Utility panel system

Information

  • Patent Grant
  • 6481168
  • Patent Number
    6,481,168
  • Date Filed
    Monday, November 20, 1995
    29 years ago
  • Date Issued
    Tuesday, November 19, 2002
    22 years ago
Abstract
A utility panel system is provided for open office spaces, and the like. Each utility panel has a relatively thick, skeleton-like frame, with a foot and opposite sides shaped for interconnection with like panel frames to create a substantially freestanding utility panel system. Cover panels are detachably connected to the opposite faces of each panel frame to enclose the same, and provide ready access to the panel interior. Horizontal utility troughs extend continuously between the opposite sides of each panel frame in a vertically stacked relationship. The utility troughs have open ends located at the opposite panel sides, and are positioned such that when adjacent utility panels are interconnected in a side-by-side relationship, the utility troughs are aligned to form multiple raceways. Panel connectors are provided to connect the utility panels with one or more of a variety of existing partition panels, such that the utility panels act as a spine which supplies utilities to the existing partition panels.
Description




BACKGROUND OF THE INVENTION




The present invention relates to portable partition arrangements for open office spaces, and the like, and in particular to a utility panel system therefore.




Portable partition systems for open office spaces, and other similar settings, are well known in the art. Individual partition panels are interconnected in different configurations to form separate offices or workstations. The partition panels are extremely durable, and can be readily disassembled and reassembled into alternative configurations to meet the ever changing needs of the user. Examples of such partition systems are provided in U.S. Pat. Nos. 3,822,146; 3,831,330; and 4,144,924, which are owned by Steelcase Inc., the assignee of the present application.




Most such partition panels are capable of being electrified in some fashion, so as to provide electrical power at the various workstations for computers, typewriters, dictating equipment, and other electrical appliances. These partition panels are also typically capable of routing cabling for telephones, computers, signaling, etc. to the individual workstations. Examples of such panel wiring systems are disclosed in U.S. Pat. Nos. 4,429,934; 4,060,294; 4,228,834; 4,382,648. Wireways and/or raceways are normally provided within the interiors of the panels to carry the utilities throughout the panel system.




The space available in present panel systems for utility raceways is rather limited. This is particularly true of some of the older style partition panel systems. The advent of computerized workstations, with sophisticated communication systems, and other electronic support equipment has greatly increased the need for partition panels to carry more power and cabling throughout the panel system.




Since many users have already made a design commitment, as well as a substantial financial investment in a particular type of existing partition panel system, which panel system is otherwise fully functionable and operable, it would clearly be beneficial to be able to easily adapt each such existing panel system for use in workstations having high intensity electrical requirements. Furthermore, it would also be highly beneficial to adapt such existing partition panel systems in a way that preserves their original aesthetic design theme or look, so as to avoid a cobbled or fragmented appearance.




SUMMARY OF THE INVENTION




One aspect of the present invention is to provide a utility panel system, wherein each panel has a relatively thick, skeleton-like frame, with a foot and opposite sides shaped for connection with like panel frames to create a substantially freestanding utility panel system. Cover panels are detachably connected to the opposite faces of the panel frame to enclose the same, and provide ready access to the panel interior. Horizontal utility troughs extend continuously between the opposite sides of the panel frame in a vertically stacked relationship. The utility troughs have open ends located at the opposite panel sides, such that when adjacent panels are interconnected in a side-by-side relationship, the utility troughs are aligned to form multiple raceways.




Panel connectors are preferably provided to connect the utility panels with one or more of a variety of existing partition panels, and thereby permit the utility panels to act as a spine which supplies utilities to the existing partition panels.




In another aspect of the present invention, each panel frame includes at least two vertical uprights positioned adjacent the ends of the utility troughs, which extend laterally outwardly thereof to avoid encroachment into the horizontal raceways, and simultaneously create at least one vertical raceway through the interior portion of the utility panel. Communication between the horizontal and vertical raceways permits utilities to be routed therebetween within the interior of the utility panel.




The principle objects of the present invention are is to provide a utility panel system capable of providing increased power and cabling to the various workstations in an open office arrangement. Each utility panel is relatively thick, with multiple horizontal troughs which align when adjacent utility panels are interconnected.




Panel connectors are provided for the attachment of existing partition panels, such that the utility panels function as a spine to supply utilities to each string of partition panels, thereby extending the effective life of existing partition panel systems. The utility panels are preferably configured so that they are visually and functually compatible with the existing partition system. Further, the utility panels and panel connectors are preferably universal in structure, such that the utility panel system can be readily adapted for use with a plurality of different types of partition panel systems. Removable panel surfaces facilitate ready access to the panel interiors to facilitate wiring and the like. An open, skeleton-like panel framework provides a very rigid, yet lightweight structure with sufficient interior space to house increased utilities, as well as to mount various equipment either partially or wholly within the confines of the panel. The utility panel has an uncomplicated design that can be easily and quickly assembled, is efficient in use, economical to manufacture, capable of a long operating life, and particularly well adapted for the proposed use.




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 perspective view of a utility panel system embodying the present invention, wherein utility panels, and existing partition panels are shown in a partially disassembled condition.





FIG. 2

is a perspective view of the utility panel system illustrated in

FIG. 2

, wherein the utility panels, and existing partition panels are shown in a fully assembled condition.





FIG. 3

is an exploded, perspective view of a utility panel.





FIG. 4

is a fragmentary, side elevational view of the utility panel.





FIG. 5

is a fragmentary, front elevational view of the utility panel.





FIG. 6

is a top plan view of a pair of utility panels directly interconnected in a side-by-side relationship.





FIG. 6A

is a fragmentary, vertical cross-sectional view of the directly interconnected utility panels, taken along the line VIA—VIA of FIG.


6


.





FIG. 7

is a top plan view of a pair of utility panels interconnected by an in-line panel connector.





FIG. 7A

is a fragmentary, vertical cross-sectional view of the utility panels and in-line panel connector, taken along the line VIIA—VIIA of FIG.


7


.





FIG. 8

is a top plan view of a pair of utility panels interconnected by a spacer panel connector.





FIG. 9

is a fragmentary, vertical cross-sectional view of the utility panels and spacer panel connector, taken along the line IX—IX of FIG.


8


.





FIG. 10

is an exploded, perspective view of a utility panel and existing panel interconnected by a T-panel connector.





FIG. 11

is a top plan view of a pair of utility panels interconnected by a T-panel connector.





FIG. 12

is a top plan view of a pair of utility panels interconnected by an L-panel connector.





FIG. 13

is a fragmentary, perspective view of a second style existing partition panel.





FIG. 14

is a perspective view of a panel connector adapted for use in conjunction with the partition panel illustrated in FIG.


13


.





FIG. 15

is a perspective view of a storage bin mounted on a utility panel.





FIG. 16

is a fragmentary, cross-sectional view of the storage bin attachment to the utility panel.





FIG. 17

is an exploded perspective view of a pair of utility panels interconnected with a partition panel by a T-panel connector.





FIG. 18

is a fragmentary, horizontal cross-sectional view of the utility panel, taken along the line XVIII—XVIII of FIG.


21


.





FIG. 19

is a fragmentary, horizontal cross-sectional view of the utility panel, taken along the line XIX—XIX of FIG.


21


.





FIG. 20

is an enlarged, fragmentary, vertical cross-sectional view of the utility panel, taken along the line XX—XX of FIG.


21


.





FIG. 21

is a fragmentary, perspective view of a is removable cover panel for the utility panel.





FIG. 22

is an exploded, perspective view of another embodiment of the utility panel.





FIG. 23

is a fragmentary, vertical cross-sectional view of a center cover panel portion of the utility panel illustrated in

FIG. 22

, taken along the line XXIII—XXIII of FIG.


22


.





FIG. 24

is a fragmentary, perspective view of the center cover panel illustrated in FIG.


22


.





FIG. 25

is a perspective view of a combination panel system incorporating the present invention.





FIG. 26

is a perspective view of yet another embodiment of the present invention.





FIG. 26A

is a front elevational view of the

FIG. 26

embodiment of the present invention.





FIG. 27

is an exploded, perspective view of the

FIG. 26

embodiment of the present invention, wherein adjacent utility panels are interconnected by a hinged, in-line panel connector.





FIG. 28

is a fragmentary, horizontal cross-sectional view of the utility panels illustrated in

FIGS. 26 and 27

.





FIG. 29

is a perspective view of the hinged, in-line panel connector illustrated in

FIGS. 26-28

.





FIG. 30

is an exploded fragmentary perspective view of the utility panel illustrated in

FIGS. 26-27

.





FIG. 31

is a perspective view of yet another embodiment of the present invention, wherein three utility panels are interconnected by a T-panel connector.





FIG. 32

is a fragmentary, horizontal cross-sectional view of the T-panel connector illustrated in FIG.


31


.





FIG. 33

is a perspective view of yet another embodiment of the present invention, wherein four utility panels are interconnected by an X-panel connector.





FIG. 34

is a fragmentary, horizontal cross-sectional view of the X-panel connector illustrated in FIG.


33


.





FIG. 35

is a front elevational view of yet another embodiment of the present invention.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS




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

FIGS. 1-5

. However, it is to understood that the invention may assume various alternative orientation 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 utility panel system embodying the present invention. In the illustrated example, a plurality of individual utility panels


2


are provided, each having a relatively thick, skeleton-like frame


3


, with a foot


4


and opposite sides


5


and


6


shaped for connection with like panel frames


3


to create a substantially freestanding utility panel system. Removable cover panels


7


(

FIGS. 2 and 3

) are detachably connected to the opposite faces of each of the panel frames


3


to enclose the same, and provide ready access to the panel interior. Horizontal utility troughs


8


(

FIG. 1

) extend continuously between the opposite sides


5


and


6


of each panel frame


3


in a vertically stacked relationship. The utility troughs


8


have open ends


9


located at the opposite panel sides


5


and


6


, such that when adjacent utility panels


2


are interconnected in a side-by-side relationship, the utility troughs


8


are aligned to form multiple raceways in which various utilities can be carried. Panel connectors


10


are provided to connect the utility panels


2


with each other, and/or one or more of a variety of existing partition panels, such as the partition panels


11


and


12


illustrated in FIG.


1


. In this configuration, utility panels


2


function as a spine which supplies utilities to strings of existing partition panels


11


and


12


.




As will be appreciated by those skilled in the art, utility panel system


1


is particularly adapted to route a wide variety of different utilities to the individual workstations within the open office. In the present example, utility panel system


1


is particularly adapted to route electrical wiring, and the like, such as 110 volt and 220 volt power lines, signal cables, communication lines, and other similar wiring and cabling that is required to equip and support modern office equipment. However, it is to be understood that other forms of utilities, such as fluid pipes for water, cooling, gases, fuels and the like, as well as air conditioning ducts, and other related is utilities can also be routed through the utility panel system


1


, such that the term “utilities”, as used herein, is intended to include all such facilities.




With reference to

FIGS. 3-6



a


, each utility panel


2


has a substantially similar construction, such that common reference numerals shall be used throughout for ease of description. Each utility panel


2


comprises an open skeleton-like frame


3


on which cover panels


7


are supported. A top cap


15


is provided to enclose and trim the upper portion of utility panel


2


, and a base assembly


16


provides a utility power system along the lower portion of the utility panel


2


, as described in greater detail hereinafter.




The illustrated panel frame


3


includes five separate utility channels or troughs


8




a


-


8




e


, each of which extends generally horizontally between the opposite sides


5


and


6


of utility panel


2


. Utility troughs


8




a


-


8




e


are arranged in a mutual parallel, vertically stacked relationship. Each utility trough


8




a


-


8




e


has a generally U-shaped side elevational configuration adapted to receive and retain various utilities therein. Utility troughs


8




a-e


are substantially identical in construction, and include a base or web


18


, with a pair of upstanding flanges


19


and


20


at opposite sides of web


18


. Utility troughs


8




a-e


are relatively wide, in the nature of 2-3 inches, and deep around 3-4 inches, and form channel-shaped wireways or raceways


21




a-e


designed for maximum utility carrying capacity, without unnecessarily impinging upon the interior space of utility panel


2


. Utility troughs


8




a-e


are extremely rigid, and in the illustrated example, are constructed from formed sheet metal. Utility troughs are preferably constructed extremely rigid so that they not only form secure raceways


22




a-e


, but also provide structural rigidity and support to the overall panel frame


3


.




Four vertical uprights


22




a-d


are positioned adjacent the opposite ends of utility troughs


8




a-e


, and are shaped to support cover panels


7


thereon. Vertical uprights


22




a-d


are positioned at the exteriors of utility troughs


8




a-e


, and extend laterally outwardly therefrom to avoid encroachment into the horizontal utility raceways


21




a-e


, and simultaneously create two vertical raceways


27


on opposite sides of the interior of the associated utility panel


2


. In the illustrated example, vertical uprights


22


are substantially identical in construction, and comprise a rigid, hollow extrusion or tube which has a substantially rectangular horizontal cross-sectional shape (FIG.


6


), comprising front and rear faces


23


and


24


, and interior and exterior side faces


25


and


26


respectively. The rear faces


24


of vertical uprights


22




a-d


are fixedly attached to the exterior surfaces of flanges


19


and


20


of each of the utility troughs


8




a-e


to create a muti-layered rigid frame with internal frame members (e.g. troughs


8




a-e


) in a central layer, and external frame members (e.g. uprights


22




a-d


) in front and rear opposing layers. In the example shown in

FIGS. 6 and 6A

, the exterior side faces


26


of vertical uprights


22




a-d


are positioned in-line or flush with the ends


9


of the associated utility troughs


8




a-e


. Vertical uprights


22




a-d


and utility troughs


8




a-e


may be fixedly interconnected by a variety of different fastening techniques, and in the illustrated example are welded together. The rigid nature of both vertical uprights


22




a-d


and utility troughs


8




a-e


, as well as their rigid interconnection, creates a very strong and rigid open grid or skeleton-like frame


3


, which does not require any auxiliary cross-bracing or the like, thereby maximizing the usable space within the interior of the utility panel


2


.




In the example illustrated in

FIGS. 1-7A

, each vertical upright


22




a-d


includes a plurality of hanger slots


30


extending through the front face


23


thereof into which hook shaped portions


64


of cover panels


7


are received, as described in greater detail hereinafter. Panel frame


3


includes three lateral connector brackets


31




a-c


disposed at the opposite ends of frame


2


, which serve in interconnecting adjacent frames


3


in a side-by-side relationship. As best illustrated in

FIGS. 4 and 5

, connector brackets


31




a-e


have a rectangular tubular construction similar to vertical uprights


22




a-d


, and extend laterally inbetween the oppositely facing vertical uprights


22




a-b


and


22




c-d


respectively, with opposite ends fixedly attached thereto.




The lowermost connector bracket


31




b


is positioned at the lower ends of vertical uprights


22


, the uppermost connector bracket


31




a


is positioned directly below the uppermost utility trough


8




a


, and the medial connector bracket


31




c


is positioned inbetween utility troughs


8




b


and


8




c


. Each connector bracket


31




a-c


includes a fastener aperture


32


which extends laterally through the connector bracket in a direction parallel with the opposite faces of utility panel


2


.




Each panel frame


3


also includes a dual glide foot assembly


4


attached to the lower ends of vertical uprights


22




a-d


at the opposite sides of utility panel


2


. With reference to

FIGS. 4 and 5

, each panel foot assembly


4


includes a pair of C-shaped brackets


35


having their upper ends fixedly attached to the lower ends of vertical uprights


22




a-d


, and their lower ends interconnected by a rigid strap


36


. Each side of the foot assembly


4


includes a pair of threaded apertures in which glide feet


37


are threadedly is received. Axial rotation of glide feet


37


with respect to foot brackets


35


adjusts the relative height of panel frame


3


. By providing each foot assembly


4


with a pair of vertically adjustable glide feet


37


, utility panel


2


has good freestanding support, and the angular orientation of the utility panel with respect to the floor surface can be readily adjusted.




Each of the illustrated utility troughs


8




a-e


(

FIG. 3

) includes two pairs of notches or cutouts


40


extending through the upper edges of channel flanges


19


and


20


. The flange notches


40


are positioned generally adjacent to the opposite ends of the utility troughs


8




a-e


, and are shaped to permit wires and/or other utilities to be pulled out from the associated utility trough, and routed into and through one of the vertical raceways


27


. In this manner, wires, or the like can be easily brought to a service point at various vertical heights along utility panel


2


, or routed through a different one of the utility troughs


8




a-e


, as best illustrated in

FIG. 1. A

raceway cover


41


(

FIG. 3

) may be used to enclose one or more of utility troughs


8


, and has an inverted U-shaped configuration, having a central web


43


, and depending flanges


44


along opposite sides thereof. The flanges


44


of raceway cover


41


are spaced so as to closely receive the opposite flanges


19


and


20


of utility troughs


8




a-e


therein to form a secure, closed raceway


21


. The illustrated cover


41


includes notches


45


through side flanges


44


, which align with the associated notches


40


in utility troughs


8




a-e


to permit wires to be routed into and through the vertical raceways


27


.




The base assembly


16


(

FIGS. 3-5

) serves to enclose that portion of panel frame


3


disposed below the lowermost utility trough


8




e


, and comprises an upwardly facing, U-shaped base channel


50


, with a pair of removable covers


51


and


52


. Base channel


50


includes a flat web


53


which extends along the floor surface, and a pair of upstanding, flexible flanges


54


, which serve as light seals along the base of utility panel


2


. Glide feet


35


protrude through apertures in base web


53


to engage the floor directly. The base side covers


51


and


52


are detachable connected with panel frame


3


, and enclose that portion of the panel frame disposed between the light seal flanges


54


and the lowermost edge of cover panels


7


. Side covers


51


and


52


are manually removable with a snap fastener, or the like, so as to readily access any utilities placed therein, such as the illustrated powerway


56


. Powerway


56


is the subject copending U.S. patent application Ser. No. 377,892 filed Jul. 10, 1989, entitled Modular Powerway For Partition Panels and the Like, which is assigned to the assignee of the present application, and is hereby incorporated herein by reference. However, it is to be understood that other types of powerways, and/or wiring systems can also be used in conjunction with utility panel


2


.




Cover panels


7


(

FIGS. 3-5

) serve to cover the opposite faces of panel frame


3


. In the illustrated example, each face of panel frame


3


includes three separate removable cover panels, comprising an upper cover panel


7




a


, a lower cover panel


7




b


, and intermediate cover panel


7




c


.




Cover panels


7




a


-


7




c


have a generally similar construction, comprising a rigid, pan-shaped inner panel


58


constructed of formed sheet metal or the like, comprising a flat front face


59


, and inwardly bent marginal edges


60


-


63


. In the cover panels


7




a-c


shown in

FIGS. 3-5

, hook shaped tabs or fasteners


64


are mounted on the side edges


62


and


63


of inner panel


58


, and are shaped to be received within the hanger slots


30


of vertical uprights


22




a-d


. A fabric, or other similar cover layer


65


may be attached to the exterior of inner panel


58


, and drawn around the marginal edges


60


-


63


thereof, so as to present a neat finished exterior appearance. Adhesive, or other similar fastening means may be used to attach the cover layer


65


to inner panel


58


.




Each of the cover panels


7




a-c


illustrated in

FIG. 3

, is shaped so that the side edges


62


and


63


are positioned substantially flush with the exterior side faces


26


of vertical uprights


22




a-d


. In this manner, when adjacent utility panels


2


are directly interconnected in a side-by-side relationship, as shown in

FIGS. 6 and 6A

, the side edges


62


and


63


of cover panel


7




a-c


will abut. The upper and lower edges


61


, of each of the cover panels


7




a-c


are spaced apart selected distances in accordance with the spacing of utility troughs


8




a-e


, and/or location of hanging furniture articles. In the illustrated example, the upper cover panel


7




a


has a height selected such that its upper edge


60


is generally flush with the upper ends of vertical uprights


22




a-d


, while its lower edge


61


is positioned generally flush with the bottom of utility trough


8




b


. The lower cover panel


7




b


has its lower edge


61


positioned substantially coplanar with the uppermost edge of base cover


51


, and its upper edge


60


positioned substantially coplanar with the top of utility trough


8




c


. Intermediate cover panel


7




c


, has its upper and lower edges


60


and


61


positioned to abut the lower edge


61


of upper panel


7




a


, and the upper edge


60


of lower panel


7




b


, respectively. In the example shown in

FIG. 3

, the upper edge


60


of intermediate panel


7




c


is disposed substantially coplanar with the bottom of utility trough


8




b


, and its lower edge


61


positioned substantially coplanar with the top of utility trough


8




c


. In this manner, removal of upper cover panel


7




a


provides ready access to utility troughs


8




a


and


8




b


, removal of lower cover panel


7




b


provides ready access to utility troughs


8




d


and


8




e


, and removal of intermediate cover panel


7




c


provides access to center utility trough


8




c.






Adjacent utility panels


2


are adapted to be interconnected in a side-by-side relationship in a number of different fashions, as required by a particular installation. In the embodiment illustrated in

FIGS. 6 and 6A

, adjacent utility panels


2


are directly interconnected, with the exterior faces


26


of adjacent vertical uprights


22




a-d


abutting one another. The two centermost utility panels


2


illustrated in

FIG. 1

are directly interconnected in this fashion. In this embodiment, through bolts


68


(

FIGS. 6 & 6A

) are inserted through the apertures


32


of each adjacent pair of connector brackets


31




a-c


. A nut


69


is threaded onto the free end of each bolt


68


, and tightened, so that adjacent utility panels


2


are securely interconnected in the illustrated flush relationship. This type of flush interconnection can be used when it is not necessary to hang furniture articles from the utility panels


2


. When utility panels


2


are interconnected in the flush relationship discussed above, the ends


9


of adjacent utility troughs


8




a-e


are aligned and in sufficiently close proximity to form a substantially continuous raceway throughout the utility panel system


1


.




Alternative techniques for interconnecting adjacent utility panels


2


are illustrated in

FIGS. 7-17

wherein different style panel connectors


10


are used, particularly when utility panels


2


are used as a spine to feed strings of existing partition panels, such as the illustrated partition panels


11


and


12


. In the example illustrated in

FIG. 1

, partition panels


11


and


12


represent two different styles of existing partition panels that are presently manufactured and sold by Steelcase Inc., assignee of the present application. Partition panel


12


is a partially schematic illustration of a panel manufactured and sold by Steelcase Inc. under the “Series 9000” trademark, additional details of which are disclosed in U.S. Pat. Nos. 4,144,924 and 4,203,639, as identified in Applicant's associated Information Disclosure Statement. In general, each of the “Series 9000” partition panels


12


includes a two-piece bracket


72


mounted along both side edges thereof in which flexible hinge strips


73


are received and retained. The use of a single hinge strip


73


to interconnect adjacent “Series 9000” panels permits the


12


partition panels to be rotated with respect to one another, whereas the use of two hinge strips


73


interconnects adjacent “Series 9000” panels in a fixed in-line condition.




A different style partition panel is indicated by the reference numeral


11


, and in the illustrated example, comprises a panel manufactured and sold by Steelcase Inc. under the “Valencia” trademark, additional details of which are apparent from the Applicant's associated Information Disclosure Statement. Unlike the flexible hinge connector arrangement incorporated into the “Series 9000” panel system discussed above, the ““Valencia”” panel system employs separate connector posts


75


to interconnect adjacent partition panels


11


. Each “Valencia” brand partition panel is has a pair of windowed brackets


76


(

FIG. 14

) attached to the opposite sides thereof, and the connector posts


75


have a mating tab bracket


77


, which interlocks with the windowed bracket


76


, as described in greater detail hereinafter. The “Valencia” connector post rigidly interconnects adjacent partition panels


11


in either an in-line, “T”, or “X” configuration.




It is to be understood that while utility panel system


1


is disclosed herein for use in conjunction with Steelcase “Series 9000” and “Valencia” brand partition panels


11


and


12


, it is equally applicable to other types of partition systems, including those associated with panel manufacturers other than Steelcase Inc.




The panel connector


10


illustrated in

FIGS. 7 and 7A

is particularly designed for interconnecting utility panels


2


that are used in conjunction with Steelcase “Series 9000” brand partition panels


12


. The illustrated in-line panel connector is designated by the reference numeral


80


, and in general comprises two pairs of brackets


81


and


82


, which are shaped to be fastened to the rear faces


24


of vertical uprights


22




a-d


by suitable fastening means, such as the illustrated bolts


83


. As best illustrated in

FIG. 10

, brackets


81


and


82


have a generally L-shaped top plan configuration, and are elongate, extending generally along the entire side of utility panel frame


3


. Each bracket


81


and


82


has a two-part construction, with a channel


84


formed inbetween the outer and inner bracket halves


81




a


and


81




b


at the outwardly extending flange


85


thereof, which is shaped similar to the bracket


72


in the “Series 9000” panels so as to receive a flexible hinge


73


therein. The opposite flange


86


and bracket


84


includes cut out notches


87


in which the ends


9


of utility troughs


8




a-e


are received, and apertures


88


through which the fastener bolts


83


extend to mount the brackets


81


and


82


to the vertical uprights


22




a-d


. Three spacer blocks


89


are also provided, and are positioned between the three connector brackets


31




a-c


of panel frame


3


. Each connector block


89


includes a longitudinally extending aperture


90


in which through bolts


68


are received, as best illustrated in

FIGS. 7 and 7A

. Connector blocks


89


fill in the space or gap formed between the ends


9


of adjacent utility troughs


8




a-e


, so that the raceway


21


has a substantially continuous construction. Two flexible hinges


73


(

FIG. 7

) interconnect both pairs of brackets


81


and


82


, and thereby create a visual appearance very similar to that of the “Series 9000” panels


12


to maintain a uniform design theme.




An in-line spacer connector


94


is illustrated in

FIGS. 8 and 9

, and is somewhat similar to the in-line connector


80


described above. Spacer connector


94


is also adapted to be used in conjunction with utility panels


2


that are to be interconnected with “Series 9000” panels


12


, and includes two pairs of brackets


95


and


96


, which are substantially identical to the brackets


81


and


82


of in-line connector


80


. Bolts


97


attach the interior flanges


98


of brackets


95


and


96


to the rear faces


24


of vertical uprights


22




a-d


. The exterior flanges


99


of brackets


95


and


96


each carry a channel


100


in which one of the side beads of flexible hinge


73


is received, and a series of slots


101


in which furniture articles, such as the binder bin


108


illustrated in

FIG. 15

, may be hung. Three connector blocks


102


, somewhat longer than connector blocks


89


, are provided is to span the distance between the three connector brackets


31




a-c


of adjacent utility panels


2


. Each connector block


102


includes two threaded apertures


103


in which mounting bolts


104


are threadedly secured. A pair of filler posts


105


are positioned inbetween brackets


95


and


96


, and include a generally flat outer surface


106


designed to mate aesthetically with the exterior appearance of utility panels


2


. Each filler post


105


includes a plurality of inwardly facing, U-shaped clips


107


attached to the interior face thereof, in which the side edges of connector blocks


102


are received to secure filler post


105


in place. In the illustrated example, U-shaped clips


107


have a snap lock detent which mates with associated recesses in the connector blocks


102


to securely, yet removably retain the filler posts


105


in place.




A T-panel connector


110


is illustrated in

FIG. 11

, and incorporates parts identical to those already described hereinabove. More specifically, T-panel connector


110


includes two pairs of brackets


111


and


112


, which are substantially identical to previously described brackets


81


-


82


and


95


-


96


. Three connector blocks


113


, identical to connector blocks


102


, extend between the three connector brackets


31




a-c


of adjacent panel frames


3


, and are securely interconnected thereto by bolts


114


. A single filler post


115


, identical to one of the filler posts


105


, is mounted on one side of the adjacent utility panels


2


, and a pair of flexible hinges


73


attach a standard “Series 9000” panel


12


to the bracket pair


111


on the opposite side of utility panels


2


.




An L-panel connector


120


is illustrated in

FIG. 12

, and is adapted to interconnect two adjacent utility panels


2


in a 90 degree configuration. L-panel connector


120


includes a generally L-shaped frame


121


with two pairs of brackets


122


and


123


, similar to brackets


81


and


82


attached to the opposite flanges thereof. U-shaped clips


124


are received over the connector brackets


31




a-c


of adjacent vertical uprights


22




a-e


, and include bolts


125


to securely interconnect the same. A single, flexible hinge


73


interconnects the bracket pair


123


on the interior side of the utility panels


2


, while an L-shaped cover


126


extends between and encloses the free ends of connector frame


121


.




An alternative T-panel connector


77


is illustrated in

FIGS. 13 and 14

, and is particularly adapted for interconnecting two utility panels


2


with a “Valencia” style partition panel


11


in a T-configuration. The “Valencia” T-panel connector


77


comprises a central fastener web


131


, having a pair of L-shaped channels


132


and


133


fixedly interconnected along opposite sides thereof. The connector channels


132


and


133


include fastener apertures


134


through which fasteners are inserted to attach the connector


77


to the rearward faces


24


of adjacent vertical uprights


22




a


&


c


and


22




b


&


d


respectively, in a fashion substantially identical to the attachment of connector


80


, as described above. In a T-configuration, a cover panel (not shown) is positioned over the connector


77


that is not attached to a partition panel


11


. The web


131


of connector


130


carries outwardly protruding tabs


135


which are matingly received through windows


136


in the connector bracket


76


of an adjacent “Valencia” panel


11


. A collar


137


is mounted at the upper end of web


131


, and is engagingly received by an enlarged portion


138


of a lock bolt


139


on “Valencia” panel is


12


. Windows


140


are formed through the web


131


of connector


77


, and are positioned for alignment with the utility troughs


8




a-e


of an associated utility panel


2


, such that the utilities, such as wires, and the like can be routed from the utility troughs


8




a-e


of the associated utility panel


2


through bracket windows


140


, and into the interior of “Valencia” panel


12


.




As best illustrated in

FIGS. 1 and 2

, utility panels


2


are particularly adapted to be interconnected in an in-line relationship using either a flush type connection (FIG.


6


-


6


A), or one of the panel connectors


10


to form a central spine from which strings of partition panels


11


and


12


T-off in a 90 degree orientation. The additional utility carrying capability of the utility panels


2


thereby greatly increases the effective life and operation of the existing panels


11


and


12


by adapting them for use in electrically intensive workstations. Also, the fact that different panel connectors


10


can be attached to the same utility panel


2


, lends universal functionality to the utility panel system


2


and adapts the same for use with a wide variety of different types of partition systems. The different panel connectors


10


not only account for the different fastening techniques used to interconnect various partition panels, but they also replicate the outward appearance of the particular panel system, so that the utility panels


2


blend in visually as well as functionally. Superior distribution and management of communications, signal cabling and electrical power, network connections, as well as HVAC is also achieved by permitting the utility panels


2


to carry the major burden or load of the utilities.





FIG. 17

illustrates a pair of utility panels


2


interconnected with a “Series 9000” panel


12


in a “T” configuration. An alternative filler post


144


is illustrated for use in conjunction with thinner partition panels, as well as an associated top cap


145


to enclose the upper portion of the joint. A standard style top can


146


is also illustrated for use in conjunction with filler post


105


. An end cap


146


is provided to cover the end of utility panel


2


in an end-of-run condition, and has a construction generally similar to filler post


105


. The intermediate cover panel


7




c


illustrated in

FIG. 17

includes a flexible accessway disposed along the lower edge


61


thereof. In the illustrated example, the lower edge


61


of cover panel


7




b


includes an elongate notch


148


which is selectively closed by a flexible strip


149


, in nature of a brush or bristle, which is mounted immediately behind notch


148


by a clip


150


(FIG.


21


). Flexible strip


149


permits wires to be easily drawn out from utility trough


8




c


, while maintaining a neat, closed appearance.




As best illustrated in

FIG. 22

, intermediate cover panels


7




c


may also have a second notch


153


and associated flexible strip


154


disposed along the upper edge


60


thereof. In this fashion, wires and/or other utilities can be easily drawn from utility trough


7




b


through the upper notch


153


and associated flexible strip


154


.




Also illustrated in

FIG. 22

is an optional top power-in channel assembly


157


, which includes an end channel


158


that mounts with bolts (not shown) along one side of utility panel


2


, and includes a closure cap


159


, or an alternative top power-in extender tube


160


. The utility panel


2


illustrated in

FIG. 22

also includes an alternative top panel assembly or clerestory


162


, which mounts to the is top of utility panel


2


, and can be used to extend the overall height of the utility panel.





FIG. 25

illustrates a combination of utility panels


2


and “Series 9000” panels


12


that includes a mating door frame


163


, hanging binder bins


108


, and freestanding furniture


164


.





FIGS. 26-34

illustrate yet another embodiment of the present invention, wherein utility panels


2


′ are arranged in a spine configuration with different height “Series 9000” partition panels


12


′. Since the alternative utility panel arrangement


1


′ is similar to the previously described utility panel system


1


, similar parts appearing in

FIGS. 1-25

and

FIGS. 26-34

respectively are represented by the same, corresponding reference numeral, except for the prime suffix in the numerals of the latter.




In utility panel system


1


′, adjacent utility panels


2


′ are arranged in an in-line spine configuration, with “Series 9000” panel connected thereto by T-connectors


110


′. As best illustrated in

FIGS. 26 and 26A

, the lower cover panels


7




b


′ of utility panels


2


′ have a two-part construction, comprising an outer cover panel


165


, having an inverted U-shaped front elevational configuration, and an inner cover panel


166


mounted within the outer cover panel


165


. Both cover panels


165


and


166


are detachably connected with the panel frame


3


′, and can be independently removed therefrom. Inner cover panel


166


is shaped such that it can be removed from panel frame


3


′, even when a worksurface is hung in place on utility panel


2


′. This arrangement permits quick and easy rearrangement of utilities within utility panel


2


′. The opposite, or aisle side (not shown) of utility panel


2


′, preferably has three plain cover panels


7


′, similar to the cover panels


7




a-c


illustrated in FIG.


3


.




With reference to

FIG. 26

, the illustrated top power-in assembly


157


′ includes a separate, enclosed power raceway


177


which extends downwardly through extender


160


′ and end cap


158


′ into the base


16


′ of the associated utility panel


2


′ to provide electrical power to the system. A pair of top cable-in assemblies


178


are provided on two other utility panels


2


′ to route cabling throughout utility panel system


1


′.




As best illustrated in

FIGS. 27-29

, in utility panel


2


′, the pairs of connector brackets


81


′ and


82


′ are formed in one-piece (hereinafter designated


81


′) with the inner halves


81




a


″ of the brackets welded to the vertical uprights


22




a′-d


′ of panel frame


3


′. The exterior portions


81




b


′ of brackets


81


′ are bolted to the interior portions


81




a


′ thereof, and are in turn interconnected by a pair of flexible hinges


73


′. Connector brackets


81


′ include a plurality of windows


168


in both halves arranged to be aligned with the utility troughs


8




a′-e


′. Cover panels


7


′ are attached to the associated panel frames


3


′ with spring clips


167


(FIG.


28


), which permit removal of the cover panels


7


′ with a direct horizontal motion, thereby eliminating the need for clearance at the top and/or bottom of the cover panel for removal purposes.




As best illustrated in

FIG. 30

, the base assembly


16


′ of utility panel


2


′ is fully enclosed, and includes a bottom tray


170


enclosed by base cover panels


51


′ and


52


′. Also, the utility troughs


8




a′-e


′ (

FIG. 27

) of utility panel


2


′ are preferably spaced more than six inches apart to meet high level security requirements, especially with respect to eavesdropping, and other similar shielding problems.





FIGS. 31 and 32

illustrate interconnecting three utility panels


2


′ in a T-configuration, using a T-connector


172


. Each utility panel


2


′ has an innerbracket


81




a


′ welded along the side edge thereof, with an associated outer bracket


81




b


′ which form channels


100


′ in which flexible hinges


73


′ are received. An elongate cover


173


is mounted along the open side of the joint to enclose the same.





FIGS. 33 and 34

illustrate interconnecting four utility panels


2


′ in an X-configuration, using an X-connector


175


. X-connector


175


is substantially identical to T-connector


172


, except for the addition of an extra set of brackets


81


′ at the open side of the connector.





FIG. 35

illustrates yet another embodiment of the present invention, wherein utility troughs


8




b


′ and


8




c


′ are detachably mounted within the associated panel frame


3


′. In this manner, utility troughs


8




b


′ and


8




c


′ can be removed from frame


3


′, and the cover panels


7


′ reconfigured to create a window or pass through


177


area in utility panel


2


′.




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 upright partition for use in a modular office furniture system, the partition comprising:a frame, comprising: a central layer including at least two elongated beam-like internal frame members each having outward opposing faces defining spaced apart parallel forward and rearward planes that extend along outboard boundaries of the central layer; and opposing layers including a plurality of elongated beam-like external frame members juxtaposed outboard of the forward and rearward planes, at least one of said external frame members overlapping the at least two elongated internal frame members along each said forward plane and rearward plane, each external frame member having an inward face and an outward face, the inward face of each external frame member being connected to at least one of the outward faces of each said internal frame members in a moment-resisting fixed connection; and a plurality of covers each connected to said frame and having an inner surface, said frame defining an internal cavity inward of the outward faces of said external frame members, and at least one raceway outward of said outward faces of the internal frame members and inward of the inner surfaces of the covers.
  • 2. The upright partition defined in claim 1 wherein the internal and external frame members abuttingly overlappingly engage at each moment-resisting fixed connection.
  • 3. The upright partition defined in claim 2 wherein the internal and external frame members include planar sections that abuttingly overlappingly engage at the moment-resisting fixed connections.
  • 4. The upright partition defined in claim 1 wherein at least one of said moment-resisting fixed connections includes a weld for rigidly interconnecting the internal and external frame members.
  • 5. The upright partition defined in claim 4 wherein said moment-resisting fixed connections include a weld securing the internal and external frame members together.
  • 6. The upright partition defined in claim 1 wherein said covers each include connectors for releasably engaging one or more of the external frame members.
  • 7. The upright partition defined in claim 6 wherein at least one of said covers includes a concave inner surface.
  • 8. The upright partition defined in claim 7 wherein said at least one cover is pan shaped.
  • 9. The upright partition defined in claim 7 wherein said at least one cover includes a main panel comprising sheet metal.
  • 10. The upright partition defined in claim 7 wherein said at least one cover includes cover edges that are substantially flush with a side edge of the outward faces of said external frame members.
  • 11. The upright partition defined in claim 1 wherein at least some of said covers include metal providing electrical shielding for wires positioned in the at least one raceway.
  • 12. The upright partition defined in claim 1 wherein at least one of the internal frame members and the external frame members extend horizontally a width of the frame so that the one frame member can be aligned with a corresponding horizontal portion of an adjacent partition.
  • 13. The upright partition defined in claim 1 including a horizontally-extending panel-to-panel connector for interconnecting said frame with an adjacent partition.
  • 14. The upright partition defined in claim 1 including a top panel assembly having a second frame which mounts to the top of said first-mentioned frame to extend the overall height of the upright partition.
  • 15. The upright partition defined in claim 14 wherein the second frame includes connectors that mateably engage an upper end of one or more of said internal and external frame members.
  • 16. The upright partition defined in claim 15 wherein said top panel assembly includes a subframe having at least one vertical frame member configured to telescopingly engage the upper end of said one frame member on the first mentioned frame.
  • 17. The upright partition defined in claim 16 wherein said top panel assembly includes a sheet-like panel mounted on said subframe.
  • 18. The upright partition defined in claim 1 including a panel connector attached to a vertical side edge of said frame for connecting an adjacent non-aligned partition.
  • 19. The upright partition defined in claim 1 wherein at least one of the internal and external frame members comprise tubular beams.
  • 20. The upright partition defined in claim 19 wherein the plurality of external frame members each comprise tubular beams.
  • 21. The upright partition defined in claim 1 wherein the plurality of external frame members are spaced apart and define therebetween at least one continuous and substantially uninterrupted passageway extending from end to end of the external frame members, the uninterrupted passageway forming a part of said internal cavity.
  • 22. The upright partition defined in claim 21 wherein said external frame members extend continuously between opposing edges of said frame.
  • 23. The upright partition defined in claim 22 wherein said external frame members each define a continuous cross sectional shape.
  • 24. The upright partition defined in claim 21 wherein the at least two internal frame members are spaced apart and define therebetween at least one continuous and substantially uninterrupted second passageway extending transversely to the first-mentioned passageway and from end to end of the internal frame members, the second passageway forming a part of said internal cavity.
  • 25. The upright partition defined in claim 24 wherein said internal frame members extend continuously between opposing edges of said frame.
  • 26. The upright partition defined in claim 25 wherein said internal frame members each define a continuous cross sectional shape.
  • 27. The upright partition defined in claim 1 wherein at least one of the internal and external frame members comprises an open channel that extends horizontally across the frame for supporting wires therein.
  • 28. The upright partition defined in claim 1 wherein said plurality of external frame members include pairs of parallel external frame members, at least one of said external frame members of each pair being connected to the associated outward opposing faces of each said internal frame member.
  • 29. The upright partition defined in claim 1 wherein one of said internal and external frame members include at least three frame members that are spaced from each other at uniform intervals.
  • 30. The upright partition defined in claim 1 wherein each said cover includes hook-shaped clips for releasably coupling to at least one said external frame member.
  • 31. The upright partition defined in claim 1 wherein one of said internal and external frame members comprises a horizontal channel.
  • 32. The upright partition defined in claim 1 wherein at least one of said internal and external frame members is U shaped in cross section.
  • 33. The upright partition defined in claim 1 wherein the internal frame members comprise channels.
  • 34. The upright partition defined in claim 1 including releasable securing means on at least one of said internal and external frame members for securing said one frame member to frames of like partitions in a modular assembly.
  • 35. The upright partition defined in claim 1 wherein one of the internal and external frame members include a series of vertically disposed slots in their outward faces that are constructed to receive and support hooked connectors for suspending furniture components upon the one frame members.
  • 36. The upright partition defined in claim 1 including a furniture component mounted on the frame.
  • 37. The upright partition defined in claim 36 wherein the furniture component includes a binder bin.
  • 38. The upright partition defined in claim 1 wherein the covers comprise formed sheet metal.
  • 39. The upright partition defined in claim 1 wherein said covers include a configured cover defining an aperture whereby wires and cables can pass between the internal cavity of the frame and equipment external to the partition.
  • 40. The upright partition defined in claim 39 wherein said configured cover includes a flexible strip for aesthetically covering the aperture.
  • 41. The upright partition defined in claim 1 wherein at least one of said covers includes an electrical power outlet in an outward surface thereof.
  • 42. The upright partition defined in claim 1 including cable support structure on said frame for supporting cables within said frame.
  • 43. The upright partition defined in claim 42 wherein said cable support structure includes vertically extending cable-management members on one of said internal and external frame members.
  • 44. The upright partition defined in claim 43 wherein said cable-management members include flanges on the internal frame members that define upwardly open pockets for receiving and holding cables therein.
  • 45. The upright partition defined in claim 44 wherein said internal frame members define a channel including said flanges, said flanges including cutouts to permit convenient and managed ingress and egress of cables from the channels.
  • 46. A partition system comprising at least two of the upright partitions defined in claim 1, the frames of said at least two upright partitions being preassembled separate units that are positioned adjacently and interconnected to form a wall covered by said plurality of covers.
  • 47. A freestanding, portable partition for open building spaces, comprising:a skeleton frame having opposite faces, a foot portion adapted to abuttingly support said partition on a floor surface, and orthogonally related edges, at least one of said orthogonally related edges being shaped for direct connection with a corresponding edge on an adjacent partition to create a substantially freestanding utility panel system; at least one cover shaped to cover at least a portion of each one of the faces of said skeleton frame, said at least one cover being detachably connected with said skeleton frame to provide ready access to an interior portion of said partition and having a concave inner surface; and said skeleton frame including a central layer of spaced apart, structural parallel internal frame members and also including front and rear layers of spaced apart, structural parallel external frame members that extend generally orthogonally to said internal frame members, said internal frame members being rigidly secured to at least one of the external frame members, and said external frame members being rigidly secured to at least one of the internal frame members, said internal frame members defining a central space therebetween that extends between a first opposing pair of the edges of the skeleton frame, and said external frame members defining at least one front utility management path in said front layer and at least one rear utility management path in said rear layer, the front and rear utility management paths being defined between the adjacent external frame members in the front and rear layers and extending between a second opposing pair of the edges of the skeleton frame, the central space and the first and second utility management paths being in communication, the at least one cover defining a portion of one of the utility management paths, whereby utilities can be selectively and conveniently routed through the central space and the first and second utility management paths substantially the height of the space frame, the width of the space frame, and to adjacent partitions.
  • 48. The upright partition defined in claim 47 wherein said at least one cover is pan shaped.
  • 49. The upright partition defined in claim 47 wherein said at least one cover includes a main panel comprising sheet metal.
  • 50. The upright partition defined in claim 47 wherein said at least one cover includes cover edges that are substantially flush with the outward faces of said external frame members.
  • 51. The partition defined in claim 47 wherein the external frame members each extend horizontally continuously between the vertical side edges.
  • 52. A freestanding, portable partition for open building spaces, comprising:a skeleton frame having opposite faces, a foot portion adapted to abuttingly support said partition on a floor surface, and orthogonally related edges, at least one of said orthogonally related edges being shaped for direct connection with a corresponding edge on an adjacent partition to create a substantially freestanding utility panel system; at least one cover shaped to cover at least a portion of each one of the faces of said skeleton frame, said at least one cover being detachably connected with said skeleton frame to provide ready access to an interior portion of said partition; said skeleton frame including a central layer of spaced apart, structural parallel internal frame members and also including front and rear layers of spaced apart, structural parallel external frame members that extend generally orthogonally to said internal frame members, said internal frame members being rigidly secured to at least one of the external frame members, and said external frame members being rigidly secured to at least one of the internal frame members, said internal frame members defining a central space therebetween that extends between a first opposing pair of the edges of the skeleton frame, and said external frame members defining at least one front utility management path in said front layer and at least one rear utility management path in said rear layer, the front and rear utility management paths being defined between the adjacent external frame members in the front and rear layers and extending between a second opposing pair of the edges of the skeleton frame, the central space and the first and second utility management paths being in communication, the at least one cover defining a portion of one of the utility management paths, whereby utilities can be selectively and conveniently routed through the central space and the first and second utility management paths substantially the height of the space frame, the width of the space frame, and to adjacent partitions; and a top panel assembly having a second frame which mounts to the top of said first-mentioned frame to extend the overall height of the upright partition.
  • 53. The upright partition defined in claim 52 wherein the second frame includes connectors that mateably engage an upper end of one or more of said internal and external frame members.
  • 54. The upright partition defined in claim 53 wherein said top panel assembly includes a subframe having at least one vertical frame member configured to telescopingly engage the upper end of said one frame member on the first mentioned frame.
  • 55. The upright partition defined in claim 54 wherein said top panel assembly includes a sheet-like panel mounted on said subframe.
  • 56. The partition defined in claim 52 wherein the external frame members each extend horizontally continuously between the vertical side edges.
  • 57. A freestanding, portable partition for open building spaces, comprising:a skeleton frame having opposite faces, a foot portion adapted to abuttingly support said partition on a floor surface, and orthogonally related edges, at least one of said orthogonally related edges being shaped for direct connection with a corresponding edge on an adjacent partition to create a substantially freestanding utility panel system; at least one cover shaped to cover at least a portion of each one of the faces of said skeleton frame, said at least one cover being detachably connected with said skeleton frame to provide ready access to an interior portion of said partition; said skeleton frame including a central layer of spaced apart, structural parallel internal frame members and also including front and rear layers of spaced apart, structural parallel external frame members that extend generally orthogonally to said internal frame members, said internal frame members being rigidly secured to at least one of the external frame members, and said external frame members being rigidly secured to at least one of the internal frame members, said internal frame members defining a central space therebetween that extends between a first opposing pair of the edges of the skeleton frame, and said external frame members defining at least one front utility management path in said front layer and at least one rear utility management path in said rear layer, the front and rear utility management paths being defined between the adjacent external frame members in the front and rear layers and extending between a second opposing pair of the edges of the skeleton frame, the central space and the first and second utility management paths being in communication, the at least one cover defining a portion of one of the utility management paths, whereby utilities can be selectively and conveniently routed through the central space and the first and second utility management paths substantially the height of the space frame, the width of the space frame, and to adjacent partitions; and a panel connector attached to a vertical side edge of said frame for connecting an adjacent non-aligned partition.
  • 58. A freestanding, portable partition for open building spaces, comprising:a skeleton frame having opposite faces, a foot portion adapted to abuttingly support said partition on a floor surface, and orthogonally related edges, at least one of said orthogonally related edges being shaped for direct connection with a corresponding edge on an adjacent partition to create a substantially freestanding utility panel system; at least one cover shaped to cover at least a portion of each one of the faces of said skeleton frame, said at least one cover being detachably connected with said skeleton frame to provide ready access to an interior portion of said partition; and said skeleton frame including a central layer of spaced apart, structural parallel internal frame members and also including front and rear layers of spaced apart, structural parallel external frame members that extend generally orthogonally to said internal frame members, said internal frame members being rigidly secured to at least one of the external frame members, and said external frame members being rigidly secured to at least one of the internal frame members, said internal frame members defining a central space therebetween that extends between a first opposing pair of the edges of the skeleton frame, and said external frame members defining at least one front utility management path in said front layer and at least one rear utility management path in said rear layer, the front and rear utility management paths being defined between the adjacent external frame members in the front and rear layers and extending between a second opposing pair of the edges of the skeleton frame, the central space and the first and second utility management paths being in communication, the at least one cover defining a portion of one of the utility management paths, whereby utilities can be selectively and conveniently routed through the central space and the first and second utility management paths substantially the height of the space frame, the width of the space frame, and to adjacent partitions, wherein the plurality of external frame members each comprise tubular beams.
  • 59. The partition defined in claim 58 wherein the external frame members each extend horizontally continuously between the vertical side edges.
  • 60. A freestanding, portable partition for open building spaces, comprising:a skeleton frame having opposite faces, a foot portion adapted to abuttingly support said partition on a floor surface, and orthogonally related edges, at least one of said orthogonally related edges being shaped for direct connection with a corresponding edge on an adjacent partition to create a substantially freestanding utility panel system; at least one cover shaped to cover at least a portion of each one of the faces of said skeleton frame, said at least one cover being detachably connected with'said skeleton frame to provide ready access to an interior portion of said partition; and said skeleton frame including a central layer of spaced apart, structural parallel internal frame members and also including front and rear layers of spaced apart, structural parallel external frame members that extend generally orthogonally to said internal frame members, said internal frame members being rigidly secured to at least one of the external frame members, and said external frame members being rigidly secured to at least one of the internal frame members, said internal frame members defining a central space therebetween that extends between a first opposing pair of the edges of the skeleton frame, and said external frame members defining at least one front utility management path in said front layer and at least one rear utility management path in said rear layer, the front and rear utility management paths being defined between the adjacent external frame members in the front and rear layers and extending between a second opposing pair of the edges of the skeleton frame, the central space and the first and second utility management paths being in communication, the at least one cover defining a portion of one of the utility management paths, whereby utilities can be selectively and conveniently routed through the central space and the first and second utility management paths substantially the height of the space frame, the width of the space frame, and to adjacent partitions; and wherein each said cover includes hook-shaped clips for releasably coupling to at least one said external frame member.
  • 61. A freestanding, portable partition for open building spaces, comprising:a skeleton frame having opposite faces, a foot portion adapted to abuttingly support said partition on a floor surface, and orthogonally related edges, at least one of said orthogonally related edges being shaped for direct connection with a corresponding edge on an adjacent partition to create a substantially freestanding utility panel system; at least one cover shaped to cover at least a portion of each one of the faces of said skeleton frame, said at least one cover being detachably connected with said skeleton frame to provide ready access to an interior portion of said partition; said skeleton frame including a central layer of spaced apart, structural parallel internal frame members and also including front and rear layers of spaced apart, structural parallel external frame members that extend generally orthogonally to said internal frame members, said internal frame members being rigidly secured to at least one of the external frame members, and said external frame members being rigidly secured to at least one of the internal frame members, said internal frame members defining a central space therebetween that extends between a first opposing pair of the edges of the skeleton frame, and said external frame members defining at least one front utility management path in said front layer and at least one rear utility management path in said rear layer, the front and rear utility management paths being defined between the adjacent external frame members in the front and rear layers and extending between a second opposing pair of the edges of the skeleton frame, the central space and the first and second utility management paths being in communication, the at least one cover defining a portion of one of the utility management paths, whereby utilities can be selectively and conveniently routed through the central space and the first and second utility management paths substantially the height of the space frame, the width of the space frame, and to adjacent partitions; and a furniture component mounted on the frame.
  • 62. The upright partition defined in claim 61 wherein the internal and external frame members are interconnected by overlapping moment-resisting connections.
  • 63. The upright partition defined in claim 62 wherein the internal and external frame members include sections that abuttingly engage.
  • 64. The upright partition defined in claim 61 wherein at least one of said moment-resisting connections includes a weld for rigidly interconnecting the internal and external frame members.
  • 65. The upright partition defined in claim 64 wherein said moment-resisting connections each include a weld securing the internal and external frame members together.
  • 66. The upright partition defined in claim 61 wherein said covers each include connectors for releasably engaging one or more of the external frame members.
  • 67. The upright partition defined in claim 61 wherein at least some of said covers include metal providing electrical shielding for wires positioned in one of the first and second utility management paths.
  • 68. The upright partition defined in claim 61 wherein at least one of the internal frame members and the external frame members extend horizontally a width of the frame so that one frame member can be aligned with a corresponding horizontal portion of an adjacent partition.
  • 69. The upright partition defined in claim 61 including a horizontally-extending panel-to-panel connector for interconnecting said frame with an adjacent partition.
  • 70. The upright partition defined in claim 61 wherein at least one of the internal and external frame members comprise tubular beams.
  • 71. The upright partition defined in claim 61 wherein the plurality of external frame members are spaced apart and define therebetween at least one continuous and substantially uninterrupted passageway extending from end to end of the external frame members, the uninterrupted passageway forming a part of said internal cavity.
  • 72. The upright partition defined in claim 71 wherein said external frame members extend continuously between opposing edges of said frame.
  • 73. The upright partition defined in claim 72 wherein said external frame members each define a continuous cross sectional shape.
  • 74. The upright partition defined in claim 71 wherein the at least two internal frame members are spaced apart and define therebetween at least one continuous and substantially uninterrupted second passageway extending transversely to the first-mentioned passageway and from end to end of the internal frame members, the second passageway forming a part of said internal cavity.
  • 75. The upright partition defined in claim 74 wherein said internal frame members extend continuously between opposing edges of said frame.
  • 76. The upright partition defined in claim 75 wherein said internal frame members each define a continuous cross sectional shape.
  • 77. The upright partition defined in claim 61 wherein at least one of the internal and external frame members comprises an open channel that extends horizontally across the frame for supporting wires therein.
  • 78. The upright partition defined in claim 61 wherein said plurality of external frame members include pairs of parallel external frame members, at least one of said external frame members of each pair being connected to the associated outward opposing faces of each said internal frame member.
  • 79. The upright partition defined in claim 61 wherein one of said internal and external frame members include at least three frame members that are spaced from each other at uniform intervals.
  • 80. The upright partition defined in claim 61 wherein one of said internal and external frame members comprises a horizontal channel.
  • 81. The upright partition defined in claim 61 wherein at least one of said internal and external frame members is U shaped in cross section.
  • 82. The upright partition defined in claim 61 wherein the internal frame members comprise channels.
  • 83. The upright partition defined in claim 61 including releasable securing means on at least one of said internal and external frame members for securing said one frame member to frames of like partitions in a modular assembly.
  • 84. The upright partition defined in claim 61 wherein one of the internal and external frame members includes a series of vertically disposed slots in their outward faces that are constructed to receive and support hooked connectors for suspending furniture components upon the one frame members.
  • 85. The upright partition defined in claim 61 wherein the furniture component includes a binder bin.
  • 86. The upright partition defined in claim 61 wherein the covers comprise formed sheet metal.
  • 87. The upright partition defined in claim 61 wherein said covers include a configured cover defining an aperture whereby wires and cables can pass between the internal cavity of the frame and equipment external to the partition.
  • 88. The upright partition defined in claim 61 including cable support structure on said frame for supporting cables within said frame.
  • 89. The upright partition defined in claim 88 wherein said cable support structure includes vertically extending cable-management members on one of said internal and external frame members.
  • 90. The upright partition defined in claim 89 wherein said cable-management members include flanges on the internal frame members that define upwardly open pockets for receiving and holding cables therein.
  • 91. The upright partition defined in claim 90 wherein said internal frame members define a channel including said flanges, said flanges including cutouts to permit convenient and managed ingress and egress of cables from the channels.
  • 92. A partition system comprising at least two of the upright partitions defined in claim 61, the frames of said at least two upright partitions being preassembled separate units that are positioned adjacently and interconnected to form a wall covered by said plurality of covers.
  • 93. The partition defined in claim 61 wherein the external frame members each extend horizontally continuously between the vertical side edges.
  • 94. A freestanding, portable partition for open building spaces, comprising:a skeleton frame having opposite faces, a foot portion adapted to abuttingly support said partition on a floor surface, and orthogonally related edges, at least one of said orthogonally related edges being shaped for direct connection with a corresponding edge on an adjacent partition to create a substantially freestanding utility panel system; at least one cover shaped to cover at least a portion of each one of the faces of said skeleton frame, said at least one cover being detachably connected with said skeleton frame to provide ready access to an interior portion of said partition; said skeleton frame including a central layer of spaced apart, structural parallel internal frame members and also including front and rear layers of spaced apart, structural parallel external frame members that extend generally orthogonally to said internal frame members, said internal frame members being rigidly secured to at least one of the external frame members, and said external frame members being rigidly secured to at least one of the internal frame members, said internal frame members defining a central space therebetween that extends between a first opposing pair of the edges of the skeleton frame, and said external frame members defining at least one front utility management path in said front layer and at least one rear utility management path in said rear layer, the front and rear utility management paths being defined between the adjacent external frame members in the front and rear layers and extending between a second opposing pair of the edges of the skeleton frame, the central space and the first and second utility management paths being in communication, the at least one cover defining a portion of one of the utility management paths, whereby utilities can be selectively and conveniently routed through the central space and the first and second utility management paths substantially the height of the space frame, the width of the space frame, and to adjacent partitions; and wherein said covers include a configured cover defining an aperture whereby wires and cables can pass between the internal cavity of the frame and equipment external to the partition, and wherein said configured cover includes a flexible strip for aesthetically covering the aperture.
  • 95. The partition defined in claim 94 wherein the external frame members each extend horizontally continuously between the vertical side edges.
  • 96. A freestanding, portable partition for open building spaces, comprising:a skeleton frame having opposite faces, a foot portion adapted to abuttingly support said partition on a floor surface, and orthogonally related edges, at least one of said orthogonally related edges being shaped for direct connection with a corresponding edge on an adjacent partition to create a substantially freestanding utility panel system; at least one cover shaped to cover at least a portion of each one of the faces of said skeleton frame, said at least one cover being detachably connected with said skeleton frame to provide ready access to an interior portion of said partition; said skeleton frame including a central layer of spaced apart, structural parallel internal frame members and also including front and rear layers of spaced apart, structural parallel external frame members that extend generally orthogonally to said internal frame members, said internal frame members being rigidly secured to at least one of the external frame members, and said external frame members being rigidly secured to at least one of the internal frame members, said internal frame members defining a central space therebetween that extends between a first opposing pair of the edges of the skeleton frame, and said external frame members defining at least one front utility management path in said front layer and at least one rear utility management path in said rear layer, the front and rear utility management paths being defined between the adjacent external frame members in the front and rear layers and extending between a second opposing pair of the edges of the skeleton frame, the central space and the first and second utility management paths being in communication, the at least one cover defining a portion of one of the utility management paths, whereby utilities can be selectively and conveniently routed through the central space and the first and second utility management paths substantially the height of the space frame, the width of the space frame, and to adjacent partitions, wherein at least one of said covers includes an electrical power outlet in an outward surface thereof.
  • 97. The partition defined in claim 96 wherein the external frame members each extend horizontally continuously between the vertical side edges.
  • 98. An upright partition for use in a modular office furniture system, the partition comprising:a frame comprising: at least two elongated internal frame members each having outward opposing faces defining spaced apart parallel forward and rearward planes; a plurality of elongated external frame members, at least one of said external frame members overlapping the at least two elongated internal frame members in each said plane, each external frame member having an inward face and an outward face, the inward face of each external frame member being connected to one of the outward faces of each said internal frame member in a moment-resisting fixed connection; and a plurality of covers each connected to said frame and having an inner surface, whereby an internal cavity is defined inward of the outward faces of said external frame members, and at least one raceway is defined outward of said outward faces of the internal frame members and inward of the inner surfaces of the covers, at least one of the covers including a concave inner surface; a panel connector attached to a vertical side edge of said frame for connecting an adjacent non-aligned partition; and a furniture component mounted on the frame.
  • 99. The upright partition defined in claim 98, wherein the internal and external frame members have a continuous cross-section and are separate structural components rigidly connected together at the fixed connections to construct a rigid assembly.
  • 100. A freestanding portable partition for open building spaces, comprising:a prefabricated rigid skeleton frame having a pair of opposing vertical side edges and a pair of horizontal side edges; said frame including a plurality of parallel first frame members forming a central layer in said partition when viewed from one of the side edges, the plurality of first frame members being spaced apart and defining at least one feedthrough wire management cavity extending between and opening onto one pair of the side edges, said first frame member having first outer faces defining boundaries of the central layer; said frame further including a plurality of parallel second frame members fixedly attached to and extending substantially perpendicular to said first frame members, said second frame members being spaced apart and having opposing second outer faces located substantially outward of the first outer faces so as to form a pair of outer layers in the partition located outboard of the first outer faces and inward of the second outer faces when viewed from one of the side edges, each said outer layers including at least one substantially uninterrupted lay-in wire management cavity extending between and opening onto another pair of the side edges of the frame, the lay-in wire management cavity being substantially unaffected by wires in the feedthrough wire management cavity because of the previously mentioned positioning of the first and second frame members and their respective first and second outer faces; and a plurality of covers removably attached to the frame, the covers covering the frame and enclosing the wire management cavities without encroaching into or blocking open ends of the wire management cavities on the side edges of the frame, the second frame members including apertures, and the covers including connectors for engaging the apertures for cover attachment.
  • 101. The partition defined in claim 100 the plurality of second frame members include some second frame members located in one of the outer layers but characteristically not in the other outer layer.
  • 102. The partition defined in claim 101 wherein the plurality of second frame members include front frame members located entirely in one of the outer layers and rear frame members located entirely in the other outer layer.
  • 103. The partition defined in claim 100 wherein the first frame members each extend horizontally continuously between the vertical side edges.
  • 104. The partition defined in claim 103 wherein the second frame members each extend vertically.
  • 105. The partition defined in claim 100 wherein one of the first and second frame members define a trough.
  • 106. The partition defined in claim 100 wherein the second frame members are tubular.
  • 107. The partition defined in claim 100 wherein the at least one lay-in wire management cavity includes multiple parallel lay-in wire management cavities.
  • 108. The partition defined in claim 100 wherein the feedthrough and lay-in wire management cavities are separate and distinct, but are juxtaposed and overlapping so that wiring and utilities can be easily routed between the feedthrough and lay-in wire management cavities and from the partition to another partition located adjacent the partition.
CROSS REFERENCE TO RELATED APPLICATIONS

This is a continuation application of copending prior application Ser. No. 08/271,376, filed Jul. 6, 1994, in the name of Ronald R. Hodges, et al. for UTILITY PANEL SYSTEM, now U.S. Pat. No. 5,487,246, which is a continuation of prior application Ser. No. 08/036,067, filed Mar. 23, 1993, in the name of Ronald R. Hodges et al. for UTILITY PANEL SYSTEM, now U.S. Pat. No. 5,341,615, which is a continuation of prior application Ser. No. 07/639,513, filed Jan. 10, 1991, in the name of Ronald R. Hodges et al. for UTILITY PANEL SYSTEM, now U.S. Pat. No. 5,209,035.

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Entry
Prior art publication entitled Elective Elements Cable Management Panel Installation (7 pages).
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Progetto 25.90 by Unifor, Inc. U.S.A., Long Island City, New York (5 pgs), date unknown—prior to Jan. 1, 1991.
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Continuations (3)
Number Date Country
Parent 08/271376 Jul 1994 US
Child 08/559832 US
Parent 08/036067 Mar 1993 US
Child 08/271376 US
Parent 07/639513 Jan 1991 US
Child 08/036067 US