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Sommaire du brevet 2121913 

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Disponibilité de l'Abrégé et des Revendications

L'apparition de différences dans le texte et l'image des Revendications et de l'Abrégé dépend du moment auquel le document est publié. Les textes des Revendications et de l'Abrégé sont affichés :

  • lorsque la demande peut être examinée par le public;
  • lorsque le brevet est émis (délivrance).
(12) Brevet: (11) CA 2121913
(54) Titre français: DISPOSITIF DE RACCORDEMENT POUR PANNEAUX MURAUX
(54) Titre anglais: CONNECTING APPARATUS FOR WALL PANEL SYSTEM
Statut: Périmé et au-delà du délai pour l’annulation
Données bibliographiques
(51) Classification internationale des brevets (CIB):
  • E04B 2/78 (2006.01)
(72) Inventeurs :
  • NIENHUIS, JAMES H. (Etats-Unis d'Amérique)
  • CLARK, JEFFREY L. (Etats-Unis d'Amérique)
  • DE PREE, MICHAEL L. (Etats-Unis d'Amérique)
  • BECK, ROBERT L. (Etats-Unis d'Amérique)
(73) Titulaires :
  • HERMAN MILLER, INC.
(71) Demandeurs :
(74) Agent: CASSAN MACLEAN
(74) Co-agent:
(45) Délivré: 1995-02-28
(22) Date de dépôt: 1991-05-09
(41) Mise à la disponibilité du public: 1991-11-19
Requête d'examen: 1994-04-21
Licence disponible: S.O.
Cédé au domaine public: S.O.
(25) Langue des documents déposés: Anglais

Traité de coopération en matière de brevets (PCT): Non

(30) Données de priorité de la demande:
Numéro de la demande Pays / territoire Date
07/526,064 (Etats-Unis d'Amérique) 1990-05-18

Abrégés

Abrégé anglais


There is disclosed an electrified wall panel
system having a power distribution server locatable
within a wall panel unit. The power distribution
server has four receptacle module ports oriented in an
H-shaped configuration in which a first receptacle port
on a first side of the wall panel unit opens toward a
first end of the wall panel unit, a second receptacle
port on the first side of the wall panel unit opens
toward a second end of the wall panel unit, a third
receptacle port on a second side of the wall panel unit
opens toward the first end of the wall panel unit, and
fourth receptacle port on the second side of the wall
panel unit opens toward the second end of the wall
panel unit. First and second harnesses are each
electrically connected at first ends thereof to the
power distribution server, extend to opposite ends of
the wall panel unit, and include connector ports on the
second ends thereof for providing electrical
interconnection of adjacent wall panel units. There is
also disclosed an electrified wall panel system with
wall panel connector interchangeably usable with the
interconnection of two, three, and four wall panel
units. The connector includes a hook member for
connecting together adjacent vertical members of frames
of adjacent wall panel units at a lower portion thereof
and a draw nut for connecting together adjacent
vertical members of frames of adjacent wall panel units
at an upper portion thereof by vertical displacement
thereof.

Revendications

Note : Les revendications sont présentées dans la langue officielle dans laquelle elles ont été soumises.


- 27 -
WHAT IS CLAIMED IS:
1. An apparatus for connecting together the
frames of two, three, or four wall panel units in a wall
panel system comprised of wall panel units connectable
together at the ends thereof to form continuous partitions.
Each wall panel unit has a frame comprised of one or more
vertical members and one or more horizontal members. The
interconnection of two or more wall panel units is made by
connecting together adjacent vertical members of the frames
of adjacent wall panel units to be interconnected;
a draw nut having at least one upwardly extending
side engagable in a first slot located at a first height in
the vertical member of the frame of a wall panel unit, a
fastening means is connectable to the draw nut and capable
of securing the draw nut to a vertical member of the frame
of the wall panel unit by vertical displacement of the draw
nut into engagement with the slot;
a hook member has an upwardly extending end
engagable in a second slot located at a second height in the
vertical member of the frame and the second slot is
vertically displaced from the first slot whereby frames of
adjacent wall panels can be interconnected.
2. The apparatus of Claim 1 further comprising:
a skeletal post locatable between the vertical
members of frames of adjacent wall panel units; and
a top plate connected to said skeletal post and
also connectable to said draw nut.
3. The apparatus of Claim 2 further comprising:
a wedge shaped member connected to said top plate
and engagable by said draw nut when said draw nut is
vertically displaced into engagement with the slot.

- 28 -
4. The apparatus of Claim 1 in which said draw
nut comprises:
a first upwardly extending side engagable in a
first slot located at a first height in the vertical member
of the frame of a first wall panel unit; and
a second upwardly extending side engagable in a
first slot located at a first height in the vertical member
of the frame of a second wall panel unit adjacent to and
longitudinally aligned with the first wall panel unit;
and further in which said fastening means is capable of
interconnecting the first and the second wall panel units
together by connection of adjacent vertical members of the
frames thereof by vertical displacement of said draw nut
into engagement with the first slot of the vertical member
of the first wall panel unit and the first slot of the
vertical member of the second wall panel unit.

Description

Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.


2121ql3
CONNECTING APPARATUS FOR WALL PANEL SYSTEM
Related Application
This application is a divisional of Application
No. 2,042,178 filed by the Applicant on 9 May, 1991.
BACKGROUND OF THE INVENTION
This invention relates generally to wall panel
systems. More specifically, the present invention relates
to electrified wall panel systems.
Wall panel systems are used extensively in
commercial and industrial settings to define workspace,
provide privacy, control traffic flow, and minimize noise.
Wall panel systems can also provide suitable structures for
use with desks, tables, shelves, trays and the like as well
as with other furniture, components, equipment and material
such as may be used in a commercial or industrial setting.
In addition, wall panel systems can be advantageously
integrated into the design and decoration of a commercial or
industrial setting.
Wall panel systems may be comprised of individual
wall panel units of various types and sizes. Wall panel
units may be full height floor-to-ceiling walls or may be
walls of less than floor-to-ceiling height, or may be
comprised of a combination of such walls of varying heights.
Wall panel units may totally enclose or only partially
enclose specific areas de-
- 1 -

2 1 2 ~ 9 1 3
pending upon the particular needs of the site. An ad-
vantage of wall panel systems of this type is that they
can be reconfigured relatively easily compared to
permanent wall structures (such as studs and drywall,
plaster, or concrete).
In using wall panel systems, it is essential
to provide electricity to workstations located in and
around the wall panel units. Present demands for elec-
trical power consumption may require the provision of
several circuits through a wall panel system. Present
demands may even require the use of one or more
isolated circuits that do not share a neutral or ground
wire with other circuits in order to minimize
electrical interference that might cause problems for
computer or communication systems. Accordingly, it is
desirable that an electric distribution system be
provided with the wall panel system that is easy to
install yet provides a high level of electrical
service.
Related to the feature of ease of installa-
tion is reconfigurability. Wall panel systems may be
preferred over permanent wall structures because of the
relative ease with which such systems can be recon-
figured to adapt to the needs of a changing or expand-
ing business. In particular, where a wall panel system
is of high quality and durable, it is possible that at
some point during the use of the wall panel system, the
user's need will change and a reconfiguration of the
wall panel system will be desired. In such a case, it
would be advantageous to have an electrical
distribution system that can also be easily reconnected
and reconfigured at the user's site either in the event
of a reconfiguration of the wall panel system or in
-- 2

' -
2121913
order to provide a different level of electric service
to an existing wall panel system.
Different types of electrical distribution
systems are provided for use with wall panel units.
One previous wall panel system that included an elec-
trical distribution system provides electrical recep-
tacles at the lower bottom corners of the wall panels.
In such a configuration, electrical receptacles may not
always be easily accessible. For example, where wall
panel units meet in a corner, the electrical recep-
tacles may be out of reach. Moreover, an electrical
connection between the corner receptacles through the
interior of the wall panel must be provided.
Accordingly, it is an object of the present invention
to provide an electrified wall panel system in which
the electrical receptacles are readily and conveniently
accessible.
It is a further object of the present inven-
tion to provide a multi-circuit electric distribution
system for wall panels that minimizes the number of
different parts and components.
It is still another object of the present
invention to provide an electrified wall panel system
that can be readily and easily reconfigured and reas-
sembled.
It is still another object of the present
invention to provide an electrified wall panel system
that can provide a high level of electric service yet
is flexible so that it can be readily and easily
assembled and reassembled without requiring substitu-
tion of different parts or components.

2121913
In accordance with the invention of this
divisional application there is provided an apparatus for
connecting together the frames of two, three, or four wall
panel units in a wall panel system comprised of wall panel
units connectable together at the ends thereof to form
continuous partitions. Each wall panel unit has a frame
comprised of one or more vertical members and one or more
horizontal members. The interconnection of two or more wall
panel units is made by connecting together adjacent vertical
members of the frames of adjacent wall panel units to be
interconnected. The apparatus comprises a draw nut having
at least one upwardly extending side engagable in a first
slot located at a first height in the vertical member of the
frame of a wall panel unit. A fastening means is
connectable to the draw nut and capable of securing the draw
nut to a vertical member of the frame of the wall panel unit
by vertical displacement of the draw nut into engagement
with the slot. A hook member has an upwardly extending end
engagable in a second slot located at a second height in the
vertical member of the frame and the second slot is
vertically displaced from the first slot whereby frames of
adjacent wall panels ca

2121913
BRIEF DESCRIPTION OF THE DRAWINGS
Figure 1 is an interior view of two adjacent wall
panel units that represent part of a wall panel system of
one embodiment of the present invention.
Figure 2 is a perspective view of a portion of the
power distribution server of another embodiment of the
present invention.
Figure 3 is a top view of the embodiment of the
power distribution server and harnesses of the present
i~.ention ~- depicted i
- 5 -

- 6 - 21 21 91 3
Figure 4 is a side view of the embodiment
depicted in Figure 3.
Figure 5 is an interior top view of a wall
panel junction with an embodiment of the present in-
vention depicted therein.
Figure 6 is a perspective view of a further
embodiment of the present invention.
Figure 7 is a perspective view of still
another embodiment of the present invention.
Figure 8 is a perspective view of yet another
embodiment of the present invention.
Figure 9 is an interior top view of a three-
way wall panel junction with an embodiment of the
present invention depicted therein.
Figure 10 is a perspective view of another
embodiment of the present invention.
Figure 11 is an interior top view of a four-
way wall panel junction with an embodiment of the
present invention depicted therein.
Figure 12 is a top view of an embodiment of
the present invention.
Figure 13 is a top view of several wall panel
junctions showing the embodiment of the present inven-
tion depicted in Figure 12.
Figure 14 is a side view of the top end of an
interconnection in accordance with an embodiment of the
present invention between adjacent wall panel units
with portion of the wall panel units cutaway.
Figure 15 is a side view of the bottom end of
the interconnection depicted in Figure 14.
Figure 16 is a top view of the
interconnection depicted in Figure 14.

2121913
DETAILED DESCRIPTION OF THE
PRESENTLY PREFERRED EMBODIMENTS
Referring to Figure 1, there is depicted a
portion of an electrified wall panel system 10 repres-
ented by two wall panel units 12 and 14. Wall panel
units 12 and 14 may be similar or identical to each
other, such as depicted in Figure 1, or may be of dif-
ferent sizes, (e.g., different heights or widths) de-
pending upon the application. Wall panel units 12 and
14 are depicted connected longitudinally at ends 16 and
18, respectively.
Wall panel units may be made of a solid core
material such as wood fiber that is then covered with a
various other materials, such as a fabric. Wall panel
units may also be made of frames covered with tiles.
The present invention may be used with panels of either
type or with any combination thereof. For purposes of
the description herein, the wall panel units will be
described as being constructed of frames and tiles
although it is understood that the wall panel units of
other types may also be used.
Wall panel units 12 and 14 in this first
preferred embodiment include frames 20 and 22,
respectively, which may be made of a metal or other
rigid structural material. The frames 20 and 22 also
typically include top rails 24 and 26 and bottom rails
28 and 30. The bottom rails 28 and 30 may include legs
or stands for placing the wall panel units on the
floor. Each wall panel unit may include a panel
insert, i.e. the tile (not shown), that attaches to the
frame thereby defining the wall. Panel tiles may be
made of various materials, including fabrics, that are
durable and provide privacy and noise-reducing

2121913
properties. Also, there may be included a baseboard
cover (also not shown) along the lower portion of the
wall panel unit. The baseboard cover may be made of a
hard, durable material such as metal or plastic. The
wall panel units may be connected together by means of
hardware associated with the frame or by means of
separate pieces as explained below.
In order to convey electrical service among
the wall panel units, electric wire or cabling is run
through the wall panel units. For this purpose, the
cabling may be run through or around the frame members
of the wall panel unit, or behind the baseboard covers
or through one or more horizontal access passageways,
e.g. channels, designed to be part of the wall panel
unit. For purposes of this embodiment, the access
passageways includes the spaces between the tiles with
provision for access through the frame members. To the
extent necessary, brackets may also be provided to
define the passageways and support the cabling and any
accessories associated therewith.
Where the wall panel units are constructed of
solid panels, the passageways may take the form of
channels formed at one or more specific heights. In
addition, with solid panel wall units, the passageway
for the cabling may be formed by mounting the solid
wall panel on narrow stilts.
In the embodiment of Figure 1, the wall panel
units 12 and 14 each include two horizontal access
passageways through the frames 20 and 22, although
fewer or more than two may be provided. The wall panel
unit 12 includes a lower access passageway channel 32
and a belt line passageway 34. The wall panel unit 14
includes a lower passageway 36 and a belt line

2121913
passageway 38. The lower passageways 32 and 36 are
alignable as are the belt line passageways 34 and 38.
The purpose of having these passageways at various
heights is for the provision of electrical service both
near the floor (via the passageways 32 and 36) and at a
belt line (via the passageways 34 and 38 which may
correspond to desk level). Depending on the electrical
service requirements, additionaI passageways can be
provided in wall panel units (or space can otherwise be
provided through wall panel units) for the provision of
electrical service. Electrical service is provided to
the wall panel units by a power distribution server 40
(also referred to as a power block). The power dis-
tribution server 40 is located in the passageway 32
approximately centrally between the ends of the wall
panel unit 12.
Power entry to the cabling in the wall panel
units may be provided by various means. For example,
an electrical connection to the cabling in the wall
panel units may be provided by ceiling entry devices
(in which a junction box is located above a suspended
ceiling), floor entry devices (in which a junction box
is located beneath the floor), hard wiring from the
building supply, or plug-in devices that can directly
engage or be plugged into the cabling.
Referring to Figure 2, in the preferred
embodiment, the power distribution server 40 includes
four receptacle ports 42, 44, 46, and 48. In the
preferred embodiment, the ports 42 and 44 are adjacent
to each other and open toward one side of the wall
panel unit, but are oriented toward opposite ends of
the wall panel unit. The ports 46 and 48 are also ad-
jacent to each other but open to the opposite side of
_ g

- lo- 2121`913
the wall panel unit. Ports 46 and 48 also are oriented
toward opposite ends of the wall panel unit. As viewed
from the top (e.g. Fig. 3), the ports on the power dis-
tribution server 40 form an "H-shaped" configuration.
Each of these ports includes an opening, such as
opening 50 in port 42, into which a receptacle module
can be engaged.
As shown in Figure 2, opening 50 has contact
channels (such as contact channel 52) located within
port 42 and stacked vertically. In this embodiment,
there are eight contact channels stacked vertically.
Corresponding to these channels 52 are contacts located
internally in the port 42 that can be engaged
electrically by a receptacle module 53. The receptacle
module 53 provides a conventional grounded duplex
outlet. With the embodiment depicted in Figure 2, four
separate circuits can be provided by the power
distribution server 40. The separate circuits
correspond to different channels in the port 42. Each
of these circuits includes a hot wire, a neutral wire,
and a ground wire although the neutral and ground wires
can be shared between circuits in certain
circumstances. Provision may also be made for an
isolated or dedicated circuit that minimizes electrical
interference. An isolated or dedicated circuit may be
particularly suitable for computer or communications
applications.
Like the port 42, the receptacle module 53
includes eight channels which correspond to and
matingly engage the eight contact channels 52.
However, the receptacle module 53 includes only three
contacts internal to these channels; the other five
channels in the receptacle module are blank (i.e.
-- 10 --

2~21913
empty). The three contacts are associated with one of
the four provided circuits in accordance with a wiring
convention established with the design of the wall
panel system. For example, in this embodiment, wires
associated with each channel (from bottom to top) are
circuit A (hot), circuit B (hot), circuit C (hot),
circuit D (hot), circuits A, B, C, (ground), circuit D
(isolated ground), circuits A, B, C, (neutral), and
circuit D (isolated neutral). According to this
feature, four circuits are available at each port. The
selection of which of the four circuits is made by
choosing a receptacle module corresponding to the
circuit desired. Typically, the module is labelled on
its front with a letter indicating which circuit it
supports, (e.g. "c"). That receptacle module will
include contacts in the appropriate channels
corresponding to the circuit desired. For example, if
circuit "c" is desired, the receptacle module chosen
will have contacts in the third, fifth, and seventh
channels (from the bottom) appropriately wired to the
receptacle module sockets.
Although the embodiment described above is
provided with four circuits (of which one is an
isolated circuit), the present invention could be
adapted to provide more than four circuits by the
addition of further channels. Furthermore, the wiring
convention for the channels described above could be
modified or adapted such as may be required for the
provision of additional circuits.
In this embodiment, the four hot wires are
#12 wire, the combined neutral is #10, the common
ground is #12, the isolated neutral is #10 and the

- 12 -
2121913
isolated ground is #12. Other sizes may be used
depending upon the power requirements.
In this embodiment, a receptacle module can
be engaged in port 42 by sliding in a lateral direction
into the opening 50. The baseboard cover of the wall
panel unit (not shown) will include openings
corresponding to the size and position of receptacle
modules for access thereto. Not all ports of the power
distribution server need to be used and blank covers
can be used with the baseboard cover to conceal unused
receptacle module ports.
Further included in the power distribution
server 40 is a receptacle module retaining means 60.
The retaining means 60 may take the form of the
brackets 62, that prevent the outward movement of a
receptacle module retained in port 42. A locking
means, such as latch 70, associated with the retaining
means 60, can secure the receptacle module in the
retaining bracket 62. Other locking means could be
adapted for use, such as springs, pins, bolts,
fasteners, links, or the like. In the embodiment
depicted in Figure 2, the receptacle module can be
removed by pressing down on the latch 70-thereby
allowing the receptacle module to be removed from port
42 by sliding first in a lateral direction away from
port 42 and then out from the brackets 62.
In the preferred embodiment, the power dis-
tribution server 40 also includes a pair of harnesses
80 and 82. The harnesses 80 and 82 provide for
connection to an electric source and also to adjacent
power distribution servers in adjacent wall panel
units. The harnesses 80 and 82 each have eight wires
therein.
- 12 -

2121913
Referring to Figure 3, there is shown a top
view of an embodiment of the power distribution server
40 including the harnesses 80 and 82. The harness 80
includes an interior connection member 86 that passes
between the ports 44 and 46 to make an electrical con-
nection with all the ports of the power distribution
server 40. The harness 80 is of a length to reach to
the end of the wall panel unit in which it is located
in order to make connection with an adjacent power
distribution server or a similar connector. In this
manner, electrical service can be provided by inter-
connection of power distribution servers.
Harness 80 is provided with a harness end
connector port 88 for the purpose of making this inter-
connection. The harness 80 also incLudes a flexible
middle portion 90 between the harness end connector
port 88 and the interior connection member 86. In this
embodiment, there is sufficient room around where the
flexible middle portion 90 is located so that harness
80 can be adaptively adjusted at the end of the wall
panel unit to make appropriate connection to adjacent
harnesses as necessary. For example, because the
middle portion 90 is flexible, the harness end
connector port 88 can be retracted inside the edge of
the wall panel unit if no further connection to the
wall panel unit will be made or for shipment or
storage. Alternatively, the harness end connector port
88 can be retracted out of the edge of the wall panel
unit in order to make further connection to an adjacent
wall panel unit either during assembly or reassembly.
Figure 4 shows a side view of the power dis-
tribution server 40 of Figure 3. The power
distribution server 40 may be connected to the wall
- 13 -

- 14 - 2121913
panel unit by means of brackets, such as the brackets
92. The brackets 92 are provided for engaging the
frame of a wall panel unit to position and align the
power distribution server in the wall panel unit.
Alternatively, the power distribution server may be
connected to the wall panel unit by means of brackets
that suspend the power distribution server 40. Other
types and configurations of bracket hardware can be
used.
The harness end connector port 88 is provided
with one or more latching arms 93. The latching arms
93 are preferably formed of the molded material of the
harness end and are flexibly resilient. Each of the
latching arms 93 includes a hooked end that engage a
notch in either another harness end connector or
another type of connector, as explained below.
Electrical connection between adjacent wall
panel units can be accomplished in different ways.
Referring to Figure 5, there is depicted a longitudinal
connection between two wall panels units 94 and 96.
The harness 82 extends through the access way 97 in the
wall panel unit 92 to the end thereof. The flexible
harness section 90 is depicted bending to circumvent a
wall panel frame. The harness end connector port 88
connects to an adjacent harness end connector port 98.
Direct coupling of two adjacent harness end connector
ports may be made when the wall panel units are aligned
longitudinally. The latching arms 93 of the harness
end connector port 88 engage a notch (not shown) in the
adjacent harness end connector port 98.
Referring to Figure 6, there is depicted
another means for interconnecting the harnesses of two
adjacent power distribution servers. In this

- 15 - 2~21913
embodiment of the invention, an inter-panel electrical
connector 100 is used to connect the harnesses of
adjacent power distribution servers. The inter-panel
electrical connector depicted in Figure 6 is of the
two-way 180 type. This inter-panel electrical
connector 100 has a body 102 and harness connector
ports 104 and 106 that are adaptable with the ports on
the harnesses. An attaching means, such as bracket 108
(which may be molded thereto), may be provided for
attaching the inter-panel electrical connector 100 to
the wall panel units or portions thereof (or a skeletal
member, as explained below) at various heights in the
wall panel unit. In addition, the inter-panel
electrical connector 100 includes notches 101 that
engage a latching arm of a harness end connector port.
In Figure 7, an inter-panel electrical
connector 112 of the two-way 90 type is shown. This
inter-panel electrical connector 112 is used for making
an electrical connection between two wall panel units
aligned at their ends in a right angle, such as at a
corner. This inter-panel electrical connector 112 has
a body 114 and harness connector ports 116 and 118.
Like the 180 connector, the 90 inter-panel electrical
connector 112 may also include an attaching means, such
as bracket 120, for attaching to a wall panel unit (or
post, as described below). The inter-panel electrical
connector 112 also includes a notch 117 for engaging a
latching arm of a harness end connector port.
Where three wall panel units meet, such as in
a T-configuration, a three-way inter-panel electrical
connector may be used to distribute electricity among
the three wall panel units. Referring to Figure 8, an
inter-panel electrical connector of the three-way type

- 16 - 2 1 2 1 9 1 3
122 is shown. The inter-panel electrical connector of
the three-way type 122 has a body 124 and three harness
connector ports 126, 128 and 130. The harness
connector ports 126 and 130 are aligned in a 180
orientation and the harness connector port 128 is
oriented 90 from the connector ports 126 and 130.
Like the previous inter-panel electrical connectors,
the inter-panel electrical connector 122 may include an
attaching means, such as bracket 132, for attaching to
a post. The inter-panel electrical connector 122
likewise includes a notches 131 for engaging latching
arms, of a harness end connector port.
Referring to Figure 9, the three-way inter-
panel electrical connector 122 is depicted providing
electrical interconnection between wall panel units
134, 136 and 138 having channels therein 140, 142 and
144, respectively. Also shown here is a skeletal
member 146 to which the bracket 132 of the three-way
inter-panel electrical connector 122 may be attached.
In Figure 10 is depicted a four-way inter-
panel electrical connector 150. The four-way inter-
panel electrical connector 150 includes a body 152 and
harness connector ports 154, 156, 158 and 160. The
harness connector ports 154, 156, 158 and 160 are
oriented in four perpendicular directions to provide
for electric distribution in a four-way connection of
wall panel units. Like the previously described inter-
panel electrical connectors, the four-way inter-panel
electrical connector 150 may include an attaching
means, such as brackets 162 and 164 for attaching to a
skeletal member.
In Figure 11, the four-way inter-panel
electrical connector 150 is depicted providing an
- 16 -

- 17 -
2121913
electrical interconnection between wall panel units
166, 168, 170 and 17-2 joined in an X configuration and
having harness ends 174, 176, 178 and 180, retained
therein, respectively.
As further shown in Figure 1, the skeletal
post or member 146 may, but does not necessarily,
extend substantially the entire height of the wall
panel units and may serve to be adapted as a structural
member used in conjunction with the interconnection of
frames 20 and 22 of wall panel units 12 and 14. The
skeletal member 146 may be positioned inside a
substantially hollow housing 147 (e.g. Figure 9)
located between the adjacent wall panel units. The
bracket 132 may provide for attachment of the inter-
panel electrical connector 122 to the skeletal member
146 by means of a threaded screw or other attaching
device that can engage the skeletal member 146 at
various heights along the height of the skeletal
member. Other fastening devices, such as clamps,
springs, pegs, pins or the like, may be used with the
fastener 132.
Another embodiment of the power distribution
server is depicted in Figure 12. This embodiment is an
integrated power distribution server 190. The inte-
grated power distribution server 190 includes power
distribution server ports 192, flexible harnesses 194
and 196 connected to the ports 192, and a pair of dual
harness end connector ports 198 and 200 preferably
permanently attached to the flexible harnesses. Each
dual harness end connector port includes two ports
matable with ports of adjacent harnesses. The dual
harness end connector ports 198 and 200 are similar in
configuration to the three-way inter-panel electrical

- 18 -
2121913
connector 122, described above, except that the dual
harness end connector ports 198 and 200 are permanently
attached to the harnesses 194 and 196, respectively,
and may be molded or otherwise attached thereto as part
of the manufacturing process. Like the harness end
connector ports of the previous embodiments, the
harness end connector ports that are oriented in the
same direction as the harness also include latching
arms and notches for making secure connections in the
direction of the harnesses. Each dual harness end con-
nector port oriented orthogonally to the harness
direction includes side notches and detents 199 for
securing to adjacent ports.
As can be seen from Figure 13, the integrated
power distribution server 190 can be utilized to make
all the usual electrical connections required in an
assembly of wall panel units. A longitudinal connec-
tion between wall panel units, such as at junction 202,
can be made by connection of dual harness end connector
ports 204 and 206. Note that at the junction 202, all
the ports of the harness ends may not be used.
However, this in no way detracts from their operation.
The integrated power distribution server can
be used to make a right angle, such as at a junction
208, by connection of dual harness end connector ports
212 and 214. Again, two ports will remain unutilized
when this connection is made.
A three-way connection is made at junction
216. There, dual harness and connector ports 220, 222
and 224 are interconnected. It can readily be observed
that a fourth wall panel unit could be added at
junction 216 because of the availability of additional
unused ports.
- 18 -

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2121913
Where a wall panel unit terminates without
connection to another wall panel unit, the dual harness
end connector port can be tucked inside the edge of the
wall panel unit. Such an arrangement is depicted at
end 230 wherein a wall 232 terminates without further
connection. The dual harness end connector port 234
remains inside wall panel end 230 of the wall panel
unit. The availability of this available extra dual
harness end connector port can be advantageous in the
event these wall panel units are aligned and recon-
figured. Since the dual harness end connector ports
are already positioned inside the wall panel units,
additional wall panel units can readily be added at
point 230.
By providing a permanently attached dual
harness end connector port as part ~f an integrated
power distribution server, the assembly can be
standardized and the number of different parts can be
thereby minimized. In addition, because the dual
harness end connector port is standardized as part of
an integrated power distribution server, the parts
necessary for providing electrical service to the wall
panel units are necessarily at hand during assembly and
even during reassembly.
Referring again to Figure 1, although not
depicted in the figure, means may be provided for
interconnection of the electrical cabling in the lower
passageways 32 and 36 with the cabling in the belt line
passageways 34 and 38 or with other passageways, if
present. Such interconnection may be provided by a
vertical electrical interconnection harness or other
hardware that is adaptable with the harness end
-- 19 --

2121913
- 20 -
connector ports used to provide inter-panel electrical
connection.
Referring to Figure 14-16, the
interconnection of adjacent wall panel units in
accordance with the present invention is depicted. The
interconnection of wall panel units as described herein
may be adapted in particular with the interconnection
and distribution of the electrical service between wall
panel units as described above. However, the means for
interconnection of wall panel units, as described
herein, may be adapted and utilized in conjunction with
wall panel systems having different means for
electrical distribution or with wall panel system that
do not include electrical distribution at all.
The means for interconnection of a wall panel
system can be used to connect two, three, or four wall
panel units together. As mentioned above, it is
necessary occasionally that two, three, or four wall
panel units meet at a single location. In previous
wall panel unit designs, at least some different
connecting hardware was necessary depending upon
whether two, three, or four wall panel units were being
connected together. This necessitated having
sufficient inventories of each on hand when a system of
wall panels was being assembled and also presented the
problem of maintaining a sufficient inventory of the
various pieces on hand in case the wall panel system
was reconfigured. Thus, in order to be sure that the
proper pieces were on hand, sufficient supplies of all
the pieces were stocked even though it was known that
not all the pieces would be used.
The invention disclosed herein for the
interconnection of wall panel units addresses the
- 20 -

- 21 - 2 1 2 1 9 1 3
problem of incompatible hardware and surplus inventory
supplies with a system that allows for the connection
of two, three, or four wall panel units using the same
hardware. A skeletal post 300 is positioned and
located between the wall panel units to be
interconnected when three or four wall panels are to be
joined and may be used when two wall panels units are
to be joined, as explained below. The skeletal post
may be a square tube made of a rigid, durable material,
such as steel, however, other shapes or materials may
also be suitable. The skeletal post would typically
have dimensions that are narrower than the thickness of
the wall panel units to allow for covering the skeletal
post with a trim piece (e.g. 147 in Figure 9) on any
side of the skeletal post to which a wall panel unit is
not connected. Preferably the skeletal post is 1 1/4
inches square and has a height that conforms to or is
less than to the dimensions of the wall panel units
being interconnected. In addition, if the wall panel
system includes an electrical distribution system,
additional space around the skeletal post between the
skeletal post and the edge of the wall panel unit can
be utilized for the location of electrical cabling or
for receptacle end connectors or for inter-panel
electrical connectors, as described above.
The interconnection of wall panel units
includes separate connections at a location of the each
wall unit toward the upper portion thereof and at a
location toward the lower portion thereof. These
connections involve different types of connecting
components, as explained below.
To the skeletal post 300, there is connected
a top plate 308. This connection may be by means of a

- 22 -
2121913
fastener such as a bolt or the like. A wedge shaped
component 312 is attached by fasteners 316 to the top
plate 308. The fasteners 316 may be threaded fasteners
such as bolts that can pass through openings in the top
plate 308 and engage threaded openings in the wedge
shaped component 312. One wedge shaped component is
used for each connection of a wall panel unit to the
top plate. The wedge shaped component may be made of a
suitably durable material, such as forged steel,
although other materials may likewise be suitable. The
wedge shaped component 312 is connected to the top
plate 308 oriented in the direction of the wall panel
unit 304 to be connected. The bottom of the wedge
shaped component is tapered in a direction away from
the wall panel unit, as shown in Figure 14. The wall
panel unit to be connected includes a slot or opening
322 at a location toward the upper portion thereof and
aligned with the tapered section of the wedge shaped
component.
Referring to Figure 15, at a lower portion of
the skeletal post are connected hook members 344 and
346. These hook members are connected by fastening
means such as bolts to the skeletal post. These hook
members are upwardly oriented hook ends that engage a
second slot 349 in the side of the vertical member of
the frame at a location in a lower portion thereof.
Again, referring to Figure 15, connected to
the hook members is a base plate 342. The base plate
may be a metal plate extending horizontally from the
skeletal post preferably not entirely all the way to an
adjacent wall panel unit. The base plate 342 includes
slots 348 on each side of the skeletal post 300 for the
connection of brackets or other hardware, such as
- 22 -

- 23 ~ 21 21 91 3
brackets 348 of inter-panel electrical connector 350.
The base plate 342 may serve to protect the electrical
connector.
To secure a wall panel unit to the skeletal
post, a wall panel unit is positioned over the hook
member to secure the lower portion of the wall panel
unit thereto. The wall panel unit need not necessarily
be bolted at the bottom as its weight is sufficient to
prevent it from coming off the hook member.
To secure the upper portion of the wall panel
unit to the top plate a draw nut 326 is tightened by a
bobbin screw 330 against the wedge shaped component and
the edge of the opening in the vertical frame member of
the wall panel unit. The draw nut may be saddle shaped
having upwardly extending tapered end portions on
either end thereof as depicted in Figure 14. These end
portions conform to the wedge shaped portion and the
wall panel unit opening. The draw nut is made of a
suitably durable material, such as forged steel,
although other materials may be used as well. Because
of the tapered shapes of the draw nut, wedge shaped
component, and wall panel unit opening, tightening the
bobbin screw secures the wall panel unit to the top
plate. A bracket 334 attached to the skeletal post 300
retains the bobbin screw/draw nut assembly. The L
shaped bracket may be suitably secured to the skeletal
post by means of fasteners such as pegs, pins, bolts,
screws, etc.
Because the connection of one wall panel unit
to another is through the wedge shaped component, if it
is desired to reconfigure the wall panel system, all
that is necessary is to bolt on (or unbolt) another
wedge shaped component to the top plate for the wall
- 23 -

- 24 -
2121913
panel unit to be added (or removed) at the upper
portion thereof and a hook member at the lower portion
thereof. Referring to Figure 16, there is depicted a
top view of the skeletal member 300, top plate 308, and
other hardware for the interconnection of three wall
panel units. (The wall panel units are not shown).
Three wedge shaped components 312, 335, and 336 are
connected to top plate 308 by fasteners, 337. The
wedge shaped components are preferably identical pieces
that can be used in any orientation. The wedge shaped
components 312, 335, and 336 are engaged by the draw
nuts, 326, 338, and 339, respectively, and tightened by
bobbin screws 330, 340, and 341, respectively. Thus, a
supply of hardware for the connection of wall panel
units need only include a sufficient supply of wedge
shaped components (and other hardware such as the draw
nuts, bobbin screws, etc.) which can be used for the
interconnection of wall panel units of any
configuration.
A significant advantage of the present
invention is that the same components may be used for
interconnection of two adjacent wall panel units
aligned end to end whether a skeletal post is used or
is omitted. When two wall units are aligned end to
end, a skeletal post may be used, for instance as shown
in Figure 1, or may be omitted, as shown in Figure 5.
The choice is sometimes optional or sometimes may be
dictated by the configuration of adjacent wall panel
units. For instance, if a three way interpanel
connection (which requires the skeletal post) is made
on parallel series of wall panel units, use of the
skeletal post member may be required (either
structurally or aesthetically) in order to make

-- 2121913
- 25 -
parallel ends line up. If the skeletal post is not
required, the draw nut may be used in conjunction with
a bottom hook to connect together adjacent wall panel
units. Figure 5 illustrates the top view of such a
panel to panel connection. In Figure 5, the adjacent
panels are connected by a draw nut 370 and bolt 372.
As in the previously described embodiments, the draw
nut engages slots located in the vertical members of
the frames of adjacent wall panel units 94 and 96. The
bottom hook is attached to the vertical members of the
frames by means of a fastener, preferably a bolt
threaded into a hole in the hook. These hook members
are upwardly oriented to engage a second slot in the
side of the vertical frame member of the frame at a
location in a lower portion thereof. The draw nut is
common to all types of panel connections, with or
without the skeletal post thus like components may be
used.
As previously mentioned, because the skeletal
post 300 is narrower than the wall panel units (and the
junction thereof), there is sufficient space around the
skeletal post for electrical cabling or electrical
connection units, such as the inter-panel electrical
connector 350 as depicted in Figure 15. Moreover, the
dimensions of the skeletal post readily provide for
other service distributions between wall panel units,
such as telephone wiring, computer cabling, etc. In
addition to the distribution between wall panel units
of electrical service as shown in Figures 1 and 15 (or
telephone and computer service), the dimensions of the
skeletal member also provide sufficient room to allow
for the distribution of such services from the top or
bottom, such as from the wall or ceiling. This allows
- 25 -

2121913
- 26 -
for an initial connection of a wall panel system to a
permanent service system or for the transmission of
service from one wall panel system to another or to a
free standing wall panel system not readily accessible
from an adjacent permanent wall.
Although the wall panel units depicted in
Figure 15 show the electrical connection distribution
associated with the base plate, the electrical
distribution can be accomplished at various heights
along the skeletal post. The electrical distribution
may be made at a belt line height, such as depicted in
Figure 1, or at other heights.
It is intended that the foregoing detailed
description be regarded as illustrative rather than
limiting and that it be understood that it is the
following claims, including all equivalents, which are
intended to define the scope of the invention.
- 26 -

Dessin représentatif
Une figure unique qui représente un dessin illustrant l'invention.
États administratifs

2024-08-01 : Dans le cadre de la transition vers les Brevets de nouvelle génération (BNG), la base de données sur les brevets canadiens (BDBC) contient désormais un Historique d'événement plus détaillé, qui reproduit le Journal des événements de notre nouvelle solution interne.

Veuillez noter que les événements débutant par « Inactive : » se réfèrent à des événements qui ne sont plus utilisés dans notre nouvelle solution interne.

Pour une meilleure compréhension de l'état de la demande ou brevet qui figure sur cette page, la rubrique Mise en garde , et les descriptions de Brevet , Historique d'événement , Taxes périodiques et Historique des paiements devraient être consultées.

Historique d'événement

Description Date
Le délai pour l'annulation est expiré 2004-05-10
Lettre envoyée 2003-05-09
Accordé par délivrance 1995-02-28
Toutes les exigences pour l'examen - jugée conforme 1994-04-21
Exigences pour une requête d'examen - jugée conforme 1994-04-21
Demande publiée (accessible au public) 1991-11-19

Historique d'abandonnement

Il n'y a pas d'historique d'abandonnement

Taxes périodiques

Le dernier paiement a été reçu le 

Avis : Si le paiement en totalité n'a pas été reçu au plus tard à la date indiquée, une taxe supplémentaire peut être imposée, soit une des taxes suivantes :

  • taxe de rétablissement ;
  • taxe pour paiement en souffrance ; ou
  • taxe additionnelle pour le renversement d'une péremption réputée.

Veuillez vous référer à la page web des taxes sur les brevets de l'OPIC pour voir tous les montants actuels des taxes.

Historique des taxes

Type de taxes Anniversaire Échéance Date payée
TM (brevet, 7e anniv.) - générale 1998-05-11 1998-04-22
TM (brevet, 8e anniv.) - générale 1999-05-10 1999-04-20
TM (brevet, 9e anniv.) - générale 2000-05-09 2000-04-20
TM (brevet, 10e anniv.) - générale 2001-05-09 2001-04-19
TM (brevet, 11e anniv.) - générale 2002-05-09 2002-04-19
TM (demande, 2e anniv.) - générale 02 1993-05-10
Titulaires au dossier

Les titulaires actuels et antérieures au dossier sont affichés en ordre alphabétique.

Titulaires actuels au dossier
HERMAN MILLER, INC.
Titulaires antérieures au dossier
JAMES H. NIENHUIS
JEFFREY L. CLARK
MICHAEL L. DE PREE
ROBERT L. BECK
Les propriétaires antérieurs qui ne figurent pas dans la liste des « Propriétaires au dossier » apparaîtront dans d'autres documents au dossier.
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Description du
Document 
Date
(aaaa-mm-jj) 
Nombre de pages   Taille de l'image (Ko) 
Description 1995-02-28 26 1 007
Page couverture 1995-02-28 1 20
Abrégé 1995-02-28 1 38
Revendications 1995-02-28 2 68
Dessins 1995-02-28 8 236
Dessin représentatif 1999-07-12 1 20
Avis concernant la taxe de maintien 2003-06-09 1 172
Taxes 1997-04-21 1 85
Taxes 1996-04-18 1 37
Taxes 1995-05-01 1 34
Taxes 1994-04-22 1 46
Taxes 1994-04-21 1 38
Correspondance reliée aux formalités 1994-12-12 1 38