Stacking bracket for partitions

Information

  • Patent Grant
  • 6330773
  • Patent Number
    6,330,773
  • Date Filed
    Friday, April 16, 1999
    25 years ago
  • Date Issued
    Tuesday, December 18, 2001
    23 years ago
Abstract
An extension panel for connection to a lower panel of the type having vertical uprights defining upper ends and including a utilities passageway extending along an upper edge of the lower panel for receiving utility conduits therein. The extension panel includes a pair of space-apart upright posts, and at least one beam extending between the posts and rigidly interconnecting the same. A pair of structural members extend downwardly from the lower ends of the posts to engage the lower panel and rigidly interconnect the extension panel and the lower panel. The structural members are laterally spaced-apart to define a downwardly-opening utilities opening therebetween. The utilities opening is positioned in alignment with the utilities passageway of the lower panel to permit utilities conduits to pass through the utilities opening when the extension is secured to the lower panel.
Description




BACKGROUND OF THE INVENTION




The present invention relates to office partition panel systems, and in particular to a stacking partition configured for quick and easy on-site manual assembly.




The efficient use of building floor space is an ever-growing concern, particularly as building costs continue escalating. Open office plans have been developed to reduce overall officing costs, and generally incorporate large, open floor spaces in buildings that are equipped with modular furniture systems which are readily reconfigurable to accommodate the ever changing needs of a specific user, as well as the divergent requirements of different tenants. One arrangement commonly used for furnishing open plans includes movable or portable partition panels that are detachably interconnected to partition off the open spaces into individual workstations and/or offices. Such partition panels have sufficient structural strength to receive hang-on furniture units, such as worksurfaces, overhead cabinets, shelves, etc., and are generally known in the office furniture industry as “systems furniture.” Such partition panels have an acoustical sound-absorbing configuration to promote a quiet, pleasant work environment.




In an effort to accommodate the changing requirements of the users, “stacking” panel systems have been developed to permit the height of a partition panel to be extended if required for a particular application. Known stacking panel systems may be difficult to install, and further, the stacking panel may interfere with the routing of communications and/or power lines through the partition system. Furthermore, because of the increased height, and/or structural limitations of the stacking panel, mounting of a standard storage bin or shelf to the stacking panel may present safety concerns. Accordingly, a stacking panel system alleviating the above-identified problems is desired.




SUMMARY OF THE INVENTION




One aspect of the present invention is an extension panel for connection to a lower panel of the type having vertical uprights defining upper ends and including a utilities passageway extending along an upper edge of the lower panel for receiving utility conduits therein. The extension panel includes a pair of space-apart upright posts, and at least one beam extending between the posts and rigidly interconnecting the same. A pair of structural members extend downwardly from the lower ends of the posts to engage the lower panel and rigidly interconnect the extension panel and the lower panel. The structural members are laterally spaced-apart to define a downwardly-opening utilities opening therebetween. The utilities opening is positioned in alignment with the utilities passageway of the lower panel to permit utilities conduits to pass through the utilities opening when the extension is secured to the lower panel.




Another aspect of the present invention is an extension panel that is securable to a lower panel of the type having a utilities passageway extending adjacent the upper edge thereof that receives utilities conduits therein. The extension panel includes an extension panel frame defining vertically-extending side edges. The extension panel frame has a horizontal lower extending between side edges and defining therewith a pair of spaced-apart lower corners. The side edges define a vertical plane extending between the side edges. The extension panel frame has a flat plate portion extending downwardly below the lower edge, and the flat plate portion is disposed transverse to the vertical plane. The flat plate portion also has a downwardly-opening utilities cut-out there through positioned in alignment with the utilities passageway when the extension panel is secured to the lower panel to permit passage of utility conduits along the utilities passageway and through the utilities cut-out.




Yet another aspect of the present invention is a bracket for interconnecting an A extension panel above a lower panel of the type having a vertical frame member with upper apertures proximate and upper end of the vertical frame member for receiving connectors of hang-on accessory units. The bracket includes an upper portion to be rigidly secured to the extension panel. A lower portion of the bracket extends below a lower edge of the extension panel when the bracket is installed to the extension panel. The lower portion is cut-out to provide clearance through the upper apertures of the vertical frame member, such that the bracket permits reception of support hooks of hang-on accessory units within the upper apertures.




Yet another aspect of the present invention is a frame member for an extension panel configured to be interconnected to a lower panel along the upper edge of the lower panel. The frame member defines at least one aperture for reception of a first type of connector of a hang-on accessory unit. A blocking member is positioned inwardly of the aperture and prevents full engagement of the second type of connector in the aperture.




Yet another aspect of the present invention is an adapter bracket for connecting a first type of hang-on accessory unit having standard-size connector hooks to a second type of partition having a lower panel and an extension panel. The bracket includes a first portion configured to receive the standard-size connector hooks and interconnect the adapter bracket with a hang-on accessory unit. The bracket also includes blocking hooks having an enlarged end portion permitting full insertion into apertures of a lower panel, yet preventing full insertion into apertures of an extension panel having blocking members positioned inwardly from the apertures to prevent excessive loading of the extension panel by the accessory unit.




Yet another aspect of the present invention is a partition system including at least a pair of side-by-side partition frames. Each of the partition frames have a rectangular perimeter defining an upper edge, and include a utilities passageway for routing utilities adjacent the upper edge of the frames. Each of the partition frames includes a connector bracket having a downwardly opening utilities cut-out aligned with the utilities passageway to permit routing of the utilities through the utilities passageway and the utilities cut-out. The connector brackets are rigidly interconnected to one another and rigidly interconnect the partition frames.




Yet another aspect of the present invention is a partition frame assembly including a lower partition frame having a pair of spaced-apart structural uprights. The lower partition frame also has a lower portion adapted to abuttingly support the lower partition frame on a floor surface, and has an upper portion defining an upper edge. The lower partition frame further includes a utilities passageway shaped for routing of utilities conduits adjacent the upper edge of the lower partition frame. An upper partition frame defining a lower edge is positioned above the lower partition frame. A pair of spaced-apart rigid structural members extend downwardly from the upper partition frame, and are positioned along side the structural uprights of the lower partition frame. The structural members are rigidly interconnected with the structural uprights of the lower partition frame, such that the upper partition frame is rigidly interconnected with the lower partition frame. The structural members have downwardly-opening apertures therethrough aligned with the utilities passageway to permit utilities conduits to pass through the aperture. The apertures permit installation of the upper partition frame to the lower partition frame without rerouting of existing utilities conduits that extend along the utilities passageway of the lower partition frame.




These and other advantages of the invention will be further understood and appreciated by those skilled in the art by reference to the following written specification, claims, and appended drawings.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is a fragmentary, exploded perspective view of a partition including a stacking bracket embodying the present invention;





Fig. 1



a


is a cross-sectional view of the extension post of

FIG. 1

taken along the line IA—IA;





FIG. 2

is a fragmentary, partially exploded perspective view of the partition of

FIG. 1

;





FIG. 3

is an fragmentary, exploded perspective view of the partition of FIG.


1


.





FIG. 4

is a partially exploded fragmentary perspective view of the partition of

FIG. 1

;





FIG. 5

is a perspective view of a pair of side-by-side prior art Steelcase MONTAGE® panel frames illustrating the frame-to-frame interconnection;





FIG. 6

is a perspective view of a prior art Steelcase MONTAGE® panel frame showing the prior art stacking arrangement;





FIG. 7

is an exploded perspective view showing a modified Steelcase MONTAGE® panel frame interconnected by a second embodiment of the stacking bracket of the present invention.





FIG. 8

is a fragmentary perspective view of a portion of a panel frame of

FIG. 7

;





FIG. 9

is a fragmentary, exploded perspective view of the stacking bracket of

FIG. 7

;





FIG. 10

is a cross-sectional view of the stacking bracket of

FIG. 9

illustrating an alternate cross-sectional shape;





FIG. 11

is a perspective view of the partition of

FIG. 1

showing binder bins in the installed position;





FIG. 12

is a cross-sectional view of the extension post taking along the line XI—XI;

FIG. 1

;





FIG. 13

is a perspective view of an adapter bracket that mounts a standard Steelcase AVENIR® storage bin to the partition of

FIG. 1

;





FIG. 14

is a bottom elevational view of the bracket of

FIG. 13

;





FIG. 15

is a front elevational view of the bracket of

FIG. 13

;





FIG. 16

is a side elevational view of the bracket of

FIG. 13

;





FIG. 17

is an exploded, fragmentary perspective view showing installation of the bracket of

FIG. 13

to a partition panel;





FIG. 18

is an exploded, fragmentary, perspective view showing installation of a standard Steelcase AVENIR® storage bin to the adapter bracket of FIG.


13


.











DETAILED DESCRIPTION OF PREFERRED EMBODIMENT




For purposes of description herein, the terms “upper,” “lower,” “right,” “left,” “rear,” “front,” “vertical,” “horizontal,” and derivatives thereof shall relate to the invention as oriented in FIG.


1


. However, it is to be understood that the invention may assume various alternative orientations and step sequences, except where expressly specified to the contrary. It is also to be understood that the specific devices and processes illustrated in the attached drawings and described in the following specification are simply exemplary embodiments of the inventive concepts defined in the appended claims. Hence, specific dimensions and other physical characteristics relating to the embodiments disclosed herein are not to be considered as limiting, unless the claims expressly state otherwise.




The reference numeral


1


(

FIG. 1

) generally designates a stacking bracket embodying the present invention, which is particularly designed for use with partition panel systems. In the illustrated example, the stacking bracket


1


comprises a connector for securing an upper panel


2


along the upper edge


3


of a lower panel


4


. The lower panel


4


of the type having an upwardly-opening utilities passageway


5


(see also

FIG. 4

) extending along the upper edge thereof that receives lay-in utility conduits such as power or communications cabling


6


. A pair of structural members


7


extend downwardly below a lower edge


8


of the upper panel


2


. The structural members are shaped to engage the lower panel


4


and rigidly connect the upper panel


2


and lower panel


4


. The structural members


7


are laterally spaced-apart and define a downwardly opening utilities opening


9


therebetween. The utilities opening


9


is positioned generally in alignment with the utilities passageway


5


to permit utility conduits


6


to pass through the utilities opening


9


when the upper panel


2


is secured to the lower panel


4


.




With further reference to

FIGS. 3 and 4

, a standard Steelcase ANSWER partition panel


4


includes vertical posts


10


, each of which has an adjustable glide


11


on the lower end thereof. As described in detail in the above-identified co-pending U.S. patent application Ser. No. 09/060,913 entitled KNOCK-DOWN PORTABLE PARTITION SYSTEM, filed on Apr. 15, 1998, beams


12


extend between the posts


10


, and rigidly interconnect the posts


10


to form a rigid panel frame


13


. Posts


10


and beams


12


are made from metal, such as steel, and have a tubular, quadrilateral cross-section. Each beam


12


includes four hooks


14


at the opposite ends that are received within apertures


15


in the posts


10


when in the assembled condition. Each beam


12


further includes a lock member


16


that is movably mounted on each end of the beam


12


. Lock members


16


shift between a locked position and unlocked position. When the lock member


16


is in the locked position, the lock member


16


engages an aperture


17


in the posts


10


, and ensures the hooks


14


cannot disengage the apertures


15


. The panel


4


may include one or more utility troughs


18


, each of which is formed from metal and has a generally upwardly opening U-shaped cross-section. As best seen in

FIG. 4

, the utility troughs


18


may be placed along the top edge


3


of the panel


4


, thereby forming utilities passageway


5


running along the top edge


3


of panel


4


. Each of the posts


10


includes an upwardly-opening cut-out


19


that aligns with the utility troughs


18


along the upper edge


3


of the panel


4


to permit lay-in of utility conduits


6


. A plurality of openings


20


through posts


10


provide clearance for passage-through of utility conduits


6


through the central portion of the panel


4


. Power receptacles


21


may be mounted to the utility troughs


18


, and power lines


22


routed to the power receptacles


21


through the panel


4


. Similarly, communications receptacles


23


may also be mounted to the utility troughs


18


at various heights and locations, and communications lines


24


routed through the panel


4


. Accordingly, the various utilities may be routed along either the top edge


3


, lower edge


25


, or central portions of the panel


4


. Cover panels


26


include clips


27


that are received within apertures


28


of posts


10


to thereby retain the cover panels


26


on the panel frame


13


.




With reference to

FIG. 1

, upper panel


2


includes an extension panel frame


30


that includes a standard beam


12


, and a pair of extension posts


31


. Extension posts


31


have substantially the same construction as posts


10


, except that structural members


7


are provided at the lower end of posts


31


for connection to lower posts


10


. The structural members


7


comprise flat metal plates that are received within the open lower ends


32


of extension posts


31


. Posts


10


and extension posts


31


each have a generally quadrilateral, tubular cross-sectional shape, and each structural member


7


is welded or otherwise secured to the inner side of the sidewalls


33


of extension posts


31


(see also FIG.


1


A). The side edges


35


of structural members


7


closely abut the opposite sidewalls


34


of extension posts


31


, and also closely abut the corresponding opposite sidewalls


34


of posts


10


when in the assembled condition. The outer sides


36


of structural members


7


also closely abut the inner side surfaces


37


of lower posts


10


when assembled. Because the side edge


35


and outer sides


36


of structural members


7


abuttingly engage the inner sidewalls of post


10


, the extension post


31


is retained in alignment with the lower post


10


. Each structural member


7


includes a cut-out slot


38


that aligns with the vertical row of apertures


39


in the lower post


10


, such that the stacking bracket


1


does not interfere with the apertures


39


that are used for receiving hang-on accessory units. A pair of elongated tie bolts


40


extend through the beam


12


of the extension panel frame


30


, and through openings


41


in the beam


12


of the lower panel frame


13


, and rigidly interconnect the extension panel


30


and lower panel frame


13


. A clip


42


may be used to support the extension posts


31


. Clip


42


includes a pair of end portions


43


that extend into the upper portion of apertures


15


directly adjacent hooks


14


of beams


12


. When installed, the lower edge


44


of structural member


7


contacts the clip


42


, thereby limiting the engagement of structural member


7


within lower posts


10


. Extension posts


31


include a plurality of apertures


39


for receiving hang-on accessory units or the like, and also include an upwardly-opening cut-out


19


that is substantially the same as cut-out


19


of posts


10


for lay-in of utility conduits along the upper edge of the extension panel frame.




A second embodiment of the stacking bracket of the present invention, designated


80


in

FIG. 7

, replaces the conventional Steelcase MONTAGE® stacking panel


81


illustrated in FIG.


6


. The existing prior art MONTAGE® frames


82


illustrated in

FIGS. 5 and 6

include a pair of vertical frame members


83


forming the side edges of the frames


82


, and vertically spaced-apart horizontal frame members


84


forming the upper and lower edges of the frame


82


. The vertical frame members


83


include a plurality of openings


85


therethrough to accommodate horizontal routing of utility lines such as communications and power cabling (not shown). As illustrated in

FIG. 5

, a pair of side-by-side frames


82


are interconnected by conventional bolts or conventional fasteners


86


that extend through the vertical frame members


83


.




The stacking frame


82


is similar to the lower frames


82


, and includes vertical side frame members


87


with openings


85


for communications and power lines and the like. The stacking frame


81


also includes vertically spaced-apart horizontal frame members


84


that rigidly interconnect the vertical stacking frame members


87


to form the stacking frames


81


. As illustrated in

FIG. 6

, a side-by-side pair of the stacking frames


81


are interconnected using standard conventional fasteners


86


, and the stacking frames


81


are secured to the lower frames


82


using conventional fasteners


86


.




With further reference to

FIG. 7

, the stacking brackets


80


of the present invention replace the conventional fasteners


86


illustrated in

FIGS. 5 and 6

, and discussed above. The stacking panel frame


81


and lower frames


82


illustrated in

FIG. 7

, are substantially the same as the stacking frame


81


and lower frame


82


of

FIG. 6

, except that the horizontal frame member


84


has been cut-out adjacent each vertical frame member


83


to form an opening


88


. The opening


88


is formed at both the upper end


89


and lower end


90


of each vertical frame member


83


and


87


. Each stacking bracket


80


includes a plurality of openings


91


that align with openings


92


in the side frame members


83


and


87


upon insertion of the stacking bracket


80


into the opening


88


. Conventional fasteners such as bolts are then inserted through the openings


91


and


92


to secure the stacking bracket to the vertical frame members


83


and


87


. Stacking bracket


80


includes a generally U-shaped cut-out


93


that registers with the opening


85


upon insertion of the stacking bracket


80


into opening


88


. The opening


93


permits routing of utilities through the openings


85


of the frame. Similarly, an upwardly-opening cut-out


94


of stacking bracket


80


aligns with an opening


85


in the vertical side frame member


87


of the stacking panel frame


81


. Bracket


100


may be used to interconnect a pair of side-by-side lower frames


82


. Bracket


100


includes openings


91


that receive conventional bolts or other fasteners to secure the bracket


100


to the vertical frame member


83


. A conventional bolt or other fasteners then extended through the opening


101


to secure the bracket


100


to either an adjacent stacking bracket


80


or another bracket


100


at a non-stepped location. The fasteners (not shown) that are inserted through the openings


101


are received within the channel


103


along the upper edge of the horizontal upper frame members


84


, and the fasteners also extend through the cut-out portion


102


(see

FIG. 8

) of the vertical side frame members


83


. The stacking bracket


80


and side-by-side bracket


100


are shown as being fabricated from a flat plate of metal, such as steel or other suitable material. It is anticipated that the brackets


80


and


100


could have a cross-sectional shape as illustrated in

FIG. 10

including a flat base web


105


, and a pair of orthogonal flanges


106


forming a generally U-shaped cross-section. The cut-outs


93


and


94


form structural members


97


corresponding to the structural members


7


described above with respect to the stacking bracket


1


illustrated in FIG.


1


. It is anticipated that the flanges


106


would provide additional strength along the structural members


97


if required for a particular application. The stacking bracket


80


provides a rigid structural interconnection between the stacking frame


81


and lower frame


82


, thereby permitting substantial loading of the stacking panel


81


, such as by attachment of overhead storage bins and the like. In addition, the cut-out portions


93


and


94


permit routing of utilities adjacent the upper and lower edges of the panel frames, such that the utility lines in the lower frame


82


do not need to be re-routed for attachment of the stacking panel frame


81


. Furthermore, the side-by-side bracket


100


permits interconnection of a pair of side-by-side frames


82


, without requiring removal of the cover panels (not shown) that are installed over the frames


81


and


82


when fully assembled. Because the fastener that extends through the opening


101


is positioned within the channel


103


, an installer can access the fastener without removal of the cover panels. Accordingly, bracket


100


provides a quick and convenient interconnection between a pair of side-by-side frames


82


. The panel frames


81


and


82


each include a protrusion or other stop (not shown) that extends into the opening


88


and contacts the ends


95


of the structural members


97


. Alternately, the stop may contact the inner end portion


96


of the opening


93


upon insertion of the bracket


80


or


100


into the opening


88


. The stop properly positions the bracket


80


or


100


at the desired location, and prevents “excessive” insertion of the bracket


80


or


100


into the opening


88


.




With reference to

FIG. 11

, one or more storage bins


50


may be connected to the lower panels


4


or the extension panels


2


. Storage bins


50


may be a standard Steelcase AVENIR® storage bin that includes a plurality of mounting hooks that are configured to be received within the vertical rows of apertures in a standard Steelcase AVENIR® partition (not shown). Bin


50


may also be mounted to the Steelcase ANSWER partition


4


utilizing an adapter bracket


52


described in detail below. Because the extension posts


31


may not have sufficient strength to support the hang-on storage bin


50


, the extension posts


31


include a “hat” channel


51


extending inside post


31


along the row of apertures


39


. As described below, channel


51


prevents mounting of the adapter bracket


52


and storage bin


50


to posts


31


, but permits mounting of bin


50


to lower posts


10


.




With further reference to

FIGS. 13-15

, adapter bracket


52


includes a plurality of openings


53


in web


54


. The illustrated bracket


52


is a “left handed” bracket. The “right handed” bracket (not shown) is a mirror image of the illustrated bracket


52


. Adapter bracket


52


includes a plurality of hooks


55


, each of which has an extra-deep or “thick” end portion “D”. The extra depth of hooks


55


prevents mounting of bracket


52


to the extension


31


because the edge


57


of hooks


55


contacts the inner side surface


56


of hat channel


51


if a user attempts to install the adapter bracket


52


to the extension posts


31


. When the outer edge


57


of hook


55


contacts inner surface


56


of hat channel


51


, hook


55


cannot fully engage the vertical row of apertures


39


in extension posts


31


, thereby preventing installation of adapter bracket


52


to the upper panel


2


. However, a standard Steelcase ANSWER storage bin (not shown) includes conventional standard-sized mounting hooks without extra deep end portions “D”, such that the standard Steelcase ANSWER bin can be mounted either to the lower panel


4


, or the upper panel


2


. The standard-size hooks have a relatively small depth “D” that does not contact inner surface


56


of hat channel


51


, thereby permitting installation to the extension post


31


. Because the Steelcase AVENIR® bin


50


is capable of receiving a load greater than the extension panel


2


can accommodate, the adapter bracket


52


provides a safety function, and prevents installation of the AVENIR® storage bin


50


to the extension posts


31


. However, lower posts


10


do not include a hat channel


51


, such that the AVENIR® bin


50


may be installed to the lower posts


10


utilizing the adapter bracket


52


. Similar adapter bracket arrangements utilizing extra deep hooks may also be utilized to mount other types of existing storage bins or shelves to lower posts


10


, while preventing installation to extension posts


31


.




Bracket


52


includes a safety clip


58


having end portion


59


that is received within an aperture


39


when in the installed position to prevent accidental dislodgment of the bracket


52


from the post


10


. Safety clip


58


is made of spring steel or other suitable material, and is spot-welded or otherwise connected to the bracket


52


at


62


. Web


54


is formed by one leg of L-shaped member


63


that is welded to the main bracket member


64


, such as by spot-welding at


65


. The main bracket member


64


includes a perpendicular end flange


61


forming hook portions


60


.




With further reference to

FIGS. 17 and 18

, during installation, the hooks


55


of each adapter bracket


52


are inserted into the vertical row of apertures


39


in a lower post


10


. The hooks


66


of the storage bin


50


are then inserted in the openings


53


in adapter bracket


52


to secure the binder bin


50


to the adapter bracket


52


. When installed, the hook portions


60


of end flange


61


of adapter bracket


52


fit around the upper edge


67


and lower edge


68


of the hooks


66


of bin


50


to thereby stabilize the adapter bracket


52


. When installed, the side edge


69


of flange


61


also engages the side surface


70


of hooks


66


of storage bin


50


. The combination of the engagement of hooks


66


in openings


53


, and the engagement of the side edge


69


and hook portion


60


with the upper edge


67


and lower edge


68


, and the side surfaces


70


of hooks


66


, ensure that the adapter bracket


52


is stable, and does not rotate about a vertical axis.




The stacking bracket


1


of the present invention permits a stacking panel to be quickly and easily connected to a lower panel, without requiring the removal and/or rerouting of utilities extending along the upper edge of the lower panel. The adapter brackets of the present invention prevent accidental mounting of a storage bin to the stacker panel in a position unsuited for a higher loaded storage bin.




In the foregoing description, it will be readily appreciated by those skilled in the art that modifications may be made to the invention without departing from the concepts disclosed herein. Such modifications are to be considered as included in the following claims, unless these claims by their language expressly state otherwise.



Claims
  • 1. An extension panel for connection to a lower panel of the type having vertical uprights defining upper ends and including a utilities passageway extending along an upper edge of the lower panel for receiving utility conduits therein, said extension panel comprising:a pair of spaced-apart upright posts, each having a lower end; at least one beam extending between said posts and rigidly interconnecting the same; a pair of structural members extending downwardly from each said lower and of each post to engage the upper ends of the vertical uprights of the lower panel and rigidly interconnect said extension panel and the lower panel; said structural members laterally spaced-apart to define a transverse, downwardly-opening utilities opening therebetween, said utilities opening positioned in alignment with said utilities passageway of the lower panel to permit utility conduits to pass through said utilities opening when said extension panel is secured to the lower panel.
  • 2. The extension panel set forth in claim 1, wherein:said posts of said extension panel include apertures therein for receiving connectors of hang-on accessory units; and said structural members have sufficient strength to permit support of hang-on accessory units from said apertures of said extension panel.
  • 3. The extension panel set forth in claim 2, including:at least one threaded fastener adapted to interconnect the extension and lower panels.
  • 4. The extension panel set forth in claim 3, wherein:said structural members are shaped to be received within openings in the upper ends of the vertical uprights of the lower panel.
  • 5. The extension panel set forth in claim 4, wherein:said structural members comprise spaced-apart plate members.
  • 6. The extension panel set forth in claim 5, wherein:said structural members each include an opening therethrough to provide clearance for connectors of a hang-on accessory unit mounted on the vertical uprights of the lower panel.
  • 7. An extension panel securable to a lower panel of the type having a utilities passageway extending adjacent the upper edge thereof that receives conduits therein, said extension panel comprising:an extension panel frame defining vertically-extending side edges and a horizontal lower edge extending between said side edges and defining therewith a pair of spaced-apart lower corners, said side edges defining a vertical plane extending between said side edges; said extension panel frame having a flat plate portion extending downwardly below said lower edge, said flat plate portion disposed transverse to said vertical plane; and said flat plate portion having a downwardly-opening utilities cut-out therethrough positioned in alignment with said utilities passageway when said extension panel is secured to a lower panel to permit passage of utility conduits along said utilities passageway and through said utilities cut-out opening.
  • 8. The extension panel set forth in claim 7, wherein:said flat plate portion includes a pair of spaced apart downwardly extending structural connectors defining said utilities cut-out therebetween.
  • 9. The extension panel set forth in claim 8, wherein:said extension panel includes an extension frame having apertures for receiving connectors of hang-on accessory units; and said extension frame and said flat plate portions have sufficient strength to permit support of hang-on accessory units from said extension frame.
  • 10. The extension panel set forth in claim 9, wherein:said cut-out through said plate portion is U-shaped.
  • 11. The extension panel set forth in claim 10, including:at least one fastener extending through said flat plate portion to interconnect said extension frame to the lower panel.
  • 12. An extension panel securable to a lower panel of the type having a utilities passageway extending adjacent the upper edge thereof that receives conduits therein, said extension panel comprising:an extension panel frame defining vertically-extending side edges and a horizontal lower edge extending between said side edges and defining therewith a pair of spaced-apart lower corners, said side edges defining a vertical plane extending between said side edges; said extension panel frame having a flat plate portion extending downwardly below said lower edge, said flat plate portion disposed transverse to said vertical plane; said flat plate portion having a downwardly-opening utilities cut-out therethrough positioned in alignment with said utilities passageway when said extension panel is secured to a lower panel to permit passage of utility conduits along said utilities passageway and through said utilities cut-out opening; said flat plate portion including a pair of spaced apart downwardly extending structural connectors defining said utilities cut-out therebetween; said extension panel including an extension frame having apertures for receiving connectors of hang-on accessory units; and said extension frame and said flat plate portions having sufficient strength to permit support of hang-on accessory units from said extension frame; at least one fastener extending through said flat plate portion to interconnect said extension frame to the lower panel; and wherein: said flat plate portion comprises a discrete connector bracket having an elongated member defining opposite ends, each said end having a U-shaped cut-out forming a utilities opening through said flat plate.
  • 13. The extension panel set forth in claim 12, wherein:said extension frame includes a pair of spaced-apart vertical frame members and upper and lower frame members extending therebetween and rigidly interconnecting said vertical frame members to define a rectangular perimeter of said extension frame, said lower frame member having openings in opposite ends thereof adjacent said vertical frame members; said connector bracket received through a selected one of said openings in said lower frame members and secured to a selected one of said side frame members.
  • 14. A bracket for interconnecting an extension panel above a lower panel of the type having a vertical frame member with upper apertures proximate an upper end of said vertical frame member for receiving connectors of hang-on accessory units, said bracket comprising:an upper portion shaped to be rigidly secured to said extension panel; a lower portion adapted to extend below a lower edge of the extension panel when said bracket is installed to the extension panel; said lower portion including a transverse, elongated U-shaped cut-out to provide clearance through said upper apertures such that said bracket permits reception of support hooks of hang-on accessory units within said upper apertures; said bracket including a downwardly-opening utilities opening permitting reception of utilities conduits therein, such that said bracket can be installed to a lower panel having utilities conduits extending along an upper edge thereof; and wherein: said bracket comprises spaced-apart plates defining said utilities opening therebetween.
  • 15. The bracket set forth in claim 14, wherein:each plate has an opening therethrough providing clearance for support hooks of hang-on accessory units.
  • 16. A frame member for an extension panel configured to be interconnected to a lower panel along the upper edge of the lower panel;said frame member defining at least one aperture adapted for reception of a first type of connector of a hang-on accessory unit; and including a blocking member positioned inwardly of said aperture and extending across at least a portion of said aperture to prevent full engagement of a second type of connector in said aperture.
  • 17. A frame member as set forth in claim 16, wherein:said frame member defines a sidewall having a vertical row of apertures therethrough; and said blocking member extends along on inner side of said sidewall with at least a portion thereof in alignment with said apertures and spaced inwardly of said sidewall to permit full insertion of a first type of connector, yet preventing full insertion of a second type of connector.
  • 18. A frame member as set forth in claim 17, wherein:said blocking member comprises an elongated hat-shaped member extending along said apertures, and in alignment therewith.
  • 19. A frame member as set forth in claim 18, including:a hang-on accessory unit having a first type connector and a second type connector; said first type of connector comprising a hook having an end portion defining a standard width, and said second type of connector comprising a hook having an end portion defining a width greater than said standard width and preventing full insertion of said second type connector in said apertures.
  • 20. An adapter bracket for connecting a first type of hang-on accessory unit having standard-sized connector hooks to a second type of partition having a lower panel and an extension panel, said bracket comprising:a first portion configured to receive said standard-sized connector hooks and interconnect said adapter bracket with a hang-on accessory unit; and blocking hooks having an enlarged end portion permitting full insertion into apertures of a lower panel, yet preventing full insertion into apertures of an extension panel having blocking members positioned inwardly from the apertures to thereby prevent excessive loading of said extension panel by said accessory unit.
  • 21. The adapter bracket of claim 20, wherein:said blocking hooks have a free end portion defining a width sufficiently large to prevent insertion into the apertures of an extension panel having a blocking member spaced inwardly in alignment with the apertures.
  • 22. The adapter bracket of claim 21, wherein:said first portion includes a row of apertures adapted to receive connector hooks of a hang-on accessory unit.
  • 23. A partition system including at least a pair of side-by-side partition frames, each having a rectangular perimeter defining an upper edge and including a generally horizontal utilities passageway for routing utilities adjacent said upper edge of said frames, and wherein:each said partition frame includes a connector bracket having a pair of downwardly extending extensions that are spaced apart to define downwardly-opening utilities cut-out aligned with said utilities passageway to permit generally horizontal routing of utilities through said utilities passageway and through said utilities cut-out, said connector brackets rigidly interconnected to one another and rigidly interconnecting said partition frames.
  • 24. The partition system set forth in claim 23, wherein:said partition frames each include a horizontal frame member having opposite ends and defining a top edge of said frame, said partition frames including a pair of vertical side frame members rigidly interconnected with said opposite ends of said horizontal frame member and defining opposite side edges of said partition frames, each of said partition frames having an opening through said horizontal frame members adjacent a selected one of said vertical side frame members; and wherein: said connector bracket comprises a first connector bracket; and including: a second connector bracket; said connector brackets received within said openings in said horizontal frame member and positioned in alignment with one another in said partition frames, said connector brackets rigidly interconnected with said partition frames and with one another to thereby rigidly interconnect said partition frames.
  • 25. A partition frame assembly, comprising:a lower partition frame including a pair of spaced-apart structural uprights, said lower partition frame having a lower portion adapted to abuttingly support said lower partition frame on a floor surface, said lower partition frame having an upper portion defining an upper edge, said lower partition frame further including a utilities passageway shaped for routing of utilities conduits adjacent said upper edge; an upper partition frame positioned above said lower partition frame, said upper partition frame defining a lower edge; a pair of spaced-apart rigid structural members extending downwardly from said upper partition frame; said structural members rigidly interconnected with said structural uprights of said lower partition frame such that said upper partition frame is rigidly interconnected with said lower partition frame; and each structural member comprising a pair of rigid members extending downwardly therefrom said rigid member spaced apart to define a downwardly-opening U-shaped aperture therebetween, said apertures aligned with said utilities passageway to permit generally horizontal utilities conduits to pass through said aperture, and permitting installation of said upper partition frame to said lower partition frame without rerouting of existing utilities conduits extending along said utilities passageway of said lower partition frame.
  • 26. The partition frame assembly set forth in claim 25, wherein:said lower partition frame includes a pair of vertically spaced-apart beams extending between said structural uprights, said beams having opposite ends thereof rigidly yet releasably interconnected with said structural uprights.
  • 27. The partition frame assembly set forth in claim 26, wherein:said lower partition frame includes an upwardly-opening utilities passageway extending along said upper edge of said lower partition frame.
  • 28. The partition frame assembly set forth in claim 27, wherein:said lower partition frame includes [a] an elongated utility trough member positioned above said beams forming said utilities passageway.
  • 29. The partition frame assembly set forth in claim 25, wherein:said upper partition frame includes a pair of spaced-apart upper posts extending upwardly relative to said structural uprights of said lower partition panel; and each upper post defining a lower end having a pair of Aid spaced-apart rigid members extending downwardly therefrom, said rigid members interconnected with said structural uprights to rigidly interconnect said upper and lower partition frames.
  • 30. The partition frame assembly set forth in claim 29, wherein:said upper posts and said structural uprights comprise tubular members, each having substantially the same cross-sectional shape and defining inner surfaces; said rigid members comprise plates abutting said inner surfaces of said upper posts and said structural uprights.
  • 31. The partition frame assembly set forth in claim 30, wherein:said structural uprights define opposite side faces, each of which includes a vertical row of apertures for supporting hang-on accessory units; and each said plate including at least one aperture therethrough positioned in alignment with said vertical rows of apertures in said structural uprights when assembled to provide clearance for hooks of hang-on accessory units.
  • 32. The partition frame assembly set forth in claim 25, wherein:said upper partition frame includes horizontally spaced-apart upper structural uprights vertically aligned with said structural uprights of said lower partition frame; and said structural members comprise flat plates having a downwardly-opening U-shaped aperture therethrough positioned in alignment with said utilities passageway when said upper partition frame is installed on said lower partition frame.
  • 33. The partition frame assembly set forth in claim 32, wherein:said utilities passageway includes apertures through said structural uprights of said lower partition frame.
CROSS-REFERENCES TO RELATED APPLICATIONS

The present application is related to commonly assigned, co-pending U.S. patent application Ser. No. 09/060,913, filed Apr. 15, 1998, entitled KNOCK-DOWN PORTABLE PARTITION SYSTEM, and commonly assigned, co-pending U.S. patent application Ser. No. 08/914,664, filed Aug. 19, 1997, entitled KNOCK-DOWN PORTABLE PARTITION SYSTEM, and commonly assigned, co-pending U.S. patent application Ser. No. 08/856,995, filed May 15, 1997, entitled KNOCK-DOWN PORTABLE PARTITION SYSTEM, each of which is hereby incorporated by reference.

US Referenced Citations (27)
Number Name Date Kind
2636224 Murdoch et al. Apr 1953
2777172 Debbink Jan 1957
3180459 Liskey, Jr. Apr 1965
3691709 Ostborg Sep 1972
3782061 Minutoli et al. Jan 1974
4435927 Umezu et al. Mar 1984
4531564 Hanna Jul 1985
4535577 Tenser et al. Aug 1985
4685255 Kelley Aug 1987
4694621 Locke Sep 1987
4726567 Greenberg Feb 1988
4986038 Backer Jan 1991
5038539 Kelley et al. Aug 1991
5058347 Schuelke et al. Oct 1991
5070666 Looman Dec 1991
5155955 Ball et al. Oct 1992
5277007 Hellwig et al. Jan 1994
5287666 Frascaroli et al. Feb 1994
5394658 Schreiner et al. Mar 1995
5394668 Lim Mar 1995
5412913 Daniels et al. May 1995
5449169 Hardin et al. Sep 1995
5490357 Lin Feb 1996
5561960 Minnick Oct 1996
5772166 Adams Jun 1998
5787675 Futagi Aug 1998
5806258 Miedema et al. Sep 1998