when in the stowed position. An excessive gap between the seat and the desk when in the stowed position can obstruct aisles between adjacent rows of seats. Having no space at all between the seat and the desk when in the stowed position can cause wear or damage to the seat and the desk. As well, seats having different spacings between the seats and the desk when in the stowed position can create an untidy appearance.
- uprights having a vertical lower portion and an inclined upper portion are generally used to support the work surface above the floor.
- the upper and lower portions of the uprights are typically constructed of square or rectangular steel channel, with a welded joint provided between the upper and lower portions. Accordingly, the uprights can be rather costly.
- a seating apparatus has a support element having an upright extending from a floor and a swing arm pivotably mounted to the upright about a generally vertical pivot axis.
- the seating apparatus is further provided with a work surface secured to the upright above the swing arm, and a seat mounted on the swing arm, the seat having a seat base upon which an occupant can be seated.
- the swing arm is pivotable between a stowed position wherein the seat base is tucked substantially underneath the work surface, and a deployed position wherein the seat base is substantially clear of the work surface.
- the seating apparatus is also provided with a flat coiled torsion spring for biasing the arm to the stowed position, the torsion spring having a first end fixed directly or indirectly to the upright and a second end fixed directly or indirectly to the swing arm.
- the flat coiled torsion spring can be of a thin strip of resilient metal coiled in a flat spiral about the pivot axis.
- the arm can be pivotable about a pivot joint having upper and lower brackets extending from the upright to vertically straddle an inner end of the arm, a bore provided in the straddled inner end of the arm, and a generally vertical pin supported by the brackets and extending through the bore of the arm, the arm being pivotable about the pin.
- the seating apparatus can be provided with a boss fixed to pivot with the arm, the boss extending axially between the arm and an adjacent one of the upper and lower brackets of the pivot joint.
- the pivot joint can include a bushing provided in the bore, the bushing having an outer surface sized to fit snugly within an inner surface of the bore, and an inner diameter sized to provide a sliding fit with the pin.
- the boss can extend from the bushing.
- the seating apparatus can further include anti-rotate means adjacent the bushing and the bore for preventing relative motion between the bushing and bore.
- the anti-rotate means can include an axial groove along the outer surface of the bushing and a radially inwardly directed key extending from the inner surface of the bore and engaging the groove of the bushing.
- the second end of the torsion spring can be fixed to the boss, and the first end of the torsion spring can be fixed to the adjacent one of the upper and lower brackets of the pivot joint.
- the adjacent one of the upper and lower brackets can have a generally vertical gusset with an exposed edge extending adjacent the boss.
- first end of the torsion spring comprises a radially outwardly extending hook that is hooked onto the exposed edge of the gusset.
- the boss can extend axially through the center of the torsion spring, and the second end of the torsion spring can have a tab directed radially inwardly, and the boss can have a transverse slot to engage the tab.
- the seating apparatus can further be provided with a swivel mechanism for swivelably supporting the seat above the swing arm, the swivel mechanism biasing the seat in a central direction.
- the swivel mechanism can have a sleeve fixed to an outer end of the swing arm, the sleeve having open upper and lower ends, a post rotatable within the sleeve, the post having an upper end for attachment to a seat, an upper cam fixed within the sleeve and a lower cam fixed to the post and slidable within the sleeve.
- the upper cam can be disposed between the lower cam and the upper end of the post, and the upper and lower cams can have matching inclined annular lower and upper surfaces, respectively. The position of the lower cam relative to the upper cam that provides generally flush contact of the matching inclined annular surfaces defines the central position of the swivel mechanism.
- the swivel mechanism can also have a compression spring urging the lower cam against the upper cam.
- a support element for a seating apparatus has an upright for supporting a work surface above a floor.
- a swing arm for supporting a seat is pivotably mounted to the upright and pivotable between a stowed position wherein a seat supported by the swing arm is substantially underneath a work surface supported by the upright, and a deployed position wherein a seat supported by the swing arm is substantially clear of a work surface supported by the upright.
- a flat coiled torsion spring is provided for biasing the arm to the stowed position, the torsion spring having a first end fixed directly or indirectly to the upright and a second end fixed directly or indirectly to the swing arm.
- a seating apparatus has a support element having an upright extending from a floor and a swing arm pivotably mounted to the upright about a generally vertical pivot axis.
- a work surface is secured to the upright above the swing arm.
- a seat is mounted on the swing arm, the seat having a seat base upon which an occupant can be seated.
- the swing arm is pivotable between a stowed position wherein the seat base is tucked substantially underneath the work surface, and a deployed position wherein the seat base is substantially clear of the work surface.
- a dynamic return stop element is secured to the arm and a static return stop element is secured to the upright, the dynamic and static return stop elements positioned in a common horizontal plane and abutting each other when the arm is in the stowed position. At least one of the static and dynamic return stop elements is adjustable to change the angular position of the arm relative to the upright corresponding to the position at which the dynamic and static return stop elements abut.
- the dynamic return stop element can include an eccentrically mounted button, the button having an attachment axis about which the button can be rotatably adjusted, and an outer surface spaced laterally away from the attachment axis for contacting the static return stop element.
- the static return stop element can include a bracket extending from the upright. The bracket can have at least one generally vertical gusset, and the static return stop element can include an exposed edge of the gusset.
- the seating apparatus can further be provided with biasing means for biasing the arm to the stowed position.
- the biasing means can include a flat coiled torsion spring, the torsion spring having a first end fixed directly or indirectly to the upright and a second end fixed directly or indirectly to the swing arm.
- a seating apparatus has a support element having an upright extending from a floor and a swing arm pivotably mounted to the upright about a generally vertical pivot axis.
- a work surface is secured to the upright above the swing arm.
- a seat is mounted on the swing arm, the seat having a seat base upon which an occupant can be seated.
- the swing arm is pivotable between a stowed position wherein the seat base is tucked substantially underneath the work surface, and a deployed position wherein the seat base is substantially clear of the work surface.
- the upright is generally straight, and inclined to the vertical such that, relative to a direction in which the seating apparatus is facing, the upper end of the upright is forward of the pivot joint, and the pivot joint is forward of the lower end of the upright.
- the upright can have upper and lower ends that are generally perpendicular to the axis of the uprights.
- a work surface mounting bracket can be provided adjacent the upper end of the upright for mounting the work surface obliquely with respect to the generally perpendicular upper end of the upright.
- FIG. 1 is a perspective view of one embodiment of a seating apparatus according to the present invention
- FIG. 2 is a side view of the apparatus of FIG. 1 ;
- FIG. 3 is a top view of two rows of the seating apparatus of FIG. 1 ;
- FIG. 4 is an enlarged perspective view of a portion of the apparatus of FIG. 1 ;
- FIG. 5 is an exploded view of the portion of the apparatus of FIG. 1 shown in FIG. 4 ;
- FIGS. 6 a , 6 b and 6 c are bottom views of a portion of the apparatus of FIG. 4 showing an arm in intermediate, deployed, and stowed positions, respectively;
- FIG. 7 is an enlarged perspective view of another portion of the apparatus of FIG. 1 ;
- FIG. 8 is an exploded view of a portion of the apparatus of FIG. 3 ;
- FIGS. 8 a and 8 b are perspective views of the upper and lower cams, respectively, of FIG. 8 ;
- FIGS. 9 and 10 are side sectional views of the portion of the apparatus of FIG. 8 shown in a forward and in a sideways oriented position, respectively;
- FIG. 11 is an enlarged side view showing further details of the apparatus of FIG. 2 ;
- FIG. 12 is an enlarged side view of the apparatus of FIG. 1 adapted to be mounted on an inclined floor;
- FIGS. 12 a and 12 b are enlarged exploded views showing a lower portion of the apparatus of FIG. 12 in greater detail;
- FIG. 13 is an exploded perspective view showing an alternate embodiment of a swivel mechanism according to the present invention.
- FIG. 13 a is a perspective view of an upper cam element of the mechanism of FIG. 13 ;
- FIG. 13 b is a perspective view of a lower cam element of the mechanism of FIG. 13 ;
- FIG. 14 is an enlarged elevation view in cross-section of a housing portion of the mechanism of FIG. 13 ;
- FIGS. 15 and 16 are side sectional views of the mechanism of FIG. 13 shown in a forward and in a sideways oriented position, respectively.
- a seating apparatus according to the present invention is shown generally at 100 in the Figures.
- the apparatus 100 has at least one support element 102 for supporting a seat 104 and a work surface 106 above a floor 108 .
- the seats 104 can have a seat base 110 and a backrest 112 .
- the work surface 106 can be a panel constructed of high pressure laminate.
- the work surface 106 presents an adjacent edge 114 that faces the backrests 112 of the seats 104 .
- Each support element 102 comprises an upright 116 and at least one swing arm 120 pivotably mounted to the upright 116 .
- Each swing arm 120 has an inner end 122 and an outer end 124 .
- the inner end 122 of the swing arm 120 is pivotably attached to the upright 116 by means of a pivot joint 125 .
- the outer ends 124 of the swing arms 120 support the seats 104 .
- the swing arms 120 are pivotable between stowed positions, identified at 126 (in phantom line) in FIG. 2 , and deployed positions, identified at 128 (in solid line) in FIG. 2 .
- stowed position 126 the seat bases 110 of the seats 104 are tucked substantially underneath the work surface 106 .
- deployed position 128 the seat bases 110 of the seats 104 are substantially clear of the work surface 106 a sufficient extent so that a user (not shown) can enter, exit, and sit in the seat 104 .
- the backrest 112 of the seat 104 when the arm 120 is in the stowed position 126 , the backrest 112 of the seat 104 either abuts the adjacent edge 114 of the work surface 106 , or is spaced away from the adjacent edge 114 by a relatively narrow gap 130 (as illustrated in FIG. 2 ).
- a relatively large access space 132 is provided between the backrest 112 of the seat 104 and the adjacent edge 114 of the work surface 106 , again allowing a user to enter, exit, and sit in the seat 104 .
- Returning the seat 104 to the stowed position 126 can provide improved passage behind the seats 104 , such as in aisles 134 between adjacent rows of the seating apparatus 100 ( FIG. 3 ).
- three support elements 102 are used to support an elongate work surface 106 , providing a single row of four seats 104 .
- the three support elements 102 include a left, a right, and a center support element 102 a , 102 b and 102 c , respectively.
- the left support element 102 a has an upright 116 a with a single arm 120 a extending to the right of the upright 116 a.
- the arm 120 a rotates clockwise (when viewed from above) to pivot from the stowed position to the deployed position.
- the right support element 102 b has an upright 116 b with a single arm 120 b extending to the left of the upright 116 b .
- the arm 120 b rotates counter-clockwise (when viewed from above) to pivot from the stowed position to the deployed position.
- the center support element 102 has an upright 116 c with two arms 120 , namely one arm 120 a and one arm 120 b , extending to the left and right, respectively, of the upright 116 c.
- the pivot joint 125 of the support element 102 provides a generally vertical pivot axis 151 about which the arm 120 can pivot.
- the pivot joint 125 comprises a stationary portion 150 a fixed to the upright 102 , and a pivoting portion 150 b fixed to the arm 120 .
- the stationary portion 150 a of the pivot joint 125 has upper and lower pivot joint brackets 152 , 154 , respectively, that extend from the upright 116 .
- the brackets 152 , 154 are spaced apart along the length of the upright 116 to vertically straddle the inner end 122 of the arm 120 .
- the upper pivot joint bracket 152 and lower pivot joint bracket 154 have opposed upper and lower horizontal plates 156 and 158 , respectively.
- Vertically aligned upper and lower apertures 162 , 164 are provided in the upper and lower plates 156 , 158 , respectively.
- An elongate pin 160 extends through the apertures 162 , 164 and is secured with a washer 161 and a nut 163 threaded on to the lower portion of the pin 160 .
- the axis of the pin 160 corresponds to the pivot axis 151 about which the arm 120 can pivot.
- the upper and lower brackets 152 , 154 further comprise generally vertical gussets 166 , 168 , respectively, which are secured to the upright 116 and extend generally perpendicularly from the transverse edges 169 of the horizontal plates 156 , 158 .
- the gussets 166 of the upper bracket 152 are directed downwardly, and the gussets 168 of the lower bracket 154 are directly upwardly.
- the gussets 166 , 168 serve to brace the horizontal plates 156 , 158 of the upper and lower brackets 152 , 154 , respectively, and can provide other functions as will be described hereinafter.
- the pivoting portion 150 b of the pivot joint 125 comprises a generally vertical bore 170 extending through the inner end 122 of the arm 120 .
- the bore 170 can be substantially cylindrical, having a cylindrical wall 171 with open upper and lower ends 172 , 174 , respectively.
- the bore 170 is aligned with the apertures 162 , 164 of the upper and lower pivot brackets 152 , 154 , respectively, and the pin 160 extends through the bore 170 so that the arm 120 may pivot about the pin 160 .
- Upper and lower annular bushings 176 , 178 can be provided at the upper and lower ends 172 , 174 , respectively, of the bore 170 to enhance the pivoting action of the arm 120 about the pivot axis 151 .
- the bushings 176 , 178 have an inner diameter sized to provide a sliding fit with the pin 160 , and an outer diameter sized to fit snugly within the bore 170 .
- the upper and lower bushings 176 , 178 have flanges 179 that engage the upper and lower faces 180 , 182 , respectively, of the arm 120 adjacent the bore 170 , thereby keeping the bushings 176 , 178 from migrating inwards from the opposed ends 172 , 174 of the bore 170 .
- the bushings 176 , 178 can be constructed of a relatively hard, wear-resistant material, such as for example, an injection molded plastic or nylon.
- the seating apparatus 100 is further provided with biasing means 184 for biasing the swing arm 120 to the stowed position 126 .
- the biasing means 184 can advantageously comprise a flat coiled torsion spring 185 having a first end 186 fixed directly or indirectly to the upright 116 , and a second end 188 fixed directly or indirectly to the arm 120 .
- the torsion spring 185 is fitted in the pivot joint 125 of the apparatus 100 . More particularly, the torsion spring 185 comprises a thin strip of resilient metal coiled in flat spiral about the pivot axis 151 .
- the torsion spring 185 is positioned between the flange 179 of the upper bushing 176 and the horizontal plate 156 of the upper bracket 152 .
- An axially extending boss 190 is provided between the flange 179 of the upper bushing 176 and the horizontal plate 156 of the upper bracket 152 .
- the boss 190 has an outer diameter that is smaller than the inner diameter of the smallest coil of the torsion spring 185 , so that the boss 190 can extend axially through the center of the torsion spring 185 .
- the boss 190 is fixed to pivot with the arm 120 .
- the boss 190 extends from the upper bushing 176 of the pivot joint 12 .
- Anti-rotate means 192 are provided adjacent the bushing 176 and the bore 170 for preventing relative rotation between the bushing 176 and the bore 170 , and hence, between the boss 190 and the arm 120 .
- the anti-rotate means 192 can comprise an axial groove 194 provided along the outer surface of the bushing 176 , and a radially inwardly directed key 195 extending from the inner surface of the bore 170 shaped to fit within the groove 194 .
- the first (radially outermost) end 186 of the torsion spring 185 comprises a radially outwardly extending hook 196 that is hooked onto an exposed vertical edge 167 of the adjacent gusset 166 .
- the second (radially innermost) end 188 of the torsion spring 185 -comprises a radially inwardly directed tab 198 .
- the boss 190 is provided with a transverse slot 199 for receiving the tab 198 . Accordingly, the first end 186 of torsion spring 185 is fixed to the upright 116 , and the second end 188 of the torsion spring 185 is secured to the swing arm 120 .
- the elements of the pivot joint 125 can be assembled quite easily.
- the bushing 176 can be axially inserted into the upper end 172 of the bore 170 of the arm 120 once the groove 194 has been aligned with the key 195 .
- the torsion spring 185 can be placed over the boss 190 of the bushing 176 , ensuring that the tab 198 is positioned within the slot 199 .
- the inner end 122 of the arm 120 can be positioned between the plates 156 , 158 of the upper and lower brackets 152 , 154 , respectively.
- the hook 196 of the torsion spring 185 can be aligned to engage the edge 167 of the gusset 166 .
- This will generally require a light force on the torsion spring 185 , since the torsion spring 185 is preferably pre-loaded. More particularly, the torsion spring 185 can exert a certain pre-load torque on the arm 120 even when the arm 120 is in the stowed position.
- the seating apparatus 100 can be provided with static and dynamic advanced stop elements 200 and 202 , respectively.
- the static advance stop element 200 is fixed to the upright 116 .
- the dynamic advance stop element 202 is secured to, and moves with, the arm 120 .
- the advance stop elements 200 , 202 are positioned relative to each other such that pivoting of the arm 120 from the stowed position 126 to the deployed position 128 causes the dynamic advance stop element 202 to contact the static advance stop element 200 , thereby preventing further pivoting of the arm 120 beyond the deployed position 128 ( FIG. 6 b , and shown in phantom in FIG. 3 ).
- the static advance stop element 200 comprises the exposed vertical edge 167 of the rear-most gusset 168 b of the lower pivot joint bracket 154 .
- the dynamic advance stop element 202 comprises a lug 204 welded to the underside of the arm 120 .
- the apparatus 100 can also be provided with static and dynamic return stop elements 206 and 208 , respectively, for defining the stowed position 126 of the arm 120 .
- the static return stop element 206 is fixed to the upright 116
- the dynamic return stop element 208 is secured to the arm 120 .
- the static return stop element 206 comprises the exposed vertical edge 167 of the forward gusset 168 a of the lower pivot bracket 154 .
- the exposed vertical edge 167 presents a static return abutment surface 207 against which the dynamic return stop 208 can abut.
- the dynamic return stop element 208 comprises a button 210 that is secured to the arm 120 .
- the button 210 is generally cylindrical in shape having a generally flat mounting face 212 positioned against the arm 120 , and an outer diameter surface 214 for contacting the static return stop element 206 .
- At least one of the static and dynamic return stop elements 206 , 208 may be adjustably secured to the apparatus 100 , i.e. to the upright 116 or the arm 120 , respectively, so that the stowed position 126 of the arm 120 relative to the upright 116 may be adjusted.
- the button 210 is eccentrically mounted to the arm 120 along a mounting axis 216 . Accordingly, rotating the button 210 about the mounting axis 216 changes the distance 218 between the mounting axis 216 and the static return stop 206 when the static return stop 206 is in contact with the surface 214 of the button 210 . This in turn changes the angular position of the arm 120 relative to the upright 116 when the arm 120 is in the stowed position 126 ( FIG. 6 c , and shown in solid line in FIG. 3 ).
- the width of the narrow gap 130 between the backrest 112 of the seat 104 and the adjacent edge 114 of the work surface 106 when the arm 120 is in the stowed position 126 may be increased or decreased by changing the rotational position of the eccentrically mounted button 210 .
- This feature can be advantageous for a variety of reasons. For example, it is generally desirable to have a stowed position 126 for the seats 104 wherein the backrest 112 of the seat 104 is close to, but not in contact with, the adjacent edge 114 of the work surface 106 (i.e. spaced by the narrow gap 130 ). If the backrest 112 contacts the work surface 106 , premature wear or damage to the seating apparatus 100 could result. If the backrest 112 is spaced too far from the work surface 106 when the arm 120 is in the stowed position 126 , clear passage behind the seat 104 is compromised.
- the position of the seat 104 with respect to the work surface 106 when in the arm 120 is in the stowed position 126 can be optimized after installation of the seating apparatus 100 , despite any expected variations in fabrication or assembly of the various apparatus components. Furthermore, by providing an adjustable return stop element 206 , 208 , all of the seats 104 in a row can be adjusted to be spaced equally apart from the work surface 106 by the narrow gap 130 when the seats 104 are in the stowed position 126 , thereby providing a neat, professional appearance ( FIG. 3 ).
- the outer end 124 of the arm 120 can be provided with a swivel mechanism 220 for swivelably mounting the seat 104 to the arm 120 .
- the swivel mechanism 220 can enable the seat 104 to rotate to the left or to the right (counterclockwise or clockwise when viewed from above) from a central position 222 in which the seat 104 faces the forward direction 135 .
- the seat 104 when in the central position 222 , the seat 104 is oriented such that the backrest 112 of the seat 104 is generally in parallel alignment with the adjacent edge 114 of the work surface (as seen in FIG. 3 ).
- the swivel mechanism 220 can comprise a cartridge 224 fitted in a cylindrical housing 226 provided adjacent the outer end 124 of the swing arm 120 .
- the swivel mechanism 220 can have orientation biasing means 228 , for biasing the seat 104 to the central position 222 .
- the cartridge 224 comprises a seat post 230 to which the seat 104 can be attached by means of a seat mounting bracket 232 .
- the seat post 230 is rotatably supported by the cartridge 224 , and the cartridge 224 is fixed within the housing 226 .
- the housing 226 is generally cylindrical, having open upper and lower ends 236 , 238 , respectively.
- the cartridge 224 comprises a cylindrical sleeve 240 which is received in the housing 226 .
- the sleeve 240 can be secured in the housing 226 by means of radial locking screws 242 provided around the circumference of the housing 226 . In the embodiment illustrated, three locking screws 242 are provided.
- the sleeve 240 is also generally cylindrical in shape, having open upper and lower ends 246 and 248 , respectively.
- the lower end of the sleeve is provided with a radially inwardly directed retaining lip 249 .
- the retaining lip 249 can be integrally formed with the sleeve 240 , by means of, for example but not limited to, a swaging process.
- the inner diameter of the retaining lip is, in the embodiment illustrated, larger than the outer diameter of the seat post 230 .
- the cartridge 224 further comprises a lower bushing 250 positioned in the sleeve 240 adjacent the retaining lip 249 .
- the bushing 250 has an outer diameter providing a sliding fit within the sleeve 240 , and an inner diameter to provide a sliding fit with the outer surface of the post 230 .
- a lower spring seat surface 251 characterized by generally flat, annular surface, is provided adjacent the upper axial face of the bushing 250 .
- the orientation biasing means 228 of the swivel mechanism 220 comprises upper and lower orientation cams 252 , 254 , respectively, and a compression spring 255 provided about the seat post 230 within the cartridge 224 .
- the upper and lower cams 252 , 254 are in the form of annular collars having generally cylindrical outer side surfaces 256 and 258 , respectively.
- the upper cam 252 has an inner diameter providing a sliding fit with the outer surface of the seat post 230 .
- the upper end of the upper cam 252 comprises a radially outwardly extending flange 260 .
- the lower end of the upper cam 252 is provided with an upper cam surface 262 , which comprises a generally planar surface oriented at an incline to the axis of the seat post 230 .
- the inclined upper cam surface 262 presents vertically uppermost and lowermost points 264 and 266 , respectively.
- the lower cam 254 has an inner diameter providing a snug fit with the outer surface of the seat post 230 .
- the lower end of the lower cam 254 has a generally flat spring seat surface 270 oriented perpendicularly to the axis of the post 230 .
- the upper end of the lower cam 254 is provided with a lower cam surface 272 , which comprises a generally flat annular surface oriented at an incline to the axis of the seat post 230 that matches the incline of the upper cam surface 262 .
- the inclined lower cam surface 272 presents vertically uppermost and lowermost points 274 and 276 , respectively.
- the lower cam 254 is fixed to the seat post 230 , by, for example, a set screw 255 , so that the seat post 230 and the lower cam 254 move together.
- the compression spring 255 is provided in the sleeve 240 between the lower bushing 250 and the spring seat surface 270 of the lower cam 254 .
- the upper cam 252 is inserted in the sleeve 240 so that the flange 260 abuts the upper face of the sleeve 240 , and the upper cam is fixed to the sleeve in that position.
- radial locking rivets 241 extend through the sleeve 240 and engage the sides 256 of the upper cam 252 to lock the upper cam 252 in position relative to the sleeve 240 .
- the inclined cam surfaces 262 and 272 of the upper and lower cams 252 , 254 are in substantially flush contact around the circumference of the cam surfaces 262 , 272 when the seat 104 is in the central position 222 ( FIGS. 8 and 9 ).
- the lower cam 254 rotates with the post 230 , and the post 230 and seat 104 are forced downward as the uppermost point 274 of the lower cam 254 follows the downwardly inclining cam surface 262 of the upper cam 252 .
- This downward translation of the seat 104 compresses the spring 255 and causes the lower end 282 of the seat post 230 to protrude beyond the lower end of the lower bushing 250 ( FIG. 10 ).
- the swivel mechanism 220 provides a relatively simple and inexpensive mechanism for swiveling the seat 104 and biasing the seat 104 to a central position 222 .
- the amount of rotation for swiveling the seat 104 can be limited by the vertical clearance 288 provided between the upper end of the cartridge 224 and the lower surface of the seat mounting bracket 232 fixed to the post 230 .
- about 90 degrees of rotation of the seat 104 uses up the available vertical clearance 288 , causing the seat mounting bracket 232 to bottom out against the uppermost end of the cartridge 224 , thereby defining the maximum swivel position 223 ( FIG. 10 ).
- a metal washer 290 can be provided above the upper face of the flange 260 of the upper cam 252 , to protect the flange 260 from damage that could result if the seat 104 is aggressively swiveled to its maximum rotation position.
- the upward force of the compression spring 255 is transferred by the inclined cam surfaces 262 , 272 of the cams 252 , 254 into a rotational force, so that the seat 104 will swivel back to the central position 222 .
- the lower cam 254 is at its vertically uppermost position, the adjacent cam surfaces 262 , 272 of the cams 252 , 254 are in substantially flush contact, and the spring 255 is in its least compressed state.
- an occupant of the seat 104 after entering the seat 104 , can adjust the position of the seat 104 relative to the work surface 106 by swiveling the seat 104 and by pivoting the swing arm 120 to any desired position between the deployed 128 and stowed positions 126 of the arm 120 .
- an occupant can push back against the floor 108 and/or the work surface 106 using his or her feet and hands, respectively, so that the arm 120 is moved to the deployed position 128 and the access space 132 is provided between the backrest 112 of the seat 104 and the adjacent edge 114 of the work surface 106 ( FIG. 2 ).
- the seat 104 Upon releasing the unoccupied seat 104 , the seat 104 will swivel to the central position 222 and the arm 120 will pivot to the stowed position 126 .
- the backrest 112 of the seat 104 is preferably near, but not in contact with, the adjacent edge 114 of the work surface 106 .
- the precise position of the backrest 112 of the seat 104 relative to the adjacent edge 114 of the work surface 106 can be adjusted using the adjustable dynamic return stop element 210 of the illustrated embodiment, as previously described.
- the uprights 116 of the seating apparatus 100 can be inclined from the vertical, such that the upright 116 has opposed upper and lower ends 302 and 304 , respectively, with the upper end 302 positioned forward (relative to the direction 135 ) of the lower end 304 of the upright 116 .
- the inclined upper portion 306 of the upright 116 advantageously positions the pivot axis 151 of the pivot joint 125 further rearward relative to the adjacent edge 114 of the work surface 106 than would be possible with a generally vertical upright.
- the inclined lower portion 308 of the upright 116 (between the floor 108 and the pivot joint 125 ), being in colinear relation with the upper portion 306 , enables a straight continuous length of material to be used as the upright 116 .
- the upright 116 comprises a straight length of steel pipe having an axis 307 .
- the upper and lower ends 302 and 304 of the upright 116 are cut at right angles to the axis 307 of the upright 116 , producing generally perpendicular upper and lower end faces 302 a and 304 a , respectively.
- a straight but inclined upright 116 the need of a more costly two-piece, or bent, upright is avoided.
- square ends 302 and 304 more costly oblique cuts are avoided.
- the inclined lower portion 308 of the upright 116 (i.e. the length of the upright 116 between the floor 108 and the pivot joint 125 ) can advantageously provide an attachment locus 309 for attaching the upright 116 to the floor 108 that is positioned rearward of the pivot axis 151 .
- the attachment locus 309 is generally defined by the intersection of the axis 307 of the upright 116 and the plane defined by the end 304 of the upright 116 .
- the rearward offset of the attachment locus 309 can position the attachment of the upright 116 to the floor 108 closer to the center of the seat 110 (i.e. closer to the post 230 , which can improve the load distribution of an occupant over the floor attachment and reduce stress loads on the floor attachment accordingly.
- the floor attachment is provided by using a floor bracket 314 , described in greater detail subsequently herein. Further, in the embodiment illustrated, the attachment locus 309 of the upright 116 is positioned sufficiently rearward to be at least partially further rearward than a forward edge 111 of the seat base 110 when in the deployed position 128 .
- the pivot axis 151 is generally vertical, as desired for the swing arm 120 to pivot in a horizontal plane, the pivot axis 151 is correspondingly inclined to the axis 307 of the upright 116 .
- the upper and lower brackets 152 , 154 of the pivot joint 125 are offset to opposite sides of the centerline of the upright 116 , and oriented to vertically opposed each other ( FIG. 11 ). The brackets 152 , 154 are then welded in place to the upright 116 .
- the upper and lower ends 302 , 304 of the upright 116 are fitted with a work surface bracket 312 and a floor bracket 314 , respectively.
- the work surface bracket 312 can have a generally horizontal mounting surface 316 to which the work surface 106 can be secured.
- the work surface bracket 312 can further be provided with an inclined attachment surface 318 to which the upper end 302 of the upright 116 can be fastened.
- the inclined attachment surface 318 can be inclined relative to the mounting surface 316 to abut the upper end face 302 a of the upright 116 in generally flush contact.
- the floor bracket 314 can have a flange portion 319 presenting a generally horizontal bearing surface 320 to bear in flush engagement against the floor 108 .
- the floor bracket 314 can provide an attachment pocket 321 for receiving the lower end 304 of the upright 116 and facilitating attachment of the floor bracket 314 to the upright 116 .
- the attachment pocket 321 can include an inclined base 322 that is adapted to provide flush engagement with the lower end face 304 a of the upright 116 . Accordingly, the inclined base is inclined with respect to the horizontal, but is generally parallel to a plane defined by the lower end face 304 a .
- the flush engagement of the lower end face 304 a of the upright 116 and the base 322 of the attachment pocket 321 can facilitate providing accurate alignment of the floor bracket 314 relative to the upright 116 , and providing a secure and reliable joint between the floor bracket 314 and the upright 116 .
- the floor bracket 314 can advantageously be manufactured of a relatively heavy gauge metal sheet, and can be formed in a press or stamping operation.
- the floor bracket 314 and upright 116 can be joined by inserting the upright 116 into the attachment pocket 321 , so that the lower end face 304 a bears in flush engagement against the base 322 .
- the floor bracket 314 and the upright 116 can then be welded together.
- an alternate embodiment of a floor bracket 314 ′ can be provided to facilitate installing the apparatus 100 on an inclined floor surface 108 ′, such as commonly found in auditoriums with downward sloping floors.
- the floor bracket 314 ′ has an attachment pocket 321 ′ with an inclined base 322 ′.
- the inclined base 322 ′ is generally inclined relative to the horizontal, and is adapted to provide flush engagement with the lower end face 304 a of the upright 116 .
- the inclined base 322 ′ may be inclined relative to the bearing surface 320 ′ of the floor bracket 314 ′ ( FIG. 12 a ), or may be generally parallel to the bearing surface 320 ′ ( FIG. 12 b ).
- FIG. 13 an alternate embodiment of a swivel mechanism 220 ′ is shown.
- the swivel mechanism 220 ′ is similar to the swivel mechanism 220 ( FIG. 8 ), and like elements are generally denoted by like reference numerals, those with a prime suffix having modifications described in greater detail herein.
- the swivel mechanism 220 ′ includes, in the embodiment illustrated, a modified cartridge 224 ′ adapted to fit into a modified cylindrical housing 226 ′ secured to the outer end 124 of the swing arm 120 .
- the cartridge 224 ′ includes a modified orientation biasing means 228 ′ housed in the cylindrical sleeve 240 .
- the orientation biasing means 228 ′ of the swivel mechanism 220 ′ includes modified upper and lower orientation cams 252 ′ and 254 ′, respectively.
- the upper and lower orientation cams 252 ′, 254 ′ are in the form of annular collars having generally cylindrical outer side surfaces 256 ′ and 258 ′.
- the lower end of the upper cam 252 ′ is provided with an upper cam surface 262 ′, which in the embodiment illustrated, follows an undulating path having two vertically uppermost points defining troughs 264 a ′ and 264 b ′, and two vertically lowermost points defining crests 266 a ′ and 266 b ′ of the upper cam 252 ′.
- the two troughs 264 a ′ and 264 b ′ are generally disposed 180° apart with respect to the axis of the upper cam 252 ′.
- the two crests 266 a ′ and 266 b ′ are generally disposed 180° apart from each other, and 90° apart from the troughs 264 a ′, 264 b′.
- the lower cam 254 ′ has an upper end that is provided with a lower cam surface 272 ′ that is adapted to engage or follow (as in a cam follower) the upper cam surface 262 ′.
- the lower cam surface 272 ′ in the embodiment illustrated, follows an undulating path around the perimeter of the lower cam 254 ′, and has two vertically uppermost points or crests 274 a ′, 274 b ′, and two vertically lowermost points or troughs 276 a ′, 276 b′.
- the lower cam 254 ′ can be secured to the seat post 230 by means of, for example, a set screw 255 .
- the upper cam 252 ′ can be fixed within the upper end 246 of the sleeve 240 by means of, for example, radial locking rivets 241 .
- the cartridge 224 ′ can be secured to the swing arm 120 by inserting the sleeve 240 into the housing 226 ′.
- Radial locking screws 242 can be used to secure the sleeve 240 in the housing 226 ′. However, it has been discovered that over extended use, the screws 242 can work loose.
- the housing 226 ′ can advantageously be provided with upper and lower sleeve engagement elements 401 , 403 extending radially inwardly of the housing 226 ′, and adjacent respective upper and lower ends 236 , 238 thereof.
- the sleeve engagement elements 401 , 403 are in the form of annular constrictions that are pressed or swaged into the sidewall of the housing 226 ′.
- the sleeve engagement elements 401 , 403 are adapted to provide a narrowed inner diameter that closely matches the outer diameter of the sleeve 240 to provide a snug, near press-fit assembly of the sleeve 240 within the housing 226 ′. To provide such a closely toleranced fit over the entire axial length of the housing 226 ′ would be cost prohibitive, if possible at all.
- the localized engagement of the sleeve engagement elements 401 , 403 with the sleeve 240 combined with radial locking screws 242 has been found to provide secure, durable assembly of the cartridge 224 ′ within the housing 226 ′.
- the undulating cam surfaces 262 ′ and 272 ′ of the upper and lower orientation cams 252 ′, 254 are in substantially flush contact around the entirety of the circumference of the cam surfaces 262 ′, 272 ′ when the seat is unoccupied and oriented so that the crests 274 a ′ and 274 b ′ of the lower cam 254 ′ are seated within the troughs 264 a ′ and 264 b ′ of the upper cam 254 ′ (i.e. the central position 222 ′).
- the vertical distance (or axial extent) between the uppermost and lowermost points (i.e. the trough 264 a ′, 264 b ′ and crest 266 a ′, 266 b ′) of the upper cam member 252 ′ defines a crest-to-trough axial extent 288 a ′.
- the crest-to-trough axial extent 288 a ′ can advantageously be sized to be less than the vertical spacing 288 ′.
- Such a smaller axial extent 288 a ′ provides an axial gap 288 b ′ between the crests 266 a ′, 266 b ′ of the upper cam 252 ′ and opposing crests 274 a ′, 274 b ′ of the lower cam 254 ′ ( FIG. 16 ).
- the size of the axial gap 288 b ′ is generally defined by the difference between the spacing 288 ′ and the crest-to-trough axial extent 288 a ′. The gap.
- the axial spacing between the opposed cam surfaces 262 ′ and 272 ′ is generally equal to the spacing 288 ′ (i.e. consider a direct downward displacement of the lower cam 254 ′ by an amount equal to the gap 288 ′ in FIG. 15 ).
- the respective cam surfaces are no longer parallel, and the axial spacing between them decreases ( FIG. 16 ). The spacing becomes narrowest at about a 90° rotation ( FIG. 16 ), but the cam surfaces remain spaced apart (by the gap 288 b ′) when the seat is occupied (i.e. when the post 230 and lower cam 254 ′ are moved to the lowered position).
- the dual-lobed cam design provides a second stable position disposed 180° from the forward oriented position, in which the crest 274 a ′, 274 b ′ is seated in the trough 264 a ′, 264 b ′. If the seat 104 is rotated less than 90° in either direction from the forward orientation, the seat 104 will be urged to the forward orientation when released. If the seat is rotated more than 90° from the forward orientation, the seat 104 will generally be urged to the second stable position.
- the second stable position can be useful for providing, for example, temporary clearance under the work surface for cleaning purposes or the like.
Abstract
A seating apparatus includes a support element having an upright extending from a floor and a swing arm pivotably mounted to the upright about a generally vertical pivot axis, a work surface is secured to the upright above the swing arm, and a seat is mounted on the swing arm, and the seat having a seat base upon which an occupant can be seated. The swing arm is pivotable between a stowed position wherein the seat base is tucked substantially underneath the work surface, and a deployed position wherein the seat base is substantially clear of the work surface. The seating apparatus further includes a dynamic return stop element secured to the swing arm and a static return stop element secured to the upright. The dynamic and static return stop elements are positioned in a common horizontal plane and abut each other when the swing arm is in the stowed position. At least one of the static and dynamic return stop elements is adjustable relative to the swing arm and the upright, respectively, to change the angular position of the swing arm relative to the upright when the swing arm is in the stowed position.
Description
- This application is a continuation-in-part of U.S. application Ser. No. 10/651,239, entitled “Auditorium Seating”, which was filed on Aug. 29, 2003, and the entire contents of which is also hereby incorporated by reference.
- This invention relates to a seating apparatus for use in auditoriums, lecture halls, cafeterias, meeting rooms, and the like.
- Seating systems that provide seating with attached desks or work surfaces are often convenient for use in lecture halls, classrooms, meeting rooms, or similar facilities. Some existing seating systems of this type have desks or work surfaces supported above a floor by structural support elements. Seats are attached to the support elements by a pivot arm extending from the support element, so that the seat can be stowed under the desk when not in use.
- It is known to include biasing means in these seating systems to bias the swing arm to the stowed position. The biasing means in known seating systems comprises a tension spring having one end fixed to the structural member, and the other end fixed at a point along the length of the arm. The tension springs can be difficult to install, and generally remain exposed so that they are prone to damage and/or premature wear.
- Furthermore, in known seating systems having seats attached to pivot arms, the angular position of the pivot arm relative to the structural member defining the stowed position is not adjustable once the seating system has been manufactured and assembled. Accordingly, due to variations in the manufacturing and assembly of the seating systems, adjacent seats in a row of seating may not have uniform stowed positions. In other words, some seats may be spaced away from the work surface when in the stowed position, while other seats may touch the work surface when in the stowed position. An excessive gap between the seat and the desk when in the stowed position can obstruct aisles between adjacent rows of seats. Having no space at all between the seat and the desk when in the stowed position can cause wear or damage to the seat and the desk. As well, seats having different spacings between the seats and the desk when in the stowed position can create an untidy appearance.
- With respect to the structural members of the known seating systems, uprights having a vertical lower portion and an inclined upper portion are generally used to support the work surface above the floor. The upper and lower portions of the uprights are typically constructed of square or rectangular steel channel, with a welded joint provided between the upper and lower portions. Accordingly, the uprights can be rather costly.
- It is also known in existing seating systems to provide a swivel joint between the chair and the pivot arm to which it is attached. Providing an auto-orientation feature whereby the seat is biased towards the forward direction is also a known feature. Examples of existing swivel joints comprise dual inner and outer compression springs, thrust bearings, and co-operating cam surfaces. These joints are rather complex and can be costly to produce.
- It is an object of the present invention to provide an improved seating apparatus and elements of a seating system suitable for use in, lecture halls, classrooms, cafeterias, meeting rooms, and the like.
- According to one aspect of the present invention, a seating apparatus has a support element having an upright extending from a floor and a swing arm pivotably mounted to the upright about a generally vertical pivot axis. The seating apparatus is further provided with a work surface secured to the upright above the swing arm, and a seat mounted on the swing arm, the seat having a seat base upon which an occupant can be seated. The swing arm is pivotable between a stowed position wherein the seat base is tucked substantially underneath the work surface, and a deployed position wherein the seat base is substantially clear of the work surface. The seating apparatus is also provided with a flat coiled torsion spring for biasing the arm to the stowed position, the torsion spring having a first end fixed directly or indirectly to the upright and a second end fixed directly or indirectly to the swing arm.
- The flat coiled torsion spring can be of a thin strip of resilient metal coiled in a flat spiral about the pivot axis. The arm can be pivotable about a pivot joint having upper and lower brackets extending from the upright to vertically straddle an inner end of the arm, a bore provided in the straddled inner end of the arm, and a generally vertical pin supported by the brackets and extending through the bore of the arm, the arm being pivotable about the pin.
- The seating apparatus can be provided with a boss fixed to pivot with the arm, the boss extending axially between the arm and an adjacent one of the upper and lower brackets of the pivot joint. The pivot joint can include a bushing provided in the bore, the bushing having an outer surface sized to fit snugly within an inner surface of the bore, and an inner diameter sized to provide a sliding fit with the pin. The boss can extend from the bushing.
- The seating apparatus can further include anti-rotate means adjacent the bushing and the bore for preventing relative motion between the bushing and bore. The anti-rotate means can include an axial groove along the outer surface of the bushing and a radially inwardly directed key extending from the inner surface of the bore and engaging the groove of the bushing.
- The second end of the torsion spring can be fixed to the boss, and the first end of the torsion spring can be fixed to the adjacent one of the upper and lower brackets of the pivot joint. The adjacent one of the upper and lower brackets can have a generally vertical gusset with an exposed edge extending adjacent the boss.
- 11. The apparatus of claim 10 wherein the first end of the torsion spring comprises a radially outwardly extending hook that is hooked onto the exposed edge of the gusset. The boss can extend axially through the center of the torsion spring, and the second end of the torsion spring can have a tab directed radially inwardly, and the boss can have a transverse slot to engage the tab.
- The seating apparatus can further be provided with a swivel mechanism for swivelably supporting the seat above the swing arm, the swivel mechanism biasing the seat in a central direction. The swivel mechanism can have a sleeve fixed to an outer end of the swing arm, the sleeve having open upper and lower ends, a post rotatable within the sleeve, the post having an upper end for attachment to a seat, an upper cam fixed within the sleeve and a lower cam fixed to the post and slidable within the sleeve. The upper cam can be disposed between the lower cam and the upper end of the post, and the upper and lower cams can have matching inclined annular lower and upper surfaces, respectively. The position of the lower cam relative to the upper cam that provides generally flush contact of the matching inclined annular surfaces defines the central position of the swivel mechanism. The swivel mechanism can also have a compression spring urging the lower cam against the upper cam.
- According to a second aspect of the invention, a support element for a seating apparatus has an upright for supporting a work surface above a floor. A swing arm for supporting a seat is pivotably mounted to the upright and pivotable between a stowed position wherein a seat supported by the swing arm is substantially underneath a work surface supported by the upright, and a deployed position wherein a seat supported by the swing arm is substantially clear of a work surface supported by the upright. A flat coiled torsion spring is provided for biasing the arm to the stowed position, the torsion spring having a first end fixed directly or indirectly to the upright and a second end fixed directly or indirectly to the swing arm.
- According to a third aspect of the invention, a seating apparatus has a support element having an upright extending from a floor and a swing arm pivotably mounted to the upright about a generally vertical pivot axis. A work surface is secured to the upright above the swing arm. A seat is mounted on the swing arm, the seat having a seat base upon which an occupant can be seated. The swing arm is pivotable between a stowed position wherein the seat base is tucked substantially underneath the work surface, and a deployed position wherein the seat base is substantially clear of the work surface. A dynamic return stop element is secured to the arm and a static return stop element is secured to the upright, the dynamic and static return stop elements positioned in a common horizontal plane and abutting each other when the arm is in the stowed position. At least one of the static and dynamic return stop elements is adjustable to change the angular position of the arm relative to the upright corresponding to the position at which the dynamic and static return stop elements abut.
- The dynamic return stop element can include an eccentrically mounted button, the button having an attachment axis about which the button can be rotatably adjusted, and an outer surface spaced laterally away from the attachment axis for contacting the static return stop element. The static return stop element can include a bracket extending from the upright. The bracket can have at least one generally vertical gusset, and the static return stop element can include an exposed edge of the gusset.
- The seating apparatus according to the third aspect of the invention can further be provided with biasing means for biasing the arm to the stowed position. The biasing means can include a flat coiled torsion spring, the torsion spring having a first end fixed directly or indirectly to the upright and a second end fixed directly or indirectly to the swing arm.
- According to a fourth aspect of the invention, a seating apparatus has a support element having an upright extending from a floor and a swing arm pivotably mounted to the upright about a generally vertical pivot axis. A work surface is secured to the upright above the swing arm. A seat is mounted on the swing arm, the seat having a seat base upon which an occupant can be seated. The swing arm is pivotable between a stowed position wherein the seat base is tucked substantially underneath the work surface, and a deployed position wherein the seat base is substantially clear of the work surface. The upright is generally straight, and inclined to the vertical such that, relative to a direction in which the seating apparatus is facing, the upper end of the upright is forward of the pivot joint, and the pivot joint is forward of the lower end of the upright.
- The upright can have upper and lower ends that are generally perpendicular to the axis of the uprights. A work surface mounting bracket can be provided adjacent the upper end of the upright for mounting the work surface obliquely with respect to the generally perpendicular upper end of the upright.
- For a better understanding of the present invention and to show more clearly how it may be carried into effect, reference will now be made by way of example, to the accompanying drawings that show embodiments of the present invention, and in which:
-
FIG. 1 is a perspective view of one embodiment of a seating apparatus according to the present invention; -
FIG. 2 is a side view of the apparatus ofFIG. 1 ; -
FIG. 3 is a top view of two rows of the seating apparatus ofFIG. 1 ; -
FIG. 4 is an enlarged perspective view of a portion of the apparatus ofFIG. 1 ; -
FIG. 5 is an exploded view of the portion of the apparatus ofFIG. 1 shown inFIG. 4 ; -
FIGS. 6 a, 6 b and 6 c are bottom views of a portion of the apparatus ofFIG. 4 showing an arm in intermediate, deployed, and stowed positions, respectively; -
FIG. 7 is an enlarged perspective view of another portion of the apparatus ofFIG. 1 ; -
FIG. 8 is an exploded view of a portion of the apparatus ofFIG. 3 ; -
FIGS. 8 a and 8 b are perspective views of the upper and lower cams, respectively, ofFIG. 8 ; -
FIGS. 9 and 10 are side sectional views of the portion of the apparatus ofFIG. 8 shown in a forward and in a sideways oriented position, respectively; -
FIG. 11 is an enlarged side view showing further details of the apparatus ofFIG. 2 ; -
FIG. 12 is an enlarged side view of the apparatus ofFIG. 1 adapted to be mounted on an inclined floor; -
FIGS. 12 a and 12 b are enlarged exploded views showing a lower portion of the apparatus ofFIG. 12 in greater detail; -
FIG. 13 is an exploded perspective view showing an alternate embodiment of a swivel mechanism according to the present invention; -
FIG. 13 a is a perspective view of an upper cam element of the mechanism ofFIG. 13 ; -
FIG. 13 b is a perspective view of a lower cam element of the mechanism ofFIG. 13 ; -
FIG. 14 is an enlarged elevation view in cross-section of a housing portion of the mechanism ofFIG. 13 ; and -
FIGS. 15 and 16 are side sectional views of the mechanism ofFIG. 13 shown in a forward and in a sideways oriented position, respectively. - A seating apparatus according to the present invention is shown generally at 100 in the Figures. Referring to
FIGS. 1 and 2 , theapparatus 100 has at least onesupport element 102 for supporting aseat 104 and awork surface 106 above afloor 108. - The
seats 104 can have aseat base 110 and abackrest 112. Thework surface 106 can be a panel constructed of high pressure laminate. Thework surface 106 presents anadjacent edge 114 that faces thebackrests 112 of theseats 104. - Each
support element 102 comprises an upright 116 and at least oneswing arm 120 pivotably mounted to theupright 116. Eachswing arm 120 has aninner end 122 and anouter end 124. Theinner end 122 of theswing arm 120 is pivotably attached to the upright 116 by means of apivot joint 125. The outer ends 124 of theswing arms 120 support theseats 104. - The
swing arms 120 are pivotable between stowed positions, identified at 126 (in phantom line) inFIG. 2 , and deployed positions, identified at 128 (in solid line) inFIG. 2 . In the stowedposition 126, the seat bases 110 of theseats 104 are tucked substantially underneath thework surface 106. In the deployedposition 128, the seat bases 110 of theseats 104 are substantially clear of the work surface 106 a sufficient extent so that a user (not shown) can enter, exit, and sit in theseat 104. - Furthermore, when the
arm 120 is in the stowedposition 126, thebackrest 112 of theseat 104 either abuts theadjacent edge 114 of thework surface 106, or is spaced away from theadjacent edge 114 by a relatively narrow gap 130 (as illustrated inFIG. 2 ). When in the deployedposition 128, a relativelylarge access space 132 is provided between thebackrest 112 of theseat 104 and theadjacent edge 114 of thework surface 106, again allowing a user to enter, exit, and sit in theseat 104. - Providing the
seat base 110 of theseat 104 in a position clear of thework surface 106, and providing theaccess space 132 between thebackrest 112 of theseat 104 and theadjacent edge 114 of thework surface 106, can facilitate entry and exit of an occupant of theseat 104. Returning theseat 104 to the stowedposition 126 can provide improved passage behind theseats 104, such as inaisles 134 between adjacent rows of the seating apparatus 100 (FIG. 3 ). - In the embodiment illustrated, three
support elements 102 are used to support anelongate work surface 106, providing a single row of fourseats 104. As best seen inFIG. 3 , with respect to a forward facing direction indicated byarrow 135, the threesupport elements 102 include a left, a right, and acenter support element - The
left support element 102 a has an upright 116a with asingle arm 120 a extending to the right of the upright 116a. Thearm 120 a rotates clockwise (when viewed from above) to pivot from the stowed position to the deployed position. - The
right support element 102 b has an upright 116 b with asingle arm 120 b extending to the left of the upright 116 b. Thearm 120 b rotates counter-clockwise (when viewed from above) to pivot from the stowed position to the deployed position. Thecenter support element 102 has an upright 116 c with twoarms 120, namely onearm 120 a and onearm 120 b, extending to the left and right, respectively, of the upright 116 c. - Although three
distinct support elements apparatus 100, it will be readily understood that thecorresponding uprights 116 andarms 120 are similar in construction, having elements that are identical or simply mirror images of each other. Accordingly, in the following description, references to ageneric support element 102,upright 116, andarm 120 pertain to any one of the threesupport elements uprights arms support element 102 shown inFIG. 4 (and following) are of aleft support element 102 a. - Referring now to
FIG. 4 , thepivot joint 125 of thesupport element 102 provides a generallyvertical pivot axis 151 about which thearm 120 can pivot. In the embodiment illustrated, the pivot joint 125 comprises astationary portion 150 a fixed to theupright 102, and a pivotingportion 150 b fixed to thearm 120. - As best seen in
FIG. 5 , thestationary portion 150 a of the pivot joint 125 has upper and lower pivotjoint brackets upright 116. Thebrackets inner end 122 of thearm 120. The upper pivotjoint bracket 152 and lower pivotjoint bracket 154 have opposed upper and lowerhorizontal plates 156 and 158, respectively. Vertically aligned upper andlower apertures lower plates 156, 158, respectively. Anelongate pin 160 extends through theapertures washer 161 and anut 163 threaded on to the lower portion of thepin 160. The axis of thepin 160 corresponds to thepivot axis 151 about which thearm 120 can pivot. - In the illustrated embodiment, as best seen in
FIG. 5 , the upper andlower brackets vertical gussets 166, 168, respectively, which are secured to theupright 116 and extend generally perpendicularly from thetransverse edges 169 of thehorizontal plates 156, 158. Thegussets 166 of theupper bracket 152 are directed downwardly, and the gussets 168 of thelower bracket 154 are directly upwardly. Thegussets 166, 168 serve to brace thehorizontal plates 156,158 of the upper andlower brackets - The pivoting
portion 150 b of the pivot joint 125 comprises a generallyvertical bore 170 extending through theinner end 122 of thearm 120. Thebore 170 can be substantially cylindrical, having acylindrical wall 171 with open upper and lower ends 172, 174, respectively. Thebore 170 is aligned with theapertures lower pivot brackets pin 160 extends through thebore 170 so that thearm 120 may pivot about thepin 160. - Upper and lower
annular bushings bore 170 to enhance the pivoting action of thearm 120 about thepivot axis 151. In the embodiment illustrated, thebushings pin 160, and an outer diameter sized to fit snugly within thebore 170. Furthermore, the upper andlower bushings flanges 179 that engage the upper andlower faces arm 120 adjacent thebore 170, thereby keeping thebushings bore 170. Thebushings - Referring still to
FIG. 5 , theseating apparatus 100 is further provided with biasing means 184 for biasing theswing arm 120 to the stowedposition 126. The biasing means 184 can advantageously comprise a flat coiledtorsion spring 185 having a first end 186 fixed directly or indirectly to theupright 116, and a second end 188 fixed directly or indirectly to thearm 120. In the illustrated embodiment, thetorsion spring 185 is fitted in thepivot joint 125 of theapparatus 100. More particularly, thetorsion spring 185 comprises a thin strip of resilient metal coiled in flat spiral about thepivot axis 151. Thetorsion spring 185 is positioned between theflange 179 of theupper bushing 176 and the horizontal plate 156 of theupper bracket 152. - An axially extending
boss 190 is provided between theflange 179 of theupper bushing 176 and the horizontal plate 156 of theupper bracket 152. Theboss 190 has an outer diameter that is smaller than the inner diameter of the smallest coil of thetorsion spring 185, so that theboss 190 can extend axially through the center of thetorsion spring 185. - The
boss 190 is fixed to pivot with thearm 120. In the embodiment illustrated, theboss 190 extends from theupper bushing 176 of the pivot joint 12. Anti-rotate means 192 are provided adjacent thebushing 176 and thebore 170 for preventing relative rotation between thebushing 176 and thebore 170, and hence, between theboss 190 and thearm 120. The anti-rotate means 192 can comprise anaxial groove 194 provided along the outer surface of thebushing 176, and a radially inwardly directed key 195 extending from the inner surface of thebore 170 shaped to fit within thegroove 194. - Furthermore, in the embodiment illustrated, the first (radially outermost) end 186 of the
torsion spring 185 comprises a radially outwardly extendinghook 196 that is hooked onto an exposedvertical edge 167 of theadjacent gusset 166. The second (radially innermost) end 188 of the torsion spring 185-comprises a radially inwardly directed tab 198. Theboss 190 is provided with atransverse slot 199 for receiving the tab 198. Accordingly, the first end 186 oftorsion spring 185 is fixed to theupright 116, and the second end 188 of thetorsion spring 185 is secured to theswing arm 120. - It is to be appreciated that the elements of the pivot joint 125 can be assembled quite easily. In particular, the
bushing 176 can be axially inserted into theupper end 172 of thebore 170 of thearm 120 once thegroove 194 has been aligned with the key 195. Thetorsion spring 185 can be placed over theboss 190 of thebushing 176, ensuring that the tab 198 is positioned within theslot 199. With the lower bushing also inserted in thebore 170, theinner end 122 of thearm 120 can be positioned between theplates 156, 158 of the upper andlower brackets - When inserting the
arm 120 between thebrackets hook 196 of thetorsion spring 185 can be aligned to engage theedge 167 of thegusset 166. This will generally require a light force on thetorsion spring 185, since thetorsion spring 185 is preferably pre-loaded. More particularly, thetorsion spring 185 can exert a certain pre-load torque on thearm 120 even when thearm 120 is in the stowed position. - Referring now to
FIGS. 5 and 6 a, to define the deployedposition 128 of thearm 120, theseating apparatus 100 can be provided with static and dynamicadvanced stop elements 200 and 202, respectively. The staticadvance stop element 200 is fixed to theupright 116. The dynamic advance stop element 202 is secured to, and moves with, thearm 120. The advance stopelements 200, 202 are positioned relative to each other such that pivoting of thearm 120 from the stowedposition 126 to the deployedposition 128 causes the dynamic advance stop element 202 to contact the staticadvance stop element 200, thereby preventing further pivoting of thearm 120 beyond the deployed position 128 (FIG. 6 b, and shown in phantom inFIG. 3 ). - In the embodiment illustrated, the static
advance stop element 200 comprises the exposedvertical edge 167 of therear-most gusset 168 b of the lower pivotjoint bracket 154. The dynamic advance stop element 202 comprises a lug 204 welded to the underside of thearm 120. - The
apparatus 100 can also be provided with static and dynamic return stopelements position 126 of thearm 120. The staticreturn stop element 206 is fixed to theupright 116, and the dynamicreturn stop element 208 is secured to thearm 120. - In the embodiment illustrated, the static
return stop element 206 comprises the exposedvertical edge 167 of theforward gusset 168 a of thelower pivot bracket 154. The exposedvertical edge 167 presents a staticreturn abutment surface 207 against which the dynamic return stop 208 can abut. - The dynamic
return stop element 208 comprises abutton 210 that is secured to thearm 120. Thebutton 210 is generally cylindrical in shape having a generally flat mountingface 212 positioned against thearm 120, and anouter diameter surface 214 for contacting the staticreturn stop element 206. - At least one of the static and dynamic return stop
elements apparatus 100, i.e. to the upright 116 or thearm 120, respectively, so that the stowedposition 126 of thearm 120 relative to the upright 116 may be adjusted. In the embodiment illustrated, thebutton 210 is eccentrically mounted to thearm 120 along a mountingaxis 216. Accordingly, rotating thebutton 210 about the mountingaxis 216 changes thedistance 218 between the mountingaxis 216 and thestatic return stop 206 when thestatic return stop 206 is in contact with thesurface 214 of thebutton 210. This in turn changes the angular position of thearm 120 relative to the upright 116 when thearm 120 is in the stowed position 126 (FIG. 6 c, and shown in solid line inFIG. 3 ). - As a result, the width of the
narrow gap 130 between thebackrest 112 of theseat 104 and theadjacent edge 114 of thework surface 106 when thearm 120 is in the stowedposition 126 may be increased or decreased by changing the rotational position of the eccentrically mountedbutton 210. - This feature can be advantageous for a variety of reasons. For example, it is generally desirable to have a stowed
position 126 for theseats 104 wherein thebackrest 112 of theseat 104 is close to, but not in contact with, theadjacent edge 114 of the work surface 106 (i.e. spaced by the narrow gap 130). If thebackrest 112 contacts thework surface 106, premature wear or damage to theseating apparatus 100 could result. If thebackrest 112 is spaced too far from thework surface 106 when thearm 120 is in the stowedposition 126, clear passage behind theseat 104 is compromised. By providing an adjustablereturn stop element seat 104 with respect to thework surface 106 when in thearm 120 is in the stowedposition 126 can be optimized after installation of theseating apparatus 100, despite any expected variations in fabrication or assembly of the various apparatus components. Furthermore, by providing an adjustablereturn stop element seats 104 in a row can be adjusted to be spaced equally apart from thework surface 106 by thenarrow gap 130 when theseats 104 are in the stowedposition 126, thereby providing a neat, professional appearance (FIG. 3 ). - Referring now to
FIG. 7 , theouter end 124 of thearm 120 can be provided with aswivel mechanism 220 for swivelably mounting theseat 104 to thearm 120. Theswivel mechanism 220 can enable theseat 104 to rotate to the left or to the right (counterclockwise or clockwise when viewed from above) from acentral position 222 in which theseat 104 faces theforward direction 135. In the embodiment illustrated, when in thecentral position 222, theseat 104 is oriented such that thebackrest 112 of theseat 104 is generally in parallel alignment with theadjacent edge 114 of the work surface (as seen inFIG. 3 ). - The
swivel mechanism 220 can comprise acartridge 224 fitted in acylindrical housing 226 provided adjacent theouter end 124 of theswing arm 120. Theswivel mechanism 220 can have orientation biasing means 228, for biasing theseat 104 to thecentral position 222. - In the embodiment illustrated, the
cartridge 224 comprises aseat post 230 to which theseat 104 can be attached by means of aseat mounting bracket 232. Theseat post 230 is rotatably supported by thecartridge 224, and thecartridge 224 is fixed within thehousing 226. - Referring now to
FIG. 8 , thehousing 226 is generally cylindrical, having open upper and lower ends 236, 238, respectively. Thecartridge 224 comprises acylindrical sleeve 240 which is received in thehousing 226. Thesleeve 240 can be secured in thehousing 226 by means of radial locking screws 242 provided around the circumference of thehousing 226. In the embodiment illustrated, three lockingscrews 242 are provided. - The
sleeve 240 is also generally cylindrical in shape, having open upper and lower ends 246 and 248, respectively. The lower end of the sleeve is provided with a radially inwardly directed retaininglip 249. The retaininglip 249 can be integrally formed with thesleeve 240, by means of, for example but not limited to, a swaging process. The inner diameter of the retaining lip is, in the embodiment illustrated, larger than the outer diameter of theseat post 230. - The
cartridge 224 further comprises alower bushing 250 positioned in thesleeve 240 adjacent the retaininglip 249. Thebushing 250 has an outer diameter providing a sliding fit within thesleeve 240, and an inner diameter to provide a sliding fit with the outer surface of thepost 230. A lowerspring seat surface 251, characterized by generally flat, annular surface, is provided adjacent the upper axial face of thebushing 250. [0076] The orientation biasing means 228 of theswivel mechanism 220 comprises upper andlower orientation cams compression spring 255 provided about theseat post 230 within thecartridge 224. - In the embodiment illustrated, with reference to
FIGS. 8 a and 8 b, the upper andlower cams upper cam 252 has an inner diameter providing a sliding fit with the outer surface of theseat post 230. The upper end of theupper cam 252 comprises a radially outwardly extendingflange 260. The lower end of theupper cam 252 is provided with anupper cam surface 262, which comprises a generally planar surface oriented at an incline to the axis of theseat post 230. The inclinedupper cam surface 262 presents vertically uppermost andlowermost points - The
lower cam 254 has an inner diameter providing a snug fit with the outer surface of theseat post 230. The lower end of thelower cam 254 has a generally flatspring seat surface 270 oriented perpendicularly to the axis of thepost 230. The upper end of thelower cam 254 is provided with alower cam surface 272, which comprises a generally flat annular surface oriented at an incline to the axis of theseat post 230 that matches the incline of theupper cam surface 262. The inclinedlower cam surface 272 presents vertically uppermost andlowermost points - In the assembled
cartridge 224, thelower cam 254 is fixed to theseat post 230, by, for example, aset screw 255, so that theseat post 230 and thelower cam 254 move together. Thecompression spring 255 is provided in thesleeve 240 between thelower bushing 250 and thespring seat surface 270 of thelower cam 254. Theupper cam 252 is inserted in thesleeve 240 so that theflange 260 abuts the upper face of thesleeve 240, and the upper cam is fixed to the sleeve in that position. In the embodiment illustrated, radial locking rivets 241 extend through thesleeve 240 and engage thesides 256 of theupper cam 252 to lock theupper cam 252 in position relative to thesleeve 240. - In use, the inclined cam surfaces 262 and 272 of the upper and
lower cams seat 104 is in the central position 222 (FIGS. 8 and 9 ). When theseat 104 andseat post 230 are rotated (swiveled) in either direction, thelower cam 254 rotates with thepost 230, and thepost 230 andseat 104 are forced downward as theuppermost point 274 of thelower cam 254 follows the downwardly incliningcam surface 262 of theupper cam 252. This downward translation of theseat 104 compresses thespring 255 and causes thelower end 282 of theseat post 230 to protrude beyond the lower end of the lower bushing 250 (FIG. 10 ). - It is to be appreciated that the
swivel mechanism 220 provides a relatively simple and inexpensive mechanism for swiveling theseat 104 and biasing theseat 104 to acentral position 222. - Furthermore, the amount of rotation for swiveling the
seat 104 can be limited by thevertical clearance 288 provided between the upper end of thecartridge 224 and the lower surface of theseat mounting bracket 232 fixed to thepost 230. In the embodiment illustrated, about 90 degrees of rotation of theseat 104 uses up the availablevertical clearance 288, causing theseat mounting bracket 232 to bottom out against the uppermost end of thecartridge 224, thereby defining the maximum swivel position 223 (FIG. 10 ). Ametal washer 290 can be provided above the upper face of theflange 260 of theupper cam 252, to protect theflange 260 from damage that could result if theseat 104 is aggressively swiveled to its maximum rotation position. - When the
seat 104 is released, the upward force of thecompression spring 255 is transferred by the inclined cam surfaces 262, 272 of thecams seat 104 will swivel back to thecentral position 222. When in thecentral position 222, thelower cam 254 is at its vertically uppermost position, the adjacent cam surfaces 262, 272 of thecams spring 255 is in its least compressed state. - In combination with the pivoting action provided by the
swing arm 120, it will be understood that an occupant of theseat 104, after entering theseat 104, can adjust the position of theseat 104 relative to thework surface 106 by swiveling theseat 104 and by pivoting theswing arm 120 to any desired position between the deployed 128 and stowedpositions 126 of thearm 120. To exit theseat 104, an occupant can push back against thefloor 108 and/or thework surface 106 using his or her feet and hands, respectively, so that thearm 120 is moved to the deployedposition 128 and theaccess space 132 is provided between thebackrest 112 of theseat 104 and theadjacent edge 114 of the work surface 106 (FIG. 2 ). - Upon releasing the
unoccupied seat 104, theseat 104 will swivel to thecentral position 222 and thearm 120 will pivot to the stowedposition 126. In this position, thebackrest 112 of theseat 104 is preferably near, but not in contact with, theadjacent edge 114 of thework surface 106. The precise position of thebackrest 112 of theseat 104 relative to theadjacent edge 114 of thework surface 106 can be adjusted using the adjustable dynamicreturn stop element 210 of the illustrated embodiment, as previously described. - According to another feature of the present invention, and with reference now to
FIG. 11 , theuprights 116 of theseating apparatus 100 can be inclined from the vertical, such that the upright 116 has opposed upper and lower ends 302 and 304, respectively, with theupper end 302 positioned forward (relative to the direction 135) of thelower end 304 of theupright 116. [0087] The inclinedupper portion 306 of the upright 116 (between thework surface 106 and the pivot joint 125) advantageously positions thepivot axis 151 of the pivot joint 125 further rearward relative to theadjacent edge 114 of thework surface 106 than would be possible with a generally vertical upright. The inclinedlower portion 308 of the upright 116 (between thefloor 108 and the pivot joint 125), being in colinear relation with theupper portion 306, enables a straight continuous length of material to be used as theupright 116. - In the embodiment illustrated, the
upright 116 comprises a straight length of steel pipe having anaxis 307. The upper and lower ends 302 and 304 of the upright 116 are cut at right angles to theaxis 307 of the upright 116, producing generally perpendicular upper and lower end faces 302 a and 304 a, respectively. By using a straight but inclined upright 116, the need of a more costly two-piece, or bent, upright is avoided. Furthermore, by having square ends 302 and 304, more costly oblique cuts are avoided. - The inclined
lower portion 308 of the upright 116 (i.e. the length of the upright 116 between thefloor 108 and the pivot joint 125) can advantageously provide anattachment locus 309 for attaching the upright 116 to thefloor 108 that is positioned rearward of thepivot axis 151. Theattachment locus 309 is generally defined by the intersection of theaxis 307 of the upright 116 and the plane defined by theend 304 of theupright 116. The rearward offset of theattachment locus 309 can position the attachment of the upright 116 to thefloor 108 closer to the center of the seat 110 (i.e. closer to thepost 230, which can improve the load distribution of an occupant over the floor attachment and reduce stress loads on the floor attachment accordingly. In the embodiment illustrated, the floor attachment is provided by using afloor bracket 314, described in greater detail subsequently herein. Further, in the embodiment illustrated, theattachment locus 309 of the upright 116 is positioned sufficiently rearward to be at least partially further rearward than aforward edge 111 of theseat base 110 when in the deployedposition 128. - Since the
pivot axis 151 is generally vertical, as desired for theswing arm 120 to pivot in a horizontal plane, thepivot axis 151 is correspondingly inclined to theaxis 307 of theupright 116. In the illustrated embodiment, the upper andlower brackets FIG. 11 ). Thebrackets upright 116. - To provide attachment to the
work surface 106 and thefloor 108, the upper and lower ends 302, 304 of the upright 116 are fitted with awork surface bracket 312 and afloor bracket 314, respectively. Thework surface bracket 312 can have a generally horizontal mountingsurface 316 to which thework surface 106 can be secured. Thework surface bracket 312 can further be provided with aninclined attachment surface 318 to which theupper end 302 of the upright 116 can be fastened. Theinclined attachment surface 318 can be inclined relative to the mountingsurface 316 to abut the upper end face 302 a of the upright 116 in generally flush contact. - The
floor bracket 314 can have aflange portion 319 presenting a generallyhorizontal bearing surface 320 to bear in flush engagement against thefloor 108. Thefloor bracket 314 can provide anattachment pocket 321 for receiving thelower end 304 of the upright 116 and facilitating attachment of thefloor bracket 314 to theupright 116. - The
attachment pocket 321 can include aninclined base 322 that is adapted to provide flush engagement with thelower end face 304 a of theupright 116. Accordingly, the inclined base is inclined with respect to the horizontal, but is generally parallel to a plane defined by thelower end face 304 a. The flush engagement of thelower end face 304 a of the upright 116 and thebase 322 of theattachment pocket 321 can facilitate providing accurate alignment of thefloor bracket 314 relative to theupright 116, and providing a secure and reliable joint between thefloor bracket 314 and theupright 116. - The
floor bracket 314 can advantageously be manufactured of a relatively heavy gauge metal sheet, and can be formed in a press or stamping operation. Thefloor bracket 314 and upright 116 can be joined by inserting the upright 116 into theattachment pocket 321, so that thelower end face 304 a bears in flush engagement against thebase 322. Thefloor bracket 314 and the upright 116 can then be welded together. - Referring now to
FIGS. 12, 12 a, and 12 b, an alternate embodiment of afloor bracket 314′ can be provided to facilitate installing theapparatus 100 on aninclined floor surface 108′, such as commonly found in auditoriums with downward sloping floors. Thefloor bracket 314′ has anattachment pocket 321′ with aninclined base 322′. Theinclined base 322′ is generally inclined relative to the horizontal, and is adapted to provide flush engagement with thelower end face 304 a of theupright 116. Depending on the steepness of the slopedfloor 108′, theinclined base 322′ may be inclined relative to thebearing surface 320′ of thefloor bracket 314′ (FIG. 12 a), or may be generally parallel to thebearing surface 320′ (FIG. 12 b). - Referring now to
FIG. 13 , an alternate embodiment of aswivel mechanism 220′ is shown. Theswivel mechanism 220′ is similar to the swivel mechanism 220 (FIG. 8 ), and like elements are generally denoted by like reference numerals, those with a prime suffix having modifications described in greater detail herein. - The
swivel mechanism 220′ includes, in the embodiment illustrated, a modifiedcartridge 224′ adapted to fit into a modifiedcylindrical housing 226′ secured to theouter end 124 of theswing arm 120. - The
cartridge 224′ includes a modified orientation biasing means 228′ housed in thecylindrical sleeve 240. The orientation biasing means 228′ of theswivel mechanism 220′ includes modified upper andlower orientation cams 252′ and 254′, respectively. - Referring now also to
FIGS. 13 a and 13 b, the upper andlower orientation cams 252′, 254′ are in the form of annular collars having generally cylindrical outer side surfaces 256′ and 258′. The lower end of theupper cam 252′ is provided with anupper cam surface 262′, which in the embodiment illustrated, follows an undulating path having two vertically uppermostpoints defining troughs 264 a′ and 264 b′, and two vertically lowermostpoints defining crests 266 a′ and 266 b′ of theupper cam 252′. - The two
troughs 264 a′ and 264 b′ are generally disposed 180° apart with respect to the axis of theupper cam 252′. Similarly, the twocrests 266 a′ and 266 b′ are generally disposed 180° apart from each other, and 90° apart from thetroughs 264 a′, 264 b′. - The
lower cam 254′ has an upper end that is provided with alower cam surface 272′ that is adapted to engage or follow (as in a cam follower) theupper cam surface 262′. Thelower cam surface 272′, in the embodiment illustrated, follows an undulating path around the perimeter of thelower cam 254′, and has two vertically uppermost points or crests 274 a′, 274 b′, and two vertically lowermost points ortroughs 276 a′, 276 b′. - In the assembled
cartridge 224′ (FIG. 13 ), thelower cam 254′ can be secured to theseat post 230 by means of, for example, aset screw 255. Theupper cam 252′ can be fixed within theupper end 246 of thesleeve 240 by means of, for example, radial locking rivets 241. - The
cartridge 224′ can be secured to theswing arm 120 by inserting thesleeve 240 into thehousing 226′. Radial locking screws 242 can be used to secure thesleeve 240 in thehousing 226′. However, it has been discovered that over extended use, thescrews 242 can work loose. Referring now also toFIG. 14 , to facilitate providing a durable assembly of thecartridge 224′ into thehousing 226′ that does not loosen over time, thehousing 226′ can advantageously be provided with upper and lowersleeve engagement elements housing 226′, and adjacent respective upper and lower ends 236, 238 thereof. - In the embodiment illustrated, the
sleeve engagement elements housing 226′. Thesleeve engagement elements sleeve 240 to provide a snug, near press-fit assembly of thesleeve 240 within thehousing 226′. To provide such a closely toleranced fit over the entire axial length of thehousing 226′ would be cost prohibitive, if possible at all. The localized engagement of thesleeve engagement elements sleeve 240, combined with radial locking screws 242 has been found to provide secure, durable assembly of thecartridge 224′ within thehousing 226′. - In use, as best seen in
FIG. 15 , the undulating cam surfaces 262′ and 272′ of the upper andlower orientation cams 252′, 254, respectively, are in substantially flush contact around the entirety of the circumference of the cam surfaces 262′, 272′ when the seat is unoccupied and oriented so that thecrests 274 a′ and 274 b′ of thelower cam 254′ are seated within thetroughs 264 a′ and 264 b′ of theupper cam 254′ (i.e. thecentral position 222′). When a weight, such as of an occupant, is placed on theseat 104, thelower cam 254′ (secured to the seat post 230) is urged downward, against the force ofspring 255. The downward displacement of theseat 104,post 230, andlower cam 254′ will generally be limited by the engagement of theseat mounting bracket 232 against thewasher 290. This displacement amount is defined by thevertical space 288′ (FIGS. 15 and 16 ). - The vertical distance (or axial extent) between the uppermost and lowermost points (i.e. the
trough 264 a′, 264 b′ and crest 266 a′, 266 b′) of theupper cam member 252′ defines a crest-to-troughaxial extent 288 a′. The crest-to-troughaxial extent 288 a′ can advantageously be sized to be less than thevertical spacing 288′. Such a smalleraxial extent 288 a′ provides anaxial gap 288 b′ between thecrests 266 a′, 266 b′ of theupper cam 252′ and opposingcrests 274 a′, 274 b′ of thelower cam 254′ (FIG. 16 ). The size of theaxial gap 288 b′ is generally defined by the difference between the spacing 288′ and the crest-to-troughaxial extent 288 a′. The gap.288 b′ can allow theseat 104 to be swiveled much more than 90°, and in fact a full 360° in the embodiment illustrated, which can in turn eliminate the possibility of damage to the cam surfaces 262′, 272′ when theseat 104 is swiveled by an occupant. - This can be further understood by considering that when the seat is unoccupied, the spring urges the
post 230 and the attachedlower cam 254′ to their raised position. In the raised position, the cam surfaces 262′ and 272′ are in generally flush contact, and thecrest 266 a′ is seated within thetrough 276 a′ to define acentral orientation position 222′ of themechanism 220′ (FIG. 15 ). When the seat is occupied, and remains oriented in the central orientedposition 222′ (i.e. thecrests 266 a′ and 266 b′ of theupper cam 252′ in rotational alignment with thetroughs 276 a′ and 276 b′, respectively of thelower cam 254′), the axial spacing between the opposed cam surfaces 262′ and 272′ is generally equal to the spacing 288′ (i.e. consider a direct downward displacement of thelower cam 254′ by an amount equal to thegap 288′ inFIG. 15 ). As the seat andlower cam 254′ are rotated relative to theupper cam 252′, the respective cam surfaces are no longer parallel, and the axial spacing between them decreases (FIG. 16 ). The spacing becomes narrowest at about a 90° rotation (FIG. 16 ), but the cam surfaces remain spaced apart (by thegap 288 b′) when the seat is occupied (i.e. when thepost 230 andlower cam 254′ are moved to the lowered position). - This can be contrasted to the mechanism 220 (
FIGS. 8, 9 , and 10), where, at a rotation of slightly more than 900 away from the forward position, theseat bracket 232 will abut thewasher 290, and thelower cam 272 surface will strike theupper cam surface 262, and since no further axially downward movement of thelower cam 254 is possible, further rotation is also not possible. This interference of the cam surfaces, when thelower cam 254 is at its maximum axially downward position defines the maximum rotational limit of the seat. Abrupt or forceful rotation to this maximum rotational limit can cause the cam surfaces 262, 272 to damage each other at their contact point of interference. - Referring again to
FIG. 16 , providing thegap 288 b′ eliminates potential interference of the cam surfaces 262′, 272′ during rotation of the seat, thus eliminating this potential cause of damage. Furthermore, although not necessary to provide thegap 288 b′, the dual-lobed cam design provides a second stable position disposed 180° from the forward oriented position, in which thecrest 274 a′, 274 b′ is seated in thetrough 264 a′, 264 b′. If theseat 104 is rotated less than 90° in either direction from the forward orientation, theseat 104 will be urged to the forward orientation when released. If the seat is rotated more than 90° from the forward orientation, theseat 104 will generally be urged to the second stable position. The second stable position can be useful for providing, for example, temporary clearance under the work surface for cleaning purposes or the like. - While preferred embodiments of the invention have been described herein in detail, it is to be understood that this description is by way of example only, and is not intended to be limiting. The full scope of the invention is to be determined from reference to the appended claims.
Claims (20)
1. A seating apparatus comprising:
a) a support element having an upright extending from a floor and a swing arm pivotably mounted to the upright about a generally vertical pivot axis;
b) a work surface secured to the upright above the swing arm;
c) a seat mounted on the swing arm, the seat having a seat base upon which an occupant can be seated;
d) the swing arm being pivotable between a stowed position wherein the seat base is tucked substantially underneath the work surface, and a deployed position wherein the seat base is substantially clear of the work surface; and
e) a dynamic return stop element secured to the swing arm and a static return stop element secured to the upright, the dynamic and static return stop elements positioned in a common horizontal plane and abutting each other when the swing arm is in the stowed position, at least one of the static and dynamic return stop elements being adjustable relative to the swing arm and the upright, respectively, to change the angular position of the swing arm relative to the upright when the swing arm is in the stowed position.
2. The apparatus of claim 1 wherein the dynamic return stop element is adjustable relative to the swing arm to which the dynamic return stop element is secured.
3. The apparatus of claim 2 wherein the dynamic return stop element comprises an eccentrically mounted button, the button having an attachment axis about which the button can be rotatably adjusted, and an outer surface spaced laterally away from the attachment axis for contacting the static return stop element.
4. The apparatus of claim 3 wherein the static return stop element comprises a bracket extending from the upright.
5. The apparatus of claim 4 wherein the bracket has at least one generally vertical gusset, and the static return stop element comprises an exposed edge of the gusset.
6. The apparatus of claim 1 further comprising biasing means for biasing the arm to the stowed position.
7. The apparatus of claim 6 wherein the biasing means comprises a flat coiled torsion spring, the torsion spring having a first end fixed directly or indirectly to the upright and a second end fixed directly or indirectly to the swing arm.
8. The apparatus of claim 7 wherein the flat coiled torsion spring comprises a thin strip of resilient metal coiled in a flat spiral about the pivot axis.
9. A seating apparatus comprising:
a) a support element having an upright extending from a floor and a swing arm pivotably mounted to the upright about a pivot joint having generally vertical pivot axis;
b) a work surface secured to the upright above the swing arm;
c) a seat mounted on the swing arm, the seat having a seat base upon which an occupant can be seated;
d) the swing arm being pivotable between a stowed position wherein the seat base is tucked substantially underneath the work surface, and a deployed position wherein the seat base is substantially clear of the work surface; and
e) the upright having a lower end adjacent the floor and an upper end adjacent the work surface, the upright being generally straight, and inclined to the vertical such that, relative to a direction in which the seating apparatus is facing, the upper end of the upright is forward of the pivot joint, and the pivot joint is forward of the lower end of the upright.
10. The apparatus according to claim 9 wherein the lower end of the upright provides an attachment locus for attachment of the upright to the floor, the attachment locus being positioned rearward of the pivot axis.
11. The apparatus according to claim 10 wherein the attachment locus of the upright is rearward of a leading edge of the seat base when the swing arm is in the deployed position.
12. The apparatus according to claim 9 wherein the upright is free of bends between the lower end and the upper end of the upright.
13. The apparatus according to claim 12 wherein the pivot axis is inclined relative to the axis of the upright.
14. The apparatus according to claim 9 wherein the upright has a lower end face that is generally perpendicular to the axis of the upright.
15. The apparatus according to claim 14 further comprising a floor bracket secured to the lower end of the upright for mounting the apparatus to the floor.
16. The apparatus according to claim 15 wherein the floor bracket comprises a flange adapted to be mounted in flush engagement to the floor and an attachment pocket positioned generally centrally of the flange and in elevation above the flange, the attachment pocket adapted to receive the lower end of the upright.
17. The apparatus according to claim 16 wherein the attachment pocket has an inclined base that is adapted to engage the lower end face of the upright in flush engagement.
18. The apparatus according to claim 14 wherein the upright has an upper end face that is generally perpendicular to the axis of the upright.
19. A swivel mechanism for swivelably supporting a seat above an arm, the mechanism comprises:
a) a sleeve fixed to an outer end of the arm, the sleeve having open upper and lower ends;
b) a post rotatable within the sleeve, the post having an upper end for attachment to a seat, the post being axially moveable between a raised position and a lowered position;
c) an upper cam fixed within the sleeve and a lower cam fixed to the post and slidable within the sleeve, the upper cam disposed between the lower cam and the upper end of the post; the upper and lower cams having matching inclined annular lower and upper surfaces, respectively, wherein the position of the lower cam relative to the upper cam providing generally flush contact of the matching inclined annular surfaces defines the central position of the swivel mechanism; and
d) a compression spring urging the lower cam against the upper cam, thereby urging the post to the raised position and the swivel mechanism to the central position.
20. The swivel mechanism of claim 18 wherein the upper cam has at least one downwardly directed crest and the lower cam has at least one upwardly directed crest, and wherein, when the pivot is in the lowered position, an axial gap is provided between the downwardly directed and upwardly directed events.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US11/094,310 US20050168017A1 (en) | 2003-08-29 | 2005-03-31 | Auditorium seating |
Applications Claiming Priority (3)
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CA2438629A CA2438629C (en) | 2003-08-29 | 2003-08-29 | Auditorium seating |
US10/651,239 US6899385B2 (en) | 2003-08-29 | 2003-08-29 | Auditorium seating |
US11/094,310 US20050168017A1 (en) | 2003-08-29 | 2005-03-31 | Auditorium seating |
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US10/651,239 Continuation-In-Part US6899385B2 (en) | 2003-08-29 | 2003-08-29 | Auditorium seating |
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US20050168017A1 true US20050168017A1 (en) | 2005-08-04 |
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US11/094,310 Abandoned US20050168017A1 (en) | 2003-08-29 | 2005-03-31 | Auditorium seating |
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US10/651,239 Expired - Fee Related US6899385B2 (en) | 2003-08-29 | 2003-08-29 | Auditorium seating |
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US10646739B2 (en) | 2008-10-17 | 2020-05-12 | Hoist Fitness Systems, Inc. | Exercise machine with lifting arm |
US8870720B1 (en) | 2008-10-17 | 2014-10-28 | Hoist Fitness Systems, Inc. | Exercise machine with lifting arm |
US11759668B2 (en) | 2008-10-17 | 2023-09-19 | Hoist Fitness Systems, Inc. | Exercise machine with lifting arm |
US11000722B2 (en) | 2008-10-17 | 2021-05-11 | Hoist Fitness Systems, Inc. | Exercise machine with lifting arm |
US9861850B1 (en) | 2008-10-17 | 2018-01-09 | Hoist Fitness Systems, Inc. | Exercise machine with lifting arm |
US9205298B2 (en) | 2012-04-17 | 2015-12-08 | Hoist Fitness Systems, Inc. | Exercise machine with unstable user support |
US9707448B2 (en) | 2012-08-08 | 2017-07-18 | Hoist Fitness Systems, Inc. | Exercise machine with movable user support |
US10420985B2 (en) | 2012-08-08 | 2019-09-24 | Hoist Fitness Systems, Inc. | Exercise machine with movable user support |
US10960268B2 (en) | 2012-08-08 | 2021-03-30 | Hoist Fitness Systems, Inc. | Exercise machine with movable user support |
US9833656B2 (en) | 2012-08-08 | 2017-12-05 | Hoist Fitness Systems, Inc. | Exercise machine for movable user support |
US11504583B2 (en) | 2012-08-08 | 2022-11-22 | Hoist Fitness Systems, Inc. | Exercise machine with movable user support |
CN104433346A (en) * | 2013-09-13 | 2015-03-25 | 昆山市玉山镇仕龙设计工作室 | Anti-lost desk and stool bringing convenience to floor sweeping |
CN103610331A (en) * | 2013-11-29 | 2014-03-05 | 李五珍 | Table-chair combined set |
CN108851647A (en) * | 2018-04-28 | 2018-11-23 | 广州翔特钢艺办公设备有限公司 | Stowable combined table and chair assembly |
Also Published As
Publication number | Publication date |
---|---|
US20050046257A1 (en) | 2005-03-03 |
US6899385B2 (en) | 2005-05-31 |
CA2438629A1 (en) | 2005-02-28 |
CA2438629C (en) | 2011-02-15 |
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